pandora/static/pdf.js/pdf.worker.js

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/* Copyright 2012 Mozilla Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
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/* jshint globalstrict: false */
/* umdutils ignore */
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(function (root, factory) {
'use strict';
if (typeof define === 'function' && define.amd) {
define('pdfjs-dist/build/pdf.worker', ['exports'], factory);
} else if (typeof exports !== 'undefined') {
factory(exports);
} else {
factory((root.pdfjsDistBuildPdfWorker = {}));
}
}(this, function (exports) {
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// Use strict in our context only - users might not want it
'use strict';
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var pdfjsVersion = '1.4.193';
var pdfjsBuild = '9d1c5b9';
var pdfjsFilePath =
typeof document !== 'undefined' && document.currentScript ?
document.currentScript.src : null;
var pdfjsLibs = {};
(function pdfjsWrapper() {
(function (root, factory) {
{
factory((root.pdfjsCoreArithmeticDecoder = {}));
}
}(this, function (exports) {
/* This class implements the QM Coder decoding as defined in
* JPEG 2000 Part I Final Committee Draft Version 1.0
* Annex C.3 Arithmetic decoding procedure
* available at http://www.jpeg.org/public/fcd15444-1.pdf
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*
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* The arithmetic decoder is used in conjunction with context models to decode
* JPEG2000 and JBIG2 streams.
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*/
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var ArithmeticDecoder = (function ArithmeticDecoderClosure() {
// Table C-2
var QeTable = [
{qe: 0x5601, nmps: 1, nlps: 1, switchFlag: 1},
{qe: 0x3401, nmps: 2, nlps: 6, switchFlag: 0},
{qe: 0x1801, nmps: 3, nlps: 9, switchFlag: 0},
{qe: 0x0AC1, nmps: 4, nlps: 12, switchFlag: 0},
{qe: 0x0521, nmps: 5, nlps: 29, switchFlag: 0},
{qe: 0x0221, nmps: 38, nlps: 33, switchFlag: 0},
{qe: 0x5601, nmps: 7, nlps: 6, switchFlag: 1},
{qe: 0x5401, nmps: 8, nlps: 14, switchFlag: 0},
{qe: 0x4801, nmps: 9, nlps: 14, switchFlag: 0},
{qe: 0x3801, nmps: 10, nlps: 14, switchFlag: 0},
{qe: 0x3001, nmps: 11, nlps: 17, switchFlag: 0},
{qe: 0x2401, nmps: 12, nlps: 18, switchFlag: 0},
{qe: 0x1C01, nmps: 13, nlps: 20, switchFlag: 0},
{qe: 0x1601, nmps: 29, nlps: 21, switchFlag: 0},
{qe: 0x5601, nmps: 15, nlps: 14, switchFlag: 1},
{qe: 0x5401, nmps: 16, nlps: 14, switchFlag: 0},
{qe: 0x5101, nmps: 17, nlps: 15, switchFlag: 0},
{qe: 0x4801, nmps: 18, nlps: 16, switchFlag: 0},
{qe: 0x3801, nmps: 19, nlps: 17, switchFlag: 0},
{qe: 0x3401, nmps: 20, nlps: 18, switchFlag: 0},
{qe: 0x3001, nmps: 21, nlps: 19, switchFlag: 0},
{qe: 0x2801, nmps: 22, nlps: 19, switchFlag: 0},
{qe: 0x2401, nmps: 23, nlps: 20, switchFlag: 0},
{qe: 0x2201, nmps: 24, nlps: 21, switchFlag: 0},
{qe: 0x1C01, nmps: 25, nlps: 22, switchFlag: 0},
{qe: 0x1801, nmps: 26, nlps: 23, switchFlag: 0},
{qe: 0x1601, nmps: 27, nlps: 24, switchFlag: 0},
{qe: 0x1401, nmps: 28, nlps: 25, switchFlag: 0},
{qe: 0x1201, nmps: 29, nlps: 26, switchFlag: 0},
{qe: 0x1101, nmps: 30, nlps: 27, switchFlag: 0},
{qe: 0x0AC1, nmps: 31, nlps: 28, switchFlag: 0},
{qe: 0x09C1, nmps: 32, nlps: 29, switchFlag: 0},
{qe: 0x08A1, nmps: 33, nlps: 30, switchFlag: 0},
{qe: 0x0521, nmps: 34, nlps: 31, switchFlag: 0},
{qe: 0x0441, nmps: 35, nlps: 32, switchFlag: 0},
{qe: 0x02A1, nmps: 36, nlps: 33, switchFlag: 0},
{qe: 0x0221, nmps: 37, nlps: 34, switchFlag: 0},
{qe: 0x0141, nmps: 38, nlps: 35, switchFlag: 0},
{qe: 0x0111, nmps: 39, nlps: 36, switchFlag: 0},
{qe: 0x0085, nmps: 40, nlps: 37, switchFlag: 0},
{qe: 0x0049, nmps: 41, nlps: 38, switchFlag: 0},
{qe: 0x0025, nmps: 42, nlps: 39, switchFlag: 0},
{qe: 0x0015, nmps: 43, nlps: 40, switchFlag: 0},
{qe: 0x0009, nmps: 44, nlps: 41, switchFlag: 0},
{qe: 0x0005, nmps: 45, nlps: 42, switchFlag: 0},
{qe: 0x0001, nmps: 45, nlps: 43, switchFlag: 0},
{qe: 0x5601, nmps: 46, nlps: 46, switchFlag: 0}
];
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// C.3.5 Initialisation of the decoder (INITDEC)
function ArithmeticDecoder(data, start, end) {
this.data = data;
this.bp = start;
this.dataEnd = end;
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this.chigh = data[start];
this.clow = 0;
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this.byteIn();
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this.chigh = ((this.chigh << 7) & 0xFFFF) | ((this.clow >> 9) & 0x7F);
this.clow = (this.clow << 7) & 0xFFFF;
this.ct -= 7;
this.a = 0x8000;
}
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ArithmeticDecoder.prototype = {
// C.3.4 Compressed data input (BYTEIN)
byteIn: function ArithmeticDecoder_byteIn() {
var data = this.data;
var bp = this.bp;
if (data[bp] === 0xFF) {
var b1 = data[bp + 1];
if (b1 > 0x8F) {
this.clow += 0xFF00;
this.ct = 8;
} else {
bp++;
this.clow += (data[bp] << 9);
this.ct = 7;
this.bp = bp;
}
} else {
bp++;
this.clow += bp < this.dataEnd ? (data[bp] << 8) : 0xFF00;
this.ct = 8;
this.bp = bp;
}
if (this.clow > 0xFFFF) {
this.chigh += (this.clow >> 16);
this.clow &= 0xFFFF;
}
},
// C.3.2 Decoding a decision (DECODE)
readBit: function ArithmeticDecoder_readBit(contexts, pos) {
// contexts are packed into 1 byte:
// highest 7 bits carry cx.index, lowest bit carries cx.mps
var cx_index = contexts[pos] >> 1, cx_mps = contexts[pos] & 1;
var qeTableIcx = QeTable[cx_index];
var qeIcx = qeTableIcx.qe;
var d;
var a = this.a - qeIcx;
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if (this.chigh < qeIcx) {
// exchangeLps
if (a < qeIcx) {
a = qeIcx;
d = cx_mps;
cx_index = qeTableIcx.nmps;
} else {
a = qeIcx;
d = 1 ^ cx_mps;
if (qeTableIcx.switchFlag === 1) {
cx_mps = d;
}
cx_index = qeTableIcx.nlps;
}
} else {
this.chigh -= qeIcx;
if ((a & 0x8000) !== 0) {
this.a = a;
return cx_mps;
}
// exchangeMps
if (a < qeIcx) {
d = 1 ^ cx_mps;
if (qeTableIcx.switchFlag === 1) {
cx_mps = d;
}
cx_index = qeTableIcx.nlps;
} else {
d = cx_mps;
cx_index = qeTableIcx.nmps;
}
}
// C.3.3 renormD;
do {
if (this.ct === 0) {
this.byteIn();
}
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a <<= 1;
this.chigh = ((this.chigh << 1) & 0xFFFF) | ((this.clow >> 15) & 1);
this.clow = (this.clow << 1) & 0xFFFF;
this.ct--;
} while ((a & 0x8000) === 0);
this.a = a;
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contexts[pos] = cx_index << 1 | cx_mps;
return d;
}
};
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return ArithmeticDecoder;
})();
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exports.ArithmeticDecoder = ArithmeticDecoder;
}));
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(function (root, factory) {
{
factory((root.pdfjsCoreBidi = {}));
}
}(this, function (exports) {
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// Character types for symbols from 0000 to 00FF.
var baseTypes = [
'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'S', 'B', 'S', 'WS',
'B', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN',
'BN', 'BN', 'B', 'B', 'B', 'S', 'WS', 'ON', 'ON', 'ET', 'ET', 'ET', 'ON',
'ON', 'ON', 'ON', 'ON', 'ON', 'CS', 'ON', 'CS', 'ON', 'EN', 'EN', 'EN',
'EN', 'EN', 'EN', 'EN', 'EN', 'EN', 'EN', 'ON', 'ON', 'ON', 'ON', 'ON',
'ON', 'ON', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L',
'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'ON', 'ON',
'ON', 'ON', 'ON', 'ON', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L',
'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L',
'L', 'ON', 'ON', 'ON', 'ON', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'B', 'BN',
'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN',
'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN', 'BN',
'BN', 'CS', 'ON', 'ET', 'ET', 'ET', 'ET', 'ON', 'ON', 'ON', 'ON', 'L', 'ON',
'ON', 'ON', 'ON', 'ON', 'ET', 'ET', 'EN', 'EN', 'ON', 'L', 'ON', 'ON', 'ON',
'EN', 'L', 'ON', 'ON', 'ON', 'ON', 'ON', 'L', 'L', 'L', 'L', 'L', 'L', 'L',
'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L',
'L', 'ON', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L',
'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L',
'L', 'L', 'L', 'ON', 'L', 'L', 'L', 'L', 'L', 'L', 'L', 'L'
];
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// Character types for symbols from 0600 to 06FF
var arabicTypes = [
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'CS', 'AL', 'ON', 'ON', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM',
'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AN', 'AN', 'AN', 'AN', 'AN', 'AN', 'AN', 'AN', 'AN',
'AN', 'ET', 'AN', 'AN', 'AL', 'AL', 'AL', 'NSM', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM',
'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'NSM', 'ON', 'NSM',
'NSM', 'NSM', 'NSM', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL',
'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL', 'AL'
];
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function isOdd(i) {
return (i & 1) !== 0;
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}
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function isEven(i) {
return (i & 1) === 0;
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}
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function findUnequal(arr, start, value) {
for (var j = start, jj = arr.length; j < jj; ++j) {
if (arr[j] !== value) {
return j;
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}
}
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return j;
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}
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function setValues(arr, start, end, value) {
for (var j = start; j < end; ++j) {
arr[j] = value;
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}
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}
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function reverseValues(arr, start, end) {
for (var i = start, j = end - 1; i < j; ++i, --j) {
var temp = arr[i];
arr[i] = arr[j];
arr[j] = temp;
}
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}
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function createBidiText(str, isLTR, vertical) {
return {
str: str,
dir: (vertical ? 'ttb' : (isLTR ? 'ltr' : 'rtl'))
};
}
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// These are used in bidi(), which is called frequently. We re-use them on
// each call to avoid unnecessary allocations.
var chars = [];
var types = [];
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function bidi(str, startLevel, vertical) {
var isLTR = true;
var strLength = str.length;
if (strLength === 0 || vertical) {
return createBidiText(str, isLTR, vertical);
}
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// Get types and fill arrays
chars.length = strLength;
types.length = strLength;
var numBidi = 0;
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var i, ii;
for (i = 0; i < strLength; ++i) {
chars[i] = str.charAt(i);
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var charCode = str.charCodeAt(i);
var charType = 'L';
if (charCode <= 0x00ff) {
charType = baseTypes[charCode];
} else if (0x0590 <= charCode && charCode <= 0x05f4) {
charType = 'R';
} else if (0x0600 <= charCode && charCode <= 0x06ff) {
charType = arabicTypes[charCode & 0xff];
} else if (0x0700 <= charCode && charCode <= 0x08AC) {
charType = 'AL';
}
if (charType === 'R' || charType === 'AL' || charType === 'AN') {
numBidi++;
}
types[i] = charType;
}
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// Detect the bidi method
// - If there are no rtl characters then no bidi needed
// - If less than 30% chars are rtl then string is primarily ltr
// - If more than 30% chars are rtl then string is primarily rtl
if (numBidi === 0) {
isLTR = true;
return createBidiText(str, isLTR);
}
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if (startLevel === -1) {
if ((strLength / numBidi) < 0.3) {
isLTR = true;
startLevel = 0;
} else {
isLTR = false;
startLevel = 1;
}
}
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var levels = [];
for (i = 0; i < strLength; ++i) {
levels[i] = startLevel;
}
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/*
X1-X10: skip most of this, since we are NOT doing the embeddings.
*/
var e = (isOdd(startLevel) ? 'R' : 'L');
var sor = e;
var eor = sor;
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/*
W1. Examine each non-spacing mark (NSM) in the level run, and change the
type of the NSM to the type of the previous character. If the NSM is at the
start of the level run, it will get the type of sor.
*/
var lastType = sor;
for (i = 0; i < strLength; ++i) {
if (types[i] === 'NSM') {
types[i] = lastType;
} else {
lastType = types[i];
}
}
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/*
W2. Search backwards from each instance of a European number until the
first strong type (R, L, AL, or sor) is found. If an AL is found, change
the type of the European number to Arabic number.
*/
lastType = sor;
var t;
for (i = 0; i < strLength; ++i) {
t = types[i];
if (t === 'EN') {
types[i] = (lastType === 'AL') ? 'AN' : 'EN';
} else if (t === 'R' || t === 'L' || t === 'AL') {
lastType = t;
}
}
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/*
W3. Change all ALs to R.
*/
for (i = 0; i < strLength; ++i) {
t = types[i];
if (t === 'AL') {
types[i] = 'R';
}
}
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/*
W4. A single European separator between two European numbers changes to a
European number. A single common separator between two numbers of the same
type changes to that type:
*/
for (i = 1; i < strLength - 1; ++i) {
if (types[i] === 'ES' && types[i - 1] === 'EN' && types[i + 1] === 'EN') {
types[i] = 'EN';
}
if (types[i] === 'CS' &&
(types[i - 1] === 'EN' || types[i - 1] === 'AN') &&
types[i + 1] === types[i - 1]) {
types[i] = types[i - 1];
}
}
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/*
W5. A sequence of European terminators adjacent to European numbers changes
to all European numbers:
*/
for (i = 0; i < strLength; ++i) {
if (types[i] === 'EN') {
// do before
var j;
for (j = i - 1; j >= 0; --j) {
if (types[j] !== 'ET') {
break;
}
types[j] = 'EN';
}
// do after
for (j = i + 1; j < strLength; --j) {
if (types[j] !== 'ET') {
break;
}
types[j] = 'EN';
}
}
}
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/*
W6. Otherwise, separators and terminators change to Other Neutral:
*/
for (i = 0; i < strLength; ++i) {
t = types[i];
if (t === 'WS' || t === 'ES' || t === 'ET' || t === 'CS') {
types[i] = 'ON';
}
}
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/*
W7. Search backwards from each instance of a European number until the
first strong type (R, L, or sor) is found. If an L is found, then change
the type of the European number to L.
*/
lastType = sor;
for (i = 0; i < strLength; ++i) {
t = types[i];
if (t === 'EN') {
types[i] = ((lastType === 'L') ? 'L' : 'EN');
} else if (t === 'R' || t === 'L') {
lastType = t;
}
}
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/*
N1. A sequence of neutrals takes the direction of the surrounding strong
text if the text on both sides has the same direction. European and Arabic
numbers are treated as though they were R. Start-of-level-run (sor) and
end-of-level-run (eor) are used at level run boundaries.
*/
for (i = 0; i < strLength; ++i) {
if (types[i] === 'ON') {
var end = findUnequal(types, i + 1, 'ON');
var before = sor;
if (i > 0) {
before = types[i - 1];
}
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var after = eor;
if (end + 1 < strLength) {
after = types[end + 1];
}
if (before !== 'L') {
before = 'R';
}
if (after !== 'L') {
after = 'R';
}
if (before === after) {
setValues(types, i, end, before);
}
i = end - 1; // reset to end (-1 so next iteration is ok)
}
}
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/*
N2. Any remaining neutrals take the embedding direction.
*/
for (i = 0; i < strLength; ++i) {
if (types[i] === 'ON') {
types[i] = e;
}
}
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/*
I1. For all characters with an even (left-to-right) embedding direction,
those of type R go up one level and those of type AN or EN go up two
levels.
I2. For all characters with an odd (right-to-left) embedding direction,
those of type L, EN or AN go up one level.
*/
for (i = 0; i < strLength; ++i) {
t = types[i];
if (isEven(levels[i])) {
if (t === 'R') {
levels[i] += 1;
} else if (t === 'AN' || t === 'EN') {
levels[i] += 2;
}
} else { // isOdd
if (t === 'L' || t === 'AN' || t === 'EN') {
levels[i] += 1;
}
}
}
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/*
L1. On each line, reset the embedding level of the following characters to
the paragraph embedding level:
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segment separators,
paragraph separators,
any sequence of whitespace characters preceding a segment separator or
paragraph separator, and any sequence of white space characters at the end
of the line.
*/
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// don't bother as text is only single line
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/*
L2. From the highest level found in the text to the lowest odd level on
each line, reverse any contiguous sequence of characters that are at that
level or higher.
*/
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// find highest level & lowest odd level
var highestLevel = -1;
var lowestOddLevel = 99;
var level;
for (i = 0, ii = levels.length; i < ii; ++i) {
level = levels[i];
if (highestLevel < level) {
highestLevel = level;
}
if (lowestOddLevel > level && isOdd(level)) {
lowestOddLevel = level;
}
}
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// now reverse between those limits
for (level = highestLevel; level >= lowestOddLevel; --level) {
// find segments to reverse
var start = -1;
for (i = 0, ii = levels.length; i < ii; ++i) {
if (levels[i] < level) {
if (start >= 0) {
reverseValues(chars, start, i);
start = -1;
}
} else if (start < 0) {
start = i;
}
}
if (start >= 0) {
reverseValues(chars, start, levels.length);
}
}
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/*
L3. Combining marks applied to a right-to-left base character will at this
point precede their base character. If the rendering engine expects them to
follow the base characters in the final display process, then the ordering
of the marks and the base character must be reversed.
*/
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// don't bother for now
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/*
L4. A character that possesses the mirrored property as specified by
Section 4.7, Mirrored, must be depicted by a mirrored glyph if the resolved
directionality of that character is R.
*/
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// don't mirror as characters are already mirrored in the pdf
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// Finally, return string
for (i = 0, ii = chars.length; i < ii; ++i) {
var ch = chars[i];
if (ch === '<' || ch === '>') {
chars[i] = '';
}
}
return createBidiText(chars.join(''), isLTR);
}
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exports.bidi = bidi;
}));
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(function (root, factory) {
{
factory((root.pdfjsCoreCharsets = {}));
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}
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}(this, function (exports) {
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var ISOAdobeCharset = [
'.notdef', 'space', 'exclam', 'quotedbl', 'numbersign', 'dollar',
'percent', 'ampersand', 'quoteright', 'parenleft', 'parenright',
'asterisk', 'plus', 'comma', 'hyphen', 'period', 'slash', 'zero',
'one', 'two', 'three', 'four', 'five', 'six', 'seven', 'eight',
'nine', 'colon', 'semicolon', 'less', 'equal', 'greater', 'question',
'at', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M',
'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z',
'bracketleft', 'backslash', 'bracketright', 'asciicircum', 'underscore',
'quoteleft', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l',
'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z',
'braceleft', 'bar', 'braceright', 'asciitilde', 'exclamdown', 'cent',
'sterling', 'fraction', 'yen', 'florin', 'section', 'currency',
'quotesingle', 'quotedblleft', 'guillemotleft', 'guilsinglleft',
'guilsinglright', 'fi', 'fl', 'endash', 'dagger', 'daggerdbl',
'periodcentered', 'paragraph', 'bullet', 'quotesinglbase',
'quotedblbase', 'quotedblright', 'guillemotright', 'ellipsis',
'perthousand', 'questiondown', 'grave', 'acute', 'circumflex', 'tilde',
'macron', 'breve', 'dotaccent', 'dieresis', 'ring', 'cedilla',
'hungarumlaut', 'ogonek', 'caron', 'emdash', 'AE', 'ordfeminine',
'Lslash', 'Oslash', 'OE', 'ordmasculine', 'ae', 'dotlessi', 'lslash',
'oslash', 'oe', 'germandbls', 'onesuperior', 'logicalnot', 'mu',
'trademark', 'Eth', 'onehalf', 'plusminus', 'Thorn', 'onequarter',
'divide', 'brokenbar', 'degree', 'thorn', 'threequarters', 'twosuperior',
'registered', 'minus', 'eth', 'multiply', 'threesuperior', 'copyright',
'Aacute', 'Acircumflex', 'Adieresis', 'Agrave', 'Aring', 'Atilde',
'Ccedilla', 'Eacute', 'Ecircumflex', 'Edieresis', 'Egrave', 'Iacute',
'Icircumflex', 'Idieresis', 'Igrave', 'Ntilde', 'Oacute', 'Ocircumflex',
'Odieresis', 'Ograve', 'Otilde', 'Scaron', 'Uacute', 'Ucircumflex',
'Udieresis', 'Ugrave', 'Yacute', 'Ydieresis', 'Zcaron', 'aacute',
'acircumflex', 'adieresis', 'agrave', 'aring', 'atilde', 'ccedilla',
'eacute', 'ecircumflex', 'edieresis', 'egrave', 'iacute', 'icircumflex',
'idieresis', 'igrave', 'ntilde', 'oacute', 'ocircumflex', 'odieresis',
'ograve', 'otilde', 'scaron', 'uacute', 'ucircumflex', 'udieresis',
'ugrave', 'yacute', 'ydieresis', 'zcaron'
];
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var ExpertCharset = [
'.notdef', 'space', 'exclamsmall', 'Hungarumlautsmall', 'dollaroldstyle',
'dollarsuperior', 'ampersandsmall', 'Acutesmall', 'parenleftsuperior',
'parenrightsuperior', 'twodotenleader', 'onedotenleader', 'comma',
'hyphen', 'period', 'fraction', 'zerooldstyle', 'oneoldstyle',
'twooldstyle', 'threeoldstyle', 'fouroldstyle', 'fiveoldstyle',
'sixoldstyle', 'sevenoldstyle', 'eightoldstyle', 'nineoldstyle',
'colon', 'semicolon', 'commasuperior', 'threequartersemdash',
'periodsuperior', 'questionsmall', 'asuperior', 'bsuperior',
'centsuperior', 'dsuperior', 'esuperior', 'isuperior', 'lsuperior',
'msuperior', 'nsuperior', 'osuperior', 'rsuperior', 'ssuperior',
'tsuperior', 'ff', 'fi', 'fl', 'ffi', 'ffl', 'parenleftinferior',
'parenrightinferior', 'Circumflexsmall', 'hyphensuperior', 'Gravesmall',
'Asmall', 'Bsmall', 'Csmall', 'Dsmall', 'Esmall', 'Fsmall', 'Gsmall',
'Hsmall', 'Ismall', 'Jsmall', 'Ksmall', 'Lsmall', 'Msmall', 'Nsmall',
'Osmall', 'Psmall', 'Qsmall', 'Rsmall', 'Ssmall', 'Tsmall', 'Usmall',
'Vsmall', 'Wsmall', 'Xsmall', 'Ysmall', 'Zsmall', 'colonmonetary',
'onefitted', 'rupiah', 'Tildesmall', 'exclamdownsmall', 'centoldstyle',
'Lslashsmall', 'Scaronsmall', 'Zcaronsmall', 'Dieresissmall',
'Brevesmall', 'Caronsmall', 'Dotaccentsmall', 'Macronsmall',
'figuredash', 'hypheninferior', 'Ogoneksmall', 'Ringsmall',
'Cedillasmall', 'onequarter', 'onehalf', 'threequarters',
'questiondownsmall', 'oneeighth', 'threeeighths', 'fiveeighths',
'seveneighths', 'onethird', 'twothirds', 'zerosuperior', 'onesuperior',
'twosuperior', 'threesuperior', 'foursuperior', 'fivesuperior',
'sixsuperior', 'sevensuperior', 'eightsuperior', 'ninesuperior',
'zeroinferior', 'oneinferior', 'twoinferior', 'threeinferior',
'fourinferior', 'fiveinferior', 'sixinferior', 'seveninferior',
'eightinferior', 'nineinferior', 'centinferior', 'dollarinferior',
'periodinferior', 'commainferior', 'Agravesmall', 'Aacutesmall',
'Acircumflexsmall', 'Atildesmall', 'Adieresissmall', 'Aringsmall',
'AEsmall', 'Ccedillasmall', 'Egravesmall', 'Eacutesmall',
'Ecircumflexsmall', 'Edieresissmall', 'Igravesmall', 'Iacutesmall',
'Icircumflexsmall', 'Idieresissmall', 'Ethsmall', 'Ntildesmall',
'Ogravesmall', 'Oacutesmall', 'Ocircumflexsmall', 'Otildesmall',
'Odieresissmall', 'OEsmall', 'Oslashsmall', 'Ugravesmall', 'Uacutesmall',
'Ucircumflexsmall', 'Udieresissmall', 'Yacutesmall', 'Thornsmall',
'Ydieresissmall'
];
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var ExpertSubsetCharset = [
'.notdef', 'space', 'dollaroldstyle', 'dollarsuperior',
'parenleftsuperior', 'parenrightsuperior', 'twodotenleader',
'onedotenleader', 'comma', 'hyphen', 'period', 'fraction',
'zerooldstyle', 'oneoldstyle', 'twooldstyle', 'threeoldstyle',
'fouroldstyle', 'fiveoldstyle', 'sixoldstyle', 'sevenoldstyle',
'eightoldstyle', 'nineoldstyle', 'colon', 'semicolon', 'commasuperior',
'threequartersemdash', 'periodsuperior', 'asuperior', 'bsuperior',
'centsuperior', 'dsuperior', 'esuperior', 'isuperior', 'lsuperior',
'msuperior', 'nsuperior', 'osuperior', 'rsuperior', 'ssuperior',
'tsuperior', 'ff', 'fi', 'fl', 'ffi', 'ffl', 'parenleftinferior',
'parenrightinferior', 'hyphensuperior', 'colonmonetary', 'onefitted',
'rupiah', 'centoldstyle', 'figuredash', 'hypheninferior', 'onequarter',
'onehalf', 'threequarters', 'oneeighth', 'threeeighths', 'fiveeighths',
'seveneighths', 'onethird', 'twothirds', 'zerosuperior', 'onesuperior',
'twosuperior', 'threesuperior', 'foursuperior', 'fivesuperior',
'sixsuperior', 'sevensuperior', 'eightsuperior', 'ninesuperior',
'zeroinferior', 'oneinferior', 'twoinferior', 'threeinferior',
'fourinferior', 'fiveinferior', 'sixinferior', 'seveninferior',
'eightinferior', 'nineinferior', 'centinferior', 'dollarinferior',
'periodinferior', 'commainferior'
];
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exports.ISOAdobeCharset = ISOAdobeCharset;
exports.ExpertCharset = ExpertCharset;
exports.ExpertSubsetCharset = ExpertSubsetCharset;
}));
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(function (root, factory) {
{
factory((root.pdfjsCoreEncodings = {}));
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}
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}(this, function (exports) {
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var ExpertEncoding = [
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'space', 'exclamsmall', 'Hungarumlautsmall', '', 'dollaroldstyle',
'dollarsuperior', 'ampersandsmall', 'Acutesmall', 'parenleftsuperior',
'parenrightsuperior', 'twodotenleader', 'onedotenleader', 'comma',
'hyphen', 'period', 'fraction', 'zerooldstyle', 'oneoldstyle',
'twooldstyle', 'threeoldstyle', 'fouroldstyle', 'fiveoldstyle',
'sixoldstyle', 'sevenoldstyle', 'eightoldstyle', 'nineoldstyle', 'colon',
'semicolon', 'commasuperior', 'threequartersemdash', 'periodsuperior',
'questionsmall', '', 'asuperior', 'bsuperior', 'centsuperior', 'dsuperior',
'esuperior', '', '', 'isuperior', '', '', 'lsuperior', 'msuperior',
'nsuperior', 'osuperior', '', '', 'rsuperior', 'ssuperior', 'tsuperior',
'', 'ff', 'fi', 'fl', 'ffi', 'ffl', 'parenleftinferior', '',
'parenrightinferior', 'Circumflexsmall', 'hyphensuperior', 'Gravesmall',
'Asmall', 'Bsmall', 'Csmall', 'Dsmall', 'Esmall', 'Fsmall', 'Gsmall',
'Hsmall', 'Ismall', 'Jsmall', 'Ksmall', 'Lsmall', 'Msmall', 'Nsmall',
'Osmall', 'Psmall', 'Qsmall', 'Rsmall', 'Ssmall', 'Tsmall', 'Usmall',
'Vsmall', 'Wsmall', 'Xsmall', 'Ysmall', 'Zsmall', 'colonmonetary',
'onefitted', 'rupiah', 'Tildesmall', '', '', '', '', '', '', '', '', '',
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'', '', '', '', '', '', 'exclamdownsmall', 'centoldstyle', 'Lslashsmall',
'', '', 'Scaronsmall', 'Zcaronsmall', 'Dieresissmall', 'Brevesmall',
'Caronsmall', '', 'Dotaccentsmall', '', '', 'Macronsmall', '', '',
'figuredash', 'hypheninferior', '', '', 'Ogoneksmall', 'Ringsmall',
'Cedillasmall', '', '', '', 'onequarter', 'onehalf', 'threequarters',
'questiondownsmall', 'oneeighth', 'threeeighths', 'fiveeighths',
'seveneighths', 'onethird', 'twothirds', '', '', 'zerosuperior',
'onesuperior', 'twosuperior', 'threesuperior', 'foursuperior',
'fivesuperior', 'sixsuperior', 'sevensuperior', 'eightsuperior',
'ninesuperior', 'zeroinferior', 'oneinferior', 'twoinferior',
'threeinferior', 'fourinferior', 'fiveinferior', 'sixinferior',
'seveninferior', 'eightinferior', 'nineinferior', 'centinferior',
'dollarinferior', 'periodinferior', 'commainferior', 'Agravesmall',
'Aacutesmall', 'Acircumflexsmall', 'Atildesmall', 'Adieresissmall',
'Aringsmall', 'AEsmall', 'Ccedillasmall', 'Egravesmall', 'Eacutesmall',
'Ecircumflexsmall', 'Edieresissmall', 'Igravesmall', 'Iacutesmall',
'Icircumflexsmall', 'Idieresissmall', 'Ethsmall', 'Ntildesmall',
'Ogravesmall', 'Oacutesmall', 'Ocircumflexsmall', 'Otildesmall',
'Odieresissmall', 'OEsmall', 'Oslashsmall', 'Ugravesmall', 'Uacutesmall',
'Ucircumflexsmall', 'Udieresissmall', 'Yacutesmall', 'Thornsmall',
'Ydieresissmall'];
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var MacExpertEncoding = [
'', '', '', '', '', '', '', '', '', '', '', '', '', '',
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'space', 'exclamsmall', 'Hungarumlautsmall', 'centoldstyle',
'dollaroldstyle', 'dollarsuperior', 'ampersandsmall', 'Acutesmall',
'parenleftsuperior', 'parenrightsuperior', 'twodotenleader',
'onedotenleader', 'comma', 'hyphen', 'period', 'fraction', 'zerooldstyle',
'oneoldstyle', 'twooldstyle', 'threeoldstyle', 'fouroldstyle',
'fiveoldstyle', 'sixoldstyle', 'sevenoldstyle', 'eightoldstyle',
'nineoldstyle', 'colon', 'semicolon', '', 'threequartersemdash', '',
'questionsmall', '', '', '', '', 'Ethsmall', '', '', 'onequarter',
'onehalf', 'threequarters', 'oneeighth', 'threeeighths', 'fiveeighths',
'seveneighths', 'onethird', 'twothirds', '', '', '', '', '', '', 'ff',
'fi', 'fl', 'ffi', 'ffl', 'parenleftinferior', '', 'parenrightinferior',
'Circumflexsmall', 'hypheninferior', 'Gravesmall', 'Asmall', 'Bsmall',
'Csmall', 'Dsmall', 'Esmall', 'Fsmall', 'Gsmall', 'Hsmall', 'Ismall',
'Jsmall', 'Ksmall', 'Lsmall', 'Msmall', 'Nsmall', 'Osmall', 'Psmall',
'Qsmall', 'Rsmall', 'Ssmall', 'Tsmall', 'Usmall', 'Vsmall', 'Wsmall',
'Xsmall', 'Ysmall', 'Zsmall', 'colonmonetary', 'onefitted', 'rupiah',
'Tildesmall', '', '', 'asuperior', 'centsuperior', '', '', '', '',
'Aacutesmall', 'Agravesmall', 'Acircumflexsmall', 'Adieresissmall',
'Atildesmall', 'Aringsmall', 'Ccedillasmall', 'Eacutesmall', 'Egravesmall',
'Ecircumflexsmall', 'Edieresissmall', 'Iacutesmall', 'Igravesmall',
'Icircumflexsmall', 'Idieresissmall', 'Ntildesmall', 'Oacutesmall',
'Ogravesmall', 'Ocircumflexsmall', 'Odieresissmall', 'Otildesmall',
'Uacutesmall', 'Ugravesmall', 'Ucircumflexsmall', 'Udieresissmall', '',
'eightsuperior', 'fourinferior', 'threeinferior', 'sixinferior',
'eightinferior', 'seveninferior', 'Scaronsmall', '', 'centinferior',
'twoinferior', '', 'Dieresissmall', '', 'Caronsmall', 'osuperior',
'fiveinferior', '', 'commainferior', 'periodinferior', 'Yacutesmall', '',
'dollarinferior', '', 'Thornsmall', '', 'nineinferior', 'zeroinferior',
'Zcaronsmall', 'AEsmall', 'Oslashsmall', 'questiondownsmall',
'oneinferior', 'Lslashsmall', '', '', '', '', '', '', 'Cedillasmall', '',
'', '', '', '', 'OEsmall', 'figuredash', 'hyphensuperior', '', '', '', '',
'exclamdownsmall', '', 'Ydieresissmall', '', 'onesuperior', 'twosuperior',
'threesuperior', 'foursuperior', 'fivesuperior', 'sixsuperior',
'sevensuperior', 'ninesuperior', 'zerosuperior', '', 'esuperior',
'rsuperior', 'tsuperior', '', '', 'isuperior', 'ssuperior', 'dsuperior',
'', '', '', '', '', 'lsuperior', 'Ogoneksmall', 'Brevesmall',
'Macronsmall', 'bsuperior', 'nsuperior', 'msuperior', 'commasuperior',
'periodsuperior', 'Dotaccentsmall', 'Ringsmall'];
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var MacRomanEncoding = [
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'space', 'exclam', 'quotedbl', 'numbersign', 'dollar', 'percent',
'ampersand', 'quotesingle', 'parenleft', 'parenright', 'asterisk', 'plus',
'comma', 'hyphen', 'period', 'slash', 'zero', 'one', 'two', 'three',
'four', 'five', 'six', 'seven', 'eight', 'nine', 'colon', 'semicolon',
'less', 'equal', 'greater', 'question', 'at', 'A', 'B', 'C', 'D', 'E', 'F',
'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U',
'V', 'W', 'X', 'Y', 'Z', 'bracketleft', 'backslash', 'bracketright',
'asciicircum', 'underscore', 'grave', 'a', 'b', 'c', 'd', 'e', 'f', 'g',
'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v',
'w', 'x', 'y', 'z', 'braceleft', 'bar', 'braceright', 'asciitilde', '',
'Adieresis', 'Aring', 'Ccedilla', 'Eacute', 'Ntilde', 'Odieresis',
'Udieresis', 'aacute', 'agrave', 'acircumflex', 'adieresis', 'atilde',
'aring', 'ccedilla', 'eacute', 'egrave', 'ecircumflex', 'edieresis',
'iacute', 'igrave', 'icircumflex', 'idieresis', 'ntilde', 'oacute',
'ograve', 'ocircumflex', 'odieresis', 'otilde', 'uacute', 'ugrave',
'ucircumflex', 'udieresis', 'dagger', 'degree', 'cent', 'sterling',
'section', 'bullet', 'paragraph', 'germandbls', 'registered', 'copyright',
'trademark', 'acute', 'dieresis', 'notequal', 'AE', 'Oslash', 'infinity',
'plusminus', 'lessequal', 'greaterequal', 'yen', 'mu', 'partialdiff',
'summation', 'product', 'pi', 'integral', 'ordfeminine', 'ordmasculine',
'Omega', 'ae', 'oslash', 'questiondown', 'exclamdown', 'logicalnot',
'radical', 'florin', 'approxequal', 'Delta', 'guillemotleft',
'guillemotright', 'ellipsis', 'space', 'Agrave', 'Atilde', 'Otilde', 'OE',
'oe', 'endash', 'emdash', 'quotedblleft', 'quotedblright', 'quoteleft',
'quoteright', 'divide', 'lozenge', 'ydieresis', 'Ydieresis', 'fraction',
'currency', 'guilsinglleft', 'guilsinglright', 'fi', 'fl', 'daggerdbl',
'periodcentered', 'quotesinglbase', 'quotedblbase', 'perthousand',
'Acircumflex', 'Ecircumflex', 'Aacute', 'Edieresis', 'Egrave', 'Iacute',
'Icircumflex', 'Idieresis', 'Igrave', 'Oacute', 'Ocircumflex', 'apple',
'Ograve', 'Uacute', 'Ucircumflex', 'Ugrave', 'dotlessi', 'circumflex',
'tilde', 'macron', 'breve', 'dotaccent', 'ring', 'cedilla', 'hungarumlaut',
'ogonek', 'caron'];
2013-12-31 11:04:23 +00:00
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var StandardEncoding = [
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'space', 'exclam', 'quotedbl', 'numbersign', 'dollar', 'percent',
'ampersand', 'quoteright', 'parenleft', 'parenright', 'asterisk', 'plus',
'comma', 'hyphen', 'period', 'slash', 'zero', 'one', 'two', 'three',
'four', 'five', 'six', 'seven', 'eight', 'nine', 'colon', 'semicolon',
'less', 'equal', 'greater', 'question', 'at', 'A', 'B', 'C', 'D', 'E', 'F',
'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U',
'V', 'W', 'X', 'Y', 'Z', 'bracketleft', 'backslash', 'bracketright',
'asciicircum', 'underscore', 'quoteleft', 'a', 'b', 'c', 'd', 'e', 'f',
'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u',
'v', 'w', 'x', 'y', 'z', 'braceleft', 'bar', 'braceright', 'asciitilde',
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '', 'exclamdown',
'cent', 'sterling', 'fraction', 'yen', 'florin', 'section', 'currency',
'quotesingle', 'quotedblleft', 'guillemotleft', 'guilsinglleft',
'guilsinglright', 'fi', 'fl', '', 'endash', 'dagger', 'daggerdbl',
'periodcentered', '', 'paragraph', 'bullet', 'quotesinglbase',
'quotedblbase', 'quotedblright', 'guillemotright', 'ellipsis',
'perthousand', '', 'questiondown', '', 'grave', 'acute', 'circumflex',
'tilde', 'macron', 'breve', 'dotaccent', 'dieresis', '', 'ring', 'cedilla',
'', 'hungarumlaut', 'ogonek', 'caron', 'emdash', '', '', '', '', '', '',
'', '', '', '', '', '', '', '', '', '', 'AE', '', 'ordfeminine', '', '',
'', '', 'Lslash', 'Oslash', 'OE', 'ordmasculine', '', '', '', '', '', 'ae',
'', '', '', 'dotlessi', '', '', 'lslash', 'oslash', 'oe', 'germandbls'];
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var WinAnsiEncoding = [
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'space', 'exclam', 'quotedbl', 'numbersign', 'dollar', 'percent',
'ampersand', 'quotesingle', 'parenleft', 'parenright', 'asterisk', 'plus',
'comma', 'hyphen', 'period', 'slash', 'zero', 'one', 'two', 'three',
'four', 'five', 'six', 'seven', 'eight', 'nine', 'colon', 'semicolon',
'less', 'equal', 'greater', 'question', 'at', 'A', 'B', 'C', 'D', 'E', 'F',
'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U',
'V', 'W', 'X', 'Y', 'Z', 'bracketleft', 'backslash', 'bracketright',
'asciicircum', 'underscore', 'grave', 'a', 'b', 'c', 'd', 'e', 'f', 'g',
'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v',
'w', 'x', 'y', 'z', 'braceleft', 'bar', 'braceright', 'asciitilde',
'bullet', 'Euro', 'bullet', 'quotesinglbase', 'florin', 'quotedblbase',
'ellipsis', 'dagger', 'daggerdbl', 'circumflex', 'perthousand', 'Scaron',
'guilsinglleft', 'OE', 'bullet', 'Zcaron', 'bullet', 'bullet', 'quoteleft',
'quoteright', 'quotedblleft', 'quotedblright', 'bullet', 'endash',
'emdash', 'tilde', 'trademark', 'scaron', 'guilsinglright', 'oe', 'bullet',
'zcaron', 'Ydieresis', 'space', 'exclamdown', 'cent', 'sterling',
'currency', 'yen', 'brokenbar', 'section', 'dieresis', 'copyright',
'ordfeminine', 'guillemotleft', 'logicalnot', 'hyphen', 'registered',
'macron', 'degree', 'plusminus', 'twosuperior', 'threesuperior', 'acute',
'mu', 'paragraph', 'periodcentered', 'cedilla', 'onesuperior',
'ordmasculine', 'guillemotright', 'onequarter', 'onehalf', 'threequarters',
'questiondown', 'Agrave', 'Aacute', 'Acircumflex', 'Atilde', 'Adieresis',
'Aring', 'AE', 'Ccedilla', 'Egrave', 'Eacute', 'Ecircumflex', 'Edieresis',
'Igrave', 'Iacute', 'Icircumflex', 'Idieresis', 'Eth', 'Ntilde', 'Ograve',
'Oacute', 'Ocircumflex', 'Otilde', 'Odieresis', 'multiply', 'Oslash',
'Ugrave', 'Uacute', 'Ucircumflex', 'Udieresis', 'Yacute', 'Thorn',
'germandbls', 'agrave', 'aacute', 'acircumflex', 'atilde', 'adieresis',
'aring', 'ae', 'ccedilla', 'egrave', 'eacute', 'ecircumflex', 'edieresis',
'igrave', 'iacute', 'icircumflex', 'idieresis', 'eth', 'ntilde', 'ograve',
'oacute', 'ocircumflex', 'otilde', 'odieresis', 'divide', 'oslash',
'ugrave', 'uacute', 'ucircumflex', 'udieresis', 'yacute', 'thorn',
'ydieresis'];
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var SymbolSetEncoding = [
'', '', '', '', '', '', '', '', '', '', '', '', '', '',
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'space', 'exclam', 'universal', 'numbersign', 'existential', 'percent',
'ampersand', 'suchthat', 'parenleft', 'parenright', 'asteriskmath', 'plus',
'comma', 'minus', 'period', 'slash', 'zero', 'one', 'two', 'three', 'four',
'five', 'six', 'seven', 'eight', 'nine', 'colon', 'semicolon', 'less',
'equal', 'greater', 'question', 'congruent', 'Alpha', 'Beta', 'Chi',
'Delta', 'Epsilon', 'Phi', 'Gamma', 'Eta', 'Iota', 'theta1', 'Kappa',
'Lambda', 'Mu', 'Nu', 'Omicron', 'Pi', 'Theta', 'Rho', 'Sigma', 'Tau',
'Upsilon', 'sigma1', 'Omega', 'Xi', 'Psi', 'Zeta', 'bracketleft',
'therefore', 'bracketright', 'perpendicular', 'underscore', 'radicalex',
'alpha', 'beta', 'chi', 'delta', 'epsilon', 'phi', 'gamma', 'eta', 'iota',
'phi1', 'kappa', 'lambda', 'mu', 'nu', 'omicron', 'pi', 'theta', 'rho',
'sigma', 'tau', 'upsilon', 'omega1', 'omega', 'xi', 'psi', 'zeta',
'braceleft', 'bar', 'braceright', 'similar', '', '', '', '', '', '', '',
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'', '', '', '', '', '', '', 'Euro', 'Upsilon1', 'minute', 'lessequal',
'fraction', 'infinity', 'florin', 'club', 'diamond', 'heart', 'spade',
'arrowboth', 'arrowleft', 'arrowup', 'arrowright', 'arrowdown', 'degree',
'plusminus', 'second', 'greaterequal', 'multiply', 'proportional',
'partialdiff', 'bullet', 'divide', 'notequal', 'equivalence',
'approxequal', 'ellipsis', 'arrowvertex', 'arrowhorizex', 'carriagereturn',
'aleph', 'Ifraktur', 'Rfraktur', 'weierstrass', 'circlemultiply',
'circleplus', 'emptyset', 'intersection', 'union', 'propersuperset',
'reflexsuperset', 'notsubset', 'propersubset', 'reflexsubset', 'element',
'notelement', 'angle', 'gradient', 'registerserif', 'copyrightserif',
'trademarkserif', 'product', 'radical', 'dotmath', 'logicalnot',
'logicaland', 'logicalor', 'arrowdblboth', 'arrowdblleft', 'arrowdblup',
'arrowdblright', 'arrowdbldown', 'lozenge', 'angleleft', 'registersans',
'copyrightsans', 'trademarksans', 'summation', 'parenlefttp',
'parenleftex', 'parenleftbt', 'bracketlefttp', 'bracketleftex',
'bracketleftbt', 'bracelefttp', 'braceleftmid', 'braceleftbt', 'braceex',
'', 'angleright', 'integral', 'integraltp', 'integralex', 'integralbt',
'parenrighttp', 'parenrightex', 'parenrightbt', 'bracketrighttp',
'bracketrightex', 'bracketrightbt', 'bracerighttp', 'bracerightmid',
'bracerightbt'];
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var ZapfDingbatsEncoding = [
'', '', '', '', '', '', '', '', '', '', '', '', '', '',
'', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '',
'space', 'a1', 'a2', 'a202', 'a3', 'a4', 'a5', 'a119', 'a118', 'a117',
'a11', 'a12', 'a13', 'a14', 'a15', 'a16', 'a105', 'a17', 'a18', 'a19',
'a20', 'a21', 'a22', 'a23', 'a24', 'a25', 'a26', 'a27', 'a28', 'a6', 'a7',
'a8', 'a9', 'a10', 'a29', 'a30', 'a31', 'a32', 'a33', 'a34', 'a35', 'a36',
'a37', 'a38', 'a39', 'a40', 'a41', 'a42', 'a43', 'a44', 'a45', 'a46',
'a47', 'a48', 'a49', 'a50', 'a51', 'a52', 'a53', 'a54', 'a55', 'a56',
'a57', 'a58', 'a59', 'a60', 'a61', 'a62', 'a63', 'a64', 'a65', 'a66',
'a67', 'a68', 'a69', 'a70', 'a71', 'a72', 'a73', 'a74', 'a203', 'a75',
'a204', 'a76', 'a77', 'a78', 'a79', 'a81', 'a82', 'a83', 'a84', 'a97',
'a98', 'a99', 'a100', '', 'a89', 'a90', 'a93', 'a94', 'a91', 'a92', 'a205',
'a85', 'a206', 'a86', 'a87', 'a88', 'a95', 'a96', '', '', '', '', '', '',
'', '', '', '', '', '', '', '', '', '', '', '', '', 'a101', 'a102', 'a103',
'a104', 'a106', 'a107', 'a108', 'a112', 'a111', 'a110', 'a109', 'a120',
'a121', 'a122', 'a123', 'a124', 'a125', 'a126', 'a127', 'a128', 'a129',
'a130', 'a131', 'a132', 'a133', 'a134', 'a135', 'a136', 'a137', 'a138',
'a139', 'a140', 'a141', 'a142', 'a143', 'a144', 'a145', 'a146', 'a147',
'a148', 'a149', 'a150', 'a151', 'a152', 'a153', 'a154', 'a155', 'a156',
'a157', 'a158', 'a159', 'a160', 'a161', 'a163', 'a164', 'a196', 'a165',
'a192', 'a166', 'a167', 'a168', 'a169', 'a170', 'a171', 'a172', 'a173',
'a162', 'a174', 'a175', 'a176', 'a177', 'a178', 'a179', 'a193', 'a180',
'a199', 'a181', 'a200', 'a182', '', 'a201', 'a183', 'a184', 'a197', 'a185',
'a194', 'a198', 'a186', 'a195', 'a187', 'a188', 'a189', 'a190', 'a191'];
function getEncoding(encodingName) {
switch (encodingName) {
case 'WinAnsiEncoding':
return WinAnsiEncoding;
case 'StandardEncoding':
return StandardEncoding;
case 'MacRomanEncoding':
return MacRomanEncoding;
case 'SymbolSetEncoding':
return SymbolSetEncoding;
case 'ZapfDingbatsEncoding':
return ZapfDingbatsEncoding;
case 'ExpertEncoding':
return ExpertEncoding;
case 'MacExpertEncoding':
return MacExpertEncoding;
default:
return null;
}
}
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exports.WinAnsiEncoding = WinAnsiEncoding;
exports.StandardEncoding = StandardEncoding;
exports.MacRomanEncoding = MacRomanEncoding;
exports.SymbolSetEncoding = SymbolSetEncoding;
exports.ZapfDingbatsEncoding = ZapfDingbatsEncoding;
exports.ExpertEncoding = ExpertEncoding;
exports.getEncoding = getEncoding;
}));
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(function (root, factory) {
{
factory((root.pdfjsCoreJpg = {}));
}
}(this, function (exports) {
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/*
This code was forked from https://github.com/notmasteryet/jpgjs. The original
version was created by github user notmasteryet
- The JPEG specification can be found in the ITU CCITT Recommendation T.81
(www.w3.org/Graphics/JPEG/itu-t81.pdf)
- The JFIF specification can be found in the JPEG File Interchange Format
(www.w3.org/Graphics/JPEG/jfif3.pdf)
- The Adobe Application-Specific JPEG markers in the Supporting the DCT Filters
in PostScript Level 2, Technical Note #5116
(partners.adobe.com/public/developer/en/ps/sdk/5116.DCT_Filter.pdf)
*/
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var JpegImage = (function jpegImage() {
var dctZigZag = new Uint8Array([
0,
1, 8,
16, 9, 2,
3, 10, 17, 24,
32, 25, 18, 11, 4,
5, 12, 19, 26, 33, 40,
48, 41, 34, 27, 20, 13, 6,
7, 14, 21, 28, 35, 42, 49, 56,
57, 50, 43, 36, 29, 22, 15,
23, 30, 37, 44, 51, 58,
59, 52, 45, 38, 31,
39, 46, 53, 60,
61, 54, 47,
55, 62,
63
]);
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var dctCos1 = 4017; // cos(pi/16)
var dctSin1 = 799; // sin(pi/16)
var dctCos3 = 3406; // cos(3*pi/16)
var dctSin3 = 2276; // sin(3*pi/16)
var dctCos6 = 1567; // cos(6*pi/16)
var dctSin6 = 3784; // sin(6*pi/16)
var dctSqrt2 = 5793; // sqrt(2)
var dctSqrt1d2 = 2896; // sqrt(2) / 2
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function constructor() {
}
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function buildHuffmanTable(codeLengths, values) {
var k = 0, code = [], i, j, length = 16;
while (length > 0 && !codeLengths[length - 1]) {
length--;
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}
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code.push({children: [], index: 0});
var p = code[0], q;
for (i = 0; i < length; i++) {
for (j = 0; j < codeLengths[i]; j++) {
p = code.pop();
p.children[p.index] = values[k];
while (p.index > 0) {
p = code.pop();
}
p.index++;
code.push(p);
while (code.length <= i) {
code.push(q = {children: [], index: 0});
p.children[p.index] = q.children;
p = q;
}
k++;
}
if (i + 1 < length) {
// p here points to last code
code.push(q = {children: [], index: 0});
p.children[p.index] = q.children;
p = q;
}
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}
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return code[0].children;
}
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function getBlockBufferOffset(component, row, col) {
return 64 * ((component.blocksPerLine + 1) * row + col);
}
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function decodeScan(data, offset, frame, components, resetInterval,
spectralStart, spectralEnd, successivePrev, successive) {
var mcusPerLine = frame.mcusPerLine;
var progressive = frame.progressive;
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var startOffset = offset, bitsData = 0, bitsCount = 0;
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function readBit() {
if (bitsCount > 0) {
bitsCount--;
return (bitsData >> bitsCount) & 1;
}
bitsData = data[offset++];
if (bitsData === 0xFF) {
var nextByte = data[offset++];
if (nextByte) {
throw 'unexpected marker: ' +
((bitsData << 8) | nextByte).toString(16);
}
// unstuff 0
}
bitsCount = 7;
return bitsData >>> 7;
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}
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function decodeHuffman(tree) {
var node = tree;
while (true) {
node = node[readBit()];
if (typeof node === 'number') {
return node;
}
if (typeof node !== 'object') {
throw 'invalid huffman sequence';
}
}
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}
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function receive(length) {
var n = 0;
while (length > 0) {
n = (n << 1) | readBit();
length--;
}
return n;
}
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function receiveAndExtend(length) {
if (length === 1) {
return readBit() === 1 ? 1 : -1;
}
var n = receive(length);
if (n >= 1 << (length - 1)) {
return n;
}
return n + (-1 << length) + 1;
}
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function decodeBaseline(component, offset) {
var t = decodeHuffman(component.huffmanTableDC);
var diff = t === 0 ? 0 : receiveAndExtend(t);
component.blockData[offset] = (component.pred += diff);
var k = 1;
while (k < 64) {
var rs = decodeHuffman(component.huffmanTableAC);
var s = rs & 15, r = rs >> 4;
if (s === 0) {
if (r < 15) {
break;
}
k += 16;
continue;
}
k += r;
var z = dctZigZag[k];
component.blockData[offset + z] = receiveAndExtend(s);
k++;
}
}
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function decodeDCFirst(component, offset) {
var t = decodeHuffman(component.huffmanTableDC);
var diff = t === 0 ? 0 : (receiveAndExtend(t) << successive);
component.blockData[offset] = (component.pred += diff);
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}
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function decodeDCSuccessive(component, offset) {
component.blockData[offset] |= readBit() << successive;
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}
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var eobrun = 0;
function decodeACFirst(component, offset) {
if (eobrun > 0) {
eobrun--;
return;
}
var k = spectralStart, e = spectralEnd;
while (k <= e) {
var rs = decodeHuffman(component.huffmanTableAC);
var s = rs & 15, r = rs >> 4;
if (s === 0) {
if (r < 15) {
eobrun = receive(r) + (1 << r) - 1;
break;
}
k += 16;
continue;
}
k += r;
var z = dctZigZag[k];
component.blockData[offset + z] =
receiveAndExtend(s) * (1 << successive);
k++;
}
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}
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var successiveACState = 0, successiveACNextValue;
function decodeACSuccessive(component, offset) {
var k = spectralStart;
var e = spectralEnd;
var r = 0;
var s;
var rs;
while (k <= e) {
var z = dctZigZag[k];
switch (successiveACState) {
case 0: // initial state
rs = decodeHuffman(component.huffmanTableAC);
s = rs & 15;
r = rs >> 4;
if (s === 0) {
if (r < 15) {
eobrun = receive(r) + (1 << r);
successiveACState = 4;
} else {
r = 16;
successiveACState = 1;
}
} else {
if (s !== 1) {
throw 'invalid ACn encoding';
}
successiveACNextValue = receiveAndExtend(s);
successiveACState = r ? 2 : 3;
}
continue;
case 1: // skipping r zero items
case 2:
if (component.blockData[offset + z]) {
component.blockData[offset + z] += (readBit() << successive);
} else {
r--;
if (r === 0) {
successiveACState = successiveACState === 2 ? 3 : 0;
}
}
break;
case 3: // set value for a zero item
if (component.blockData[offset + z]) {
component.blockData[offset + z] += (readBit() << successive);
} else {
component.blockData[offset + z] =
successiveACNextValue << successive;
successiveACState = 0;
}
break;
case 4: // eob
if (component.blockData[offset + z]) {
component.blockData[offset + z] += (readBit() << successive);
}
break;
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}
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k++;
}
if (successiveACState === 4) {
eobrun--;
if (eobrun === 0) {
successiveACState = 0;
}
}
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}
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function decodeMcu(component, decode, mcu, row, col) {
var mcuRow = (mcu / mcusPerLine) | 0;
var mcuCol = mcu % mcusPerLine;
var blockRow = mcuRow * component.v + row;
var blockCol = mcuCol * component.h + col;
var offset = getBlockBufferOffset(component, blockRow, blockCol);
decode(component, offset);
}
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function decodeBlock(component, decode, mcu) {
var blockRow = (mcu / component.blocksPerLine) | 0;
var blockCol = mcu % component.blocksPerLine;
var offset = getBlockBufferOffset(component, blockRow, blockCol);
decode(component, offset);
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}
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var componentsLength = components.length;
var component, i, j, k, n;
var decodeFn;
if (progressive) {
if (spectralStart === 0) {
decodeFn = successivePrev === 0 ? decodeDCFirst : decodeDCSuccessive;
} else {
decodeFn = successivePrev === 0 ? decodeACFirst : decodeACSuccessive;
}
} else {
decodeFn = decodeBaseline;
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}
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var mcu = 0, marker;
var mcuExpected;
if (componentsLength === 1) {
mcuExpected = components[0].blocksPerLine * components[0].blocksPerColumn;
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} else {
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mcuExpected = mcusPerLine * frame.mcusPerColumn;
}
if (!resetInterval) {
resetInterval = mcuExpected;
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}
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var h, v;
while (mcu < mcuExpected) {
// reset interval stuff
for (i = 0; i < componentsLength; i++) {
components[i].pred = 0;
}
eobrun = 0;
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if (componentsLength === 1) {
component = components[0];
for (n = 0; n < resetInterval; n++) {
decodeBlock(component, decodeFn, mcu);
mcu++;
}
} else {
for (n = 0; n < resetInterval; n++) {
for (i = 0; i < componentsLength; i++) {
component = components[i];
h = component.h;
v = component.v;
for (j = 0; j < v; j++) {
for (k = 0; k < h; k++) {
decodeMcu(component, decodeFn, mcu, j, k);
}
}
}
mcu++;
}
}
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// find marker
bitsCount = 0;
marker = (data[offset] << 8) | data[offset + 1];
if (marker <= 0xFF00) {
throw 'marker was not found';
}
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if (marker >= 0xFFD0 && marker <= 0xFFD7) { // RSTx
offset += 2;
} else {
break;
}
}
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return offset - startOffset;
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}
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// A port of poppler's IDCT method which in turn is taken from:
// Christoph Loeffler, Adriaan Ligtenberg, George S. Moschytz,
// 'Practical Fast 1-D DCT Algorithms with 11 Multiplications',
// IEEE Intl. Conf. on Acoustics, Speech & Signal Processing, 1989,
// 988-991.
function quantizeAndInverse(component, blockBufferOffset, p) {
var qt = component.quantizationTable, blockData = component.blockData;
var v0, v1, v2, v3, v4, v5, v6, v7;
var p0, p1, p2, p3, p4, p5, p6, p7;
var t;
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// inverse DCT on rows
for (var row = 0; row < 64; row += 8) {
// gather block data
p0 = blockData[blockBufferOffset + row];
p1 = blockData[blockBufferOffset + row + 1];
p2 = blockData[blockBufferOffset + row + 2];
p3 = blockData[blockBufferOffset + row + 3];
p4 = blockData[blockBufferOffset + row + 4];
p5 = blockData[blockBufferOffset + row + 5];
p6 = blockData[blockBufferOffset + row + 6];
p7 = blockData[blockBufferOffset + row + 7];
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// dequant p0
p0 *= qt[row];
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// check for all-zero AC coefficients
if ((p1 | p2 | p3 | p4 | p5 | p6 | p7) === 0) {
t = (dctSqrt2 * p0 + 512) >> 10;
p[row] = t;
p[row + 1] = t;
p[row + 2] = t;
p[row + 3] = t;
p[row + 4] = t;
p[row + 5] = t;
p[row + 6] = t;
p[row + 7] = t;
continue;
}
// dequant p1 ... p7
p1 *= qt[row + 1];
p2 *= qt[row + 2];
p3 *= qt[row + 3];
p4 *= qt[row + 4];
p5 *= qt[row + 5];
p6 *= qt[row + 6];
p7 *= qt[row + 7];
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// stage 4
v0 = (dctSqrt2 * p0 + 128) >> 8;
v1 = (dctSqrt2 * p4 + 128) >> 8;
v2 = p2;
v3 = p6;
v4 = (dctSqrt1d2 * (p1 - p7) + 128) >> 8;
v7 = (dctSqrt1d2 * (p1 + p7) + 128) >> 8;
v5 = p3 << 4;
v6 = p5 << 4;
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// stage 3
v0 = (v0 + v1 + 1) >> 1;
v1 = v0 - v1;
t = (v2 * dctSin6 + v3 * dctCos6 + 128) >> 8;
v2 = (v2 * dctCos6 - v3 * dctSin6 + 128) >> 8;
v3 = t;
v4 = (v4 + v6 + 1) >> 1;
v6 = v4 - v6;
v7 = (v7 + v5 + 1) >> 1;
v5 = v7 - v5;
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// stage 2
v0 = (v0 + v3 + 1) >> 1;
v3 = v0 - v3;
v1 = (v1 + v2 + 1) >> 1;
v2 = v1 - v2;
t = (v4 * dctSin3 + v7 * dctCos3 + 2048) >> 12;
v4 = (v4 * dctCos3 - v7 * dctSin3 + 2048) >> 12;
v7 = t;
t = (v5 * dctSin1 + v6 * dctCos1 + 2048) >> 12;
v5 = (v5 * dctCos1 - v6 * dctSin1 + 2048) >> 12;
v6 = t;
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// stage 1
p[row] = v0 + v7;
p[row + 7] = v0 - v7;
p[row + 1] = v1 + v6;
p[row + 6] = v1 - v6;
p[row + 2] = v2 + v5;
p[row + 5] = v2 - v5;
p[row + 3] = v3 + v4;
p[row + 4] = v3 - v4;
}
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// inverse DCT on columns
for (var col = 0; col < 8; ++col) {
p0 = p[col];
p1 = p[col + 8];
p2 = p[col + 16];
p3 = p[col + 24];
p4 = p[col + 32];
p5 = p[col + 40];
p6 = p[col + 48];
p7 = p[col + 56];
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// check for all-zero AC coefficients
if ((p1 | p2 | p3 | p4 | p5 | p6 | p7) === 0) {
t = (dctSqrt2 * p0 + 8192) >> 14;
// convert to 8 bit
t = (t < -2040) ? 0 : (t >= 2024) ? 255 : (t + 2056) >> 4;
blockData[blockBufferOffset + col] = t;
blockData[blockBufferOffset + col + 8] = t;
blockData[blockBufferOffset + col + 16] = t;
blockData[blockBufferOffset + col + 24] = t;
blockData[blockBufferOffset + col + 32] = t;
blockData[blockBufferOffset + col + 40] = t;
blockData[blockBufferOffset + col + 48] = t;
blockData[blockBufferOffset + col + 56] = t;
continue;
}
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// stage 4
v0 = (dctSqrt2 * p0 + 2048) >> 12;
v1 = (dctSqrt2 * p4 + 2048) >> 12;
v2 = p2;
v3 = p6;
v4 = (dctSqrt1d2 * (p1 - p7) + 2048) >> 12;
v7 = (dctSqrt1d2 * (p1 + p7) + 2048) >> 12;
v5 = p3;
v6 = p5;
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// stage 3
// Shift v0 by 128.5 << 5 here, so we don't need to shift p0...p7 when
// converting to UInt8 range later.
v0 = ((v0 + v1 + 1) >> 1) + 4112;
v1 = v0 - v1;
t = (v2 * dctSin6 + v3 * dctCos6 + 2048) >> 12;
v2 = (v2 * dctCos6 - v3 * dctSin6 + 2048) >> 12;
v3 = t;
v4 = (v4 + v6 + 1) >> 1;
v6 = v4 - v6;
v7 = (v7 + v5 + 1) >> 1;
v5 = v7 - v5;
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// stage 2
v0 = (v0 + v3 + 1) >> 1;
v3 = v0 - v3;
v1 = (v1 + v2 + 1) >> 1;
v2 = v1 - v2;
t = (v4 * dctSin3 + v7 * dctCos3 + 2048) >> 12;
v4 = (v4 * dctCos3 - v7 * dctSin3 + 2048) >> 12;
v7 = t;
t = (v5 * dctSin1 + v6 * dctCos1 + 2048) >> 12;
v5 = (v5 * dctCos1 - v6 * dctSin1 + 2048) >> 12;
v6 = t;
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// stage 1
p0 = v0 + v7;
p7 = v0 - v7;
p1 = v1 + v6;
p6 = v1 - v6;
p2 = v2 + v5;
p5 = v2 - v5;
p3 = v3 + v4;
p4 = v3 - v4;
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// convert to 8-bit integers
p0 = (p0 < 16) ? 0 : (p0 >= 4080) ? 255 : p0 >> 4;
p1 = (p1 < 16) ? 0 : (p1 >= 4080) ? 255 : p1 >> 4;
p2 = (p2 < 16) ? 0 : (p2 >= 4080) ? 255 : p2 >> 4;
p3 = (p3 < 16) ? 0 : (p3 >= 4080) ? 255 : p3 >> 4;
p4 = (p4 < 16) ? 0 : (p4 >= 4080) ? 255 : p4 >> 4;
p5 = (p5 < 16) ? 0 : (p5 >= 4080) ? 255 : p5 >> 4;
p6 = (p6 < 16) ? 0 : (p6 >= 4080) ? 255 : p6 >> 4;
p7 = (p7 < 16) ? 0 : (p7 >= 4080) ? 255 : p7 >> 4;
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// store block data
blockData[blockBufferOffset + col] = p0;
blockData[blockBufferOffset + col + 8] = p1;
blockData[blockBufferOffset + col + 16] = p2;
blockData[blockBufferOffset + col + 24] = p3;
blockData[blockBufferOffset + col + 32] = p4;
blockData[blockBufferOffset + col + 40] = p5;
blockData[blockBufferOffset + col + 48] = p6;
blockData[blockBufferOffset + col + 56] = p7;
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}
}
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function buildComponentData(frame, component) {
var blocksPerLine = component.blocksPerLine;
var blocksPerColumn = component.blocksPerColumn;
var computationBuffer = new Int16Array(64);
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for (var blockRow = 0; blockRow < blocksPerColumn; blockRow++) {
for (var blockCol = 0; blockCol < blocksPerLine; blockCol++) {
var offset = getBlockBufferOffset(component, blockRow, blockCol);
quantizeAndInverse(component, offset, computationBuffer);
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}
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}
return component.blockData;
}
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function clamp0to255(a) {
return a <= 0 ? 0 : a >= 255 ? 255 : a;
}
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constructor.prototype = {
parse: function parse(data) {
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function readUint16() {
var value = (data[offset] << 8) | data[offset + 1];
offset += 2;
return value;
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}
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function readDataBlock() {
var length = readUint16();
var array = data.subarray(offset, offset + length - 2);
offset += array.length;
return array;
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}
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function prepareComponents(frame) {
var mcusPerLine = Math.ceil(frame.samplesPerLine / 8 / frame.maxH);
var mcusPerColumn = Math.ceil(frame.scanLines / 8 / frame.maxV);
for (var i = 0; i < frame.components.length; i++) {
component = frame.components[i];
var blocksPerLine = Math.ceil(Math.ceil(frame.samplesPerLine / 8) *
component.h / frame.maxH);
var blocksPerColumn = Math.ceil(Math.ceil(frame.scanLines / 8) *
component.v / frame.maxV);
var blocksPerLineForMcu = mcusPerLine * component.h;
var blocksPerColumnForMcu = mcusPerColumn * component.v;
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var blocksBufferSize = 64 * blocksPerColumnForMcu *
(blocksPerLineForMcu + 1);
component.blockData = new Int16Array(blocksBufferSize);
component.blocksPerLine = blocksPerLine;
component.blocksPerColumn = blocksPerColumn;
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}
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frame.mcusPerLine = mcusPerLine;
frame.mcusPerColumn = mcusPerColumn;
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}
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var offset = 0;
var jfif = null;
var adobe = null;
var frame, resetInterval;
var quantizationTables = [];
var huffmanTablesAC = [], huffmanTablesDC = [];
var fileMarker = readUint16();
if (fileMarker !== 0xFFD8) { // SOI (Start of Image)
throw 'SOI not found';
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}
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fileMarker = readUint16();
while (fileMarker !== 0xFFD9) { // EOI (End of image)
var i, j, l;
switch(fileMarker) {
case 0xFFE0: // APP0 (Application Specific)
case 0xFFE1: // APP1
case 0xFFE2: // APP2
case 0xFFE3: // APP3
case 0xFFE4: // APP4
case 0xFFE5: // APP5
case 0xFFE6: // APP6
case 0xFFE7: // APP7
case 0xFFE8: // APP8
case 0xFFE9: // APP9
case 0xFFEA: // APP10
case 0xFFEB: // APP11
case 0xFFEC: // APP12
case 0xFFED: // APP13
case 0xFFEE: // APP14
case 0xFFEF: // APP15
case 0xFFFE: // COM (Comment)
var appData = readDataBlock();
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if (fileMarker === 0xFFE0) {
if (appData[0] === 0x4A && appData[1] === 0x46 &&
appData[2] === 0x49 && appData[3] === 0x46 &&
appData[4] === 0) { // 'JFIF\x00'
jfif = {
version: { major: appData[5], minor: appData[6] },
densityUnits: appData[7],
xDensity: (appData[8] << 8) | appData[9],
yDensity: (appData[10] << 8) | appData[11],
thumbWidth: appData[12],
thumbHeight: appData[13],
thumbData: appData.subarray(14, 14 +
3 * appData[12] * appData[13])
};
}
}
// TODO APP1 - Exif
if (fileMarker === 0xFFEE) {
if (appData[0] === 0x41 && appData[1] === 0x64 &&
appData[2] === 0x6F && appData[3] === 0x62 &&
appData[4] === 0x65) { // 'Adobe'
adobe = {
version: (appData[5] << 8) | appData[6],
flags0: (appData[7] << 8) | appData[8],
flags1: (appData[9] << 8) | appData[10],
transformCode: appData[11]
};
}
}
break;
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case 0xFFDB: // DQT (Define Quantization Tables)
var quantizationTablesLength = readUint16();
var quantizationTablesEnd = quantizationTablesLength + offset - 2;
var z;
while (offset < quantizationTablesEnd) {
var quantizationTableSpec = data[offset++];
var tableData = new Uint16Array(64);
if ((quantizationTableSpec >> 4) === 0) { // 8 bit values
for (j = 0; j < 64; j++) {
z = dctZigZag[j];
tableData[z] = data[offset++];
}
} else if ((quantizationTableSpec >> 4) === 1) { //16 bit
for (j = 0; j < 64; j++) {
z = dctZigZag[j];
tableData[z] = readUint16();
}
} else {
throw 'DQT: invalid table spec';
}
quantizationTables[quantizationTableSpec & 15] = tableData;
}
break;
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case 0xFFC0: // SOF0 (Start of Frame, Baseline DCT)
case 0xFFC1: // SOF1 (Start of Frame, Extended DCT)
case 0xFFC2: // SOF2 (Start of Frame, Progressive DCT)
if (frame) {
throw 'Only single frame JPEGs supported';
}
readUint16(); // skip data length
frame = {};
frame.extended = (fileMarker === 0xFFC1);
frame.progressive = (fileMarker === 0xFFC2);
frame.precision = data[offset++];
frame.scanLines = readUint16();
frame.samplesPerLine = readUint16();
frame.components = [];
frame.componentIds = {};
var componentsCount = data[offset++], componentId;
var maxH = 0, maxV = 0;
for (i = 0; i < componentsCount; i++) {
componentId = data[offset];
var h = data[offset + 1] >> 4;
var v = data[offset + 1] & 15;
if (maxH < h) {
maxH = h;
}
if (maxV < v) {
maxV = v;
}
var qId = data[offset + 2];
l = frame.components.push({
h: h,
v: v,
quantizationTable: quantizationTables[qId]
});
frame.componentIds[componentId] = l - 1;
offset += 3;
}
frame.maxH = maxH;
frame.maxV = maxV;
prepareComponents(frame);
break;
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case 0xFFC4: // DHT (Define Huffman Tables)
var huffmanLength = readUint16();
for (i = 2; i < huffmanLength;) {
var huffmanTableSpec = data[offset++];
var codeLengths = new Uint8Array(16);
var codeLengthSum = 0;
for (j = 0; j < 16; j++, offset++) {
codeLengthSum += (codeLengths[j] = data[offset]);
}
var huffmanValues = new Uint8Array(codeLengthSum);
for (j = 0; j < codeLengthSum; j++, offset++) {
huffmanValues[j] = data[offset];
}
i += 17 + codeLengthSum;
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((huffmanTableSpec >> 4) === 0 ?
huffmanTablesDC : huffmanTablesAC)[huffmanTableSpec & 15] =
buildHuffmanTable(codeLengths, huffmanValues);
}
break;
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case 0xFFDD: // DRI (Define Restart Interval)
readUint16(); // skip data length
resetInterval = readUint16();
break;
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case 0xFFDA: // SOS (Start of Scan)
var scanLength = readUint16();
var selectorsCount = data[offset++];
var components = [], component;
for (i = 0; i < selectorsCount; i++) {
var componentIndex = frame.componentIds[data[offset++]];
component = frame.components[componentIndex];
var tableSpec = data[offset++];
component.huffmanTableDC = huffmanTablesDC[tableSpec >> 4];
component.huffmanTableAC = huffmanTablesAC[tableSpec & 15];
components.push(component);
}
var spectralStart = data[offset++];
var spectralEnd = data[offset++];
var successiveApproximation = data[offset++];
var processed = decodeScan(data, offset,
frame, components, resetInterval,
spectralStart, spectralEnd,
successiveApproximation >> 4, successiveApproximation & 15);
offset += processed;
break;
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case 0xFFFF: // Fill bytes
if (data[offset] !== 0xFF) { // Avoid skipping a valid marker.
offset--;
}
break;
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default:
if (data[offset - 3] === 0xFF &&
data[offset - 2] >= 0xC0 && data[offset - 2] <= 0xFE) {
// could be incorrect encoding -- last 0xFF byte of the previous
// block was eaten by the encoder
offset -= 3;
break;
}
throw 'unknown JPEG marker ' + fileMarker.toString(16);
}
fileMarker = readUint16();
}
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this.width = frame.samplesPerLine;
this.height = frame.scanLines;
this.jfif = jfif;
this.adobe = adobe;
this.components = [];
for (i = 0; i < frame.components.length; i++) {
component = frame.components[i];
this.components.push({
output: buildComponentData(frame, component),
scaleX: component.h / frame.maxH,
scaleY: component.v / frame.maxV,
blocksPerLine: component.blocksPerLine,
blocksPerColumn: component.blocksPerColumn
});
}
this.numComponents = this.components.length;
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},
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_getLinearizedBlockData: function getLinearizedBlockData(width, height) {
var scaleX = this.width / width, scaleY = this.height / height;
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var component, componentScaleX, componentScaleY, blocksPerScanline;
var x, y, i, j, k;
var index;
var offset = 0;
var output;
var numComponents = this.components.length;
var dataLength = width * height * numComponents;
var data = new Uint8Array(dataLength);
var xScaleBlockOffset = new Uint32Array(width);
var mask3LSB = 0xfffffff8; // used to clear the 3 LSBs
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for (i = 0; i < numComponents; i++) {
component = this.components[i];
componentScaleX = component.scaleX * scaleX;
componentScaleY = component.scaleY * scaleY;
offset = i;
output = component.output;
blocksPerScanline = (component.blocksPerLine + 1) << 3;
// precalculate the xScaleBlockOffset
for (x = 0; x < width; x++) {
j = 0 | (x * componentScaleX);
xScaleBlockOffset[x] = ((j & mask3LSB) << 3) | (j & 7);
}
// linearize the blocks of the component
for (y = 0; y < height; y++) {
j = 0 | (y * componentScaleY);
index = blocksPerScanline * (j & mask3LSB) | ((j & 7) << 3);
for (x = 0; x < width; x++) {
data[offset] = output[index + xScaleBlockOffset[x]];
offset += numComponents;
}
}
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}
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// decodeTransform contains pairs of multiplier (-256..256) and additive
var transform = this.decodeTransform;
if (transform) {
for (i = 0; i < dataLength;) {
for (j = 0, k = 0; j < numComponents; j++, i++, k += 2) {
data[i] = ((data[i] * transform[k]) >> 8) + transform[k + 1];
}
}
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}
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return data;
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},
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_isColorConversionNeeded: function isColorConversionNeeded() {
if (this.adobe && this.adobe.transformCode) {
// The adobe transform marker overrides any previous setting
return true;
} else if (this.numComponents === 3) {
return true;
} else {
return false;
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}
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},
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_convertYccToRgb: function convertYccToRgb(data) {
var Y, Cb, Cr;
for (var i = 0, length = data.length; i < length; i += 3) {
Y = data[i ];
Cb = data[i + 1];
Cr = data[i + 2];
data[i ] = clamp0to255(Y - 179.456 + 1.402 * Cr);
data[i + 1] = clamp0to255(Y + 135.459 - 0.344 * Cb - 0.714 * Cr);
data[i + 2] = clamp0to255(Y - 226.816 + 1.772 * Cb);
}
return data;
},
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_convertYcckToRgb: function convertYcckToRgb(data) {
var Y, Cb, Cr, k;
var offset = 0;
for (var i = 0, length = data.length; i < length; i += 4) {
Y = data[i];
Cb = data[i + 1];
Cr = data[i + 2];
k = data[i + 3];
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var r = -122.67195406894 +
Cb * (-6.60635669420364e-5 * Cb + 0.000437130475926232 * Cr -
5.4080610064599e-5 * Y + 0.00048449797120281 * k -
0.154362151871126) +
Cr * (-0.000957964378445773 * Cr + 0.000817076911346625 * Y -
0.00477271405408747 * k + 1.53380253221734) +
Y * (0.000961250184130688 * Y - 0.00266257332283933 * k +
0.48357088451265) +
k * (-0.000336197177618394 * k + 0.484791561490776);
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var g = 107.268039397724 +
Cb * (2.19927104525741e-5 * Cb - 0.000640992018297945 * Cr +
0.000659397001245577 * Y + 0.000426105652938837 * k -
0.176491792462875) +
Cr * (-0.000778269941513683 * Cr + 0.00130872261408275 * Y +
0.000770482631801132 * k - 0.151051492775562) +
Y * (0.00126935368114843 * Y - 0.00265090189010898 * k +
0.25802910206845) +
k * (-0.000318913117588328 * k - 0.213742400323665);
var b = -20.810012546947 +
Cb * (-0.000570115196973677 * Cb - 2.63409051004589e-5 * Cr +
0.0020741088115012 * Y - 0.00288260236853442 * k +
0.814272968359295) +
Cr * (-1.53496057440975e-5 * Cr - 0.000132689043961446 * Y +
0.000560833691242812 * k - 0.195152027534049) +
Y * (0.00174418132927582 * Y - 0.00255243321439347 * k +
0.116935020465145) +
k * (-0.000343531996510555 * k + 0.24165260232407);
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data[offset++] = clamp0to255(r);
data[offset++] = clamp0to255(g);
data[offset++] = clamp0to255(b);
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}
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return data;
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},
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_convertYcckToCmyk: function convertYcckToCmyk(data) {
var Y, Cb, Cr;
for (var i = 0, length = data.length; i < length; i += 4) {
Y = data[i];
Cb = data[i + 1];
Cr = data[i + 2];
data[i ] = clamp0to255(434.456 - Y - 1.402 * Cr);
data[i + 1] = clamp0to255(119.541 - Y + 0.344 * Cb + 0.714 * Cr);
data[i + 2] = clamp0to255(481.816 - Y - 1.772 * Cb);
// K in data[i + 3] is unchanged
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}
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return data;
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},
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_convertCmykToRgb: function convertCmykToRgb(data) {
var c, m, y, k;
var offset = 0;
var min = -255 * 255 * 255;
var scale = 1 / 255 / 255;
for (var i = 0, length = data.length; i < length; i += 4) {
c = data[i];
m = data[i + 1];
y = data[i + 2];
k = data[i + 3];
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var r =
c * (-4.387332384609988 * c + 54.48615194189176 * m +
18.82290502165302 * y + 212.25662451639585 * k -
72734.4411664936) +
m * (1.7149763477362134 * m - 5.6096736904047315 * y -
17.873870861415444 * k - 1401.7366389350734) +
y * (-2.5217340131683033 * y - 21.248923337353073 * k +
4465.541406466231) -
k * (21.86122147463605 * k + 48317.86113160301);
var g =
c * (8.841041422036149 * c + 60.118027045597366 * m +
6.871425592049007 * y + 31.159100130055922 * k -
20220.756542821975) +
m * (-15.310361306967817 * m + 17.575251261109482 * y +
131.35250912493976 * k - 48691.05921601825) +
y * (4.444339102852739 * y + 9.8632861493405 * k -
6341.191035517494) -
k * (20.737325471181034 * k + 47890.15695978492);
var b =
c * (0.8842522430003296 * c + 8.078677503112928 * m +
30.89978309703729 * y - 0.23883238689178934 * k -
3616.812083916688) +
m * (10.49593273432072 * m + 63.02378494754052 * y +
50.606957656360734 * k - 28620.90484698408) +
y * (0.03296041114873217 * y + 115.60384449646641 * k -
49363.43385999684) -
k * (22.33816807309886 * k + 45932.16563550634);
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data[offset++] = r >= 0 ? 255 : r <= min ? 0 : 255 + r * scale | 0;
data[offset++] = g >= 0 ? 255 : g <= min ? 0 : 255 + g * scale | 0;
data[offset++] = b >= 0 ? 255 : b <= min ? 0 : 255 + b * scale | 0;
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}
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return data;
},
getData: function getData(width, height, forceRGBoutput) {
if (this.numComponents > 4) {
throw 'Unsupported color mode';
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}
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// type of data: Uint8Array(width * height * numComponents)
var data = this._getLinearizedBlockData(width, height);
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if (this.numComponents === 1 && forceRGBoutput) {
var dataLength = data.length;
var rgbData = new Uint8Array(dataLength * 3);
var offset = 0;
for (var i = 0; i < dataLength; i++) {
var grayColor = data[i];
rgbData[offset++] = grayColor;
rgbData[offset++] = grayColor;
rgbData[offset++] = grayColor;
}
return rgbData;
} else if (this.numComponents === 3) {
return this._convertYccToRgb(data);
} else if (this.numComponents === 4) {
if (this._isColorConversionNeeded()) {
if (forceRGBoutput) {
return this._convertYcckToRgb(data);
} else {
return this._convertYcckToCmyk(data);
}
} else if (forceRGBoutput) {
return this._convertCmykToRgb(data);
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}
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}
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return data;
}
};
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return constructor;
})();
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exports.JpegImage = JpegImage;
}));
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(function (root, factory) {
{
factory((root.pdfjsSharedUtil = {}));
}
}(this, function (exports) {
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var globalScope = (typeof window !== 'undefined') ? window :
(typeof global !== 'undefined') ? global :
(typeof self !== 'undefined') ? self : this;
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var FONT_IDENTITY_MATRIX = [0.001, 0, 0, 0.001, 0, 0];
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var TextRenderingMode = {
FILL: 0,
STROKE: 1,
FILL_STROKE: 2,
INVISIBLE: 3,
FILL_ADD_TO_PATH: 4,
STROKE_ADD_TO_PATH: 5,
FILL_STROKE_ADD_TO_PATH: 6,
ADD_TO_PATH: 7,
FILL_STROKE_MASK: 3,
ADD_TO_PATH_FLAG: 4
};
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var ImageKind = {
GRAYSCALE_1BPP: 1,
RGB_24BPP: 2,
RGBA_32BPP: 3
};
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var AnnotationType = {
TEXT: 1,
LINK: 2,
FREETEXT: 3,
LINE: 4,
SQUARE: 5,
CIRCLE: 6,
POLYGON: 7,
POLYLINE: 8,
HIGHLIGHT: 9,
UNDERLINE: 10,
SQUIGGLY: 11,
STRIKEOUT: 12,
STAMP: 13,
CARET: 14,
INK: 15,
POPUP: 16,
FILEATTACHMENT: 17,
SOUND: 18,
MOVIE: 19,
WIDGET: 20,
SCREEN: 21,
PRINTERMARK: 22,
TRAPNET: 23,
WATERMARK: 24,
THREED: 25,
REDACT: 26
};
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var AnnotationFlag = {
INVISIBLE: 0x01,
HIDDEN: 0x02,
PRINT: 0x04,
NOZOOM: 0x08,
NOROTATE: 0x10,
NOVIEW: 0x20,
READONLY: 0x40,
LOCKED: 0x80,
TOGGLENOVIEW: 0x100,
LOCKEDCONTENTS: 0x200
};
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var AnnotationBorderStyleType = {
SOLID: 1,
DASHED: 2,
BEVELED: 3,
INSET: 4,
UNDERLINE: 5
};
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var StreamType = {
UNKNOWN: 0,
FLATE: 1,
LZW: 2,
DCT: 3,
JPX: 4,
JBIG: 5,
A85: 6,
AHX: 7,
CCF: 8,
RL: 9
};
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var FontType = {
UNKNOWN: 0,
TYPE1: 1,
TYPE1C: 2,
CIDFONTTYPE0: 3,
CIDFONTTYPE0C: 4,
TRUETYPE: 5,
CIDFONTTYPE2: 6,
TYPE3: 7,
OPENTYPE: 8,
TYPE0: 9,
MMTYPE1: 10
};
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var VERBOSITY_LEVELS = {
errors: 0,
warnings: 1,
infos: 5
};
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// All the possible operations for an operator list.
var OPS = {
// Intentionally start from 1 so it is easy to spot bad operators that will be
// 0's.
dependency: 1,
setLineWidth: 2,
setLineCap: 3,
setLineJoin: 4,
setMiterLimit: 5,
setDash: 6,
setRenderingIntent: 7,
setFlatness: 8,
setGState: 9,
save: 10,
restore: 11,
transform: 12,
moveTo: 13,
lineTo: 14,
curveTo: 15,
curveTo2: 16,
curveTo3: 17,
closePath: 18,
rectangle: 19,
stroke: 20,
closeStroke: 21,
fill: 22,
eoFill: 23,
fillStroke: 24,
eoFillStroke: 25,
closeFillStroke: 26,
closeEOFillStroke: 27,
endPath: 28,
clip: 29,
eoClip: 30,
beginText: 31,
endText: 32,
setCharSpacing: 33,
setWordSpacing: 34,
setHScale: 35,
setLeading: 36,
setFont: 37,
setTextRenderingMode: 38,
setTextRise: 39,
moveText: 40,
setLeadingMoveText: 41,
setTextMatrix: 42,
nextLine: 43,
showText: 44,
showSpacedText: 45,
nextLineShowText: 46,
nextLineSetSpacingShowText: 47,
setCharWidth: 48,
setCharWidthAndBounds: 49,
setStrokeColorSpace: 50,
setFillColorSpace: 51,
setStrokeColor: 52,
setStrokeColorN: 53,
setFillColor: 54,
setFillColorN: 55,
setStrokeGray: 56,
setFillGray: 57,
setStrokeRGBColor: 58,
setFillRGBColor: 59,
setStrokeCMYKColor: 60,
setFillCMYKColor: 61,
shadingFill: 62,
beginInlineImage: 63,
beginImageData: 64,
endInlineImage: 65,
paintXObject: 66,
markPoint: 67,
markPointProps: 68,
beginMarkedContent: 69,
beginMarkedContentProps: 70,
endMarkedContent: 71,
beginCompat: 72,
endCompat: 73,
paintFormXObjectBegin: 74,
paintFormXObjectEnd: 75,
beginGroup: 76,
endGroup: 77,
beginAnnotations: 78,
endAnnotations: 79,
beginAnnotation: 80,
endAnnotation: 81,
paintJpegXObject: 82,
paintImageMaskXObject: 83,
paintImageMaskXObjectGroup: 84,
paintImageXObject: 85,
paintInlineImageXObject: 86,
paintInlineImageXObjectGroup: 87,
paintImageXObjectRepeat: 88,
paintImageMaskXObjectRepeat: 89,
paintSolidColorImageMask: 90,
constructPath: 91
};
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var verbosity = VERBOSITY_LEVELS.warnings;
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function setVerbosityLevel(level) {
verbosity = level;
}
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function getVerbosityLevel() {
return verbosity;
}
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// A notice for devs. These are good for things that are helpful to devs, such
// as warning that Workers were disabled, which is important to devs but not
// end users.
function info(msg) {
if (verbosity >= VERBOSITY_LEVELS.infos) {
console.log('Info: ' + msg);
}
}
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// Non-fatal warnings.
function warn(msg) {
if (verbosity >= VERBOSITY_LEVELS.warnings) {
console.log('Warning: ' + msg);
}
}
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// Deprecated API function -- display regardless of the PDFJS.verbosity setting.
function deprecated(details) {
console.log('Deprecated API usage: ' + details);
}
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// Fatal errors that should trigger the fallback UI and halt execution by
// throwing an exception.
function error(msg) {
if (verbosity >= VERBOSITY_LEVELS.errors) {
console.log('Error: ' + msg);
console.log(backtrace());
}
throw new Error(msg);
}
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function backtrace() {
try {
throw new Error();
} catch (e) {
return e.stack ? e.stack.split('\n').slice(2).join('\n') : '';
}
}
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function assert(cond, msg) {
if (!cond) {
error(msg);
}
}
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var UNSUPPORTED_FEATURES = {
unknown: 'unknown',
forms: 'forms',
javaScript: 'javaScript',
smask: 'smask',
shadingPattern: 'shadingPattern',
font: 'font'
};
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// Combines two URLs. The baseUrl shall be absolute URL. If the url is an
// absolute URL, it will be returned as is.
function combineUrl(baseUrl, url) {
if (!url) {
return baseUrl;
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}
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return new URL(url, baseUrl).href;
}
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// Checks if URLs have the same origin. For non-HTTP based URLs, returns false.
function isSameOrigin(baseUrl, otherUrl) {
try {
var base = new URL(baseUrl);
if (!base.origin || base.origin === 'null') {
return false; // non-HTTP url
}
} catch (e) {
return false;
}
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var other = new URL(otherUrl, base);
return base.origin === other.origin;
}
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// Validates if URL is safe and allowed, e.g. to avoid XSS.
function isValidUrl(url, allowRelative) {
if (!url) {
return false;
}
// RFC 3986 (http://tools.ietf.org/html/rfc3986#section-3.1)
// scheme = ALPHA *( ALPHA / DIGIT / "+" / "-" / "." )
var protocol = /^[a-z][a-z0-9+\-.]*(?=:)/i.exec(url);
if (!protocol) {
return allowRelative;
}
protocol = protocol[0].toLowerCase();
switch (protocol) {
case 'http':
case 'https':
case 'ftp':
case 'mailto':
case 'tel':
return true;
default:
return false;
}
}
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function shadow(obj, prop, value) {
Object.defineProperty(obj, prop, { value: value,
enumerable: true,
configurable: true,
writable: false });
return value;
}
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function getLookupTableFactory(initializer) {
var lookup;
return function () {
if (initializer) {
lookup = Object.create(null);
initializer(lookup);
initializer = null;
}
return lookup;
};
}
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var PasswordResponses = {
NEED_PASSWORD: 1,
INCORRECT_PASSWORD: 2
};
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var PasswordException = (function PasswordExceptionClosure() {
function PasswordException(msg, code) {
this.name = 'PasswordException';
this.message = msg;
this.code = code;
}
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PasswordException.prototype = new Error();
PasswordException.constructor = PasswordException;
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return PasswordException;
})();
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var UnknownErrorException = (function UnknownErrorExceptionClosure() {
function UnknownErrorException(msg, details) {
this.name = 'UnknownErrorException';
this.message = msg;
this.details = details;
}
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UnknownErrorException.prototype = new Error();
UnknownErrorException.constructor = UnknownErrorException;
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return UnknownErrorException;
})();
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var InvalidPDFException = (function InvalidPDFExceptionClosure() {
function InvalidPDFException(msg) {
this.name = 'InvalidPDFException';
this.message = msg;
}
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InvalidPDFException.prototype = new Error();
InvalidPDFException.constructor = InvalidPDFException;
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return InvalidPDFException;
})();
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var MissingPDFException = (function MissingPDFExceptionClosure() {
function MissingPDFException(msg) {
this.name = 'MissingPDFException';
this.message = msg;
}
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MissingPDFException.prototype = new Error();
MissingPDFException.constructor = MissingPDFException;
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return MissingPDFException;
})();
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var UnexpectedResponseException =
(function UnexpectedResponseExceptionClosure() {
function UnexpectedResponseException(msg, status) {
this.name = 'UnexpectedResponseException';
this.message = msg;
this.status = status;
}
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UnexpectedResponseException.prototype = new Error();
UnexpectedResponseException.constructor = UnexpectedResponseException;
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return UnexpectedResponseException;
})();
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var NotImplementedException = (function NotImplementedExceptionClosure() {
function NotImplementedException(msg) {
this.message = msg;
}
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NotImplementedException.prototype = new Error();
NotImplementedException.prototype.name = 'NotImplementedException';
NotImplementedException.constructor = NotImplementedException;
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return NotImplementedException;
})();
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var MissingDataException = (function MissingDataExceptionClosure() {
function MissingDataException(begin, end) {
this.begin = begin;
this.end = end;
this.message = 'Missing data [' + begin + ', ' + end + ')';
}
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MissingDataException.prototype = new Error();
MissingDataException.prototype.name = 'MissingDataException';
MissingDataException.constructor = MissingDataException;
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return MissingDataException;
})();
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var XRefParseException = (function XRefParseExceptionClosure() {
function XRefParseException(msg) {
this.message = msg;
}
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XRefParseException.prototype = new Error();
XRefParseException.prototype.name = 'XRefParseException';
XRefParseException.constructor = XRefParseException;
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return XRefParseException;
})();
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var NullCharactersRegExp = /\x00/g;
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function removeNullCharacters(str) {
if (typeof str !== 'string') {
warn('The argument for removeNullCharacters must be a string.');
return str;
}
return str.replace(NullCharactersRegExp, '');
}
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function bytesToString(bytes) {
assert(bytes !== null && typeof bytes === 'object' &&
bytes.length !== undefined, 'Invalid argument for bytesToString');
var length = bytes.length;
var MAX_ARGUMENT_COUNT = 8192;
if (length < MAX_ARGUMENT_COUNT) {
return String.fromCharCode.apply(null, bytes);
}
var strBuf = [];
for (var i = 0; i < length; i += MAX_ARGUMENT_COUNT) {
var chunkEnd = Math.min(i + MAX_ARGUMENT_COUNT, length);
var chunk = bytes.subarray(i, chunkEnd);
strBuf.push(String.fromCharCode.apply(null, chunk));
}
return strBuf.join('');
}
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function stringToBytes(str) {
assert(typeof str === 'string', 'Invalid argument for stringToBytes');
var length = str.length;
var bytes = new Uint8Array(length);
for (var i = 0; i < length; ++i) {
bytes[i] = str.charCodeAt(i) & 0xFF;
}
return bytes;
}
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/**
* Gets length of the array (Array, Uint8Array, or string) in bytes.
* @param {Array|Uint8Array|string} arr
* @returns {number}
*/
function arrayByteLength(arr) {
if (arr.length !== undefined) {
return arr.length;
}
assert(arr.byteLength !== undefined);
return arr.byteLength;
}
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/**
* Combines array items (arrays) into single Uint8Array object.
* @param {Array} arr - the array of the arrays (Array, Uint8Array, or string).
* @returns {Uint8Array}
*/
function arraysToBytes(arr) {
// Shortcut: if first and only item is Uint8Array, return it.
if (arr.length === 1 && (arr[0] instanceof Uint8Array)) {
return arr[0];
}
var resultLength = 0;
var i, ii = arr.length;
var item, itemLength ;
for (i = 0; i < ii; i++) {
item = arr[i];
itemLength = arrayByteLength(item);
resultLength += itemLength;
}
var pos = 0;
var data = new Uint8Array(resultLength);
for (i = 0; i < ii; i++) {
item = arr[i];
if (!(item instanceof Uint8Array)) {
if (typeof item === 'string') {
item = stringToBytes(item);
} else {
item = new Uint8Array(item);
}
}
itemLength = item.byteLength;
data.set(item, pos);
pos += itemLength;
}
return data;
}
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function string32(value) {
return String.fromCharCode((value >> 24) & 0xff, (value >> 16) & 0xff,
(value >> 8) & 0xff, value & 0xff);
}
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function log2(x) {
var n = 1, i = 0;
while (x > n) {
n <<= 1;
i++;
}
return i;
}
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function readInt8(data, start) {
return (data[start] << 24) >> 24;
}
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function readUint16(data, offset) {
return (data[offset] << 8) | data[offset + 1];
}
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function readUint32(data, offset) {
return ((data[offset] << 24) | (data[offset + 1] << 16) |
(data[offset + 2] << 8) | data[offset + 3]) >>> 0;
}
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// Lazy test the endianness of the platform
// NOTE: This will be 'true' for simulated TypedArrays
function isLittleEndian() {
var buffer8 = new Uint8Array(2);
buffer8[0] = 1;
var buffer16 = new Uint16Array(buffer8.buffer);
return (buffer16[0] === 1);
}
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var Uint32ArrayView = (function Uint32ArrayViewClosure() {
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function Uint32ArrayView(buffer, length) {
this.buffer = buffer;
this.byteLength = buffer.length;
this.length = length === undefined ? (this.byteLength >> 2) : length;
ensureUint32ArrayViewProps(this.length);
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}
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Uint32ArrayView.prototype = Object.create(null);
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var uint32ArrayViewSetters = 0;
function createUint32ArrayProp(index) {
return {
get: function () {
var buffer = this.buffer, offset = index << 2;
return (buffer[offset] | (buffer[offset + 1] << 8) |
(buffer[offset + 2] << 16) | (buffer[offset + 3] << 24)) >>> 0;
},
set: function (value) {
var buffer = this.buffer, offset = index << 2;
buffer[offset] = value & 255;
buffer[offset + 1] = (value >> 8) & 255;
buffer[offset + 2] = (value >> 16) & 255;
buffer[offset + 3] = (value >>> 24) & 255;
}
};
}
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function ensureUint32ArrayViewProps(length) {
while (uint32ArrayViewSetters < length) {
Object.defineProperty(Uint32ArrayView.prototype,
uint32ArrayViewSetters,
createUint32ArrayProp(uint32ArrayViewSetters));
uint32ArrayViewSetters++;
}
}
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return Uint32ArrayView;
})();
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exports.Uint32ArrayView = Uint32ArrayView;
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var IDENTITY_MATRIX = [1, 0, 0, 1, 0, 0];
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var Util = (function UtilClosure() {
function Util() {}
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var rgbBuf = ['rgb(', 0, ',', 0, ',', 0, ')'];
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// makeCssRgb() can be called thousands of times. Using |rgbBuf| avoids
// creating many intermediate strings.
Util.makeCssRgb = function Util_makeCssRgb(r, g, b) {
rgbBuf[1] = r;
rgbBuf[3] = g;
rgbBuf[5] = b;
return rgbBuf.join('');
};
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// Concatenates two transformation matrices together and returns the result.
Util.transform = function Util_transform(m1, m2) {
return [
m1[0] * m2[0] + m1[2] * m2[1],
m1[1] * m2[0] + m1[3] * m2[1],
m1[0] * m2[2] + m1[2] * m2[3],
m1[1] * m2[2] + m1[3] * m2[3],
m1[0] * m2[4] + m1[2] * m2[5] + m1[4],
m1[1] * m2[4] + m1[3] * m2[5] + m1[5]
];
};
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// For 2d affine transforms
Util.applyTransform = function Util_applyTransform(p, m) {
var xt = p[0] * m[0] + p[1] * m[2] + m[4];
var yt = p[0] * m[1] + p[1] * m[3] + m[5];
return [xt, yt];
};
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Util.applyInverseTransform = function Util_applyInverseTransform(p, m) {
var d = m[0] * m[3] - m[1] * m[2];
var xt = (p[0] * m[3] - p[1] * m[2] + m[2] * m[5] - m[4] * m[3]) / d;
var yt = (-p[0] * m[1] + p[1] * m[0] + m[4] * m[1] - m[5] * m[0]) / d;
return [xt, yt];
};
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// Applies the transform to the rectangle and finds the minimum axially
// aligned bounding box.
Util.getAxialAlignedBoundingBox =
function Util_getAxialAlignedBoundingBox(r, m) {
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var p1 = Util.applyTransform(r, m);
var p2 = Util.applyTransform(r.slice(2, 4), m);
var p3 = Util.applyTransform([r[0], r[3]], m);
var p4 = Util.applyTransform([r[2], r[1]], m);
return [
Math.min(p1[0], p2[0], p3[0], p4[0]),
Math.min(p1[1], p2[1], p3[1], p4[1]),
Math.max(p1[0], p2[0], p3[0], p4[0]),
Math.max(p1[1], p2[1], p3[1], p4[1])
];
};
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Util.inverseTransform = function Util_inverseTransform(m) {
var d = m[0] * m[3] - m[1] * m[2];
return [m[3] / d, -m[1] / d, -m[2] / d, m[0] / d,
(m[2] * m[5] - m[4] * m[3]) / d, (m[4] * m[1] - m[5] * m[0]) / d];
};
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// Apply a generic 3d matrix M on a 3-vector v:
// | a b c | | X |
// | d e f | x | Y |
// | g h i | | Z |
// M is assumed to be serialized as [a,b,c,d,e,f,g,h,i],
// with v as [X,Y,Z]
Util.apply3dTransform = function Util_apply3dTransform(m, v) {
return [
m[0] * v[0] + m[1] * v[1] + m[2] * v[2],
m[3] * v[0] + m[4] * v[1] + m[5] * v[2],
m[6] * v[0] + m[7] * v[1] + m[8] * v[2]
];
};
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// This calculation uses Singular Value Decomposition.
// The SVD can be represented with formula A = USV. We are interested in the
// matrix S here because it represents the scale values.
Util.singularValueDecompose2dScale =
function Util_singularValueDecompose2dScale(m) {
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var transpose = [m[0], m[2], m[1], m[3]];
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// Multiply matrix m with its transpose.
var a = m[0] * transpose[0] + m[1] * transpose[2];
var b = m[0] * transpose[1] + m[1] * transpose[3];
var c = m[2] * transpose[0] + m[3] * transpose[2];
var d = m[2] * transpose[1] + m[3] * transpose[3];
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// Solve the second degree polynomial to get roots.
var first = (a + d) / 2;
var second = Math.sqrt((a + d) * (a + d) - 4 * (a * d - c * b)) / 2;
var sx = first + second || 1;
var sy = first - second || 1;
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// Scale values are the square roots of the eigenvalues.
return [Math.sqrt(sx), Math.sqrt(sy)];
};
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// Normalize rectangle rect=[x1, y1, x2, y2] so that (x1,y1) < (x2,y2)
// For coordinate systems whose origin lies in the bottom-left, this
// means normalization to (BL,TR) ordering. For systems with origin in the
// top-left, this means (TL,BR) ordering.
Util.normalizeRect = function Util_normalizeRect(rect) {
var r = rect.slice(0); // clone rect
if (rect[0] > rect[2]) {
r[0] = rect[2];
r[2] = rect[0];
}
if (rect[1] > rect[3]) {
r[1] = rect[3];
r[3] = rect[1];
}
return r;
};
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// Returns a rectangle [x1, y1, x2, y2] corresponding to the
// intersection of rect1 and rect2. If no intersection, returns 'false'
// The rectangle coordinates of rect1, rect2 should be [x1, y1, x2, y2]
Util.intersect = function Util_intersect(rect1, rect2) {
function compare(a, b) {
return a - b;
}
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// Order points along the axes
var orderedX = [rect1[0], rect1[2], rect2[0], rect2[2]].sort(compare),
orderedY = [rect1[1], rect1[3], rect2[1], rect2[3]].sort(compare),
result = [];
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rect1 = Util.normalizeRect(rect1);
rect2 = Util.normalizeRect(rect2);
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// X: first and second points belong to different rectangles?
if ((orderedX[0] === rect1[0] && orderedX[1] === rect2[0]) ||
(orderedX[0] === rect2[0] && orderedX[1] === rect1[0])) {
// Intersection must be between second and third points
result[0] = orderedX[1];
result[2] = orderedX[2];
} else {
return false;
}
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// Y: first and second points belong to different rectangles?
if ((orderedY[0] === rect1[1] && orderedY[1] === rect2[1]) ||
(orderedY[0] === rect2[1] && orderedY[1] === rect1[1])) {
// Intersection must be between second and third points
result[1] = orderedY[1];
result[3] = orderedY[2];
} else {
return false;
}
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return result;
};
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Util.sign = function Util_sign(num) {
return num < 0 ? -1 : 1;
};
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var ROMAN_NUMBER_MAP = [
'', 'C', 'CC', 'CCC', 'CD', 'D', 'DC', 'DCC', 'DCCC', 'CM',
'', 'X', 'XX', 'XXX', 'XL', 'L', 'LX', 'LXX', 'LXXX', 'XC',
'', 'I', 'II', 'III', 'IV', 'V', 'VI', 'VII', 'VIII', 'IX'
];
/**
* Converts positive integers to (upper case) Roman numerals.
* @param {integer} number - The number that should be converted.
* @param {boolean} lowerCase - Indicates if the result should be converted
* to lower case letters. The default is false.
* @return {string} The resulting Roman number.
*/
Util.toRoman = function Util_toRoman(number, lowerCase) {
assert(isInt(number) && number > 0,
'The number should be a positive integer.');
var pos, romanBuf = [];
// Thousands
while (number >= 1000) {
number -= 1000;
romanBuf.push('M');
}
// Hundreds
pos = (number / 100) | 0;
number %= 100;
romanBuf.push(ROMAN_NUMBER_MAP[pos]);
// Tens
pos = (number / 10) | 0;
number %= 10;
romanBuf.push(ROMAN_NUMBER_MAP[10 + pos]);
// Ones
romanBuf.push(ROMAN_NUMBER_MAP[20 + number]);
var romanStr = romanBuf.join('');
return (lowerCase ? romanStr.toLowerCase() : romanStr);
};
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Util.appendToArray = function Util_appendToArray(arr1, arr2) {
Array.prototype.push.apply(arr1, arr2);
};
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Util.prependToArray = function Util_prependToArray(arr1, arr2) {
Array.prototype.unshift.apply(arr1, arr2);
};
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Util.extendObj = function extendObj(obj1, obj2) {
for (var key in obj2) {
obj1[key] = obj2[key];
}
};
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Util.getInheritableProperty = function Util_getInheritableProperty(dict,
name) {
while (dict && !dict.has(name)) {
dict = dict.get('Parent');
}
if (!dict) {
return null;
}
return dict.get(name);
};
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Util.inherit = function Util_inherit(sub, base, prototype) {
sub.prototype = Object.create(base.prototype);
sub.prototype.constructor = sub;
for (var prop in prototype) {
sub.prototype[prop] = prototype[prop];
}
};
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Util.loadScript = function Util_loadScript(src, callback) {
var script = document.createElement('script');
var loaded = false;
script.setAttribute('src', src);
if (callback) {
script.onload = function() {
if (!loaded) {
callback();
}
loaded = true;
};
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}
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document.getElementsByTagName('head')[0].appendChild(script);
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};
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return Util;
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})();
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/**
* PDF page viewport created based on scale, rotation and offset.
* @class
* @alias PDFJS.PageViewport
*/
var PageViewport = (function PageViewportClosure() {
/**
* @constructor
* @private
* @param viewBox {Array} xMin, yMin, xMax and yMax coordinates.
* @param scale {number} scale of the viewport.
* @param rotation {number} rotations of the viewport in degrees.
* @param offsetX {number} offset X
* @param offsetY {number} offset Y
* @param dontFlip {boolean} if true, axis Y will not be flipped.
*/
function PageViewport(viewBox, scale, rotation, offsetX, offsetY, dontFlip) {
this.viewBox = viewBox;
this.scale = scale;
this.rotation = rotation;
this.offsetX = offsetX;
this.offsetY = offsetY;
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// creating transform to convert pdf coordinate system to the normal
// canvas like coordinates taking in account scale and rotation
var centerX = (viewBox[2] + viewBox[0]) / 2;
var centerY = (viewBox[3] + viewBox[1]) / 2;
var rotateA, rotateB, rotateC, rotateD;
rotation = rotation % 360;
rotation = rotation < 0 ? rotation + 360 : rotation;
switch (rotation) {
case 180:
rotateA = -1; rotateB = 0; rotateC = 0; rotateD = 1;
break;
case 90:
rotateA = 0; rotateB = 1; rotateC = 1; rotateD = 0;
break;
case 270:
rotateA = 0; rotateB = -1; rotateC = -1; rotateD = 0;
break;
//case 0:
default:
rotateA = 1; rotateB = 0; rotateC = 0; rotateD = -1;
break;
}
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if (dontFlip) {
rotateC = -rotateC; rotateD = -rotateD;
}
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var offsetCanvasX, offsetCanvasY;
var width, height;
if (rotateA === 0) {
offsetCanvasX = Math.abs(centerY - viewBox[1]) * scale + offsetX;
offsetCanvasY = Math.abs(centerX - viewBox[0]) * scale + offsetY;
width = Math.abs(viewBox[3] - viewBox[1]) * scale;
height = Math.abs(viewBox[2] - viewBox[0]) * scale;
} else {
offsetCanvasX = Math.abs(centerX - viewBox[0]) * scale + offsetX;
offsetCanvasY = Math.abs(centerY - viewBox[1]) * scale + offsetY;
width = Math.abs(viewBox[2] - viewBox[0]) * scale;
height = Math.abs(viewBox[3] - viewBox[1]) * scale;
}
// creating transform for the following operations:
// translate(-centerX, -centerY), rotate and flip vertically,
// scale, and translate(offsetCanvasX, offsetCanvasY)
this.transform = [
rotateA * scale,
rotateB * scale,
rotateC * scale,
rotateD * scale,
offsetCanvasX - rotateA * scale * centerX - rotateC * scale * centerY,
offsetCanvasY - rotateB * scale * centerX - rotateD * scale * centerY
];
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this.width = width;
this.height = height;
this.fontScale = scale;
}
PageViewport.prototype = /** @lends PDFJS.PageViewport.prototype */ {
/**
* Clones viewport with additional properties.
* @param args {Object} (optional) If specified, may contain the 'scale' or
* 'rotation' properties to override the corresponding properties in
* the cloned viewport.
* @returns {PDFJS.PageViewport} Cloned viewport.
*/
clone: function PageViewPort_clone(args) {
args = args || {};
var scale = 'scale' in args ? args.scale : this.scale;
var rotation = 'rotation' in args ? args.rotation : this.rotation;
return new PageViewport(this.viewBox.slice(), scale, rotation,
this.offsetX, this.offsetY, args.dontFlip);
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},
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/**
* Converts PDF point to the viewport coordinates. For examples, useful for
* converting PDF location into canvas pixel coordinates.
* @param x {number} X coordinate.
* @param y {number} Y coordinate.
* @returns {Object} Object that contains 'x' and 'y' properties of the
* point in the viewport coordinate space.
* @see {@link convertToPdfPoint}
* @see {@link convertToViewportRectangle}
*/
convertToViewportPoint: function PageViewport_convertToViewportPoint(x, y) {
return Util.applyTransform([x, y], this.transform);
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},
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/**
* Converts PDF rectangle to the viewport coordinates.
* @param rect {Array} xMin, yMin, xMax and yMax coordinates.
* @returns {Array} Contains corresponding coordinates of the rectangle
* in the viewport coordinate space.
* @see {@link convertToViewportPoint}
*/
convertToViewportRectangle:
function PageViewport_convertToViewportRectangle(rect) {
var tl = Util.applyTransform([rect[0], rect[1]], this.transform);
var br = Util.applyTransform([rect[2], rect[3]], this.transform);
return [tl[0], tl[1], br[0], br[1]];
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},
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/**
* Converts viewport coordinates to the PDF location. For examples, useful
* for converting canvas pixel location into PDF one.
* @param x {number} X coordinate.
* @param y {number} Y coordinate.
* @returns {Object} Object that contains 'x' and 'y' properties of the
* point in the PDF coordinate space.
* @see {@link convertToViewportPoint}
*/
convertToPdfPoint: function PageViewport_convertToPdfPoint(x, y) {
return Util.applyInverseTransform([x, y], this.transform);
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}
};
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return PageViewport;
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})();
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var PDFStringTranslateTable = [
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0x2D8, 0x2C7, 0x2C6, 0x2D9, 0x2DD, 0x2DB, 0x2DA, 0x2DC, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x2022, 0x2020, 0x2021, 0x2026, 0x2014,
0x2013, 0x192, 0x2044, 0x2039, 0x203A, 0x2212, 0x2030, 0x201E, 0x201C,
0x201D, 0x2018, 0x2019, 0x201A, 0x2122, 0xFB01, 0xFB02, 0x141, 0x152, 0x160,
0x178, 0x17D, 0x131, 0x142, 0x153, 0x161, 0x17E, 0, 0x20AC
];
function stringToPDFString(str) {
var i, n = str.length, strBuf = [];
if (str[0] === '\xFE' && str[1] === '\xFF') {
// UTF16BE BOM
for (i = 2; i < n; i += 2) {
strBuf.push(String.fromCharCode(
(str.charCodeAt(i) << 8) | str.charCodeAt(i + 1)));
}
} else {
for (i = 0; i < n; ++i) {
var code = PDFStringTranslateTable[str.charCodeAt(i)];
strBuf.push(code ? String.fromCharCode(code) : str.charAt(i));
}
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}
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return strBuf.join('');
}
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function stringToUTF8String(str) {
return decodeURIComponent(escape(str));
}
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function utf8StringToString(str) {
return unescape(encodeURIComponent(str));
}
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function isEmptyObj(obj) {
for (var key in obj) {
return false;
}
return true;
}
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function isBool(v) {
return typeof v === 'boolean';
}
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function isInt(v) {
return typeof v === 'number' && ((v | 0) === v);
}
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function isNum(v) {
return typeof v === 'number';
}
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function isString(v) {
return typeof v === 'string';
}
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function isArray(v) {
return v instanceof Array;
}
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function isArrayBuffer(v) {
return typeof v === 'object' && v !== null && v.byteLength !== undefined;
}
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/**
* Promise Capability object.
*
* @typedef {Object} PromiseCapability
* @property {Promise} promise - A promise object.
* @property {function} resolve - Fullfills the promise.
* @property {function} reject - Rejects the promise.
*/
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/**
* Creates a promise capability object.
* @alias PDFJS.createPromiseCapability
*
* @return {PromiseCapability} A capability object contains:
* - a Promise, resolve and reject methods.
*/
function createPromiseCapability() {
var capability = {};
capability.promise = new Promise(function (resolve, reject) {
capability.resolve = resolve;
capability.reject = reject;
});
return capability;
}
/**
* Polyfill for Promises:
* The following promise implementation tries to generally implement the
* Promise/A+ spec. Some notable differences from other promise libaries are:
* - There currently isn't a seperate deferred and promise object.
* - Unhandled rejections eventually show an error if they aren't handled.
*
* Based off of the work in:
* https://bugzilla.mozilla.org/show_bug.cgi?id=810490
*/
(function PromiseClosure() {
if (globalScope.Promise) {
// Promises existing in the DOM/Worker, checking presence of all/resolve
if (typeof globalScope.Promise.all !== 'function') {
globalScope.Promise.all = function (iterable) {
var count = 0, results = [], resolve, reject;
var promise = new globalScope.Promise(function (resolve_, reject_) {
resolve = resolve_;
reject = reject_;
});
iterable.forEach(function (p, i) {
count++;
p.then(function (result) {
results[i] = result;
count--;
if (count === 0) {
resolve(results);
}
}, reject);
});
if (count === 0) {
resolve(results);
}
return promise;
};
}
if (typeof globalScope.Promise.resolve !== 'function') {
globalScope.Promise.resolve = function (value) {
return new globalScope.Promise(function (resolve) { resolve(value); });
};
}
if (typeof globalScope.Promise.reject !== 'function') {
globalScope.Promise.reject = function (reason) {
return new globalScope.Promise(function (resolve, reject) {
reject(reason);
});
};
}
if (typeof globalScope.Promise.prototype.catch !== 'function') {
globalScope.Promise.prototype.catch = function (onReject) {
return globalScope.Promise.prototype.then(undefined, onReject);
};
}
return;
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}
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var STATUS_PENDING = 0;
var STATUS_RESOLVED = 1;
var STATUS_REJECTED = 2;
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// In an attempt to avoid silent exceptions, unhandled rejections are
// tracked and if they aren't handled in a certain amount of time an
// error is logged.
var REJECTION_TIMEOUT = 500;
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var HandlerManager = {
handlers: [],
running: false,
unhandledRejections: [],
pendingRejectionCheck: false,
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scheduleHandlers: function scheduleHandlers(promise) {
if (promise._status === STATUS_PENDING) {
return;
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}
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this.handlers = this.handlers.concat(promise._handlers);
promise._handlers = [];
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if (this.running) {
return;
}
this.running = true;
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setTimeout(this.runHandlers.bind(this), 0);
},
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runHandlers: function runHandlers() {
var RUN_TIMEOUT = 1; // ms
var timeoutAt = Date.now() + RUN_TIMEOUT;
while (this.handlers.length > 0) {
var handler = this.handlers.shift();
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var nextStatus = handler.thisPromise._status;
var nextValue = handler.thisPromise._value;
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try {
if (nextStatus === STATUS_RESOLVED) {
if (typeof handler.onResolve === 'function') {
nextValue = handler.onResolve(nextValue);
}
} else if (typeof handler.onReject === 'function') {
nextValue = handler.onReject(nextValue);
nextStatus = STATUS_RESOLVED;
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if (handler.thisPromise._unhandledRejection) {
this.removeUnhandeledRejection(handler.thisPromise);
}
}
} catch (ex) {
nextStatus = STATUS_REJECTED;
nextValue = ex;
}
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handler.nextPromise._updateStatus(nextStatus, nextValue);
if (Date.now() >= timeoutAt) {
break;
}
}
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if (this.handlers.length > 0) {
setTimeout(this.runHandlers.bind(this), 0);
return;
}
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this.running = false;
},
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addUnhandledRejection: function addUnhandledRejection(promise) {
this.unhandledRejections.push({
promise: promise,
time: Date.now()
});
this.scheduleRejectionCheck();
},
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removeUnhandeledRejection: function removeUnhandeledRejection(promise) {
promise._unhandledRejection = false;
for (var i = 0; i < this.unhandledRejections.length; i++) {
if (this.unhandledRejections[i].promise === promise) {
this.unhandledRejections.splice(i);
i--;
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}
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}
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},
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scheduleRejectionCheck: function scheduleRejectionCheck() {
if (this.pendingRejectionCheck) {
return;
}
this.pendingRejectionCheck = true;
setTimeout(function rejectionCheck() {
this.pendingRejectionCheck = false;
var now = Date.now();
for (var i = 0; i < this.unhandledRejections.length; i++) {
if (now - this.unhandledRejections[i].time > REJECTION_TIMEOUT) {
var unhandled = this.unhandledRejections[i].promise._value;
var msg = 'Unhandled rejection: ' + unhandled;
if (unhandled.stack) {
msg += '\n' + unhandled.stack;
}
warn(msg);
this.unhandledRejections.splice(i);
i--;
}
}
if (this.unhandledRejections.length) {
this.scheduleRejectionCheck();
}
}.bind(this), REJECTION_TIMEOUT);
}
};
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function Promise(resolver) {
this._status = STATUS_PENDING;
this._handlers = [];
try {
resolver.call(this, this._resolve.bind(this), this._reject.bind(this));
} catch (e) {
this._reject(e);
}
}
/**
* Builds a promise that is resolved when all the passed in promises are
* resolved.
* @param {array} array of data and/or promises to wait for.
* @return {Promise} New dependant promise.
*/
Promise.all = function Promise_all(promises) {
var resolveAll, rejectAll;
var deferred = new Promise(function (resolve, reject) {
resolveAll = resolve;
rejectAll = reject;
});
var unresolved = promises.length;
var results = [];
if (unresolved === 0) {
resolveAll(results);
return deferred;
}
function reject(reason) {
if (deferred._status === STATUS_REJECTED) {
return;
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}
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results = [];
rejectAll(reason);
}
for (var i = 0, ii = promises.length; i < ii; ++i) {
var promise = promises[i];
var resolve = (function(i) {
return function(value) {
if (deferred._status === STATUS_REJECTED) {
return;
}
results[i] = value;
unresolved--;
if (unresolved === 0) {
resolveAll(results);
}
};
})(i);
if (Promise.isPromise(promise)) {
promise.then(resolve, reject);
} else {
resolve(promise);
}
}
return deferred;
};
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/**
* Checks if the value is likely a promise (has a 'then' function).
* @return {boolean} true if value is thenable
*/
Promise.isPromise = function Promise_isPromise(value) {
return value && typeof value.then === 'function';
};
/**
* Creates resolved promise
* @param value resolve value
* @returns {Promise}
*/
Promise.resolve = function Promise_resolve(value) {
return new Promise(function (resolve) { resolve(value); });
};
/**
* Creates rejected promise
* @param reason rejection value
* @returns {Promise}
*/
Promise.reject = function Promise_reject(reason) {
return new Promise(function (resolve, reject) { reject(reason); });
};
Promise.prototype = {
_status: null,
_value: null,
_handlers: null,
_unhandledRejection: null,
_updateStatus: function Promise__updateStatus(status, value) {
if (this._status === STATUS_RESOLVED ||
this._status === STATUS_REJECTED) {
return;
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}
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if (status === STATUS_RESOLVED &&
Promise.isPromise(value)) {
value.then(this._updateStatus.bind(this, STATUS_RESOLVED),
this._updateStatus.bind(this, STATUS_REJECTED));
return;
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}
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this._status = status;
this._value = value;
if (status === STATUS_REJECTED && this._handlers.length === 0) {
this._unhandledRejection = true;
HandlerManager.addUnhandledRejection(this);
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}
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HandlerManager.scheduleHandlers(this);
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},
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_resolve: function Promise_resolve(value) {
this._updateStatus(STATUS_RESOLVED, value);
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},
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_reject: function Promise_reject(reason) {
this._updateStatus(STATUS_REJECTED, reason);
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},
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then: function Promise_then(onResolve, onReject) {
var nextPromise = new Promise(function (resolve, reject) {
this.resolve = resolve;
this.reject = reject;
});
this._handlers.push({
thisPromise: this,
onResolve: onResolve,
onReject: onReject,
nextPromise: nextPromise
});
HandlerManager.scheduleHandlers(this);
return nextPromise;
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},
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catch: function Promise_catch(onReject) {
return this.then(undefined, onReject);
}
};
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globalScope.Promise = Promise;
})();
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var StatTimer = (function StatTimerClosure() {
function rpad(str, pad, length) {
while (str.length < length) {
str += pad;
}
return str;
}
function StatTimer() {
this.started = Object.create(null);
this.times = [];
this.enabled = true;
}
StatTimer.prototype = {
time: function StatTimer_time(name) {
if (!this.enabled) {
return;
}
if (name in this.started) {
warn('Timer is already running for ' + name);
}
this.started[name] = Date.now();
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},
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timeEnd: function StatTimer_timeEnd(name) {
if (!this.enabled) {
return;
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}
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if (!(name in this.started)) {
warn('Timer has not been started for ' + name);
}
this.times.push({
'name': name,
'start': this.started[name],
'end': Date.now()
});
// Remove timer from started so it can be called again.
delete this.started[name];
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},
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toString: function StatTimer_toString() {
var i, ii;
var times = this.times;
var out = '';
// Find the longest name for padding purposes.
var longest = 0;
for (i = 0, ii = times.length; i < ii; ++i) {
var name = times[i]['name'];
if (name.length > longest) {
longest = name.length;
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}
}
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for (i = 0, ii = times.length; i < ii; ++i) {
var span = times[i];
var duration = span.end - span.start;
out += rpad(span['name'], ' ', longest) + ' ' + duration + 'ms\n';
}
return out;
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}
};
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return StatTimer;
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})();
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var createBlob = function createBlob(data, contentType) {
if (typeof Blob !== 'undefined') {
return new Blob([data], { type: contentType });
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}
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// Blob builder is deprecated in FF14 and removed in FF18.
var bb = new MozBlobBuilder();
bb.append(data);
return bb.getBlob(contentType);
};
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var createObjectURL = (function createObjectURLClosure() {
// Blob/createObjectURL is not available, falling back to data schema.
var digits =
'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=';
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return function createObjectURL(data, contentType, forceDataSchema) {
if (!forceDataSchema &&
typeof URL !== 'undefined' && URL.createObjectURL) {
var blob = createBlob(data, contentType);
return URL.createObjectURL(blob);
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}
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var buffer = 'data:' + contentType + ';base64,';
for (var i = 0, ii = data.length; i < ii; i += 3) {
var b1 = data[i] & 0xFF;
var b2 = data[i + 1] & 0xFF;
var b3 = data[i + 2] & 0xFF;
var d1 = b1 >> 2, d2 = ((b1 & 3) << 4) | (b2 >> 4);
var d3 = i + 1 < ii ? ((b2 & 0xF) << 2) | (b3 >> 6) : 64;
var d4 = i + 2 < ii ? (b3 & 0x3F) : 64;
buffer += digits[d1] + digits[d2] + digits[d3] + digits[d4];
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}
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return buffer;
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};
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})();
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function MessageHandler(sourceName, targetName, comObj) {
this.sourceName = sourceName;
this.targetName = targetName;
this.comObj = comObj;
this.callbackIndex = 1;
this.postMessageTransfers = true;
var callbacksCapabilities = this.callbacksCapabilities = Object.create(null);
var ah = this.actionHandler = Object.create(null);
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this._onComObjOnMessage = function messageHandlerComObjOnMessage(event) {
var data = event.data;
if (data.targetName !== this.sourceName) {
return;
}
if (data.isReply) {
var callbackId = data.callbackId;
if (data.callbackId in callbacksCapabilities) {
var callback = callbacksCapabilities[callbackId];
delete callbacksCapabilities[callbackId];
if ('error' in data) {
callback.reject(data.error);
} else {
callback.resolve(data.data);
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}
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} else {
error('Cannot resolve callback ' + callbackId);
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}
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} else if (data.action in ah) {
var action = ah[data.action];
if (data.callbackId) {
var sourceName = this.sourceName;
var targetName = data.sourceName;
Promise.resolve().then(function () {
return action[0].call(action[1], data.data);
}).then(function (result) {
comObj.postMessage({
sourceName: sourceName,
targetName: targetName,
isReply: true,
callbackId: data.callbackId,
data: result
});
}, function (reason) {
if (reason instanceof Error) {
// Serialize error to avoid "DataCloneError"
reason = reason + '';
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}
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comObj.postMessage({
sourceName: sourceName,
targetName: targetName,
isReply: true,
callbackId: data.callbackId,
error: reason
});
});
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} else {
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action[0].call(action[1], data.data);
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}
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} else {
error('Unknown action from worker: ' + data.action);
}
}.bind(this);
comObj.addEventListener('message', this._onComObjOnMessage);
}
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MessageHandler.prototype = {
on: function messageHandlerOn(actionName, handler, scope) {
var ah = this.actionHandler;
if (ah[actionName]) {
error('There is already an actionName called "' + actionName + '"');
}
ah[actionName] = [handler, scope];
},
/**
* Sends a message to the comObj to invoke the action with the supplied data.
* @param {String} actionName Action to call.
* @param {JSON} data JSON data to send.
* @param {Array} [transfers] Optional list of transfers/ArrayBuffers
*/
send: function messageHandlerSend(actionName, data, transfers) {
var message = {
sourceName: this.sourceName,
targetName: this.targetName,
action: actionName,
data: data
};
this.postMessage(message, transfers);
},
/**
* Sends a message to the comObj to invoke the action with the supplied data.
* Expects that other side will callback with the response.
* @param {String} actionName Action to call.
* @param {JSON} data JSON data to send.
* @param {Array} [transfers] Optional list of transfers/ArrayBuffers.
* @returns {Promise} Promise to be resolved with response data.
*/
sendWithPromise:
function messageHandlerSendWithPromise(actionName, data, transfers) {
var callbackId = this.callbackIndex++;
var message = {
sourceName: this.sourceName,
targetName: this.targetName,
action: actionName,
data: data,
callbackId: callbackId
};
var capability = createPromiseCapability();
this.callbacksCapabilities[callbackId] = capability;
try {
this.postMessage(message, transfers);
} catch (e) {
capability.reject(e);
}
return capability.promise;
},
/**
* Sends raw message to the comObj.
* @private
* @param message {Object} Raw message.
* @param transfers List of transfers/ArrayBuffers, or undefined.
*/
postMessage: function (message, transfers) {
if (transfers && this.postMessageTransfers) {
this.comObj.postMessage(message, transfers);
} else {
this.comObj.postMessage(message);
}
},
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destroy: function () {
this.comObj.removeEventListener('message', this._onComObjOnMessage);
}
};
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function loadJpegStream(id, imageUrl, objs) {
var img = new Image();
img.onload = (function loadJpegStream_onloadClosure() {
objs.resolve(id, img);
});
img.onerror = (function loadJpegStream_onerrorClosure() {
objs.resolve(id, null);
warn('Error during JPEG image loading');
});
img.src = imageUrl;
}
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// Polyfill from https://github.com/Polymer/URL
/* Any copyright is dedicated to the Public Domain.
* http://creativecommons.org/publicdomain/zero/1.0/ */
(function checkURLConstructor(scope) {
/* jshint ignore:start */
// feature detect for URL constructor
var hasWorkingUrl = false;
try {
if (typeof URL === 'function' &&
typeof URL.prototype === 'object' &&
('origin' in URL.prototype)) {
var u = new URL('b', 'http://a');
u.pathname = 'c%20d';
hasWorkingUrl = u.href === 'http://a/c%20d';
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}
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} catch(e) { }
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if (hasWorkingUrl)
return;
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var relative = Object.create(null);
relative['ftp'] = 21;
relative['file'] = 0;
relative['gopher'] = 70;
relative['http'] = 80;
relative['https'] = 443;
relative['ws'] = 80;
relative['wss'] = 443;
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var relativePathDotMapping = Object.create(null);
relativePathDotMapping['%2e'] = '.';
relativePathDotMapping['.%2e'] = '..';
relativePathDotMapping['%2e.'] = '..';
relativePathDotMapping['%2e%2e'] = '..';
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function isRelativeScheme(scheme) {
return relative[scheme] !== undefined;
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}
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function invalid() {
clear.call(this);
this._isInvalid = true;
}
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function IDNAToASCII(h) {
if ('' == h) {
invalid.call(this)
}
// XXX
return h.toLowerCase()
}
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function percentEscape(c) {
var unicode = c.charCodeAt(0);
if (unicode > 0x20 &&
unicode < 0x7F &&
// " # < > ? `
[0x22, 0x23, 0x3C, 0x3E, 0x3F, 0x60].indexOf(unicode) == -1
) {
return c;
}
return encodeURIComponent(c);
}
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function percentEscapeQuery(c) {
// XXX This actually needs to encode c using encoding and then
// convert the bytes one-by-one.
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var unicode = c.charCodeAt(0);
if (unicode > 0x20 &&
unicode < 0x7F &&
// " # < > ` (do not escape '?')
[0x22, 0x23, 0x3C, 0x3E, 0x60].indexOf(unicode) == -1
) {
return c;
}
return encodeURIComponent(c);
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}
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var EOF = undefined,
ALPHA = /[a-zA-Z]/,
ALPHANUMERIC = /[a-zA-Z0-9\+\-\.]/;
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function parse(input, stateOverride, base) {
function err(message) {
errors.push(message)
}
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var state = stateOverride || 'scheme start',
cursor = 0,
buffer = '',
seenAt = false,
seenBracket = false,
errors = [];
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loop: while ((input[cursor - 1] != EOF || cursor == 0) && !this._isInvalid) {
var c = input[cursor];
switch (state) {
case 'scheme start':
if (c && ALPHA.test(c)) {
buffer += c.toLowerCase(); // ASCII-safe
state = 'scheme';
} else if (!stateOverride) {
buffer = '';
state = 'no scheme';
continue;
} else {
err('Invalid scheme.');
break loop;
}
break;
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case 'scheme':
if (c && ALPHANUMERIC.test(c)) {
buffer += c.toLowerCase(); // ASCII-safe
} else if (':' == c) {
this._scheme = buffer;
buffer = '';
if (stateOverride) {
break loop;
}
if (isRelativeScheme(this._scheme)) {
this._isRelative = true;
}
if ('file' == this._scheme) {
state = 'relative';
} else if (this._isRelative && base && base._scheme == this._scheme) {
state = 'relative or authority';
} else if (this._isRelative) {
state = 'authority first slash';
} else {
state = 'scheme data';
}
} else if (!stateOverride) {
buffer = '';
cursor = 0;
state = 'no scheme';
continue;
} else if (EOF == c) {
break loop;
} else {
err('Code point not allowed in scheme: ' + c)
break loop;
}
break;
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case 'scheme data':
if ('?' == c) {
this._query = '?';
state = 'query';
} else if ('#' == c) {
this._fragment = '#';
state = 'fragment';
} else {
// XXX error handling
if (EOF != c && '\t' != c && '\n' != c && '\r' != c) {
this._schemeData += percentEscape(c);
}
}
break;
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case 'no scheme':
if (!base || !(isRelativeScheme(base._scheme))) {
err('Missing scheme.');
invalid.call(this);
} else {
state = 'relative';
continue;
}
break;
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case 'relative or authority':
if ('/' == c && '/' == input[cursor+1]) {
state = 'authority ignore slashes';
} else {
err('Expected /, got: ' + c);
state = 'relative';
continue
}
break;
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case 'relative':
this._isRelative = true;
if ('file' != this._scheme)
this._scheme = base._scheme;
if (EOF == c) {
this._host = base._host;
this._port = base._port;
this._path = base._path.slice();
this._query = base._query;
this._username = base._username;
this._password = base._password;
break loop;
} else if ('/' == c || '\\' == c) {
if ('\\' == c)
err('\\ is an invalid code point.');
state = 'relative slash';
} else if ('?' == c) {
this._host = base._host;
this._port = base._port;
this._path = base._path.slice();
this._query = '?';
this._username = base._username;
this._password = base._password;
state = 'query';
} else if ('#' == c) {
this._host = base._host;
this._port = base._port;
this._path = base._path.slice();
this._query = base._query;
this._fragment = '#';
this._username = base._username;
this._password = base._password;
state = 'fragment';
} else {
var nextC = input[cursor+1]
var nextNextC = input[cursor+2]
if (
'file' != this._scheme || !ALPHA.test(c) ||
(nextC != ':' && nextC != '|') ||
(EOF != nextNextC && '/' != nextNextC && '\\' != nextNextC && '?' != nextNextC && '#' != nextNextC)) {
this._host = base._host;
this._port = base._port;
this._username = base._username;
this._password = base._password;
this._path = base._path.slice();
this._path.pop();
}
state = 'relative path';
continue;
}
break;
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case 'relative slash':
if ('/' == c || '\\' == c) {
if ('\\' == c) {
err('\\ is an invalid code point.');
}
if ('file' == this._scheme) {
state = 'file host';
} else {
state = 'authority ignore slashes';
}
} else {
if ('file' != this._scheme) {
this._host = base._host;
this._port = base._port;
this._username = base._username;
this._password = base._password;
}
state = 'relative path';
continue;
}
break;
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case 'authority first slash':
if ('/' == c) {
state = 'authority second slash';
} else {
err("Expected '/', got: " + c);
state = 'authority ignore slashes';
continue;
}
break;
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case 'authority second slash':
state = 'authority ignore slashes';
if ('/' != c) {
err("Expected '/', got: " + c);
continue;
}
break;
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case 'authority ignore slashes':
if ('/' != c && '\\' != c) {
state = 'authority';
continue;
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} else {
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err('Expected authority, got: ' + c);
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}
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break;
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case 'authority':
if ('@' == c) {
if (seenAt) {
err('@ already seen.');
buffer += '%40';
}
seenAt = true;
for (var i = 0; i < buffer.length; i++) {
var cp = buffer[i];
if ('\t' == cp || '\n' == cp || '\r' == cp) {
err('Invalid whitespace in authority.');
continue;
}
// XXX check URL code points
if (':' == cp && null === this._password) {
this._password = '';
continue;
}
var tempC = percentEscape(cp);
(null !== this._password) ? this._password += tempC : this._username += tempC;
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}
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buffer = '';
} else if (EOF == c || '/' == c || '\\' == c || '?' == c || '#' == c) {
cursor -= buffer.length;
buffer = '';
state = 'host';
continue;
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} else {
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buffer += c;
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}
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break;
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case 'file host':
if (EOF == c || '/' == c || '\\' == c || '?' == c || '#' == c) {
if (buffer.length == 2 && ALPHA.test(buffer[0]) && (buffer[1] == ':' || buffer[1] == '|')) {
state = 'relative path';
} else if (buffer.length == 0) {
state = 'relative path start';
} else {
this._host = IDNAToASCII.call(this, buffer);
buffer = '';
state = 'relative path start';
}
continue;
} else if ('\t' == c || '\n' == c || '\r' == c) {
err('Invalid whitespace in file host.');
} else {
buffer += c;
}
break;
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case 'host':
case 'hostname':
if (':' == c && !seenBracket) {
// XXX host parsing
this._host = IDNAToASCII.call(this, buffer);
buffer = '';
state = 'port';
if ('hostname' == stateOverride) {
break loop;
}
} else if (EOF == c || '/' == c || '\\' == c || '?' == c || '#' == c) {
this._host = IDNAToASCII.call(this, buffer);
buffer = '';
state = 'relative path start';
if (stateOverride) {
break loop;
}
continue;
} else if ('\t' != c && '\n' != c && '\r' != c) {
if ('[' == c) {
seenBracket = true;
} else if (']' == c) {
seenBracket = false;
}
buffer += c;
} else {
err('Invalid code point in host/hostname: ' + c);
}
break;
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case 'port':
if (/[0-9]/.test(c)) {
buffer += c;
} else if (EOF == c || '/' == c || '\\' == c || '?' == c || '#' == c || stateOverride) {
if ('' != buffer) {
var temp = parseInt(buffer, 10);
if (temp != relative[this._scheme]) {
this._port = temp + '';
}
buffer = '';
}
if (stateOverride) {
break loop;
}
state = 'relative path start';
continue;
} else if ('\t' == c || '\n' == c || '\r' == c) {
err('Invalid code point in port: ' + c);
} else {
invalid.call(this);
}
break;
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case 'relative path start':
if ('\\' == c)
err("'\\' not allowed in path.");
state = 'relative path';
if ('/' != c && '\\' != c) {
continue;
}
break;
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case 'relative path':
if (EOF == c || '/' == c || '\\' == c || (!stateOverride && ('?' == c || '#' == c))) {
if ('\\' == c) {
err('\\ not allowed in relative path.');
}
var tmp;
if (tmp = relativePathDotMapping[buffer.toLowerCase()]) {
buffer = tmp;
}
if ('..' == buffer) {
this._path.pop();
if ('/' != c && '\\' != c) {
this._path.push('');
}
} else if ('.' == buffer && '/' != c && '\\' != c) {
this._path.push('');
} else if ('.' != buffer) {
if ('file' == this._scheme && this._path.length == 0 && buffer.length == 2 && ALPHA.test(buffer[0]) && buffer[1] == '|') {
buffer = buffer[0] + ':';
}
this._path.push(buffer);
}
buffer = '';
if ('?' == c) {
this._query = '?';
state = 'query';
} else if ('#' == c) {
this._fragment = '#';
state = 'fragment';
}
} else if ('\t' != c && '\n' != c && '\r' != c) {
buffer += percentEscape(c);
}
break;
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case 'query':
if (!stateOverride && '#' == c) {
this._fragment = '#';
state = 'fragment';
} else if (EOF != c && '\t' != c && '\n' != c && '\r' != c) {
this._query += percentEscapeQuery(c);
}
break;
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case 'fragment':
if (EOF != c && '\t' != c && '\n' != c && '\r' != c) {
this._fragment += c;
}
break;
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}
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cursor++;
}
}
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function clear() {
this._scheme = '';
this._schemeData = '';
this._username = '';
this._password = null;
this._host = '';
this._port = '';
this._path = [];
this._query = '';
this._fragment = '';
this._isInvalid = false;
this._isRelative = false;
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}
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// Does not process domain names or IP addresses.
// Does not handle encoding for the query parameter.
function jURL(url, base /* , encoding */) {
if (base !== undefined && !(base instanceof jURL))
base = new jURL(String(base));
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this._url = url;
clear.call(this);
var input = url.replace(/^[ \t\r\n\f]+|[ \t\r\n\f]+$/g, '');
// encoding = encoding || 'utf-8'
parse.call(this, input, null, base);
}
jURL.prototype = {
toString: function() {
return this.href;
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},
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get href() {
if (this._isInvalid)
return this._url;
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var authority = '';
if ('' != this._username || null != this._password) {
authority = this._username +
(null != this._password ? ':' + this._password : '') + '@';
}
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return this.protocol +
(this._isRelative ? '//' + authority + this.host : '') +
this.pathname + this._query + this._fragment;
},
set href(href) {
clear.call(this);
parse.call(this, href);
},
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get protocol() {
return this._scheme + ':';
},
set protocol(protocol) {
if (this._isInvalid)
return;
parse.call(this, protocol + ':', 'scheme start');
},
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get host() {
return this._isInvalid ? '' : this._port ?
this._host + ':' + this._port : this._host;
},
set host(host) {
if (this._isInvalid || !this._isRelative)
return;
parse.call(this, host, 'host');
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},
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get hostname() {
return this._host;
},
set hostname(hostname) {
if (this._isInvalid || !this._isRelative)
return;
parse.call(this, hostname, 'hostname');
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},
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get port() {
return this._port;
},
set port(port) {
if (this._isInvalid || !this._isRelative)
return;
parse.call(this, port, 'port');
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},
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get pathname() {
return this._isInvalid ? '' : this._isRelative ?
'/' + this._path.join('/') : this._schemeData;
},
set pathname(pathname) {
if (this._isInvalid || !this._isRelative)
return;
this._path = [];
parse.call(this, pathname, 'relative path start');
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},
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get search() {
return this._isInvalid || !this._query || '?' == this._query ?
'' : this._query;
},
set search(search) {
if (this._isInvalid || !this._isRelative)
return;
this._query = '?';
if ('?' == search[0])
search = search.slice(1);
parse.call(this, search, 'query');
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},
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get hash() {
return this._isInvalid || !this._fragment || '#' == this._fragment ?
'' : this._fragment;
},
set hash(hash) {
if (this._isInvalid)
return;
this._fragment = '#';
if ('#' == hash[0])
hash = hash.slice(1);
parse.call(this, hash, 'fragment');
},
get origin() {
var host;
if (this._isInvalid || !this._scheme) {
return '';
}
// javascript: Gecko returns String(""), WebKit/Blink String("null")
// Gecko throws error for "data://"
// data: Gecko returns "", Blink returns "data://", WebKit returns "null"
// Gecko returns String("") for file: mailto:
// WebKit/Blink returns String("SCHEME://") for file: mailto:
switch (this._scheme) {
case 'data':
case 'file':
case 'javascript':
case 'mailto':
return 'null';
}
host = this.host;
if (!host) {
return '';
}
return this._scheme + '://' + host;
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}
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};
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// Copy over the static methods
var OriginalURL = scope.URL;
if (OriginalURL) {
jURL.createObjectURL = function(blob) {
// IE extension allows a second optional options argument.
// http://msdn.microsoft.com/en-us/library/ie/hh772302(v=vs.85).aspx
return OriginalURL.createObjectURL.apply(OriginalURL, arguments);
};
jURL.revokeObjectURL = function(url) {
OriginalURL.revokeObjectURL(url);
};
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}
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scope.URL = jURL;
/* jshint ignore:end */
})(globalScope);
exports.FONT_IDENTITY_MATRIX = FONT_IDENTITY_MATRIX;
exports.IDENTITY_MATRIX = IDENTITY_MATRIX;
exports.OPS = OPS;
exports.VERBOSITY_LEVELS = VERBOSITY_LEVELS;
exports.UNSUPPORTED_FEATURES = UNSUPPORTED_FEATURES;
exports.AnnotationBorderStyleType = AnnotationBorderStyleType;
exports.AnnotationFlag = AnnotationFlag;
exports.AnnotationType = AnnotationType;
exports.FontType = FontType;
exports.ImageKind = ImageKind;
exports.InvalidPDFException = InvalidPDFException;
exports.MessageHandler = MessageHandler;
exports.MissingDataException = MissingDataException;
exports.MissingPDFException = MissingPDFException;
exports.NotImplementedException = NotImplementedException;
exports.PageViewport = PageViewport;
exports.PasswordException = PasswordException;
exports.PasswordResponses = PasswordResponses;
exports.StatTimer = StatTimer;
exports.StreamType = StreamType;
exports.TextRenderingMode = TextRenderingMode;
exports.UnexpectedResponseException = UnexpectedResponseException;
exports.UnknownErrorException = UnknownErrorException;
exports.Util = Util;
exports.XRefParseException = XRefParseException;
exports.arrayByteLength = arrayByteLength;
exports.arraysToBytes = arraysToBytes;
exports.assert = assert;
exports.bytesToString = bytesToString;
exports.combineUrl = combineUrl;
exports.createBlob = createBlob;
exports.createPromiseCapability = createPromiseCapability;
exports.createObjectURL = createObjectURL;
exports.deprecated = deprecated;
exports.error = error;
exports.getLookupTableFactory = getLookupTableFactory;
exports.getVerbosityLevel = getVerbosityLevel;
exports.globalScope = globalScope;
exports.info = info;
exports.isArray = isArray;
exports.isArrayBuffer = isArrayBuffer;
exports.isBool = isBool;
exports.isEmptyObj = isEmptyObj;
exports.isInt = isInt;
exports.isNum = isNum;
exports.isString = isString;
exports.isSameOrigin = isSameOrigin;
exports.isValidUrl = isValidUrl;
exports.isLittleEndian = isLittleEndian;
exports.loadJpegStream = loadJpegStream;
exports.log2 = log2;
exports.readInt8 = readInt8;
exports.readUint16 = readUint16;
exports.readUint32 = readUint32;
exports.removeNullCharacters = removeNullCharacters;
exports.setVerbosityLevel = setVerbosityLevel;
exports.shadow = shadow;
exports.string32 = string32;
exports.stringToBytes = stringToBytes;
exports.stringToPDFString = stringToPDFString;
exports.stringToUTF8String = stringToUTF8String;
exports.utf8StringToString = utf8StringToString;
exports.warn = warn;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreCFFParser = {}), root.pdfjsSharedUtil,
root.pdfjsCoreCharsets, root.pdfjsCoreEncodings);
}
}(this, function (exports, sharedUtil, coreCharsets, coreEncodings) {
var error = sharedUtil.error;
var info = sharedUtil.info;
var bytesToString = sharedUtil.bytesToString;
var warn = sharedUtil.warn;
var isArray = sharedUtil.isArray;
var Util = sharedUtil.Util;
var stringToBytes = sharedUtil.stringToBytes;
var assert = sharedUtil.assert;
var ISOAdobeCharset = coreCharsets.ISOAdobeCharset;
var ExpertCharset = coreCharsets.ExpertCharset;
var ExpertSubsetCharset = coreCharsets.ExpertSubsetCharset;
var StandardEncoding = coreEncodings.StandardEncoding;
var ExpertEncoding = coreEncodings.ExpertEncoding;
// Maximum subroutine call depth of type 2 chartrings. Matches OTS.
var MAX_SUBR_NESTING = 10;
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/**
* The CFF class takes a Type1 file and wrap it into a
* 'Compact Font Format' which itself embed Type2 charstrings.
*/
var CFFStandardStrings = [
'.notdef', 'space', 'exclam', 'quotedbl', 'numbersign', 'dollar', 'percent',
'ampersand', 'quoteright', 'parenleft', 'parenright', 'asterisk', 'plus',
'comma', 'hyphen', 'period', 'slash', 'zero', 'one', 'two', 'three', 'four',
'five', 'six', 'seven', 'eight', 'nine', 'colon', 'semicolon', 'less',
'equal', 'greater', 'question', 'at', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H',
'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W',
'X', 'Y', 'Z', 'bracketleft', 'backslash', 'bracketright', 'asciicircum',
'underscore', 'quoteleft', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j',
'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y',
'z', 'braceleft', 'bar', 'braceright', 'asciitilde', 'exclamdown', 'cent',
'sterling', 'fraction', 'yen', 'florin', 'section', 'currency',
'quotesingle', 'quotedblleft', 'guillemotleft', 'guilsinglleft',
'guilsinglright', 'fi', 'fl', 'endash', 'dagger', 'daggerdbl',
'periodcentered', 'paragraph', 'bullet', 'quotesinglbase', 'quotedblbase',
'quotedblright', 'guillemotright', 'ellipsis', 'perthousand', 'questiondown',
'grave', 'acute', 'circumflex', 'tilde', 'macron', 'breve', 'dotaccent',
'dieresis', 'ring', 'cedilla', 'hungarumlaut', 'ogonek', 'caron', 'emdash',
'AE', 'ordfeminine', 'Lslash', 'Oslash', 'OE', 'ordmasculine', 'ae',
'dotlessi', 'lslash', 'oslash', 'oe', 'germandbls', 'onesuperior',
'logicalnot', 'mu', 'trademark', 'Eth', 'onehalf', 'plusminus', 'Thorn',
'onequarter', 'divide', 'brokenbar', 'degree', 'thorn', 'threequarters',
'twosuperior', 'registered', 'minus', 'eth', 'multiply', 'threesuperior',
'copyright', 'Aacute', 'Acircumflex', 'Adieresis', 'Agrave', 'Aring',
'Atilde', 'Ccedilla', 'Eacute', 'Ecircumflex', 'Edieresis', 'Egrave',
'Iacute', 'Icircumflex', 'Idieresis', 'Igrave', 'Ntilde', 'Oacute',
'Ocircumflex', 'Odieresis', 'Ograve', 'Otilde', 'Scaron', 'Uacute',
'Ucircumflex', 'Udieresis', 'Ugrave', 'Yacute', 'Ydieresis', 'Zcaron',
'aacute', 'acircumflex', 'adieresis', 'agrave', 'aring', 'atilde',
'ccedilla', 'eacute', 'ecircumflex', 'edieresis', 'egrave', 'iacute',
'icircumflex', 'idieresis', 'igrave', 'ntilde', 'oacute', 'ocircumflex',
'odieresis', 'ograve', 'otilde', 'scaron', 'uacute', 'ucircumflex',
'udieresis', 'ugrave', 'yacute', 'ydieresis', 'zcaron', 'exclamsmall',
'Hungarumlautsmall', 'dollaroldstyle', 'dollarsuperior', 'ampersandsmall',
'Acutesmall', 'parenleftsuperior', 'parenrightsuperior', 'twodotenleader',
'onedotenleader', 'zerooldstyle', 'oneoldstyle', 'twooldstyle',
'threeoldstyle', 'fouroldstyle', 'fiveoldstyle', 'sixoldstyle',
'sevenoldstyle', 'eightoldstyle', 'nineoldstyle', 'commasuperior',
'threequartersemdash', 'periodsuperior', 'questionsmall', 'asuperior',
'bsuperior', 'centsuperior', 'dsuperior', 'esuperior', 'isuperior',
'lsuperior', 'msuperior', 'nsuperior', 'osuperior', 'rsuperior', 'ssuperior',
'tsuperior', 'ff', 'ffi', 'ffl', 'parenleftinferior', 'parenrightinferior',
'Circumflexsmall', 'hyphensuperior', 'Gravesmall', 'Asmall', 'Bsmall',
'Csmall', 'Dsmall', 'Esmall', 'Fsmall', 'Gsmall', 'Hsmall', 'Ismall',
'Jsmall', 'Ksmall', 'Lsmall', 'Msmall', 'Nsmall', 'Osmall', 'Psmall',
'Qsmall', 'Rsmall', 'Ssmall', 'Tsmall', 'Usmall', 'Vsmall', 'Wsmall',
'Xsmall', 'Ysmall', 'Zsmall', 'colonmonetary', 'onefitted', 'rupiah',
'Tildesmall', 'exclamdownsmall', 'centoldstyle', 'Lslashsmall',
'Scaronsmall', 'Zcaronsmall', 'Dieresissmall', 'Brevesmall', 'Caronsmall',
'Dotaccentsmall', 'Macronsmall', 'figuredash', 'hypheninferior',
'Ogoneksmall', 'Ringsmall', 'Cedillasmall', 'questiondownsmall', 'oneeighth',
'threeeighths', 'fiveeighths', 'seveneighths', 'onethird', 'twothirds',
'zerosuperior', 'foursuperior', 'fivesuperior', 'sixsuperior',
'sevensuperior', 'eightsuperior', 'ninesuperior', 'zeroinferior',
'oneinferior', 'twoinferior', 'threeinferior', 'fourinferior',
'fiveinferior', 'sixinferior', 'seveninferior', 'eightinferior',
'nineinferior', 'centinferior', 'dollarinferior', 'periodinferior',
'commainferior', 'Agravesmall', 'Aacutesmall', 'Acircumflexsmall',
'Atildesmall', 'Adieresissmall', 'Aringsmall', 'AEsmall', 'Ccedillasmall',
'Egravesmall', 'Eacutesmall', 'Ecircumflexsmall', 'Edieresissmall',
'Igravesmall', 'Iacutesmall', 'Icircumflexsmall', 'Idieresissmall',
'Ethsmall', 'Ntildesmall', 'Ogravesmall', 'Oacutesmall', 'Ocircumflexsmall',
'Otildesmall', 'Odieresissmall', 'OEsmall', 'Oslashsmall', 'Ugravesmall',
'Uacutesmall', 'Ucircumflexsmall', 'Udieresissmall', 'Yacutesmall',
'Thornsmall', 'Ydieresissmall', '001.000', '001.001', '001.002', '001.003',
'Black', 'Bold', 'Book', 'Light', 'Medium', 'Regular', 'Roman', 'Semibold'
];
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var CFFParser = (function CFFParserClosure() {
var CharstringValidationData = [
null,
{ id: 'hstem', min: 2, stackClearing: true, stem: true },
null,
{ id: 'vstem', min: 2, stackClearing: true, stem: true },
{ id: 'vmoveto', min: 1, stackClearing: true },
{ id: 'rlineto', min: 2, resetStack: true },
{ id: 'hlineto', min: 1, resetStack: true },
{ id: 'vlineto', min: 1, resetStack: true },
{ id: 'rrcurveto', min: 6, resetStack: true },
null,
{ id: 'callsubr', min: 1, undefStack: true },
{ id: 'return', min: 0, undefStack: true },
null, // 12
null,
{ id: 'endchar', min: 0, stackClearing: true },
null,
null,
null,
{ id: 'hstemhm', min: 2, stackClearing: true, stem: true },
{ id: 'hintmask', min: 0, stackClearing: true },
{ id: 'cntrmask', min: 0, stackClearing: true },
{ id: 'rmoveto', min: 2, stackClearing: true },
{ id: 'hmoveto', min: 1, stackClearing: true },
{ id: 'vstemhm', min: 2, stackClearing: true, stem: true },
{ id: 'rcurveline', min: 8, resetStack: true },
{ id: 'rlinecurve', min: 8, resetStack: true },
{ id: 'vvcurveto', min: 4, resetStack: true },
{ id: 'hhcurveto', min: 4, resetStack: true },
null, // shortint
{ id: 'callgsubr', min: 1, undefStack: true },
{ id: 'vhcurveto', min: 4, resetStack: true },
{ id: 'hvcurveto', min: 4, resetStack: true }
];
var CharstringValidationData12 = [
null,
null,
null,
{ id: 'and', min: 2, stackDelta: -1 },
{ id: 'or', min: 2, stackDelta: -1 },
{ id: 'not', min: 1, stackDelta: 0 },
null,
null,
null,
{ id: 'abs', min: 1, stackDelta: 0 },
{ id: 'add', min: 2, stackDelta: -1,
stackFn: function stack_div(stack, index) {
stack[index - 2] = stack[index - 2] + stack[index - 1];
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}
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},
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{ id: 'sub', min: 2, stackDelta: -1,
stackFn: function stack_div(stack, index) {
stack[index - 2] = stack[index - 2] - stack[index - 1];
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}
},
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{ id: 'div', min: 2, stackDelta: -1,
stackFn: function stack_div(stack, index) {
stack[index - 2] = stack[index - 2] / stack[index - 1];
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}
},
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null,
{ id: 'neg', min: 1, stackDelta: 0,
stackFn: function stack_div(stack, index) {
stack[index - 1] = -stack[index - 1];
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}
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},
{ id: 'eq', min: 2, stackDelta: -1 },
null,
null,
{ id: 'drop', min: 1, stackDelta: -1 },
null,
{ id: 'put', min: 2, stackDelta: -2 },
{ id: 'get', min: 1, stackDelta: 0 },
{ id: 'ifelse', min: 4, stackDelta: -3 },
{ id: 'random', min: 0, stackDelta: 1 },
{ id: 'mul', min: 2, stackDelta: -1,
stackFn: function stack_div(stack, index) {
stack[index - 2] = stack[index - 2] * stack[index - 1];
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}
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},
null,
{ id: 'sqrt', min: 1, stackDelta: 0 },
{ id: 'dup', min: 1, stackDelta: 1 },
{ id: 'exch', min: 2, stackDelta: 0 },
{ id: 'index', min: 2, stackDelta: 0 },
{ id: 'roll', min: 3, stackDelta: -2 },
null,
null,
null,
{ id: 'hflex', min: 7, resetStack: true },
{ id: 'flex', min: 13, resetStack: true },
{ id: 'hflex1', min: 9, resetStack: true },
{ id: 'flex1', min: 11, resetStack: true }
];
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function CFFParser(file, properties, seacAnalysisEnabled) {
this.bytes = file.getBytes();
this.properties = properties;
this.seacAnalysisEnabled = !!seacAnalysisEnabled;
}
CFFParser.prototype = {
parse: function CFFParser_parse() {
var properties = this.properties;
var cff = new CFF();
this.cff = cff;
// The first five sections must be in order, all the others are reached
// via offsets contained in one of the below.
var header = this.parseHeader();
var nameIndex = this.parseIndex(header.endPos);
var topDictIndex = this.parseIndex(nameIndex.endPos);
var stringIndex = this.parseIndex(topDictIndex.endPos);
var globalSubrIndex = this.parseIndex(stringIndex.endPos);
var topDictParsed = this.parseDict(topDictIndex.obj.get(0));
var topDict = this.createDict(CFFTopDict, topDictParsed, cff.strings);
cff.header = header.obj;
cff.names = this.parseNameIndex(nameIndex.obj);
cff.strings = this.parseStringIndex(stringIndex.obj);
cff.topDict = topDict;
cff.globalSubrIndex = globalSubrIndex.obj;
this.parsePrivateDict(cff.topDict);
cff.isCIDFont = topDict.hasName('ROS');
var charStringOffset = topDict.getByName('CharStrings');
var charStringIndex = this.parseIndex(charStringOffset).obj;
var fontMatrix = topDict.getByName('FontMatrix');
if (fontMatrix) {
properties.fontMatrix = fontMatrix;
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}
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var fontBBox = topDict.getByName('FontBBox');
if (fontBBox) {
// adjusting ascent/descent
properties.ascent = fontBBox[3];
properties.descent = fontBBox[1];
properties.ascentScaled = true;
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}
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var charset, encoding;
if (cff.isCIDFont) {
var fdArrayIndex = this.parseIndex(topDict.getByName('FDArray')).obj;
for (var i = 0, ii = fdArrayIndex.count; i < ii; ++i) {
var dictRaw = fdArrayIndex.get(i);
var fontDict = this.createDict(CFFTopDict, this.parseDict(dictRaw),
cff.strings);
this.parsePrivateDict(fontDict);
cff.fdArray.push(fontDict);
}
// cid fonts don't have an encoding
encoding = null;
charset = this.parseCharsets(topDict.getByName('charset'),
charStringIndex.count, cff.strings, true);
cff.fdSelect = this.parseFDSelect(topDict.getByName('FDSelect'),
charStringIndex.count);
} else {
charset = this.parseCharsets(topDict.getByName('charset'),
charStringIndex.count, cff.strings, false);
encoding = this.parseEncoding(topDict.getByName('Encoding'),
properties,
cff.strings, charset.charset);
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}
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cff.charset = charset;
cff.encoding = encoding;
var charStringsAndSeacs = this.parseCharStrings(
charStringIndex,
topDict.privateDict.subrsIndex,
globalSubrIndex.obj,
cff.fdSelect,
cff.fdArray);
cff.charStrings = charStringsAndSeacs.charStrings;
cff.seacs = charStringsAndSeacs.seacs;
cff.widths = charStringsAndSeacs.widths;
return cff;
},
parseHeader: function CFFParser_parseHeader() {
var bytes = this.bytes;
var bytesLength = bytes.length;
var offset = 0;
// Prevent an infinite loop, by checking that the offset is within the
// bounds of the bytes array. Necessary in empty, or invalid, font files.
while (offset < bytesLength && bytes[offset] !== 1) {
++offset;
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}
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if (offset >= bytesLength) {
error('Invalid CFF header');
} else if (offset !== 0) {
info('cff data is shifted');
bytes = bytes.subarray(offset);
this.bytes = bytes;
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}
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var major = bytes[0];
var minor = bytes[1];
var hdrSize = bytes[2];
var offSize = bytes[3];
var header = new CFFHeader(major, minor, hdrSize, offSize);
return { obj: header, endPos: hdrSize };
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},
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parseDict: function CFFParser_parseDict(dict) {
var pos = 0;
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function parseOperand() {
var value = dict[pos++];
if (value === 30) {
return parseFloatOperand(pos);
} else if (value === 28) {
value = dict[pos++];
value = ((value << 24) | (dict[pos++] << 16)) >> 16;
return value;
} else if (value === 29) {
value = dict[pos++];
value = (value << 8) | dict[pos++];
value = (value << 8) | dict[pos++];
value = (value << 8) | dict[pos++];
return value;
} else if (value >= 32 && value <= 246) {
return value - 139;
} else if (value >= 247 && value <= 250) {
return ((value - 247) * 256) + dict[pos++] + 108;
} else if (value >= 251 && value <= 254) {
return -((value - 251) * 256) - dict[pos++] - 108;
} else {
error('255 is not a valid DICT command');
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}
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return -1;
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}
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function parseFloatOperand() {
var str = '';
var eof = 15;
var lookup = ['0', '1', '2', '3', '4', '5', '6', '7', '8',
'9', '.', 'E', 'E-', null, '-'];
var length = dict.length;
while (pos < length) {
var b = dict[pos++];
var b1 = b >> 4;
var b2 = b & 15;
if (b1 === eof) {
break;
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}
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str += lookup[b1];
if (b2 === eof) {
break;
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}
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str += lookup[b2];
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}
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return parseFloat(str);
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}
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var operands = [];
var entries = [];
pos = 0;
var end = dict.length;
while (pos < end) {
var b = dict[pos];
if (b <= 21) {
if (b === 12) {
b = (b << 8) | dict[++pos];
}
entries.push([b, operands]);
operands = [];
++pos;
} else {
operands.push(parseOperand());
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}
}
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return entries;
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},
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parseIndex: function CFFParser_parseIndex(pos) {
var cffIndex = new CFFIndex();
var bytes = this.bytes;
var count = (bytes[pos++] << 8) | bytes[pos++];
var offsets = [];
var end = pos;
var i, ii;
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if (count !== 0) {
var offsetSize = bytes[pos++];
// add 1 for offset to determine size of last object
var startPos = pos + ((count + 1) * offsetSize) - 1;
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for (i = 0, ii = count + 1; i < ii; ++i) {
var offset = 0;
for (var j = 0; j < offsetSize; ++j) {
offset <<= 8;
offset += bytes[pos++];
}
offsets.push(startPos + offset);
}
end = offsets[count];
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}
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for (i = 0, ii = offsets.length - 1; i < ii; ++i) {
var offsetStart = offsets[i];
var offsetEnd = offsets[i + 1];
cffIndex.add(bytes.subarray(offsetStart, offsetEnd));
}
return {obj: cffIndex, endPos: end};
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},
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parseNameIndex: function CFFParser_parseNameIndex(index) {
var names = [];
for (var i = 0, ii = index.count; i < ii; ++i) {
var name = index.get(i);
// OTS doesn't allow names to be over 127 characters.
var length = Math.min(name.length, 127);
var data = [];
// OTS also only permits certain characters in the name.
for (var j = 0; j < length; ++j) {
var c = name[j];
if (j === 0 && c === 0) {
data[j] = c;
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continue;
}
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if ((c < 33 || c > 126) || c === 91 /* [ */ || c === 93 /* ] */ ||
c === 40 /* ( */ || c === 41 /* ) */ || c === 123 /* { */ ||
c === 125 /* } */ || c === 60 /* < */ || c === 62 /* > */ ||
c === 47 /* / */ || c === 37 /* % */ || c === 35 /* # */) {
data[j] = 95;
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continue;
}
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data[j] = c;
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}
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names.push(bytesToString(data));
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}
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return names;
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},
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parseStringIndex: function CFFParser_parseStringIndex(index) {
var strings = new CFFStrings();
for (var i = 0, ii = index.count; i < ii; ++i) {
var data = index.get(i);
strings.add(bytesToString(data));
}
return strings;
},
createDict: function CFFParser_createDict(Type, dict, strings) {
var cffDict = new Type(strings);
for (var i = 0, ii = dict.length; i < ii; ++i) {
var pair = dict[i];
var key = pair[0];
var value = pair[1];
cffDict.setByKey(key, value);
}
return cffDict;
},
parseCharString: function CFFParser_parseCharString(state, data,
localSubrIndex,
globalSubrIndex) {
if (state.callDepth > MAX_SUBR_NESTING) {
return false;
}
var stackSize = state.stackSize;
var stack = state.stack;
var length = data.length;
for (var j = 0; j < length;) {
var value = data[j++];
var validationCommand = null;
if (value === 12) {
var q = data[j++];
if (q === 0) {
// The CFF specification state that the 'dotsection' command
// (12, 0) is deprecated and treated as a no-op, but all Type2
// charstrings processors should support them. Unfortunately
// the font sanitizer don't. As a workaround the sequence (12, 0)
// is replaced by a useless (0, hmoveto).
data[j - 2] = 139;
data[j - 1] = 22;
stackSize = 0;
} else {
validationCommand = CharstringValidationData12[q];
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}
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} else if (value === 28) { // number (16 bit)
stack[stackSize] = ((data[j] << 24) | (data[j + 1] << 16)) >> 16;
j += 2;
stackSize++;
} else if (value === 14) {
if (stackSize >= 4) {
stackSize -= 4;
if (this.seacAnalysisEnabled) {
state.seac = stack.slice(stackSize, stackSize + 4);
return false;
}
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}
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validationCommand = CharstringValidationData[value];
} else if (value >= 32 && value <= 246) { // number
stack[stackSize] = value - 139;
stackSize++;
} else if (value >= 247 && value <= 254) { // number (+1 bytes)
stack[stackSize] = (value < 251 ?
((value - 247) << 8) + data[j] + 108 :
-((value - 251) << 8) - data[j] - 108);
j++;
stackSize++;
} else if (value === 255) { // number (32 bit)
stack[stackSize] = ((data[j] << 24) | (data[j + 1] << 16) |
(data[j + 2] << 8) | data[j + 3]) / 65536;
j += 4;
stackSize++;
} else if (value === 19 || value === 20) {
state.hints += stackSize >> 1;
// skipping right amount of hints flag data
j += (state.hints + 7) >> 3;
stackSize %= 2;
validationCommand = CharstringValidationData[value];
} else if (value === 10 || value === 29) {
var subrsIndex;
if (value === 10) {
subrsIndex = localSubrIndex;
} else {
subrsIndex = globalSubrIndex;
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}
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if (!subrsIndex) {
validationCommand = CharstringValidationData[value];
warn('Missing subrsIndex for ' + validationCommand.id);
return false;
}
var bias = 32768;
if (subrsIndex.count < 1240) {
bias = 107;
} else if (subrsIndex.count < 33900) {
bias = 1131;
}
var subrNumber = stack[--stackSize] + bias;
if (subrNumber < 0 || subrNumber >= subrsIndex.count) {
validationCommand = CharstringValidationData[value];
warn('Out of bounds subrIndex for ' + validationCommand.id);
return false;
}
state.stackSize = stackSize;
state.callDepth++;
var valid = this.parseCharString(state, subrsIndex.get(subrNumber),
localSubrIndex, globalSubrIndex);
if (!valid) {
return false;
}
state.callDepth--;
stackSize = state.stackSize;
continue;
} else if (value === 11) {
state.stackSize = stackSize;
return true;
} else {
validationCommand = CharstringValidationData[value];
}
if (validationCommand) {
if (validationCommand.stem) {
state.hints += stackSize >> 1;
}
if ('min' in validationCommand) {
if (!state.undefStack && stackSize < validationCommand.min) {
warn('Not enough parameters for ' + validationCommand.id +
'; actual: ' + stackSize +
', expected: ' + validationCommand.min);
return false;
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}
}
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if (state.firstStackClearing && validationCommand.stackClearing) {
state.firstStackClearing = false;
// the optional character width can be found before the first
// stack-clearing command arguments
stackSize -= validationCommand.min;
if (stackSize >= 2 && validationCommand.stem) {
// there are even amount of arguments for stem commands
stackSize %= 2;
} else if (stackSize > 1) {
warn('Found too many parameters for stack-clearing command');
}
if (stackSize > 0 && stack[stackSize - 1] >= 0) {
state.width = stack[stackSize - 1];
}
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}
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if ('stackDelta' in validationCommand) {
if ('stackFn' in validationCommand) {
validationCommand.stackFn(stack, stackSize);
}
stackSize += validationCommand.stackDelta;
} else if (validationCommand.stackClearing) {
stackSize = 0;
} else if (validationCommand.resetStack) {
stackSize = 0;
state.undefStack = false;
} else if (validationCommand.undefStack) {
stackSize = 0;
state.undefStack = true;
state.firstStackClearing = false;
}
}
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}
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state.stackSize = stackSize;
return true;
},
parseCharStrings: function CFFParser_parseCharStrings(charStrings,
localSubrIndex,
globalSubrIndex,
fdSelect,
fdArray) {
var seacs = [];
var widths = [];
var count = charStrings.count;
for (var i = 0; i < count; i++) {
var charstring = charStrings.get(i);
var state = {
callDepth: 0,
stackSize: 0,
stack: [],
undefStack: true,
hints: 0,
firstStackClearing: true,
seac: null,
width: null
};
var valid = true;
var localSubrToUse = null;
if (fdSelect && fdArray.length) {
var fdIndex = fdSelect.getFDIndex(i);
if (fdIndex === -1) {
warn('Glyph index is not in fd select.');
valid = false;
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}
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if (fdIndex >= fdArray.length) {
warn('Invalid fd index for glyph index.');
valid = false;
}
if (valid) {
localSubrToUse = fdArray[fdIndex].privateDict.subrsIndex;
}
} else if (localSubrIndex) {
localSubrToUse = localSubrIndex;
}
if (valid) {
valid = this.parseCharString(state, charstring, localSubrToUse,
globalSubrIndex);
}
if (state.width !== null) {
widths[i] = state.width;
}
if (state.seac !== null) {
seacs[i] = state.seac;
}
if (!valid) {
// resetting invalid charstring to single 'endchar'
charStrings.set(i, new Uint8Array([14]));
}
}
return { charStrings: charStrings, seacs: seacs, widths: widths };
},
emptyPrivateDictionary:
function CFFParser_emptyPrivateDictionary(parentDict) {
var privateDict = this.createDict(CFFPrivateDict, [],
parentDict.strings);
parentDict.setByKey(18, [0, 0]);
parentDict.privateDict = privateDict;
},
parsePrivateDict: function CFFParser_parsePrivateDict(parentDict) {
// no private dict, do nothing
if (!parentDict.hasName('Private')) {
this.emptyPrivateDictionary(parentDict);
return;
}
var privateOffset = parentDict.getByName('Private');
// make sure the params are formatted correctly
if (!isArray(privateOffset) || privateOffset.length !== 2) {
parentDict.removeByName('Private');
return;
}
var size = privateOffset[0];
var offset = privateOffset[1];
// remove empty dicts or ones that refer to invalid location
if (size === 0 || offset >= this.bytes.length) {
this.emptyPrivateDictionary(parentDict);
return;
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}
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var privateDictEnd = offset + size;
var dictData = this.bytes.subarray(offset, privateDictEnd);
var dict = this.parseDict(dictData);
var privateDict = this.createDict(CFFPrivateDict, dict,
parentDict.strings);
parentDict.privateDict = privateDict;
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// Parse the Subrs index also since it's relative to the private dict.
if (!privateDict.getByName('Subrs')) {
return;
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}
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var subrsOffset = privateDict.getByName('Subrs');
var relativeOffset = offset + subrsOffset;
// Validate the offset.
if (subrsOffset === 0 || relativeOffset >= this.bytes.length) {
this.emptyPrivateDictionary(parentDict);
return;
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}
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var subrsIndex = this.parseIndex(relativeOffset);
privateDict.subrsIndex = subrsIndex.obj;
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},
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parseCharsets: function CFFParser_parseCharsets(pos, length, strings, cid) {
if (pos === 0) {
return new CFFCharset(true, CFFCharsetPredefinedTypes.ISO_ADOBE,
ISOAdobeCharset);
} else if (pos === 1) {
return new CFFCharset(true, CFFCharsetPredefinedTypes.EXPERT,
ExpertCharset);
} else if (pos === 2) {
return new CFFCharset(true, CFFCharsetPredefinedTypes.EXPERT_SUBSET,
ExpertSubsetCharset);
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}
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var bytes = this.bytes;
var start = pos;
var format = bytes[pos++];
var charset = ['.notdef'];
var id, count, i;
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// subtract 1 for the .notdef glyph
length -= 1;
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switch (format) {
case 0:
for (i = 0; i < length; i++) {
id = (bytes[pos++] << 8) | bytes[pos++];
charset.push(cid ? id : strings.get(id));
}
break;
case 1:
while (charset.length <= length) {
id = (bytes[pos++] << 8) | bytes[pos++];
count = bytes[pos++];
for (i = 0; i <= count; i++) {
charset.push(cid ? id++ : strings.get(id++));
}
}
break;
case 2:
while (charset.length <= length) {
id = (bytes[pos++] << 8) | bytes[pos++];
count = (bytes[pos++] << 8) | bytes[pos++];
for (i = 0; i <= count; i++) {
charset.push(cid ? id++ : strings.get(id++));
}
}
break;
default:
error('Unknown charset format');
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}
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// Raw won't be needed if we actually compile the charset.
var end = pos;
var raw = bytes.subarray(start, end);
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return new CFFCharset(false, format, charset, raw);
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},
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parseEncoding: function CFFParser_parseEncoding(pos,
properties,
strings,
charset) {
var encoding = Object.create(null);
var bytes = this.bytes;
var predefined = false;
var hasSupplement = false;
var format, i, ii;
var raw = null;
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function readSupplement() {
var supplementsCount = bytes[pos++];
for (i = 0; i < supplementsCount; i++) {
var code = bytes[pos++];
var sid = (bytes[pos++] << 8) + (bytes[pos++] & 0xff);
encoding[code] = charset.indexOf(strings.get(sid));
}
}
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if (pos === 0 || pos === 1) {
predefined = true;
format = pos;
var baseEncoding = pos ? ExpertEncoding : StandardEncoding;
for (i = 0, ii = charset.length; i < ii; i++) {
var index = baseEncoding.indexOf(charset[i]);
if (index !== -1) {
encoding[index] = i;
}
}
} else {
var dataStart = pos;
format = bytes[pos++];
switch (format & 0x7f) {
case 0:
var glyphsCount = bytes[pos++];
for (i = 1; i <= glyphsCount; i++) {
encoding[bytes[pos++]] = i;
}
break;
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case 1:
var rangesCount = bytes[pos++];
var gid = 1;
for (i = 0; i < rangesCount; i++) {
var start = bytes[pos++];
var left = bytes[pos++];
for (var j = start; j <= start + left; j++) {
encoding[j] = gid++;
}
}
break;
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default:
error('Unknow encoding format: ' + format + ' in CFF');
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break;
}
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var dataEnd = pos;
if (format & 0x80) {
// The font sanitizer does not support CFF encoding with a
// supplement, since the encoding is not really used to map
// between gid to glyph, let's overwrite what is declared in
// the top dictionary to let the sanitizer think the font use
// StandardEncoding, that's a lie but that's ok.
bytes[dataStart] &= 0x7f;
readSupplement();
hasSupplement = true;
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}
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raw = bytes.subarray(dataStart, dataEnd);
}
format = format & 0x7f;
return new CFFEncoding(predefined, format, encoding, raw);
},
parseFDSelect: function CFFParser_parseFDSelect(pos, length) {
var start = pos;
var bytes = this.bytes;
var format = bytes[pos++];
var fdSelect = [];
var i;
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switch (format) {
case 0:
for (i = 0; i < length; ++i) {
var id = bytes[pos++];
fdSelect.push(id);
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}
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break;
case 3:
var rangesCount = (bytes[pos++] << 8) | bytes[pos++];
for (i = 0; i < rangesCount; ++i) {
var first = (bytes[pos++] << 8) | bytes[pos++];
var fdIndex = bytes[pos++];
var next = (bytes[pos] << 8) | bytes[pos + 1];
for (var j = first; j < next; ++j) {
fdSelect.push(fdIndex);
}
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}
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// Advance past the sentinel(next).
pos += 2;
break;
default:
error('Unknown fdselect format ' + format);
break;
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}
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var end = pos;
return new CFFFDSelect(fdSelect, bytes.subarray(start, end));
}
};
return CFFParser;
})();
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// Compact Font Format
var CFF = (function CFFClosure() {
function CFF() {
this.header = null;
this.names = [];
this.topDict = null;
this.strings = new CFFStrings();
this.globalSubrIndex = null;
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// The following could really be per font, but since we only have one font
// store them here.
this.encoding = null;
this.charset = null;
this.charStrings = null;
this.fdArray = [];
this.fdSelect = null;
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this.isCIDFont = false;
}
return CFF;
})();
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var CFFHeader = (function CFFHeaderClosure() {
function CFFHeader(major, minor, hdrSize, offSize) {
this.major = major;
this.minor = minor;
this.hdrSize = hdrSize;
this.offSize = offSize;
}
return CFFHeader;
})();
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var CFFStrings = (function CFFStringsClosure() {
function CFFStrings() {
this.strings = [];
}
CFFStrings.prototype = {
get: function CFFStrings_get(index) {
if (index >= 0 && index <= 390) {
return CFFStandardStrings[index];
}
if (index - 391 <= this.strings.length) {
return this.strings[index - 391];
}
return CFFStandardStrings[0];
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},
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add: function CFFStrings_add(value) {
this.strings.push(value);
},
get count() {
return this.strings.length;
}
};
return CFFStrings;
})();
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var CFFIndex = (function CFFIndexClosure() {
function CFFIndex() {
this.objects = [];
this.length = 0;
}
CFFIndex.prototype = {
add: function CFFIndex_add(data) {
this.length += data.length;
this.objects.push(data);
},
set: function CFFIndex_set(index, data) {
this.length += data.length - this.objects[index].length;
this.objects[index] = data;
},
get: function CFFIndex_get(index) {
return this.objects[index];
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},
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get count() {
return this.objects.length;
}
};
return CFFIndex;
})();
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var CFFDict = (function CFFDictClosure() {
function CFFDict(tables, strings) {
this.keyToNameMap = tables.keyToNameMap;
this.nameToKeyMap = tables.nameToKeyMap;
this.defaults = tables.defaults;
this.types = tables.types;
this.opcodes = tables.opcodes;
this.order = tables.order;
this.strings = strings;
this.values = Object.create(null);
}
CFFDict.prototype = {
// value should always be an array
setByKey: function CFFDict_setByKey(key, value) {
if (!(key in this.keyToNameMap)) {
return false;
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}
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// ignore empty values
if (value.length === 0) {
return true;
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}
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var type = this.types[key];
// remove the array wrapping these types of values
if (type === 'num' || type === 'sid' || type === 'offset') {
value = value[0];
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}
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this.values[key] = value;
return true;
},
setByName: function CFFDict_setByName(name, value) {
if (!(name in this.nameToKeyMap)) {
error('Invalid dictionary name "' + name + '"');
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}
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this.values[this.nameToKeyMap[name]] = value;
},
hasName: function CFFDict_hasName(name) {
return this.nameToKeyMap[name] in this.values;
},
getByName: function CFFDict_getByName(name) {
if (!(name in this.nameToKeyMap)) {
error('Invalid dictionary name "' + name + '"');
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}
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var key = this.nameToKeyMap[name];
if (!(key in this.values)) {
return this.defaults[key];
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}
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return this.values[key];
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},
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removeByName: function CFFDict_removeByName(name) {
delete this.values[this.nameToKeyMap[name]];
}
};
CFFDict.createTables = function CFFDict_createTables(layout) {
var tables = {
keyToNameMap: {},
nameToKeyMap: {},
defaults: {},
types: {},
opcodes: {},
order: []
};
for (var i = 0, ii = layout.length; i < ii; ++i) {
var entry = layout[i];
var key = isArray(entry[0]) ? (entry[0][0] << 8) + entry[0][1] : entry[0];
tables.keyToNameMap[key] = entry[1];
tables.nameToKeyMap[entry[1]] = key;
tables.types[key] = entry[2];
tables.defaults[key] = entry[3];
tables.opcodes[key] = isArray(entry[0]) ? entry[0] : [entry[0]];
tables.order.push(key);
}
return tables;
};
return CFFDict;
})();
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var CFFTopDict = (function CFFTopDictClosure() {
var layout = [
[[12, 30], 'ROS', ['sid', 'sid', 'num'], null],
[[12, 20], 'SyntheticBase', 'num', null],
[0, 'version', 'sid', null],
[1, 'Notice', 'sid', null],
[[12, 0], 'Copyright', 'sid', null],
[2, 'FullName', 'sid', null],
[3, 'FamilyName', 'sid', null],
[4, 'Weight', 'sid', null],
[[12, 1], 'isFixedPitch', 'num', 0],
[[12, 2], 'ItalicAngle', 'num', 0],
[[12, 3], 'UnderlinePosition', 'num', -100],
[[12, 4], 'UnderlineThickness', 'num', 50],
[[12, 5], 'PaintType', 'num', 0],
[[12, 6], 'CharstringType', 'num', 2],
[[12, 7], 'FontMatrix', ['num', 'num', 'num', 'num', 'num', 'num'],
[0.001, 0, 0, 0.001, 0, 0]],
[13, 'UniqueID', 'num', null],
[5, 'FontBBox', ['num', 'num', 'num', 'num'], [0, 0, 0, 0]],
[[12, 8], 'StrokeWidth', 'num', 0],
[14, 'XUID', 'array', null],
[15, 'charset', 'offset', 0],
[16, 'Encoding', 'offset', 0],
[17, 'CharStrings', 'offset', 0],
[18, 'Private', ['offset', 'offset'], null],
[[12, 21], 'PostScript', 'sid', null],
[[12, 22], 'BaseFontName', 'sid', null],
[[12, 23], 'BaseFontBlend', 'delta', null],
[[12, 31], 'CIDFontVersion', 'num', 0],
[[12, 32], 'CIDFontRevision', 'num', 0],
[[12, 33], 'CIDFontType', 'num', 0],
[[12, 34], 'CIDCount', 'num', 8720],
[[12, 35], 'UIDBase', 'num', null],
// XXX: CID Fonts on DirectWrite 6.1 only seem to work if FDSelect comes
// before FDArray.
[[12, 37], 'FDSelect', 'offset', null],
[[12, 36], 'FDArray', 'offset', null],
[[12, 38], 'FontName', 'sid', null]
];
var tables = null;
function CFFTopDict(strings) {
if (tables === null) {
tables = CFFDict.createTables(layout);
}
CFFDict.call(this, tables, strings);
this.privateDict = null;
}
CFFTopDict.prototype = Object.create(CFFDict.prototype);
return CFFTopDict;
})();
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var CFFPrivateDict = (function CFFPrivateDictClosure() {
var layout = [
[6, 'BlueValues', 'delta', null],
[7, 'OtherBlues', 'delta', null],
[8, 'FamilyBlues', 'delta', null],
[9, 'FamilyOtherBlues', 'delta', null],
[[12, 9], 'BlueScale', 'num', 0.039625],
[[12, 10], 'BlueShift', 'num', 7],
[[12, 11], 'BlueFuzz', 'num', 1],
[10, 'StdHW', 'num', null],
[11, 'StdVW', 'num', null],
[[12, 12], 'StemSnapH', 'delta', null],
[[12, 13], 'StemSnapV', 'delta', null],
[[12, 14], 'ForceBold', 'num', 0],
[[12, 17], 'LanguageGroup', 'num', 0],
[[12, 18], 'ExpansionFactor', 'num', 0.06],
[[12, 19], 'initialRandomSeed', 'num', 0],
[20, 'defaultWidthX', 'num', 0],
[21, 'nominalWidthX', 'num', 0],
[19, 'Subrs', 'offset', null]
];
var tables = null;
function CFFPrivateDict(strings) {
if (tables === null) {
tables = CFFDict.createTables(layout);
}
CFFDict.call(this, tables, strings);
this.subrsIndex = null;
}
CFFPrivateDict.prototype = Object.create(CFFDict.prototype);
return CFFPrivateDict;
})();
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var CFFCharsetPredefinedTypes = {
ISO_ADOBE: 0,
EXPERT: 1,
EXPERT_SUBSET: 2
};
var CFFCharset = (function CFFCharsetClosure() {
function CFFCharset(predefined, format, charset, raw) {
this.predefined = predefined;
this.format = format;
this.charset = charset;
this.raw = raw;
}
return CFFCharset;
})();
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var CFFEncoding = (function CFFEncodingClosure() {
function CFFEncoding(predefined, format, encoding, raw) {
this.predefined = predefined;
this.format = format;
this.encoding = encoding;
this.raw = raw;
}
return CFFEncoding;
})();
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var CFFFDSelect = (function CFFFDSelectClosure() {
function CFFFDSelect(fdSelect, raw) {
this.fdSelect = fdSelect;
this.raw = raw;
}
CFFFDSelect.prototype = {
getFDIndex: function CFFFDSelect_get(glyphIndex) {
if (glyphIndex < 0 || glyphIndex >= this.fdSelect.length) {
return -1;
}
return this.fdSelect[glyphIndex];
}
};
return CFFFDSelect;
})();
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// Helper class to keep track of where an offset is within the data and helps
// filling in that offset once it's known.
var CFFOffsetTracker = (function CFFOffsetTrackerClosure() {
function CFFOffsetTracker() {
this.offsets = Object.create(null);
}
CFFOffsetTracker.prototype = {
isTracking: function CFFOffsetTracker_isTracking(key) {
return key in this.offsets;
},
track: function CFFOffsetTracker_track(key, location) {
if (key in this.offsets) {
error('Already tracking location of ' + key);
}
this.offsets[key] = location;
},
offset: function CFFOffsetTracker_offset(value) {
for (var key in this.offsets) {
this.offsets[key] += value;
}
},
setEntryLocation: function CFFOffsetTracker_setEntryLocation(key,
values,
output) {
if (!(key in this.offsets)) {
error('Not tracking location of ' + key);
}
var data = output.data;
var dataOffset = this.offsets[key];
var size = 5;
for (var i = 0, ii = values.length; i < ii; ++i) {
var offset0 = i * size + dataOffset;
var offset1 = offset0 + 1;
var offset2 = offset0 + 2;
var offset3 = offset0 + 3;
var offset4 = offset0 + 4;
// It's easy to screw up offsets so perform this sanity check.
if (data[offset0] !== 0x1d || data[offset1] !== 0 ||
data[offset2] !== 0 || data[offset3] !== 0 || data[offset4] !== 0) {
error('writing to an offset that is not empty');
}
var value = values[i];
data[offset0] = 0x1d;
data[offset1] = (value >> 24) & 0xFF;
data[offset2] = (value >> 16) & 0xFF;
data[offset3] = (value >> 8) & 0xFF;
data[offset4] = value & 0xFF;
}
}
};
return CFFOffsetTracker;
})();
// Takes a CFF and converts it to the binary representation.
var CFFCompiler = (function CFFCompilerClosure() {
function CFFCompiler(cff) {
this.cff = cff;
}
CFFCompiler.prototype = {
compile: function CFFCompiler_compile() {
var cff = this.cff;
var output = {
data: [],
length: 0,
add: function CFFCompiler_add(data) {
this.data = this.data.concat(data);
this.length = this.data.length;
}
};
// Compile the five entries that must be in order.
var header = this.compileHeader(cff.header);
output.add(header);
var nameIndex = this.compileNameIndex(cff.names);
output.add(nameIndex);
if (cff.isCIDFont) {
// The spec is unclear on how font matrices should relate to each other
// when there is one in the main top dict and the sub top dicts.
// Windows handles this differently than linux and osx so we have to
// normalize to work on all.
// Rules based off of some mailing list discussions:
// - If main font has a matrix and subfont doesn't, use the main matrix.
// - If no main font matrix and there is a subfont matrix, use the
// subfont matrix.
// - If both have matrices, concat together.
// - If neither have matrices, use default.
// To make this work on all platforms we move the top matrix into each
// sub top dict and concat if necessary.
if (cff.topDict.hasName('FontMatrix')) {
var base = cff.topDict.getByName('FontMatrix');
cff.topDict.removeByName('FontMatrix');
for (var i = 0, ii = cff.fdArray.length; i < ii; i++) {
var subDict = cff.fdArray[i];
var matrix = base.slice(0);
if (subDict.hasName('FontMatrix')) {
matrix = Util.transform(matrix, subDict.getByName('FontMatrix'));
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}
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subDict.setByName('FontMatrix', matrix);
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}
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}
}
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var compiled = this.compileTopDicts([cff.topDict],
output.length,
cff.isCIDFont);
output.add(compiled.output);
var topDictTracker = compiled.trackers[0];
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var stringIndex = this.compileStringIndex(cff.strings.strings);
output.add(stringIndex);
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var globalSubrIndex = this.compileIndex(cff.globalSubrIndex);
output.add(globalSubrIndex);
// Now start on the other entries that have no specfic order.
if (cff.encoding && cff.topDict.hasName('Encoding')) {
if (cff.encoding.predefined) {
topDictTracker.setEntryLocation('Encoding', [cff.encoding.format],
output);
} else {
var encoding = this.compileEncoding(cff.encoding);
topDictTracker.setEntryLocation('Encoding', [output.length], output);
output.add(encoding);
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}
}
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if (cff.charset && cff.topDict.hasName('charset')) {
if (cff.charset.predefined) {
topDictTracker.setEntryLocation('charset', [cff.charset.format],
output);
} else {
var charset = this.compileCharset(cff.charset);
topDictTracker.setEntryLocation('charset', [output.length], output);
output.add(charset);
}
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}
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var charStrings = this.compileCharStrings(cff.charStrings);
topDictTracker.setEntryLocation('CharStrings', [output.length], output);
output.add(charStrings);
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if (cff.isCIDFont) {
// For some reason FDSelect must be in front of FDArray on windows. OSX
// and linux don't seem to care.
topDictTracker.setEntryLocation('FDSelect', [output.length], output);
var fdSelect = this.compileFDSelect(cff.fdSelect.raw);
output.add(fdSelect);
// It is unclear if the sub font dictionary can have CID related
// dictionary keys, but the sanitizer doesn't like them so remove them.
compiled = this.compileTopDicts(cff.fdArray, output.length, true);
topDictTracker.setEntryLocation('FDArray', [output.length], output);
output.add(compiled.output);
var fontDictTrackers = compiled.trackers;
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this.compilePrivateDicts(cff.fdArray, fontDictTrackers, output);
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}
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this.compilePrivateDicts([cff.topDict], [topDictTracker], output);
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// If the font data ends with INDEX whose object data is zero-length,
// the sanitizer will bail out. Add a dummy byte to avoid that.
output.add([0]);
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return output.data;
},
encodeNumber: function CFFCompiler_encodeNumber(value) {
if (parseFloat(value) === parseInt(value, 10) && !isNaN(value)) { // isInt
return this.encodeInteger(value);
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} else {
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return this.encodeFloat(value);
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}
},
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encodeFloat: function CFFCompiler_encodeFloat(num) {
var value = num.toString();
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// rounding inaccurate doubles
var m = /\.(\d*?)(?:9{5,20}|0{5,20})\d{0,2}(?:e(.+)|$)/.exec(value);
if (m) {
var epsilon = parseFloat('1e' + ((m[2] ? +m[2] : 0) + m[1].length));
value = (Math.round(num * epsilon) / epsilon).toString();
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}
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var nibbles = '';
var i, ii;
for (i = 0, ii = value.length; i < ii; ++i) {
var a = value[i];
if (a === 'e') {
nibbles += value[++i] === '-' ? 'c' : 'b';
} else if (a === '.') {
nibbles += 'a';
} else if (a === '-') {
nibbles += 'e';
} else {
nibbles += a;
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}
}
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nibbles += (nibbles.length & 1) ? 'f' : 'ff';
var out = [30];
for (i = 0, ii = nibbles.length; i < ii; i += 2) {
out.push(parseInt(nibbles.substr(i, 2), 16));
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}
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return out;
},
encodeInteger: function CFFCompiler_encodeInteger(value) {
var code;
if (value >= -107 && value <= 107) {
code = [value + 139];
} else if (value >= 108 && value <= 1131) {
value = [value - 108];
code = [(value >> 8) + 247, value & 0xFF];
} else if (value >= -1131 && value <= -108) {
value = -value - 108;
code = [(value >> 8) + 251, value & 0xFF];
} else if (value >= -32768 && value <= 32767) {
code = [0x1c, (value >> 8) & 0xFF, value & 0xFF];
} else {
code = [0x1d,
(value >> 24) & 0xFF,
(value >> 16) & 0xFF,
(value >> 8) & 0xFF,
value & 0xFF];
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}
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return code;
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},
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compileHeader: function CFFCompiler_compileHeader(header) {
return [
header.major,
header.minor,
header.hdrSize,
header.offSize
];
},
compileNameIndex: function CFFCompiler_compileNameIndex(names) {
var nameIndex = new CFFIndex();
for (var i = 0, ii = names.length; i < ii; ++i) {
nameIndex.add(stringToBytes(names[i]));
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}
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return this.compileIndex(nameIndex);
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},
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compileTopDicts: function CFFCompiler_compileTopDicts(dicts,
length,
removeCidKeys) {
var fontDictTrackers = [];
var fdArrayIndex = new CFFIndex();
for (var i = 0, ii = dicts.length; i < ii; ++i) {
var fontDict = dicts[i];
if (removeCidKeys) {
fontDict.removeByName('CIDFontVersion');
fontDict.removeByName('CIDFontRevision');
fontDict.removeByName('CIDFontType');
fontDict.removeByName('CIDCount');
fontDict.removeByName('UIDBase');
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}
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var fontDictTracker = new CFFOffsetTracker();
var fontDictData = this.compileDict(fontDict, fontDictTracker);
fontDictTrackers.push(fontDictTracker);
fdArrayIndex.add(fontDictData);
fontDictTracker.offset(length);
}
fdArrayIndex = this.compileIndex(fdArrayIndex, fontDictTrackers);
return {
trackers: fontDictTrackers,
output: fdArrayIndex
};
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},
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compilePrivateDicts: function CFFCompiler_compilePrivateDicts(dicts,
trackers,
output) {
for (var i = 0, ii = dicts.length; i < ii; ++i) {
var fontDict = dicts[i];
assert(fontDict.privateDict && fontDict.hasName('Private'),
'There must be an private dictionary.');
var privateDict = fontDict.privateDict;
var privateDictTracker = new CFFOffsetTracker();
var privateDictData = this.compileDict(privateDict, privateDictTracker);
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var outputLength = output.length;
privateDictTracker.offset(outputLength);
if (!privateDictData.length) {
// The private dictionary was empty, set the output length to zero to
// ensure the offset length isn't out of bounds in the eyes of the
// sanitizer.
outputLength = 0;
}
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trackers[i].setEntryLocation('Private',
[privateDictData.length, outputLength],
output);
output.add(privateDictData);
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if (privateDict.subrsIndex && privateDict.hasName('Subrs')) {
var subrs = this.compileIndex(privateDict.subrsIndex);
privateDictTracker.setEntryLocation('Subrs', [privateDictData.length],
output);
output.add(subrs);
}
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}
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},
compileDict: function CFFCompiler_compileDict(dict, offsetTracker) {
var out = [];
// The dictionary keys must be in a certain order.
var order = dict.order;
for (var i = 0; i < order.length; ++i) {
var key = order[i];
if (!(key in dict.values)) {
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continue;
}
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var values = dict.values[key];
var types = dict.types[key];
if (!isArray(types)) {
types = [types];
}
if (!isArray(values)) {
values = [values];
}
// Remove any empty dict values.
if (values.length === 0) {
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continue;
}
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for (var j = 0, jj = types.length; j < jj; ++j) {
var type = types[j];
var value = values[j];
switch (type) {
case 'num':
case 'sid':
out = out.concat(this.encodeNumber(value));
break;
case 'offset':
// For offsets we just insert a 32bit integer so we don't have to
// deal with figuring out the length of the offset when it gets
// replaced later on by the compiler.
var name = dict.keyToNameMap[key];
// Some offsets have the offset and the length, so just record the
// position of the first one.
if (!offsetTracker.isTracking(name)) {
offsetTracker.track(name, out.length);
}
out = out.concat([0x1d, 0, 0, 0, 0]);
break;
case 'array':
case 'delta':
out = out.concat(this.encodeNumber(value));
for (var k = 1, kk = values.length; k < kk; ++k) {
out = out.concat(this.encodeNumber(values[k]));
}
break;
default:
error('Unknown data type of ' + type);
break;
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}
}
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out = out.concat(dict.opcodes[key]);
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}
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return out;
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},
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compileStringIndex: function CFFCompiler_compileStringIndex(strings) {
var stringIndex = new CFFIndex();
for (var i = 0, ii = strings.length; i < ii; ++i) {
stringIndex.add(stringToBytes(strings[i]));
}
return this.compileIndex(stringIndex);
},
compileGlobalSubrIndex: function CFFCompiler_compileGlobalSubrIndex() {
var globalSubrIndex = this.cff.globalSubrIndex;
this.out.writeByteArray(this.compileIndex(globalSubrIndex));
},
compileCharStrings: function CFFCompiler_compileCharStrings(charStrings) {
return this.compileIndex(charStrings);
},
compileCharset: function CFFCompiler_compileCharset(charset) {
return this.compileTypedArray(charset.raw);
},
compileEncoding: function CFFCompiler_compileEncoding(encoding) {
return this.compileTypedArray(encoding.raw);
},
compileFDSelect: function CFFCompiler_compileFDSelect(fdSelect) {
return this.compileTypedArray(fdSelect);
},
compileTypedArray: function CFFCompiler_compileTypedArray(data) {
var out = [];
for (var i = 0, ii = data.length; i < ii; ++i) {
out[i] = data[i];
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}
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return out;
},
compileIndex: function CFFCompiler_compileIndex(index, trackers) {
trackers = trackers || [];
var objects = index.objects;
// First 2 bytes contains the number of objects contained into this index
var count = objects.length;
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// If there is no object, just create an index. This technically
// should just be [0, 0] but OTS has an issue with that.
if (count === 0) {
return [0, 0, 0];
}
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var data = [(count >> 8) & 0xFF, count & 0xff];
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var lastOffset = 1, i;
for (i = 0; i < count; ++i) {
lastOffset += objects[i].length;
}
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var offsetSize;
if (lastOffset < 0x100) {
offsetSize = 1;
} else if (lastOffset < 0x10000) {
offsetSize = 2;
} else if (lastOffset < 0x1000000) {
offsetSize = 3;
} else {
offsetSize = 4;
}
// Next byte contains the offset size use to reference object in the file
data.push(offsetSize);
// Add another offset after this one because we need a new offset
var relativeOffset = 1;
for (i = 0; i < count + 1; i++) {
if (offsetSize === 1) {
data.push(relativeOffset & 0xFF);
} else if (offsetSize === 2) {
data.push((relativeOffset >> 8) & 0xFF,
relativeOffset & 0xFF);
} else if (offsetSize === 3) {
data.push((relativeOffset >> 16) & 0xFF,
(relativeOffset >> 8) & 0xFF,
relativeOffset & 0xFF);
} else {
data.push((relativeOffset >>> 24) & 0xFF,
(relativeOffset >> 16) & 0xFF,
(relativeOffset >> 8) & 0xFF,
relativeOffset & 0xFF);
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}
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if (objects[i]) {
relativeOffset += objects[i].length;
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}
}
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for (i = 0; i < count; i++) {
// Notify the tracker where the object will be offset in the data.
if (trackers[i]) {
trackers[i].offset(data.length);
}
for (var j = 0, jj = objects[i].length; j < jj; j++) {
data.push(objects[i][j]);
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}
}
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return data;
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}
};
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return CFFCompiler;
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})();
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exports.CFFStandardStrings = CFFStandardStrings;
exports.CFFParser = CFFParser;
exports.CFF = CFF;
exports.CFFHeader = CFFHeader;
exports.CFFStrings = CFFStrings;
exports.CFFIndex = CFFIndex;
exports.CFFCharset = CFFCharset;
exports.CFFTopDict = CFFTopDict;
exports.CFFPrivateDict = CFFPrivateDict;
exports.CFFCompiler = CFFCompiler;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreChunkedStream = {}), root.pdfjsSharedUtil);
}
}(this, function (exports, sharedUtil) {
var MissingDataException = sharedUtil.MissingDataException;
var arrayByteLength = sharedUtil.arrayByteLength;
var arraysToBytes = sharedUtil.arraysToBytes;
var assert = sharedUtil.assert;
var createPromiseCapability = sharedUtil.createPromiseCapability;
var isInt = sharedUtil.isInt;
var isEmptyObj = sharedUtil.isEmptyObj;
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var ChunkedStream = (function ChunkedStreamClosure() {
function ChunkedStream(length, chunkSize, manager) {
this.bytes = new Uint8Array(length);
this.start = 0;
this.pos = 0;
this.end = length;
this.chunkSize = chunkSize;
this.loadedChunks = [];
this.numChunksLoaded = 0;
this.numChunks = Math.ceil(length / chunkSize);
this.manager = manager;
this.progressiveDataLength = 0;
this.lastSuccessfulEnsureByteChunk = -1; // a single-entry cache
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}
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// required methods for a stream. if a particular stream does not
// implement these, an error should be thrown
ChunkedStream.prototype = {
getMissingChunks: function ChunkedStream_getMissingChunks() {
var chunks = [];
for (var chunk = 0, n = this.numChunks; chunk < n; ++chunk) {
if (!this.loadedChunks[chunk]) {
chunks.push(chunk);
}
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}
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return chunks;
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},
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getBaseStreams: function ChunkedStream_getBaseStreams() {
return [this];
},
allChunksLoaded: function ChunkedStream_allChunksLoaded() {
return this.numChunksLoaded === this.numChunks;
},
onReceiveData: function ChunkedStream_onReceiveData(begin, chunk) {
var end = begin + chunk.byteLength;
assert(begin % this.chunkSize === 0, 'Bad begin offset: ' + begin);
// Using this.length is inaccurate here since this.start can be moved
// See ChunkedStream.moveStart()
var length = this.bytes.length;
assert(end % this.chunkSize === 0 || end === length,
'Bad end offset: ' + end);
this.bytes.set(new Uint8Array(chunk), begin);
var chunkSize = this.chunkSize;
var beginChunk = Math.floor(begin / chunkSize);
var endChunk = Math.floor((end - 1) / chunkSize) + 1;
var curChunk;
for (curChunk = beginChunk; curChunk < endChunk; ++curChunk) {
if (!this.loadedChunks[curChunk]) {
this.loadedChunks[curChunk] = true;
++this.numChunksLoaded;
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}
}
},
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onReceiveProgressiveData:
function ChunkedStream_onReceiveProgressiveData(data) {
var position = this.progressiveDataLength;
var beginChunk = Math.floor(position / this.chunkSize);
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this.bytes.set(new Uint8Array(data), position);
position += data.byteLength;
this.progressiveDataLength = position;
var endChunk = position >= this.end ? this.numChunks :
Math.floor(position / this.chunkSize);
var curChunk;
for (curChunk = beginChunk; curChunk < endChunk; ++curChunk) {
if (!this.loadedChunks[curChunk]) {
this.loadedChunks[curChunk] = true;
++this.numChunksLoaded;
}
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}
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},
ensureByte: function ChunkedStream_ensureByte(pos) {
var chunk = Math.floor(pos / this.chunkSize);
if (chunk === this.lastSuccessfulEnsureByteChunk) {
return;
}
if (!this.loadedChunks[chunk]) {
throw new MissingDataException(pos, pos + 1);
}
this.lastSuccessfulEnsureByteChunk = chunk;
},
ensureRange: function ChunkedStream_ensureRange(begin, end) {
if (begin >= end) {
return;
}
if (end <= this.progressiveDataLength) {
return;
}
var chunkSize = this.chunkSize;
var beginChunk = Math.floor(begin / chunkSize);
var endChunk = Math.floor((end - 1) / chunkSize) + 1;
for (var chunk = beginChunk; chunk < endChunk; ++chunk) {
if (!this.loadedChunks[chunk]) {
throw new MissingDataException(begin, end);
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}
}
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},
nextEmptyChunk: function ChunkedStream_nextEmptyChunk(beginChunk) {
var chunk, numChunks = this.numChunks;
for (var i = 0; i < numChunks; ++i) {
chunk = (beginChunk + i) % numChunks; // Wrap around to beginning
if (!this.loadedChunks[chunk]) {
return chunk;
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}
}
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return null;
},
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hasChunk: function ChunkedStream_hasChunk(chunk) {
return !!this.loadedChunks[chunk];
},
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get length() {
return this.end - this.start;
},
get isEmpty() {
return this.length === 0;
},
getByte: function ChunkedStream_getByte() {
var pos = this.pos;
if (pos >= this.end) {
return -1;
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}
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this.ensureByte(pos);
return this.bytes[this.pos++];
},
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getUint16: function ChunkedStream_getUint16() {
var b0 = this.getByte();
var b1 = this.getByte();
if (b0 === -1 || b1 === -1) {
return -1;
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}
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return (b0 << 8) + b1;
},
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getInt32: function ChunkedStream_getInt32() {
var b0 = this.getByte();
var b1 = this.getByte();
var b2 = this.getByte();
var b3 = this.getByte();
return (b0 << 24) + (b1 << 16) + (b2 << 8) + b3;
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},
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// returns subarray of original buffer
// should only be read
getBytes: function ChunkedStream_getBytes(length) {
var bytes = this.bytes;
var pos = this.pos;
var strEnd = this.end;
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if (!length) {
this.ensureRange(pos, strEnd);
return bytes.subarray(pos, strEnd);
}
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var end = pos + length;
if (end > strEnd) {
end = strEnd;
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}
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this.ensureRange(pos, end);
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this.pos = end;
return bytes.subarray(pos, end);
},
peekByte: function ChunkedStream_peekByte() {
var peekedByte = this.getByte();
this.pos--;
return peekedByte;
},
peekBytes: function ChunkedStream_peekBytes(length) {
var bytes = this.getBytes(length);
this.pos -= bytes.length;
return bytes;
},
getByteRange: function ChunkedStream_getBytes(begin, end) {
this.ensureRange(begin, end);
return this.bytes.subarray(begin, end);
},
skip: function ChunkedStream_skip(n) {
if (!n) {
n = 1;
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}
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this.pos += n;
},
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reset: function ChunkedStream_reset() {
this.pos = this.start;
},
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moveStart: function ChunkedStream_moveStart() {
this.start = this.pos;
},
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makeSubStream: function ChunkedStream_makeSubStream(start, length, dict) {
this.ensureRange(start, start + length);
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function ChunkedStreamSubstream() {}
ChunkedStreamSubstream.prototype = Object.create(this);
ChunkedStreamSubstream.prototype.getMissingChunks = function() {
var chunkSize = this.chunkSize;
var beginChunk = Math.floor(this.start / chunkSize);
var endChunk = Math.floor((this.end - 1) / chunkSize) + 1;
var missingChunks = [];
for (var chunk = beginChunk; chunk < endChunk; ++chunk) {
if (!this.loadedChunks[chunk]) {
missingChunks.push(chunk);
}
}
return missingChunks;
};
var subStream = new ChunkedStreamSubstream();
subStream.pos = subStream.start = start;
subStream.end = start + length || this.end;
subStream.dict = dict;
return subStream;
},
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isStream: true
};
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return ChunkedStream;
})();
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var ChunkedStreamManager = (function ChunkedStreamManagerClosure() {
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function ChunkedStreamManager(pdfNetworkStream, args) {
var chunkSize = args.rangeChunkSize;
var length = args.length;
this.stream = new ChunkedStream(length, chunkSize, this);
this.length = length;
this.chunkSize = chunkSize;
this.pdfNetworkStream = pdfNetworkStream;
this.url = args.url;
this.disableAutoFetch = args.disableAutoFetch;
this.msgHandler = args.msgHandler;
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this.currRequestId = 0;
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this.chunksNeededByRequest = Object.create(null);
this.requestsByChunk = Object.create(null);
this.promisesByRequest = Object.create(null);
this.progressiveDataLength = 0;
this.aborted = false;
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this._loadedStreamCapability = createPromiseCapability();
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}
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ChunkedStreamManager.prototype = {
onLoadedStream: function ChunkedStreamManager_getLoadedStream() {
return this._loadedStreamCapability.promise;
},
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sendRequest: function ChunkedStreamManager_sendRequest(begin, end) {
var rangeReader = this.pdfNetworkStream.getRangeReader(begin, end);
if (!rangeReader.isStreamingSupported) {
rangeReader.onProgress = this.onProgress.bind(this);
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}
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var chunks = [], loaded = 0;
var manager = this;
var promise = new Promise(function (resolve, reject) {
var readChunk = function (chunk) {
try {
if (!chunk.done) {
var data = chunk.value;
chunks.push(data);
loaded += arrayByteLength(data);
if (rangeReader.isStreamingSupported) {
manager.onProgress({loaded: loaded});
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}
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rangeReader.read().then(readChunk, reject);
return;
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}
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var chunkData = arraysToBytes(chunks);
chunks = null;
resolve(chunkData);
} catch (e) {
reject(e);
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}
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};
rangeReader.read().then(readChunk, reject);
});
promise.then(function (data) {
if (this.aborted) {
return; // ignoring any data after abort
}
this.onReceiveData({chunk: data, begin: begin});
}.bind(this));
// TODO check errors
},
// Get all the chunks that are not yet loaded and groups them into
// contiguous ranges to load in as few requests as possible
requestAllChunks: function ChunkedStreamManager_requestAllChunks() {
var missingChunks = this.stream.getMissingChunks();
this._requestChunks(missingChunks);
return this._loadedStreamCapability.promise;
},
_requestChunks: function ChunkedStreamManager_requestChunks(chunks) {
var requestId = this.currRequestId++;
var i, ii;
var chunksNeeded = Object.create(null);
this.chunksNeededByRequest[requestId] = chunksNeeded;
for (i = 0, ii = chunks.length; i < ii; i++) {
if (!this.stream.hasChunk(chunks[i])) {
chunksNeeded[chunks[i]] = true;
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}
}
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if (isEmptyObj(chunksNeeded)) {
return Promise.resolve();
}
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var capability = createPromiseCapability();
this.promisesByRequest[requestId] = capability;
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var chunksToRequest = [];
for (var chunk in chunksNeeded) {
chunk = chunk | 0;
if (!(chunk in this.requestsByChunk)) {
this.requestsByChunk[chunk] = [];
chunksToRequest.push(chunk);
}
this.requestsByChunk[chunk].push(requestId);
}
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if (!chunksToRequest.length) {
return capability.promise;
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}
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var groupedChunksToRequest = this.groupChunks(chunksToRequest);
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for (i = 0; i < groupedChunksToRequest.length; ++i) {
var groupedChunk = groupedChunksToRequest[i];
var begin = groupedChunk.beginChunk * this.chunkSize;
var end = Math.min(groupedChunk.endChunk * this.chunkSize, this.length);
this.sendRequest(begin, end);
}
return capability.promise;
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},
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getStream: function ChunkedStreamManager_getStream() {
return this.stream;
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},
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// Loads any chunks in the requested range that are not yet loaded
requestRange: function ChunkedStreamManager_requestRange(begin, end) {
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end = Math.min(end, this.length);
var beginChunk = this.getBeginChunk(begin);
var endChunk = this.getEndChunk(end);
var chunks = [];
for (var chunk = beginChunk; chunk < endChunk; ++chunk) {
chunks.push(chunk);
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}
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return this._requestChunks(chunks);
},
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requestRanges: function ChunkedStreamManager_requestRanges(ranges) {
ranges = ranges || [];
var chunksToRequest = [];
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for (var i = 0; i < ranges.length; i++) {
var beginChunk = this.getBeginChunk(ranges[i].begin);
var endChunk = this.getEndChunk(ranges[i].end);
for (var chunk = beginChunk; chunk < endChunk; ++chunk) {
if (chunksToRequest.indexOf(chunk) < 0) {
chunksToRequest.push(chunk);
}
}
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}
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chunksToRequest.sort(function(a, b) { return a - b; });
return this._requestChunks(chunksToRequest);
},
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// Groups a sorted array of chunks into as few contiguous larger
// chunks as possible
groupChunks: function ChunkedStreamManager_groupChunks(chunks) {
var groupedChunks = [];
var beginChunk = -1;
var prevChunk = -1;
for (var i = 0; i < chunks.length; ++i) {
var chunk = chunks[i];
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if (beginChunk < 0) {
beginChunk = chunk;
}
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if (prevChunk >= 0 && prevChunk + 1 !== chunk) {
groupedChunks.push({ beginChunk: beginChunk,
endChunk: prevChunk + 1 });
beginChunk = chunk;
}
if (i + 1 === chunks.length) {
groupedChunks.push({ beginChunk: beginChunk,
endChunk: chunk + 1 });
}
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prevChunk = chunk;
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}
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return groupedChunks;
},
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onProgress: function ChunkedStreamManager_onProgress(args) {
var bytesLoaded = (this.stream.numChunksLoaded * this.chunkSize +
args.loaded);
this.msgHandler.send('DocProgress', {
loaded: bytesLoaded,
total: this.length
});
},
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onReceiveData: function ChunkedStreamManager_onReceiveData(args) {
var chunk = args.chunk;
var isProgressive = args.begin === undefined;
var begin = isProgressive ? this.progressiveDataLength : args.begin;
var end = begin + chunk.byteLength;
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var beginChunk = Math.floor(begin / this.chunkSize);
var endChunk = end < this.length ? Math.floor(end / this.chunkSize) :
Math.ceil(end / this.chunkSize);
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if (isProgressive) {
this.stream.onReceiveProgressiveData(chunk);
this.progressiveDataLength = end;
} else {
this.stream.onReceiveData(begin, chunk);
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}
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if (this.stream.allChunksLoaded()) {
this._loadedStreamCapability.resolve(this.stream);
}
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var loadedRequests = [];
var i, requestId;
for (chunk = beginChunk; chunk < endChunk; ++chunk) {
// The server might return more chunks than requested
var requestIds = this.requestsByChunk[chunk] || [];
delete this.requestsByChunk[chunk];
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for (i = 0; i < requestIds.length; ++i) {
requestId = requestIds[i];
var chunksNeeded = this.chunksNeededByRequest[requestId];
if (chunk in chunksNeeded) {
delete chunksNeeded[chunk];
}
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if (!isEmptyObj(chunksNeeded)) {
continue;
}
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loadedRequests.push(requestId);
}
}
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// If there are no pending requests, automatically fetch the next
// unfetched chunk of the PDF
if (!this.disableAutoFetch && isEmptyObj(this.requestsByChunk)) {
var nextEmptyChunk;
if (this.stream.numChunksLoaded === 1) {
// This is a special optimization so that after fetching the first
// chunk, rather than fetching the second chunk, we fetch the last
// chunk.
var lastChunk = this.stream.numChunks - 1;
if (!this.stream.hasChunk(lastChunk)) {
nextEmptyChunk = lastChunk;
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}
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} else {
nextEmptyChunk = this.stream.nextEmptyChunk(endChunk);
}
if (isInt(nextEmptyChunk)) {
this._requestChunks([nextEmptyChunk]);
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}
}
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for (i = 0; i < loadedRequests.length; ++i) {
requestId = loadedRequests[i];
var capability = this.promisesByRequest[requestId];
delete this.promisesByRequest[requestId];
capability.resolve();
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}
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this.msgHandler.send('DocProgress', {
loaded: this.stream.numChunksLoaded * this.chunkSize,
total: this.length
});
},
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onError: function ChunkedStreamManager_onError(err) {
this._loadedStreamCapability.reject(err);
},
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getBeginChunk: function ChunkedStreamManager_getBeginChunk(begin) {
var chunk = Math.floor(begin / this.chunkSize);
return chunk;
},
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getEndChunk: function ChunkedStreamManager_getEndChunk(end) {
var chunk = Math.floor((end - 1) / this.chunkSize) + 1;
return chunk;
},
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abort: function ChunkedStreamManager_abort() {
this.aborted = true;
if (this.pdfNetworkStream) {
this.pdfNetworkStream.cancelAllRequests('abort');
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}
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for(var requestId in this.promisesByRequest) {
var capability = this.promisesByRequest[requestId];
capability.reject(new Error('Request was aborted'));
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}
}
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};
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return ChunkedStreamManager;
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})();
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exports.ChunkedStream = ChunkedStream;
exports.ChunkedStreamManager = ChunkedStreamManager;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreGlyphList = {}), root.pdfjsSharedUtil);
}
}(this, function (exports, sharedUtil) {
var getLookupTableFactory = sharedUtil.getLookupTableFactory;
var getGlyphsUnicode = getLookupTableFactory(function (t) {
t['A'] = 0x0041;
t['AE'] = 0x00C6;
t['AEacute'] = 0x01FC;
t['AEmacron'] = 0x01E2;
t['AEsmall'] = 0xF7E6;
t['Aacute'] = 0x00C1;
t['Aacutesmall'] = 0xF7E1;
t['Abreve'] = 0x0102;
t['Abreveacute'] = 0x1EAE;
t['Abrevecyrillic'] = 0x04D0;
t['Abrevedotbelow'] = 0x1EB6;
t['Abrevegrave'] = 0x1EB0;
t['Abrevehookabove'] = 0x1EB2;
t['Abrevetilde'] = 0x1EB4;
t['Acaron'] = 0x01CD;
t['Acircle'] = 0x24B6;
t['Acircumflex'] = 0x00C2;
t['Acircumflexacute'] = 0x1EA4;
t['Acircumflexdotbelow'] = 0x1EAC;
t['Acircumflexgrave'] = 0x1EA6;
t['Acircumflexhookabove'] = 0x1EA8;
t['Acircumflexsmall'] = 0xF7E2;
t['Acircumflextilde'] = 0x1EAA;
t['Acute'] = 0xF6C9;
t['Acutesmall'] = 0xF7B4;
t['Acyrillic'] = 0x0410;
t['Adblgrave'] = 0x0200;
t['Adieresis'] = 0x00C4;
t['Adieresiscyrillic'] = 0x04D2;
t['Adieresismacron'] = 0x01DE;
t['Adieresissmall'] = 0xF7E4;
t['Adotbelow'] = 0x1EA0;
t['Adotmacron'] = 0x01E0;
t['Agrave'] = 0x00C0;
t['Agravesmall'] = 0xF7E0;
t['Ahookabove'] = 0x1EA2;
t['Aiecyrillic'] = 0x04D4;
t['Ainvertedbreve'] = 0x0202;
t['Alpha'] = 0x0391;
t['Alphatonos'] = 0x0386;
t['Amacron'] = 0x0100;
t['Amonospace'] = 0xFF21;
t['Aogonek'] = 0x0104;
t['Aring'] = 0x00C5;
t['Aringacute'] = 0x01FA;
t['Aringbelow'] = 0x1E00;
t['Aringsmall'] = 0xF7E5;
t['Asmall'] = 0xF761;
t['Atilde'] = 0x00C3;
t['Atildesmall'] = 0xF7E3;
t['Aybarmenian'] = 0x0531;
t['B'] = 0x0042;
t['Bcircle'] = 0x24B7;
t['Bdotaccent'] = 0x1E02;
t['Bdotbelow'] = 0x1E04;
t['Becyrillic'] = 0x0411;
t['Benarmenian'] = 0x0532;
t['Beta'] = 0x0392;
t['Bhook'] = 0x0181;
t['Blinebelow'] = 0x1E06;
t['Bmonospace'] = 0xFF22;
t['Brevesmall'] = 0xF6F4;
t['Bsmall'] = 0xF762;
t['Btopbar'] = 0x0182;
t['C'] = 0x0043;
t['Caarmenian'] = 0x053E;
t['Cacute'] = 0x0106;
t['Caron'] = 0xF6CA;
t['Caronsmall'] = 0xF6F5;
t['Ccaron'] = 0x010C;
t['Ccedilla'] = 0x00C7;
t['Ccedillaacute'] = 0x1E08;
t['Ccedillasmall'] = 0xF7E7;
t['Ccircle'] = 0x24B8;
t['Ccircumflex'] = 0x0108;
t['Cdot'] = 0x010A;
t['Cdotaccent'] = 0x010A;
t['Cedillasmall'] = 0xF7B8;
t['Chaarmenian'] = 0x0549;
t['Cheabkhasiancyrillic'] = 0x04BC;
t['Checyrillic'] = 0x0427;
t['Chedescenderabkhasiancyrillic'] = 0x04BE;
t['Chedescendercyrillic'] = 0x04B6;
t['Chedieresiscyrillic'] = 0x04F4;
t['Cheharmenian'] = 0x0543;
t['Chekhakassiancyrillic'] = 0x04CB;
t['Cheverticalstrokecyrillic'] = 0x04B8;
t['Chi'] = 0x03A7;
t['Chook'] = 0x0187;
t['Circumflexsmall'] = 0xF6F6;
t['Cmonospace'] = 0xFF23;
t['Coarmenian'] = 0x0551;
t['Csmall'] = 0xF763;
t['D'] = 0x0044;
t['DZ'] = 0x01F1;
t['DZcaron'] = 0x01C4;
t['Daarmenian'] = 0x0534;
t['Dafrican'] = 0x0189;
t['Dcaron'] = 0x010E;
t['Dcedilla'] = 0x1E10;
t['Dcircle'] = 0x24B9;
t['Dcircumflexbelow'] = 0x1E12;
t['Dcroat'] = 0x0110;
t['Ddotaccent'] = 0x1E0A;
t['Ddotbelow'] = 0x1E0C;
t['Decyrillic'] = 0x0414;
t['Deicoptic'] = 0x03EE;
t['Delta'] = 0x2206;
t['Deltagreek'] = 0x0394;
t['Dhook'] = 0x018A;
t['Dieresis'] = 0xF6CB;
t['DieresisAcute'] = 0xF6CC;
t['DieresisGrave'] = 0xF6CD;
t['Dieresissmall'] = 0xF7A8;
t['Digammagreek'] = 0x03DC;
t['Djecyrillic'] = 0x0402;
t['Dlinebelow'] = 0x1E0E;
t['Dmonospace'] = 0xFF24;
t['Dotaccentsmall'] = 0xF6F7;
t['Dslash'] = 0x0110;
t['Dsmall'] = 0xF764;
t['Dtopbar'] = 0x018B;
t['Dz'] = 0x01F2;
t['Dzcaron'] = 0x01C5;
t['Dzeabkhasiancyrillic'] = 0x04E0;
t['Dzecyrillic'] = 0x0405;
t['Dzhecyrillic'] = 0x040F;
t['E'] = 0x0045;
t['Eacute'] = 0x00C9;
t['Eacutesmall'] = 0xF7E9;
t['Ebreve'] = 0x0114;
t['Ecaron'] = 0x011A;
t['Ecedillabreve'] = 0x1E1C;
t['Echarmenian'] = 0x0535;
t['Ecircle'] = 0x24BA;
t['Ecircumflex'] = 0x00CA;
t['Ecircumflexacute'] = 0x1EBE;
t['Ecircumflexbelow'] = 0x1E18;
t['Ecircumflexdotbelow'] = 0x1EC6;
t['Ecircumflexgrave'] = 0x1EC0;
t['Ecircumflexhookabove'] = 0x1EC2;
t['Ecircumflexsmall'] = 0xF7EA;
t['Ecircumflextilde'] = 0x1EC4;
t['Ecyrillic'] = 0x0404;
t['Edblgrave'] = 0x0204;
t['Edieresis'] = 0x00CB;
t['Edieresissmall'] = 0xF7EB;
t['Edot'] = 0x0116;
t['Edotaccent'] = 0x0116;
t['Edotbelow'] = 0x1EB8;
t['Efcyrillic'] = 0x0424;
t['Egrave'] = 0x00C8;
t['Egravesmall'] = 0xF7E8;
t['Eharmenian'] = 0x0537;
t['Ehookabove'] = 0x1EBA;
t['Eightroman'] = 0x2167;
t['Einvertedbreve'] = 0x0206;
t['Eiotifiedcyrillic'] = 0x0464;
t['Elcyrillic'] = 0x041B;
t['Elevenroman'] = 0x216A;
t['Emacron'] = 0x0112;
t['Emacronacute'] = 0x1E16;
t['Emacrongrave'] = 0x1E14;
t['Emcyrillic'] = 0x041C;
t['Emonospace'] = 0xFF25;
t['Encyrillic'] = 0x041D;
t['Endescendercyrillic'] = 0x04A2;
t['Eng'] = 0x014A;
t['Enghecyrillic'] = 0x04A4;
t['Enhookcyrillic'] = 0x04C7;
t['Eogonek'] = 0x0118;
t['Eopen'] = 0x0190;
t['Epsilon'] = 0x0395;
t['Epsilontonos'] = 0x0388;
t['Ercyrillic'] = 0x0420;
t['Ereversed'] = 0x018E;
t['Ereversedcyrillic'] = 0x042D;
t['Escyrillic'] = 0x0421;
t['Esdescendercyrillic'] = 0x04AA;
t['Esh'] = 0x01A9;
t['Esmall'] = 0xF765;
t['Eta'] = 0x0397;
t['Etarmenian'] = 0x0538;
t['Etatonos'] = 0x0389;
t['Eth'] = 0x00D0;
t['Ethsmall'] = 0xF7F0;
t['Etilde'] = 0x1EBC;
t['Etildebelow'] = 0x1E1A;
t['Euro'] = 0x20AC;
t['Ezh'] = 0x01B7;
t['Ezhcaron'] = 0x01EE;
t['Ezhreversed'] = 0x01B8;
t['F'] = 0x0046;
t['Fcircle'] = 0x24BB;
t['Fdotaccent'] = 0x1E1E;
t['Feharmenian'] = 0x0556;
t['Feicoptic'] = 0x03E4;
t['Fhook'] = 0x0191;
t['Fitacyrillic'] = 0x0472;
t['Fiveroman'] = 0x2164;
t['Fmonospace'] = 0xFF26;
t['Fourroman'] = 0x2163;
t['Fsmall'] = 0xF766;
t['G'] = 0x0047;
t['GBsquare'] = 0x3387;
t['Gacute'] = 0x01F4;
t['Gamma'] = 0x0393;
t['Gammaafrican'] = 0x0194;
t['Gangiacoptic'] = 0x03EA;
t['Gbreve'] = 0x011E;
t['Gcaron'] = 0x01E6;
t['Gcedilla'] = 0x0122;
t['Gcircle'] = 0x24BC;
t['Gcircumflex'] = 0x011C;
t['Gcommaaccent'] = 0x0122;
t['Gdot'] = 0x0120;
t['Gdotaccent'] = 0x0120;
t['Gecyrillic'] = 0x0413;
t['Ghadarmenian'] = 0x0542;
t['Ghemiddlehookcyrillic'] = 0x0494;
t['Ghestrokecyrillic'] = 0x0492;
t['Gheupturncyrillic'] = 0x0490;
t['Ghook'] = 0x0193;
t['Gimarmenian'] = 0x0533;
t['Gjecyrillic'] = 0x0403;
t['Gmacron'] = 0x1E20;
t['Gmonospace'] = 0xFF27;
t['Grave'] = 0xF6CE;
t['Gravesmall'] = 0xF760;
t['Gsmall'] = 0xF767;
t['Gsmallhook'] = 0x029B;
t['Gstroke'] = 0x01E4;
t['H'] = 0x0048;
t['H18533'] = 0x25CF;
t['H18543'] = 0x25AA;
t['H18551'] = 0x25AB;
t['H22073'] = 0x25A1;
t['HPsquare'] = 0x33CB;
t['Haabkhasiancyrillic'] = 0x04A8;
t['Hadescendercyrillic'] = 0x04B2;
t['Hardsigncyrillic'] = 0x042A;
t['Hbar'] = 0x0126;
t['Hbrevebelow'] = 0x1E2A;
t['Hcedilla'] = 0x1E28;
t['Hcircle'] = 0x24BD;
t['Hcircumflex'] = 0x0124;
t['Hdieresis'] = 0x1E26;
t['Hdotaccent'] = 0x1E22;
t['Hdotbelow'] = 0x1E24;
t['Hmonospace'] = 0xFF28;
t['Hoarmenian'] = 0x0540;
t['Horicoptic'] = 0x03E8;
t['Hsmall'] = 0xF768;
t['Hungarumlaut'] = 0xF6CF;
t['Hungarumlautsmall'] = 0xF6F8;
t['Hzsquare'] = 0x3390;
t['I'] = 0x0049;
t['IAcyrillic'] = 0x042F;
t['IJ'] = 0x0132;
t['IUcyrillic'] = 0x042E;
t['Iacute'] = 0x00CD;
t['Iacutesmall'] = 0xF7ED;
t['Ibreve'] = 0x012C;
t['Icaron'] = 0x01CF;
t['Icircle'] = 0x24BE;
t['Icircumflex'] = 0x00CE;
t['Icircumflexsmall'] = 0xF7EE;
t['Icyrillic'] = 0x0406;
t['Idblgrave'] = 0x0208;
t['Idieresis'] = 0x00CF;
t['Idieresisacute'] = 0x1E2E;
t['Idieresiscyrillic'] = 0x04E4;
t['Idieresissmall'] = 0xF7EF;
t['Idot'] = 0x0130;
t['Idotaccent'] = 0x0130;
t['Idotbelow'] = 0x1ECA;
t['Iebrevecyrillic'] = 0x04D6;
t['Iecyrillic'] = 0x0415;
t['Ifraktur'] = 0x2111;
t['Igrave'] = 0x00CC;
t['Igravesmall'] = 0xF7EC;
t['Ihookabove'] = 0x1EC8;
t['Iicyrillic'] = 0x0418;
t['Iinvertedbreve'] = 0x020A;
t['Iishortcyrillic'] = 0x0419;
t['Imacron'] = 0x012A;
t['Imacroncyrillic'] = 0x04E2;
t['Imonospace'] = 0xFF29;
t['Iniarmenian'] = 0x053B;
t['Iocyrillic'] = 0x0401;
t['Iogonek'] = 0x012E;
t['Iota'] = 0x0399;
t['Iotaafrican'] = 0x0196;
t['Iotadieresis'] = 0x03AA;
t['Iotatonos'] = 0x038A;
t['Ismall'] = 0xF769;
t['Istroke'] = 0x0197;
t['Itilde'] = 0x0128;
t['Itildebelow'] = 0x1E2C;
t['Izhitsacyrillic'] = 0x0474;
t['Izhitsadblgravecyrillic'] = 0x0476;
t['J'] = 0x004A;
t['Jaarmenian'] = 0x0541;
t['Jcircle'] = 0x24BF;
t['Jcircumflex'] = 0x0134;
t['Jecyrillic'] = 0x0408;
t['Jheharmenian'] = 0x054B;
t['Jmonospace'] = 0xFF2A;
t['Jsmall'] = 0xF76A;
t['K'] = 0x004B;
t['KBsquare'] = 0x3385;
t['KKsquare'] = 0x33CD;
t['Kabashkircyrillic'] = 0x04A0;
t['Kacute'] = 0x1E30;
t['Kacyrillic'] = 0x041A;
t['Kadescendercyrillic'] = 0x049A;
t['Kahookcyrillic'] = 0x04C3;
t['Kappa'] = 0x039A;
t['Kastrokecyrillic'] = 0x049E;
t['Kaverticalstrokecyrillic'] = 0x049C;
t['Kcaron'] = 0x01E8;
t['Kcedilla'] = 0x0136;
t['Kcircle'] = 0x24C0;
t['Kcommaaccent'] = 0x0136;
t['Kdotbelow'] = 0x1E32;
t['Keharmenian'] = 0x0554;
t['Kenarmenian'] = 0x053F;
t['Khacyrillic'] = 0x0425;
t['Kheicoptic'] = 0x03E6;
t['Khook'] = 0x0198;
t['Kjecyrillic'] = 0x040C;
t['Klinebelow'] = 0x1E34;
t['Kmonospace'] = 0xFF2B;
t['Koppacyrillic'] = 0x0480;
t['Koppagreek'] = 0x03DE;
t['Ksicyrillic'] = 0x046E;
t['Ksmall'] = 0xF76B;
t['L'] = 0x004C;
t['LJ'] = 0x01C7;
t['LL'] = 0xF6BF;
t['Lacute'] = 0x0139;
t['Lambda'] = 0x039B;
t['Lcaron'] = 0x013D;
t['Lcedilla'] = 0x013B;
t['Lcircle'] = 0x24C1;
t['Lcircumflexbelow'] = 0x1E3C;
t['Lcommaaccent'] = 0x013B;
t['Ldot'] = 0x013F;
t['Ldotaccent'] = 0x013F;
t['Ldotbelow'] = 0x1E36;
t['Ldotbelowmacron'] = 0x1E38;
t['Liwnarmenian'] = 0x053C;
t['Lj'] = 0x01C8;
t['Ljecyrillic'] = 0x0409;
t['Llinebelow'] = 0x1E3A;
t['Lmonospace'] = 0xFF2C;
t['Lslash'] = 0x0141;
t['Lslashsmall'] = 0xF6F9;
t['Lsmall'] = 0xF76C;
t['M'] = 0x004D;
t['MBsquare'] = 0x3386;
t['Macron'] = 0xF6D0;
t['Macronsmall'] = 0xF7AF;
t['Macute'] = 0x1E3E;
t['Mcircle'] = 0x24C2;
t['Mdotaccent'] = 0x1E40;
t['Mdotbelow'] = 0x1E42;
t['Menarmenian'] = 0x0544;
t['Mmonospace'] = 0xFF2D;
t['Msmall'] = 0xF76D;
t['Mturned'] = 0x019C;
t['Mu'] = 0x039C;
t['N'] = 0x004E;
t['NJ'] = 0x01CA;
t['Nacute'] = 0x0143;
t['Ncaron'] = 0x0147;
t['Ncedilla'] = 0x0145;
t['Ncircle'] = 0x24C3;
t['Ncircumflexbelow'] = 0x1E4A;
t['Ncommaaccent'] = 0x0145;
t['Ndotaccent'] = 0x1E44;
t['Ndotbelow'] = 0x1E46;
t['Nhookleft'] = 0x019D;
t['Nineroman'] = 0x2168;
t['Nj'] = 0x01CB;
t['Njecyrillic'] = 0x040A;
t['Nlinebelow'] = 0x1E48;
t['Nmonospace'] = 0xFF2E;
t['Nowarmenian'] = 0x0546;
t['Nsmall'] = 0xF76E;
t['Ntilde'] = 0x00D1;
t['Ntildesmall'] = 0xF7F1;
t['Nu'] = 0x039D;
t['O'] = 0x004F;
t['OE'] = 0x0152;
t['OEsmall'] = 0xF6FA;
t['Oacute'] = 0x00D3;
t['Oacutesmall'] = 0xF7F3;
t['Obarredcyrillic'] = 0x04E8;
t['Obarreddieresiscyrillic'] = 0x04EA;
t['Obreve'] = 0x014E;
t['Ocaron'] = 0x01D1;
t['Ocenteredtilde'] = 0x019F;
t['Ocircle'] = 0x24C4;
t['Ocircumflex'] = 0x00D4;
t['Ocircumflexacute'] = 0x1ED0;
t['Ocircumflexdotbelow'] = 0x1ED8;
t['Ocircumflexgrave'] = 0x1ED2;
t['Ocircumflexhookabove'] = 0x1ED4;
t['Ocircumflexsmall'] = 0xF7F4;
t['Ocircumflextilde'] = 0x1ED6;
t['Ocyrillic'] = 0x041E;
t['Odblacute'] = 0x0150;
t['Odblgrave'] = 0x020C;
t['Odieresis'] = 0x00D6;
t['Odieresiscyrillic'] = 0x04E6;
t['Odieresissmall'] = 0xF7F6;
t['Odotbelow'] = 0x1ECC;
t['Ogoneksmall'] = 0xF6FB;
t['Ograve'] = 0x00D2;
t['Ogravesmall'] = 0xF7F2;
t['Oharmenian'] = 0x0555;
t['Ohm'] = 0x2126;
t['Ohookabove'] = 0x1ECE;
t['Ohorn'] = 0x01A0;
t['Ohornacute'] = 0x1EDA;
t['Ohorndotbelow'] = 0x1EE2;
t['Ohorngrave'] = 0x1EDC;
t['Ohornhookabove'] = 0x1EDE;
t['Ohorntilde'] = 0x1EE0;
t['Ohungarumlaut'] = 0x0150;
t['Oi'] = 0x01A2;
t['Oinvertedbreve'] = 0x020E;
t['Omacron'] = 0x014C;
t['Omacronacute'] = 0x1E52;
t['Omacrongrave'] = 0x1E50;
t['Omega'] = 0x2126;
t['Omegacyrillic'] = 0x0460;
t['Omegagreek'] = 0x03A9;
t['Omegaroundcyrillic'] = 0x047A;
t['Omegatitlocyrillic'] = 0x047C;
t['Omegatonos'] = 0x038F;
t['Omicron'] = 0x039F;
t['Omicrontonos'] = 0x038C;
t['Omonospace'] = 0xFF2F;
t['Oneroman'] = 0x2160;
t['Oogonek'] = 0x01EA;
t['Oogonekmacron'] = 0x01EC;
t['Oopen'] = 0x0186;
t['Oslash'] = 0x00D8;
t['Oslashacute'] = 0x01FE;
t['Oslashsmall'] = 0xF7F8;
t['Osmall'] = 0xF76F;
t['Ostrokeacute'] = 0x01FE;
t['Otcyrillic'] = 0x047E;
t['Otilde'] = 0x00D5;
t['Otildeacute'] = 0x1E4C;
t['Otildedieresis'] = 0x1E4E;
t['Otildesmall'] = 0xF7F5;
t['P'] = 0x0050;
t['Pacute'] = 0x1E54;
t['Pcircle'] = 0x24C5;
t['Pdotaccent'] = 0x1E56;
t['Pecyrillic'] = 0x041F;
t['Peharmenian'] = 0x054A;
t['Pemiddlehookcyrillic'] = 0x04A6;
t['Phi'] = 0x03A6;
t['Phook'] = 0x01A4;
t['Pi'] = 0x03A0;
t['Piwrarmenian'] = 0x0553;
t['Pmonospace'] = 0xFF30;
t['Psi'] = 0x03A8;
t['Psicyrillic'] = 0x0470;
t['Psmall'] = 0xF770;
t['Q'] = 0x0051;
t['Qcircle'] = 0x24C6;
t['Qmonospace'] = 0xFF31;
t['Qsmall'] = 0xF771;
t['R'] = 0x0052;
t['Raarmenian'] = 0x054C;
t['Racute'] = 0x0154;
t['Rcaron'] = 0x0158;
t['Rcedilla'] = 0x0156;
t['Rcircle'] = 0x24C7;
t['Rcommaaccent'] = 0x0156;
t['Rdblgrave'] = 0x0210;
t['Rdotaccent'] = 0x1E58;
t['Rdotbelow'] = 0x1E5A;
t['Rdotbelowmacron'] = 0x1E5C;
t['Reharmenian'] = 0x0550;
t['Rfraktur'] = 0x211C;
t['Rho'] = 0x03A1;
t['Ringsmall'] = 0xF6FC;
t['Rinvertedbreve'] = 0x0212;
t['Rlinebelow'] = 0x1E5E;
t['Rmonospace'] = 0xFF32;
t['Rsmall'] = 0xF772;
t['Rsmallinverted'] = 0x0281;
t['Rsmallinvertedsuperior'] = 0x02B6;
t['S'] = 0x0053;
t['SF010000'] = 0x250C;
t['SF020000'] = 0x2514;
t['SF030000'] = 0x2510;
t['SF040000'] = 0x2518;
t['SF050000'] = 0x253C;
t['SF060000'] = 0x252C;
t['SF070000'] = 0x2534;
t['SF080000'] = 0x251C;
t['SF090000'] = 0x2524;
t['SF100000'] = 0x2500;
t['SF110000'] = 0x2502;
t['SF190000'] = 0x2561;
t['SF200000'] = 0x2562;
t['SF210000'] = 0x2556;
t['SF220000'] = 0x2555;
t['SF230000'] = 0x2563;
t['SF240000'] = 0x2551;
t['SF250000'] = 0x2557;
t['SF260000'] = 0x255D;
t['SF270000'] = 0x255C;
t['SF280000'] = 0x255B;
t['SF360000'] = 0x255E;
t['SF370000'] = 0x255F;
t['SF380000'] = 0x255A;
t['SF390000'] = 0x2554;
t['SF400000'] = 0x2569;
t['SF410000'] = 0x2566;
t['SF420000'] = 0x2560;
t['SF430000'] = 0x2550;
t['SF440000'] = 0x256C;
t['SF450000'] = 0x2567;
t['SF460000'] = 0x2568;
t['SF470000'] = 0x2564;
t['SF480000'] = 0x2565;
t['SF490000'] = 0x2559;
t['SF500000'] = 0x2558;
t['SF510000'] = 0x2552;
t['SF520000'] = 0x2553;
t['SF530000'] = 0x256B;
t['SF540000'] = 0x256A;
t['Sacute'] = 0x015A;
t['Sacutedotaccent'] = 0x1E64;
t['Sampigreek'] = 0x03E0;
t['Scaron'] = 0x0160;
t['Scarondotaccent'] = 0x1E66;
t['Scaronsmall'] = 0xF6FD;
t['Scedilla'] = 0x015E;
t['Schwa'] = 0x018F;
t['Schwacyrillic'] = 0x04D8;
t['Schwadieresiscyrillic'] = 0x04DA;
t['Scircle'] = 0x24C8;
t['Scircumflex'] = 0x015C;
t['Scommaaccent'] = 0x0218;
t['Sdotaccent'] = 0x1E60;
t['Sdotbelow'] = 0x1E62;
t['Sdotbelowdotaccent'] = 0x1E68;
t['Seharmenian'] = 0x054D;
t['Sevenroman'] = 0x2166;
t['Shaarmenian'] = 0x0547;
t['Shacyrillic'] = 0x0428;
t['Shchacyrillic'] = 0x0429;
t['Sheicoptic'] = 0x03E2;
t['Shhacyrillic'] = 0x04BA;
t['Shimacoptic'] = 0x03EC;
t['Sigma'] = 0x03A3;
t['Sixroman'] = 0x2165;
t['Smonospace'] = 0xFF33;
t['Softsigncyrillic'] = 0x042C;
t['Ssmall'] = 0xF773;
t['Stigmagreek'] = 0x03DA;
t['T'] = 0x0054;
t['Tau'] = 0x03A4;
t['Tbar'] = 0x0166;
t['Tcaron'] = 0x0164;
t['Tcedilla'] = 0x0162;
t['Tcircle'] = 0x24C9;
t['Tcircumflexbelow'] = 0x1E70;
t['Tcommaaccent'] = 0x0162;
t['Tdotaccent'] = 0x1E6A;
t['Tdotbelow'] = 0x1E6C;
t['Tecyrillic'] = 0x0422;
t['Tedescendercyrillic'] = 0x04AC;
t['Tenroman'] = 0x2169;
t['Tetsecyrillic'] = 0x04B4;
t['Theta'] = 0x0398;
t['Thook'] = 0x01AC;
t['Thorn'] = 0x00DE;
t['Thornsmall'] = 0xF7FE;
t['Threeroman'] = 0x2162;
t['Tildesmall'] = 0xF6FE;
t['Tiwnarmenian'] = 0x054F;
t['Tlinebelow'] = 0x1E6E;
t['Tmonospace'] = 0xFF34;
t['Toarmenian'] = 0x0539;
t['Tonefive'] = 0x01BC;
t['Tonesix'] = 0x0184;
t['Tonetwo'] = 0x01A7;
t['Tretroflexhook'] = 0x01AE;
t['Tsecyrillic'] = 0x0426;
t['Tshecyrillic'] = 0x040B;
t['Tsmall'] = 0xF774;
t['Twelveroman'] = 0x216B;
t['Tworoman'] = 0x2161;
t['U'] = 0x0055;
t['Uacute'] = 0x00DA;
t['Uacutesmall'] = 0xF7FA;
t['Ubreve'] = 0x016C;
t['Ucaron'] = 0x01D3;
t['Ucircle'] = 0x24CA;
t['Ucircumflex'] = 0x00DB;
t['Ucircumflexbelow'] = 0x1E76;
t['Ucircumflexsmall'] = 0xF7FB;
t['Ucyrillic'] = 0x0423;
t['Udblacute'] = 0x0170;
t['Udblgrave'] = 0x0214;
t['Udieresis'] = 0x00DC;
t['Udieresisacute'] = 0x01D7;
t['Udieresisbelow'] = 0x1E72;
t['Udieresiscaron'] = 0x01D9;
t['Udieresiscyrillic'] = 0x04F0;
t['Udieresisgrave'] = 0x01DB;
t['Udieresismacron'] = 0x01D5;
t['Udieresissmall'] = 0xF7FC;
t['Udotbelow'] = 0x1EE4;
t['Ugrave'] = 0x00D9;
t['Ugravesmall'] = 0xF7F9;
t['Uhookabove'] = 0x1EE6;
t['Uhorn'] = 0x01AF;
t['Uhornacute'] = 0x1EE8;
t['Uhorndotbelow'] = 0x1EF0;
t['Uhorngrave'] = 0x1EEA;
t['Uhornhookabove'] = 0x1EEC;
t['Uhorntilde'] = 0x1EEE;
t['Uhungarumlaut'] = 0x0170;
t['Uhungarumlautcyrillic'] = 0x04F2;
t['Uinvertedbreve'] = 0x0216;
t['Ukcyrillic'] = 0x0478;
t['Umacron'] = 0x016A;
t['Umacroncyrillic'] = 0x04EE;
t['Umacrondieresis'] = 0x1E7A;
t['Umonospace'] = 0xFF35;
t['Uogonek'] = 0x0172;
t['Upsilon'] = 0x03A5;
t['Upsilon1'] = 0x03D2;
t['Upsilonacutehooksymbolgreek'] = 0x03D3;
t['Upsilonafrican'] = 0x01B1;
t['Upsilondieresis'] = 0x03AB;
t['Upsilondieresishooksymbolgreek'] = 0x03D4;
t['Upsilonhooksymbol'] = 0x03D2;
t['Upsilontonos'] = 0x038E;
t['Uring'] = 0x016E;
t['Ushortcyrillic'] = 0x040E;
t['Usmall'] = 0xF775;
t['Ustraightcyrillic'] = 0x04AE;
t['Ustraightstrokecyrillic'] = 0x04B0;
t['Utilde'] = 0x0168;
t['Utildeacute'] = 0x1E78;
t['Utildebelow'] = 0x1E74;
t['V'] = 0x0056;
t['Vcircle'] = 0x24CB;
t['Vdotbelow'] = 0x1E7E;
t['Vecyrillic'] = 0x0412;
t['Vewarmenian'] = 0x054E;
t['Vhook'] = 0x01B2;
t['Vmonospace'] = 0xFF36;
t['Voarmenian'] = 0x0548;
t['Vsmall'] = 0xF776;
t['Vtilde'] = 0x1E7C;
t['W'] = 0x0057;
t['Wacute'] = 0x1E82;
t['Wcircle'] = 0x24CC;
t['Wcircumflex'] = 0x0174;
t['Wdieresis'] = 0x1E84;
t['Wdotaccent'] = 0x1E86;
t['Wdotbelow'] = 0x1E88;
t['Wgrave'] = 0x1E80;
t['Wmonospace'] = 0xFF37;
t['Wsmall'] = 0xF777;
t['X'] = 0x0058;
t['Xcircle'] = 0x24CD;
t['Xdieresis'] = 0x1E8C;
t['Xdotaccent'] = 0x1E8A;
t['Xeharmenian'] = 0x053D;
t['Xi'] = 0x039E;
t['Xmonospace'] = 0xFF38;
t['Xsmall'] = 0xF778;
t['Y'] = 0x0059;
t['Yacute'] = 0x00DD;
t['Yacutesmall'] = 0xF7FD;
t['Yatcyrillic'] = 0x0462;
t['Ycircle'] = 0x24CE;
t['Ycircumflex'] = 0x0176;
t['Ydieresis'] = 0x0178;
t['Ydieresissmall'] = 0xF7FF;
t['Ydotaccent'] = 0x1E8E;
t['Ydotbelow'] = 0x1EF4;
t['Yericyrillic'] = 0x042B;
t['Yerudieresiscyrillic'] = 0x04F8;
t['Ygrave'] = 0x1EF2;
t['Yhook'] = 0x01B3;
t['Yhookabove'] = 0x1EF6;
t['Yiarmenian'] = 0x0545;
t['Yicyrillic'] = 0x0407;
t['Yiwnarmenian'] = 0x0552;
t['Ymonospace'] = 0xFF39;
t['Ysmall'] = 0xF779;
t['Ytilde'] = 0x1EF8;
t['Yusbigcyrillic'] = 0x046A;
t['Yusbigiotifiedcyrillic'] = 0x046C;
t['Yuslittlecyrillic'] = 0x0466;
t['Yuslittleiotifiedcyrillic'] = 0x0468;
t['Z'] = 0x005A;
t['Zaarmenian'] = 0x0536;
t['Zacute'] = 0x0179;
t['Zcaron'] = 0x017D;
t['Zcaronsmall'] = 0xF6FF;
t['Zcircle'] = 0x24CF;
t['Zcircumflex'] = 0x1E90;
t['Zdot'] = 0x017B;
t['Zdotaccent'] = 0x017B;
t['Zdotbelow'] = 0x1E92;
t['Zecyrillic'] = 0x0417;
t['Zedescendercyrillic'] = 0x0498;
t['Zedieresiscyrillic'] = 0x04DE;
t['Zeta'] = 0x0396;
t['Zhearmenian'] = 0x053A;
t['Zhebrevecyrillic'] = 0x04C1;
t['Zhecyrillic'] = 0x0416;
t['Zhedescendercyrillic'] = 0x0496;
t['Zhedieresiscyrillic'] = 0x04DC;
t['Zlinebelow'] = 0x1E94;
t['Zmonospace'] = 0xFF3A;
t['Zsmall'] = 0xF77A;
t['Zstroke'] = 0x01B5;
t['a'] = 0x0061;
t['aabengali'] = 0x0986;
t['aacute'] = 0x00E1;
t['aadeva'] = 0x0906;
t['aagujarati'] = 0x0A86;
t['aagurmukhi'] = 0x0A06;
t['aamatragurmukhi'] = 0x0A3E;
t['aarusquare'] = 0x3303;
t['aavowelsignbengali'] = 0x09BE;
t['aavowelsigndeva'] = 0x093E;
t['aavowelsigngujarati'] = 0x0ABE;
t['abbreviationmarkarmenian'] = 0x055F;
t['abbreviationsigndeva'] = 0x0970;
t['abengali'] = 0x0985;
t['abopomofo'] = 0x311A;
t['abreve'] = 0x0103;
t['abreveacute'] = 0x1EAF;
t['abrevecyrillic'] = 0x04D1;
t['abrevedotbelow'] = 0x1EB7;
t['abrevegrave'] = 0x1EB1;
t['abrevehookabove'] = 0x1EB3;
t['abrevetilde'] = 0x1EB5;
t['acaron'] = 0x01CE;
t['acircle'] = 0x24D0;
t['acircumflex'] = 0x00E2;
t['acircumflexacute'] = 0x1EA5;
t['acircumflexdotbelow'] = 0x1EAD;
t['acircumflexgrave'] = 0x1EA7;
t['acircumflexhookabove'] = 0x1EA9;
t['acircumflextilde'] = 0x1EAB;
t['acute'] = 0x00B4;
t['acutebelowcmb'] = 0x0317;
t['acutecmb'] = 0x0301;
t['acutecomb'] = 0x0301;
t['acutedeva'] = 0x0954;
t['acutelowmod'] = 0x02CF;
t['acutetonecmb'] = 0x0341;
t['acyrillic'] = 0x0430;
t['adblgrave'] = 0x0201;
t['addakgurmukhi'] = 0x0A71;
t['adeva'] = 0x0905;
t['adieresis'] = 0x00E4;
t['adieresiscyrillic'] = 0x04D3;
t['adieresismacron'] = 0x01DF;
t['adotbelow'] = 0x1EA1;
t['adotmacron'] = 0x01E1;
t['ae'] = 0x00E6;
t['aeacute'] = 0x01FD;
t['aekorean'] = 0x3150;
t['aemacron'] = 0x01E3;
t['afii00208'] = 0x2015;
t['afii08941'] = 0x20A4;
t['afii10017'] = 0x0410;
t['afii10018'] = 0x0411;
t['afii10019'] = 0x0412;
t['afii10020'] = 0x0413;
t['afii10021'] = 0x0414;
t['afii10022'] = 0x0415;
t['afii10023'] = 0x0401;
t['afii10024'] = 0x0416;
t['afii10025'] = 0x0417;
t['afii10026'] = 0x0418;
t['afii10027'] = 0x0419;
t['afii10028'] = 0x041A;
t['afii10029'] = 0x041B;
t['afii10030'] = 0x041C;
t['afii10031'] = 0x041D;
t['afii10032'] = 0x041E;
t['afii10033'] = 0x041F;
t['afii10034'] = 0x0420;
t['afii10035'] = 0x0421;
t['afii10036'] = 0x0422;
t['afii10037'] = 0x0423;
t['afii10038'] = 0x0424;
t['afii10039'] = 0x0425;
t['afii10040'] = 0x0426;
t['afii10041'] = 0x0427;
t['afii10042'] = 0x0428;
t['afii10043'] = 0x0429;
t['afii10044'] = 0x042A;
t['afii10045'] = 0x042B;
t['afii10046'] = 0x042C;
t['afii10047'] = 0x042D;
t['afii10048'] = 0x042E;
t['afii10049'] = 0x042F;
t['afii10050'] = 0x0490;
t['afii10051'] = 0x0402;
t['afii10052'] = 0x0403;
t['afii10053'] = 0x0404;
t['afii10054'] = 0x0405;
t['afii10055'] = 0x0406;
t['afii10056'] = 0x0407;
t['afii10057'] = 0x0408;
t['afii10058'] = 0x0409;
t['afii10059'] = 0x040A;
t['afii10060'] = 0x040B;
t['afii10061'] = 0x040C;
t['afii10062'] = 0x040E;
t['afii10063'] = 0xF6C4;
t['afii10064'] = 0xF6C5;
t['afii10065'] = 0x0430;
t['afii10066'] = 0x0431;
t['afii10067'] = 0x0432;
t['afii10068'] = 0x0433;
t['afii10069'] = 0x0434;
t['afii10070'] = 0x0435;
t['afii10071'] = 0x0451;
t['afii10072'] = 0x0436;
t['afii10073'] = 0x0437;
t['afii10074'] = 0x0438;
t['afii10075'] = 0x0439;
t['afii10076'] = 0x043A;
t['afii10077'] = 0x043B;
t['afii10078'] = 0x043C;
t['afii10079'] = 0x043D;
t['afii10080'] = 0x043E;
t['afii10081'] = 0x043F;
t['afii10082'] = 0x0440;
t['afii10083'] = 0x0441;
t['afii10084'] = 0x0442;
t['afii10085'] = 0x0443;
t['afii10086'] = 0x0444;
t['afii10087'] = 0x0445;
t['afii10088'] = 0x0446;
t['afii10089'] = 0x0447;
t['afii10090'] = 0x0448;
t['afii10091'] = 0x0449;
t['afii10092'] = 0x044A;
t['afii10093'] = 0x044B;
t['afii10094'] = 0x044C;
t['afii10095'] = 0x044D;
t['afii10096'] = 0x044E;
t['afii10097'] = 0x044F;
t['afii10098'] = 0x0491;
t['afii10099'] = 0x0452;
t['afii10100'] = 0x0453;
t['afii10101'] = 0x0454;
t['afii10102'] = 0x0455;
t['afii10103'] = 0x0456;
t['afii10104'] = 0x0457;
t['afii10105'] = 0x0458;
t['afii10106'] = 0x0459;
t['afii10107'] = 0x045A;
t['afii10108'] = 0x045B;
t['afii10109'] = 0x045C;
t['afii10110'] = 0x045E;
t['afii10145'] = 0x040F;
t['afii10146'] = 0x0462;
t['afii10147'] = 0x0472;
t['afii10148'] = 0x0474;
t['afii10192'] = 0xF6C6;
t['afii10193'] = 0x045F;
t['afii10194'] = 0x0463;
t['afii10195'] = 0x0473;
t['afii10196'] = 0x0475;
t['afii10831'] = 0xF6C7;
t['afii10832'] = 0xF6C8;
t['afii10846'] = 0x04D9;
t['afii299'] = 0x200E;
t['afii300'] = 0x200F;
t['afii301'] = 0x200D;
t['afii57381'] = 0x066A;
t['afii57388'] = 0x060C;
t['afii57392'] = 0x0660;
t['afii57393'] = 0x0661;
t['afii57394'] = 0x0662;
t['afii57395'] = 0x0663;
t['afii57396'] = 0x0664;
t['afii57397'] = 0x0665;
t['afii57398'] = 0x0666;
t['afii57399'] = 0x0667;
t['afii57400'] = 0x0668;
t['afii57401'] = 0x0669;
t['afii57403'] = 0x061B;
t['afii57407'] = 0x061F;
t['afii57409'] = 0x0621;
t['afii57410'] = 0x0622;
t['afii57411'] = 0x0623;
t['afii57412'] = 0x0624;
t['afii57413'] = 0x0625;
t['afii57414'] = 0x0626;
t['afii57415'] = 0x0627;
t['afii57416'] = 0x0628;
t['afii57417'] = 0x0629;
t['afii57418'] = 0x062A;
t['afii57419'] = 0x062B;
t['afii57420'] = 0x062C;
t['afii57421'] = 0x062D;
t['afii57422'] = 0x062E;
t['afii57423'] = 0x062F;
t['afii57424'] = 0x0630;
t['afii57425'] = 0x0631;
t['afii57426'] = 0x0632;
t['afii57427'] = 0x0633;
t['afii57428'] = 0x0634;
t['afii57429'] = 0x0635;
t['afii57430'] = 0x0636;
t['afii57431'] = 0x0637;
t['afii57432'] = 0x0638;
t['afii57433'] = 0x0639;
t['afii57434'] = 0x063A;
t['afii57440'] = 0x0640;
t['afii57441'] = 0x0641;
t['afii57442'] = 0x0642;
t['afii57443'] = 0x0643;
t['afii57444'] = 0x0644;
t['afii57445'] = 0x0645;
t['afii57446'] = 0x0646;
t['afii57448'] = 0x0648;
t['afii57449'] = 0x0649;
t['afii57450'] = 0x064A;
t['afii57451'] = 0x064B;
t['afii57452'] = 0x064C;
t['afii57453'] = 0x064D;
t['afii57454'] = 0x064E;
t['afii57455'] = 0x064F;
t['afii57456'] = 0x0650;
t['afii57457'] = 0x0651;
t['afii57458'] = 0x0652;
t['afii57470'] = 0x0647;
t['afii57505'] = 0x06A4;
t['afii57506'] = 0x067E;
t['afii57507'] = 0x0686;
t['afii57508'] = 0x0698;
t['afii57509'] = 0x06AF;
t['afii57511'] = 0x0679;
t['afii57512'] = 0x0688;
t['afii57513'] = 0x0691;
t['afii57514'] = 0x06BA;
t['afii57519'] = 0x06D2;
t['afii57534'] = 0x06D5;
t['afii57636'] = 0x20AA;
t['afii57645'] = 0x05BE;
t['afii57658'] = 0x05C3;
t['afii57664'] = 0x05D0;
t['afii57665'] = 0x05D1;
t['afii57666'] = 0x05D2;
t['afii57667'] = 0x05D3;
t['afii57668'] = 0x05D4;
t['afii57669'] = 0x05D5;
t['afii57670'] = 0x05D6;
t['afii57671'] = 0x05D7;
t['afii57672'] = 0x05D8;
t['afii57673'] = 0x05D9;
t['afii57674'] = 0x05DA;
t['afii57675'] = 0x05DB;
t['afii57676'] = 0x05DC;
t['afii57677'] = 0x05DD;
t['afii57678'] = 0x05DE;
t['afii57679'] = 0x05DF;
t['afii57680'] = 0x05E0;
t['afii57681'] = 0x05E1;
t['afii57682'] = 0x05E2;
t['afii57683'] = 0x05E3;
t['afii57684'] = 0x05E4;
t['afii57685'] = 0x05E5;
t['afii57686'] = 0x05E6;
t['afii57687'] = 0x05E7;
t['afii57688'] = 0x05E8;
t['afii57689'] = 0x05E9;
t['afii57690'] = 0x05EA;
t['afii57694'] = 0xFB2A;
t['afii57695'] = 0xFB2B;
t['afii57700'] = 0xFB4B;
t['afii57705'] = 0xFB1F;
t['afii57716'] = 0x05F0;
t['afii57717'] = 0x05F1;
t['afii57718'] = 0x05F2;
t['afii57723'] = 0xFB35;
t['afii57793'] = 0x05B4;
t['afii57794'] = 0x05B5;
t['afii57795'] = 0x05B6;
t['afii57796'] = 0x05BB;
t['afii57797'] = 0x05B8;
t['afii57798'] = 0x05B7;
t['afii57799'] = 0x05B0;
t['afii57800'] = 0x05B2;
t['afii57801'] = 0x05B1;
t['afii57802'] = 0x05B3;
t['afii57803'] = 0x05C2;
t['afii57804'] = 0x05C1;
t['afii57806'] = 0x05B9;
t['afii57807'] = 0x05BC;
t['afii57839'] = 0x05BD;
t['afii57841'] = 0x05BF;
t['afii57842'] = 0x05C0;
t['afii57929'] = 0x02BC;
t['afii61248'] = 0x2105;
t['afii61289'] = 0x2113;
t['afii61352'] = 0x2116;
t['afii61573'] = 0x202C;
t['afii61574'] = 0x202D;
t['afii61575'] = 0x202E;
t['afii61664'] = 0x200C;
t['afii63167'] = 0x066D;
t['afii64937'] = 0x02BD;
t['agrave'] = 0x00E0;
t['agujarati'] = 0x0A85;
t['agurmukhi'] = 0x0A05;
t['ahiragana'] = 0x3042;
t['ahookabove'] = 0x1EA3;
t['aibengali'] = 0x0990;
t['aibopomofo'] = 0x311E;
t['aideva'] = 0x0910;
t['aiecyrillic'] = 0x04D5;
t['aigujarati'] = 0x0A90;
t['aigurmukhi'] = 0x0A10;
t['aimatragurmukhi'] = 0x0A48;
t['ainarabic'] = 0x0639;
t['ainfinalarabic'] = 0xFECA;
t['aininitialarabic'] = 0xFECB;
t['ainmedialarabic'] = 0xFECC;
t['ainvertedbreve'] = 0x0203;
t['aivowelsignbengali'] = 0x09C8;
t['aivowelsigndeva'] = 0x0948;
t['aivowelsigngujarati'] = 0x0AC8;
t['akatakana'] = 0x30A2;
t['akatakanahalfwidth'] = 0xFF71;
t['akorean'] = 0x314F;
t['alef'] = 0x05D0;
t['alefarabic'] = 0x0627;
t['alefdageshhebrew'] = 0xFB30;
t['aleffinalarabic'] = 0xFE8E;
t['alefhamzaabovearabic'] = 0x0623;
t['alefhamzaabovefinalarabic'] = 0xFE84;
t['alefhamzabelowarabic'] = 0x0625;
t['alefhamzabelowfinalarabic'] = 0xFE88;
t['alefhebrew'] = 0x05D0;
t['aleflamedhebrew'] = 0xFB4F;
t['alefmaddaabovearabic'] = 0x0622;
t['alefmaddaabovefinalarabic'] = 0xFE82;
t['alefmaksuraarabic'] = 0x0649;
t['alefmaksurafinalarabic'] = 0xFEF0;
t['alefmaksurainitialarabic'] = 0xFEF3;
t['alefmaksuramedialarabic'] = 0xFEF4;
t['alefpatahhebrew'] = 0xFB2E;
t['alefqamatshebrew'] = 0xFB2F;
t['aleph'] = 0x2135;
t['allequal'] = 0x224C;
t['alpha'] = 0x03B1;
t['alphatonos'] = 0x03AC;
t['amacron'] = 0x0101;
t['amonospace'] = 0xFF41;
t['ampersand'] = 0x0026;
t['ampersandmonospace'] = 0xFF06;
t['ampersandsmall'] = 0xF726;
t['amsquare'] = 0x33C2;
t['anbopomofo'] = 0x3122;
t['angbopomofo'] = 0x3124;
t['angbracketleft'] = 0x3008; // Glyph is missing from Adobe's original list.
t['angbracketright'] = 0x3009; // Glyph is missing from Adobe's original list.
t['angkhankhuthai'] = 0x0E5A;
t['angle'] = 0x2220;
t['anglebracketleft'] = 0x3008;
t['anglebracketleftvertical'] = 0xFE3F;
t['anglebracketright'] = 0x3009;
t['anglebracketrightvertical'] = 0xFE40;
t['angleleft'] = 0x2329;
t['angleright'] = 0x232A;
t['angstrom'] = 0x212B;
t['anoteleia'] = 0x0387;
t['anudattadeva'] = 0x0952;
t['anusvarabengali'] = 0x0982;
t['anusvaradeva'] = 0x0902;
t['anusvaragujarati'] = 0x0A82;
t['aogonek'] = 0x0105;
t['apaatosquare'] = 0x3300;
t['aparen'] = 0x249C;
t['apostrophearmenian'] = 0x055A;
t['apostrophemod'] = 0x02BC;
t['apple'] = 0xF8FF;
t['approaches'] = 0x2250;
t['approxequal'] = 0x2248;
t['approxequalorimage'] = 0x2252;
t['approximatelyequal'] = 0x2245;
t['araeaekorean'] = 0x318E;
t['araeakorean'] = 0x318D;
t['arc'] = 0x2312;
t['arighthalfring'] = 0x1E9A;
t['aring'] = 0x00E5;
t['aringacute'] = 0x01FB;
t['aringbelow'] = 0x1E01;
t['arrowboth'] = 0x2194;
t['arrowdashdown'] = 0x21E3;
t['arrowdashleft'] = 0x21E0;
t['arrowdashright'] = 0x21E2;
t['arrowdashup'] = 0x21E1;
t['arrowdblboth'] = 0x21D4;
t['arrowdbldown'] = 0x21D3;
t['arrowdblleft'] = 0x21D0;
t['arrowdblright'] = 0x21D2;
t['arrowdblup'] = 0x21D1;
t['arrowdown'] = 0x2193;
t['arrowdownleft'] = 0x2199;
t['arrowdownright'] = 0x2198;
t['arrowdownwhite'] = 0x21E9;
t['arrowheaddownmod'] = 0x02C5;
t['arrowheadleftmod'] = 0x02C2;
t['arrowheadrightmod'] = 0x02C3;
t['arrowheadupmod'] = 0x02C4;
t['arrowhorizex'] = 0xF8E7;
t['arrowleft'] = 0x2190;
t['arrowleftdbl'] = 0x21D0;
t['arrowleftdblstroke'] = 0x21CD;
t['arrowleftoverright'] = 0x21C6;
t['arrowleftwhite'] = 0x21E6;
t['arrowright'] = 0x2192;
t['arrowrightdblstroke'] = 0x21CF;
t['arrowrightheavy'] = 0x279E;
t['arrowrightoverleft'] = 0x21C4;
t['arrowrightwhite'] = 0x21E8;
t['arrowtableft'] = 0x21E4;
t['arrowtabright'] = 0x21E5;
t['arrowup'] = 0x2191;
t['arrowupdn'] = 0x2195;
t['arrowupdnbse'] = 0x21A8;
t['arrowupdownbase'] = 0x21A8;
t['arrowupleft'] = 0x2196;
t['arrowupleftofdown'] = 0x21C5;
t['arrowupright'] = 0x2197;
t['arrowupwhite'] = 0x21E7;
t['arrowvertex'] = 0xF8E6;
t['asciicircum'] = 0x005E;
t['asciicircummonospace'] = 0xFF3E;
t['asciitilde'] = 0x007E;
t['asciitildemonospace'] = 0xFF5E;
t['ascript'] = 0x0251;
t['ascriptturned'] = 0x0252;
t['asmallhiragana'] = 0x3041;
t['asmallkatakana'] = 0x30A1;
t['asmallkatakanahalfwidth'] = 0xFF67;
t['asterisk'] = 0x002A;
t['asteriskaltonearabic'] = 0x066D;
t['asteriskarabic'] = 0x066D;
t['asteriskmath'] = 0x2217;
t['asteriskmonospace'] = 0xFF0A;
t['asterisksmall'] = 0xFE61;
t['asterism'] = 0x2042;
t['asuperior'] = 0xF6E9;
t['asymptoticallyequal'] = 0x2243;
t['at'] = 0x0040;
t['atilde'] = 0x00E3;
t['atmonospace'] = 0xFF20;
t['atsmall'] = 0xFE6B;
t['aturned'] = 0x0250;
t['aubengali'] = 0x0994;
t['aubopomofo'] = 0x3120;
t['audeva'] = 0x0914;
t['augujarati'] = 0x0A94;
t['augurmukhi'] = 0x0A14;
t['aulengthmarkbengali'] = 0x09D7;
t['aumatragurmukhi'] = 0x0A4C;
t['auvowelsignbengali'] = 0x09CC;
t['auvowelsigndeva'] = 0x094C;
t['auvowelsigngujarati'] = 0x0ACC;
t['avagrahadeva'] = 0x093D;
t['aybarmenian'] = 0x0561;
t['ayin'] = 0x05E2;
t['ayinaltonehebrew'] = 0xFB20;
t['ayinhebrew'] = 0x05E2;
t['b'] = 0x0062;
t['babengali'] = 0x09AC;
t['backslash'] = 0x005C;
t['backslashmonospace'] = 0xFF3C;
t['badeva'] = 0x092C;
t['bagujarati'] = 0x0AAC;
t['bagurmukhi'] = 0x0A2C;
t['bahiragana'] = 0x3070;
t['bahtthai'] = 0x0E3F;
t['bakatakana'] = 0x30D0;
t['bar'] = 0x007C;
t['barmonospace'] = 0xFF5C;
t['bbopomofo'] = 0x3105;
t['bcircle'] = 0x24D1;
t['bdotaccent'] = 0x1E03;
t['bdotbelow'] = 0x1E05;
t['beamedsixteenthnotes'] = 0x266C;
t['because'] = 0x2235;
t['becyrillic'] = 0x0431;
t['beharabic'] = 0x0628;
t['behfinalarabic'] = 0xFE90;
t['behinitialarabic'] = 0xFE91;
t['behiragana'] = 0x3079;
t['behmedialarabic'] = 0xFE92;
t['behmeeminitialarabic'] = 0xFC9F;
t['behmeemisolatedarabic'] = 0xFC08;
t['behnoonfinalarabic'] = 0xFC6D;
t['bekatakana'] = 0x30D9;
t['benarmenian'] = 0x0562;
t['bet'] = 0x05D1;
t['beta'] = 0x03B2;
t['betasymbolgreek'] = 0x03D0;
t['betdagesh'] = 0xFB31;
t['betdageshhebrew'] = 0xFB31;
t['bethebrew'] = 0x05D1;
t['betrafehebrew'] = 0xFB4C;
t['bhabengali'] = 0x09AD;
t['bhadeva'] = 0x092D;
t['bhagujarati'] = 0x0AAD;
t['bhagurmukhi'] = 0x0A2D;
t['bhook'] = 0x0253;
t['bihiragana'] = 0x3073;
t['bikatakana'] = 0x30D3;
t['bilabialclick'] = 0x0298;
t['bindigurmukhi'] = 0x0A02;
t['birusquare'] = 0x3331;
t['blackcircle'] = 0x25CF;
t['blackdiamond'] = 0x25C6;
t['blackdownpointingtriangle'] = 0x25BC;
t['blackleftpointingpointer'] = 0x25C4;
t['blackleftpointingtriangle'] = 0x25C0;
t['blacklenticularbracketleft'] = 0x3010;
t['blacklenticularbracketleftvertical'] = 0xFE3B;
t['blacklenticularbracketright'] = 0x3011;
t['blacklenticularbracketrightvertical'] = 0xFE3C;
t['blacklowerlefttriangle'] = 0x25E3;
t['blacklowerrighttriangle'] = 0x25E2;
t['blackrectangle'] = 0x25AC;
t['blackrightpointingpointer'] = 0x25BA;
t['blackrightpointingtriangle'] = 0x25B6;
t['blacksmallsquare'] = 0x25AA;
t['blacksmilingface'] = 0x263B;
t['blacksquare'] = 0x25A0;
t['blackstar'] = 0x2605;
t['blackupperlefttriangle'] = 0x25E4;
t['blackupperrighttriangle'] = 0x25E5;
t['blackuppointingsmalltriangle'] = 0x25B4;
t['blackuppointingtriangle'] = 0x25B2;
t['blank'] = 0x2423;
t['blinebelow'] = 0x1E07;
t['block'] = 0x2588;
t['bmonospace'] = 0xFF42;
t['bobaimaithai'] = 0x0E1A;
t['bohiragana'] = 0x307C;
t['bokatakana'] = 0x30DC;
t['bparen'] = 0x249D;
t['bqsquare'] = 0x33C3;
t['braceex'] = 0xF8F4;
t['braceleft'] = 0x007B;
t['braceleftbt'] = 0xF8F3;
t['braceleftmid'] = 0xF8F2;
t['braceleftmonospace'] = 0xFF5B;
t['braceleftsmall'] = 0xFE5B;
t['bracelefttp'] = 0xF8F1;
t['braceleftvertical'] = 0xFE37;
t['braceright'] = 0x007D;
t['bracerightbt'] = 0xF8FE;
t['bracerightmid'] = 0xF8FD;
t['bracerightmonospace'] = 0xFF5D;
t['bracerightsmall'] = 0xFE5C;
t['bracerighttp'] = 0xF8FC;
t['bracerightvertical'] = 0xFE38;
t['bracketleft'] = 0x005B;
t['bracketleftbt'] = 0xF8F0;
t['bracketleftex'] = 0xF8EF;
t['bracketleftmonospace'] = 0xFF3B;
t['bracketlefttp'] = 0xF8EE;
t['bracketright'] = 0x005D;
t['bracketrightbt'] = 0xF8FB;
t['bracketrightex'] = 0xF8FA;
t['bracketrightmonospace'] = 0xFF3D;
t['bracketrighttp'] = 0xF8F9;
t['breve'] = 0x02D8;
t['brevebelowcmb'] = 0x032E;
t['brevecmb'] = 0x0306;
t['breveinvertedbelowcmb'] = 0x032F;
t['breveinvertedcmb'] = 0x0311;
t['breveinverteddoublecmb'] = 0x0361;
t['bridgebelowcmb'] = 0x032A;
t['bridgeinvertedbelowcmb'] = 0x033A;
t['brokenbar'] = 0x00A6;
t['bstroke'] = 0x0180;
t['bsuperior'] = 0xF6EA;
t['btopbar'] = 0x0183;
t['buhiragana'] = 0x3076;
t['bukatakana'] = 0x30D6;
t['bullet'] = 0x2022;
t['bulletinverse'] = 0x25D8;
t['bulletoperator'] = 0x2219;
t['bullseye'] = 0x25CE;
t['c'] = 0x0063;
t['caarmenian'] = 0x056E;
t['cabengali'] = 0x099A;
t['cacute'] = 0x0107;
t['cadeva'] = 0x091A;
t['cagujarati'] = 0x0A9A;
t['cagurmukhi'] = 0x0A1A;
t['calsquare'] = 0x3388;
t['candrabindubengali'] = 0x0981;
t['candrabinducmb'] = 0x0310;
t['candrabindudeva'] = 0x0901;
t['candrabindugujarati'] = 0x0A81;
t['capslock'] = 0x21EA;
t['careof'] = 0x2105;
t['caron'] = 0x02C7;
t['caronbelowcmb'] = 0x032C;
t['caroncmb'] = 0x030C;
t['carriagereturn'] = 0x21B5;
t['cbopomofo'] = 0x3118;
t['ccaron'] = 0x010D;
t['ccedilla'] = 0x00E7;
t['ccedillaacute'] = 0x1E09;
t['ccircle'] = 0x24D2;
t['ccircumflex'] = 0x0109;
t['ccurl'] = 0x0255;
t['cdot'] = 0x010B;
t['cdotaccent'] = 0x010B;
t['cdsquare'] = 0x33C5;
t['cedilla'] = 0x00B8;
t['cedillacmb'] = 0x0327;
t['cent'] = 0x00A2;
t['centigrade'] = 0x2103;
t['centinferior'] = 0xF6DF;
t['centmonospace'] = 0xFFE0;
t['centoldstyle'] = 0xF7A2;
t['centsuperior'] = 0xF6E0;
t['chaarmenian'] = 0x0579;
t['chabengali'] = 0x099B;
t['chadeva'] = 0x091B;
t['chagujarati'] = 0x0A9B;
t['chagurmukhi'] = 0x0A1B;
t['chbopomofo'] = 0x3114;
t['cheabkhasiancyrillic'] = 0x04BD;
t['checkmark'] = 0x2713;
t['checyrillic'] = 0x0447;
t['chedescenderabkhasiancyrillic'] = 0x04BF;
t['chedescendercyrillic'] = 0x04B7;
t['chedieresiscyrillic'] = 0x04F5;
t['cheharmenian'] = 0x0573;
t['chekhakassiancyrillic'] = 0x04CC;
t['cheverticalstrokecyrillic'] = 0x04B9;
t['chi'] = 0x03C7;
t['chieuchacirclekorean'] = 0x3277;
t['chieuchaparenkorean'] = 0x3217;
t['chieuchcirclekorean'] = 0x3269;
t['chieuchkorean'] = 0x314A;
t['chieuchparenkorean'] = 0x3209;
t['chochangthai'] = 0x0E0A;
t['chochanthai'] = 0x0E08;
t['chochingthai'] = 0x0E09;
t['chochoethai'] = 0x0E0C;
t['chook'] = 0x0188;
t['cieucacirclekorean'] = 0x3276;
t['cieucaparenkorean'] = 0x3216;
t['cieuccirclekorean'] = 0x3268;
t['cieuckorean'] = 0x3148;
t['cieucparenkorean'] = 0x3208;
t['cieucuparenkorean'] = 0x321C;
t['circle'] = 0x25CB;
t['circlecopyrt'] = 0x00A9; // Glyph is missing from Adobe's original list.
t['circlemultiply'] = 0x2297;
t['circleot'] = 0x2299;
t['circleplus'] = 0x2295;
t['circlepostalmark'] = 0x3036;
t['circlewithlefthalfblack'] = 0x25D0;
t['circlewithrighthalfblack'] = 0x25D1;
t['circumflex'] = 0x02C6;
t['circumflexbelowcmb'] = 0x032D;
t['circumflexcmb'] = 0x0302;
t['clear'] = 0x2327;
t['clickalveolar'] = 0x01C2;
t['clickdental'] = 0x01C0;
t['clicklateral'] = 0x01C1;
t['clickretroflex'] = 0x01C3;
t['club'] = 0x2663;
t['clubsuitblack'] = 0x2663;
t['clubsuitwhite'] = 0x2667;
t['cmcubedsquare'] = 0x33A4;
t['cmonospace'] = 0xFF43;
t['cmsquaredsquare'] = 0x33A0;
t['coarmenian'] = 0x0581;
t['colon'] = 0x003A;
t['colonmonetary'] = 0x20A1;
t['colonmonospace'] = 0xFF1A;
t['colonsign'] = 0x20A1;
t['colonsmall'] = 0xFE55;
t['colontriangularhalfmod'] = 0x02D1;
t['colontriangularmod'] = 0x02D0;
t['comma'] = 0x002C;
t['commaabovecmb'] = 0x0313;
t['commaaboverightcmb'] = 0x0315;
t['commaaccent'] = 0xF6C3;
t['commaarabic'] = 0x060C;
t['commaarmenian'] = 0x055D;
t['commainferior'] = 0xF6E1;
t['commamonospace'] = 0xFF0C;
t['commareversedabovecmb'] = 0x0314;
t['commareversedmod'] = 0x02BD;
t['commasmall'] = 0xFE50;
t['commasuperior'] = 0xF6E2;
t['commaturnedabovecmb'] = 0x0312;
t['commaturnedmod'] = 0x02BB;
t['compass'] = 0x263C;
t['congruent'] = 0x2245;
t['contourintegral'] = 0x222E;
t['control'] = 0x2303;
t['controlACK'] = 0x0006;
t['controlBEL'] = 0x0007;
t['controlBS'] = 0x0008;
t['controlCAN'] = 0x0018;
t['controlCR'] = 0x000D;
t['controlDC1'] = 0x0011;
t['controlDC2'] = 0x0012;
t['controlDC3'] = 0x0013;
t['controlDC4'] = 0x0014;
t['controlDEL'] = 0x007F;
t['controlDLE'] = 0x0010;
t['controlEM'] = 0x0019;
t['controlENQ'] = 0x0005;
t['controlEOT'] = 0x0004;
t['controlESC'] = 0x001B;
t['controlETB'] = 0x0017;
t['controlETX'] = 0x0003;
t['controlFF'] = 0x000C;
t['controlFS'] = 0x001C;
t['controlGS'] = 0x001D;
t['controlHT'] = 0x0009;
t['controlLF'] = 0x000A;
t['controlNAK'] = 0x0015;
t['controlRS'] = 0x001E;
t['controlSI'] = 0x000F;
t['controlSO'] = 0x000E;
t['controlSOT'] = 0x0002;
t['controlSTX'] = 0x0001;
t['controlSUB'] = 0x001A;
t['controlSYN'] = 0x0016;
t['controlUS'] = 0x001F;
t['controlVT'] = 0x000B;
t['copyright'] = 0x00A9;
t['copyrightsans'] = 0xF8E9;
t['copyrightserif'] = 0xF6D9;
t['cornerbracketleft'] = 0x300C;
t['cornerbracketlefthalfwidth'] = 0xFF62;
t['cornerbracketleftvertical'] = 0xFE41;
t['cornerbracketright'] = 0x300D;
t['cornerbracketrighthalfwidth'] = 0xFF63;
t['cornerbracketrightvertical'] = 0xFE42;
t['corporationsquare'] = 0x337F;
t['cosquare'] = 0x33C7;
t['coverkgsquare'] = 0x33C6;
t['cparen'] = 0x249E;
t['cruzeiro'] = 0x20A2;
t['cstretched'] = 0x0297;
t['curlyand'] = 0x22CF;
t['curlyor'] = 0x22CE;
t['currency'] = 0x00A4;
t['cyrBreve'] = 0xF6D1;
t['cyrFlex'] = 0xF6D2;
t['cyrbreve'] = 0xF6D4;
t['cyrflex'] = 0xF6D5;
t['d'] = 0x0064;
t['daarmenian'] = 0x0564;
t['dabengali'] = 0x09A6;
t['dadarabic'] = 0x0636;
t['dadeva'] = 0x0926;
t['dadfinalarabic'] = 0xFEBE;
t['dadinitialarabic'] = 0xFEBF;
t['dadmedialarabic'] = 0xFEC0;
t['dagesh'] = 0x05BC;
t['dageshhebrew'] = 0x05BC;
t['dagger'] = 0x2020;
t['daggerdbl'] = 0x2021;
t['dagujarati'] = 0x0AA6;
t['dagurmukhi'] = 0x0A26;
t['dahiragana'] = 0x3060;
t['dakatakana'] = 0x30C0;
t['dalarabic'] = 0x062F;
t['dalet'] = 0x05D3;
t['daletdagesh'] = 0xFB33;
t['daletdageshhebrew'] = 0xFB33;
t['dalethebrew'] = 0x05D3;
t['dalfinalarabic'] = 0xFEAA;
t['dammaarabic'] = 0x064F;
t['dammalowarabic'] = 0x064F;
t['dammatanaltonearabic'] = 0x064C;
t['dammatanarabic'] = 0x064C;
t['danda'] = 0x0964;
t['dargahebrew'] = 0x05A7;
t['dargalefthebrew'] = 0x05A7;
t['dasiapneumatacyrilliccmb'] = 0x0485;
t['dblGrave'] = 0xF6D3;
t['dblanglebracketleft'] = 0x300A;
t['dblanglebracketleftvertical'] = 0xFE3D;
t['dblanglebracketright'] = 0x300B;
t['dblanglebracketrightvertical'] = 0xFE3E;
t['dblarchinvertedbelowcmb'] = 0x032B;
t['dblarrowleft'] = 0x21D4;
t['dblarrowright'] = 0x21D2;
t['dbldanda'] = 0x0965;
t['dblgrave'] = 0xF6D6;
t['dblgravecmb'] = 0x030F;
t['dblintegral'] = 0x222C;
t['dbllowline'] = 0x2017;
t['dbllowlinecmb'] = 0x0333;
t['dbloverlinecmb'] = 0x033F;
t['dblprimemod'] = 0x02BA;
t['dblverticalbar'] = 0x2016;
t['dblverticallineabovecmb'] = 0x030E;
t['dbopomofo'] = 0x3109;
t['dbsquare'] = 0x33C8;
t['dcaron'] = 0x010F;
t['dcedilla'] = 0x1E11;
t['dcircle'] = 0x24D3;
t['dcircumflexbelow'] = 0x1E13;
t['dcroat'] = 0x0111;
t['ddabengali'] = 0x09A1;
t['ddadeva'] = 0x0921;
t['ddagujarati'] = 0x0AA1;
t['ddagurmukhi'] = 0x0A21;
t['ddalarabic'] = 0x0688;
t['ddalfinalarabic'] = 0xFB89;
t['dddhadeva'] = 0x095C;
t['ddhabengali'] = 0x09A2;
t['ddhadeva'] = 0x0922;
t['ddhagujarati'] = 0x0AA2;
t['ddhagurmukhi'] = 0x0A22;
t['ddotaccent'] = 0x1E0B;
t['ddotbelow'] = 0x1E0D;
t['decimalseparatorarabic'] = 0x066B;
t['decimalseparatorpersian'] = 0x066B;
t['decyrillic'] = 0x0434;
t['degree'] = 0x00B0;
t['dehihebrew'] = 0x05AD;
t['dehiragana'] = 0x3067;
t['deicoptic'] = 0x03EF;
t['dekatakana'] = 0x30C7;
t['deleteleft'] = 0x232B;
t['deleteright'] = 0x2326;
t['delta'] = 0x03B4;
t['deltaturned'] = 0x018D;
t['denominatorminusonenumeratorbengali'] = 0x09F8;
t['dezh'] = 0x02A4;
t['dhabengali'] = 0x09A7;
t['dhadeva'] = 0x0927;
t['dhagujarati'] = 0x0AA7;
t['dhagurmukhi'] = 0x0A27;
t['dhook'] = 0x0257;
t['dialytikatonos'] = 0x0385;
t['dialytikatonoscmb'] = 0x0344;
t['diamond'] = 0x2666;
t['diamondsuitwhite'] = 0x2662;
t['dieresis'] = 0x00A8;
t['dieresisacute'] = 0xF6D7;
t['dieresisbelowcmb'] = 0x0324;
t['dieresiscmb'] = 0x0308;
t['dieresisgrave'] = 0xF6D8;
t['dieresistonos'] = 0x0385;
t['dihiragana'] = 0x3062;
t['dikatakana'] = 0x30C2;
t['dittomark'] = 0x3003;
t['divide'] = 0x00F7;
t['divides'] = 0x2223;
t['divisionslash'] = 0x2215;
t['djecyrillic'] = 0x0452;
t['dkshade'] = 0x2593;
t['dlinebelow'] = 0x1E0F;
t['dlsquare'] = 0x3397;
t['dmacron'] = 0x0111;
t['dmonospace'] = 0xFF44;
t['dnblock'] = 0x2584;
t['dochadathai'] = 0x0E0E;
t['dodekthai'] = 0x0E14;
t['dohiragana'] = 0x3069;
t['dokatakana'] = 0x30C9;
t['dollar'] = 0x0024;
t['dollarinferior'] = 0xF6E3;
t['dollarmonospace'] = 0xFF04;
t['dollaroldstyle'] = 0xF724;
t['dollarsmall'] = 0xFE69;
t['dollarsuperior'] = 0xF6E4;
t['dong'] = 0x20AB;
t['dorusquare'] = 0x3326;
t['dotaccent'] = 0x02D9;
t['dotaccentcmb'] = 0x0307;
t['dotbelowcmb'] = 0x0323;
t['dotbelowcomb'] = 0x0323;
t['dotkatakana'] = 0x30FB;
t['dotlessi'] = 0x0131;
t['dotlessj'] = 0xF6BE;
t['dotlessjstrokehook'] = 0x0284;
t['dotmath'] = 0x22C5;
t['dottedcircle'] = 0x25CC;
t['doubleyodpatah'] = 0xFB1F;
t['doubleyodpatahhebrew'] = 0xFB1F;
t['downtackbelowcmb'] = 0x031E;
t['downtackmod'] = 0x02D5;
t['dparen'] = 0x249F;
t['dsuperior'] = 0xF6EB;
t['dtail'] = 0x0256;
t['dtopbar'] = 0x018C;
t['duhiragana'] = 0x3065;
t['dukatakana'] = 0x30C5;
t['dz'] = 0x01F3;
t['dzaltone'] = 0x02A3;
t['dzcaron'] = 0x01C6;
t['dzcurl'] = 0x02A5;
t['dzeabkhasiancyrillic'] = 0x04E1;
t['dzecyrillic'] = 0x0455;
t['dzhecyrillic'] = 0x045F;
t['e'] = 0x0065;
t['eacute'] = 0x00E9;
t['earth'] = 0x2641;
t['ebengali'] = 0x098F;
t['ebopomofo'] = 0x311C;
t['ebreve'] = 0x0115;
t['ecandradeva'] = 0x090D;
t['ecandragujarati'] = 0x0A8D;
t['ecandravowelsigndeva'] = 0x0945;
t['ecandravowelsigngujarati'] = 0x0AC5;
t['ecaron'] = 0x011B;
t['ecedillabreve'] = 0x1E1D;
t['echarmenian'] = 0x0565;
t['echyiwnarmenian'] = 0x0587;
t['ecircle'] = 0x24D4;
t['ecircumflex'] = 0x00EA;
t['ecircumflexacute'] = 0x1EBF;
t['ecircumflexbelow'] = 0x1E19;
t['ecircumflexdotbelow'] = 0x1EC7;
t['ecircumflexgrave'] = 0x1EC1;
t['ecircumflexhookabove'] = 0x1EC3;
t['ecircumflextilde'] = 0x1EC5;
t['ecyrillic'] = 0x0454;
t['edblgrave'] = 0x0205;
t['edeva'] = 0x090F;
t['edieresis'] = 0x00EB;
t['edot'] = 0x0117;
t['edotaccent'] = 0x0117;
t['edotbelow'] = 0x1EB9;
t['eegurmukhi'] = 0x0A0F;
t['eematragurmukhi'] = 0x0A47;
t['efcyrillic'] = 0x0444;
t['egrave'] = 0x00E8;
t['egujarati'] = 0x0A8F;
t['eharmenian'] = 0x0567;
t['ehbopomofo'] = 0x311D;
t['ehiragana'] = 0x3048;
t['ehookabove'] = 0x1EBB;
t['eibopomofo'] = 0x311F;
t['eight'] = 0x0038;
t['eightarabic'] = 0x0668;
t['eightbengali'] = 0x09EE;
t['eightcircle'] = 0x2467;
t['eightcircleinversesansserif'] = 0x2791;
t['eightdeva'] = 0x096E;
t['eighteencircle'] = 0x2471;
t['eighteenparen'] = 0x2485;
t['eighteenperiod'] = 0x2499;
t['eightgujarati'] = 0x0AEE;
t['eightgurmukhi'] = 0x0A6E;
t['eighthackarabic'] = 0x0668;
t['eighthangzhou'] = 0x3028;
t['eighthnotebeamed'] = 0x266B;
t['eightideographicparen'] = 0x3227;
t['eightinferior'] = 0x2088;
t['eightmonospace'] = 0xFF18;
t['eightoldstyle'] = 0xF738;
t['eightparen'] = 0x247B;
t['eightperiod'] = 0x248F;
t['eightpersian'] = 0x06F8;
t['eightroman'] = 0x2177;
t['eightsuperior'] = 0x2078;
t['eightthai'] = 0x0E58;
t['einvertedbreve'] = 0x0207;
t['eiotifiedcyrillic'] = 0x0465;
t['ekatakana'] = 0x30A8;
t['ekatakanahalfwidth'] = 0xFF74;
t['ekonkargurmukhi'] = 0x0A74;
t['ekorean'] = 0x3154;
t['elcyrillic'] = 0x043B;
t['element'] = 0x2208;
t['elevencircle'] = 0x246A;
t['elevenparen'] = 0x247E;
t['elevenperiod'] = 0x2492;
t['elevenroman'] = 0x217A;
t['ellipsis'] = 0x2026;
t['ellipsisvertical'] = 0x22EE;
t['emacron'] = 0x0113;
t['emacronacute'] = 0x1E17;
t['emacrongrave'] = 0x1E15;
t['emcyrillic'] = 0x043C;
t['emdash'] = 0x2014;
t['emdashvertical'] = 0xFE31;
t['emonospace'] = 0xFF45;
t['emphasismarkarmenian'] = 0x055B;
t['emptyset'] = 0x2205;
t['enbopomofo'] = 0x3123;
t['encyrillic'] = 0x043D;
t['endash'] = 0x2013;
t['endashvertical'] = 0xFE32;
t['endescendercyrillic'] = 0x04A3;
t['eng'] = 0x014B;
t['engbopomofo'] = 0x3125;
t['enghecyrillic'] = 0x04A5;
t['enhookcyrillic'] = 0x04C8;
t['enspace'] = 0x2002;
t['eogonek'] = 0x0119;
t['eokorean'] = 0x3153;
t['eopen'] = 0x025B;
t['eopenclosed'] = 0x029A;
t['eopenreversed'] = 0x025C;
t['eopenreversedclosed'] = 0x025E;
t['eopenreversedhook'] = 0x025D;
t['eparen'] = 0x24A0;
t['epsilon'] = 0x03B5;
t['epsilontonos'] = 0x03AD;
t['equal'] = 0x003D;
t['equalmonospace'] = 0xFF1D;
t['equalsmall'] = 0xFE66;
t['equalsuperior'] = 0x207C;
t['equivalence'] = 0x2261;
t['erbopomofo'] = 0x3126;
t['ercyrillic'] = 0x0440;
t['ereversed'] = 0x0258;
t['ereversedcyrillic'] = 0x044D;
t['escyrillic'] = 0x0441;
t['esdescendercyrillic'] = 0x04AB;
t['esh'] = 0x0283;
t['eshcurl'] = 0x0286;
t['eshortdeva'] = 0x090E;
t['eshortvowelsigndeva'] = 0x0946;
t['eshreversedloop'] = 0x01AA;
t['eshsquatreversed'] = 0x0285;
t['esmallhiragana'] = 0x3047;
t['esmallkatakana'] = 0x30A7;
t['esmallkatakanahalfwidth'] = 0xFF6A;
t['estimated'] = 0x212E;
t['esuperior'] = 0xF6EC;
t['eta'] = 0x03B7;
t['etarmenian'] = 0x0568;
t['etatonos'] = 0x03AE;
t['eth'] = 0x00F0;
t['etilde'] = 0x1EBD;
t['etildebelow'] = 0x1E1B;
t['etnahtafoukhhebrew'] = 0x0591;
t['etnahtafoukhlefthebrew'] = 0x0591;
t['etnahtahebrew'] = 0x0591;
t['etnahtalefthebrew'] = 0x0591;
t['eturned'] = 0x01DD;
t['eukorean'] = 0x3161;
t['euro'] = 0x20AC;
t['evowelsignbengali'] = 0x09C7;
t['evowelsigndeva'] = 0x0947;
t['evowelsigngujarati'] = 0x0AC7;
t['exclam'] = 0x0021;
t['exclamarmenian'] = 0x055C;
t['exclamdbl'] = 0x203C;
t['exclamdown'] = 0x00A1;
t['exclamdownsmall'] = 0xF7A1;
t['exclammonospace'] = 0xFF01;
t['exclamsmall'] = 0xF721;
t['existential'] = 0x2203;
t['ezh'] = 0x0292;
t['ezhcaron'] = 0x01EF;
t['ezhcurl'] = 0x0293;
t['ezhreversed'] = 0x01B9;
t['ezhtail'] = 0x01BA;
t['f'] = 0x0066;
t['fadeva'] = 0x095E;
t['fagurmukhi'] = 0x0A5E;
t['fahrenheit'] = 0x2109;
t['fathaarabic'] = 0x064E;
t['fathalowarabic'] = 0x064E;
t['fathatanarabic'] = 0x064B;
t['fbopomofo'] = 0x3108;
t['fcircle'] = 0x24D5;
t['fdotaccent'] = 0x1E1F;
t['feharabic'] = 0x0641;
t['feharmenian'] = 0x0586;
t['fehfinalarabic'] = 0xFED2;
t['fehinitialarabic'] = 0xFED3;
t['fehmedialarabic'] = 0xFED4;
t['feicoptic'] = 0x03E5;
t['female'] = 0x2640;
t['ff'] = 0xFB00;
t['ffi'] = 0xFB03;
t['ffl'] = 0xFB04;
t['fi'] = 0xFB01;
t['fifteencircle'] = 0x246E;
t['fifteenparen'] = 0x2482;
t['fifteenperiod'] = 0x2496;
t['figuredash'] = 0x2012;
t['filledbox'] = 0x25A0;
t['filledrect'] = 0x25AC;
t['finalkaf'] = 0x05DA;
t['finalkafdagesh'] = 0xFB3A;
t['finalkafdageshhebrew'] = 0xFB3A;
t['finalkafhebrew'] = 0x05DA;
t['finalmem'] = 0x05DD;
t['finalmemhebrew'] = 0x05DD;
t['finalnun'] = 0x05DF;
t['finalnunhebrew'] = 0x05DF;
t['finalpe'] = 0x05E3;
t['finalpehebrew'] = 0x05E3;
t['finaltsadi'] = 0x05E5;
t['finaltsadihebrew'] = 0x05E5;
t['firsttonechinese'] = 0x02C9;
t['fisheye'] = 0x25C9;
t['fitacyrillic'] = 0x0473;
t['five'] = 0x0035;
t['fivearabic'] = 0x0665;
t['fivebengali'] = 0x09EB;
t['fivecircle'] = 0x2464;
t['fivecircleinversesansserif'] = 0x278E;
t['fivedeva'] = 0x096B;
t['fiveeighths'] = 0x215D;
t['fivegujarati'] = 0x0AEB;
t['fivegurmukhi'] = 0x0A6B;
t['fivehackarabic'] = 0x0665;
t['fivehangzhou'] = 0x3025;
t['fiveideographicparen'] = 0x3224;
t['fiveinferior'] = 0x2085;
t['fivemonospace'] = 0xFF15;
t['fiveoldstyle'] = 0xF735;
t['fiveparen'] = 0x2478;
t['fiveperiod'] = 0x248C;
t['fivepersian'] = 0x06F5;
t['fiveroman'] = 0x2174;
t['fivesuperior'] = 0x2075;
t['fivethai'] = 0x0E55;
t['fl'] = 0xFB02;
t['florin'] = 0x0192;
t['fmonospace'] = 0xFF46;
t['fmsquare'] = 0x3399;
t['fofanthai'] = 0x0E1F;
t['fofathai'] = 0x0E1D;
t['fongmanthai'] = 0x0E4F;
t['forall'] = 0x2200;
t['four'] = 0x0034;
t['fourarabic'] = 0x0664;
t['fourbengali'] = 0x09EA;
t['fourcircle'] = 0x2463;
t['fourcircleinversesansserif'] = 0x278D;
t['fourdeva'] = 0x096A;
t['fourgujarati'] = 0x0AEA;
t['fourgurmukhi'] = 0x0A6A;
t['fourhackarabic'] = 0x0664;
t['fourhangzhou'] = 0x3024;
t['fourideographicparen'] = 0x3223;
t['fourinferior'] = 0x2084;
t['fourmonospace'] = 0xFF14;
t['fournumeratorbengali'] = 0x09F7;
t['fouroldstyle'] = 0xF734;
t['fourparen'] = 0x2477;
t['fourperiod'] = 0x248B;
t['fourpersian'] = 0x06F4;
t['fourroman'] = 0x2173;
t['foursuperior'] = 0x2074;
t['fourteencircle'] = 0x246D;
t['fourteenparen'] = 0x2481;
t['fourteenperiod'] = 0x2495;
t['fourthai'] = 0x0E54;
t['fourthtonechinese'] = 0x02CB;
t['fparen'] = 0x24A1;
t['fraction'] = 0x2044;
t['franc'] = 0x20A3;
t['g'] = 0x0067;
t['gabengali'] = 0x0997;
t['gacute'] = 0x01F5;
t['gadeva'] = 0x0917;
t['gafarabic'] = 0x06AF;
t['gaffinalarabic'] = 0xFB93;
t['gafinitialarabic'] = 0xFB94;
t['gafmedialarabic'] = 0xFB95;
t['gagujarati'] = 0x0A97;
t['gagurmukhi'] = 0x0A17;
t['gahiragana'] = 0x304C;
t['gakatakana'] = 0x30AC;
t['gamma'] = 0x03B3;
t['gammalatinsmall'] = 0x0263;
t['gammasuperior'] = 0x02E0;
t['gangiacoptic'] = 0x03EB;
t['gbopomofo'] = 0x310D;
t['gbreve'] = 0x011F;
t['gcaron'] = 0x01E7;
t['gcedilla'] = 0x0123;
t['gcircle'] = 0x24D6;
t['gcircumflex'] = 0x011D;
t['gcommaaccent'] = 0x0123;
t['gdot'] = 0x0121;
t['gdotaccent'] = 0x0121;
t['gecyrillic'] = 0x0433;
t['gehiragana'] = 0x3052;
t['gekatakana'] = 0x30B2;
t['geometricallyequal'] = 0x2251;
t['gereshaccenthebrew'] = 0x059C;
t['gereshhebrew'] = 0x05F3;
t['gereshmuqdamhebrew'] = 0x059D;
t['germandbls'] = 0x00DF;
t['gershayimaccenthebrew'] = 0x059E;
t['gershayimhebrew'] = 0x05F4;
t['getamark'] = 0x3013;
t['ghabengali'] = 0x0998;
t['ghadarmenian'] = 0x0572;
t['ghadeva'] = 0x0918;
t['ghagujarati'] = 0x0A98;
t['ghagurmukhi'] = 0x0A18;
t['ghainarabic'] = 0x063A;
t['ghainfinalarabic'] = 0xFECE;
t['ghaininitialarabic'] = 0xFECF;
t['ghainmedialarabic'] = 0xFED0;
t['ghemiddlehookcyrillic'] = 0x0495;
t['ghestrokecyrillic'] = 0x0493;
t['gheupturncyrillic'] = 0x0491;
t['ghhadeva'] = 0x095A;
t['ghhagurmukhi'] = 0x0A5A;
t['ghook'] = 0x0260;
t['ghzsquare'] = 0x3393;
t['gihiragana'] = 0x304E;
t['gikatakana'] = 0x30AE;
t['gimarmenian'] = 0x0563;
t['gimel'] = 0x05D2;
t['gimeldagesh'] = 0xFB32;
t['gimeldageshhebrew'] = 0xFB32;
t['gimelhebrew'] = 0x05D2;
t['gjecyrillic'] = 0x0453;
t['glottalinvertedstroke'] = 0x01BE;
t['glottalstop'] = 0x0294;
t['glottalstopinverted'] = 0x0296;
t['glottalstopmod'] = 0x02C0;
t['glottalstopreversed'] = 0x0295;
t['glottalstopreversedmod'] = 0x02C1;
t['glottalstopreversedsuperior'] = 0x02E4;
t['glottalstopstroke'] = 0x02A1;
t['glottalstopstrokereversed'] = 0x02A2;
t['gmacron'] = 0x1E21;
t['gmonospace'] = 0xFF47;
t['gohiragana'] = 0x3054;
t['gokatakana'] = 0x30B4;
t['gparen'] = 0x24A2;
t['gpasquare'] = 0x33AC;
t['gradient'] = 0x2207;
t['grave'] = 0x0060;
t['gravebelowcmb'] = 0x0316;
t['gravecmb'] = 0x0300;
t['gravecomb'] = 0x0300;
t['gravedeva'] = 0x0953;
t['gravelowmod'] = 0x02CE;
t['gravemonospace'] = 0xFF40;
t['gravetonecmb'] = 0x0340;
t['greater'] = 0x003E;
t['greaterequal'] = 0x2265;
t['greaterequalorless'] = 0x22DB;
t['greatermonospace'] = 0xFF1E;
t['greaterorequivalent'] = 0x2273;
t['greaterorless'] = 0x2277;
t['greateroverequal'] = 0x2267;
t['greatersmall'] = 0xFE65;
t['gscript'] = 0x0261;
t['gstroke'] = 0x01E5;
t['guhiragana'] = 0x3050;
t['guillemotleft'] = 0x00AB;
t['guillemotright'] = 0x00BB;
t['guilsinglleft'] = 0x2039;
t['guilsinglright'] = 0x203A;
t['gukatakana'] = 0x30B0;
t['guramusquare'] = 0x3318;
t['gysquare'] = 0x33C9;
t['h'] = 0x0068;
t['haabkhasiancyrillic'] = 0x04A9;
t['haaltonearabic'] = 0x06C1;
t['habengali'] = 0x09B9;
t['hadescendercyrillic'] = 0x04B3;
t['hadeva'] = 0x0939;
t['hagujarati'] = 0x0AB9;
t['hagurmukhi'] = 0x0A39;
t['haharabic'] = 0x062D;
t['hahfinalarabic'] = 0xFEA2;
t['hahinitialarabic'] = 0xFEA3;
t['hahiragana'] = 0x306F;
t['hahmedialarabic'] = 0xFEA4;
t['haitusquare'] = 0x332A;
t['hakatakana'] = 0x30CF;
t['hakatakanahalfwidth'] = 0xFF8A;
t['halantgurmukhi'] = 0x0A4D;
t['hamzaarabic'] = 0x0621;
t['hamzalowarabic'] = 0x0621;
t['hangulfiller'] = 0x3164;
t['hardsigncyrillic'] = 0x044A;
t['harpoonleftbarbup'] = 0x21BC;
t['harpoonrightbarbup'] = 0x21C0;
t['hasquare'] = 0x33CA;
t['hatafpatah'] = 0x05B2;
t['hatafpatah16'] = 0x05B2;
t['hatafpatah23'] = 0x05B2;
t['hatafpatah2f'] = 0x05B2;
t['hatafpatahhebrew'] = 0x05B2;
t['hatafpatahnarrowhebrew'] = 0x05B2;
t['hatafpatahquarterhebrew'] = 0x05B2;
t['hatafpatahwidehebrew'] = 0x05B2;
t['hatafqamats'] = 0x05B3;
t['hatafqamats1b'] = 0x05B3;
t['hatafqamats28'] = 0x05B3;
t['hatafqamats34'] = 0x05B3;
t['hatafqamatshebrew'] = 0x05B3;
t['hatafqamatsnarrowhebrew'] = 0x05B3;
t['hatafqamatsquarterhebrew'] = 0x05B3;
t['hatafqamatswidehebrew'] = 0x05B3;
t['hatafsegol'] = 0x05B1;
t['hatafsegol17'] = 0x05B1;
t['hatafsegol24'] = 0x05B1;
t['hatafsegol30'] = 0x05B1;
t['hatafsegolhebrew'] = 0x05B1;
t['hatafsegolnarrowhebrew'] = 0x05B1;
t['hatafsegolquarterhebrew'] = 0x05B1;
t['hatafsegolwidehebrew'] = 0x05B1;
t['hbar'] = 0x0127;
t['hbopomofo'] = 0x310F;
t['hbrevebelow'] = 0x1E2B;
t['hcedilla'] = 0x1E29;
t['hcircle'] = 0x24D7;
t['hcircumflex'] = 0x0125;
t['hdieresis'] = 0x1E27;
t['hdotaccent'] = 0x1E23;
t['hdotbelow'] = 0x1E25;
t['he'] = 0x05D4;
t['heart'] = 0x2665;
t['heartsuitblack'] = 0x2665;
t['heartsuitwhite'] = 0x2661;
t['hedagesh'] = 0xFB34;
t['hedageshhebrew'] = 0xFB34;
t['hehaltonearabic'] = 0x06C1;
t['heharabic'] = 0x0647;
t['hehebrew'] = 0x05D4;
t['hehfinalaltonearabic'] = 0xFBA7;
t['hehfinalalttwoarabic'] = 0xFEEA;
t['hehfinalarabic'] = 0xFEEA;
t['hehhamzaabovefinalarabic'] = 0xFBA5;
t['hehhamzaaboveisolatedarabic'] = 0xFBA4;
t['hehinitialaltonearabic'] = 0xFBA8;
t['hehinitialarabic'] = 0xFEEB;
t['hehiragana'] = 0x3078;
t['hehmedialaltonearabic'] = 0xFBA9;
t['hehmedialarabic'] = 0xFEEC;
t['heiseierasquare'] = 0x337B;
t['hekatakana'] = 0x30D8;
t['hekatakanahalfwidth'] = 0xFF8D;
t['hekutaarusquare'] = 0x3336;
t['henghook'] = 0x0267;
t['herutusquare'] = 0x3339;
t['het'] = 0x05D7;
t['hethebrew'] = 0x05D7;
t['hhook'] = 0x0266;
t['hhooksuperior'] = 0x02B1;
t['hieuhacirclekorean'] = 0x327B;
t['hieuhaparenkorean'] = 0x321B;
t['hieuhcirclekorean'] = 0x326D;
t['hieuhkorean'] = 0x314E;
t['hieuhparenkorean'] = 0x320D;
t['hihiragana'] = 0x3072;
t['hikatakana'] = 0x30D2;
t['hikatakanahalfwidth'] = 0xFF8B;
t['hiriq'] = 0x05B4;
t['hiriq14'] = 0x05B4;
t['hiriq21'] = 0x05B4;
t['hiriq2d'] = 0x05B4;
t['hiriqhebrew'] = 0x05B4;
t['hiriqnarrowhebrew'] = 0x05B4;
t['hiriqquarterhebrew'] = 0x05B4;
t['hiriqwidehebrew'] = 0x05B4;
t['hlinebelow'] = 0x1E96;
t['hmonospace'] = 0xFF48;
t['hoarmenian'] = 0x0570;
t['hohipthai'] = 0x0E2B;
t['hohiragana'] = 0x307B;
t['hokatakana'] = 0x30DB;
t['hokatakanahalfwidth'] = 0xFF8E;
t['holam'] = 0x05B9;
t['holam19'] = 0x05B9;
t['holam26'] = 0x05B9;
t['holam32'] = 0x05B9;
t['holamhebrew'] = 0x05B9;
t['holamnarrowhebrew'] = 0x05B9;
t['holamquarterhebrew'] = 0x05B9;
t['holamwidehebrew'] = 0x05B9;
t['honokhukthai'] = 0x0E2E;
t['hookabovecomb'] = 0x0309;
t['hookcmb'] = 0x0309;
t['hookpalatalizedbelowcmb'] = 0x0321;
t['hookretroflexbelowcmb'] = 0x0322;
t['hoonsquare'] = 0x3342;
t['horicoptic'] = 0x03E9;
t['horizontalbar'] = 0x2015;
t['horncmb'] = 0x031B;
t['hotsprings'] = 0x2668;
t['house'] = 0x2302;
t['hparen'] = 0x24A3;
t['hsuperior'] = 0x02B0;
t['hturned'] = 0x0265;
t['huhiragana'] = 0x3075;
t['huiitosquare'] = 0x3333;
t['hukatakana'] = 0x30D5;
t['hukatakanahalfwidth'] = 0xFF8C;
t['hungarumlaut'] = 0x02DD;
t['hungarumlautcmb'] = 0x030B;
t['hv'] = 0x0195;
t['hyphen'] = 0x002D;
t['hypheninferior'] = 0xF6E5;
t['hyphenmonospace'] = 0xFF0D;
t['hyphensmall'] = 0xFE63;
t['hyphensuperior'] = 0xF6E6;
t['hyphentwo'] = 0x2010;
t['i'] = 0x0069;
t['iacute'] = 0x00ED;
t['iacyrillic'] = 0x044F;
t['ibengali'] = 0x0987;
t['ibopomofo'] = 0x3127;
t['ibreve'] = 0x012D;
t['icaron'] = 0x01D0;
t['icircle'] = 0x24D8;
t['icircumflex'] = 0x00EE;
t['icyrillic'] = 0x0456;
t['idblgrave'] = 0x0209;
t['ideographearthcircle'] = 0x328F;
t['ideographfirecircle'] = 0x328B;
t['ideographicallianceparen'] = 0x323F;
t['ideographiccallparen'] = 0x323A;
t['ideographiccentrecircle'] = 0x32A5;
t['ideographicclose'] = 0x3006;
t['ideographiccomma'] = 0x3001;
t['ideographiccommaleft'] = 0xFF64;
t['ideographiccongratulationparen'] = 0x3237;
t['ideographiccorrectcircle'] = 0x32A3;
t['ideographicearthparen'] = 0x322F;
t['ideographicenterpriseparen'] = 0x323D;
t['ideographicexcellentcircle'] = 0x329D;
t['ideographicfestivalparen'] = 0x3240;
t['ideographicfinancialcircle'] = 0x3296;
t['ideographicfinancialparen'] = 0x3236;
t['ideographicfireparen'] = 0x322B;
t['ideographichaveparen'] = 0x3232;
t['ideographichighcircle'] = 0x32A4;
t['ideographiciterationmark'] = 0x3005;
t['ideographiclaborcircle'] = 0x3298;
t['ideographiclaborparen'] = 0x3238;
t['ideographicleftcircle'] = 0x32A7;
t['ideographiclowcircle'] = 0x32A6;
t['ideographicmedicinecircle'] = 0x32A9;
t['ideographicmetalparen'] = 0x322E;
t['ideographicmoonparen'] = 0x322A;
t['ideographicnameparen'] = 0x3234;
t['ideographicperiod'] = 0x3002;
t['ideographicprintcircle'] = 0x329E;
t['ideographicreachparen'] = 0x3243;
t['ideographicrepresentparen'] = 0x3239;
t['ideographicresourceparen'] = 0x323E;
t['ideographicrightcircle'] = 0x32A8;
t['ideographicsecretcircle'] = 0x3299;
t['ideographicselfparen'] = 0x3242;
t['ideographicsocietyparen'] = 0x3233;
t['ideographicspace'] = 0x3000;
t['ideographicspecialparen'] = 0x3235;
t['ideographicstockparen'] = 0x3231;
t['ideographicstudyparen'] = 0x323B;
t['ideographicsunparen'] = 0x3230;
t['ideographicsuperviseparen'] = 0x323C;
t['ideographicwaterparen'] = 0x322C;
t['ideographicwoodparen'] = 0x322D;
t['ideographiczero'] = 0x3007;
t['ideographmetalcircle'] = 0x328E;
t['ideographmooncircle'] = 0x328A;
t['ideographnamecircle'] = 0x3294;
t['ideographsuncircle'] = 0x3290;
t['ideographwatercircle'] = 0x328C;
t['ideographwoodcircle'] = 0x328D;
t['ideva'] = 0x0907;
t['idieresis'] = 0x00EF;
t['idieresisacute'] = 0x1E2F;
t['idieresiscyrillic'] = 0x04E5;
t['idotbelow'] = 0x1ECB;
t['iebrevecyrillic'] = 0x04D7;
t['iecyrillic'] = 0x0435;
t['ieungacirclekorean'] = 0x3275;
t['ieungaparenkorean'] = 0x3215;
t['ieungcirclekorean'] = 0x3267;
t['ieungkorean'] = 0x3147;
t['ieungparenkorean'] = 0x3207;
t['igrave'] = 0x00EC;
t['igujarati'] = 0x0A87;
t['igurmukhi'] = 0x0A07;
t['ihiragana'] = 0x3044;
t['ihookabove'] = 0x1EC9;
t['iibengali'] = 0x0988;
t['iicyrillic'] = 0x0438;
t['iideva'] = 0x0908;
t['iigujarati'] = 0x0A88;
t['iigurmukhi'] = 0x0A08;
t['iimatragurmukhi'] = 0x0A40;
t['iinvertedbreve'] = 0x020B;
t['iishortcyrillic'] = 0x0439;
t['iivowelsignbengali'] = 0x09C0;
t['iivowelsigndeva'] = 0x0940;
t['iivowelsigngujarati'] = 0x0AC0;
t['ij'] = 0x0133;
t['ikatakana'] = 0x30A4;
t['ikatakanahalfwidth'] = 0xFF72;
t['ikorean'] = 0x3163;
t['ilde'] = 0x02DC;
t['iluyhebrew'] = 0x05AC;
t['imacron'] = 0x012B;
t['imacroncyrillic'] = 0x04E3;
t['imageorapproximatelyequal'] = 0x2253;
t['imatragurmukhi'] = 0x0A3F;
t['imonospace'] = 0xFF49;
t['increment'] = 0x2206;
t['infinity'] = 0x221E;
t['iniarmenian'] = 0x056B;
t['integral'] = 0x222B;
t['integralbottom'] = 0x2321;
t['integralbt'] = 0x2321;
t['integralex'] = 0xF8F5;
t['integraltop'] = 0x2320;
t['integraltp'] = 0x2320;
t['intersection'] = 0x2229;
t['intisquare'] = 0x3305;
t['invbullet'] = 0x25D8;
t['invcircle'] = 0x25D9;
t['invsmileface'] = 0x263B;
t['iocyrillic'] = 0x0451;
t['iogonek'] = 0x012F;
t['iota'] = 0x03B9;
t['iotadieresis'] = 0x03CA;
t['iotadieresistonos'] = 0x0390;
t['iotalatin'] = 0x0269;
t['iotatonos'] = 0x03AF;
t['iparen'] = 0x24A4;
t['irigurmukhi'] = 0x0A72;
t['ismallhiragana'] = 0x3043;
t['ismallkatakana'] = 0x30A3;
t['ismallkatakanahalfwidth'] = 0xFF68;
t['issharbengali'] = 0x09FA;
t['istroke'] = 0x0268;
t['isuperior'] = 0xF6ED;
t['iterationhiragana'] = 0x309D;
t['iterationkatakana'] = 0x30FD;
t['itilde'] = 0x0129;
t['itildebelow'] = 0x1E2D;
t['iubopomofo'] = 0x3129;
t['iucyrillic'] = 0x044E;
t['ivowelsignbengali'] = 0x09BF;
t['ivowelsigndeva'] = 0x093F;
t['ivowelsigngujarati'] = 0x0ABF;
t['izhitsacyrillic'] = 0x0475;
t['izhitsadblgravecyrillic'] = 0x0477;
t['j'] = 0x006A;
t['jaarmenian'] = 0x0571;
t['jabengali'] = 0x099C;
t['jadeva'] = 0x091C;
t['jagujarati'] = 0x0A9C;
t['jagurmukhi'] = 0x0A1C;
t['jbopomofo'] = 0x3110;
t['jcaron'] = 0x01F0;
t['jcircle'] = 0x24D9;
t['jcircumflex'] = 0x0135;
t['jcrossedtail'] = 0x029D;
t['jdotlessstroke'] = 0x025F;
t['jecyrillic'] = 0x0458;
t['jeemarabic'] = 0x062C;
t['jeemfinalarabic'] = 0xFE9E;
t['jeeminitialarabic'] = 0xFE9F;
t['jeemmedialarabic'] = 0xFEA0;
t['jeharabic'] = 0x0698;
t['jehfinalarabic'] = 0xFB8B;
t['jhabengali'] = 0x099D;
t['jhadeva'] = 0x091D;
t['jhagujarati'] = 0x0A9D;
t['jhagurmukhi'] = 0x0A1D;
t['jheharmenian'] = 0x057B;
t['jis'] = 0x3004;
t['jmonospace'] = 0xFF4A;
t['jparen'] = 0x24A5;
t['jsuperior'] = 0x02B2;
t['k'] = 0x006B;
t['kabashkircyrillic'] = 0x04A1;
t['kabengali'] = 0x0995;
t['kacute'] = 0x1E31;
t['kacyrillic'] = 0x043A;
t['kadescendercyrillic'] = 0x049B;
t['kadeva'] = 0x0915;
t['kaf'] = 0x05DB;
t['kafarabic'] = 0x0643;
t['kafdagesh'] = 0xFB3B;
t['kafdageshhebrew'] = 0xFB3B;
t['kaffinalarabic'] = 0xFEDA;
t['kafhebrew'] = 0x05DB;
t['kafinitialarabic'] = 0xFEDB;
t['kafmedialarabic'] = 0xFEDC;
t['kafrafehebrew'] = 0xFB4D;
t['kagujarati'] = 0x0A95;
t['kagurmukhi'] = 0x0A15;
t['kahiragana'] = 0x304B;
t['kahookcyrillic'] = 0x04C4;
t['kakatakana'] = 0x30AB;
t['kakatakanahalfwidth'] = 0xFF76;
t['kappa'] = 0x03BA;
t['kappasymbolgreek'] = 0x03F0;
t['kapyeounmieumkorean'] = 0x3171;
t['kapyeounphieuphkorean'] = 0x3184;
t['kapyeounpieupkorean'] = 0x3178;
t['kapyeounssangpieupkorean'] = 0x3179;
t['karoriisquare'] = 0x330D;
t['kashidaautoarabic'] = 0x0640;
t['kashidaautonosidebearingarabic'] = 0x0640;
t['kasmallkatakana'] = 0x30F5;
t['kasquare'] = 0x3384;
t['kasraarabic'] = 0x0650;
t['kasratanarabic'] = 0x064D;
t['kastrokecyrillic'] = 0x049F;
t['katahiraprolongmarkhalfwidth'] = 0xFF70;
t['kaverticalstrokecyrillic'] = 0x049D;
t['kbopomofo'] = 0x310E;
t['kcalsquare'] = 0x3389;
t['kcaron'] = 0x01E9;
t['kcedilla'] = 0x0137;
t['kcircle'] = 0x24DA;
t['kcommaaccent'] = 0x0137;
t['kdotbelow'] = 0x1E33;
t['keharmenian'] = 0x0584;
t['kehiragana'] = 0x3051;
t['kekatakana'] = 0x30B1;
t['kekatakanahalfwidth'] = 0xFF79;
t['kenarmenian'] = 0x056F;
t['kesmallkatakana'] = 0x30F6;
t['kgreenlandic'] = 0x0138;
t['khabengali'] = 0x0996;
t['khacyrillic'] = 0x0445;
t['khadeva'] = 0x0916;
t['khagujarati'] = 0x0A96;
t['khagurmukhi'] = 0x0A16;
t['khaharabic'] = 0x062E;
t['khahfinalarabic'] = 0xFEA6;
t['khahinitialarabic'] = 0xFEA7;
t['khahmedialarabic'] = 0xFEA8;
t['kheicoptic'] = 0x03E7;
t['khhadeva'] = 0x0959;
t['khhagurmukhi'] = 0x0A59;
t['khieukhacirclekorean'] = 0x3278;
t['khieukhaparenkorean'] = 0x3218;
t['khieukhcirclekorean'] = 0x326A;
t['khieukhkorean'] = 0x314B;
t['khieukhparenkorean'] = 0x320A;
t['khokhaithai'] = 0x0E02;
t['khokhonthai'] = 0x0E05;
t['khokhuatthai'] = 0x0E03;
t['khokhwaithai'] = 0x0E04;
t['khomutthai'] = 0x0E5B;
t['khook'] = 0x0199;
t['khorakhangthai'] = 0x0E06;
t['khzsquare'] = 0x3391;
t['kihiragana'] = 0x304D;
t['kikatakana'] = 0x30AD;
t['kikatakanahalfwidth'] = 0xFF77;
t['kiroguramusquare'] = 0x3315;
t['kiromeetorusquare'] = 0x3316;
t['kirosquare'] = 0x3314;
t['kiyeokacirclekorean'] = 0x326E;
t['kiyeokaparenkorean'] = 0x320E;
t['kiyeokcirclekorean'] = 0x3260;
t['kiyeokkorean'] = 0x3131;
t['kiyeokparenkorean'] = 0x3200;
t['kiyeoksioskorean'] = 0x3133;
t['kjecyrillic'] = 0x045C;
t['klinebelow'] = 0x1E35;
t['klsquare'] = 0x3398;
t['kmcubedsquare'] = 0x33A6;
t['kmonospace'] = 0xFF4B;
t['kmsquaredsquare'] = 0x33A2;
t['kohiragana'] = 0x3053;
t['kohmsquare'] = 0x33C0;
t['kokaithai'] = 0x0E01;
t['kokatakana'] = 0x30B3;
t['kokatakanahalfwidth'] = 0xFF7A;
t['kooposquare'] = 0x331E;
t['koppacyrillic'] = 0x0481;
t['koreanstandardsymbol'] = 0x327F;
t['koroniscmb'] = 0x0343;
t['kparen'] = 0x24A6;
t['kpasquare'] = 0x33AA;
t['ksicyrillic'] = 0x046F;
t['ktsquare'] = 0x33CF;
t['kturned'] = 0x029E;
t['kuhiragana'] = 0x304F;
t['kukatakana'] = 0x30AF;
t['kukatakanahalfwidth'] = 0xFF78;
t['kvsquare'] = 0x33B8;
t['kwsquare'] = 0x33BE;
t['l'] = 0x006C;
t['labengali'] = 0x09B2;
t['lacute'] = 0x013A;
t['ladeva'] = 0x0932;
t['lagujarati'] = 0x0AB2;
t['lagurmukhi'] = 0x0A32;
t['lakkhangyaothai'] = 0x0E45;
t['lamaleffinalarabic'] = 0xFEFC;
t['lamalefhamzaabovefinalarabic'] = 0xFEF8;
t['lamalefhamzaaboveisolatedarabic'] = 0xFEF7;
t['lamalefhamzabelowfinalarabic'] = 0xFEFA;
t['lamalefhamzabelowisolatedarabic'] = 0xFEF9;
t['lamalefisolatedarabic'] = 0xFEFB;
t['lamalefmaddaabovefinalarabic'] = 0xFEF6;
t['lamalefmaddaaboveisolatedarabic'] = 0xFEF5;
t['lamarabic'] = 0x0644;
t['lambda'] = 0x03BB;
t['lambdastroke'] = 0x019B;
t['lamed'] = 0x05DC;
t['lameddagesh'] = 0xFB3C;
t['lameddageshhebrew'] = 0xFB3C;
t['lamedhebrew'] = 0x05DC;
t['lamfinalarabic'] = 0xFEDE;
t['lamhahinitialarabic'] = 0xFCCA;
t['laminitialarabic'] = 0xFEDF;
t['lamjeeminitialarabic'] = 0xFCC9;
t['lamkhahinitialarabic'] = 0xFCCB;
t['lamlamhehisolatedarabic'] = 0xFDF2;
t['lammedialarabic'] = 0xFEE0;
t['lammeemhahinitialarabic'] = 0xFD88;
t['lammeeminitialarabic'] = 0xFCCC;
t['largecircle'] = 0x25EF;
t['lbar'] = 0x019A;
t['lbelt'] = 0x026C;
t['lbopomofo'] = 0x310C;
t['lcaron'] = 0x013E;
t['lcedilla'] = 0x013C;
t['lcircle'] = 0x24DB;
t['lcircumflexbelow'] = 0x1E3D;
t['lcommaaccent'] = 0x013C;
t['ldot'] = 0x0140;
t['ldotaccent'] = 0x0140;
t['ldotbelow'] = 0x1E37;
t['ldotbelowmacron'] = 0x1E39;
t['leftangleabovecmb'] = 0x031A;
t['lefttackbelowcmb'] = 0x0318;
t['less'] = 0x003C;
t['lessequal'] = 0x2264;
t['lessequalorgreater'] = 0x22DA;
t['lessmonospace'] = 0xFF1C;
t['lessorequivalent'] = 0x2272;
t['lessorgreater'] = 0x2276;
t['lessoverequal'] = 0x2266;
t['lesssmall'] = 0xFE64;
t['lezh'] = 0x026E;
t['lfblock'] = 0x258C;
t['lhookretroflex'] = 0x026D;
t['lira'] = 0x20A4;
t['liwnarmenian'] = 0x056C;
t['lj'] = 0x01C9;
t['ljecyrillic'] = 0x0459;
t['ll'] = 0xF6C0;
t['lladeva'] = 0x0933;
t['llagujarati'] = 0x0AB3;
t['llinebelow'] = 0x1E3B;
t['llladeva'] = 0x0934;
t['llvocalicbengali'] = 0x09E1;
t['llvocalicdeva'] = 0x0961;
t['llvocalicvowelsignbengali'] = 0x09E3;
t['llvocalicvowelsigndeva'] = 0x0963;
t['lmiddletilde'] = 0x026B;
t['lmonospace'] = 0xFF4C;
t['lmsquare'] = 0x33D0;
t['lochulathai'] = 0x0E2C;
t['logicaland'] = 0x2227;
t['logicalnot'] = 0x00AC;
t['logicalnotreversed'] = 0x2310;
t['logicalor'] = 0x2228;
t['lolingthai'] = 0x0E25;
t['longs'] = 0x017F;
t['lowlinecenterline'] = 0xFE4E;
t['lowlinecmb'] = 0x0332;
t['lowlinedashed'] = 0xFE4D;
t['lozenge'] = 0x25CA;
t['lparen'] = 0x24A7;
t['lslash'] = 0x0142;
t['lsquare'] = 0x2113;
t['lsuperior'] = 0xF6EE;
t['ltshade'] = 0x2591;
t['luthai'] = 0x0E26;
t['lvocalicbengali'] = 0x098C;
t['lvocalicdeva'] = 0x090C;
t['lvocalicvowelsignbengali'] = 0x09E2;
t['lvocalicvowelsigndeva'] = 0x0962;
t['lxsquare'] = 0x33D3;
t['m'] = 0x006D;
t['mabengali'] = 0x09AE;
t['macron'] = 0x00AF;
t['macronbelowcmb'] = 0x0331;
t['macroncmb'] = 0x0304;
t['macronlowmod'] = 0x02CD;
t['macronmonospace'] = 0xFFE3;
t['macute'] = 0x1E3F;
t['madeva'] = 0x092E;
t['magujarati'] = 0x0AAE;
t['magurmukhi'] = 0x0A2E;
t['mahapakhhebrew'] = 0x05A4;
t['mahapakhlefthebrew'] = 0x05A4;
t['mahiragana'] = 0x307E;
t['maichattawalowleftthai'] = 0xF895;
t['maichattawalowrightthai'] = 0xF894;
t['maichattawathai'] = 0x0E4B;
t['maichattawaupperleftthai'] = 0xF893;
t['maieklowleftthai'] = 0xF88C;
t['maieklowrightthai'] = 0xF88B;
t['maiekthai'] = 0x0E48;
t['maiekupperleftthai'] = 0xF88A;
t['maihanakatleftthai'] = 0xF884;
t['maihanakatthai'] = 0x0E31;
t['maitaikhuleftthai'] = 0xF889;
t['maitaikhuthai'] = 0x0E47;
t['maitholowleftthai'] = 0xF88F;
t['maitholowrightthai'] = 0xF88E;
t['maithothai'] = 0x0E49;
t['maithoupperleftthai'] = 0xF88D;
t['maitrilowleftthai'] = 0xF892;
t['maitrilowrightthai'] = 0xF891;
t['maitrithai'] = 0x0E4A;
t['maitriupperleftthai'] = 0xF890;
t['maiyamokthai'] = 0x0E46;
t['makatakana'] = 0x30DE;
t['makatakanahalfwidth'] = 0xFF8F;
t['male'] = 0x2642;
t['mansyonsquare'] = 0x3347;
t['maqafhebrew'] = 0x05BE;
t['mars'] = 0x2642;
t['masoracirclehebrew'] = 0x05AF;
t['masquare'] = 0x3383;
t['mbopomofo'] = 0x3107;
t['mbsquare'] = 0x33D4;
t['mcircle'] = 0x24DC;
t['mcubedsquare'] = 0x33A5;
t['mdotaccent'] = 0x1E41;
t['mdotbelow'] = 0x1E43;
t['meemarabic'] = 0x0645;
t['meemfinalarabic'] = 0xFEE2;
t['meeminitialarabic'] = 0xFEE3;
t['meemmedialarabic'] = 0xFEE4;
t['meemmeeminitialarabic'] = 0xFCD1;
t['meemmeemisolatedarabic'] = 0xFC48;
t['meetorusquare'] = 0x334D;
t['mehiragana'] = 0x3081;
t['meizierasquare'] = 0x337E;
t['mekatakana'] = 0x30E1;
t['mekatakanahalfwidth'] = 0xFF92;
t['mem'] = 0x05DE;
t['memdagesh'] = 0xFB3E;
t['memdageshhebrew'] = 0xFB3E;
t['memhebrew'] = 0x05DE;
t['menarmenian'] = 0x0574;
t['merkhahebrew'] = 0x05A5;
t['merkhakefulahebrew'] = 0x05A6;
t['merkhakefulalefthebrew'] = 0x05A6;
t['merkhalefthebrew'] = 0x05A5;
t['mhook'] = 0x0271;
t['mhzsquare'] = 0x3392;
t['middledotkatakanahalfwidth'] = 0xFF65;
t['middot'] = 0x00B7;
t['mieumacirclekorean'] = 0x3272;
t['mieumaparenkorean'] = 0x3212;
t['mieumcirclekorean'] = 0x3264;
t['mieumkorean'] = 0x3141;
t['mieumpansioskorean'] = 0x3170;
t['mieumparenkorean'] = 0x3204;
t['mieumpieupkorean'] = 0x316E;
t['mieumsioskorean'] = 0x316F;
t['mihiragana'] = 0x307F;
t['mikatakana'] = 0x30DF;
t['mikatakanahalfwidth'] = 0xFF90;
t['minus'] = 0x2212;
t['minusbelowcmb'] = 0x0320;
t['minuscircle'] = 0x2296;
t['minusmod'] = 0x02D7;
t['minusplus'] = 0x2213;
t['minute'] = 0x2032;
t['miribaarusquare'] = 0x334A;
t['mirisquare'] = 0x3349;
t['mlonglegturned'] = 0x0270;
t['mlsquare'] = 0x3396;
t['mmcubedsquare'] = 0x33A3;
t['mmonospace'] = 0xFF4D;
t['mmsquaredsquare'] = 0x339F;
t['mohiragana'] = 0x3082;
t['mohmsquare'] = 0x33C1;
t['mokatakana'] = 0x30E2;
t['mokatakanahalfwidth'] = 0xFF93;
t['molsquare'] = 0x33D6;
t['momathai'] = 0x0E21;
t['moverssquare'] = 0x33A7;
t['moverssquaredsquare'] = 0x33A8;
t['mparen'] = 0x24A8;
t['mpasquare'] = 0x33AB;
t['mssquare'] = 0x33B3;
t['msuperior'] = 0xF6EF;
t['mturned'] = 0x026F;
t['mu'] = 0x00B5;
t['mu1'] = 0x00B5;
t['muasquare'] = 0x3382;
t['muchgreater'] = 0x226B;
t['muchless'] = 0x226A;
t['mufsquare'] = 0x338C;
t['mugreek'] = 0x03BC;
t['mugsquare'] = 0x338D;
t['muhiragana'] = 0x3080;
t['mukatakana'] = 0x30E0;
t['mukatakanahalfwidth'] = 0xFF91;
t['mulsquare'] = 0x3395;
t['multiply'] = 0x00D7;
t['mumsquare'] = 0x339B;
t['munahhebrew'] = 0x05A3;
t['munahlefthebrew'] = 0x05A3;
t['musicalnote'] = 0x266A;
t['musicalnotedbl'] = 0x266B;
t['musicflatsign'] = 0x266D;
t['musicsharpsign'] = 0x266F;
t['mussquare'] = 0x33B2;
t['muvsquare'] = 0x33B6;
t['muwsquare'] = 0x33BC;
t['mvmegasquare'] = 0x33B9;
t['mvsquare'] = 0x33B7;
t['mwmegasquare'] = 0x33BF;
t['mwsquare'] = 0x33BD;
t['n'] = 0x006E;
t['nabengali'] = 0x09A8;
t['nabla'] = 0x2207;
t['nacute'] = 0x0144;
t['nadeva'] = 0x0928;
t['nagujarati'] = 0x0AA8;
t['nagurmukhi'] = 0x0A28;
t['nahiragana'] = 0x306A;
t['nakatakana'] = 0x30CA;
t['nakatakanahalfwidth'] = 0xFF85;
t['napostrophe'] = 0x0149;
t['nasquare'] = 0x3381;
t['nbopomofo'] = 0x310B;
t['nbspace'] = 0x00A0;
t['ncaron'] = 0x0148;
t['ncedilla'] = 0x0146;
t['ncircle'] = 0x24DD;
t['ncircumflexbelow'] = 0x1E4B;
t['ncommaaccent'] = 0x0146;
t['ndotaccent'] = 0x1E45;
t['ndotbelow'] = 0x1E47;
t['nehiragana'] = 0x306D;
t['nekatakana'] = 0x30CD;
t['nekatakanahalfwidth'] = 0xFF88;
t['newsheqelsign'] = 0x20AA;
t['nfsquare'] = 0x338B;
t['ngabengali'] = 0x0999;
t['ngadeva'] = 0x0919;
t['ngagujarati'] = 0x0A99;
t['ngagurmukhi'] = 0x0A19;
t['ngonguthai'] = 0x0E07;
t['nhiragana'] = 0x3093;
t['nhookleft'] = 0x0272;
t['nhookretroflex'] = 0x0273;
t['nieunacirclekorean'] = 0x326F;
t['nieunaparenkorean'] = 0x320F;
t['nieuncieuckorean'] = 0x3135;
t['nieuncirclekorean'] = 0x3261;
t['nieunhieuhkorean'] = 0x3136;
t['nieunkorean'] = 0x3134;
t['nieunpansioskorean'] = 0x3168;
t['nieunparenkorean'] = 0x3201;
t['nieunsioskorean'] = 0x3167;
t['nieuntikeutkorean'] = 0x3166;
t['nihiragana'] = 0x306B;
t['nikatakana'] = 0x30CB;
t['nikatakanahalfwidth'] = 0xFF86;
t['nikhahitleftthai'] = 0xF899;
t['nikhahitthai'] = 0x0E4D;
t['nine'] = 0x0039;
t['ninearabic'] = 0x0669;
t['ninebengali'] = 0x09EF;
t['ninecircle'] = 0x2468;
t['ninecircleinversesansserif'] = 0x2792;
t['ninedeva'] = 0x096F;
t['ninegujarati'] = 0x0AEF;
t['ninegurmukhi'] = 0x0A6F;
t['ninehackarabic'] = 0x0669;
t['ninehangzhou'] = 0x3029;
t['nineideographicparen'] = 0x3228;
t['nineinferior'] = 0x2089;
t['ninemonospace'] = 0xFF19;
t['nineoldstyle'] = 0xF739;
t['nineparen'] = 0x247C;
t['nineperiod'] = 0x2490;
t['ninepersian'] = 0x06F9;
t['nineroman'] = 0x2178;
t['ninesuperior'] = 0x2079;
t['nineteencircle'] = 0x2472;
t['nineteenparen'] = 0x2486;
t['nineteenperiod'] = 0x249A;
t['ninethai'] = 0x0E59;
t['nj'] = 0x01CC;
t['njecyrillic'] = 0x045A;
t['nkatakana'] = 0x30F3;
t['nkatakanahalfwidth'] = 0xFF9D;
t['nlegrightlong'] = 0x019E;
t['nlinebelow'] = 0x1E49;
t['nmonospace'] = 0xFF4E;
t['nmsquare'] = 0x339A;
t['nnabengali'] = 0x09A3;
t['nnadeva'] = 0x0923;
t['nnagujarati'] = 0x0AA3;
t['nnagurmukhi'] = 0x0A23;
t['nnnadeva'] = 0x0929;
t['nohiragana'] = 0x306E;
t['nokatakana'] = 0x30CE;
t['nokatakanahalfwidth'] = 0xFF89;
t['nonbreakingspace'] = 0x00A0;
t['nonenthai'] = 0x0E13;
t['nonuthai'] = 0x0E19;
t['noonarabic'] = 0x0646;
t['noonfinalarabic'] = 0xFEE6;
t['noonghunnaarabic'] = 0x06BA;
t['noonghunnafinalarabic'] = 0xFB9F;
t['nooninitialarabic'] = 0xFEE7;
t['noonjeeminitialarabic'] = 0xFCD2;
t['noonjeemisolatedarabic'] = 0xFC4B;
t['noonmedialarabic'] = 0xFEE8;
t['noonmeeminitialarabic'] = 0xFCD5;
t['noonmeemisolatedarabic'] = 0xFC4E;
t['noonnoonfinalarabic'] = 0xFC8D;
t['notcontains'] = 0x220C;
t['notelement'] = 0x2209;
t['notelementof'] = 0x2209;
t['notequal'] = 0x2260;
t['notgreater'] = 0x226F;
t['notgreaternorequal'] = 0x2271;
t['notgreaternorless'] = 0x2279;
t['notidentical'] = 0x2262;
t['notless'] = 0x226E;
t['notlessnorequal'] = 0x2270;
t['notparallel'] = 0x2226;
t['notprecedes'] = 0x2280;
t['notsubset'] = 0x2284;
t['notsucceeds'] = 0x2281;
t['notsuperset'] = 0x2285;
t['nowarmenian'] = 0x0576;
t['nparen'] = 0x24A9;
t['nssquare'] = 0x33B1;
t['nsuperior'] = 0x207F;
t['ntilde'] = 0x00F1;
t['nu'] = 0x03BD;
t['nuhiragana'] = 0x306C;
t['nukatakana'] = 0x30CC;
t['nukatakanahalfwidth'] = 0xFF87;
t['nuktabengali'] = 0x09BC;
t['nuktadeva'] = 0x093C;
t['nuktagujarati'] = 0x0ABC;
t['nuktagurmukhi'] = 0x0A3C;
t['numbersign'] = 0x0023;
t['numbersignmonospace'] = 0xFF03;
t['numbersignsmall'] = 0xFE5F;
t['numeralsigngreek'] = 0x0374;
t['numeralsignlowergreek'] = 0x0375;
t['numero'] = 0x2116;
t['nun'] = 0x05E0;
t['nundagesh'] = 0xFB40;
t['nundageshhebrew'] = 0xFB40;
t['nunhebrew'] = 0x05E0;
t['nvsquare'] = 0x33B5;
t['nwsquare'] = 0x33BB;
t['nyabengali'] = 0x099E;
t['nyadeva'] = 0x091E;
t['nyagujarati'] = 0x0A9E;
t['nyagurmukhi'] = 0x0A1E;
t['o'] = 0x006F;
t['oacute'] = 0x00F3;
t['oangthai'] = 0x0E2D;
t['obarred'] = 0x0275;
t['obarredcyrillic'] = 0x04E9;
t['obarreddieresiscyrillic'] = 0x04EB;
t['obengali'] = 0x0993;
t['obopomofo'] = 0x311B;
t['obreve'] = 0x014F;
t['ocandradeva'] = 0x0911;
t['ocandragujarati'] = 0x0A91;
t['ocandravowelsigndeva'] = 0x0949;
t['ocandravowelsigngujarati'] = 0x0AC9;
t['ocaron'] = 0x01D2;
t['ocircle'] = 0x24DE;
t['ocircumflex'] = 0x00F4;
t['ocircumflexacute'] = 0x1ED1;
t['ocircumflexdotbelow'] = 0x1ED9;
t['ocircumflexgrave'] = 0x1ED3;
t['ocircumflexhookabove'] = 0x1ED5;
t['ocircumflextilde'] = 0x1ED7;
t['ocyrillic'] = 0x043E;
t['odblacute'] = 0x0151;
t['odblgrave'] = 0x020D;
t['odeva'] = 0x0913;
t['odieresis'] = 0x00F6;
t['odieresiscyrillic'] = 0x04E7;
t['odotbelow'] = 0x1ECD;
t['oe'] = 0x0153;
t['oekorean'] = 0x315A;
t['ogonek'] = 0x02DB;
t['ogonekcmb'] = 0x0328;
t['ograve'] = 0x00F2;
t['ogujarati'] = 0x0A93;
t['oharmenian'] = 0x0585;
t['ohiragana'] = 0x304A;
t['ohookabove'] = 0x1ECF;
t['ohorn'] = 0x01A1;
t['ohornacute'] = 0x1EDB;
t['ohorndotbelow'] = 0x1EE3;
t['ohorngrave'] = 0x1EDD;
t['ohornhookabove'] = 0x1EDF;
t['ohorntilde'] = 0x1EE1;
t['ohungarumlaut'] = 0x0151;
t['oi'] = 0x01A3;
t['oinvertedbreve'] = 0x020F;
t['okatakana'] = 0x30AA;
t['okatakanahalfwidth'] = 0xFF75;
t['okorean'] = 0x3157;
t['olehebrew'] = 0x05AB;
t['omacron'] = 0x014D;
t['omacronacute'] = 0x1E53;
t['omacrongrave'] = 0x1E51;
t['omdeva'] = 0x0950;
t['omega'] = 0x03C9;
t['omega1'] = 0x03D6;
t['omegacyrillic'] = 0x0461;
t['omegalatinclosed'] = 0x0277;
t['omegaroundcyrillic'] = 0x047B;
t['omegatitlocyrillic'] = 0x047D;
t['omegatonos'] = 0x03CE;
t['omgujarati'] = 0x0AD0;
t['omicron'] = 0x03BF;
t['omicrontonos'] = 0x03CC;
t['omonospace'] = 0xFF4F;
t['one'] = 0x0031;
t['onearabic'] = 0x0661;
t['onebengali'] = 0x09E7;
t['onecircle'] = 0x2460;
t['onecircleinversesansserif'] = 0x278A;
t['onedeva'] = 0x0967;
t['onedotenleader'] = 0x2024;
t['oneeighth'] = 0x215B;
t['onefitted'] = 0xF6DC;
t['onegujarati'] = 0x0AE7;
t['onegurmukhi'] = 0x0A67;
t['onehackarabic'] = 0x0661;
t['onehalf'] = 0x00BD;
t['onehangzhou'] = 0x3021;
t['oneideographicparen'] = 0x3220;
t['oneinferior'] = 0x2081;
t['onemonospace'] = 0xFF11;
t['onenumeratorbengali'] = 0x09F4;
t['oneoldstyle'] = 0xF731;
t['oneparen'] = 0x2474;
t['oneperiod'] = 0x2488;
t['onepersian'] = 0x06F1;
t['onequarter'] = 0x00BC;
t['oneroman'] = 0x2170;
t['onesuperior'] = 0x00B9;
t['onethai'] = 0x0E51;
t['onethird'] = 0x2153;
t['oogonek'] = 0x01EB;
t['oogonekmacron'] = 0x01ED;
t['oogurmukhi'] = 0x0A13;
t['oomatragurmukhi'] = 0x0A4B;
t['oopen'] = 0x0254;
t['oparen'] = 0x24AA;
t['openbullet'] = 0x25E6;
t['option'] = 0x2325;
t['ordfeminine'] = 0x00AA;
t['ordmasculine'] = 0x00BA;
t['orthogonal'] = 0x221F;
t['oshortdeva'] = 0x0912;
t['oshortvowelsigndeva'] = 0x094A;
t['oslash'] = 0x00F8;
t['oslashacute'] = 0x01FF;
t['osmallhiragana'] = 0x3049;
t['osmallkatakana'] = 0x30A9;
t['osmallkatakanahalfwidth'] = 0xFF6B;
t['ostrokeacute'] = 0x01FF;
t['osuperior'] = 0xF6F0;
t['otcyrillic'] = 0x047F;
t['otilde'] = 0x00F5;
t['otildeacute'] = 0x1E4D;
t['otildedieresis'] = 0x1E4F;
t['oubopomofo'] = 0x3121;
t['overline'] = 0x203E;
t['overlinecenterline'] = 0xFE4A;
t['overlinecmb'] = 0x0305;
t['overlinedashed'] = 0xFE49;
t['overlinedblwavy'] = 0xFE4C;
t['overlinewavy'] = 0xFE4B;
t['overscore'] = 0x00AF;
t['ovowelsignbengali'] = 0x09CB;
t['ovowelsigndeva'] = 0x094B;
t['ovowelsigngujarati'] = 0x0ACB;
t['p'] = 0x0070;
t['paampssquare'] = 0x3380;
t['paasentosquare'] = 0x332B;
t['pabengali'] = 0x09AA;
t['pacute'] = 0x1E55;
t['padeva'] = 0x092A;
t['pagedown'] = 0x21DF;
t['pageup'] = 0x21DE;
t['pagujarati'] = 0x0AAA;
t['pagurmukhi'] = 0x0A2A;
t['pahiragana'] = 0x3071;
t['paiyannoithai'] = 0x0E2F;
t['pakatakana'] = 0x30D1;
t['palatalizationcyrilliccmb'] = 0x0484;
t['palochkacyrillic'] = 0x04C0;
t['pansioskorean'] = 0x317F;
t['paragraph'] = 0x00B6;
t['parallel'] = 0x2225;
t['parenleft'] = 0x0028;
t['parenleftaltonearabic'] = 0xFD3E;
t['parenleftbt'] = 0xF8ED;
t['parenleftex'] = 0xF8EC;
t['parenleftinferior'] = 0x208D;
t['parenleftmonospace'] = 0xFF08;
t['parenleftsmall'] = 0xFE59;
t['parenleftsuperior'] = 0x207D;
t['parenlefttp'] = 0xF8EB;
t['parenleftvertical'] = 0xFE35;
t['parenright'] = 0x0029;
t['parenrightaltonearabic'] = 0xFD3F;
t['parenrightbt'] = 0xF8F8;
t['parenrightex'] = 0xF8F7;
t['parenrightinferior'] = 0x208E;
t['parenrightmonospace'] = 0xFF09;
t['parenrightsmall'] = 0xFE5A;
t['parenrightsuperior'] = 0x207E;
t['parenrighttp'] = 0xF8F6;
t['parenrightvertical'] = 0xFE36;
t['partialdiff'] = 0x2202;
t['paseqhebrew'] = 0x05C0;
t['pashtahebrew'] = 0x0599;
t['pasquare'] = 0x33A9;
t['patah'] = 0x05B7;
t['patah11'] = 0x05B7;
t['patah1d'] = 0x05B7;
t['patah2a'] = 0x05B7;
t['patahhebrew'] = 0x05B7;
t['patahnarrowhebrew'] = 0x05B7;
t['patahquarterhebrew'] = 0x05B7;
t['patahwidehebrew'] = 0x05B7;
t['pazerhebrew'] = 0x05A1;
t['pbopomofo'] = 0x3106;
t['pcircle'] = 0x24DF;
t['pdotaccent'] = 0x1E57;
t['pe'] = 0x05E4;
t['pecyrillic'] = 0x043F;
t['pedagesh'] = 0xFB44;
t['pedageshhebrew'] = 0xFB44;
t['peezisquare'] = 0x333B;
t['pefinaldageshhebrew'] = 0xFB43;
t['peharabic'] = 0x067E;
t['peharmenian'] = 0x057A;
t['pehebrew'] = 0x05E4;
t['pehfinalarabic'] = 0xFB57;
t['pehinitialarabic'] = 0xFB58;
t['pehiragana'] = 0x307A;
t['pehmedialarabic'] = 0xFB59;
t['pekatakana'] = 0x30DA;
t['pemiddlehookcyrillic'] = 0x04A7;
t['perafehebrew'] = 0xFB4E;
t['percent'] = 0x0025;
t['percentarabic'] = 0x066A;
t['percentmonospace'] = 0xFF05;
t['percentsmall'] = 0xFE6A;
t['period'] = 0x002E;
t['periodarmenian'] = 0x0589;
t['periodcentered'] = 0x00B7;
t['periodhalfwidth'] = 0xFF61;
t['periodinferior'] = 0xF6E7;
t['periodmonospace'] = 0xFF0E;
t['periodsmall'] = 0xFE52;
t['periodsuperior'] = 0xF6E8;
t['perispomenigreekcmb'] = 0x0342;
t['perpendicular'] = 0x22A5;
t['perthousand'] = 0x2030;
t['peseta'] = 0x20A7;
t['pfsquare'] = 0x338A;
t['phabengali'] = 0x09AB;
t['phadeva'] = 0x092B;
t['phagujarati'] = 0x0AAB;
t['phagurmukhi'] = 0x0A2B;
t['phi'] = 0x03C6;
t['phi1'] = 0x03D5;
t['phieuphacirclekorean'] = 0x327A;
t['phieuphaparenkorean'] = 0x321A;
t['phieuphcirclekorean'] = 0x326C;
t['phieuphkorean'] = 0x314D;
t['phieuphparenkorean'] = 0x320C;
t['philatin'] = 0x0278;
t['phinthuthai'] = 0x0E3A;
t['phisymbolgreek'] = 0x03D5;
t['phook'] = 0x01A5;
t['phophanthai'] = 0x0E1E;
t['phophungthai'] = 0x0E1C;
t['phosamphaothai'] = 0x0E20;
t['pi'] = 0x03C0;
t['pieupacirclekorean'] = 0x3273;
t['pieupaparenkorean'] = 0x3213;
t['pieupcieuckorean'] = 0x3176;
t['pieupcirclekorean'] = 0x3265;
t['pieupkiyeokkorean'] = 0x3172;
t['pieupkorean'] = 0x3142;
t['pieupparenkorean'] = 0x3205;
t['pieupsioskiyeokkorean'] = 0x3174;
t['pieupsioskorean'] = 0x3144;
t['pieupsiostikeutkorean'] = 0x3175;
t['pieupthieuthkorean'] = 0x3177;
t['pieuptikeutkorean'] = 0x3173;
t['pihiragana'] = 0x3074;
t['pikatakana'] = 0x30D4;
t['pisymbolgreek'] = 0x03D6;
t['piwrarmenian'] = 0x0583;
t['plus'] = 0x002B;
t['plusbelowcmb'] = 0x031F;
t['pluscircle'] = 0x2295;
t['plusminus'] = 0x00B1;
t['plusmod'] = 0x02D6;
t['plusmonospace'] = 0xFF0B;
t['plussmall'] = 0xFE62;
t['plussuperior'] = 0x207A;
t['pmonospace'] = 0xFF50;
t['pmsquare'] = 0x33D8;
t['pohiragana'] = 0x307D;
t['pointingindexdownwhite'] = 0x261F;
t['pointingindexleftwhite'] = 0x261C;
t['pointingindexrightwhite'] = 0x261E;
t['pointingindexupwhite'] = 0x261D;
t['pokatakana'] = 0x30DD;
t['poplathai'] = 0x0E1B;
t['postalmark'] = 0x3012;
t['postalmarkface'] = 0x3020;
t['pparen'] = 0x24AB;
t['precedes'] = 0x227A;
t['prescription'] = 0x211E;
t['primemod'] = 0x02B9;
t['primereversed'] = 0x2035;
t['product'] = 0x220F;
t['projective'] = 0x2305;
t['prolongedkana'] = 0x30FC;
t['propellor'] = 0x2318;
t['propersubset'] = 0x2282;
t['propersuperset'] = 0x2283;
t['proportion'] = 0x2237;
t['proportional'] = 0x221D;
t['psi'] = 0x03C8;
t['psicyrillic'] = 0x0471;
t['psilipneumatacyrilliccmb'] = 0x0486;
t['pssquare'] = 0x33B0;
t['puhiragana'] = 0x3077;
t['pukatakana'] = 0x30D7;
t['pvsquare'] = 0x33B4;
t['pwsquare'] = 0x33BA;
t['q'] = 0x0071;
t['qadeva'] = 0x0958;
t['qadmahebrew'] = 0x05A8;
t['qafarabic'] = 0x0642;
t['qaffinalarabic'] = 0xFED6;
t['qafinitialarabic'] = 0xFED7;
t['qafmedialarabic'] = 0xFED8;
t['qamats'] = 0x05B8;
t['qamats10'] = 0x05B8;
t['qamats1a'] = 0x05B8;
t['qamats1c'] = 0x05B8;
t['qamats27'] = 0x05B8;
t['qamats29'] = 0x05B8;
t['qamats33'] = 0x05B8;
t['qamatsde'] = 0x05B8;
t['qamatshebrew'] = 0x05B8;
t['qamatsnarrowhebrew'] = 0x05B8;
t['qamatsqatanhebrew'] = 0x05B8;
t['qamatsqatannarrowhebrew'] = 0x05B8;
t['qamatsqatanquarterhebrew'] = 0x05B8;
t['qamatsqatanwidehebrew'] = 0x05B8;
t['qamatsquarterhebrew'] = 0x05B8;
t['qamatswidehebrew'] = 0x05B8;
t['qarneyparahebrew'] = 0x059F;
t['qbopomofo'] = 0x3111;
t['qcircle'] = 0x24E0;
t['qhook'] = 0x02A0;
t['qmonospace'] = 0xFF51;
t['qof'] = 0x05E7;
t['qofdagesh'] = 0xFB47;
t['qofdageshhebrew'] = 0xFB47;
t['qofhebrew'] = 0x05E7;
t['qparen'] = 0x24AC;
t['quarternote'] = 0x2669;
t['qubuts'] = 0x05BB;
t['qubuts18'] = 0x05BB;
t['qubuts25'] = 0x05BB;
t['qubuts31'] = 0x05BB;
t['qubutshebrew'] = 0x05BB;
t['qubutsnarrowhebrew'] = 0x05BB;
t['qubutsquarterhebrew'] = 0x05BB;
t['qubutswidehebrew'] = 0x05BB;
t['question'] = 0x003F;
t['questionarabic'] = 0x061F;
t['questionarmenian'] = 0x055E;
t['questiondown'] = 0x00BF;
t['questiondownsmall'] = 0xF7BF;
t['questiongreek'] = 0x037E;
t['questionmonospace'] = 0xFF1F;
t['questionsmall'] = 0xF73F;
t['quotedbl'] = 0x0022;
t['quotedblbase'] = 0x201E;
t['quotedblleft'] = 0x201C;
t['quotedblmonospace'] = 0xFF02;
t['quotedblprime'] = 0x301E;
t['quotedblprimereversed'] = 0x301D;
t['quotedblright'] = 0x201D;
t['quoteleft'] = 0x2018;
t['quoteleftreversed'] = 0x201B;
t['quotereversed'] = 0x201B;
t['quoteright'] = 0x2019;
t['quoterightn'] = 0x0149;
t['quotesinglbase'] = 0x201A;
t['quotesingle'] = 0x0027;
t['quotesinglemonospace'] = 0xFF07;
t['r'] = 0x0072;
t['raarmenian'] = 0x057C;
t['rabengali'] = 0x09B0;
t['racute'] = 0x0155;
t['radeva'] = 0x0930;
t['radical'] = 0x221A;
t['radicalex'] = 0xF8E5;
t['radoverssquare'] = 0x33AE;
t['radoverssquaredsquare'] = 0x33AF;
t['radsquare'] = 0x33AD;
t['rafe'] = 0x05BF;
t['rafehebrew'] = 0x05BF;
t['ragujarati'] = 0x0AB0;
t['ragurmukhi'] = 0x0A30;
t['rahiragana'] = 0x3089;
t['rakatakana'] = 0x30E9;
t['rakatakanahalfwidth'] = 0xFF97;
t['ralowerdiagonalbengali'] = 0x09F1;
t['ramiddlediagonalbengali'] = 0x09F0;
t['ramshorn'] = 0x0264;
t['ratio'] = 0x2236;
t['rbopomofo'] = 0x3116;
t['rcaron'] = 0x0159;
t['rcedilla'] = 0x0157;
t['rcircle'] = 0x24E1;
t['rcommaaccent'] = 0x0157;
t['rdblgrave'] = 0x0211;
t['rdotaccent'] = 0x1E59;
t['rdotbelow'] = 0x1E5B;
t['rdotbelowmacron'] = 0x1E5D;
t['referencemark'] = 0x203B;
t['reflexsubset'] = 0x2286;
t['reflexsuperset'] = 0x2287;
t['registered'] = 0x00AE;
t['registersans'] = 0xF8E8;
t['registerserif'] = 0xF6DA;
t['reharabic'] = 0x0631;
t['reharmenian'] = 0x0580;
t['rehfinalarabic'] = 0xFEAE;
t['rehiragana'] = 0x308C;
t['rekatakana'] = 0x30EC;
t['rekatakanahalfwidth'] = 0xFF9A;
t['resh'] = 0x05E8;
t['reshdageshhebrew'] = 0xFB48;
t['reshhebrew'] = 0x05E8;
t['reversedtilde'] = 0x223D;
t['reviahebrew'] = 0x0597;
t['reviamugrashhebrew'] = 0x0597;
t['revlogicalnot'] = 0x2310;
t['rfishhook'] = 0x027E;
t['rfishhookreversed'] = 0x027F;
t['rhabengali'] = 0x09DD;
t['rhadeva'] = 0x095D;
t['rho'] = 0x03C1;
t['rhook'] = 0x027D;
t['rhookturned'] = 0x027B;
t['rhookturnedsuperior'] = 0x02B5;
t['rhosymbolgreek'] = 0x03F1;
t['rhotichookmod'] = 0x02DE;
t['rieulacirclekorean'] = 0x3271;
t['rieulaparenkorean'] = 0x3211;
t['rieulcirclekorean'] = 0x3263;
t['rieulhieuhkorean'] = 0x3140;
t['rieulkiyeokkorean'] = 0x313A;
t['rieulkiyeoksioskorean'] = 0x3169;
t['rieulkorean'] = 0x3139;
t['rieulmieumkorean'] = 0x313B;
t['rieulpansioskorean'] = 0x316C;
t['rieulparenkorean'] = 0x3203;
t['rieulphieuphkorean'] = 0x313F;
t['rieulpieupkorean'] = 0x313C;
t['rieulpieupsioskorean'] = 0x316B;
t['rieulsioskorean'] = 0x313D;
t['rieulthieuthkorean'] = 0x313E;
t['rieultikeutkorean'] = 0x316A;
t['rieulyeorinhieuhkorean'] = 0x316D;
t['rightangle'] = 0x221F;
t['righttackbelowcmb'] = 0x0319;
t['righttriangle'] = 0x22BF;
t['rihiragana'] = 0x308A;
t['rikatakana'] = 0x30EA;
t['rikatakanahalfwidth'] = 0xFF98;
t['ring'] = 0x02DA;
t['ringbelowcmb'] = 0x0325;
t['ringcmb'] = 0x030A;
t['ringhalfleft'] = 0x02BF;
t['ringhalfleftarmenian'] = 0x0559;
t['ringhalfleftbelowcmb'] = 0x031C;
t['ringhalfleftcentered'] = 0x02D3;
t['ringhalfright'] = 0x02BE;
t['ringhalfrightbelowcmb'] = 0x0339;
t['ringhalfrightcentered'] = 0x02D2;
t['rinvertedbreve'] = 0x0213;
t['rittorusquare'] = 0x3351;
t['rlinebelow'] = 0x1E5F;
t['rlongleg'] = 0x027C;
t['rlonglegturned'] = 0x027A;
t['rmonospace'] = 0xFF52;
t['rohiragana'] = 0x308D;
t['rokatakana'] = 0x30ED;
t['rokatakanahalfwidth'] = 0xFF9B;
t['roruathai'] = 0x0E23;
t['rparen'] = 0x24AD;
t['rrabengali'] = 0x09DC;
t['rradeva'] = 0x0931;
t['rragurmukhi'] = 0x0A5C;
t['rreharabic'] = 0x0691;
t['rrehfinalarabic'] = 0xFB8D;
t['rrvocalicbengali'] = 0x09E0;
t['rrvocalicdeva'] = 0x0960;
t['rrvocalicgujarati'] = 0x0AE0;
t['rrvocalicvowelsignbengali'] = 0x09C4;
t['rrvocalicvowelsigndeva'] = 0x0944;
t['rrvocalicvowelsigngujarati'] = 0x0AC4;
t['rsuperior'] = 0xF6F1;
t['rtblock'] = 0x2590;
t['rturned'] = 0x0279;
t['rturnedsuperior'] = 0x02B4;
t['ruhiragana'] = 0x308B;
t['rukatakana'] = 0x30EB;
t['rukatakanahalfwidth'] = 0xFF99;
t['rupeemarkbengali'] = 0x09F2;
t['rupeesignbengali'] = 0x09F3;
t['rupiah'] = 0xF6DD;
t['ruthai'] = 0x0E24;
t['rvocalicbengali'] = 0x098B;
t['rvocalicdeva'] = 0x090B;
t['rvocalicgujarati'] = 0x0A8B;
t['rvocalicvowelsignbengali'] = 0x09C3;
t['rvocalicvowelsigndeva'] = 0x0943;
t['rvocalicvowelsigngujarati'] = 0x0AC3;
t['s'] = 0x0073;
t['sabengali'] = 0x09B8;
t['sacute'] = 0x015B;
t['sacutedotaccent'] = 0x1E65;
t['sadarabic'] = 0x0635;
t['sadeva'] = 0x0938;
t['sadfinalarabic'] = 0xFEBA;
t['sadinitialarabic'] = 0xFEBB;
t['sadmedialarabic'] = 0xFEBC;
t['sagujarati'] = 0x0AB8;
t['sagurmukhi'] = 0x0A38;
t['sahiragana'] = 0x3055;
t['sakatakana'] = 0x30B5;
t['sakatakanahalfwidth'] = 0xFF7B;
t['sallallahoualayhewasallamarabic'] = 0xFDFA;
t['samekh'] = 0x05E1;
t['samekhdagesh'] = 0xFB41;
t['samekhdageshhebrew'] = 0xFB41;
t['samekhhebrew'] = 0x05E1;
t['saraaathai'] = 0x0E32;
t['saraaethai'] = 0x0E41;
t['saraaimaimalaithai'] = 0x0E44;
t['saraaimaimuanthai'] = 0x0E43;
t['saraamthai'] = 0x0E33;
t['saraathai'] = 0x0E30;
t['saraethai'] = 0x0E40;
t['saraiileftthai'] = 0xF886;
t['saraiithai'] = 0x0E35;
t['saraileftthai'] = 0xF885;
t['saraithai'] = 0x0E34;
t['saraothai'] = 0x0E42;
t['saraueeleftthai'] = 0xF888;
t['saraueethai'] = 0x0E37;
t['saraueleftthai'] = 0xF887;
t['sarauethai'] = 0x0E36;
t['sarauthai'] = 0x0E38;
t['sarauuthai'] = 0x0E39;
t['sbopomofo'] = 0x3119;
t['scaron'] = 0x0161;
t['scarondotaccent'] = 0x1E67;
t['scedilla'] = 0x015F;
t['schwa'] = 0x0259;
t['schwacyrillic'] = 0x04D9;
t['schwadieresiscyrillic'] = 0x04DB;
t['schwahook'] = 0x025A;
t['scircle'] = 0x24E2;
t['scircumflex'] = 0x015D;
t['scommaaccent'] = 0x0219;
t['sdotaccent'] = 0x1E61;
t['sdotbelow'] = 0x1E63;
t['sdotbelowdotaccent'] = 0x1E69;
t['seagullbelowcmb'] = 0x033C;
t['second'] = 0x2033;
t['secondtonechinese'] = 0x02CA;
t['section'] = 0x00A7;
t['seenarabic'] = 0x0633;
t['seenfinalarabic'] = 0xFEB2;
t['seeninitialarabic'] = 0xFEB3;
t['seenmedialarabic'] = 0xFEB4;
t['segol'] = 0x05B6;
t['segol13'] = 0x05B6;
t['segol1f'] = 0x05B6;
t['segol2c'] = 0x05B6;
t['segolhebrew'] = 0x05B6;
t['segolnarrowhebrew'] = 0x05B6;
t['segolquarterhebrew'] = 0x05B6;
t['segoltahebrew'] = 0x0592;
t['segolwidehebrew'] = 0x05B6;
t['seharmenian'] = 0x057D;
t['sehiragana'] = 0x305B;
t['sekatakana'] = 0x30BB;
t['sekatakanahalfwidth'] = 0xFF7E;
t['semicolon'] = 0x003B;
t['semicolonarabic'] = 0x061B;
t['semicolonmonospace'] = 0xFF1B;
t['semicolonsmall'] = 0xFE54;
t['semivoicedmarkkana'] = 0x309C;
t['semivoicedmarkkanahalfwidth'] = 0xFF9F;
t['sentisquare'] = 0x3322;
t['sentosquare'] = 0x3323;
t['seven'] = 0x0037;
t['sevenarabic'] = 0x0667;
t['sevenbengali'] = 0x09ED;
t['sevencircle'] = 0x2466;
t['sevencircleinversesansserif'] = 0x2790;
t['sevendeva'] = 0x096D;
t['seveneighths'] = 0x215E;
t['sevengujarati'] = 0x0AED;
t['sevengurmukhi'] = 0x0A6D;
t['sevenhackarabic'] = 0x0667;
t['sevenhangzhou'] = 0x3027;
t['sevenideographicparen'] = 0x3226;
t['seveninferior'] = 0x2087;
t['sevenmonospace'] = 0xFF17;
t['sevenoldstyle'] = 0xF737;
t['sevenparen'] = 0x247A;
t['sevenperiod'] = 0x248E;
t['sevenpersian'] = 0x06F7;
t['sevenroman'] = 0x2176;
t['sevensuperior'] = 0x2077;
t['seventeencircle'] = 0x2470;
t['seventeenparen'] = 0x2484;
t['seventeenperiod'] = 0x2498;
t['seventhai'] = 0x0E57;
t['sfthyphen'] = 0x00AD;
t['shaarmenian'] = 0x0577;
t['shabengali'] = 0x09B6;
t['shacyrillic'] = 0x0448;
t['shaddaarabic'] = 0x0651;
t['shaddadammaarabic'] = 0xFC61;
t['shaddadammatanarabic'] = 0xFC5E;
t['shaddafathaarabic'] = 0xFC60;
t['shaddakasraarabic'] = 0xFC62;
t['shaddakasratanarabic'] = 0xFC5F;
t['shade'] = 0x2592;
t['shadedark'] = 0x2593;
t['shadelight'] = 0x2591;
t['shademedium'] = 0x2592;
t['shadeva'] = 0x0936;
t['shagujarati'] = 0x0AB6;
t['shagurmukhi'] = 0x0A36;
t['shalshelethebrew'] = 0x0593;
t['shbopomofo'] = 0x3115;
t['shchacyrillic'] = 0x0449;
t['sheenarabic'] = 0x0634;
t['sheenfinalarabic'] = 0xFEB6;
t['sheeninitialarabic'] = 0xFEB7;
t['sheenmedialarabic'] = 0xFEB8;
t['sheicoptic'] = 0x03E3;
t['sheqel'] = 0x20AA;
t['sheqelhebrew'] = 0x20AA;
t['sheva'] = 0x05B0;
t['sheva115'] = 0x05B0;
t['sheva15'] = 0x05B0;
t['sheva22'] = 0x05B0;
t['sheva2e'] = 0x05B0;
t['shevahebrew'] = 0x05B0;
t['shevanarrowhebrew'] = 0x05B0;
t['shevaquarterhebrew'] = 0x05B0;
t['shevawidehebrew'] = 0x05B0;
t['shhacyrillic'] = 0x04BB;
t['shimacoptic'] = 0x03ED;
t['shin'] = 0x05E9;
t['shindagesh'] = 0xFB49;
t['shindageshhebrew'] = 0xFB49;
t['shindageshshindot'] = 0xFB2C;
t['shindageshshindothebrew'] = 0xFB2C;
t['shindageshsindot'] = 0xFB2D;
t['shindageshsindothebrew'] = 0xFB2D;
t['shindothebrew'] = 0x05C1;
t['shinhebrew'] = 0x05E9;
t['shinshindot'] = 0xFB2A;
t['shinshindothebrew'] = 0xFB2A;
t['shinsindot'] = 0xFB2B;
t['shinsindothebrew'] = 0xFB2B;
t['shook'] = 0x0282;
t['sigma'] = 0x03C3;
t['sigma1'] = 0x03C2;
t['sigmafinal'] = 0x03C2;
t['sigmalunatesymbolgreek'] = 0x03F2;
t['sihiragana'] = 0x3057;
t['sikatakana'] = 0x30B7;
t['sikatakanahalfwidth'] = 0xFF7C;
t['siluqhebrew'] = 0x05BD;
t['siluqlefthebrew'] = 0x05BD;
t['similar'] = 0x223C;
t['sindothebrew'] = 0x05C2;
t['siosacirclekorean'] = 0x3274;
t['siosaparenkorean'] = 0x3214;
t['sioscieuckorean'] = 0x317E;
t['sioscirclekorean'] = 0x3266;
t['sioskiyeokkorean'] = 0x317A;
t['sioskorean'] = 0x3145;
t['siosnieunkorean'] = 0x317B;
t['siosparenkorean'] = 0x3206;
t['siospieupkorean'] = 0x317D;
t['siostikeutkorean'] = 0x317C;
t['six'] = 0x0036;
t['sixarabic'] = 0x0666;
t['sixbengali'] = 0x09EC;
t['sixcircle'] = 0x2465;
t['sixcircleinversesansserif'] = 0x278F;
t['sixdeva'] = 0x096C;
t['sixgujarati'] = 0x0AEC;
t['sixgurmukhi'] = 0x0A6C;
t['sixhackarabic'] = 0x0666;
t['sixhangzhou'] = 0x3026;
t['sixideographicparen'] = 0x3225;
t['sixinferior'] = 0x2086;
t['sixmonospace'] = 0xFF16;
t['sixoldstyle'] = 0xF736;
t['sixparen'] = 0x2479;
t['sixperiod'] = 0x248D;
t['sixpersian'] = 0x06F6;
t['sixroman'] = 0x2175;
t['sixsuperior'] = 0x2076;
t['sixteencircle'] = 0x246F;
t['sixteencurrencydenominatorbengali'] = 0x09F9;
t['sixteenparen'] = 0x2483;
t['sixteenperiod'] = 0x2497;
t['sixthai'] = 0x0E56;
t['slash'] = 0x002F;
t['slashmonospace'] = 0xFF0F;
t['slong'] = 0x017F;
t['slongdotaccent'] = 0x1E9B;
t['smileface'] = 0x263A;
t['smonospace'] = 0xFF53;
t['sofpasuqhebrew'] = 0x05C3;
t['softhyphen'] = 0x00AD;
t['softsigncyrillic'] = 0x044C;
t['sohiragana'] = 0x305D;
t['sokatakana'] = 0x30BD;
t['sokatakanahalfwidth'] = 0xFF7F;
t['soliduslongoverlaycmb'] = 0x0338;
t['solidusshortoverlaycmb'] = 0x0337;
t['sorusithai'] = 0x0E29;
t['sosalathai'] = 0x0E28;
t['sosothai'] = 0x0E0B;
t['sosuathai'] = 0x0E2A;
t['space'] = 0x0020;
t['spacehackarabic'] = 0x0020;
t['spade'] = 0x2660;
t['spadesuitblack'] = 0x2660;
t['spadesuitwhite'] = 0x2664;
t['sparen'] = 0x24AE;
t['squarebelowcmb'] = 0x033B;
t['squarecc'] = 0x33C4;
t['squarecm'] = 0x339D;
t['squarediagonalcrosshatchfill'] = 0x25A9;
t['squarehorizontalfill'] = 0x25A4;
t['squarekg'] = 0x338F;
t['squarekm'] = 0x339E;
t['squarekmcapital'] = 0x33CE;
t['squareln'] = 0x33D1;
t['squarelog'] = 0x33D2;
t['squaremg'] = 0x338E;
t['squaremil'] = 0x33D5;
t['squaremm'] = 0x339C;
t['squaremsquared'] = 0x33A1;
t['squareorthogonalcrosshatchfill'] = 0x25A6;
t['squareupperlefttolowerrightfill'] = 0x25A7;
t['squareupperrighttolowerleftfill'] = 0x25A8;
t['squareverticalfill'] = 0x25A5;
t['squarewhitewithsmallblack'] = 0x25A3;
t['srsquare'] = 0x33DB;
t['ssabengali'] = 0x09B7;
t['ssadeva'] = 0x0937;
t['ssagujarati'] = 0x0AB7;
t['ssangcieuckorean'] = 0x3149;
t['ssanghieuhkorean'] = 0x3185;
t['ssangieungkorean'] = 0x3180;
t['ssangkiyeokkorean'] = 0x3132;
t['ssangnieunkorean'] = 0x3165;
t['ssangpieupkorean'] = 0x3143;
t['ssangsioskorean'] = 0x3146;
t['ssangtikeutkorean'] = 0x3138;
t['ssuperior'] = 0xF6F2;
t['sterling'] = 0x00A3;
t['sterlingmonospace'] = 0xFFE1;
t['strokelongoverlaycmb'] = 0x0336;
t['strokeshortoverlaycmb'] = 0x0335;
t['subset'] = 0x2282;
t['subsetnotequal'] = 0x228A;
t['subsetorequal'] = 0x2286;
t['succeeds'] = 0x227B;
t['suchthat'] = 0x220B;
t['suhiragana'] = 0x3059;
t['sukatakana'] = 0x30B9;
t['sukatakanahalfwidth'] = 0xFF7D;
t['sukunarabic'] = 0x0652;
t['summation'] = 0x2211;
t['sun'] = 0x263C;
t['superset'] = 0x2283;
t['supersetnotequal'] = 0x228B;
t['supersetorequal'] = 0x2287;
t['svsquare'] = 0x33DC;
t['syouwaerasquare'] = 0x337C;
t['t'] = 0x0074;
t['tabengali'] = 0x09A4;
t['tackdown'] = 0x22A4;
t['tackleft'] = 0x22A3;
t['tadeva'] = 0x0924;
t['tagujarati'] = 0x0AA4;
t['tagurmukhi'] = 0x0A24;
t['taharabic'] = 0x0637;
t['tahfinalarabic'] = 0xFEC2;
t['tahinitialarabic'] = 0xFEC3;
t['tahiragana'] = 0x305F;
t['tahmedialarabic'] = 0xFEC4;
t['taisyouerasquare'] = 0x337D;
t['takatakana'] = 0x30BF;
t['takatakanahalfwidth'] = 0xFF80;
t['tatweelarabic'] = 0x0640;
t['tau'] = 0x03C4;
t['tav'] = 0x05EA;
t['tavdages'] = 0xFB4A;
t['tavdagesh'] = 0xFB4A;
t['tavdageshhebrew'] = 0xFB4A;
t['tavhebrew'] = 0x05EA;
t['tbar'] = 0x0167;
t['tbopomofo'] = 0x310A;
t['tcaron'] = 0x0165;
t['tccurl'] = 0x02A8;
t['tcedilla'] = 0x0163;
t['tcheharabic'] = 0x0686;
t['tchehfinalarabic'] = 0xFB7B;
t['tchehinitialarabic'] = 0xFB7C;
t['tchehmedialarabic'] = 0xFB7D;
t['tcircle'] = 0x24E3;
t['tcircumflexbelow'] = 0x1E71;
t['tcommaaccent'] = 0x0163;
t['tdieresis'] = 0x1E97;
t['tdotaccent'] = 0x1E6B;
t['tdotbelow'] = 0x1E6D;
t['tecyrillic'] = 0x0442;
t['tedescendercyrillic'] = 0x04AD;
t['teharabic'] = 0x062A;
t['tehfinalarabic'] = 0xFE96;
t['tehhahinitialarabic'] = 0xFCA2;
t['tehhahisolatedarabic'] = 0xFC0C;
t['tehinitialarabic'] = 0xFE97;
t['tehiragana'] = 0x3066;
t['tehjeeminitialarabic'] = 0xFCA1;
t['tehjeemisolatedarabic'] = 0xFC0B;
t['tehmarbutaarabic'] = 0x0629;
t['tehmarbutafinalarabic'] = 0xFE94;
t['tehmedialarabic'] = 0xFE98;
t['tehmeeminitialarabic'] = 0xFCA4;
t['tehmeemisolatedarabic'] = 0xFC0E;
t['tehnoonfinalarabic'] = 0xFC73;
t['tekatakana'] = 0x30C6;
t['tekatakanahalfwidth'] = 0xFF83;
t['telephone'] = 0x2121;
t['telephoneblack'] = 0x260E;
t['telishagedolahebrew'] = 0x05A0;
t['telishaqetanahebrew'] = 0x05A9;
t['tencircle'] = 0x2469;
t['tenideographicparen'] = 0x3229;
t['tenparen'] = 0x247D;
t['tenperiod'] = 0x2491;
t['tenroman'] = 0x2179;
t['tesh'] = 0x02A7;
t['tet'] = 0x05D8;
t['tetdagesh'] = 0xFB38;
t['tetdageshhebrew'] = 0xFB38;
t['tethebrew'] = 0x05D8;
t['tetsecyrillic'] = 0x04B5;
t['tevirhebrew'] = 0x059B;
t['tevirlefthebrew'] = 0x059B;
t['thabengali'] = 0x09A5;
t['thadeva'] = 0x0925;
t['thagujarati'] = 0x0AA5;
t['thagurmukhi'] = 0x0A25;
t['thalarabic'] = 0x0630;
t['thalfinalarabic'] = 0xFEAC;
t['thanthakhatlowleftthai'] = 0xF898;
t['thanthakhatlowrightthai'] = 0xF897;
t['thanthakhatthai'] = 0x0E4C;
t['thanthakhatupperleftthai'] = 0xF896;
t['theharabic'] = 0x062B;
t['thehfinalarabic'] = 0xFE9A;
t['thehinitialarabic'] = 0xFE9B;
t['thehmedialarabic'] = 0xFE9C;
t['thereexists'] = 0x2203;
t['therefore'] = 0x2234;
t['theta'] = 0x03B8;
t['theta1'] = 0x03D1;
t['thetasymbolgreek'] = 0x03D1;
t['thieuthacirclekorean'] = 0x3279;
t['thieuthaparenkorean'] = 0x3219;
t['thieuthcirclekorean'] = 0x326B;
t['thieuthkorean'] = 0x314C;
t['thieuthparenkorean'] = 0x320B;
t['thirteencircle'] = 0x246C;
t['thirteenparen'] = 0x2480;
t['thirteenperiod'] = 0x2494;
t['thonangmonthothai'] = 0x0E11;
t['thook'] = 0x01AD;
t['thophuthaothai'] = 0x0E12;
t['thorn'] = 0x00FE;
t['thothahanthai'] = 0x0E17;
t['thothanthai'] = 0x0E10;
t['thothongthai'] = 0x0E18;
t['thothungthai'] = 0x0E16;
t['thousandcyrillic'] = 0x0482;
t['thousandsseparatorarabic'] = 0x066C;
t['thousandsseparatorpersian'] = 0x066C;
t['three'] = 0x0033;
t['threearabic'] = 0x0663;
t['threebengali'] = 0x09E9;
t['threecircle'] = 0x2462;
t['threecircleinversesansserif'] = 0x278C;
t['threedeva'] = 0x0969;
t['threeeighths'] = 0x215C;
t['threegujarati'] = 0x0AE9;
t['threegurmukhi'] = 0x0A69;
t['threehackarabic'] = 0x0663;
t['threehangzhou'] = 0x3023;
t['threeideographicparen'] = 0x3222;
t['threeinferior'] = 0x2083;
t['threemonospace'] = 0xFF13;
t['threenumeratorbengali'] = 0x09F6;
t['threeoldstyle'] = 0xF733;
t['threeparen'] = 0x2476;
t['threeperiod'] = 0x248A;
t['threepersian'] = 0x06F3;
t['threequarters'] = 0x00BE;
t['threequartersemdash'] = 0xF6DE;
t['threeroman'] = 0x2172;
t['threesuperior'] = 0x00B3;
t['threethai'] = 0x0E53;
t['thzsquare'] = 0x3394;
t['tihiragana'] = 0x3061;
t['tikatakana'] = 0x30C1;
t['tikatakanahalfwidth'] = 0xFF81;
t['tikeutacirclekorean'] = 0x3270;
t['tikeutaparenkorean'] = 0x3210;
t['tikeutcirclekorean'] = 0x3262;
t['tikeutkorean'] = 0x3137;
t['tikeutparenkorean'] = 0x3202;
t['tilde'] = 0x02DC;
t['tildebelowcmb'] = 0x0330;
t['tildecmb'] = 0x0303;
t['tildecomb'] = 0x0303;
t['tildedoublecmb'] = 0x0360;
t['tildeoperator'] = 0x223C;
t['tildeoverlaycmb'] = 0x0334;
t['tildeverticalcmb'] = 0x033E;
t['timescircle'] = 0x2297;
t['tipehahebrew'] = 0x0596;
t['tipehalefthebrew'] = 0x0596;
t['tippigurmukhi'] = 0x0A70;
t['titlocyrilliccmb'] = 0x0483;
t['tiwnarmenian'] = 0x057F;
t['tlinebelow'] = 0x1E6F;
t['tmonospace'] = 0xFF54;
t['toarmenian'] = 0x0569;
t['tohiragana'] = 0x3068;
t['tokatakana'] = 0x30C8;
t['tokatakanahalfwidth'] = 0xFF84;
t['tonebarextrahighmod'] = 0x02E5;
t['tonebarextralowmod'] = 0x02E9;
t['tonebarhighmod'] = 0x02E6;
t['tonebarlowmod'] = 0x02E8;
t['tonebarmidmod'] = 0x02E7;
t['tonefive'] = 0x01BD;
t['tonesix'] = 0x0185;
t['tonetwo'] = 0x01A8;
t['tonos'] = 0x0384;
t['tonsquare'] = 0x3327;
t['topatakthai'] = 0x0E0F;
t['tortoiseshellbracketleft'] = 0x3014;
t['tortoiseshellbracketleftsmall'] = 0xFE5D;
t['tortoiseshellbracketleftvertical'] = 0xFE39;
t['tortoiseshellbracketright'] = 0x3015;
t['tortoiseshellbracketrightsmall'] = 0xFE5E;
t['tortoiseshellbracketrightvertical'] = 0xFE3A;
t['totaothai'] = 0x0E15;
t['tpalatalhook'] = 0x01AB;
t['tparen'] = 0x24AF;
t['trademark'] = 0x2122;
t['trademarksans'] = 0xF8EA;
t['trademarkserif'] = 0xF6DB;
t['tretroflexhook'] = 0x0288;
t['triagdn'] = 0x25BC;
t['triaglf'] = 0x25C4;
t['triagrt'] = 0x25BA;
t['triagup'] = 0x25B2;
t['ts'] = 0x02A6;
t['tsadi'] = 0x05E6;
t['tsadidagesh'] = 0xFB46;
t['tsadidageshhebrew'] = 0xFB46;
t['tsadihebrew'] = 0x05E6;
t['tsecyrillic'] = 0x0446;
t['tsere'] = 0x05B5;
t['tsere12'] = 0x05B5;
t['tsere1e'] = 0x05B5;
t['tsere2b'] = 0x05B5;
t['tserehebrew'] = 0x05B5;
t['tserenarrowhebrew'] = 0x05B5;
t['tserequarterhebrew'] = 0x05B5;
t['tserewidehebrew'] = 0x05B5;
t['tshecyrillic'] = 0x045B;
t['tsuperior'] = 0xF6F3;
t['ttabengali'] = 0x099F;
t['ttadeva'] = 0x091F;
t['ttagujarati'] = 0x0A9F;
t['ttagurmukhi'] = 0x0A1F;
t['tteharabic'] = 0x0679;
t['ttehfinalarabic'] = 0xFB67;
t['ttehinitialarabic'] = 0xFB68;
t['ttehmedialarabic'] = 0xFB69;
t['tthabengali'] = 0x09A0;
t['tthadeva'] = 0x0920;
t['tthagujarati'] = 0x0AA0;
t['tthagurmukhi'] = 0x0A20;
t['tturned'] = 0x0287;
t['tuhiragana'] = 0x3064;
t['tukatakana'] = 0x30C4;
t['tukatakanahalfwidth'] = 0xFF82;
t['tusmallhiragana'] = 0x3063;
t['tusmallkatakana'] = 0x30C3;
t['tusmallkatakanahalfwidth'] = 0xFF6F;
t['twelvecircle'] = 0x246B;
t['twelveparen'] = 0x247F;
t['twelveperiod'] = 0x2493;
t['twelveroman'] = 0x217B;
t['twentycircle'] = 0x2473;
t['twentyhangzhou'] = 0x5344;
t['twentyparen'] = 0x2487;
t['twentyperiod'] = 0x249B;
t['two'] = 0x0032;
t['twoarabic'] = 0x0662;
t['twobengali'] = 0x09E8;
t['twocircle'] = 0x2461;
t['twocircleinversesansserif'] = 0x278B;
t['twodeva'] = 0x0968;
t['twodotenleader'] = 0x2025;
t['twodotleader'] = 0x2025;
t['twodotleadervertical'] = 0xFE30;
t['twogujarati'] = 0x0AE8;
t['twogurmukhi'] = 0x0A68;
t['twohackarabic'] = 0x0662;
t['twohangzhou'] = 0x3022;
t['twoideographicparen'] = 0x3221;
t['twoinferior'] = 0x2082;
t['twomonospace'] = 0xFF12;
t['twonumeratorbengali'] = 0x09F5;
t['twooldstyle'] = 0xF732;
t['twoparen'] = 0x2475;
t['twoperiod'] = 0x2489;
t['twopersian'] = 0x06F2;
t['tworoman'] = 0x2171;
t['twostroke'] = 0x01BB;
t['twosuperior'] = 0x00B2;
t['twothai'] = 0x0E52;
t['twothirds'] = 0x2154;
t['u'] = 0x0075;
t['uacute'] = 0x00FA;
t['ubar'] = 0x0289;
t['ubengali'] = 0x0989;
t['ubopomofo'] = 0x3128;
t['ubreve'] = 0x016D;
t['ucaron'] = 0x01D4;
t['ucircle'] = 0x24E4;
t['ucircumflex'] = 0x00FB;
t['ucircumflexbelow'] = 0x1E77;
t['ucyrillic'] = 0x0443;
t['udattadeva'] = 0x0951;
t['udblacute'] = 0x0171;
t['udblgrave'] = 0x0215;
t['udeva'] = 0x0909;
t['udieresis'] = 0x00FC;
t['udieresisacute'] = 0x01D8;
t['udieresisbelow'] = 0x1E73;
t['udieresiscaron'] = 0x01DA;
t['udieresiscyrillic'] = 0x04F1;
t['udieresisgrave'] = 0x01DC;
t['udieresismacron'] = 0x01D6;
t['udotbelow'] = 0x1EE5;
t['ugrave'] = 0x00F9;
t['ugujarati'] = 0x0A89;
t['ugurmukhi'] = 0x0A09;
t['uhiragana'] = 0x3046;
t['uhookabove'] = 0x1EE7;
t['uhorn'] = 0x01B0;
t['uhornacute'] = 0x1EE9;
t['uhorndotbelow'] = 0x1EF1;
t['uhorngrave'] = 0x1EEB;
t['uhornhookabove'] = 0x1EED;
t['uhorntilde'] = 0x1EEF;
t['uhungarumlaut'] = 0x0171;
t['uhungarumlautcyrillic'] = 0x04F3;
t['uinvertedbreve'] = 0x0217;
t['ukatakana'] = 0x30A6;
t['ukatakanahalfwidth'] = 0xFF73;
t['ukcyrillic'] = 0x0479;
t['ukorean'] = 0x315C;
t['umacron'] = 0x016B;
t['umacroncyrillic'] = 0x04EF;
t['umacrondieresis'] = 0x1E7B;
t['umatragurmukhi'] = 0x0A41;
t['umonospace'] = 0xFF55;
t['underscore'] = 0x005F;
t['underscoredbl'] = 0x2017;
t['underscoremonospace'] = 0xFF3F;
t['underscorevertical'] = 0xFE33;
t['underscorewavy'] = 0xFE4F;
t['union'] = 0x222A;
t['universal'] = 0x2200;
t['uogonek'] = 0x0173;
t['uparen'] = 0x24B0;
t['upblock'] = 0x2580;
t['upperdothebrew'] = 0x05C4;
t['upsilon'] = 0x03C5;
t['upsilondieresis'] = 0x03CB;
t['upsilondieresistonos'] = 0x03B0;
t['upsilonlatin'] = 0x028A;
t['upsilontonos'] = 0x03CD;
t['uptackbelowcmb'] = 0x031D;
t['uptackmod'] = 0x02D4;
t['uragurmukhi'] = 0x0A73;
t['uring'] = 0x016F;
t['ushortcyrillic'] = 0x045E;
t['usmallhiragana'] = 0x3045;
t['usmallkatakana'] = 0x30A5;
t['usmallkatakanahalfwidth'] = 0xFF69;
t['ustraightcyrillic'] = 0x04AF;
t['ustraightstrokecyrillic'] = 0x04B1;
t['utilde'] = 0x0169;
t['utildeacute'] = 0x1E79;
t['utildebelow'] = 0x1E75;
t['uubengali'] = 0x098A;
t['uudeva'] = 0x090A;
t['uugujarati'] = 0x0A8A;
t['uugurmukhi'] = 0x0A0A;
t['uumatragurmukhi'] = 0x0A42;
t['uuvowelsignbengali'] = 0x09C2;
t['uuvowelsigndeva'] = 0x0942;
t['uuvowelsigngujarati'] = 0x0AC2;
t['uvowelsignbengali'] = 0x09C1;
t['uvowelsigndeva'] = 0x0941;
t['uvowelsigngujarati'] = 0x0AC1;
t['v'] = 0x0076;
t['vadeva'] = 0x0935;
t['vagujarati'] = 0x0AB5;
t['vagurmukhi'] = 0x0A35;
t['vakatakana'] = 0x30F7;
t['vav'] = 0x05D5;
t['vavdagesh'] = 0xFB35;
t['vavdagesh65'] = 0xFB35;
t['vavdageshhebrew'] = 0xFB35;
t['vavhebrew'] = 0x05D5;
t['vavholam'] = 0xFB4B;
t['vavholamhebrew'] = 0xFB4B;
t['vavvavhebrew'] = 0x05F0;
t['vavyodhebrew'] = 0x05F1;
t['vcircle'] = 0x24E5;
t['vdotbelow'] = 0x1E7F;
t['vecyrillic'] = 0x0432;
t['veharabic'] = 0x06A4;
t['vehfinalarabic'] = 0xFB6B;
t['vehinitialarabic'] = 0xFB6C;
t['vehmedialarabic'] = 0xFB6D;
t['vekatakana'] = 0x30F9;
t['venus'] = 0x2640;
t['verticalbar'] = 0x007C;
t['verticallineabovecmb'] = 0x030D;
t['verticallinebelowcmb'] = 0x0329;
t['verticallinelowmod'] = 0x02CC;
t['verticallinemod'] = 0x02C8;
t['vewarmenian'] = 0x057E;
t['vhook'] = 0x028B;
t['vikatakana'] = 0x30F8;
t['viramabengali'] = 0x09CD;
t['viramadeva'] = 0x094D;
t['viramagujarati'] = 0x0ACD;
t['visargabengali'] = 0x0983;
t['visargadeva'] = 0x0903;
t['visargagujarati'] = 0x0A83;
t['vmonospace'] = 0xFF56;
t['voarmenian'] = 0x0578;
t['voicediterationhiragana'] = 0x309E;
t['voicediterationkatakana'] = 0x30FE;
t['voicedmarkkana'] = 0x309B;
t['voicedmarkkanahalfwidth'] = 0xFF9E;
t['vokatakana'] = 0x30FA;
t['vparen'] = 0x24B1;
t['vtilde'] = 0x1E7D;
t['vturned'] = 0x028C;
t['vuhiragana'] = 0x3094;
t['vukatakana'] = 0x30F4;
t['w'] = 0x0077;
t['wacute'] = 0x1E83;
t['waekorean'] = 0x3159;
t['wahiragana'] = 0x308F;
t['wakatakana'] = 0x30EF;
t['wakatakanahalfwidth'] = 0xFF9C;
t['wakorean'] = 0x3158;
t['wasmallhiragana'] = 0x308E;
t['wasmallkatakana'] = 0x30EE;
t['wattosquare'] = 0x3357;
t['wavedash'] = 0x301C;
t['wavyunderscorevertical'] = 0xFE34;
t['wawarabic'] = 0x0648;
t['wawfinalarabic'] = 0xFEEE;
t['wawhamzaabovearabic'] = 0x0624;
t['wawhamzaabovefinalarabic'] = 0xFE86;
t['wbsquare'] = 0x33DD;
t['wcircle'] = 0x24E6;
t['wcircumflex'] = 0x0175;
t['wdieresis'] = 0x1E85;
t['wdotaccent'] = 0x1E87;
t['wdotbelow'] = 0x1E89;
t['wehiragana'] = 0x3091;
t['weierstrass'] = 0x2118;
t['wekatakana'] = 0x30F1;
t['wekorean'] = 0x315E;
t['weokorean'] = 0x315D;
t['wgrave'] = 0x1E81;
t['whitebullet'] = 0x25E6;
t['whitecircle'] = 0x25CB;
t['whitecircleinverse'] = 0x25D9;
t['whitecornerbracketleft'] = 0x300E;
t['whitecornerbracketleftvertical'] = 0xFE43;
t['whitecornerbracketright'] = 0x300F;
t['whitecornerbracketrightvertical'] = 0xFE44;
t['whitediamond'] = 0x25C7;
t['whitediamondcontainingblacksmalldiamond'] = 0x25C8;
t['whitedownpointingsmalltriangle'] = 0x25BF;
t['whitedownpointingtriangle'] = 0x25BD;
t['whiteleftpointingsmalltriangle'] = 0x25C3;
t['whiteleftpointingtriangle'] = 0x25C1;
t['whitelenticularbracketleft'] = 0x3016;
t['whitelenticularbracketright'] = 0x3017;
t['whiterightpointingsmalltriangle'] = 0x25B9;
t['whiterightpointingtriangle'] = 0x25B7;
t['whitesmallsquare'] = 0x25AB;
t['whitesmilingface'] = 0x263A;
t['whitesquare'] = 0x25A1;
t['whitestar'] = 0x2606;
t['whitetelephone'] = 0x260F;
t['whitetortoiseshellbracketleft'] = 0x3018;
t['whitetortoiseshellbracketright'] = 0x3019;
t['whiteuppointingsmalltriangle'] = 0x25B5;
t['whiteuppointingtriangle'] = 0x25B3;
t['wihiragana'] = 0x3090;
t['wikatakana'] = 0x30F0;
t['wikorean'] = 0x315F;
t['wmonospace'] = 0xFF57;
t['wohiragana'] = 0x3092;
t['wokatakana'] = 0x30F2;
t['wokatakanahalfwidth'] = 0xFF66;
t['won'] = 0x20A9;
t['wonmonospace'] = 0xFFE6;
t['wowaenthai'] = 0x0E27;
t['wparen'] = 0x24B2;
t['wring'] = 0x1E98;
t['wsuperior'] = 0x02B7;
t['wturned'] = 0x028D;
t['wynn'] = 0x01BF;
t['x'] = 0x0078;
t['xabovecmb'] = 0x033D;
t['xbopomofo'] = 0x3112;
t['xcircle'] = 0x24E7;
t['xdieresis'] = 0x1E8D;
t['xdotaccent'] = 0x1E8B;
t['xeharmenian'] = 0x056D;
t['xi'] = 0x03BE;
t['xmonospace'] = 0xFF58;
t['xparen'] = 0x24B3;
t['xsuperior'] = 0x02E3;
t['y'] = 0x0079;
t['yaadosquare'] = 0x334E;
t['yabengali'] = 0x09AF;
t['yacute'] = 0x00FD;
t['yadeva'] = 0x092F;
t['yaekorean'] = 0x3152;
t['yagujarati'] = 0x0AAF;
t['yagurmukhi'] = 0x0A2F;
t['yahiragana'] = 0x3084;
t['yakatakana'] = 0x30E4;
t['yakatakanahalfwidth'] = 0xFF94;
t['yakorean'] = 0x3151;
t['yamakkanthai'] = 0x0E4E;
t['yasmallhiragana'] = 0x3083;
t['yasmallkatakana'] = 0x30E3;
t['yasmallkatakanahalfwidth'] = 0xFF6C;
t['yatcyrillic'] = 0x0463;
t['ycircle'] = 0x24E8;
t['ycircumflex'] = 0x0177;
t['ydieresis'] = 0x00FF;
t['ydotaccent'] = 0x1E8F;
t['ydotbelow'] = 0x1EF5;
t['yeharabic'] = 0x064A;
t['yehbarreearabic'] = 0x06D2;
t['yehbarreefinalarabic'] = 0xFBAF;
t['yehfinalarabic'] = 0xFEF2;
t['yehhamzaabovearabic'] = 0x0626;
t['yehhamzaabovefinalarabic'] = 0xFE8A;
t['yehhamzaaboveinitialarabic'] = 0xFE8B;
t['yehhamzaabovemedialarabic'] = 0xFE8C;
t['yehinitialarabic'] = 0xFEF3;
t['yehmedialarabic'] = 0xFEF4;
t['yehmeeminitialarabic'] = 0xFCDD;
t['yehmeemisolatedarabic'] = 0xFC58;
t['yehnoonfinalarabic'] = 0xFC94;
t['yehthreedotsbelowarabic'] = 0x06D1;
t['yekorean'] = 0x3156;
t['yen'] = 0x00A5;
t['yenmonospace'] = 0xFFE5;
t['yeokorean'] = 0x3155;
t['yeorinhieuhkorean'] = 0x3186;
t['yerahbenyomohebrew'] = 0x05AA;
t['yerahbenyomolefthebrew'] = 0x05AA;
t['yericyrillic'] = 0x044B;
t['yerudieresiscyrillic'] = 0x04F9;
t['yesieungkorean'] = 0x3181;
t['yesieungpansioskorean'] = 0x3183;
t['yesieungsioskorean'] = 0x3182;
t['yetivhebrew'] = 0x059A;
t['ygrave'] = 0x1EF3;
t['yhook'] = 0x01B4;
t['yhookabove'] = 0x1EF7;
t['yiarmenian'] = 0x0575;
t['yicyrillic'] = 0x0457;
t['yikorean'] = 0x3162;
t['yinyang'] = 0x262F;
t['yiwnarmenian'] = 0x0582;
t['ymonospace'] = 0xFF59;
t['yod'] = 0x05D9;
t['yoddagesh'] = 0xFB39;
t['yoddageshhebrew'] = 0xFB39;
t['yodhebrew'] = 0x05D9;
t['yodyodhebrew'] = 0x05F2;
t['yodyodpatahhebrew'] = 0xFB1F;
t['yohiragana'] = 0x3088;
t['yoikorean'] = 0x3189;
t['yokatakana'] = 0x30E8;
t['yokatakanahalfwidth'] = 0xFF96;
t['yokorean'] = 0x315B;
t['yosmallhiragana'] = 0x3087;
t['yosmallkatakana'] = 0x30E7;
t['yosmallkatakanahalfwidth'] = 0xFF6E;
t['yotgreek'] = 0x03F3;
t['yoyaekorean'] = 0x3188;
t['yoyakorean'] = 0x3187;
t['yoyakthai'] = 0x0E22;
t['yoyingthai'] = 0x0E0D;
t['yparen'] = 0x24B4;
t['ypogegrammeni'] = 0x037A;
t['ypogegrammenigreekcmb'] = 0x0345;
t['yr'] = 0x01A6;
t['yring'] = 0x1E99;
t['ysuperior'] = 0x02B8;
t['ytilde'] = 0x1EF9;
t['yturned'] = 0x028E;
t['yuhiragana'] = 0x3086;
t['yuikorean'] = 0x318C;
t['yukatakana'] = 0x30E6;
t['yukatakanahalfwidth'] = 0xFF95;
t['yukorean'] = 0x3160;
t['yusbigcyrillic'] = 0x046B;
t['yusbigiotifiedcyrillic'] = 0x046D;
t['yuslittlecyrillic'] = 0x0467;
t['yuslittleiotifiedcyrillic'] = 0x0469;
t['yusmallhiragana'] = 0x3085;
t['yusmallkatakana'] = 0x30E5;
t['yusmallkatakanahalfwidth'] = 0xFF6D;
t['yuyekorean'] = 0x318B;
t['yuyeokorean'] = 0x318A;
t['yyabengali'] = 0x09DF;
t['yyadeva'] = 0x095F;
t['z'] = 0x007A;
t['zaarmenian'] = 0x0566;
t['zacute'] = 0x017A;
t['zadeva'] = 0x095B;
t['zagurmukhi'] = 0x0A5B;
t['zaharabic'] = 0x0638;
t['zahfinalarabic'] = 0xFEC6;
t['zahinitialarabic'] = 0xFEC7;
t['zahiragana'] = 0x3056;
t['zahmedialarabic'] = 0xFEC8;
t['zainarabic'] = 0x0632;
t['zainfinalarabic'] = 0xFEB0;
t['zakatakana'] = 0x30B6;
t['zaqefgadolhebrew'] = 0x0595;
t['zaqefqatanhebrew'] = 0x0594;
t['zarqahebrew'] = 0x0598;
t['zayin'] = 0x05D6;
t['zayindagesh'] = 0xFB36;
t['zayindageshhebrew'] = 0xFB36;
t['zayinhebrew'] = 0x05D6;
t['zbopomofo'] = 0x3117;
t['zcaron'] = 0x017E;
t['zcircle'] = 0x24E9;
t['zcircumflex'] = 0x1E91;
t['zcurl'] = 0x0291;
t['zdot'] = 0x017C;
t['zdotaccent'] = 0x017C;
t['zdotbelow'] = 0x1E93;
t['zecyrillic'] = 0x0437;
t['zedescendercyrillic'] = 0x0499;
t['zedieresiscyrillic'] = 0x04DF;
t['zehiragana'] = 0x305C;
t['zekatakana'] = 0x30BC;
t['zero'] = 0x0030;
t['zeroarabic'] = 0x0660;
t['zerobengali'] = 0x09E6;
t['zerodeva'] = 0x0966;
t['zerogujarati'] = 0x0AE6;
t['zerogurmukhi'] = 0x0A66;
t['zerohackarabic'] = 0x0660;
t['zeroinferior'] = 0x2080;
t['zeromonospace'] = 0xFF10;
t['zerooldstyle'] = 0xF730;
t['zeropersian'] = 0x06F0;
t['zerosuperior'] = 0x2070;
t['zerothai'] = 0x0E50;
t['zerowidthjoiner'] = 0xFEFF;
t['zerowidthnonjoiner'] = 0x200C;
t['zerowidthspace'] = 0x200B;
t['zeta'] = 0x03B6;
t['zhbopomofo'] = 0x3113;
t['zhearmenian'] = 0x056A;
t['zhebrevecyrillic'] = 0x04C2;
t['zhecyrillic'] = 0x0436;
t['zhedescendercyrillic'] = 0x0497;
t['zhedieresiscyrillic'] = 0x04DD;
t['zihiragana'] = 0x3058;
t['zikatakana'] = 0x30B8;
t['zinorhebrew'] = 0x05AE;
t['zlinebelow'] = 0x1E95;
t['zmonospace'] = 0xFF5A;
t['zohiragana'] = 0x305E;
t['zokatakana'] = 0x30BE;
t['zparen'] = 0x24B5;
t['zretroflexhook'] = 0x0290;
t['zstroke'] = 0x01B6;
t['zuhiragana'] = 0x305A;
t['zukatakana'] = 0x30BA;
t['.notdef'] = 0x0000;
});
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var getDingbatsGlyphsUnicode = getLookupTableFactory(function (t) {
t['space'] = 0x0020;
t['a1'] = 0x2701;
t['a2'] = 0x2702;
t['a202'] = 0x2703;
t['a3'] = 0x2704;
t['a4'] = 0x260E;
t['a5'] = 0x2706;
t['a119'] = 0x2707;
t['a118'] = 0x2708;
t['a117'] = 0x2709;
t['a11'] = 0x261B;
t['a12'] = 0x261E;
t['a13'] = 0x270C;
t['a14'] = 0x270D;
t['a15'] = 0x270E;
t['a16'] = 0x270F;
t['a105'] = 0x2710;
t['a17'] = 0x2711;
t['a18'] = 0x2712;
t['a19'] = 0x2713;
t['a20'] = 0x2714;
t['a21'] = 0x2715;
t['a22'] = 0x2716;
t['a23'] = 0x2717;
t['a24'] = 0x2718;
t['a25'] = 0x2719;
t['a26'] = 0x271A;
t['a27'] = 0x271B;
t['a28'] = 0x271C;
t['a6'] = 0x271D;
t['a7'] = 0x271E;
t['a8'] = 0x271F;
t['a9'] = 0x2720;
t['a10'] = 0x2721;
t['a29'] = 0x2722;
t['a30'] = 0x2723;
t['a31'] = 0x2724;
t['a32'] = 0x2725;
t['a33'] = 0x2726;
t['a34'] = 0x2727;
t['a35'] = 0x2605;
t['a36'] = 0x2729;
t['a37'] = 0x272A;
t['a38'] = 0x272B;
t['a39'] = 0x272C;
t['a40'] = 0x272D;
t['a41'] = 0x272E;
t['a42'] = 0x272F;
t['a43'] = 0x2730;
t['a44'] = 0x2731;
t['a45'] = 0x2732;
t['a46'] = 0x2733;
t['a47'] = 0x2734;
t['a48'] = 0x2735;
t['a49'] = 0x2736;
t['a50'] = 0x2737;
t['a51'] = 0x2738;
t['a52'] = 0x2739;
t['a53'] = 0x273A;
t['a54'] = 0x273B;
t['a55'] = 0x273C;
t['a56'] = 0x273D;
t['a57'] = 0x273E;
t['a58'] = 0x273F;
t['a59'] = 0x2740;
t['a60'] = 0x2741;
t['a61'] = 0x2742;
t['a62'] = 0x2743;
t['a63'] = 0x2744;
t['a64'] = 0x2745;
t['a65'] = 0x2746;
t['a66'] = 0x2747;
t['a67'] = 0x2748;
t['a68'] = 0x2749;
t['a69'] = 0x274A;
t['a70'] = 0x274B;
t['a71'] = 0x25CF;
t['a72'] = 0x274D;
t['a73'] = 0x25A0;
t['a74'] = 0x274F;
t['a203'] = 0x2750;
t['a75'] = 0x2751;
t['a204'] = 0x2752;
t['a76'] = 0x25B2;
t['a77'] = 0x25BC;
t['a78'] = 0x25C6;
t['a79'] = 0x2756;
t['a81'] = 0x25D7;
t['a82'] = 0x2758;
t['a83'] = 0x2759;
t['a84'] = 0x275A;
t['a97'] = 0x275B;
t['a98'] = 0x275C;
t['a99'] = 0x275D;
t['a100'] = 0x275E;
t['a101'] = 0x2761;
t['a102'] = 0x2762;
t['a103'] = 0x2763;
t['a104'] = 0x2764;
t['a106'] = 0x2765;
t['a107'] = 0x2766;
t['a108'] = 0x2767;
t['a112'] = 0x2663;
t['a111'] = 0x2666;
t['a110'] = 0x2665;
t['a109'] = 0x2660;
t['a120'] = 0x2460;
t['a121'] = 0x2461;
t['a122'] = 0x2462;
t['a123'] = 0x2463;
t['a124'] = 0x2464;
t['a125'] = 0x2465;
t['a126'] = 0x2466;
t['a127'] = 0x2467;
t['a128'] = 0x2468;
t['a129'] = 0x2469;
t['a130'] = 0x2776;
t['a131'] = 0x2777;
t['a132'] = 0x2778;
t['a133'] = 0x2779;
t['a134'] = 0x277A;
t['a135'] = 0x277B;
t['a136'] = 0x277C;
t['a137'] = 0x277D;
t['a138'] = 0x277E;
t['a139'] = 0x277F;
t['a140'] = 0x2780;
t['a141'] = 0x2781;
t['a142'] = 0x2782;
t['a143'] = 0x2783;
t['a144'] = 0x2784;
t['a145'] = 0x2785;
t['a146'] = 0x2786;
t['a147'] = 0x2787;
t['a148'] = 0x2788;
t['a149'] = 0x2789;
t['a150'] = 0x278A;
t['a151'] = 0x278B;
t['a152'] = 0x278C;
t['a153'] = 0x278D;
t['a154'] = 0x278E;
t['a155'] = 0x278F;
t['a156'] = 0x2790;
t['a157'] = 0x2791;
t['a158'] = 0x2792;
t['a159'] = 0x2793;
t['a160'] = 0x2794;
t['a161'] = 0x2192;
t['a163'] = 0x2194;
t['a164'] = 0x2195;
t['a196'] = 0x2798;
t['a165'] = 0x2799;
t['a192'] = 0x279A;
t['a166'] = 0x279B;
t['a167'] = 0x279C;
t['a168'] = 0x279D;
t['a169'] = 0x279E;
t['a170'] = 0x279F;
t['a171'] = 0x27A0;
t['a172'] = 0x27A1;
t['a173'] = 0x27A2;
t['a162'] = 0x27A3;
t['a174'] = 0x27A4;
t['a175'] = 0x27A5;
t['a176'] = 0x27A6;
t['a177'] = 0x27A7;
t['a178'] = 0x27A8;
t['a179'] = 0x27A9;
t['a193'] = 0x27AA;
t['a180'] = 0x27AB;
t['a199'] = 0x27AC;
t['a181'] = 0x27AD;
t['a200'] = 0x27AE;
t['a182'] = 0x27AF;
t['a201'] = 0x27B1;
t['a183'] = 0x27B2;
t['a184'] = 0x27B3;
t['a197'] = 0x27B4;
t['a185'] = 0x27B5;
t['a194'] = 0x27B6;
t['a198'] = 0x27B7;
t['a186'] = 0x27B8;
t['a195'] = 0x27B9;
t['a187'] = 0x27BA;
t['a188'] = 0x27BB;
t['a189'] = 0x27BC;
t['a190'] = 0x27BD;
t['a191'] = 0x27BE;
t['a89'] = 0x2768; // 0xF8D7
t['a90'] = 0x2769; // 0xF8D8
t['a93'] = 0x276A; // 0xF8D9
t['a94'] = 0x276B; // 0xF8DA
t['a91'] = 0x276C; // 0xF8DB
t['a92'] = 0x276D; // 0xF8DC
t['a205'] = 0x276E; // 0xF8DD
t['a85'] = 0x276F; // 0xF8DE
t['a206'] = 0x2770; // 0xF8DF
t['a86'] = 0x2771; // 0xF8E0
t['a87'] = 0x2772; // 0xF8E1
t['a88'] = 0x2773; // 0xF8E2
t['a95'] = 0x2774; // 0xF8E3
t['a96'] = 0x2775; // 0xF8E4
t['.notdef'] = 0x0000;
});
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exports.getGlyphsUnicode = getGlyphsUnicode;
exports.getDingbatsGlyphsUnicode = getDingbatsGlyphsUnicode;
}));
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(function (root, factory) {
{
factory((root.pdfjsCoreJbig2 = {}), root.pdfjsSharedUtil,
root.pdfjsCoreArithmeticDecoder);
}
}(this, function (exports, sharedUtil, coreArithmeticDecoder) {
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var error = sharedUtil.error;
var log2 = sharedUtil.log2;
var readInt8 = sharedUtil.readInt8;
var readUint16 = sharedUtil.readUint16;
var readUint32 = sharedUtil.readUint32;
var shadow = sharedUtil.shadow;
var ArithmeticDecoder = coreArithmeticDecoder.ArithmeticDecoder;
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var Jbig2Image = (function Jbig2ImageClosure() {
// Utility data structures
function ContextCache() {}
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ContextCache.prototype = {
getContexts: function(id) {
if (id in this) {
return this[id];
}
return (this[id] = new Int8Array(1 << 16));
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}
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};
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function DecodingContext(data, start, end) {
this.data = data;
this.start = start;
this.end = end;
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}
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DecodingContext.prototype = {
get decoder() {
var decoder = new ArithmeticDecoder(this.data, this.start, this.end);
return shadow(this, 'decoder', decoder);
},
get contextCache() {
var cache = new ContextCache();
return shadow(this, 'contextCache', cache);
}
};
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// Annex A. Arithmetic Integer Decoding Procedure
// A.2 Procedure for decoding values
function decodeInteger(contextCache, procedure, decoder) {
var contexts = contextCache.getContexts(procedure);
var prev = 1;
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function readBits(length) {
var v = 0;
for (var i = 0; i < length; i++) {
var bit = decoder.readBit(contexts, prev);
prev = (prev < 256 ? (prev << 1) | bit :
(((prev << 1) | bit) & 511) | 256);
v = (v << 1) | bit;
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}
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return v >>> 0;
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}
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var sign = readBits(1);
var value = readBits(1) ?
(readBits(1) ?
(readBits(1) ?
(readBits(1) ?
(readBits(1) ?
(readBits(32) + 4436) :
readBits(12) + 340) :
readBits(8) + 84) :
readBits(6) + 20) :
readBits(4) + 4) :
readBits(2);
return (sign === 0 ? value : (value > 0 ? -value : null));
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}
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// A.3 The IAID decoding procedure
function decodeIAID(contextCache, decoder, codeLength) {
var contexts = contextCache.getContexts('IAID');
var prev = 1;
for (var i = 0; i < codeLength; i++) {
var bit = decoder.readBit(contexts, prev);
prev = (prev << 1) | bit;
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}
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if (codeLength < 31) {
return prev & ((1 << codeLength) - 1);
}
return prev & 0x7FFFFFFF;
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}
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// 7.3 Segment types
var SegmentTypes = [
'SymbolDictionary', null, null, null, 'IntermediateTextRegion', null,
'ImmediateTextRegion', 'ImmediateLosslessTextRegion', null, null, null,
null, null, null, null, null, 'patternDictionary', null, null, null,
'IntermediateHalftoneRegion', null, 'ImmediateHalftoneRegion',
'ImmediateLosslessHalftoneRegion', null, null, null, null, null, null, null,
null, null, null, null, null, 'IntermediateGenericRegion', null,
'ImmediateGenericRegion', 'ImmediateLosslessGenericRegion',
'IntermediateGenericRefinementRegion', null,
'ImmediateGenericRefinementRegion',
'ImmediateLosslessGenericRefinementRegion', null, null, null, null,
'PageInformation', 'EndOfPage', 'EndOfStripe', 'EndOfFile', 'Profiles',
'Tables', null, null, null, null, null, null, null, null,
'Extension'
];
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var CodingTemplates = [
[{x: -1, y: -2}, {x: 0, y: -2}, {x: 1, y: -2}, {x: -2, y: -1},
{x: -1, y: -1}, {x: 0, y: -1}, {x: 1, y: -1}, {x: 2, y: -1},
{x: -4, y: 0}, {x: -3, y: 0}, {x: -2, y: 0}, {x: -1, y: 0}],
[{x: -1, y: -2}, {x: 0, y: -2}, {x: 1, y: -2}, {x: 2, y: -2},
{x: -2, y: -1}, {x: -1, y: -1}, {x: 0, y: -1}, {x: 1, y: -1},
{x: 2, y: -1}, {x: -3, y: 0}, {x: -2, y: 0}, {x: -1, y: 0}],
[{x: -1, y: -2}, {x: 0, y: -2}, {x: 1, y: -2}, {x: -2, y: -1},
{x: -1, y: -1}, {x: 0, y: -1}, {x: 1, y: -1}, {x: -2, y: 0},
{x: -1, y: 0}],
[{x: -3, y: -1}, {x: -2, y: -1}, {x: -1, y: -1}, {x: 0, y: -1},
{x: 1, y: -1}, {x: -4, y: 0}, {x: -3, y: 0}, {x: -2, y: 0}, {x: -1, y: 0}]
];
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var RefinementTemplates = [
{
coding: [{x: 0, y: -1}, {x: 1, y: -1}, {x: -1, y: 0}],
reference: [{x: 0, y: -1}, {x: 1, y: -1}, {x: -1, y: 0}, {x: 0, y: 0},
{x: 1, y: 0}, {x: -1, y: 1}, {x: 0, y: 1}, {x: 1, y: 1}]
},
{
coding: [{x: -1, y: -1}, {x: 0, y: -1}, {x: 1, y: -1}, {x: -1, y: 0}],
reference: [{x: 0, y: -1}, {x: -1, y: 0}, {x: 0, y: 0}, {x: 1, y: 0},
{x: 0, y: 1}, {x: 1, y: 1}]
}
];
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// See 6.2.5.7 Decoding the bitmap.
var ReusedContexts = [
0x9B25, // 10011 0110010 0101
0x0795, // 0011 110010 101
0x00E5, // 001 11001 01
0x0195 // 011001 0101
];
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var RefinementReusedContexts = [
0x0020, // '000' + '0' (coding) + '00010000' + '0' (reference)
0x0008 // '0000' + '001000'
];
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function decodeBitmapTemplate0(width, height, decodingContext) {
var decoder = decodingContext.decoder;
var contexts = decodingContext.contextCache.getContexts('GB');
var contextLabel, i, j, pixel, row, row1, row2, bitmap = [];
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// ...ooooo....
// ..ooooooo... Context template for current pixel (X)
// .ooooX...... (concatenate values of 'o'-pixels to get contextLabel)
var OLD_PIXEL_MASK = 0x7BF7; // 01111 0111111 0111
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for (i = 0; i < height; i++) {
row = bitmap[i] = new Uint8Array(width);
row1 = (i < 1) ? row : bitmap[i - 1];
row2 = (i < 2) ? row : bitmap[i - 2];
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// At the beginning of each row:
// Fill contextLabel with pixels that are above/right of (X)
contextLabel = (row2[0] << 13) | (row2[1] << 12) | (row2[2] << 11) |
(row1[0] << 7) | (row1[1] << 6) | (row1[2] << 5) |
(row1[3] << 4);
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for (j = 0; j < width; j++) {
row[j] = pixel = decoder.readBit(contexts, contextLabel);
// At each pixel: Clear contextLabel pixels that are shifted
// out of the context, then add new ones.
contextLabel = ((contextLabel & OLD_PIXEL_MASK) << 1) |
(j + 3 < width ? row2[j + 3] << 11 : 0) |
(j + 4 < width ? row1[j + 4] << 4 : 0) | pixel;
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}
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}
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return bitmap;
}
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// 6.2 Generic Region Decoding Procedure
function decodeBitmap(mmr, width, height, templateIndex, prediction, skip, at,
decodingContext) {
if (mmr) {
error('JBIG2 error: MMR encoding is not supported');
}
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// Use optimized version for the most common case
if (templateIndex === 0 && !skip && !prediction && at.length === 4 &&
at[0].x === 3 && at[0].y === -1 && at[1].x === -3 && at[1].y === -1 &&
at[2].x === 2 && at[2].y === -2 && at[3].x === -2 && at[3].y === -2) {
return decodeBitmapTemplate0(width, height, decodingContext);
}
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var useskip = !!skip;
var template = CodingTemplates[templateIndex].concat(at);
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// Sorting is non-standard, and it is not required. But sorting increases
// the number of template bits that can be reused from the previous
// contextLabel in the main loop.
template.sort(function (a, b) {
return (a.y - b.y) || (a.x - b.x);
});
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var templateLength = template.length;
var templateX = new Int8Array(templateLength);
var templateY = new Int8Array(templateLength);
var changingTemplateEntries = [];
var reuseMask = 0, minX = 0, maxX = 0, minY = 0;
var c, k;
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for (k = 0; k < templateLength; k++) {
templateX[k] = template[k].x;
templateY[k] = template[k].y;
minX = Math.min(minX, template[k].x);
maxX = Math.max(maxX, template[k].x);
minY = Math.min(minY, template[k].y);
// Check if the template pixel appears in two consecutive context labels,
// so it can be reused. Otherwise, we add it to the list of changing
// template entries.
if (k < templateLength - 1 &&
template[k].y === template[k + 1].y &&
template[k].x === template[k + 1].x - 1) {
reuseMask |= 1 << (templateLength - 1 - k);
} else {
changingTemplateEntries.push(k);
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}
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}
var changingEntriesLength = changingTemplateEntries.length;
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var changingTemplateX = new Int8Array(changingEntriesLength);
var changingTemplateY = new Int8Array(changingEntriesLength);
var changingTemplateBit = new Uint16Array(changingEntriesLength);
for (c = 0; c < changingEntriesLength; c++) {
k = changingTemplateEntries[c];
changingTemplateX[c] = template[k].x;
changingTemplateY[c] = template[k].y;
changingTemplateBit[c] = 1 << (templateLength - 1 - k);
}
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// Get the safe bounding box edges from the width, height, minX, maxX, minY
var sbb_left = -minX;
var sbb_top = -minY;
var sbb_right = width - maxX;
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var pseudoPixelContext = ReusedContexts[templateIndex];
var row = new Uint8Array(width);
var bitmap = [];
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var decoder = decodingContext.decoder;
var contexts = decodingContext.contextCache.getContexts('GB');
var ltp = 0, j, i0, j0, contextLabel = 0, bit, shift;
for (var i = 0; i < height; i++) {
if (prediction) {
var sltp = decoder.readBit(contexts, pseudoPixelContext);
ltp ^= sltp;
if (ltp) {
bitmap.push(row); // duplicate previous row
continue;
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}
}
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row = new Uint8Array(row);
bitmap.push(row);
for (j = 0; j < width; j++) {
if (useskip && skip[i][j]) {
row[j] = 0;
continue;
}
// Are we in the middle of a scanline, so we can reuse contextLabel
// bits?
if (j >= sbb_left && j < sbb_right && i >= sbb_top) {
// If yes, we can just shift the bits that are reusable and only
// fetch the remaining ones.
contextLabel = (contextLabel << 1) & reuseMask;
for (k = 0; k < changingEntriesLength; k++) {
i0 = i + changingTemplateY[k];
j0 = j + changingTemplateX[k];
bit = bitmap[i0][j0];
if (bit) {
bit = changingTemplateBit[k];
contextLabel |= bit;
}
}
} else {
// compute the contextLabel from scratch
contextLabel = 0;
shift = templateLength - 1;
for (k = 0; k < templateLength; k++, shift--) {
j0 = j + templateX[k];
if (j0 >= 0 && j0 < width) {
i0 = i + templateY[k];
if (i0 >= 0) {
bit = bitmap[i0][j0];
if (bit) {
contextLabel |= bit << shift;
}
}
}
}
}
var pixel = decoder.readBit(contexts, contextLabel);
row[j] = pixel;
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}
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}
return bitmap;
}
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// 6.3.2 Generic Refinement Region Decoding Procedure
function decodeRefinement(width, height, templateIndex, referenceBitmap,
offsetX, offsetY, prediction, at,
decodingContext) {
var codingTemplate = RefinementTemplates[templateIndex].coding;
if (templateIndex === 0) {
codingTemplate = codingTemplate.concat([at[0]]);
}
var codingTemplateLength = codingTemplate.length;
var codingTemplateX = new Int32Array(codingTemplateLength);
var codingTemplateY = new Int32Array(codingTemplateLength);
var k;
for (k = 0; k < codingTemplateLength; k++) {
codingTemplateX[k] = codingTemplate[k].x;
codingTemplateY[k] = codingTemplate[k].y;
}
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var referenceTemplate = RefinementTemplates[templateIndex].reference;
if (templateIndex === 0) {
referenceTemplate = referenceTemplate.concat([at[1]]);
}
var referenceTemplateLength = referenceTemplate.length;
var referenceTemplateX = new Int32Array(referenceTemplateLength);
var referenceTemplateY = new Int32Array(referenceTemplateLength);
for (k = 0; k < referenceTemplateLength; k++) {
referenceTemplateX[k] = referenceTemplate[k].x;
referenceTemplateY[k] = referenceTemplate[k].y;
}
var referenceWidth = referenceBitmap[0].length;
var referenceHeight = referenceBitmap.length;
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var pseudoPixelContext = RefinementReusedContexts[templateIndex];
var bitmap = [];
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var decoder = decodingContext.decoder;
var contexts = decodingContext.contextCache.getContexts('GR');
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var ltp = 0;
for (var i = 0; i < height; i++) {
if (prediction) {
var sltp = decoder.readBit(contexts, pseudoPixelContext);
ltp ^= sltp;
if (ltp) {
error('JBIG2 error: prediction is not supported');
}
}
var row = new Uint8Array(width);
bitmap.push(row);
for (var j = 0; j < width; j++) {
var i0, j0;
var contextLabel = 0;
for (k = 0; k < codingTemplateLength; k++) {
i0 = i + codingTemplateY[k];
j0 = j + codingTemplateX[k];
if (i0 < 0 || j0 < 0 || j0 >= width) {
contextLabel <<= 1; // out of bound pixel
} else {
contextLabel = (contextLabel << 1) | bitmap[i0][j0];
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}
}
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for (k = 0; k < referenceTemplateLength; k++) {
i0 = i + referenceTemplateY[k] + offsetY;
j0 = j + referenceTemplateX[k] + offsetX;
if (i0 < 0 || i0 >= referenceHeight || j0 < 0 ||
j0 >= referenceWidth) {
contextLabel <<= 1; // out of bound pixel
} else {
contextLabel = (contextLabel << 1) | referenceBitmap[i0][j0];
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}
}
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var pixel = decoder.readBit(contexts, contextLabel);
row[j] = pixel;
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}
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}
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return bitmap;
}
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// 6.5.5 Decoding the symbol dictionary
function decodeSymbolDictionary(huffman, refinement, symbols,
numberOfNewSymbols, numberOfExportedSymbols,
huffmanTables, templateIndex, at,
refinementTemplateIndex, refinementAt,
decodingContext) {
if (huffman) {
error('JBIG2 error: huffman is not supported');
}
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var newSymbols = [];
var currentHeight = 0;
var symbolCodeLength = log2(symbols.length + numberOfNewSymbols);
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var decoder = decodingContext.decoder;
var contextCache = decodingContext.contextCache;
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while (newSymbols.length < numberOfNewSymbols) {
var deltaHeight = decodeInteger(contextCache, 'IADH', decoder); // 6.5.6
currentHeight += deltaHeight;
var currentWidth = 0;
var totalWidth = 0;
while (true) {
var deltaWidth = decodeInteger(contextCache, 'IADW', decoder); // 6.5.7
if (deltaWidth === null) {
break; // OOB
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}
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currentWidth += deltaWidth;
totalWidth += currentWidth;
var bitmap;
if (refinement) {
// 6.5.8.2 Refinement/aggregate-coded symbol bitmap
var numberOfInstances = decodeInteger(contextCache, 'IAAI', decoder);
if (numberOfInstances > 1) {
bitmap = decodeTextRegion(huffman, refinement,
currentWidth, currentHeight, 0,
numberOfInstances, 1, //strip size
symbols.concat(newSymbols),
symbolCodeLength,
0, //transposed
0, //ds offset
1, //top left 7.4.3.1.1
0, //OR operator
huffmanTables,
refinementTemplateIndex, refinementAt,
decodingContext);
} else {
var symbolId = decodeIAID(contextCache, decoder, symbolCodeLength);
var rdx = decodeInteger(contextCache, 'IARDX', decoder); // 6.4.11.3
var rdy = decodeInteger(contextCache, 'IARDY', decoder); // 6.4.11.4
var symbol = (symbolId < symbols.length ? symbols[symbolId] :
newSymbols[symbolId - symbols.length]);
bitmap = decodeRefinement(currentWidth, currentHeight,
refinementTemplateIndex, symbol, rdx, rdy, false, refinementAt,
decodingContext);
}
} else {
// 6.5.8.1 Direct-coded symbol bitmap
bitmap = decodeBitmap(false, currentWidth, currentHeight,
templateIndex, false, null, at, decodingContext);
}
newSymbols.push(bitmap);
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}
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}
// 6.5.10 Exported symbols
var exportedSymbols = [];
var flags = [], currentFlag = false;
var totalSymbolsLength = symbols.length + numberOfNewSymbols;
while (flags.length < totalSymbolsLength) {
var runLength = decodeInteger(contextCache, 'IAEX', decoder);
while (runLength--) {
flags.push(currentFlag);
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}
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currentFlag = !currentFlag;
}
for (var i = 0, ii = symbols.length; i < ii; i++) {
if (flags[i]) {
exportedSymbols.push(symbols[i]);
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}
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}
for (var j = 0; j < numberOfNewSymbols; i++, j++) {
if (flags[i]) {
exportedSymbols.push(newSymbols[j]);
}
}
return exportedSymbols;
}
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function decodeTextRegion(huffman, refinement, width, height,
defaultPixelValue, numberOfSymbolInstances,
stripSize, inputSymbols, symbolCodeLength,
transposed, dsOffset, referenceCorner,
combinationOperator, huffmanTables,
refinementTemplateIndex, refinementAt,
decodingContext) {
if (huffman) {
error('JBIG2 error: huffman is not supported');
}
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// Prepare bitmap
var bitmap = [];
var i, row;
for (i = 0; i < height; i++) {
row = new Uint8Array(width);
if (defaultPixelValue) {
for (var j = 0; j < width; j++) {
row[j] = defaultPixelValue;
}
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}
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bitmap.push(row);
}
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var decoder = decodingContext.decoder;
var contextCache = decodingContext.contextCache;
var stripT = -decodeInteger(contextCache, 'IADT', decoder); // 6.4.6
var firstS = 0;
i = 0;
while (i < numberOfSymbolInstances) {
var deltaT = decodeInteger(contextCache, 'IADT', decoder); // 6.4.6
stripT += deltaT;
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var deltaFirstS = decodeInteger(contextCache, 'IAFS', decoder); // 6.4.7
firstS += deltaFirstS;
var currentS = firstS;
do {
var currentT = (stripSize === 1 ? 0 :
decodeInteger(contextCache, 'IAIT', decoder)); // 6.4.9
var t = stripSize * stripT + currentT;
var symbolId = decodeIAID(contextCache, decoder, symbolCodeLength);
var applyRefinement = (refinement &&
decodeInteger(contextCache, 'IARI', decoder));
var symbolBitmap = inputSymbols[symbolId];
var symbolWidth = symbolBitmap[0].length;
var symbolHeight = symbolBitmap.length;
if (applyRefinement) {
var rdw = decodeInteger(contextCache, 'IARDW', decoder); // 6.4.11.1
var rdh = decodeInteger(contextCache, 'IARDH', decoder); // 6.4.11.2
var rdx = decodeInteger(contextCache, 'IARDX', decoder); // 6.4.11.3
var rdy = decodeInteger(contextCache, 'IARDY', decoder); // 6.4.11.4
symbolWidth += rdw;
symbolHeight += rdh;
symbolBitmap = decodeRefinement(symbolWidth, symbolHeight,
refinementTemplateIndex, symbolBitmap, (rdw >> 1) + rdx,
(rdh >> 1) + rdy, false, refinementAt,
decodingContext);
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}
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var offsetT = t - ((referenceCorner & 1) ? 0 : symbolHeight);
var offsetS = currentS - ((referenceCorner & 2) ? symbolWidth : 0);
var s2, t2, symbolRow;
if (transposed) {
// Place Symbol Bitmap from T1,S1
for (s2 = 0; s2 < symbolHeight; s2++) {
row = bitmap[offsetS + s2];
if (!row) {
continue;
}
symbolRow = symbolBitmap[s2];
// To ignore Parts of Symbol bitmap which goes
// outside bitmap region
var maxWidth = Math.min(width - offsetT, symbolWidth);
switch (combinationOperator) {
case 0: // OR
for (t2 = 0; t2 < maxWidth; t2++) {
row[offsetT + t2] |= symbolRow[t2];
}
break;
case 2: // XOR
for (t2 = 0; t2 < maxWidth; t2++) {
row[offsetT + t2] ^= symbolRow[t2];
}
break;
default:
error('JBIG2 error: operator ' + combinationOperator +
' is not supported');
}
}
currentS += symbolHeight - 1;
} else {
for (t2 = 0; t2 < symbolHeight; t2++) {
row = bitmap[offsetT + t2];
if (!row) {
continue;
}
symbolRow = symbolBitmap[t2];
switch (combinationOperator) {
case 0: // OR
for (s2 = 0; s2 < symbolWidth; s2++) {
row[offsetS + s2] |= symbolRow[s2];
}
break;
case 2: // XOR
for (s2 = 0; s2 < symbolWidth; s2++) {
row[offsetS + s2] ^= symbolRow[s2];
}
break;
default:
error('JBIG2 error: operator ' + combinationOperator +
' is not supported');
}
}
currentS += symbolWidth - 1;
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}
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i++;
var deltaS = decodeInteger(contextCache, 'IADS', decoder); // 6.4.8
if (deltaS === null) {
break; // OOB
}
currentS += deltaS + dsOffset;
} while (true);
}
return bitmap;
}
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function readSegmentHeader(data, start) {
var segmentHeader = {};
segmentHeader.number = readUint32(data, start);
var flags = data[start + 4];
var segmentType = flags & 0x3F;
if (!SegmentTypes[segmentType]) {
error('JBIG2 error: invalid segment type: ' + segmentType);
}
segmentHeader.type = segmentType;
segmentHeader.typeName = SegmentTypes[segmentType];
segmentHeader.deferredNonRetain = !!(flags & 0x80);
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var pageAssociationFieldSize = !!(flags & 0x40);
var referredFlags = data[start + 5];
var referredToCount = (referredFlags >> 5) & 7;
var retainBits = [referredFlags & 31];
var position = start + 6;
if (referredFlags === 7) {
referredToCount = readUint32(data, position - 1) & 0x1FFFFFFF;
position += 3;
var bytes = (referredToCount + 7) >> 3;
retainBits[0] = data[position++];
while (--bytes > 0) {
retainBits.push(data[position++]);
}
} else if (referredFlags === 5 || referredFlags === 6) {
error('JBIG2 error: invalid referred-to flags');
}
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segmentHeader.retainBits = retainBits;
var referredToSegmentNumberSize = (segmentHeader.number <= 256 ? 1 :
(segmentHeader.number <= 65536 ? 2 : 4));
var referredTo = [];
var i, ii;
for (i = 0; i < referredToCount; i++) {
var number = (referredToSegmentNumberSize === 1 ? data[position] :
(referredToSegmentNumberSize === 2 ? readUint16(data, position) :
readUint32(data, position)));
referredTo.push(number);
position += referredToSegmentNumberSize;
}
segmentHeader.referredTo = referredTo;
if (!pageAssociationFieldSize) {
segmentHeader.pageAssociation = data[position++];
} else {
segmentHeader.pageAssociation = readUint32(data, position);
position += 4;
}
segmentHeader.length = readUint32(data, position);
position += 4;
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if (segmentHeader.length === 0xFFFFFFFF) {
// 7.2.7 Segment data length, unknown segment length
if (segmentType === 38) { // ImmediateGenericRegion
var genericRegionInfo = readRegionSegmentInformation(data, position);
var genericRegionSegmentFlags = data[position +
RegionSegmentInformationFieldLength];
var genericRegionMmr = !!(genericRegionSegmentFlags & 1);
// searching for the segment end
var searchPatternLength = 6;
var searchPattern = new Uint8Array(searchPatternLength);
if (!genericRegionMmr) {
searchPattern[0] = 0xFF;
searchPattern[1] = 0xAC;
}
searchPattern[2] = (genericRegionInfo.height >>> 24) & 0xFF;
searchPattern[3] = (genericRegionInfo.height >> 16) & 0xFF;
searchPattern[4] = (genericRegionInfo.height >> 8) & 0xFF;
searchPattern[5] = genericRegionInfo.height & 0xFF;
for (i = position, ii = data.length; i < ii; i++) {
var j = 0;
while (j < searchPatternLength && searchPattern[j] === data[i + j]) {
j++;
}
if (j === searchPatternLength) {
segmentHeader.length = i + searchPatternLength;
break;
}
}
if (segmentHeader.length === 0xFFFFFFFF) {
error('JBIG2 error: segment end was not found');
}
} else {
error('JBIG2 error: invalid unknown segment length');
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}
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}
segmentHeader.headerEnd = position;
return segmentHeader;
}
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function readSegments(header, data, start, end) {
var segments = [];
var position = start;
while (position < end) {
var segmentHeader = readSegmentHeader(data, position);
position = segmentHeader.headerEnd;
var segment = {
header: segmentHeader,
data: data
};
if (!header.randomAccess) {
segment.start = position;
position += segmentHeader.length;
segment.end = position;
}
segments.push(segment);
if (segmentHeader.type === 51) {
break; // end of file is found
}
}
if (header.randomAccess) {
for (var i = 0, ii = segments.length; i < ii; i++) {
segments[i].start = position;
position += segments[i].header.length;
segments[i].end = position;
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}
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}
return segments;
}
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// 7.4.1 Region segment information field
function readRegionSegmentInformation(data, start) {
return {
width: readUint32(data, start),
height: readUint32(data, start + 4),
x: readUint32(data, start + 8),
y: readUint32(data, start + 12),
combinationOperator: data[start + 16] & 7
};
}
var RegionSegmentInformationFieldLength = 17;
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function processSegment(segment, visitor) {
var header = segment.header;
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var data = segment.data, position = segment.start, end = segment.end;
var args, at, i, atLength;
switch (header.type) {
case 0: // SymbolDictionary
// 7.4.2 Symbol dictionary segment syntax
var dictionary = {};
var dictionaryFlags = readUint16(data, position); // 7.4.2.1.1
dictionary.huffman = !!(dictionaryFlags & 1);
dictionary.refinement = !!(dictionaryFlags & 2);
dictionary.huffmanDHSelector = (dictionaryFlags >> 2) & 3;
dictionary.huffmanDWSelector = (dictionaryFlags >> 4) & 3;
dictionary.bitmapSizeSelector = (dictionaryFlags >> 6) & 1;
dictionary.aggregationInstancesSelector = (dictionaryFlags >> 7) & 1;
dictionary.bitmapCodingContextUsed = !!(dictionaryFlags & 256);
dictionary.bitmapCodingContextRetained = !!(dictionaryFlags & 512);
dictionary.template = (dictionaryFlags >> 10) & 3;
dictionary.refinementTemplate = (dictionaryFlags >> 12) & 1;
position += 2;
if (!dictionary.huffman) {
atLength = dictionary.template === 0 ? 4 : 1;
at = [];
for (i = 0; i < atLength; i++) {
at.push({
x: readInt8(data, position),
y: readInt8(data, position + 1)
});
position += 2;
}
dictionary.at = at;
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}
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if (dictionary.refinement && !dictionary.refinementTemplate) {
at = [];
for (i = 0; i < 2; i++) {
at.push({
x: readInt8(data, position),
y: readInt8(data, position + 1)
});
position += 2;
}
dictionary.refinementAt = at;
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}
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dictionary.numberOfExportedSymbols = readUint32(data, position);
position += 4;
dictionary.numberOfNewSymbols = readUint32(data, position);
position += 4;
args = [dictionary, header.number, header.referredTo,
data, position, end];
break;
case 6: // ImmediateTextRegion
case 7: // ImmediateLosslessTextRegion
var textRegion = {};
textRegion.info = readRegionSegmentInformation(data, position);
position += RegionSegmentInformationFieldLength;
var textRegionSegmentFlags = readUint16(data, position);
position += 2;
textRegion.huffman = !!(textRegionSegmentFlags & 1);
textRegion.refinement = !!(textRegionSegmentFlags & 2);
textRegion.stripSize = 1 << ((textRegionSegmentFlags >> 2) & 3);
textRegion.referenceCorner = (textRegionSegmentFlags >> 4) & 3;
textRegion.transposed = !!(textRegionSegmentFlags & 64);
textRegion.combinationOperator = (textRegionSegmentFlags >> 7) & 3;
textRegion.defaultPixelValue = (textRegionSegmentFlags >> 9) & 1;
textRegion.dsOffset = (textRegionSegmentFlags << 17) >> 27;
textRegion.refinementTemplate = (textRegionSegmentFlags >> 15) & 1;
if (textRegion.huffman) {
var textRegionHuffmanFlags = readUint16(data, position);
position += 2;
textRegion.huffmanFS = (textRegionHuffmanFlags) & 3;
textRegion.huffmanDS = (textRegionHuffmanFlags >> 2) & 3;
textRegion.huffmanDT = (textRegionHuffmanFlags >> 4) & 3;
textRegion.huffmanRefinementDW = (textRegionHuffmanFlags >> 6) & 3;
textRegion.huffmanRefinementDH = (textRegionHuffmanFlags >> 8) & 3;
textRegion.huffmanRefinementDX = (textRegionHuffmanFlags >> 10) & 3;
textRegion.huffmanRefinementDY = (textRegionHuffmanFlags >> 12) & 3;
textRegion.huffmanRefinementSizeSelector =
!!(textRegionHuffmanFlags & 14);
}
if (textRegion.refinement && !textRegion.refinementTemplate) {
at = [];
for (i = 0; i < 2; i++) {
at.push({
x: readInt8(data, position),
y: readInt8(data, position + 1)
});
position += 2;
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}
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textRegion.refinementAt = at;
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}
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textRegion.numberOfSymbolInstances = readUint32(data, position);
position += 4;
// TODO 7.4.3.1.7 Symbol ID Huffman table decoding
if (textRegion.huffman) {
error('JBIG2 error: huffman is not supported');
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}
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args = [textRegion, header.referredTo, data, position, end];
break;
case 38: // ImmediateGenericRegion
case 39: // ImmediateLosslessGenericRegion
var genericRegion = {};
genericRegion.info = readRegionSegmentInformation(data, position);
position += RegionSegmentInformationFieldLength;
var genericRegionSegmentFlags = data[position++];
genericRegion.mmr = !!(genericRegionSegmentFlags & 1);
genericRegion.template = (genericRegionSegmentFlags >> 1) & 3;
genericRegion.prediction = !!(genericRegionSegmentFlags & 8);
if (!genericRegion.mmr) {
atLength = genericRegion.template === 0 ? 4 : 1;
at = [];
for (i = 0; i < atLength; i++) {
at.push({
x: readInt8(data, position),
y: readInt8(data, position + 1)
});
position += 2;
}
genericRegion.at = at;
}
args = [genericRegion, data, position, end];
break;
case 48: // PageInformation
var pageInfo = {
width: readUint32(data, position),
height: readUint32(data, position + 4),
resolutionX: readUint32(data, position + 8),
resolutionY: readUint32(data, position + 12)
};
if (pageInfo.height === 0xFFFFFFFF) {
delete pageInfo.height;
}
var pageSegmentFlags = data[position + 16];
var pageStripingInformation = readUint16(data, position + 17);
pageInfo.lossless = !!(pageSegmentFlags & 1);
pageInfo.refinement = !!(pageSegmentFlags & 2);
pageInfo.defaultPixelValue = (pageSegmentFlags >> 2) & 1;
pageInfo.combinationOperator = (pageSegmentFlags >> 3) & 3;
pageInfo.requiresBuffer = !!(pageSegmentFlags & 32);
pageInfo.combinationOperatorOverride = !!(pageSegmentFlags & 64);
args = [pageInfo];
break;
case 49: // EndOfPage
break;
case 50: // EndOfStripe
break;
case 51: // EndOfFile
break;
case 62: // 7.4.15 defines 2 extension types which
// are comments and can be ignored.
break;
default:
error('JBIG2 error: segment type ' + header.typeName + '(' +
header.type + ') is not implemented');
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}
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var callbackName = 'on' + header.typeName;
if (callbackName in visitor) {
visitor[callbackName].apply(visitor, args);
}
}
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function processSegments(segments, visitor) {
for (var i = 0, ii = segments.length; i < ii; i++) {
processSegment(segments[i], visitor);
}
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}
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function parseJbig2(data, start, end) {
var position = start;
if (data[position] !== 0x97 || data[position + 1] !== 0x4A ||
data[position + 2] !== 0x42 || data[position + 3] !== 0x32 ||
data[position + 4] !== 0x0D || data[position + 5] !== 0x0A ||
data[position + 6] !== 0x1A || data[position + 7] !== 0x0A) {
error('JBIG2 error: invalid header');
}
var header = {};
position += 8;
var flags = data[position++];
header.randomAccess = !(flags & 1);
if (!(flags & 2)) {
header.numberOfPages = readUint32(data, position);
position += 4;
}
var segments = readSegments(header, data, position, end);
error('Not implemented');
// processSegments(segments, new SimpleSegmentVisitor());
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}
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function parseJbig2Chunks(chunks) {
var visitor = new SimpleSegmentVisitor();
for (var i = 0, ii = chunks.length; i < ii; i++) {
var chunk = chunks[i];
var segments = readSegments({}, chunk.data, chunk.start, chunk.end);
processSegments(segments, visitor);
}
return visitor.buffer;
}
function SimpleSegmentVisitor() {}
SimpleSegmentVisitor.prototype = {
onPageInformation: function SimpleSegmentVisitor_onPageInformation(info) {
this.currentPageInfo = info;
var rowSize = (info.width + 7) >> 3;
var buffer = new Uint8Array(rowSize * info.height);
// The contents of ArrayBuffers are initialized to 0.
// Fill the buffer with 0xFF only if info.defaultPixelValue is set
if (info.defaultPixelValue) {
for (var i = 0, ii = buffer.length; i < ii; i++) {
buffer[i] = 0xFF;
}
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}
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this.buffer = buffer;
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},
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drawBitmap: function SimpleSegmentVisitor_drawBitmap(regionInfo, bitmap) {
var pageInfo = this.currentPageInfo;
var width = regionInfo.width, height = regionInfo.height;
var rowSize = (pageInfo.width + 7) >> 3;
var combinationOperator = pageInfo.combinationOperatorOverride ?
regionInfo.combinationOperator : pageInfo.combinationOperator;
var buffer = this.buffer;
var mask0 = 128 >> (regionInfo.x & 7);
var offset0 = regionInfo.y * rowSize + (regionInfo.x >> 3);
var i, j, mask, offset;
switch (combinationOperator) {
case 0: // OR
for (i = 0; i < height; i++) {
mask = mask0;
offset = offset0;
for (j = 0; j < width; j++) {
if (bitmap[i][j]) {
buffer[offset] |= mask;
}
mask >>= 1;
if (!mask) {
mask = 128;
offset++;
}
}
offset0 += rowSize;
}
break;
case 2: // XOR
for (i = 0; i < height; i++) {
mask = mask0;
offset = offset0;
for (j = 0; j < width; j++) {
if (bitmap[i][j]) {
buffer[offset] ^= mask;
}
mask >>= 1;
if (!mask) {
mask = 128;
offset++;
}
}
offset0 += rowSize;
}
break;
default:
error('JBIG2 error: operator ' + combinationOperator +
' is not supported');
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}
},
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onImmediateGenericRegion:
function SimpleSegmentVisitor_onImmediateGenericRegion(region, data,
start, end) {
var regionInfo = region.info;
var decodingContext = new DecodingContext(data, start, end);
var bitmap = decodeBitmap(region.mmr, regionInfo.width, regionInfo.height,
region.template, region.prediction, null,
region.at, decodingContext);
this.drawBitmap(regionInfo, bitmap);
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},
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onImmediateLosslessGenericRegion:
function SimpleSegmentVisitor_onImmediateLosslessGenericRegion() {
this.onImmediateGenericRegion.apply(this, arguments);
},
onSymbolDictionary:
function SimpleSegmentVisitor_onSymbolDictionary(dictionary,
currentSegment,
referredSegments,
data, start, end) {
var huffmanTables;
if (dictionary.huffman) {
error('JBIG2 error: huffman is not supported');
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}
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// Combines exported symbols from all referred segments
var symbols = this.symbols;
if (!symbols) {
this.symbols = symbols = {};
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}
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var inputSymbols = [];
for (var i = 0, ii = referredSegments.length; i < ii; i++) {
inputSymbols = inputSymbols.concat(symbols[referredSegments[i]]);
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}
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var decodingContext = new DecodingContext(data, start, end);
symbols[currentSegment] = decodeSymbolDictionary(dictionary.huffman,
dictionary.refinement, inputSymbols, dictionary.numberOfNewSymbols,
dictionary.numberOfExportedSymbols, huffmanTables,
dictionary.template, dictionary.at,
dictionary.refinementTemplate, dictionary.refinementAt,
decodingContext);
},
onImmediateTextRegion:
function SimpleSegmentVisitor_onImmediateTextRegion(region,
referredSegments,
data, start, end) {
var regionInfo = region.info;
var huffmanTables;
// Combines exported symbols from all referred segments
var symbols = this.symbols;
var inputSymbols = [];
for (var i = 0, ii = referredSegments.length; i < ii; i++) {
inputSymbols = inputSymbols.concat(symbols[referredSegments[i]]);
}
var symbolCodeLength = log2(inputSymbols.length);
var decodingContext = new DecodingContext(data, start, end);
var bitmap = decodeTextRegion(region.huffman, region.refinement,
regionInfo.width, regionInfo.height, region.defaultPixelValue,
region.numberOfSymbolInstances, region.stripSize, inputSymbols,
symbolCodeLength, region.transposed, region.dsOffset,
region.referenceCorner, region.combinationOperator, huffmanTables,
region.refinementTemplate, region.refinementAt, decodingContext);
this.drawBitmap(regionInfo, bitmap);
},
onImmediateLosslessTextRegion:
function SimpleSegmentVisitor_onImmediateLosslessTextRegion() {
this.onImmediateTextRegion.apply(this, arguments);
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}
};
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function Jbig2Image() {}
Jbig2Image.prototype = {
parseChunks: function Jbig2Image_parseChunks(chunks) {
return parseJbig2Chunks(chunks);
}
};
return Jbig2Image;
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})();
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exports.Jbig2Image = Jbig2Image;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreJpx = {}), root.pdfjsSharedUtil,
root.pdfjsCoreArithmeticDecoder);
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}
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}(this, function (exports, sharedUtil, coreArithmeticDecoder) {
var info = sharedUtil.info;
var log2 = sharedUtil.log2;
var readUint16 = sharedUtil.readUint16;
var readUint32 = sharedUtil.readUint32;
var warn = sharedUtil.warn;
var ArithmeticDecoder = coreArithmeticDecoder.ArithmeticDecoder;
var JpxImage = (function JpxImageClosure() {
// Table E.1
var SubbandsGainLog2 = {
'LL': 0,
'LH': 1,
'HL': 1,
'HH': 2
};
function JpxImage() {
this.failOnCorruptedImage = false;
}
JpxImage.prototype = {
parse: function JpxImage_parse(data) {
var head = readUint16(data, 0);
// No box header, immediate start of codestream (SOC)
if (head === 0xFF4F) {
this.parseCodestream(data, 0, data.length);
return;
}
var position = 0, length = data.length;
while (position < length) {
var headerSize = 8;
var lbox = readUint32(data, position);
var tbox = readUint32(data, position + 4);
position += headerSize;
if (lbox === 1) {
// XLBox: read UInt64 according to spec.
// JavaScript's int precision of 53 bit should be sufficient here.
lbox = readUint32(data, position) * 4294967296 +
readUint32(data, position + 4);
position += 8;
headerSize += 8;
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}
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if (lbox === 0) {
lbox = length - position + headerSize;
}
if (lbox < headerSize) {
throw new Error('JPX Error: Invalid box field size');
}
var dataLength = lbox - headerSize;
var jumpDataLength = true;
switch (tbox) {
case 0x6A703268: // 'jp2h'
jumpDataLength = false; // parsing child boxes
break;
case 0x636F6C72: // 'colr'
// Colorspaces are not used, the CS from the PDF is used.
var method = data[position];
if (method === 1) {
// enumerated colorspace
var colorspace = readUint32(data, position + 3);
switch (colorspace) {
case 16: // this indicates a sRGB colorspace
case 17: // this indicates a grayscale colorspace
case 18: // this indicates a YUV colorspace
break;
default:
warn('Unknown colorspace ' + colorspace);
break;
}
} else if (method === 2) {
info('ICC profile not supported');
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}
break;
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case 0x6A703263: // 'jp2c'
this.parseCodestream(data, position, position + dataLength);
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break;
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case 0x6A502020: // 'jP\024\024'
if (0x0d0a870a !== readUint32(data, position)) {
warn('Invalid JP2 signature');
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}
break;
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// The following header types are valid but currently not used:
case 0x6A501A1A: // 'jP\032\032'
case 0x66747970: // 'ftyp'
case 0x72726571: // 'rreq'
case 0x72657320: // 'res '
case 0x69686472: // 'ihdr'
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break;
default:
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var headerType = String.fromCharCode((tbox >> 24) & 0xFF,
(tbox >> 16) & 0xFF,
(tbox >> 8) & 0xFF,
tbox & 0xFF);
warn('Unsupported header type ' + tbox + ' (' + headerType + ')');
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break;
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}
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if (jumpDataLength) {
position += dataLength;
}
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}
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},
parseImageProperties: function JpxImage_parseImageProperties(stream) {
var newByte = stream.getByte();
while (newByte >= 0) {
var oldByte = newByte;
newByte = stream.getByte();
var code = (oldByte << 8) | newByte;
// Image and tile size (SIZ)
if (code === 0xFF51) {
stream.skip(4);
var Xsiz = stream.getInt32() >>> 0; // Byte 4
var Ysiz = stream.getInt32() >>> 0; // Byte 8
var XOsiz = stream.getInt32() >>> 0; // Byte 12
var YOsiz = stream.getInt32() >>> 0; // Byte 16
stream.skip(16);
var Csiz = stream.getUint16(); // Byte 36
this.width = Xsiz - XOsiz;
this.height = Ysiz - YOsiz;
this.componentsCount = Csiz;
// Results are always returned as Uint8Arrays
this.bitsPerComponent = 8;
return;
}
}
throw new Error('JPX Error: No size marker found in JPX stream');
},
parseCodestream: function JpxImage_parseCodestream(data, start, end) {
var context = {};
try {
var doNotRecover = false;
var position = start;
while (position + 1 < end) {
var code = readUint16(data, position);
position += 2;
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var length = 0, j, sqcd, spqcds, spqcdSize, scalarExpounded, tile;
switch (code) {
case 0xFF4F: // Start of codestream (SOC)
context.mainHeader = true;
break;
case 0xFFD9: // End of codestream (EOC)
break;
case 0xFF51: // Image and tile size (SIZ)
length = readUint16(data, position);
var siz = {};
siz.Xsiz = readUint32(data, position + 4);
siz.Ysiz = readUint32(data, position + 8);
siz.XOsiz = readUint32(data, position + 12);
siz.YOsiz = readUint32(data, position + 16);
siz.XTsiz = readUint32(data, position + 20);
siz.YTsiz = readUint32(data, position + 24);
siz.XTOsiz = readUint32(data, position + 28);
siz.YTOsiz = readUint32(data, position + 32);
var componentsCount = readUint16(data, position + 36);
siz.Csiz = componentsCount;
var components = [];
j = position + 38;
for (var i = 0; i < componentsCount; i++) {
var component = {
precision: (data[j] & 0x7F) + 1,
isSigned: !!(data[j] & 0x80),
XRsiz: data[j + 1],
YRsiz: data[j + 1]
};
calculateComponentDimensions(component, siz);
components.push(component);
}
context.SIZ = siz;
context.components = components;
calculateTileGrids(context, components);
context.QCC = [];
context.COC = [];
break;
case 0xFF5C: // Quantization default (QCD)
length = readUint16(data, position);
var qcd = {};
j = position + 2;
sqcd = data[j++];
switch (sqcd & 0x1F) {
case 0:
spqcdSize = 8;
scalarExpounded = true;
break;
case 1:
spqcdSize = 16;
scalarExpounded = false;
break;
case 2:
spqcdSize = 16;
scalarExpounded = true;
break;
default:
throw new Error('JPX Error: Invalid SQcd value ' + sqcd);
}
qcd.noQuantization = (spqcdSize === 8);
qcd.scalarExpounded = scalarExpounded;
qcd.guardBits = sqcd >> 5;
spqcds = [];
while (j < length + position) {
var spqcd = {};
if (spqcdSize === 8) {
spqcd.epsilon = data[j++] >> 3;
spqcd.mu = 0;
} else {
spqcd.epsilon = data[j] >> 3;
spqcd.mu = ((data[j] & 0x7) << 8) | data[j + 1];
j += 2;
}
spqcds.push(spqcd);
}
qcd.SPqcds = spqcds;
if (context.mainHeader) {
context.QCD = qcd;
} else {
context.currentTile.QCD = qcd;
context.currentTile.QCC = [];
}
break;
case 0xFF5D: // Quantization component (QCC)
length = readUint16(data, position);
var qcc = {};
j = position + 2;
var cqcc;
if (context.SIZ.Csiz < 257) {
cqcc = data[j++];
} else {
cqcc = readUint16(data, j);
j += 2;
}
sqcd = data[j++];
switch (sqcd & 0x1F) {
case 0:
spqcdSize = 8;
scalarExpounded = true;
break;
case 1:
spqcdSize = 16;
scalarExpounded = false;
break;
case 2:
spqcdSize = 16;
scalarExpounded = true;
break;
default:
throw new Error('JPX Error: Invalid SQcd value ' + sqcd);
}
qcc.noQuantization = (spqcdSize === 8);
qcc.scalarExpounded = scalarExpounded;
qcc.guardBits = sqcd >> 5;
spqcds = [];
while (j < (length + position)) {
spqcd = {};
if (spqcdSize === 8) {
spqcd.epsilon = data[j++] >> 3;
spqcd.mu = 0;
} else {
spqcd.epsilon = data[j] >> 3;
spqcd.mu = ((data[j] & 0x7) << 8) | data[j + 1];
j += 2;
}
spqcds.push(spqcd);
}
qcc.SPqcds = spqcds;
if (context.mainHeader) {
context.QCC[cqcc] = qcc;
} else {
context.currentTile.QCC[cqcc] = qcc;
}
break;
case 0xFF52: // Coding style default (COD)
length = readUint16(data, position);
var cod = {};
j = position + 2;
var scod = data[j++];
cod.entropyCoderWithCustomPrecincts = !!(scod & 1);
cod.sopMarkerUsed = !!(scod & 2);
cod.ephMarkerUsed = !!(scod & 4);
cod.progressionOrder = data[j++];
cod.layersCount = readUint16(data, j);
j += 2;
cod.multipleComponentTransform = data[j++];
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cod.decompositionLevelsCount = data[j++];
cod.xcb = (data[j++] & 0xF) + 2;
cod.ycb = (data[j++] & 0xF) + 2;
var blockStyle = data[j++];
cod.selectiveArithmeticCodingBypass = !!(blockStyle & 1);
cod.resetContextProbabilities = !!(blockStyle & 2);
cod.terminationOnEachCodingPass = !!(blockStyle & 4);
cod.verticalyStripe = !!(blockStyle & 8);
cod.predictableTermination = !!(blockStyle & 16);
cod.segmentationSymbolUsed = !!(blockStyle & 32);
cod.reversibleTransformation = data[j++];
if (cod.entropyCoderWithCustomPrecincts) {
var precinctsSizes = [];
while (j < length + position) {
var precinctsSize = data[j++];
precinctsSizes.push({
PPx: precinctsSize & 0xF,
PPy: precinctsSize >> 4
});
}
cod.precinctsSizes = precinctsSizes;
}
var unsupported = [];
if (cod.selectiveArithmeticCodingBypass) {
unsupported.push('selectiveArithmeticCodingBypass');
}
if (cod.resetContextProbabilities) {
unsupported.push('resetContextProbabilities');
}
if (cod.terminationOnEachCodingPass) {
unsupported.push('terminationOnEachCodingPass');
}
if (cod.verticalyStripe) {
unsupported.push('verticalyStripe');
}
if (cod.predictableTermination) {
unsupported.push('predictableTermination');
}
if (unsupported.length > 0) {
doNotRecover = true;
throw new Error('JPX Error: Unsupported COD options (' +
unsupported.join(', ') + ')');
}
if (context.mainHeader) {
context.COD = cod;
} else {
context.currentTile.COD = cod;
context.currentTile.COC = [];
}
break;
case 0xFF90: // Start of tile-part (SOT)
length = readUint16(data, position);
tile = {};
tile.index = readUint16(data, position + 2);
tile.length = readUint32(data, position + 4);
tile.dataEnd = tile.length + position - 2;
tile.partIndex = data[position + 8];
tile.partsCount = data[position + 9];
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context.mainHeader = false;
if (tile.partIndex === 0) {
// reset component specific settings
tile.COD = context.COD;
tile.COC = context.COC.slice(0); // clone of the global COC
tile.QCD = context.QCD;
tile.QCC = context.QCC.slice(0); // clone of the global COC
}
context.currentTile = tile;
break;
case 0xFF93: // Start of data (SOD)
tile = context.currentTile;
if (tile.partIndex === 0) {
initializeTile(context, tile.index);
buildPackets(context);
}
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// moving to the end of the data
length = tile.dataEnd - position;
parseTilePackets(context, data, position, length);
break;
case 0xFF55: // Tile-part lengths, main header (TLM)
case 0xFF57: // Packet length, main header (PLM)
case 0xFF58: // Packet length, tile-part header (PLT)
case 0xFF64: // Comment (COM)
length = readUint16(data, position);
// skipping content
break;
case 0xFF53: // Coding style component (COC)
throw new Error('JPX Error: Codestream code 0xFF53 (COC) is ' +
'not implemented');
default:
throw new Error('JPX Error: Unknown codestream code: ' +
code.toString(16));
}
position += length;
}
} catch (e) {
if (doNotRecover || this.failOnCorruptedImage) {
throw e;
} else {
warn('Trying to recover from ' + e.message);
}
}
this.tiles = transformComponents(context);
this.width = context.SIZ.Xsiz - context.SIZ.XOsiz;
this.height = context.SIZ.Ysiz - context.SIZ.YOsiz;
this.componentsCount = context.SIZ.Csiz;
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}
};
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function calculateComponentDimensions(component, siz) {
// Section B.2 Component mapping
component.x0 = Math.ceil(siz.XOsiz / component.XRsiz);
component.x1 = Math.ceil(siz.Xsiz / component.XRsiz);
component.y0 = Math.ceil(siz.YOsiz / component.YRsiz);
component.y1 = Math.ceil(siz.Ysiz / component.YRsiz);
component.width = component.x1 - component.x0;
component.height = component.y1 - component.y0;
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}
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function calculateTileGrids(context, components) {
var siz = context.SIZ;
// Section B.3 Division into tile and tile-components
var tile, tiles = [];
var numXtiles = Math.ceil((siz.Xsiz - siz.XTOsiz) / siz.XTsiz);
var numYtiles = Math.ceil((siz.Ysiz - siz.YTOsiz) / siz.YTsiz);
for (var q = 0; q < numYtiles; q++) {
for (var p = 0; p < numXtiles; p++) {
tile = {};
tile.tx0 = Math.max(siz.XTOsiz + p * siz.XTsiz, siz.XOsiz);
tile.ty0 = Math.max(siz.YTOsiz + q * siz.YTsiz, siz.YOsiz);
tile.tx1 = Math.min(siz.XTOsiz + (p + 1) * siz.XTsiz, siz.Xsiz);
tile.ty1 = Math.min(siz.YTOsiz + (q + 1) * siz.YTsiz, siz.Ysiz);
tile.width = tile.tx1 - tile.tx0;
tile.height = tile.ty1 - tile.ty0;
tile.components = [];
tiles.push(tile);
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}
}
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context.tiles = tiles;
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var componentsCount = siz.Csiz;
for (var i = 0, ii = componentsCount; i < ii; i++) {
var component = components[i];
for (var j = 0, jj = tiles.length; j < jj; j++) {
var tileComponent = {};
tile = tiles[j];
tileComponent.tcx0 = Math.ceil(tile.tx0 / component.XRsiz);
tileComponent.tcy0 = Math.ceil(tile.ty0 / component.YRsiz);
tileComponent.tcx1 = Math.ceil(tile.tx1 / component.XRsiz);
tileComponent.tcy1 = Math.ceil(tile.ty1 / component.YRsiz);
tileComponent.width = tileComponent.tcx1 - tileComponent.tcx0;
tileComponent.height = tileComponent.tcy1 - tileComponent.tcy0;
tile.components[i] = tileComponent;
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}
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}
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}
function getBlocksDimensions(context, component, r) {
var codOrCoc = component.codingStyleParameters;
var result = {};
if (!codOrCoc.entropyCoderWithCustomPrecincts) {
result.PPx = 15;
result.PPy = 15;
} else {
result.PPx = codOrCoc.precinctsSizes[r].PPx;
result.PPy = codOrCoc.precinctsSizes[r].PPy;
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}
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// calculate codeblock size as described in section B.7
result.xcb_ = (r > 0 ? Math.min(codOrCoc.xcb, result.PPx - 1) :
Math.min(codOrCoc.xcb, result.PPx));
result.ycb_ = (r > 0 ? Math.min(codOrCoc.ycb, result.PPy - 1) :
Math.min(codOrCoc.ycb, result.PPy));
return result;
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}
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function buildPrecincts(context, resolution, dimensions) {
// Section B.6 Division resolution to precincts
var precinctWidth = 1 << dimensions.PPx;
var precinctHeight = 1 << dimensions.PPy;
// Jasper introduces codeblock groups for mapping each subband codeblocks
// to precincts. Precinct partition divides a resolution according to width
// and height parameters. The subband that belongs to the resolution level
// has a different size than the level, unless it is the zero resolution.
// From Jasper documentation: jpeg2000.pdf, section K: Tier-2 coding:
// The precinct partitioning for a particular subband is derived from a
// partitioning of its parent LL band (i.e., the LL band at the next higher
// resolution level)... The LL band associated with each resolution level is
// divided into precincts... Each of the resulting precinct regions is then
// mapped into its child subbands (if any) at the next lower resolution
// level. This is accomplished by using the coordinate transformation
// (u, v) = (ceil(x/2), ceil(y/2)) where (x, y) and (u, v) are the
// coordinates of a point in the LL band and child subband, respectively.
var isZeroRes = resolution.resLevel === 0;
var precinctWidthInSubband = 1 << (dimensions.PPx + (isZeroRes ? 0 : -1));
var precinctHeightInSubband = 1 << (dimensions.PPy + (isZeroRes ? 0 : -1));
var numprecinctswide = (resolution.trx1 > resolution.trx0 ?
Math.ceil(resolution.trx1 / precinctWidth) -
Math.floor(resolution.trx0 / precinctWidth) : 0);
var numprecinctshigh = (resolution.try1 > resolution.try0 ?
Math.ceil(resolution.try1 / precinctHeight) -
Math.floor(resolution.try0 / precinctHeight) : 0);
var numprecincts = numprecinctswide * numprecinctshigh;
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resolution.precinctParameters = {
precinctWidth: precinctWidth,
precinctHeight: precinctHeight,
numprecinctswide: numprecinctswide,
numprecinctshigh: numprecinctshigh,
numprecincts: numprecincts,
precinctWidthInSubband: precinctWidthInSubband,
precinctHeightInSubband: precinctHeightInSubband
};
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}
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function buildCodeblocks(context, subband, dimensions) {
// Section B.7 Division sub-band into code-blocks
var xcb_ = dimensions.xcb_;
var ycb_ = dimensions.ycb_;
var codeblockWidth = 1 << xcb_;
var codeblockHeight = 1 << ycb_;
var cbx0 = subband.tbx0 >> xcb_;
var cby0 = subband.tby0 >> ycb_;
var cbx1 = (subband.tbx1 + codeblockWidth - 1) >> xcb_;
var cby1 = (subband.tby1 + codeblockHeight - 1) >> ycb_;
var precinctParameters = subband.resolution.precinctParameters;
var codeblocks = [];
var precincts = [];
var i, j, codeblock, precinctNumber;
for (j = cby0; j < cby1; j++) {
for (i = cbx0; i < cbx1; i++) {
codeblock = {
cbx: i,
cby: j,
tbx0: codeblockWidth * i,
tby0: codeblockHeight * j,
tbx1: codeblockWidth * (i + 1),
tby1: codeblockHeight * (j + 1)
};
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codeblock.tbx0_ = Math.max(subband.tbx0, codeblock.tbx0);
codeblock.tby0_ = Math.max(subband.tby0, codeblock.tby0);
codeblock.tbx1_ = Math.min(subband.tbx1, codeblock.tbx1);
codeblock.tby1_ = Math.min(subband.tby1, codeblock.tby1);
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// Calculate precinct number for this codeblock, codeblock position
// should be relative to its subband, use actual dimension and position
// See comment about codeblock group width and height
var pi = Math.floor((codeblock.tbx0_ - subband.tbx0) /
precinctParameters.precinctWidthInSubband);
var pj = Math.floor((codeblock.tby0_ - subband.tby0) /
precinctParameters.precinctHeightInSubband);
precinctNumber = pi + (pj * precinctParameters.numprecinctswide);
codeblock.precinctNumber = precinctNumber;
codeblock.subbandType = subband.type;
codeblock.Lblock = 3;
if (codeblock.tbx1_ <= codeblock.tbx0_ ||
codeblock.tby1_ <= codeblock.tby0_) {
continue;
}
codeblocks.push(codeblock);
// building precinct for the sub-band
var precinct = precincts[precinctNumber];
if (precinct !== undefined) {
if (i < precinct.cbxMin) {
precinct.cbxMin = i;
} else if (i > precinct.cbxMax) {
precinct.cbxMax = i;
}
if (j < precinct.cbyMin) {
precinct.cbxMin = j;
} else if (j > precinct.cbyMax) {
precinct.cbyMax = j;
}
} else {
precincts[precinctNumber] = precinct = {
cbxMin: i,
cbyMin: j,
cbxMax: i,
cbyMax: j
};
}
codeblock.precinct = precinct;
}
}
subband.codeblockParameters = {
codeblockWidth: xcb_,
codeblockHeight: ycb_,
numcodeblockwide: cbx1 - cbx0 + 1,
numcodeblockhigh: cby1 - cby0 + 1
};
subband.codeblocks = codeblocks;
subband.precincts = precincts;
}
function createPacket(resolution, precinctNumber, layerNumber) {
var precinctCodeblocks = [];
// Section B.10.8 Order of info in packet
var subbands = resolution.subbands;
// sub-bands already ordered in 'LL', 'HL', 'LH', and 'HH' sequence
for (var i = 0, ii = subbands.length; i < ii; i++) {
var subband = subbands[i];
var codeblocks = subband.codeblocks;
for (var j = 0, jj = codeblocks.length; j < jj; j++) {
var codeblock = codeblocks[j];
if (codeblock.precinctNumber !== precinctNumber) {
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continue;
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}
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precinctCodeblocks.push(codeblock);
}
}
return {
layerNumber: layerNumber,
codeblocks: precinctCodeblocks
};
}
function LayerResolutionComponentPositionIterator(context) {
var siz = context.SIZ;
var tileIndex = context.currentTile.index;
var tile = context.tiles[tileIndex];
var layersCount = tile.codingStyleDefaultParameters.layersCount;
var componentsCount = siz.Csiz;
var maxDecompositionLevelsCount = 0;
for (var q = 0; q < componentsCount; q++) {
maxDecompositionLevelsCount = Math.max(maxDecompositionLevelsCount,
tile.components[q].codingStyleParameters.decompositionLevelsCount);
}
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var l = 0, r = 0, i = 0, k = 0;
this.nextPacket = function JpxImage_nextPacket() {
// Section B.12.1.1 Layer-resolution-component-position
for (; l < layersCount; l++) {
for (; r <= maxDecompositionLevelsCount; r++) {
for (; i < componentsCount; i++) {
var component = tile.components[i];
if (r > component.codingStyleParameters.decompositionLevelsCount) {
continue;
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}
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var resolution = component.resolutions[r];
var numprecincts = resolution.precinctParameters.numprecincts;
for (; k < numprecincts;) {
var packet = createPacket(resolution, k, l);
k++;
return packet;
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}
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k = 0;
}
i = 0;
}
r = 0;
}
throw new Error('JPX Error: Out of packets');
};
}
function ResolutionLayerComponentPositionIterator(context) {
var siz = context.SIZ;
var tileIndex = context.currentTile.index;
var tile = context.tiles[tileIndex];
var layersCount = tile.codingStyleDefaultParameters.layersCount;
var componentsCount = siz.Csiz;
var maxDecompositionLevelsCount = 0;
for (var q = 0; q < componentsCount; q++) {
maxDecompositionLevelsCount = Math.max(maxDecompositionLevelsCount,
tile.components[q].codingStyleParameters.decompositionLevelsCount);
}
var r = 0, l = 0, i = 0, k = 0;
this.nextPacket = function JpxImage_nextPacket() {
// Section B.12.1.2 Resolution-layer-component-position
for (; r <= maxDecompositionLevelsCount; r++) {
for (; l < layersCount; l++) {
for (; i < componentsCount; i++) {
var component = tile.components[i];
if (r > component.codingStyleParameters.decompositionLevelsCount) {
continue;
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}
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var resolution = component.resolutions[r];
var numprecincts = resolution.precinctParameters.numprecincts;
for (; k < numprecincts;) {
var packet = createPacket(resolution, k, l);
k++;
return packet;
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}
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k = 0;
}
i = 0;
}
l = 0;
}
throw new Error('JPX Error: Out of packets');
};
}
function ResolutionPositionComponentLayerIterator(context) {
var siz = context.SIZ;
var tileIndex = context.currentTile.index;
var tile = context.tiles[tileIndex];
var layersCount = tile.codingStyleDefaultParameters.layersCount;
var componentsCount = siz.Csiz;
var l, r, c, p;
var maxDecompositionLevelsCount = 0;
for (c = 0; c < componentsCount; c++) {
var component = tile.components[c];
maxDecompositionLevelsCount = Math.max(maxDecompositionLevelsCount,
component.codingStyleParameters.decompositionLevelsCount);
}
var maxNumPrecinctsInLevel = new Int32Array(
maxDecompositionLevelsCount + 1);
for (r = 0; r <= maxDecompositionLevelsCount; ++r) {
var maxNumPrecincts = 0;
for (c = 0; c < componentsCount; ++c) {
var resolutions = tile.components[c].resolutions;
if (r < resolutions.length) {
maxNumPrecincts = Math.max(maxNumPrecincts,
resolutions[r].precinctParameters.numprecincts);
}
}
maxNumPrecinctsInLevel[r] = maxNumPrecincts;
}
l = 0;
r = 0;
c = 0;
p = 0;
this.nextPacket = function JpxImage_nextPacket() {
// Section B.12.1.3 Resolution-position-component-layer
for (; r <= maxDecompositionLevelsCount; r++) {
for (; p < maxNumPrecinctsInLevel[r]; p++) {
for (; c < componentsCount; c++) {
var component = tile.components[c];
if (r > component.codingStyleParameters.decompositionLevelsCount) {
continue;
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}
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var resolution = component.resolutions[r];
var numprecincts = resolution.precinctParameters.numprecincts;
if (p >= numprecincts) {
continue;
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}
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for (; l < layersCount;) {
var packet = createPacket(resolution, p, l);
l++;
return packet;
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}
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l = 0;
}
c = 0;
}
p = 0;
}
throw new Error('JPX Error: Out of packets');
};
}
function PositionComponentResolutionLayerIterator(context) {
var siz = context.SIZ;
var tileIndex = context.currentTile.index;
var tile = context.tiles[tileIndex];
var layersCount = tile.codingStyleDefaultParameters.layersCount;
var componentsCount = siz.Csiz;
var precinctsSizes = getPrecinctSizesInImageScale(tile);
var precinctsIterationSizes = precinctsSizes;
var l = 0, r = 0, c = 0, px = 0, py = 0;
this.nextPacket = function JpxImage_nextPacket() {
// Section B.12.1.4 Position-component-resolution-layer
for (; py < precinctsIterationSizes.maxNumHigh; py++) {
for (; px < precinctsIterationSizes.maxNumWide; px++) {
for (; c < componentsCount; c++) {
var component = tile.components[c];
var decompositionLevelsCount =
component.codingStyleParameters.decompositionLevelsCount;
for (; r <= decompositionLevelsCount; r++) {
var resolution = component.resolutions[r];
var sizeInImageScale =
precinctsSizes.components[c].resolutions[r];
var k = getPrecinctIndexIfExist(
px,
py,
sizeInImageScale,
precinctsIterationSizes,
resolution);
if (k === null) {
continue;
}
for (; l < layersCount;) {
var packet = createPacket(resolution, k, l);
l++;
return packet;
}
l = 0;
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}
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r = 0;
}
c = 0;
}
px = 0;
}
throw new Error('JPX Error: Out of packets');
};
}
function ComponentPositionResolutionLayerIterator(context) {
var siz = context.SIZ;
var tileIndex = context.currentTile.index;
var tile = context.tiles[tileIndex];
var layersCount = tile.codingStyleDefaultParameters.layersCount;
var componentsCount = siz.Csiz;
var precinctsSizes = getPrecinctSizesInImageScale(tile);
var l = 0, r = 0, c = 0, px = 0, py = 0;
this.nextPacket = function JpxImage_nextPacket() {
// Section B.12.1.5 Component-position-resolution-layer
for (; c < componentsCount; ++c) {
var component = tile.components[c];
var precinctsIterationSizes = precinctsSizes.components[c];
var decompositionLevelsCount =
component.codingStyleParameters.decompositionLevelsCount;
for (; py < precinctsIterationSizes.maxNumHigh; py++) {
for (; px < precinctsIterationSizes.maxNumWide; px++) {
for (; r <= decompositionLevelsCount; r++) {
var resolution = component.resolutions[r];
var sizeInImageScale = precinctsIterationSizes.resolutions[r];
var k = getPrecinctIndexIfExist(
px,
py,
sizeInImageScale,
precinctsIterationSizes,
resolution);
if (k === null) {
continue;
}
for (; l < layersCount;) {
var packet = createPacket(resolution, k, l);
l++;
return packet;
}
l = 0;
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}
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r = 0;
}
px = 0;
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}
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py = 0;
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}
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throw new Error('JPX Error: Out of packets');
};
}
function getPrecinctIndexIfExist(
pxIndex, pyIndex, sizeInImageScale, precinctIterationSizes, resolution) {
var posX = pxIndex * precinctIterationSizes.minWidth;
var posY = pyIndex * precinctIterationSizes.minHeight;
if (posX % sizeInImageScale.width !== 0 ||
posY % sizeInImageScale.height !== 0) {
return null;
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}
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var startPrecinctRowIndex =
(posY / sizeInImageScale.width) *
resolution.precinctParameters.numprecinctswide;
return (posX / sizeInImageScale.height) + startPrecinctRowIndex;
}
function getPrecinctSizesInImageScale(tile) {
var componentsCount = tile.components.length;
var minWidth = Number.MAX_VALUE;
var minHeight = Number.MAX_VALUE;
var maxNumWide = 0;
var maxNumHigh = 0;
var sizePerComponent = new Array(componentsCount);
for (var c = 0; c < componentsCount; c++) {
var component = tile.components[c];
var decompositionLevelsCount =
component.codingStyleParameters.decompositionLevelsCount;
var sizePerResolution = new Array(decompositionLevelsCount + 1);
var minWidthCurrentComponent = Number.MAX_VALUE;
var minHeightCurrentComponent = Number.MAX_VALUE;
var maxNumWideCurrentComponent = 0;
var maxNumHighCurrentComponent = 0;
var scale = 1;
for (var r = decompositionLevelsCount; r >= 0; --r) {
var resolution = component.resolutions[r];
var widthCurrentResolution =
scale * resolution.precinctParameters.precinctWidth;
var heightCurrentResolution =
scale * resolution.precinctParameters.precinctHeight;
minWidthCurrentComponent = Math.min(
minWidthCurrentComponent,
widthCurrentResolution);
minHeightCurrentComponent = Math.min(
minHeightCurrentComponent,
heightCurrentResolution);
maxNumWideCurrentComponent = Math.max(maxNumWideCurrentComponent,
resolution.precinctParameters.numprecinctswide);
maxNumHighCurrentComponent = Math.max(maxNumHighCurrentComponent,
resolution.precinctParameters.numprecinctshigh);
sizePerResolution[r] = {
width: widthCurrentResolution,
height: heightCurrentResolution
};
scale <<= 1;
}
minWidth = Math.min(minWidth, minWidthCurrentComponent);
minHeight = Math.min(minHeight, minHeightCurrentComponent);
maxNumWide = Math.max(maxNumWide, maxNumWideCurrentComponent);
maxNumHigh = Math.max(maxNumHigh, maxNumHighCurrentComponent);
sizePerComponent[c] = {
resolutions: sizePerResolution,
minWidth: minWidthCurrentComponent,
minHeight: minHeightCurrentComponent,
maxNumWide: maxNumWideCurrentComponent,
maxNumHigh: maxNumHighCurrentComponent
};
}
return {
components: sizePerComponent,
minWidth: minWidth,
minHeight: minHeight,
maxNumWide: maxNumWide,
maxNumHigh: maxNumHigh
};
}
function buildPackets(context) {
var siz = context.SIZ;
var tileIndex = context.currentTile.index;
var tile = context.tiles[tileIndex];
var componentsCount = siz.Csiz;
// Creating resolutions and sub-bands for each component
for (var c = 0; c < componentsCount; c++) {
var component = tile.components[c];
var decompositionLevelsCount =
component.codingStyleParameters.decompositionLevelsCount;
// Section B.5 Resolution levels and sub-bands
var resolutions = [];
var subbands = [];
for (var r = 0; r <= decompositionLevelsCount; r++) {
var blocksDimensions = getBlocksDimensions(context, component, r);
var resolution = {};
var scale = 1 << (decompositionLevelsCount - r);
resolution.trx0 = Math.ceil(component.tcx0 / scale);
resolution.try0 = Math.ceil(component.tcy0 / scale);
resolution.trx1 = Math.ceil(component.tcx1 / scale);
resolution.try1 = Math.ceil(component.tcy1 / scale);
resolution.resLevel = r;
buildPrecincts(context, resolution, blocksDimensions);
resolutions.push(resolution);
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var subband;
if (r === 0) {
// one sub-band (LL) with last decomposition
subband = {};
subband.type = 'LL';
subband.tbx0 = Math.ceil(component.tcx0 / scale);
subband.tby0 = Math.ceil(component.tcy0 / scale);
subband.tbx1 = Math.ceil(component.tcx1 / scale);
subband.tby1 = Math.ceil(component.tcy1 / scale);
subband.resolution = resolution;
buildCodeblocks(context, subband, blocksDimensions);
subbands.push(subband);
resolution.subbands = [subband];
} else {
var bscale = 1 << (decompositionLevelsCount - r + 1);
var resolutionSubbands = [];
// three sub-bands (HL, LH and HH) with rest of decompositions
subband = {};
subband.type = 'HL';
subband.tbx0 = Math.ceil(component.tcx0 / bscale - 0.5);
subband.tby0 = Math.ceil(component.tcy0 / bscale);
subband.tbx1 = Math.ceil(component.tcx1 / bscale - 0.5);
subband.tby1 = Math.ceil(component.tcy1 / bscale);
subband.resolution = resolution;
buildCodeblocks(context, subband, blocksDimensions);
subbands.push(subband);
resolutionSubbands.push(subband);
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subband = {};
subband.type = 'LH';
subband.tbx0 = Math.ceil(component.tcx0 / bscale);
subband.tby0 = Math.ceil(component.tcy0 / bscale - 0.5);
subband.tbx1 = Math.ceil(component.tcx1 / bscale);
subband.tby1 = Math.ceil(component.tcy1 / bscale - 0.5);
subband.resolution = resolution;
buildCodeblocks(context, subband, blocksDimensions);
subbands.push(subband);
resolutionSubbands.push(subband);
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subband = {};
subband.type = 'HH';
subband.tbx0 = Math.ceil(component.tcx0 / bscale - 0.5);
subband.tby0 = Math.ceil(component.tcy0 / bscale - 0.5);
subband.tbx1 = Math.ceil(component.tcx1 / bscale - 0.5);
subband.tby1 = Math.ceil(component.tcy1 / bscale - 0.5);
subband.resolution = resolution;
buildCodeblocks(context, subband, blocksDimensions);
subbands.push(subband);
resolutionSubbands.push(subband);
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resolution.subbands = resolutionSubbands;
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}
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}
component.resolutions = resolutions;
component.subbands = subbands;
}
// Generate the packets sequence
var progressionOrder = tile.codingStyleDefaultParameters.progressionOrder;
switch (progressionOrder) {
case 0:
tile.packetsIterator =
new LayerResolutionComponentPositionIterator(context);
break;
case 1:
tile.packetsIterator =
new ResolutionLayerComponentPositionIterator(context);
break;
case 2:
tile.packetsIterator =
new ResolutionPositionComponentLayerIterator(context);
break;
case 3:
tile.packetsIterator =
new PositionComponentResolutionLayerIterator(context);
break;
case 4:
tile.packetsIterator =
new ComponentPositionResolutionLayerIterator(context);
break;
default:
throw new Error('JPX Error: Unsupported progression order ' +
progressionOrder);
}
}
function parseTilePackets(context, data, offset, dataLength) {
var position = 0;
var buffer, bufferSize = 0, skipNextBit = false;
function readBits(count) {
while (bufferSize < count) {
var b = data[offset + position];
position++;
if (skipNextBit) {
buffer = (buffer << 7) | b;
bufferSize += 7;
skipNextBit = false;
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} else {
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buffer = (buffer << 8) | b;
bufferSize += 8;
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}
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if (b === 0xFF) {
skipNextBit = true;
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}
}
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bufferSize -= count;
return (buffer >>> bufferSize) & ((1 << count) - 1);
}
function skipMarkerIfEqual(value) {
if (data[offset + position - 1] === 0xFF &&
data[offset + position] === value) {
skipBytes(1);
return true;
} else if (data[offset + position] === 0xFF &&
data[offset + position + 1] === value) {
skipBytes(2);
return true;
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}
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return false;
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}
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function skipBytes(count) {
position += count;
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}
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function alignToByte() {
bufferSize = 0;
if (skipNextBit) {
position++;
skipNextBit = false;
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}
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}
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function readCodingpasses() {
if (readBits(1) === 0) {
return 1;
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}
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if (readBits(1) === 0) {
return 2;
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}
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var value = readBits(2);
if (value < 3) {
return value + 3;
}
value = readBits(5);
if (value < 31) {
return value + 6;
}
value = readBits(7);
return value + 37;
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}
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var tileIndex = context.currentTile.index;
var tile = context.tiles[tileIndex];
var sopMarkerUsed = context.COD.sopMarkerUsed;
var ephMarkerUsed = context.COD.ephMarkerUsed;
var packetsIterator = tile.packetsIterator;
while (position < dataLength) {
alignToByte();
if (sopMarkerUsed && skipMarkerIfEqual(0x91)) {
// Skip also marker segment length and packet sequence ID
skipBytes(4);
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}
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var packet = packetsIterator.nextPacket();
if (!readBits(1)) {
continue;
}
var layerNumber = packet.layerNumber;
var queue = [], codeblock;
for (var i = 0, ii = packet.codeblocks.length; i < ii; i++) {
codeblock = packet.codeblocks[i];
var precinct = codeblock.precinct;
var codeblockColumn = codeblock.cbx - precinct.cbxMin;
var codeblockRow = codeblock.cby - precinct.cbyMin;
var codeblockIncluded = false;
var firstTimeInclusion = false;
var valueReady;
if (codeblock['included'] !== undefined) {
codeblockIncluded = !!readBits(1);
} else {
// reading inclusion tree
precinct = codeblock.precinct;
var inclusionTree, zeroBitPlanesTree;
if (precinct['inclusionTree'] !== undefined) {
inclusionTree = precinct.inclusionTree;
} else {
// building inclusion and zero bit-planes trees
var width = precinct.cbxMax - precinct.cbxMin + 1;
var height = precinct.cbyMax - precinct.cbyMin + 1;
inclusionTree = new InclusionTree(width, height, layerNumber);
zeroBitPlanesTree = new TagTree(width, height);
precinct.inclusionTree = inclusionTree;
precinct.zeroBitPlanesTree = zeroBitPlanesTree;
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}
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if (inclusionTree.reset(codeblockColumn, codeblockRow, layerNumber)) {
while (true) {
if (readBits(1)) {
valueReady = !inclusionTree.nextLevel();
if (valueReady) {
codeblock.included = true;
codeblockIncluded = firstTimeInclusion = true;
break;
}
} else {
inclusionTree.incrementValue(layerNumber);
break;
}
}
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}
}
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if (!codeblockIncluded) {
continue;
}
if (firstTimeInclusion) {
zeroBitPlanesTree = precinct.zeroBitPlanesTree;
zeroBitPlanesTree.reset(codeblockColumn, codeblockRow);
while (true) {
if (readBits(1)) {
valueReady = !zeroBitPlanesTree.nextLevel();
if (valueReady) {
break;
}
} else {
zeroBitPlanesTree.incrementValue();
}
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}
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codeblock.zeroBitPlanes = zeroBitPlanesTree.value;
}
var codingpasses = readCodingpasses();
while (readBits(1)) {
codeblock.Lblock++;
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}
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var codingpassesLog2 = log2(codingpasses);
// rounding down log2
var bits = ((codingpasses < (1 << codingpassesLog2)) ?
codingpassesLog2 - 1 : codingpassesLog2) + codeblock.Lblock;
var codedDataLength = readBits(bits);
queue.push({
codeblock: codeblock,
codingpasses: codingpasses,
dataLength: codedDataLength
});
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}
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alignToByte();
if (ephMarkerUsed) {
skipMarkerIfEqual(0x92);
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}
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while (queue.length > 0) {
var packetItem = queue.shift();
codeblock = packetItem.codeblock;
if (codeblock['data'] === undefined) {
codeblock.data = [];
}
codeblock.data.push({
data: data,
start: offset + position,
end: offset + position + packetItem.dataLength,
codingpasses: packetItem.codingpasses
});
position += packetItem.dataLength;
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}
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}
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return position;
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}
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function copyCoefficients(coefficients, levelWidth, levelHeight, subband,
delta, mb, reversible, segmentationSymbolUsed) {
var x0 = subband.tbx0;
var y0 = subband.tby0;
var width = subband.tbx1 - subband.tbx0;
var codeblocks = subband.codeblocks;
var right = subband.type.charAt(0) === 'H' ? 1 : 0;
var bottom = subband.type.charAt(1) === 'H' ? levelWidth : 0;
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for (var i = 0, ii = codeblocks.length; i < ii; ++i) {
var codeblock = codeblocks[i];
var blockWidth = codeblock.tbx1_ - codeblock.tbx0_;
var blockHeight = codeblock.tby1_ - codeblock.tby0_;
if (blockWidth === 0 || blockHeight === 0) {
continue;
}
if (codeblock['data'] === undefined) {
continue;
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}
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var bitModel, currentCodingpassType;
bitModel = new BitModel(blockWidth, blockHeight, codeblock.subbandType,
codeblock.zeroBitPlanes, mb);
currentCodingpassType = 2; // first bit plane starts from cleanup
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// collect data
var data = codeblock.data, totalLength = 0, codingpasses = 0;
var j, jj, dataItem;
for (j = 0, jj = data.length; j < jj; j++) {
dataItem = data[j];
totalLength += dataItem.end - dataItem.start;
codingpasses += dataItem.codingpasses;
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}
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var encodedData = new Uint8Array(totalLength);
var position = 0;
for (j = 0, jj = data.length; j < jj; j++) {
dataItem = data[j];
var chunk = dataItem.data.subarray(dataItem.start, dataItem.end);
encodedData.set(chunk, position);
position += chunk.length;
}
// decoding the item
var decoder = new ArithmeticDecoder(encodedData, 0, totalLength);
bitModel.setDecoder(decoder);
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for (j = 0; j < codingpasses; j++) {
switch (currentCodingpassType) {
case 0:
bitModel.runSignificancePropogationPass();
break;
case 1:
bitModel.runMagnitudeRefinementPass();
break;
case 2:
bitModel.runCleanupPass();
if (segmentationSymbolUsed) {
bitModel.checkSegmentationSymbol();
}
break;
}
currentCodingpassType = (currentCodingpassType + 1) % 3;
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}
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var offset = (codeblock.tbx0_ - x0) + (codeblock.tby0_ - y0) * width;
var sign = bitModel.coefficentsSign;
var magnitude = bitModel.coefficentsMagnitude;
var bitsDecoded = bitModel.bitsDecoded;
var magnitudeCorrection = reversible ? 0 : 0.5;
var k, n, nb;
position = 0;
// Do the interleaving of Section F.3.3 here, so we do not need
// to copy later. LL level is not interleaved, just copied.
var interleave = (subband.type !== 'LL');
for (j = 0; j < blockHeight; j++) {
var row = (offset / width) | 0; // row in the non-interleaved subband
var levelOffset = 2 * row * (levelWidth - width) + right + bottom;
for (k = 0; k < blockWidth; k++) {
n = magnitude[position];
if (n !== 0) {
n = (n + magnitudeCorrection) * delta;
if (sign[position] !== 0) {
n = -n;
}
nb = bitsDecoded[position];
var pos = interleave ? (levelOffset + (offset << 1)) : offset;
if (reversible && (nb >= mb)) {
coefficients[pos] = n;
} else {
coefficients[pos] = n * (1 << (mb - nb));
}
}
offset++;
position++;
}
offset += width - blockWidth;
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}
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}
}
function transformTile(context, tile, c) {
var component = tile.components[c];
var codingStyleParameters = component.codingStyleParameters;
var quantizationParameters = component.quantizationParameters;
var decompositionLevelsCount =
codingStyleParameters.decompositionLevelsCount;
var spqcds = quantizationParameters.SPqcds;
var scalarExpounded = quantizationParameters.scalarExpounded;
var guardBits = quantizationParameters.guardBits;
var segmentationSymbolUsed = codingStyleParameters.segmentationSymbolUsed;
var precision = context.components[c].precision;
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var reversible = codingStyleParameters.reversibleTransformation;
var transform = (reversible ? new ReversibleTransform() :
new IrreversibleTransform());
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var subbandCoefficients = [];
var b = 0;
for (var i = 0; i <= decompositionLevelsCount; i++) {
var resolution = component.resolutions[i];
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var width = resolution.trx1 - resolution.trx0;
var height = resolution.try1 - resolution.try0;
// Allocate space for the whole sublevel.
var coefficients = new Float32Array(width * height);
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for (var j = 0, jj = resolution.subbands.length; j < jj; j++) {
var mu, epsilon;
if (!scalarExpounded) {
// formula E-5
mu = spqcds[0].mu;
epsilon = spqcds[0].epsilon + (i > 0 ? 1 - i : 0);
} else {
mu = spqcds[b].mu;
epsilon = spqcds[b].epsilon;
b++;
}
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var subband = resolution.subbands[j];
var gainLog2 = SubbandsGainLog2[subband.type];
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// calulate quantization coefficient (Section E.1.1.1)
var delta = (reversible ? 1 :
Math.pow(2, precision + gainLog2 - epsilon) * (1 + mu / 2048));
var mb = (guardBits + epsilon - 1);
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// In the first resolution level, copyCoefficients will fill the
// whole array with coefficients. In the succeding passes,
// copyCoefficients will consecutively fill in the values that belong
// to the interleaved positions of the HL, LH, and HH coefficients.
// The LL coefficients will then be interleaved in Transform.iterate().
copyCoefficients(coefficients, width, height, subband, delta, mb,
reversible, segmentationSymbolUsed);
}
subbandCoefficients.push({
width: width,
height: height,
items: coefficients
});
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}
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var result = transform.calculate(subbandCoefficients,
component.tcx0, component.tcy0);
return {
left: component.tcx0,
top: component.tcy0,
width: result.width,
height: result.height,
items: result.items
};
}
function transformComponents(context) {
var siz = context.SIZ;
var components = context.components;
var componentsCount = siz.Csiz;
var resultImages = [];
for (var i = 0, ii = context.tiles.length; i < ii; i++) {
var tile = context.tiles[i];
var transformedTiles = [];
var c;
for (c = 0; c < componentsCount; c++) {
transformedTiles[c] = transformTile(context, tile, c);
}
var tile0 = transformedTiles[0];
var out = new Uint8Array(tile0.items.length * componentsCount);
var result = {
left: tile0.left,
top: tile0.top,
width: tile0.width,
height: tile0.height,
items: out
};
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// Section G.2.2 Inverse multi component transform
var shift, offset, max, min, maxK;
var pos = 0, j, jj, y0, y1, y2, r, g, b, k, val;
if (tile.codingStyleDefaultParameters.multipleComponentTransform) {
var fourComponents = componentsCount === 4;
var y0items = transformedTiles[0].items;
var y1items = transformedTiles[1].items;
var y2items = transformedTiles[2].items;
var y3items = fourComponents ? transformedTiles[3].items : null;
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// HACK: The multiple component transform formulas below assume that
// all components have the same precision. With this in mind, we
// compute shift and offset only once.
shift = components[0].precision - 8;
offset = (128 << shift) + 0.5;
max = 255 * (1 << shift);
maxK = max * 0.5;
min = -maxK;
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var component0 = tile.components[0];
var alpha01 = componentsCount - 3;
jj = y0items.length;
if (!component0.codingStyleParameters.reversibleTransformation) {
// inverse irreversible multiple component transform
for (j = 0; j < jj; j++, pos += alpha01) {
y0 = y0items[j] + offset;
y1 = y1items[j];
y2 = y2items[j];
r = y0 + 1.402 * y2;
g = y0 - 0.34413 * y1 - 0.71414 * y2;
b = y0 + 1.772 * y1;
out[pos++] = r <= 0 ? 0 : r >= max ? 255 : r >> shift;
out[pos++] = g <= 0 ? 0 : g >= max ? 255 : g >> shift;
out[pos++] = b <= 0 ? 0 : b >= max ? 255 : b >> shift;
}
} else {
// inverse reversible multiple component transform
for (j = 0; j < jj; j++, pos += alpha01) {
y0 = y0items[j] + offset;
y1 = y1items[j];
y2 = y2items[j];
g = y0 - ((y2 + y1) >> 2);
r = g + y2;
b = g + y1;
out[pos++] = r <= 0 ? 0 : r >= max ? 255 : r >> shift;
out[pos++] = g <= 0 ? 0 : g >= max ? 255 : g >> shift;
out[pos++] = b <= 0 ? 0 : b >= max ? 255 : b >> shift;
}
}
if (fourComponents) {
for (j = 0, pos = 3; j < jj; j++, pos += 4) {
k = y3items[j];
out[pos] = k <= min ? 0 : k >= maxK ? 255 : (k + offset) >> shift;
}
}
} else { // no multi-component transform
for (c = 0; c < componentsCount; c++) {
var items = transformedTiles[c].items;
shift = components[c].precision - 8;
offset = (128 << shift) + 0.5;
max = (127.5 * (1 << shift));
min = -max;
for (pos = c, j = 0, jj = items.length; j < jj; j++) {
val = items[j];
out[pos] = val <= min ? 0 :
val >= max ? 255 : (val + offset) >> shift;
pos += componentsCount;
}
}
}
resultImages.push(result);
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}
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return resultImages;
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}
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function initializeTile(context, tileIndex) {
var siz = context.SIZ;
var componentsCount = siz.Csiz;
var tile = context.tiles[tileIndex];
for (var c = 0; c < componentsCount; c++) {
var component = tile.components[c];
var qcdOrQcc = (context.currentTile.QCC[c] !== undefined ?
context.currentTile.QCC[c] : context.currentTile.QCD);
component.quantizationParameters = qcdOrQcc;
var codOrCoc = (context.currentTile.COC[c] !== undefined ?
context.currentTile.COC[c] : context.currentTile.COD);
component.codingStyleParameters = codOrCoc;
}
tile.codingStyleDefaultParameters = context.currentTile.COD;
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}
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// Section B.10.2 Tag trees
var TagTree = (function TagTreeClosure() {
function TagTree(width, height) {
var levelsLength = log2(Math.max(width, height)) + 1;
this.levels = [];
for (var i = 0; i < levelsLength; i++) {
var level = {
width: width,
height: height,
items: []
};
this.levels.push(level);
width = Math.ceil(width / 2);
height = Math.ceil(height / 2);
}
}
TagTree.prototype = {
reset: function TagTree_reset(i, j) {
var currentLevel = 0, value = 0, level;
while (currentLevel < this.levels.length) {
level = this.levels[currentLevel];
var index = i + j * level.width;
if (level.items[index] !== undefined) {
value = level.items[index];
break;
}
level.index = index;
i >>= 1;
j >>= 1;
currentLevel++;
}
currentLevel--;
level = this.levels[currentLevel];
level.items[level.index] = value;
this.currentLevel = currentLevel;
delete this.value;
},
incrementValue: function TagTree_incrementValue() {
var level = this.levels[this.currentLevel];
level.items[level.index]++;
},
nextLevel: function TagTree_nextLevel() {
var currentLevel = this.currentLevel;
var level = this.levels[currentLevel];
var value = level.items[level.index];
currentLevel--;
if (currentLevel < 0) {
this.value = value;
return false;
}
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this.currentLevel = currentLevel;
level = this.levels[currentLevel];
level.items[level.index] = value;
return true;
}
};
return TagTree;
})();
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var InclusionTree = (function InclusionTreeClosure() {
function InclusionTree(width, height, defaultValue) {
var levelsLength = log2(Math.max(width, height)) + 1;
this.levels = [];
for (var i = 0; i < levelsLength; i++) {
var items = new Uint8Array(width * height);
for (var j = 0, jj = items.length; j < jj; j++) {
items[j] = defaultValue;
}
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var level = {
width: width,
height: height,
items: items
};
this.levels.push(level);
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width = Math.ceil(width / 2);
height = Math.ceil(height / 2);
}
}
InclusionTree.prototype = {
reset: function InclusionTree_reset(i, j, stopValue) {
var currentLevel = 0;
while (currentLevel < this.levels.length) {
var level = this.levels[currentLevel];
var index = i + j * level.width;
level.index = index;
var value = level.items[index];
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if (value === 0xFF) {
break;
}
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if (value > stopValue) {
this.currentLevel = currentLevel;
// already know about this one, propagating the value to top levels
this.propagateValues();
return false;
}
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i >>= 1;
j >>= 1;
currentLevel++;
}
this.currentLevel = currentLevel - 1;
return true;
},
incrementValue: function InclusionTree_incrementValue(stopValue) {
var level = this.levels[this.currentLevel];
level.items[level.index] = stopValue + 1;
this.propagateValues();
},
propagateValues: function InclusionTree_propagateValues() {
var levelIndex = this.currentLevel;
var level = this.levels[levelIndex];
var currentValue = level.items[level.index];
while (--levelIndex >= 0) {
level = this.levels[levelIndex];
level.items[level.index] = currentValue;
}
},
nextLevel: function InclusionTree_nextLevel() {
var currentLevel = this.currentLevel;
var level = this.levels[currentLevel];
var value = level.items[level.index];
level.items[level.index] = 0xFF;
currentLevel--;
if (currentLevel < 0) {
return false;
}
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this.currentLevel = currentLevel;
level = this.levels[currentLevel];
level.items[level.index] = value;
return true;
}
};
return InclusionTree;
})();
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// Section D. Coefficient bit modeling
var BitModel = (function BitModelClosure() {
var UNIFORM_CONTEXT = 17;
var RUNLENGTH_CONTEXT = 18;
// Table D-1
// The index is binary presentation: 0dddvvhh, ddd - sum of Di (0..4),
// vv - sum of Vi (0..2), and hh - sum of Hi (0..2)
var LLAndLHContextsLabel = new Uint8Array([
0, 5, 8, 0, 3, 7, 8, 0, 4, 7, 8, 0, 0, 0, 0, 0, 1, 6, 8, 0, 3, 7, 8, 0, 4,
7, 8, 0, 0, 0, 0, 0, 2, 6, 8, 0, 3, 7, 8, 0, 4, 7, 8, 0, 0, 0, 0, 0, 2, 6,
8, 0, 3, 7, 8, 0, 4, 7, 8, 0, 0, 0, 0, 0, 2, 6, 8, 0, 3, 7, 8, 0, 4, 7, 8
]);
var HLContextLabel = new Uint8Array([
0, 3, 4, 0, 5, 7, 7, 0, 8, 8, 8, 0, 0, 0, 0, 0, 1, 3, 4, 0, 6, 7, 7, 0, 8,
8, 8, 0, 0, 0, 0, 0, 2, 3, 4, 0, 6, 7, 7, 0, 8, 8, 8, 0, 0, 0, 0, 0, 2, 3,
4, 0, 6, 7, 7, 0, 8, 8, 8, 0, 0, 0, 0, 0, 2, 3, 4, 0, 6, 7, 7, 0, 8, 8, 8
]);
var HHContextLabel = new Uint8Array([
0, 1, 2, 0, 1, 2, 2, 0, 2, 2, 2, 0, 0, 0, 0, 0, 3, 4, 5, 0, 4, 5, 5, 0, 5,
5, 5, 0, 0, 0, 0, 0, 6, 7, 7, 0, 7, 7, 7, 0, 7, 7, 7, 0, 0, 0, 0, 0, 8, 8,
8, 0, 8, 8, 8, 0, 8, 8, 8, 0, 0, 0, 0, 0, 8, 8, 8, 0, 8, 8, 8, 0, 8, 8, 8
]);
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function BitModel(width, height, subband, zeroBitPlanes, mb) {
this.width = width;
this.height = height;
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this.contextLabelTable = (subband === 'HH' ? HHContextLabel :
(subband === 'HL' ? HLContextLabel : LLAndLHContextsLabel));
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var coefficientCount = width * height;
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// coefficients outside the encoding region treated as insignificant
// add border state cells for significanceState
this.neighborsSignificance = new Uint8Array(coefficientCount);
this.coefficentsSign = new Uint8Array(coefficientCount);
this.coefficentsMagnitude = mb > 14 ? new Uint32Array(coefficientCount) :
mb > 6 ? new Uint16Array(coefficientCount) :
new Uint8Array(coefficientCount);
this.processingFlags = new Uint8Array(coefficientCount);
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var bitsDecoded = new Uint8Array(coefficientCount);
if (zeroBitPlanes !== 0) {
for (var i = 0; i < coefficientCount; i++) {
bitsDecoded[i] = zeroBitPlanes;
}
}
this.bitsDecoded = bitsDecoded;
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this.reset();
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}
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BitModel.prototype = {
setDecoder: function BitModel_setDecoder(decoder) {
this.decoder = decoder;
},
reset: function BitModel_reset() {
// We have 17 contexts that are accessed via context labels,
// plus the uniform and runlength context.
this.contexts = new Int8Array(19);
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// Contexts are packed into 1 byte:
// highest 7 bits carry the index, lowest bit carries mps
this.contexts[0] = (4 << 1) | 0;
this.contexts[UNIFORM_CONTEXT] = (46 << 1) | 0;
this.contexts[RUNLENGTH_CONTEXT] = (3 << 1) | 0;
},
setNeighborsSignificance:
function BitModel_setNeighborsSignificance(row, column, index) {
var neighborsSignificance = this.neighborsSignificance;
var width = this.width, height = this.height;
var left = (column > 0);
var right = (column + 1 < width);
var i;
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if (row > 0) {
i = index - width;
if (left) {
neighborsSignificance[i - 1] += 0x10;
}
if (right) {
neighborsSignificance[i + 1] += 0x10;
}
neighborsSignificance[i] += 0x04;
}
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if (row + 1 < height) {
i = index + width;
if (left) {
neighborsSignificance[i - 1] += 0x10;
}
if (right) {
neighborsSignificance[i + 1] += 0x10;
}
neighborsSignificance[i] += 0x04;
}
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if (left) {
neighborsSignificance[index - 1] += 0x01;
}
if (right) {
neighborsSignificance[index + 1] += 0x01;
}
neighborsSignificance[index] |= 0x80;
},
runSignificancePropogationPass:
function BitModel_runSignificancePropogationPass() {
var decoder = this.decoder;
var width = this.width, height = this.height;
var coefficentsMagnitude = this.coefficentsMagnitude;
var coefficentsSign = this.coefficentsSign;
var neighborsSignificance = this.neighborsSignificance;
var processingFlags = this.processingFlags;
var contexts = this.contexts;
var labels = this.contextLabelTable;
var bitsDecoded = this.bitsDecoded;
var processedInverseMask = ~1;
var processedMask = 1;
var firstMagnitudeBitMask = 2;
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for (var i0 = 0; i0 < height; i0 += 4) {
for (var j = 0; j < width; j++) {
var index = i0 * width + j;
for (var i1 = 0; i1 < 4; i1++, index += width) {
var i = i0 + i1;
if (i >= height) {
break;
}
// clear processed flag first
processingFlags[index] &= processedInverseMask;
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if (coefficentsMagnitude[index] ||
!neighborsSignificance[index]) {
continue;
}
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var contextLabel = labels[neighborsSignificance[index]];
var decision = decoder.readBit(contexts, contextLabel);
if (decision) {
var sign = this.decodeSignBit(i, j, index);
coefficentsSign[index] = sign;
coefficentsMagnitude[index] = 1;
this.setNeighborsSignificance(i, j, index);
processingFlags[index] |= firstMagnitudeBitMask;
}
bitsDecoded[index]++;
processingFlags[index] |= processedMask;
}
}
}
},
decodeSignBit: function BitModel_decodeSignBit(row, column, index) {
var width = this.width, height = this.height;
var coefficentsMagnitude = this.coefficentsMagnitude;
var coefficentsSign = this.coefficentsSign;
var contribution, sign0, sign1, significance1;
var contextLabel, decoded;
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// calculate horizontal contribution
significance1 = (column > 0 && coefficentsMagnitude[index - 1] !== 0);
if (column + 1 < width && coefficentsMagnitude[index + 1] !== 0) {
sign1 = coefficentsSign[index + 1];
if (significance1) {
sign0 = coefficentsSign[index - 1];
contribution = 1 - sign1 - sign0;
} else {
contribution = 1 - sign1 - sign1;
}
} else if (significance1) {
sign0 = coefficentsSign[index - 1];
contribution = 1 - sign0 - sign0;
} else {
contribution = 0;
}
var horizontalContribution = 3 * contribution;
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// calculate vertical contribution and combine with the horizontal
significance1 = (row > 0 && coefficentsMagnitude[index - width] !== 0);
if (row + 1 < height && coefficentsMagnitude[index + width] !== 0) {
sign1 = coefficentsSign[index + width];
if (significance1) {
sign0 = coefficentsSign[index - width];
contribution = 1 - sign1 - sign0 + horizontalContribution;
} else {
contribution = 1 - sign1 - sign1 + horizontalContribution;
}
} else if (significance1) {
sign0 = coefficentsSign[index - width];
contribution = 1 - sign0 - sign0 + horizontalContribution;
} else {
contribution = horizontalContribution;
}
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if (contribution >= 0) {
contextLabel = 9 + contribution;
decoded = this.decoder.readBit(this.contexts, contextLabel);
} else {
contextLabel = 9 - contribution;
decoded = this.decoder.readBit(this.contexts, contextLabel) ^ 1;
}
return decoded;
},
runMagnitudeRefinementPass:
function BitModel_runMagnitudeRefinementPass() {
var decoder = this.decoder;
var width = this.width, height = this.height;
var coefficentsMagnitude = this.coefficentsMagnitude;
var neighborsSignificance = this.neighborsSignificance;
var contexts = this.contexts;
var bitsDecoded = this.bitsDecoded;
var processingFlags = this.processingFlags;
var processedMask = 1;
var firstMagnitudeBitMask = 2;
var length = width * height;
var width4 = width * 4;
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for (var index0 = 0, indexNext; index0 < length; index0 = indexNext) {
indexNext = Math.min(length, index0 + width4);
for (var j = 0; j < width; j++) {
for (var index = index0 + j; index < indexNext; index += width) {
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// significant but not those that have just become
if (!coefficentsMagnitude[index] ||
(processingFlags[index] & processedMask) !== 0) {
continue;
}
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var contextLabel = 16;
if ((processingFlags[index] & firstMagnitudeBitMask) !== 0) {
processingFlags[index] ^= firstMagnitudeBitMask;
// first refinement
var significance = neighborsSignificance[index] & 127;
contextLabel = significance === 0 ? 15 : 14;
}
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var bit = decoder.readBit(contexts, contextLabel);
coefficentsMagnitude[index] =
(coefficentsMagnitude[index] << 1) | bit;
bitsDecoded[index]++;
processingFlags[index] |= processedMask;
}
}
}
},
runCleanupPass: function BitModel_runCleanupPass() {
var decoder = this.decoder;
var width = this.width, height = this.height;
var neighborsSignificance = this.neighborsSignificance;
var coefficentsMagnitude = this.coefficentsMagnitude;
var coefficentsSign = this.coefficentsSign;
var contexts = this.contexts;
var labels = this.contextLabelTable;
var bitsDecoded = this.bitsDecoded;
var processingFlags = this.processingFlags;
var processedMask = 1;
var firstMagnitudeBitMask = 2;
var oneRowDown = width;
var twoRowsDown = width * 2;
var threeRowsDown = width * 3;
var iNext;
for (var i0 = 0; i0 < height; i0 = iNext) {
iNext = Math.min(i0 + 4, height);
var indexBase = i0 * width;
var checkAllEmpty = i0 + 3 < height;
for (var j = 0; j < width; j++) {
var index0 = indexBase + j;
// using the property: labels[neighborsSignificance[index]] === 0
// when neighborsSignificance[index] === 0
var allEmpty = (checkAllEmpty &&
processingFlags[index0] === 0 &&
processingFlags[index0 + oneRowDown] === 0 &&
processingFlags[index0 + twoRowsDown] === 0 &&
processingFlags[index0 + threeRowsDown] === 0 &&
neighborsSignificance[index0] === 0 &&
neighborsSignificance[index0 + oneRowDown] === 0 &&
neighborsSignificance[index0 + twoRowsDown] === 0 &&
neighborsSignificance[index0 + threeRowsDown] === 0);
var i1 = 0, index = index0;
var i = i0, sign;
if (allEmpty) {
var hasSignificantCoefficent =
decoder.readBit(contexts, RUNLENGTH_CONTEXT);
if (!hasSignificantCoefficent) {
bitsDecoded[index0]++;
bitsDecoded[index0 + oneRowDown]++;
bitsDecoded[index0 + twoRowsDown]++;
bitsDecoded[index0 + threeRowsDown]++;
continue; // next column
}
i1 = (decoder.readBit(contexts, UNIFORM_CONTEXT) << 1) |
decoder.readBit(contexts, UNIFORM_CONTEXT);
if (i1 !== 0) {
i = i0 + i1;
index += i1 * width;
}
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sign = this.decodeSignBit(i, j, index);
coefficentsSign[index] = sign;
coefficentsMagnitude[index] = 1;
this.setNeighborsSignificance(i, j, index);
processingFlags[index] |= firstMagnitudeBitMask;
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index = index0;
for (var i2 = i0; i2 <= i; i2++, index += width) {
bitsDecoded[index]++;
}
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i1++;
}
for (i = i0 + i1; i < iNext; i++, index += width) {
if (coefficentsMagnitude[index] ||
(processingFlags[index] & processedMask) !== 0) {
continue;
}
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var contextLabel = labels[neighborsSignificance[index]];
var decision = decoder.readBit(contexts, contextLabel);
if (decision === 1) {
sign = this.decodeSignBit(i, j, index);
coefficentsSign[index] = sign;
coefficentsMagnitude[index] = 1;
this.setNeighborsSignificance(i, j, index);
processingFlags[index] |= firstMagnitudeBitMask;
}
bitsDecoded[index]++;
}
}
}
},
checkSegmentationSymbol: function BitModel_checkSegmentationSymbol() {
var decoder = this.decoder;
var contexts = this.contexts;
var symbol = (decoder.readBit(contexts, UNIFORM_CONTEXT) << 3) |
(decoder.readBit(contexts, UNIFORM_CONTEXT) << 2) |
(decoder.readBit(contexts, UNIFORM_CONTEXT) << 1) |
decoder.readBit(contexts, UNIFORM_CONTEXT);
if (symbol !== 0xA) {
throw new Error('JPX Error: Invalid segmentation symbol');
}
}
};
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return BitModel;
})();
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// Section F, Discrete wavelet transformation
var Transform = (function TransformClosure() {
function Transform() {}
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Transform.prototype.calculate =
function transformCalculate(subbands, u0, v0) {
var ll = subbands[0];
for (var i = 1, ii = subbands.length; i < ii; i++) {
ll = this.iterate(ll, subbands[i], u0, v0);
}
return ll;
};
Transform.prototype.extend = function extend(buffer, offset, size) {
// Section F.3.7 extending... using max extension of 4
var i1 = offset - 1, j1 = offset + 1;
var i2 = offset + size - 2, j2 = offset + size;
buffer[i1--] = buffer[j1++];
buffer[j2++] = buffer[i2--];
buffer[i1--] = buffer[j1++];
buffer[j2++] = buffer[i2--];
buffer[i1--] = buffer[j1++];
buffer[j2++] = buffer[i2--];
buffer[i1] = buffer[j1];
buffer[j2] = buffer[i2];
};
Transform.prototype.iterate = function Transform_iterate(ll, hl_lh_hh,
u0, v0) {
var llWidth = ll.width, llHeight = ll.height, llItems = ll.items;
var width = hl_lh_hh.width;
var height = hl_lh_hh.height;
var items = hl_lh_hh.items;
var i, j, k, l, u, v;
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// Interleave LL according to Section F.3.3
for (k = 0, i = 0; i < llHeight; i++) {
l = i * 2 * width;
for (j = 0; j < llWidth; j++, k++, l += 2) {
items[l] = llItems[k];
}
}
// The LL band is not needed anymore.
llItems = ll.items = null;
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var bufferPadding = 4;
var rowBuffer = new Float32Array(width + 2 * bufferPadding);
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// Section F.3.4 HOR_SR
if (width === 1) {
// if width = 1, when u0 even keep items as is, when odd divide by 2
if ((u0 & 1) !== 0) {
for (v = 0, k = 0; v < height; v++, k += width) {
items[k] *= 0.5;
}
}
} else {
for (v = 0, k = 0; v < height; v++, k += width) {
rowBuffer.set(items.subarray(k, k + width), bufferPadding);
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this.extend(rowBuffer, bufferPadding, width);
this.filter(rowBuffer, bufferPadding, width);
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items.set(
rowBuffer.subarray(bufferPadding, bufferPadding + width),
k);
}
}
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// Accesses to the items array can take long, because it may not fit into
// CPU cache and has to be fetched from main memory. Since subsequent
// accesses to the items array are not local when reading columns, we
// have a cache miss every time. To reduce cache misses, get up to
// 'numBuffers' items at a time and store them into the individual
// buffers. The colBuffers should be small enough to fit into CPU cache.
var numBuffers = 16;
var colBuffers = [];
for (i = 0; i < numBuffers; i++) {
colBuffers.push(new Float32Array(height + 2 * bufferPadding));
}
var b, currentBuffer = 0;
ll = bufferPadding + height;
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// Section F.3.5 VER_SR
if (height === 1) {
// if height = 1, when v0 even keep items as is, when odd divide by 2
if ((v0 & 1) !== 0) {
for (u = 0; u < width; u++) {
items[u] *= 0.5;
}
}
} else {
for (u = 0; u < width; u++) {
// if we ran out of buffers, copy several image columns at once
if (currentBuffer === 0) {
numBuffers = Math.min(width - u, numBuffers);
for (k = u, l = bufferPadding; l < ll; k += width, l++) {
for (b = 0; b < numBuffers; b++) {
colBuffers[b][l] = items[k + b];
}
}
currentBuffer = numBuffers;
}
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currentBuffer--;
var buffer = colBuffers[currentBuffer];
this.extend(buffer, bufferPadding, height);
this.filter(buffer, bufferPadding, height);
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// If this is last buffer in this group of buffers, flush all buffers.
if (currentBuffer === 0) {
k = u - numBuffers + 1;
for (l = bufferPadding; l < ll; k += width, l++) {
for (b = 0; b < numBuffers; b++) {
items[k + b] = colBuffers[b][l];
}
}
}
}
}
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return {
width: width,
height: height,
items: items
};
};
return Transform;
})();
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// Section 3.8.2 Irreversible 9-7 filter
var IrreversibleTransform = (function IrreversibleTransformClosure() {
function IrreversibleTransform() {
Transform.call(this);
}
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IrreversibleTransform.prototype = Object.create(Transform.prototype);
IrreversibleTransform.prototype.filter =
function irreversibleTransformFilter(x, offset, length) {
var len = length >> 1;
offset = offset | 0;
var j, n, current, next;
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var alpha = -1.586134342059924;
var beta = -0.052980118572961;
var gamma = 0.882911075530934;
var delta = 0.443506852043971;
var K = 1.230174104914001;
var K_ = 1 / K;
// step 1 is combined with step 3
// step 2
j = offset - 3;
for (n = len + 4; n--; j += 2) {
x[j] *= K_;
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}
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// step 1 & 3
j = offset - 2;
current = delta * x[j -1];
for (n = len + 3; n--; j += 2) {
next = delta * x[j + 1];
x[j] = K * x[j] - current - next;
if (n--) {
j += 2;
current = delta * x[j + 1];
x[j] = K * x[j] - current - next;
} else {
break;
}
}
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// step 4
j = offset - 1;
current = gamma * x[j - 1];
for (n = len + 2; n--; j += 2) {
next = gamma * x[j + 1];
x[j] -= current + next;
if (n--) {
j += 2;
current = gamma * x[j + 1];
x[j] -= current + next;
} else {
break;
}
}
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// step 5
j = offset;
current = beta * x[j - 1];
for (n = len + 1; n--; j += 2) {
next = beta * x[j + 1];
x[j] -= current + next;
if (n--) {
j += 2;
current = beta * x[j + 1];
x[j] -= current + next;
} else {
break;
}
}
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// step 6
if (len !== 0) {
j = offset + 1;
current = alpha * x[j - 1];
for (n = len; n--; j += 2) {
next = alpha * x[j + 1];
x[j] -= current + next;
if (n--) {
j += 2;
current = alpha * x[j + 1];
x[j] -= current + next;
} else {
break;
}
}
}
};
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return IrreversibleTransform;
})();
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// Section 3.8.1 Reversible 5-3 filter
var ReversibleTransform = (function ReversibleTransformClosure() {
function ReversibleTransform() {
Transform.call(this);
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}
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ReversibleTransform.prototype = Object.create(Transform.prototype);
ReversibleTransform.prototype.filter =
function reversibleTransformFilter(x, offset, length) {
var len = length >> 1;
offset = offset | 0;
var j, n;
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for (j = offset, n = len + 1; n--; j += 2) {
x[j] -= (x[j - 1] + x[j + 1] + 2) >> 2;
}
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for (j = offset + 1, n = len; n--; j += 2) {
x[j] += (x[j - 1] + x[j + 1]) >> 1;
}
};
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return ReversibleTransform;
})();
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return JpxImage;
})();
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exports.JpxImage = JpxImage;
}));
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(function (root, factory) {
{
factory((root.pdfjsCoreMetrics = {}), root.pdfjsSharedUtil);
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}
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}(this, function (exports, sharedUtil) {
var getLookupTableFactory = sharedUtil.getLookupTableFactory;
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// The Metrics object contains glyph widths (in glyph space units).
// As per PDF spec, for most fonts (Type 3 being an exception) a glyph
// space unit corresponds to 1/1000th of text space unit.
var getMetrics = getLookupTableFactory(function (t) {
t['Courier'] = 600;
t['Courier-Bold'] = 600;
t['Courier-BoldOblique'] = 600;
t['Courier-Oblique'] = 600;
t['Helvetica'] = getLookupTableFactory(function (t) {
t['space'] = 278;
t['exclam'] = 278;
t['quotedbl'] = 355;
t['numbersign'] = 556;
t['dollar'] = 556;
t['percent'] = 889;
t['ampersand'] = 667;
t['quoteright'] = 222;
t['parenleft'] = 333;
t['parenright'] = 333;
t['asterisk'] = 389;
t['plus'] = 584;
t['comma'] = 278;
t['hyphen'] = 333;
t['period'] = 278;
t['slash'] = 278;
t['zero'] = 556;
t['one'] = 556;
t['two'] = 556;
t['three'] = 556;
t['four'] = 556;
t['five'] = 556;
t['six'] = 556;
t['seven'] = 556;
t['eight'] = 556;
t['nine'] = 556;
t['colon'] = 278;
t['semicolon'] = 278;
t['less'] = 584;
t['equal'] = 584;
t['greater'] = 584;
t['question'] = 556;
t['at'] = 1015;
t['A'] = 667;
t['B'] = 667;
t['C'] = 722;
t['D'] = 722;
t['E'] = 667;
t['F'] = 611;
t['G'] = 778;
t['H'] = 722;
t['I'] = 278;
t['J'] = 500;
t['K'] = 667;
t['L'] = 556;
t['M'] = 833;
t['N'] = 722;
t['O'] = 778;
t['P'] = 667;
t['Q'] = 778;
t['R'] = 722;
t['S'] = 667;
t['T'] = 611;
t['U'] = 722;
t['V'] = 667;
t['W'] = 944;
t['X'] = 667;
t['Y'] = 667;
t['Z'] = 611;
t['bracketleft'] = 278;
t['backslash'] = 278;
t['bracketright'] = 278;
t['asciicircum'] = 469;
t['underscore'] = 556;
t['quoteleft'] = 222;
t['a'] = 556;
t['b'] = 556;
t['c'] = 500;
t['d'] = 556;
t['e'] = 556;
t['f'] = 278;
t['g'] = 556;
t['h'] = 556;
t['i'] = 222;
t['j'] = 222;
t['k'] = 500;
t['l'] = 222;
t['m'] = 833;
t['n'] = 556;
t['o'] = 556;
t['p'] = 556;
t['q'] = 556;
t['r'] = 333;
t['s'] = 500;
t['t'] = 278;
t['u'] = 556;
t['v'] = 500;
t['w'] = 722;
t['x'] = 500;
t['y'] = 500;
t['z'] = 500;
t['braceleft'] = 334;
t['bar'] = 260;
t['braceright'] = 334;
t['asciitilde'] = 584;
t['exclamdown'] = 333;
t['cent'] = 556;
t['sterling'] = 556;
t['fraction'] = 167;
t['yen'] = 556;
t['florin'] = 556;
t['section'] = 556;
t['currency'] = 556;
t['quotesingle'] = 191;
t['quotedblleft'] = 333;
t['guillemotleft'] = 556;
t['guilsinglleft'] = 333;
t['guilsinglright'] = 333;
t['fi'] = 500;
t['fl'] = 500;
t['endash'] = 556;
t['dagger'] = 556;
t['daggerdbl'] = 556;
t['periodcentered'] = 278;
t['paragraph'] = 537;
t['bullet'] = 350;
t['quotesinglbase'] = 222;
t['quotedblbase'] = 333;
t['quotedblright'] = 333;
t['guillemotright'] = 556;
t['ellipsis'] = 1000;
t['perthousand'] = 1000;
t['questiondown'] = 611;
t['grave'] = 333;
t['acute'] = 333;
t['circumflex'] = 333;
t['tilde'] = 333;
t['macron'] = 333;
t['breve'] = 333;
t['dotaccent'] = 333;
t['dieresis'] = 333;
t['ring'] = 333;
t['cedilla'] = 333;
t['hungarumlaut'] = 333;
t['ogonek'] = 333;
t['caron'] = 333;
t['emdash'] = 1000;
t['AE'] = 1000;
t['ordfeminine'] = 370;
t['Lslash'] = 556;
t['Oslash'] = 778;
t['OE'] = 1000;
t['ordmasculine'] = 365;
t['ae'] = 889;
t['dotlessi'] = 278;
t['lslash'] = 222;
t['oslash'] = 611;
t['oe'] = 944;
t['germandbls'] = 611;
t['Idieresis'] = 278;
t['eacute'] = 556;
t['abreve'] = 556;
t['uhungarumlaut'] = 556;
t['ecaron'] = 556;
t['Ydieresis'] = 667;
t['divide'] = 584;
t['Yacute'] = 667;
t['Acircumflex'] = 667;
t['aacute'] = 556;
t['Ucircumflex'] = 722;
t['yacute'] = 500;
t['scommaaccent'] = 500;
t['ecircumflex'] = 556;
t['Uring'] = 722;
t['Udieresis'] = 722;
t['aogonek'] = 556;
t['Uacute'] = 722;
t['uogonek'] = 556;
t['Edieresis'] = 667;
t['Dcroat'] = 722;
t['commaaccent'] = 250;
t['copyright'] = 737;
t['Emacron'] = 667;
t['ccaron'] = 500;
t['aring'] = 556;
t['Ncommaaccent'] = 722;
t['lacute'] = 222;
t['agrave'] = 556;
t['Tcommaaccent'] = 611;
t['Cacute'] = 722;
t['atilde'] = 556;
t['Edotaccent'] = 667;
t['scaron'] = 500;
t['scedilla'] = 500;
t['iacute'] = 278;
t['lozenge'] = 471;
t['Rcaron'] = 722;
t['Gcommaaccent'] = 778;
t['ucircumflex'] = 556;
t['acircumflex'] = 556;
t['Amacron'] = 667;
t['rcaron'] = 333;
t['ccedilla'] = 500;
t['Zdotaccent'] = 611;
t['Thorn'] = 667;
t['Omacron'] = 778;
t['Racute'] = 722;
t['Sacute'] = 667;
t['dcaron'] = 643;
t['Umacron'] = 722;
t['uring'] = 556;
t['threesuperior'] = 333;
t['Ograve'] = 778;
t['Agrave'] = 667;
t['Abreve'] = 667;
t['multiply'] = 584;
t['uacute'] = 556;
t['Tcaron'] = 611;
t['partialdiff'] = 476;
t['ydieresis'] = 500;
t['Nacute'] = 722;
t['icircumflex'] = 278;
t['Ecircumflex'] = 667;
t['adieresis'] = 556;
t['edieresis'] = 556;
t['cacute'] = 500;
t['nacute'] = 556;
t['umacron'] = 556;
t['Ncaron'] = 722;
t['Iacute'] = 278;
t['plusminus'] = 584;
t['brokenbar'] = 260;
t['registered'] = 737;
t['Gbreve'] = 778;
t['Idotaccent'] = 278;
t['summation'] = 600;
t['Egrave'] = 667;
t['racute'] = 333;
t['omacron'] = 556;
t['Zacute'] = 611;
t['Zcaron'] = 611;
t['greaterequal'] = 549;
t['Eth'] = 722;
t['Ccedilla'] = 722;
t['lcommaaccent'] = 222;
t['tcaron'] = 317;
t['eogonek'] = 556;
t['Uogonek'] = 722;
t['Aacute'] = 667;
t['Adieresis'] = 667;
t['egrave'] = 556;
t['zacute'] = 500;
t['iogonek'] = 222;
t['Oacute'] = 778;
t['oacute'] = 556;
t['amacron'] = 556;
t['sacute'] = 500;
t['idieresis'] = 278;
t['Ocircumflex'] = 778;
t['Ugrave'] = 722;
t['Delta'] = 612;
t['thorn'] = 556;
t['twosuperior'] = 333;
t['Odieresis'] = 778;
t['mu'] = 556;
t['igrave'] = 278;
t['ohungarumlaut'] = 556;
t['Eogonek'] = 667;
t['dcroat'] = 556;
t['threequarters'] = 834;
t['Scedilla'] = 667;
t['lcaron'] = 299;
t['Kcommaaccent'] = 667;
t['Lacute'] = 556;
t['trademark'] = 1000;
t['edotaccent'] = 556;
t['Igrave'] = 278;
t['Imacron'] = 278;
t['Lcaron'] = 556;
t['onehalf'] = 834;
t['lessequal'] = 549;
t['ocircumflex'] = 556;
t['ntilde'] = 556;
t['Uhungarumlaut'] = 722;
t['Eacute'] = 667;
t['emacron'] = 556;
t['gbreve'] = 556;
t['onequarter'] = 834;
t['Scaron'] = 667;
t['Scommaaccent'] = 667;
t['Ohungarumlaut'] = 778;
t['degree'] = 400;
t['ograve'] = 556;
t['Ccaron'] = 722;
t['ugrave'] = 556;
t['radical'] = 453;
t['Dcaron'] = 722;
t['rcommaaccent'] = 333;
t['Ntilde'] = 722;
t['otilde'] = 556;
t['Rcommaaccent'] = 722;
t['Lcommaaccent'] = 556;
t['Atilde'] = 667;
t['Aogonek'] = 667;
t['Aring'] = 667;
t['Otilde'] = 778;
t['zdotaccent'] = 500;
t['Ecaron'] = 667;
t['Iogonek'] = 278;
t['kcommaaccent'] = 500;
t['minus'] = 584;
t['Icircumflex'] = 278;
t['ncaron'] = 556;
t['tcommaaccent'] = 278;
t['logicalnot'] = 584;
t['odieresis'] = 556;
t['udieresis'] = 556;
t['notequal'] = 549;
t['gcommaaccent'] = 556;
t['eth'] = 556;
t['zcaron'] = 500;
t['ncommaaccent'] = 556;
t['onesuperior'] = 333;
t['imacron'] = 278;
t['Euro'] = 556;
});
t['Helvetica-Bold'] = getLookupTableFactory(function (t) {
t['space'] = 278;
t['exclam'] = 333;
t['quotedbl'] = 474;
t['numbersign'] = 556;
t['dollar'] = 556;
t['percent'] = 889;
t['ampersand'] = 722;
t['quoteright'] = 278;
t['parenleft'] = 333;
t['parenright'] = 333;
t['asterisk'] = 389;
t['plus'] = 584;
t['comma'] = 278;
t['hyphen'] = 333;
t['period'] = 278;
t['slash'] = 278;
t['zero'] = 556;
t['one'] = 556;
t['two'] = 556;
t['three'] = 556;
t['four'] = 556;
t['five'] = 556;
t['six'] = 556;
t['seven'] = 556;
t['eight'] = 556;
t['nine'] = 556;
t['colon'] = 333;
t['semicolon'] = 333;
t['less'] = 584;
t['equal'] = 584;
t['greater'] = 584;
t['question'] = 611;
t['at'] = 975;
t['A'] = 722;
t['B'] = 722;
t['C'] = 722;
t['D'] = 722;
t['E'] = 667;
t['F'] = 611;
t['G'] = 778;
t['H'] = 722;
t['I'] = 278;
t['J'] = 556;
t['K'] = 722;
t['L'] = 611;
t['M'] = 833;
t['N'] = 722;
t['O'] = 778;
t['P'] = 667;
t['Q'] = 778;
t['R'] = 722;
t['S'] = 667;
t['T'] = 611;
t['U'] = 722;
t['V'] = 667;
t['W'] = 944;
t['X'] = 667;
t['Y'] = 667;
t['Z'] = 611;
t['bracketleft'] = 333;
t['backslash'] = 278;
t['bracketright'] = 333;
t['asciicircum'] = 584;
t['underscore'] = 556;
t['quoteleft'] = 278;
t['a'] = 556;
t['b'] = 611;
t['c'] = 556;
t['d'] = 611;
t['e'] = 556;
t['f'] = 333;
t['g'] = 611;
t['h'] = 611;
t['i'] = 278;
t['j'] = 278;
t['k'] = 556;
t['l'] = 278;
t['m'] = 889;
t['n'] = 611;
t['o'] = 611;
t['p'] = 611;
t['q'] = 611;
t['r'] = 389;
t['s'] = 556;
t['t'] = 333;
t['u'] = 611;
t['v'] = 556;
t['w'] = 778;
t['x'] = 556;
t['y'] = 556;
t['z'] = 500;
t['braceleft'] = 389;
t['bar'] = 280;
t['braceright'] = 389;
t['asciitilde'] = 584;
t['exclamdown'] = 333;
t['cent'] = 556;
t['sterling'] = 556;
t['fraction'] = 167;
t['yen'] = 556;
t['florin'] = 556;
t['section'] = 556;
t['currency'] = 556;
t['quotesingle'] = 238;
t['quotedblleft'] = 500;
t['guillemotleft'] = 556;
t['guilsinglleft'] = 333;
t['guilsinglright'] = 333;
t['fi'] = 611;
t['fl'] = 611;
t['endash'] = 556;
t['dagger'] = 556;
t['daggerdbl'] = 556;
t['periodcentered'] = 278;
t['paragraph'] = 556;
t['bullet'] = 350;
t['quotesinglbase'] = 278;
t['quotedblbase'] = 500;
t['quotedblright'] = 500;
t['guillemotright'] = 556;
t['ellipsis'] = 1000;
t['perthousand'] = 1000;
t['questiondown'] = 611;
t['grave'] = 333;
t['acute'] = 333;
t['circumflex'] = 333;
t['tilde'] = 333;
t['macron'] = 333;
t['breve'] = 333;
t['dotaccent'] = 333;
t['dieresis'] = 333;
t['ring'] = 333;
t['cedilla'] = 333;
t['hungarumlaut'] = 333;
t['ogonek'] = 333;
t['caron'] = 333;
t['emdash'] = 1000;
t['AE'] = 1000;
t['ordfeminine'] = 370;
t['Lslash'] = 611;
t['Oslash'] = 778;
t['OE'] = 1000;
t['ordmasculine'] = 365;
t['ae'] = 889;
t['dotlessi'] = 278;
t['lslash'] = 278;
t['oslash'] = 611;
t['oe'] = 944;
t['germandbls'] = 611;
t['Idieresis'] = 278;
t['eacute'] = 556;
t['abreve'] = 556;
t['uhungarumlaut'] = 611;
t['ecaron'] = 556;
t['Ydieresis'] = 667;
t['divide'] = 584;
t['Yacute'] = 667;
t['Acircumflex'] = 722;
t['aacute'] = 556;
t['Ucircumflex'] = 722;
t['yacute'] = 556;
t['scommaaccent'] = 556;
t['ecircumflex'] = 556;
t['Uring'] = 722;
t['Udieresis'] = 722;
t['aogonek'] = 556;
t['Uacute'] = 722;
t['uogonek'] = 611;
t['Edieresis'] = 667;
t['Dcroat'] = 722;
t['commaaccent'] = 250;
t['copyright'] = 737;
t['Emacron'] = 667;
t['ccaron'] = 556;
t['aring'] = 556;
t['Ncommaaccent'] = 722;
t['lacute'] = 278;
t['agrave'] = 556;
t['Tcommaaccent'] = 611;
t['Cacute'] = 722;
t['atilde'] = 556;
t['Edotaccent'] = 667;
t['scaron'] = 556;
t['scedilla'] = 556;
t['iacute'] = 278;
t['lozenge'] = 494;
t['Rcaron'] = 722;
t['Gcommaaccent'] = 778;
t['ucircumflex'] = 611;
t['acircumflex'] = 556;
t['Amacron'] = 722;
t['rcaron'] = 389;
t['ccedilla'] = 556;
t['Zdotaccent'] = 611;
t['Thorn'] = 667;
t['Omacron'] = 778;
t['Racute'] = 722;
t['Sacute'] = 667;
t['dcaron'] = 743;
t['Umacron'] = 722;
t['uring'] = 611;
t['threesuperior'] = 333;
t['Ograve'] = 778;
t['Agrave'] = 722;
t['Abreve'] = 722;
t['multiply'] = 584;
t['uacute'] = 611;
t['Tcaron'] = 611;
t['partialdiff'] = 494;
t['ydieresis'] = 556;
t['Nacute'] = 722;
t['icircumflex'] = 278;
t['Ecircumflex'] = 667;
t['adieresis'] = 556;
t['edieresis'] = 556;
t['cacute'] = 556;
t['nacute'] = 611;
t['umacron'] = 611;
t['Ncaron'] = 722;
t['Iacute'] = 278;
t['plusminus'] = 584;
t['brokenbar'] = 280;
t['registered'] = 737;
t['Gbreve'] = 778;
t['Idotaccent'] = 278;
t['summation'] = 600;
t['Egrave'] = 667;
t['racute'] = 389;
t['omacron'] = 611;
t['Zacute'] = 611;
t['Zcaron'] = 611;
t['greaterequal'] = 549;
t['Eth'] = 722;
t['Ccedilla'] = 722;
t['lcommaaccent'] = 278;
t['tcaron'] = 389;
t['eogonek'] = 556;
t['Uogonek'] = 722;
t['Aacute'] = 722;
t['Adieresis'] = 722;
t['egrave'] = 556;
t['zacute'] = 500;
t['iogonek'] = 278;
t['Oacute'] = 778;
t['oacute'] = 611;
t['amacron'] = 556;
t['sacute'] = 556;
t['idieresis'] = 278;
t['Ocircumflex'] = 778;
t['Ugrave'] = 722;
t['Delta'] = 612;
t['thorn'] = 611;
t['twosuperior'] = 333;
t['Odieresis'] = 778;
t['mu'] = 611;
t['igrave'] = 278;
t['ohungarumlaut'] = 611;
t['Eogonek'] = 667;
t['dcroat'] = 611;
t['threequarters'] = 834;
t['Scedilla'] = 667;
t['lcaron'] = 400;
t['Kcommaaccent'] = 722;
t['Lacute'] = 611;
t['trademark'] = 1000;
t['edotaccent'] = 556;
t['Igrave'] = 278;
t['Imacron'] = 278;
t['Lcaron'] = 611;
t['onehalf'] = 834;
t['lessequal'] = 549;
t['ocircumflex'] = 611;
t['ntilde'] = 611;
t['Uhungarumlaut'] = 722;
t['Eacute'] = 667;
t['emacron'] = 556;
t['gbreve'] = 611;
t['onequarter'] = 834;
t['Scaron'] = 667;
t['Scommaaccent'] = 667;
t['Ohungarumlaut'] = 778;
t['degree'] = 400;
t['ograve'] = 611;
t['Ccaron'] = 722;
t['ugrave'] = 611;
t['radical'] = 549;
t['Dcaron'] = 722;
t['rcommaaccent'] = 389;
t['Ntilde'] = 722;
t['otilde'] = 611;
t['Rcommaaccent'] = 722;
t['Lcommaaccent'] = 611;
t['Atilde'] = 722;
t['Aogonek'] = 722;
t['Aring'] = 722;
t['Otilde'] = 778;
t['zdotaccent'] = 500;
t['Ecaron'] = 667;
t['Iogonek'] = 278;
t['kcommaaccent'] = 556;
t['minus'] = 584;
t['Icircumflex'] = 278;
t['ncaron'] = 611;
t['tcommaaccent'] = 333;
t['logicalnot'] = 584;
t['odieresis'] = 611;
t['udieresis'] = 611;
t['notequal'] = 549;
t['gcommaaccent'] = 611;
t['eth'] = 611;
t['zcaron'] = 500;
t['ncommaaccent'] = 611;
t['onesuperior'] = 333;
t['imacron'] = 278;
t['Euro'] = 556;
});
t['Helvetica-BoldOblique'] = getLookupTableFactory(function (t) {
t['space'] = 278;
t['exclam'] = 333;
t['quotedbl'] = 474;
t['numbersign'] = 556;
t['dollar'] = 556;
t['percent'] = 889;
t['ampersand'] = 722;
t['quoteright'] = 278;
t['parenleft'] = 333;
t['parenright'] = 333;
t['asterisk'] = 389;
t['plus'] = 584;
t['comma'] = 278;
t['hyphen'] = 333;
t['period'] = 278;
t['slash'] = 278;
t['zero'] = 556;
t['one'] = 556;
t['two'] = 556;
t['three'] = 556;
t['four'] = 556;
t['five'] = 556;
t['six'] = 556;
t['seven'] = 556;
t['eight'] = 556;
t['nine'] = 556;
t['colon'] = 333;
t['semicolon'] = 333;
t['less'] = 584;
t['equal'] = 584;
t['greater'] = 584;
t['question'] = 611;
t['at'] = 975;
t['A'] = 722;
t['B'] = 722;
t['C'] = 722;
t['D'] = 722;
t['E'] = 667;
t['F'] = 611;
t['G'] = 778;
t['H'] = 722;
t['I'] = 278;
t['J'] = 556;
t['K'] = 722;
t['L'] = 611;
t['M'] = 833;
t['N'] = 722;
t['O'] = 778;
t['P'] = 667;
t['Q'] = 778;
t['R'] = 722;
t['S'] = 667;
t['T'] = 611;
t['U'] = 722;
t['V'] = 667;
t['W'] = 944;
t['X'] = 667;
t['Y'] = 667;
t['Z'] = 611;
t['bracketleft'] = 333;
t['backslash'] = 278;
t['bracketright'] = 333;
t['asciicircum'] = 584;
t['underscore'] = 556;
t['quoteleft'] = 278;
t['a'] = 556;
t['b'] = 611;
t['c'] = 556;
t['d'] = 611;
t['e'] = 556;
t['f'] = 333;
t['g'] = 611;
t['h'] = 611;
t['i'] = 278;
t['j'] = 278;
t['k'] = 556;
t['l'] = 278;
t['m'] = 889;
t['n'] = 611;
t['o'] = 611;
t['p'] = 611;
t['q'] = 611;
t['r'] = 389;
t['s'] = 556;
t['t'] = 333;
t['u'] = 611;
t['v'] = 556;
t['w'] = 778;
t['x'] = 556;
t['y'] = 556;
t['z'] = 500;
t['braceleft'] = 389;
t['bar'] = 280;
t['braceright'] = 389;
t['asciitilde'] = 584;
t['exclamdown'] = 333;
t['cent'] = 556;
t['sterling'] = 556;
t['fraction'] = 167;
t['yen'] = 556;
t['florin'] = 556;
t['section'] = 556;
t['currency'] = 556;
t['quotesingle'] = 238;
t['quotedblleft'] = 500;
t['guillemotleft'] = 556;
t['guilsinglleft'] = 333;
t['guilsinglright'] = 333;
t['fi'] = 611;
t['fl'] = 611;
t['endash'] = 556;
t['dagger'] = 556;
t['daggerdbl'] = 556;
t['periodcentered'] = 278;
t['paragraph'] = 556;
t['bullet'] = 350;
t['quotesinglbase'] = 278;
t['quotedblbase'] = 500;
t['quotedblright'] = 500;
t['guillemotright'] = 556;
t['ellipsis'] = 1000;
t['perthousand'] = 1000;
t['questiondown'] = 611;
t['grave'] = 333;
t['acute'] = 333;
t['circumflex'] = 333;
t['tilde'] = 333;
t['macron'] = 333;
t['breve'] = 333;
t['dotaccent'] = 333;
t['dieresis'] = 333;
t['ring'] = 333;
t['cedilla'] = 333;
t['hungarumlaut'] = 333;
t['ogonek'] = 333;
t['caron'] = 333;
t['emdash'] = 1000;
t['AE'] = 1000;
t['ordfeminine'] = 370;
t['Lslash'] = 611;
t['Oslash'] = 778;
t['OE'] = 1000;
t['ordmasculine'] = 365;
t['ae'] = 889;
t['dotlessi'] = 278;
t['lslash'] = 278;
t['oslash'] = 611;
t['oe'] = 944;
t['germandbls'] = 611;
t['Idieresis'] = 278;
t['eacute'] = 556;
t['abreve'] = 556;
t['uhungarumlaut'] = 611;
t['ecaron'] = 556;
t['Ydieresis'] = 667;
t['divide'] = 584;
t['Yacute'] = 667;
t['Acircumflex'] = 722;
t['aacute'] = 556;
t['Ucircumflex'] = 722;
t['yacute'] = 556;
t['scommaaccent'] = 556;
t['ecircumflex'] = 556;
t['Uring'] = 722;
t['Udieresis'] = 722;
t['aogonek'] = 556;
t['Uacute'] = 722;
t['uogonek'] = 611;
t['Edieresis'] = 667;
t['Dcroat'] = 722;
t['commaaccent'] = 250;
t['copyright'] = 737;
t['Emacron'] = 667;
t['ccaron'] = 556;
t['aring'] = 556;
t['Ncommaaccent'] = 722;
t['lacute'] = 278;
t['agrave'] = 556;
t['Tcommaaccent'] = 611;
t['Cacute'] = 722;
t['atilde'] = 556;
t['Edotaccent'] = 667;
t['scaron'] = 556;
t['scedilla'] = 556;
t['iacute'] = 278;
t['lozenge'] = 494;
t['Rcaron'] = 722;
t['Gcommaaccent'] = 778;
t['ucircumflex'] = 611;
t['acircumflex'] = 556;
t['Amacron'] = 722;
t['rcaron'] = 389;
t['ccedilla'] = 556;
t['Zdotaccent'] = 611;
t['Thorn'] = 667;
t['Omacron'] = 778;
t['Racute'] = 722;
t['Sacute'] = 667;
t['dcaron'] = 743;
t['Umacron'] = 722;
t['uring'] = 611;
t['threesuperior'] = 333;
t['Ograve'] = 778;
t['Agrave'] = 722;
t['Abreve'] = 722;
t['multiply'] = 584;
t['uacute'] = 611;
t['Tcaron'] = 611;
t['partialdiff'] = 494;
t['ydieresis'] = 556;
t['Nacute'] = 722;
t['icircumflex'] = 278;
t['Ecircumflex'] = 667;
t['adieresis'] = 556;
t['edieresis'] = 556;
t['cacute'] = 556;
t['nacute'] = 611;
t['umacron'] = 611;
t['Ncaron'] = 722;
t['Iacute'] = 278;
t['plusminus'] = 584;
t['brokenbar'] = 280;
t['registered'] = 737;
t['Gbreve'] = 778;
t['Idotaccent'] = 278;
t['summation'] = 600;
t['Egrave'] = 667;
t['racute'] = 389;
t['omacron'] = 611;
t['Zacute'] = 611;
t['Zcaron'] = 611;
t['greaterequal'] = 549;
t['Eth'] = 722;
t['Ccedilla'] = 722;
t['lcommaaccent'] = 278;
t['tcaron'] = 389;
t['eogonek'] = 556;
t['Uogonek'] = 722;
t['Aacute'] = 722;
t['Adieresis'] = 722;
t['egrave'] = 556;
t['zacute'] = 500;
t['iogonek'] = 278;
t['Oacute'] = 778;
t['oacute'] = 611;
t['amacron'] = 556;
t['sacute'] = 556;
t['idieresis'] = 278;
t['Ocircumflex'] = 778;
t['Ugrave'] = 722;
t['Delta'] = 612;
t['thorn'] = 611;
t['twosuperior'] = 333;
t['Odieresis'] = 778;
t['mu'] = 611;
t['igrave'] = 278;
t['ohungarumlaut'] = 611;
t['Eogonek'] = 667;
t['dcroat'] = 611;
t['threequarters'] = 834;
t['Scedilla'] = 667;
t['lcaron'] = 400;
t['Kcommaaccent'] = 722;
t['Lacute'] = 611;
t['trademark'] = 1000;
t['edotaccent'] = 556;
t['Igrave'] = 278;
t['Imacron'] = 278;
t['Lcaron'] = 611;
t['onehalf'] = 834;
t['lessequal'] = 549;
t['ocircumflex'] = 611;
t['ntilde'] = 611;
t['Uhungarumlaut'] = 722;
t['Eacute'] = 667;
t['emacron'] = 556;
t['gbreve'] = 611;
t['onequarter'] = 834;
t['Scaron'] = 667;
t['Scommaaccent'] = 667;
t['Ohungarumlaut'] = 778;
t['degree'] = 400;
t['ograve'] = 611;
t['Ccaron'] = 722;
t['ugrave'] = 611;
t['radical'] = 549;
t['Dcaron'] = 722;
t['rcommaaccent'] = 389;
t['Ntilde'] = 722;
t['otilde'] = 611;
t['Rcommaaccent'] = 722;
t['Lcommaaccent'] = 611;
t['Atilde'] = 722;
t['Aogonek'] = 722;
t['Aring'] = 722;
t['Otilde'] = 778;
t['zdotaccent'] = 500;
t['Ecaron'] = 667;
t['Iogonek'] = 278;
t['kcommaaccent'] = 556;
t['minus'] = 584;
t['Icircumflex'] = 278;
t['ncaron'] = 611;
t['tcommaaccent'] = 333;
t['logicalnot'] = 584;
t['odieresis'] = 611;
t['udieresis'] = 611;
t['notequal'] = 549;
t['gcommaaccent'] = 611;
t['eth'] = 611;
t['zcaron'] = 500;
t['ncommaaccent'] = 611;
t['onesuperior'] = 333;
t['imacron'] = 278;
t['Euro'] = 556;
});
t['Helvetica-Oblique'] = getLookupTableFactory(function (t) {
t['space'] = 278;
t['exclam'] = 278;
t['quotedbl'] = 355;
t['numbersign'] = 556;
t['dollar'] = 556;
t['percent'] = 889;
t['ampersand'] = 667;
t['quoteright'] = 222;
t['parenleft'] = 333;
t['parenright'] = 333;
t['asterisk'] = 389;
t['plus'] = 584;
t['comma'] = 278;
t['hyphen'] = 333;
t['period'] = 278;
t['slash'] = 278;
t['zero'] = 556;
t['one'] = 556;
t['two'] = 556;
t['three'] = 556;
t['four'] = 556;
t['five'] = 556;
t['six'] = 556;
t['seven'] = 556;
t['eight'] = 556;
t['nine'] = 556;
t['colon'] = 278;
t['semicolon'] = 278;
t['less'] = 584;
t['equal'] = 584;
t['greater'] = 584;
t['question'] = 556;
t['at'] = 1015;
t['A'] = 667;
t['B'] = 667;
t['C'] = 722;
t['D'] = 722;
t['E'] = 667;
t['F'] = 611;
t['G'] = 778;
t['H'] = 722;
t['I'] = 278;
t['J'] = 500;
t['K'] = 667;
t['L'] = 556;
t['M'] = 833;
t['N'] = 722;
t['O'] = 778;
t['P'] = 667;
t['Q'] = 778;
t['R'] = 722;
t['S'] = 667;
t['T'] = 611;
t['U'] = 722;
t['V'] = 667;
t['W'] = 944;
t['X'] = 667;
t['Y'] = 667;
t['Z'] = 611;
t['bracketleft'] = 278;
t['backslash'] = 278;
t['bracketright'] = 278;
t['asciicircum'] = 469;
t['underscore'] = 556;
t['quoteleft'] = 222;
t['a'] = 556;
t['b'] = 556;
t['c'] = 500;
t['d'] = 556;
t['e'] = 556;
t['f'] = 278;
t['g'] = 556;
t['h'] = 556;
t['i'] = 222;
t['j'] = 222;
t['k'] = 500;
t['l'] = 222;
t['m'] = 833;
t['n'] = 556;
t['o'] = 556;
t['p'] = 556;
t['q'] = 556;
t['r'] = 333;
t['s'] = 500;
t['t'] = 278;
t['u'] = 556;
t['v'] = 500;
t['w'] = 722;
t['x'] = 500;
t['y'] = 500;
t['z'] = 500;
t['braceleft'] = 334;
t['bar'] = 260;
t['braceright'] = 334;
t['asciitilde'] = 584;
t['exclamdown'] = 333;
t['cent'] = 556;
t['sterling'] = 556;
t['fraction'] = 167;
t['yen'] = 556;
t['florin'] = 556;
t['section'] = 556;
t['currency'] = 556;
t['quotesingle'] = 191;
t['quotedblleft'] = 333;
t['guillemotleft'] = 556;
t['guilsinglleft'] = 333;
t['guilsinglright'] = 333;
t['fi'] = 500;
t['fl'] = 500;
t['endash'] = 556;
t['dagger'] = 556;
t['daggerdbl'] = 556;
t['periodcentered'] = 278;
t['paragraph'] = 537;
t['bullet'] = 350;
t['quotesinglbase'] = 222;
t['quotedblbase'] = 333;
t['quotedblright'] = 333;
t['guillemotright'] = 556;
t['ellipsis'] = 1000;
t['perthousand'] = 1000;
t['questiondown'] = 611;
t['grave'] = 333;
t['acute'] = 333;
t['circumflex'] = 333;
t['tilde'] = 333;
t['macron'] = 333;
t['breve'] = 333;
t['dotaccent'] = 333;
t['dieresis'] = 333;
t['ring'] = 333;
t['cedilla'] = 333;
t['hungarumlaut'] = 333;
t['ogonek'] = 333;
t['caron'] = 333;
t['emdash'] = 1000;
t['AE'] = 1000;
t['ordfeminine'] = 370;
t['Lslash'] = 556;
t['Oslash'] = 778;
t['OE'] = 1000;
t['ordmasculine'] = 365;
t['ae'] = 889;
t['dotlessi'] = 278;
t['lslash'] = 222;
t['oslash'] = 611;
t['oe'] = 944;
t['germandbls'] = 611;
t['Idieresis'] = 278;
t['eacute'] = 556;
t['abreve'] = 556;
t['uhungarumlaut'] = 556;
t['ecaron'] = 556;
t['Ydieresis'] = 667;
t['divide'] = 584;
t['Yacute'] = 667;
t['Acircumflex'] = 667;
t['aacute'] = 556;
t['Ucircumflex'] = 722;
t['yacute'] = 500;
t['scommaaccent'] = 500;
t['ecircumflex'] = 556;
t['Uring'] = 722;
t['Udieresis'] = 722;
t['aogonek'] = 556;
t['Uacute'] = 722;
t['uogonek'] = 556;
t['Edieresis'] = 667;
t['Dcroat'] = 722;
t['commaaccent'] = 250;
t['copyright'] = 737;
t['Emacron'] = 667;
t['ccaron'] = 500;
t['aring'] = 556;
t['Ncommaaccent'] = 722;
t['lacute'] = 222;
t['agrave'] = 556;
t['Tcommaaccent'] = 611;
t['Cacute'] = 722;
t['atilde'] = 556;
t['Edotaccent'] = 667;
t['scaron'] = 500;
t['scedilla'] = 500;
t['iacute'] = 278;
t['lozenge'] = 471;
t['Rcaron'] = 722;
t['Gcommaaccent'] = 778;
t['ucircumflex'] = 556;
t['acircumflex'] = 556;
t['Amacron'] = 667;
t['rcaron'] = 333;
t['ccedilla'] = 500;
t['Zdotaccent'] = 611;
t['Thorn'] = 667;
t['Omacron'] = 778;
t['Racute'] = 722;
t['Sacute'] = 667;
t['dcaron'] = 643;
t['Umacron'] = 722;
t['uring'] = 556;
t['threesuperior'] = 333;
t['Ograve'] = 778;
t['Agrave'] = 667;
t['Abreve'] = 667;
t['multiply'] = 584;
t['uacute'] = 556;
t['Tcaron'] = 611;
t['partialdiff'] = 476;
t['ydieresis'] = 500;
t['Nacute'] = 722;
t['icircumflex'] = 278;
t['Ecircumflex'] = 667;
t['adieresis'] = 556;
t['edieresis'] = 556;
t['cacute'] = 500;
t['nacute'] = 556;
t['umacron'] = 556;
t['Ncaron'] = 722;
t['Iacute'] = 278;
t['plusminus'] = 584;
t['brokenbar'] = 260;
t['registered'] = 737;
t['Gbreve'] = 778;
t['Idotaccent'] = 278;
t['summation'] = 600;
t['Egrave'] = 667;
t['racute'] = 333;
t['omacron'] = 556;
t['Zacute'] = 611;
t['Zcaron'] = 611;
t['greaterequal'] = 549;
t['Eth'] = 722;
t['Ccedilla'] = 722;
t['lcommaaccent'] = 222;
t['tcaron'] = 317;
t['eogonek'] = 556;
t['Uogonek'] = 722;
t['Aacute'] = 667;
t['Adieresis'] = 667;
t['egrave'] = 556;
t['zacute'] = 500;
t['iogonek'] = 222;
t['Oacute'] = 778;
t['oacute'] = 556;
t['amacron'] = 556;
t['sacute'] = 500;
t['idieresis'] = 278;
t['Ocircumflex'] = 778;
t['Ugrave'] = 722;
t['Delta'] = 612;
t['thorn'] = 556;
t['twosuperior'] = 333;
t['Odieresis'] = 778;
t['mu'] = 556;
t['igrave'] = 278;
t['ohungarumlaut'] = 556;
t['Eogonek'] = 667;
t['dcroat'] = 556;
t['threequarters'] = 834;
t['Scedilla'] = 667;
t['lcaron'] = 299;
t['Kcommaaccent'] = 667;
t['Lacute'] = 556;
t['trademark'] = 1000;
t['edotaccent'] = 556;
t['Igrave'] = 278;
t['Imacron'] = 278;
t['Lcaron'] = 556;
t['onehalf'] = 834;
t['lessequal'] = 549;
t['ocircumflex'] = 556;
t['ntilde'] = 556;
t['Uhungarumlaut'] = 722;
t['Eacute'] = 667;
t['emacron'] = 556;
t['gbreve'] = 556;
t['onequarter'] = 834;
t['Scaron'] = 667;
t['Scommaaccent'] = 667;
t['Ohungarumlaut'] = 778;
t['degree'] = 400;
t['ograve'] = 556;
t['Ccaron'] = 722;
t['ugrave'] = 556;
t['radical'] = 453;
t['Dcaron'] = 722;
t['rcommaaccent'] = 333;
t['Ntilde'] = 722;
t['otilde'] = 556;
t['Rcommaaccent'] = 722;
t['Lcommaaccent'] = 556;
t['Atilde'] = 667;
t['Aogonek'] = 667;
t['Aring'] = 667;
t['Otilde'] = 778;
t['zdotaccent'] = 500;
t['Ecaron'] = 667;
t['Iogonek'] = 278;
t['kcommaaccent'] = 500;
t['minus'] = 584;
t['Icircumflex'] = 278;
t['ncaron'] = 556;
t['tcommaaccent'] = 278;
t['logicalnot'] = 584;
t['odieresis'] = 556;
t['udieresis'] = 556;
t['notequal'] = 549;
t['gcommaaccent'] = 556;
t['eth'] = 556;
t['zcaron'] = 500;
t['ncommaaccent'] = 556;
t['onesuperior'] = 333;
t['imacron'] = 278;
t['Euro'] = 556;
});
t['Symbol'] = getLookupTableFactory(function (t) {
t['space'] = 250;
t['exclam'] = 333;
t['universal'] = 713;
t['numbersign'] = 500;
t['existential'] = 549;
t['percent'] = 833;
t['ampersand'] = 778;
t['suchthat'] = 439;
t['parenleft'] = 333;
t['parenright'] = 333;
t['asteriskmath'] = 500;
t['plus'] = 549;
t['comma'] = 250;
t['minus'] = 549;
t['period'] = 250;
t['slash'] = 278;
t['zero'] = 500;
t['one'] = 500;
t['two'] = 500;
t['three'] = 500;
t['four'] = 500;
t['five'] = 500;
t['six'] = 500;
t['seven'] = 500;
t['eight'] = 500;
t['nine'] = 500;
t['colon'] = 278;
t['semicolon'] = 278;
t['less'] = 549;
t['equal'] = 549;
t['greater'] = 549;
t['question'] = 444;
t['congruent'] = 549;
t['Alpha'] = 722;
t['Beta'] = 667;
t['Chi'] = 722;
t['Delta'] = 612;
t['Epsilon'] = 611;
t['Phi'] = 763;
t['Gamma'] = 603;
t['Eta'] = 722;
t['Iota'] = 333;
t['theta1'] = 631;
t['Kappa'] = 722;
t['Lambda'] = 686;
t['Mu'] = 889;
t['Nu'] = 722;
t['Omicron'] = 722;
t['Pi'] = 768;
t['Theta'] = 741;
t['Rho'] = 556;
t['Sigma'] = 592;
t['Tau'] = 611;
t['Upsilon'] = 690;
t['sigma1'] = 439;
t['Omega'] = 768;
t['Xi'] = 645;
t['Psi'] = 795;
t['Zeta'] = 611;
t['bracketleft'] = 333;
t['therefore'] = 863;
t['bracketright'] = 333;
t['perpendicular'] = 658;
t['underscore'] = 500;
t['radicalex'] = 500;
t['alpha'] = 631;
t['beta'] = 549;
t['chi'] = 549;
t['delta'] = 494;
t['epsilon'] = 439;
t['phi'] = 521;
t['gamma'] = 411;
t['eta'] = 603;
t['iota'] = 329;
t['phi1'] = 603;
t['kappa'] = 549;
t['lambda'] = 549;
t['mu'] = 576;
t['nu'] = 521;
t['omicron'] = 549;
t['pi'] = 549;
t['theta'] = 521;
t['rho'] = 549;
t['sigma'] = 603;
t['tau'] = 439;
t['upsilon'] = 576;
t['omega1'] = 713;
t['omega'] = 686;
t['xi'] = 493;
t['psi'] = 686;
t['zeta'] = 494;
t['braceleft'] = 480;
t['bar'] = 200;
t['braceright'] = 480;
t['similar'] = 549;
t['Euro'] = 750;
t['Upsilon1'] = 620;
t['minute'] = 247;
t['lessequal'] = 549;
t['fraction'] = 167;
t['infinity'] = 713;
t['florin'] = 500;
t['club'] = 753;
t['diamond'] = 753;
t['heart'] = 753;
t['spade'] = 753;
t['arrowboth'] = 1042;
t['arrowleft'] = 987;
t['arrowup'] = 603;
t['arrowright'] = 987;
t['arrowdown'] = 603;
t['degree'] = 400;
t['plusminus'] = 549;
t['second'] = 411;
t['greaterequal'] = 549;
t['multiply'] = 549;
t['proportional'] = 713;
t['partialdiff'] = 494;
t['bullet'] = 460;
t['divide'] = 549;
t['notequal'] = 549;
t['equivalence'] = 549;
t['approxequal'] = 549;
t['ellipsis'] = 1000;
t['arrowvertex'] = 603;
t['arrowhorizex'] = 1000;
t['carriagereturn'] = 658;
t['aleph'] = 823;
t['Ifraktur'] = 686;
t['Rfraktur'] = 795;
t['weierstrass'] = 987;
t['circlemultiply'] = 768;
t['circleplus'] = 768;
t['emptyset'] = 823;
t['intersection'] = 768;
t['union'] = 768;
t['propersuperset'] = 713;
t['reflexsuperset'] = 713;
t['notsubset'] = 713;
t['propersubset'] = 713;
t['reflexsubset'] = 713;
t['element'] = 713;
t['notelement'] = 713;
t['angle'] = 768;
t['gradient'] = 713;
t['registerserif'] = 790;
t['copyrightserif'] = 790;
t['trademarkserif'] = 890;
t['product'] = 823;
t['radical'] = 549;
t['dotmath'] = 250;
t['logicalnot'] = 713;
t['logicaland'] = 603;
t['logicalor'] = 603;
t['arrowdblboth'] = 1042;
t['arrowdblleft'] = 987;
t['arrowdblup'] = 603;
t['arrowdblright'] = 987;
t['arrowdbldown'] = 603;
t['lozenge'] = 494;
t['angleleft'] = 329;
t['registersans'] = 790;
t['copyrightsans'] = 790;
t['trademarksans'] = 786;
t['summation'] = 713;
t['parenlefttp'] = 384;
t['parenleftex'] = 384;
t['parenleftbt'] = 384;
t['bracketlefttp'] = 384;
t['bracketleftex'] = 384;
t['bracketleftbt'] = 384;
t['bracelefttp'] = 494;
t['braceleftmid'] = 494;
t['braceleftbt'] = 494;
t['braceex'] = 494;
t['angleright'] = 329;
t['integral'] = 274;
t['integraltp'] = 686;
t['integralex'] = 686;
t['integralbt'] = 686;
t['parenrighttp'] = 384;
t['parenrightex'] = 384;
t['parenrightbt'] = 384;
t['bracketrighttp'] = 384;
t['bracketrightex'] = 384;
t['bracketrightbt'] = 384;
t['bracerighttp'] = 494;
t['bracerightmid'] = 494;
t['bracerightbt'] = 494;
t['apple'] = 790;
});
t['Times-Roman'] = getLookupTableFactory(function (t) {
t['space'] = 250;
t['exclam'] = 333;
t['quotedbl'] = 408;
t['numbersign'] = 500;
t['dollar'] = 500;
t['percent'] = 833;
t['ampersand'] = 778;
t['quoteright'] = 333;
t['parenleft'] = 333;
t['parenright'] = 333;
t['asterisk'] = 500;
t['plus'] = 564;
t['comma'] = 250;
t['hyphen'] = 333;
t['period'] = 250;
t['slash'] = 278;
t['zero'] = 500;
t['one'] = 500;
t['two'] = 500;
t['three'] = 500;
t['four'] = 500;
t['five'] = 500;
t['six'] = 500;
t['seven'] = 500;
t['eight'] = 500;
t['nine'] = 500;
t['colon'] = 278;
t['semicolon'] = 278;
t['less'] = 564;
t['equal'] = 564;
t['greater'] = 564;
t['question'] = 444;
t['at'] = 921;
t['A'] = 722;
t['B'] = 667;
t['C'] = 667;
t['D'] = 722;
t['E'] = 611;
t['F'] = 556;
t['G'] = 722;
t['H'] = 722;
t['I'] = 333;
t['J'] = 389;
t['K'] = 722;
t['L'] = 611;
t['M'] = 889;
t['N'] = 722;
t['O'] = 722;
t['P'] = 556;
t['Q'] = 722;
t['R'] = 667;
t['S'] = 556;
t['T'] = 611;
t['U'] = 722;
t['V'] = 722;
t['W'] = 944;
t['X'] = 722;
t['Y'] = 722;
t['Z'] = 611;
t['bracketleft'] = 333;
t['backslash'] = 278;
t['bracketright'] = 333;
t['asciicircum'] = 469;
t['underscore'] = 500;
t['quoteleft'] = 333;
t['a'] = 444;
t['b'] = 500;
t['c'] = 444;
t['d'] = 500;
t['e'] = 444;
t['f'] = 333;
t['g'] = 500;
t['h'] = 500;
t['i'] = 278;
t['j'] = 278;
t['k'] = 500;
t['l'] = 278;
t['m'] = 778;
t['n'] = 500;
t['o'] = 500;
t['p'] = 500;
t['q'] = 500;
t['r'] = 333;
t['s'] = 389;
t['t'] = 278;
t['u'] = 500;
t['v'] = 500;
t['w'] = 722;
t['x'] = 500;
t['y'] = 500;
t['z'] = 444;
t['braceleft'] = 480;
t['bar'] = 200;
t['braceright'] = 480;
t['asciitilde'] = 541;
t['exclamdown'] = 333;
t['cent'] = 500;
t['sterling'] = 500;
t['fraction'] = 167;
t['yen'] = 500;
t['florin'] = 500;
t['section'] = 500;
t['currency'] = 500;
t['quotesingle'] = 180;
t['quotedblleft'] = 444;
t['guillemotleft'] = 500;
t['guilsinglleft'] = 333;
t['guilsinglright'] = 333;
t['fi'] = 556;
t['fl'] = 556;
t['endash'] = 500;
t['dagger'] = 500;
t['daggerdbl'] = 500;
t['periodcentered'] = 250;
t['paragraph'] = 453;
t['bullet'] = 350;
t['quotesinglbase'] = 333;
t['quotedblbase'] = 444;
t['quotedblright'] = 444;
t['guillemotright'] = 500;
t['ellipsis'] = 1000;
t['perthousand'] = 1000;
t['questiondown'] = 444;
t['grave'] = 333;
t['acute'] = 333;
t['circumflex'] = 333;
t['tilde'] = 333;
t['macron'] = 333;
t['breve'] = 333;
t['dotaccent'] = 333;
t['dieresis'] = 333;
t['ring'] = 333;
t['cedilla'] = 333;
t['hungarumlaut'] = 333;
t['ogonek'] = 333;
t['caron'] = 333;
t['emdash'] = 1000;
t['AE'] = 889;
t['ordfeminine'] = 276;
t['Lslash'] = 611;
t['Oslash'] = 722;
t['OE'] = 889;
t['ordmasculine'] = 310;
t['ae'] = 667;
t['dotlessi'] = 278;
t['lslash'] = 278;
t['oslash'] = 500;
t['oe'] = 722;
t['germandbls'] = 500;
t['Idieresis'] = 333;
t['eacute'] = 444;
t['abreve'] = 444;
t['uhungarumlaut'] = 500;
t['ecaron'] = 444;
t['Ydieresis'] = 722;
t['divide'] = 564;
t['Yacute'] = 722;
t['Acircumflex'] = 722;
t['aacute'] = 444;
t['Ucircumflex'] = 722;
t['yacute'] = 500;
t['scommaaccent'] = 389;
t['ecircumflex'] = 444;
t['Uring'] = 722;
t['Udieresis'] = 722;
t['aogonek'] = 444;
t['Uacute'] = 722;
t['uogonek'] = 500;
t['Edieresis'] = 611;
t['Dcroat'] = 722;
t['commaaccent'] = 250;
t['copyright'] = 760;
t['Emacron'] = 611;
t['ccaron'] = 444;
t['aring'] = 444;
t['Ncommaaccent'] = 722;
t['lacute'] = 278;
t['agrave'] = 444;
t['Tcommaaccent'] = 611;
t['Cacute'] = 667;
t['atilde'] = 444;
t['Edotaccent'] = 611;
t['scaron'] = 389;
t['scedilla'] = 389;
t['iacute'] = 278;
t['lozenge'] = 471;
t['Rcaron'] = 667;
t['Gcommaaccent'] = 722;
t['ucircumflex'] = 500;
t['acircumflex'] = 444;
t['Amacron'] = 722;
t['rcaron'] = 333;
t['ccedilla'] = 444;
t['Zdotaccent'] = 611;
t['Thorn'] = 556;
t['Omacron'] = 722;
t['Racute'] = 667;
t['Sacute'] = 556;
t['dcaron'] = 588;
t['Umacron'] = 722;
t['uring'] = 500;
t['threesuperior'] = 300;
t['Ograve'] = 722;
t['Agrave'] = 722;
t['Abreve'] = 722;
t['multiply'] = 564;
t['uacute'] = 500;
t['Tcaron'] = 611;
t['partialdiff'] = 476;
t['ydieresis'] = 500;
t['Nacute'] = 722;
t['icircumflex'] = 278;
t['Ecircumflex'] = 611;
t['adieresis'] = 444;
t['edieresis'] = 444;
t['cacute'] = 444;
t['nacute'] = 500;
t['umacron'] = 500;
t['Ncaron'] = 722;
t['Iacute'] = 333;
t['plusminus'] = 564;
t['brokenbar'] = 200;
t['registered'] = 760;
t['Gbreve'] = 722;
t['Idotaccent'] = 333;
t['summation'] = 600;
t['Egrave'] = 611;
t['racute'] = 333;
t['omacron'] = 500;
t['Zacute'] = 611;
t['Zcaron'] = 611;
t['greaterequal'] = 549;
t['Eth'] = 722;
t['Ccedilla'] = 667;
t['lcommaaccent'] = 278;
t['tcaron'] = 326;
t['eogonek'] = 444;
t['Uogonek'] = 722;
t['Aacute'] = 722;
t['Adieresis'] = 722;
t['egrave'] = 444;
t['zacute'] = 444;
t['iogonek'] = 278;
t['Oacute'] = 722;
t['oacute'] = 500;
t['amacron'] = 444;
t['sacute'] = 389;
t['idieresis'] = 278;
t['Ocircumflex'] = 722;
t['Ugrave'] = 722;
t['Delta'] = 612;
t['thorn'] = 500;
t['twosuperior'] = 300;
t['Odieresis'] = 722;
t['mu'] = 500;
t['igrave'] = 278;
t['ohungarumlaut'] = 500;
t['Eogonek'] = 611;
t['dcroat'] = 500;
t['threequarters'] = 750;
t['Scedilla'] = 556;
t['lcaron'] = 344;
t['Kcommaaccent'] = 722;
t['Lacute'] = 611;
t['trademark'] = 980;
t['edotaccent'] = 444;
t['Igrave'] = 333;
t['Imacron'] = 333;
t['Lcaron'] = 611;
t['onehalf'] = 750;
t['lessequal'] = 549;
t['ocircumflex'] = 500;
t['ntilde'] = 500;
t['Uhungarumlaut'] = 722;
t['Eacute'] = 611;
t['emacron'] = 444;
t['gbreve'] = 500;
t['onequarter'] = 750;
t['Scaron'] = 556;
t['Scommaaccent'] = 556;
t['Ohungarumlaut'] = 722;
t['degree'] = 400;
t['ograve'] = 500;
t['Ccaron'] = 667;
t['ugrave'] = 500;
t['radical'] = 453;
t['Dcaron'] = 722;
t['rcommaaccent'] = 333;
t['Ntilde'] = 722;
t['otilde'] = 500;
t['Rcommaaccent'] = 667;
t['Lcommaaccent'] = 611;
t['Atilde'] = 722;
t['Aogonek'] = 722;
t['Aring'] = 722;
t['Otilde'] = 722;
t['zdotaccent'] = 444;
t['Ecaron'] = 611;
t['Iogonek'] = 333;
t['kcommaaccent'] = 500;
t['minus'] = 564;
t['Icircumflex'] = 333;
t['ncaron'] = 500;
t['tcommaaccent'] = 278;
t['logicalnot'] = 564;
t['odieresis'] = 500;
t['udieresis'] = 500;
t['notequal'] = 549;
t['gcommaaccent'] = 500;
t['eth'] = 500;
t['zcaron'] = 444;
t['ncommaaccent'] = 500;
t['onesuperior'] = 300;
t['imacron'] = 278;
t['Euro'] = 500;
});
t['Times-Bold'] = getLookupTableFactory(function (t) {
t['space'] = 250;
t['exclam'] = 333;
t['quotedbl'] = 555;
t['numbersign'] = 500;
t['dollar'] = 500;
t['percent'] = 1000;
t['ampersand'] = 833;
t['quoteright'] = 333;
t['parenleft'] = 333;
t['parenright'] = 333;
t['asterisk'] = 500;
t['plus'] = 570;
t['comma'] = 250;
t['hyphen'] = 333;
t['period'] = 250;
t['slash'] = 278;
t['zero'] = 500;
t['one'] = 500;
t['two'] = 500;
t['three'] = 500;
t['four'] = 500;
t['five'] = 500;
t['six'] = 500;
t['seven'] = 500;
t['eight'] = 500;
t['nine'] = 500;
t['colon'] = 333;
t['semicolon'] = 333;
t['less'] = 570;
t['equal'] = 570;
t['greater'] = 570;
t['question'] = 500;
t['at'] = 930;
t['A'] = 722;
t['B'] = 667;
t['C'] = 722;
t['D'] = 722;
t['E'] = 667;
t['F'] = 611;
t['G'] = 778;
t['H'] = 778;
t['I'] = 389;
t['J'] = 500;
t['K'] = 778;
t['L'] = 667;
t['M'] = 944;
t['N'] = 722;
t['O'] = 778;
t['P'] = 611;
t['Q'] = 778;
t['R'] = 722;
t['S'] = 556;
t['T'] = 667;
t['U'] = 722;
t['V'] = 722;
t['W'] = 1000;
t['X'] = 722;
t['Y'] = 722;
t['Z'] = 667;
t['bracketleft'] = 333;
t['backslash'] = 278;
t['bracketright'] = 333;
t['asciicircum'] = 581;
t['underscore'] = 500;
t['quoteleft'] = 333;
t['a'] = 500;
t['b'] = 556;
t['c'] = 444;
t['d'] = 556;
t['e'] = 444;
t['f'] = 333;
t['g'] = 500;
t['h'] = 556;
t['i'] = 278;
t['j'] = 333;
t['k'] = 556;
t['l'] = 278;
t['m'] = 833;
t['n'] = 556;
t['o'] = 500;
t['p'] = 556;
t['q'] = 556;
t['r'] = 444;
t['s'] = 389;
t['t'] = 333;
t['u'] = 556;
t['v'] = 500;
t['w'] = 722;
t['x'] = 500;
t['y'] = 500;
t['z'] = 444;
t['braceleft'] = 394;
t['bar'] = 220;
t['braceright'] = 394;
t['asciitilde'] = 520;
t['exclamdown'] = 333;
t['cent'] = 500;
t['sterling'] = 500;
t['fraction'] = 167;
t['yen'] = 500;
t['florin'] = 500;
t['section'] = 500;
t['currency'] = 500;
t['quotesingle'] = 278;
t['quotedblleft'] = 500;
t['guillemotleft'] = 500;
t['guilsinglleft'] = 333;
t['guilsinglright'] = 333;
t['fi'] = 556;
t['fl'] = 556;
t['endash'] = 500;
t['dagger'] = 500;
t['daggerdbl'] = 500;
t['periodcentered'] = 250;
t['paragraph'] = 540;
t['bullet'] = 350;
t['quotesinglbase'] = 333;
t['quotedblbase'] = 500;
t['quotedblright'] = 500;
t['guillemotright'] = 500;
t['ellipsis'] = 1000;
t['perthousand'] = 1000;
t['questiondown'] = 500;
t['grave'] = 333;
t['acute'] = 333;
t['circumflex'] = 333;
t['tilde'] = 333;
t['macron'] = 333;
t['breve'] = 333;
t['dotaccent'] = 333;
t['dieresis'] = 333;
t['ring'] = 333;
t['cedilla'] = 333;
t['hungarumlaut'] = 333;
t['ogonek'] = 333;
t['caron'] = 333;
t['emdash'] = 1000;
t['AE'] = 1000;
t['ordfeminine'] = 300;
t['Lslash'] = 667;
t['Oslash'] = 778;
t['OE'] = 1000;
t['ordmasculine'] = 330;
t['ae'] = 722;
t['dotlessi'] = 278;
t['lslash'] = 278;
t['oslash'] = 500;
t['oe'] = 722;
t['germandbls'] = 556;
t['Idieresis'] = 389;
t['eacute'] = 444;
t['abreve'] = 500;
t['uhungarumlaut'] = 556;
t['ecaron'] = 444;
t['Ydieresis'] = 722;
t['divide'] = 570;
t['Yacute'] = 722;
t['Acircumflex'] = 722;
t['aacute'] = 500;
t['Ucircumflex'] = 722;
t['yacute'] = 500;
t['scommaaccent'] = 389;
t['ecircumflex'] = 444;
t['Uring'] = 722;
t['Udieresis'] = 722;
t['aogonek'] = 500;
t['Uacute'] = 722;
t['uogonek'] = 556;
t['Edieresis'] = 667;
t['Dcroat'] = 722;
t['commaaccent'] = 250;
t['copyright'] = 747;
t['Emacron'] = 667;
t['ccaron'] = 444;
t['aring'] = 500;
t['Ncommaaccent'] = 722;
t['lacute'] = 278;
t['agrave'] = 500;
t['Tcommaaccent'] = 667;
t['Cacute'] = 722;
t['atilde'] = 500;
t['Edotaccent'] = 667;
t['scaron'] = 389;
t['scedilla'] = 389;
t['iacute'] = 278;
t['lozenge'] = 494;
t['Rcaron'] = 722;
t['Gcommaaccent'] = 778;
t['ucircumflex'] = 556;
t['acircumflex'] = 500;
t['Amacron'] = 722;
t['rcaron'] = 444;
t['ccedilla'] = 444;
t['Zdotaccent'] = 667;
t['Thorn'] = 611;
t['Omacron'] = 778;
t['Racute'] = 722;
t['Sacute'] = 556;
t['dcaron'] = 672;
t['Umacron'] = 722;
t['uring'] = 556;
t['threesuperior'] = 300;
t['Ograve'] = 778;
t['Agrave'] = 722;
t['Abreve'] = 722;
t['multiply'] = 570;
t['uacute'] = 556;
t['Tcaron'] = 667;
t['partialdiff'] = 494;
t['ydieresis'] = 500;
t['Nacute'] = 722;
t['icircumflex'] = 278;
t['Ecircumflex'] = 667;
t['adieresis'] = 500;
t['edieresis'] = 444;
t['cacute'] = 444;
t['nacute'] = 556;
t['umacron'] = 556;
t['Ncaron'] = 722;
t['Iacute'] = 389;
t['plusminus'] = 570;
t['brokenbar'] = 220;
t['registered'] = 747;
t['Gbreve'] = 778;
t['Idotaccent'] = 389;
t['summation'] = 600;
t['Egrave'] = 667;
t['racute'] = 444;
t['omacron'] = 500;
t['Zacute'] = 667;
t['Zcaron'] = 667;
t['greaterequal'] = 549;
t['Eth'] = 722;
t['Ccedilla'] = 722;
t['lcommaaccent'] = 278;
t['tcaron'] = 416;
t['eogonek'] = 444;
t['Uogonek'] = 722;
t['Aacute'] = 722;
t['Adieresis'] = 722;
t['egrave'] = 444;
t['zacute'] = 444;
t['iogonek'] = 278;
t['Oacute'] = 778;
t['oacute'] = 500;
t['amacron'] = 500;
t['sacute'] = 389;
t['idieresis'] = 278;
t['Ocircumflex'] = 778;
t['Ugrave'] = 722;
t['Delta'] = 612;
t['thorn'] = 556;
t['twosuperior'] = 300;
t['Odieresis'] = 778;
t['mu'] = 556;
t['igrave'] = 278;
t['ohungarumlaut'] = 500;
t['Eogonek'] = 667;
t['dcroat'] = 556;
t['threequarters'] = 750;
t['Scedilla'] = 556;
t['lcaron'] = 394;
t['Kcommaaccent'] = 778;
t['Lacute'] = 667;
t['trademark'] = 1000;
t['edotaccent'] = 444;
t['Igrave'] = 389;
t['Imacron'] = 389;
t['Lcaron'] = 667;
t['onehalf'] = 750;
t['lessequal'] = 549;
t['ocircumflex'] = 500;
t['ntilde'] = 556;
t['Uhungarumlaut'] = 722;
t['Eacute'] = 667;
t['emacron'] = 444;
t['gbreve'] = 500;
t['onequarter'] = 750;
t['Scaron'] = 556;
t['Scommaaccent'] = 556;
t['Ohungarumlaut'] = 778;
t['degree'] = 400;
t['ograve'] = 500;
t['Ccaron'] = 722;
t['ugrave'] = 556;
t['radical'] = 549;
t['Dcaron'] = 722;
t['rcommaaccent'] = 444;
t['Ntilde'] = 722;
t['otilde'] = 500;
t['Rcommaaccent'] = 722;
t['Lcommaaccent'] = 667;
t['Atilde'] = 722;
t['Aogonek'] = 722;
t['Aring'] = 722;
t['Otilde'] = 778;
t['zdotaccent'] = 444;
t['Ecaron'] = 667;
t['Iogonek'] = 389;
t['kcommaaccent'] = 556;
t['minus'] = 570;
t['Icircumflex'] = 389;
t['ncaron'] = 556;
t['tcommaaccent'] = 333;
t['logicalnot'] = 570;
t['odieresis'] = 500;
t['udieresis'] = 556;
t['notequal'] = 549;
t['gcommaaccent'] = 500;
t['eth'] = 500;
t['zcaron'] = 444;
t['ncommaaccent'] = 556;
t['onesuperior'] = 300;
t['imacron'] = 278;
t['Euro'] = 500;
});
t['Times-BoldItalic'] = getLookupTableFactory(function (t) {
t['space'] = 250;
t['exclam'] = 389;
t['quotedbl'] = 555;
t['numbersign'] = 500;
t['dollar'] = 500;
t['percent'] = 833;
t['ampersand'] = 778;
t['quoteright'] = 333;
t['parenleft'] = 333;
t['parenright'] = 333;
t['asterisk'] = 500;
t['plus'] = 570;
t['comma'] = 250;
t['hyphen'] = 333;
t['period'] = 250;
t['slash'] = 278;
t['zero'] = 500;
t['one'] = 500;
t['two'] = 500;
t['three'] = 500;
t['four'] = 500;
t['five'] = 500;
t['six'] = 500;
t['seven'] = 500;
t['eight'] = 500;
t['nine'] = 500;
t['colon'] = 333;
t['semicolon'] = 333;
t['less'] = 570;
t['equal'] = 570;
t['greater'] = 570;
t['question'] = 500;
t['at'] = 832;
t['A'] = 667;
t['B'] = 667;
t['C'] = 667;
t['D'] = 722;
t['E'] = 667;
t['F'] = 667;
t['G'] = 722;
t['H'] = 778;
t['I'] = 389;
t['J'] = 500;
t['K'] = 667;
t['L'] = 611;
t['M'] = 889;
t['N'] = 722;
t['O'] = 722;
t['P'] = 611;
t['Q'] = 722;
t['R'] = 667;
t['S'] = 556;
t['T'] = 611;
t['U'] = 722;
t['V'] = 667;
t['W'] = 889;
t['X'] = 667;
t['Y'] = 611;
t['Z'] = 611;
t['bracketleft'] = 333;
t['backslash'] = 278;
t['bracketright'] = 333;
t['asciicircum'] = 570;
t['underscore'] = 500;
t['quoteleft'] = 333;
t['a'] = 500;
t['b'] = 500;
t['c'] = 444;
t['d'] = 500;
t['e'] = 444;
t['f'] = 333;
t['g'] = 500;
t['h'] = 556;
t['i'] = 278;
t['j'] = 278;
t['k'] = 500;
t['l'] = 278;
t['m'] = 778;
t['n'] = 556;
t['o'] = 500;
t['p'] = 500;
t['q'] = 500;
t['r'] = 389;
t['s'] = 389;
t['t'] = 278;
t['u'] = 556;
t['v'] = 444;
t['w'] = 667;
t['x'] = 500;
t['y'] = 444;
t['z'] = 389;
t['braceleft'] = 348;
t['bar'] = 220;
t['braceright'] = 348;
t['asciitilde'] = 570;
t['exclamdown'] = 389;
t['cent'] = 500;
t['sterling'] = 500;
t['fraction'] = 167;
t['yen'] = 500;
t['florin'] = 500;
t['section'] = 500;
t['currency'] = 500;
t['quotesingle'] = 278;
t['quotedblleft'] = 500;
t['guillemotleft'] = 500;
t['guilsinglleft'] = 333;
t['guilsinglright'] = 333;
t['fi'] = 556;
t['fl'] = 556;
t['endash'] = 500;
t['dagger'] = 500;
t['daggerdbl'] = 500;
t['periodcentered'] = 250;
t['paragraph'] = 500;
t['bullet'] = 350;
t['quotesinglbase'] = 333;
t['quotedblbase'] = 500;
t['quotedblright'] = 500;
t['guillemotright'] = 500;
t['ellipsis'] = 1000;
t['perthousand'] = 1000;
t['questiondown'] = 500;
t['grave'] = 333;
t['acute'] = 333;
t['circumflex'] = 333;
t['tilde'] = 333;
t['macron'] = 333;
t['breve'] = 333;
t['dotaccent'] = 333;
t['dieresis'] = 333;
t['ring'] = 333;
t['cedilla'] = 333;
t['hungarumlaut'] = 333;
t['ogonek'] = 333;
t['caron'] = 333;
t['emdash'] = 1000;
t['AE'] = 944;
t['ordfeminine'] = 266;
t['Lslash'] = 611;
t['Oslash'] = 722;
t['OE'] = 944;
t['ordmasculine'] = 300;
t['ae'] = 722;
t['dotlessi'] = 278;
t['lslash'] = 278;
t['oslash'] = 500;
t['oe'] = 722;
t['germandbls'] = 500;
t['Idieresis'] = 389;
t['eacute'] = 444;
t['abreve'] = 500;
t['uhungarumlaut'] = 556;
t['ecaron'] = 444;
t['Ydieresis'] = 611;
t['divide'] = 570;
t['Yacute'] = 611;
t['Acircumflex'] = 667;
t['aacute'] = 500;
t['Ucircumflex'] = 722;
t['yacute'] = 444;
t['scommaaccent'] = 389;
t['ecircumflex'] = 444;
t['Uring'] = 722;
t['Udieresis'] = 722;
t['aogonek'] = 500;
t['Uacute'] = 722;
t['uogonek'] = 556;
t['Edieresis'] = 667;
t['Dcroat'] = 722;
t['commaaccent'] = 250;
t['copyright'] = 747;
t['Emacron'] = 667;
t['ccaron'] = 444;
t['aring'] = 500;
t['Ncommaaccent'] = 722;
t['lacute'] = 278;
t['agrave'] = 500;
t['Tcommaaccent'] = 611;
t['Cacute'] = 667;
t['atilde'] = 500;
t['Edotaccent'] = 667;
t['scaron'] = 389;
t['scedilla'] = 389;
t['iacute'] = 278;
t['lozenge'] = 494;
t['Rcaron'] = 667;
t['Gcommaaccent'] = 722;
t['ucircumflex'] = 556;
t['acircumflex'] = 500;
t['Amacron'] = 667;
t['rcaron'] = 389;
t['ccedilla'] = 444;
t['Zdotaccent'] = 611;
t['Thorn'] = 611;
t['Omacron'] = 722;
t['Racute'] = 667;
t['Sacute'] = 556;
t['dcaron'] = 608;
t['Umacron'] = 722;
t['uring'] = 556;
t['threesuperior'] = 300;
t['Ograve'] = 722;
t['Agrave'] = 667;
t['Abreve'] = 667;
t['multiply'] = 570;
t['uacute'] = 556;
t['Tcaron'] = 611;
t['partialdiff'] = 494;
t['ydieresis'] = 444;
t['Nacute'] = 722;
t['icircumflex'] = 278;
t['Ecircumflex'] = 667;
t['adieresis'] = 500;
t['edieresis'] = 444;
t['cacute'] = 444;
t['nacute'] = 556;
t['umacron'] = 556;
t['Ncaron'] = 722;
t['Iacute'] = 389;
t['plusminus'] = 570;
t['brokenbar'] = 220;
t['registered'] = 747;
t['Gbreve'] = 722;
t['Idotaccent'] = 389;
t['summation'] = 600;
t['Egrave'] = 667;
t['racute'] = 389;
t['omacron'] = 500;
t['Zacute'] = 611;
t['Zcaron'] = 611;
t['greaterequal'] = 549;
t['Eth'] = 722;
t['Ccedilla'] = 667;
t['lcommaaccent'] = 278;
t['tcaron'] = 366;
t['eogonek'] = 444;
t['Uogonek'] = 722;
t['Aacute'] = 667;
t['Adieresis'] = 667;
t['egrave'] = 444;
t['zacute'] = 389;
t['iogonek'] = 278;
t['Oacute'] = 722;
t['oacute'] = 500;
t['amacron'] = 500;
t['sacute'] = 389;
t['idieresis'] = 278;
t['Ocircumflex'] = 722;
t['Ugrave'] = 722;
t['Delta'] = 612;
t['thorn'] = 500;
t['twosuperior'] = 300;
t['Odieresis'] = 722;
t['mu'] = 576;
t['igrave'] = 278;
t['ohungarumlaut'] = 500;
t['Eogonek'] = 667;
t['dcroat'] = 500;
t['threequarters'] = 750;
t['Scedilla'] = 556;
t['lcaron'] = 382;
t['Kcommaaccent'] = 667;
t['Lacute'] = 611;
t['trademark'] = 1000;
t['edotaccent'] = 444;
t['Igrave'] = 389;
t['Imacron'] = 389;
t['Lcaron'] = 611;
t['onehalf'] = 750;
t['lessequal'] = 549;
t['ocircumflex'] = 500;
t['ntilde'] = 556;
t['Uhungarumlaut'] = 722;
t['Eacute'] = 667;
t['emacron'] = 444;
t['gbreve'] = 500;
t['onequarter'] = 750;
t['Scaron'] = 556;
t['Scommaaccent'] = 556;
t['Ohungarumlaut'] = 722;
t['degree'] = 400;
t['ograve'] = 500;
t['Ccaron'] = 667;
t['ugrave'] = 556;
t['radical'] = 549;
t['Dcaron'] = 722;
t['rcommaaccent'] = 389;
t['Ntilde'] = 722;
t['otilde'] = 500;
t['Rcommaaccent'] = 667;
t['Lcommaaccent'] = 611;
t['Atilde'] = 667;
t['Aogonek'] = 667;
t['Aring'] = 667;
t['Otilde'] = 722;
t['zdotaccent'] = 389;
t['Ecaron'] = 667;
t['Iogonek'] = 389;
t['kcommaaccent'] = 500;
t['minus'] = 606;
t['Icircumflex'] = 389;
t['ncaron'] = 556;
t['tcommaaccent'] = 278;
t['logicalnot'] = 606;
t['odieresis'] = 500;
t['udieresis'] = 556;
t['notequal'] = 549;
t['gcommaaccent'] = 500;
t['eth'] = 500;
t['zcaron'] = 389;
t['ncommaaccent'] = 556;
t['onesuperior'] = 300;
t['imacron'] = 278;
t['Euro'] = 500;
});
t['Times-Italic'] = getLookupTableFactory(function (t) {
t['space'] = 250;
t['exclam'] = 333;
t['quotedbl'] = 420;
t['numbersign'] = 500;
t['dollar'] = 500;
t['percent'] = 833;
t['ampersand'] = 778;
t['quoteright'] = 333;
t['parenleft'] = 333;
t['parenright'] = 333;
t['asterisk'] = 500;
t['plus'] = 675;
t['comma'] = 250;
t['hyphen'] = 333;
t['period'] = 250;
t['slash'] = 278;
t['zero'] = 500;
t['one'] = 500;
t['two'] = 500;
t['three'] = 500;
t['four'] = 500;
t['five'] = 500;
t['six'] = 500;
t['seven'] = 500;
t['eight'] = 500;
t['nine'] = 500;
t['colon'] = 333;
t['semicolon'] = 333;
t['less'] = 675;
t['equal'] = 675;
t['greater'] = 675;
t['question'] = 500;
t['at'] = 920;
t['A'] = 611;
t['B'] = 611;
t['C'] = 667;
t['D'] = 722;
t['E'] = 611;
t['F'] = 611;
t['G'] = 722;
t['H'] = 722;
t['I'] = 333;
t['J'] = 444;
t['K'] = 667;
t['L'] = 556;
t['M'] = 833;
t['N'] = 667;
t['O'] = 722;
t['P'] = 611;
t['Q'] = 722;
t['R'] = 611;
t['S'] = 500;
t['T'] = 556;
t['U'] = 722;
t['V'] = 611;
t['W'] = 833;
t['X'] = 611;
t['Y'] = 556;
t['Z'] = 556;
t['bracketleft'] = 389;
t['backslash'] = 278;
t['bracketright'] = 389;
t['asciicircum'] = 422;
t['underscore'] = 500;
t['quoteleft'] = 333;
t['a'] = 500;
t['b'] = 500;
t['c'] = 444;
t['d'] = 500;
t['e'] = 444;
t['f'] = 278;
t['g'] = 500;
t['h'] = 500;
t['i'] = 278;
t['j'] = 278;
t['k'] = 444;
t['l'] = 278;
t['m'] = 722;
t['n'] = 500;
t['o'] = 500;
t['p'] = 500;
t['q'] = 500;
t['r'] = 389;
t['s'] = 389;
t['t'] = 278;
t['u'] = 500;
t['v'] = 444;
t['w'] = 667;
t['x'] = 444;
t['y'] = 444;
t['z'] = 389;
t['braceleft'] = 400;
t['bar'] = 275;
t['braceright'] = 400;
t['asciitilde'] = 541;
t['exclamdown'] = 389;
t['cent'] = 500;
t['sterling'] = 500;
t['fraction'] = 167;
t['yen'] = 500;
t['florin'] = 500;
t['section'] = 500;
t['currency'] = 500;
t['quotesingle'] = 214;
t['quotedblleft'] = 556;
t['guillemotleft'] = 500;
t['guilsinglleft'] = 333;
t['guilsinglright'] = 333;
t['fi'] = 500;
t['fl'] = 500;
t['endash'] = 500;
t['dagger'] = 500;
t['daggerdbl'] = 500;
t['periodcentered'] = 250;
t['paragraph'] = 523;
t['bullet'] = 350;
t['quotesinglbase'] = 333;
t['quotedblbase'] = 556;
t['quotedblright'] = 556;
t['guillemotright'] = 500;
t['ellipsis'] = 889;
t['perthousand'] = 1000;
t['questiondown'] = 500;
t['grave'] = 333;
t['acute'] = 333;
t['circumflex'] = 333;
t['tilde'] = 333;
t['macron'] = 333;
t['breve'] = 333;
t['dotaccent'] = 333;
t['dieresis'] = 333;
t['ring'] = 333;
t['cedilla'] = 333;
t['hungarumlaut'] = 333;
t['ogonek'] = 333;
t['caron'] = 333;
t['emdash'] = 889;
t['AE'] = 889;
t['ordfeminine'] = 276;
t['Lslash'] = 556;
t['Oslash'] = 722;
t['OE'] = 944;
t['ordmasculine'] = 310;
t['ae'] = 667;
t['dotlessi'] = 278;
t['lslash'] = 278;
t['oslash'] = 500;
t['oe'] = 667;
t['germandbls'] = 500;
t['Idieresis'] = 333;
t['eacute'] = 444;
t['abreve'] = 500;
t['uhungarumlaut'] = 500;
t['ecaron'] = 444;
t['Ydieresis'] = 556;
t['divide'] = 675;
t['Yacute'] = 556;
t['Acircumflex'] = 611;
t['aacute'] = 500;
t['Ucircumflex'] = 722;
t['yacute'] = 444;
t['scommaaccent'] = 389;
t['ecircumflex'] = 444;
t['Uring'] = 722;
t['Udieresis'] = 722;
t['aogonek'] = 500;
t['Uacute'] = 722;
t['uogonek'] = 500;
t['Edieresis'] = 611;
t['Dcroat'] = 722;
t['commaaccent'] = 250;
t['copyright'] = 760;
t['Emacron'] = 611;
t['ccaron'] = 444;
t['aring'] = 500;
t['Ncommaaccent'] = 667;
t['lacute'] = 278;
t['agrave'] = 500;
t['Tcommaaccent'] = 556;
t['Cacute'] = 667;
t['atilde'] = 500;
t['Edotaccent'] = 611;
t['scaron'] = 389;
t['scedilla'] = 389;
t['iacute'] = 278;
t['lozenge'] = 471;
t['Rcaron'] = 611;
t['Gcommaaccent'] = 722;
t['ucircumflex'] = 500;
t['acircumflex'] = 500;
t['Amacron'] = 611;
t['rcaron'] = 389;
t['ccedilla'] = 444;
t['Zdotaccent'] = 556;
t['Thorn'] = 611;
t['Omacron'] = 722;
t['Racute'] = 611;
t['Sacute'] = 500;
t['dcaron'] = 544;
t['Umacron'] = 722;
t['uring'] = 500;
t['threesuperior'] = 300;
t['Ograve'] = 722;
t['Agrave'] = 611;
t['Abreve'] = 611;
t['multiply'] = 675;
t['uacute'] = 500;
t['Tcaron'] = 556;
t['partialdiff'] = 476;
t['ydieresis'] = 444;
t['Nacute'] = 667;
t['icircumflex'] = 278;
t['Ecircumflex'] = 611;
t['adieresis'] = 500;
t['edieresis'] = 444;
t['cacute'] = 444;
t['nacute'] = 500;
t['umacron'] = 500;
t['Ncaron'] = 667;
t['Iacute'] = 333;
t['plusminus'] = 675;
t['brokenbar'] = 275;
t['registered'] = 760;
t['Gbreve'] = 722;
t['Idotaccent'] = 333;
t['summation'] = 600;
t['Egrave'] = 611;
t['racute'] = 389;
t['omacron'] = 500;
t['Zacute'] = 556;
t['Zcaron'] = 556;
t['greaterequal'] = 549;
t['Eth'] = 722;
t['Ccedilla'] = 667;
t['lcommaaccent'] = 278;
t['tcaron'] = 300;
t['eogonek'] = 444;
t['Uogonek'] = 722;
t['Aacute'] = 611;
t['Adieresis'] = 611;
t['egrave'] = 444;
t['zacute'] = 389;
t['iogonek'] = 278;
t['Oacute'] = 722;
t['oacute'] = 500;
t['amacron'] = 500;
t['sacute'] = 389;
t['idieresis'] = 278;
t['Ocircumflex'] = 722;
t['Ugrave'] = 722;
t['Delta'] = 612;
t['thorn'] = 500;
t['twosuperior'] = 300;
t['Odieresis'] = 722;
t['mu'] = 500;
t['igrave'] = 278;
t['ohungarumlaut'] = 500;
t['Eogonek'] = 611;
t['dcroat'] = 500;
t['threequarters'] = 750;
t['Scedilla'] = 500;
t['lcaron'] = 300;
t['Kcommaaccent'] = 667;
t['Lacute'] = 556;
t['trademark'] = 980;
t['edotaccent'] = 444;
t['Igrave'] = 333;
t['Imacron'] = 333;
t['Lcaron'] = 611;
t['onehalf'] = 750;
t['lessequal'] = 549;
t['ocircumflex'] = 500;
t['ntilde'] = 500;
t['Uhungarumlaut'] = 722;
t['Eacute'] = 611;
t['emacron'] = 444;
t['gbreve'] = 500;
t['onequarter'] = 750;
t['Scaron'] = 500;
t['Scommaaccent'] = 500;
t['Ohungarumlaut'] = 722;
t['degree'] = 400;
t['ograve'] = 500;
t['Ccaron'] = 667;
t['ugrave'] = 500;
t['radical'] = 453;
t['Dcaron'] = 722;
t['rcommaaccent'] = 389;
t['Ntilde'] = 667;
t['otilde'] = 500;
t['Rcommaaccent'] = 611;
t['Lcommaaccent'] = 556;
t['Atilde'] = 611;
t['Aogonek'] = 611;
t['Aring'] = 611;
t['Otilde'] = 722;
t['zdotaccent'] = 389;
t['Ecaron'] = 611;
t['Iogonek'] = 333;
t['kcommaaccent'] = 444;
t['minus'] = 675;
t['Icircumflex'] = 333;
t['ncaron'] = 500;
t['tcommaaccent'] = 278;
t['logicalnot'] = 675;
t['odieresis'] = 500;
t['udieresis'] = 500;
t['notequal'] = 549;
t['gcommaaccent'] = 500;
t['eth'] = 500;
t['zcaron'] = 389;
t['ncommaaccent'] = 500;
t['onesuperior'] = 300;
t['imacron'] = 278;
t['Euro'] = 500;
});
t['ZapfDingbats'] = getLookupTableFactory(function (t) {
t['space'] = 278;
t['a1'] = 974;
t['a2'] = 961;
t['a202'] = 974;
t['a3'] = 980;
t['a4'] = 719;
t['a5'] = 789;
t['a119'] = 790;
t['a118'] = 791;
t['a117'] = 690;
t['a11'] = 960;
t['a12'] = 939;
t['a13'] = 549;
t['a14'] = 855;
t['a15'] = 911;
t['a16'] = 933;
t['a105'] = 911;
t['a17'] = 945;
t['a18'] = 974;
t['a19'] = 755;
t['a20'] = 846;
t['a21'] = 762;
t['a22'] = 761;
t['a23'] = 571;
t['a24'] = 677;
t['a25'] = 763;
t['a26'] = 760;
t['a27'] = 759;
t['a28'] = 754;
t['a6'] = 494;
t['a7'] = 552;
t['a8'] = 537;
t['a9'] = 577;
t['a10'] = 692;
t['a29'] = 786;
t['a30'] = 788;
t['a31'] = 788;
t['a32'] = 790;
t['a33'] = 793;
t['a34'] = 794;
t['a35'] = 816;
t['a36'] = 823;
t['a37'] = 789;
t['a38'] = 841;
t['a39'] = 823;
t['a40'] = 833;
t['a41'] = 816;
t['a42'] = 831;
t['a43'] = 923;
t['a44'] = 744;
t['a45'] = 723;
t['a46'] = 749;
t['a47'] = 790;
t['a48'] = 792;
t['a49'] = 695;
t['a50'] = 776;
t['a51'] = 768;
t['a52'] = 792;
t['a53'] = 759;
t['a54'] = 707;
t['a55'] = 708;
t['a56'] = 682;
t['a57'] = 701;
t['a58'] = 826;
t['a59'] = 815;
t['a60'] = 789;
t['a61'] = 789;
t['a62'] = 707;
t['a63'] = 687;
t['a64'] = 696;
t['a65'] = 689;
t['a66'] = 786;
t['a67'] = 787;
t['a68'] = 713;
t['a69'] = 791;
t['a70'] = 785;
t['a71'] = 791;
t['a72'] = 873;
t['a73'] = 761;
t['a74'] = 762;
t['a203'] = 762;
t['a75'] = 759;
t['a204'] = 759;
t['a76'] = 892;
t['a77'] = 892;
t['a78'] = 788;
t['a79'] = 784;
t['a81'] = 438;
t['a82'] = 138;
t['a83'] = 277;
t['a84'] = 415;
t['a97'] = 392;
t['a98'] = 392;
t['a99'] = 668;
t['a100'] = 668;
t['a89'] = 390;
t['a90'] = 390;
t['a93'] = 317;
t['a94'] = 317;
t['a91'] = 276;
t['a92'] = 276;
t['a205'] = 509;
t['a85'] = 509;
t['a206'] = 410;
t['a86'] = 410;
t['a87'] = 234;
t['a88'] = 234;
t['a95'] = 334;
t['a96'] = 334;
t['a101'] = 732;
t['a102'] = 544;
t['a103'] = 544;
t['a104'] = 910;
t['a106'] = 667;
t['a107'] = 760;
t['a108'] = 760;
t['a112'] = 776;
t['a111'] = 595;
t['a110'] = 694;
t['a109'] = 626;
t['a120'] = 788;
t['a121'] = 788;
t['a122'] = 788;
t['a123'] = 788;
t['a124'] = 788;
t['a125'] = 788;
t['a126'] = 788;
t['a127'] = 788;
t['a128'] = 788;
t['a129'] = 788;
t['a130'] = 788;
t['a131'] = 788;
t['a132'] = 788;
t['a133'] = 788;
t['a134'] = 788;
t['a135'] = 788;
t['a136'] = 788;
t['a137'] = 788;
t['a138'] = 788;
t['a139'] = 788;
t['a140'] = 788;
t['a141'] = 788;
t['a142'] = 788;
t['a143'] = 788;
t['a144'] = 788;
t['a145'] = 788;
t['a146'] = 788;
t['a147'] = 788;
t['a148'] = 788;
t['a149'] = 788;
t['a150'] = 788;
t['a151'] = 788;
t['a152'] = 788;
t['a153'] = 788;
t['a154'] = 788;
t['a155'] = 788;
t['a156'] = 788;
t['a157'] = 788;
t['a158'] = 788;
t['a159'] = 788;
t['a160'] = 894;
t['a161'] = 838;
t['a163'] = 1016;
t['a164'] = 458;
t['a196'] = 748;
t['a165'] = 924;
t['a192'] = 748;
t['a166'] = 918;
t['a167'] = 927;
t['a168'] = 928;
t['a169'] = 928;
t['a170'] = 834;
t['a171'] = 873;
t['a172'] = 828;
t['a173'] = 924;
t['a162'] = 924;
t['a174'] = 917;
t['a175'] = 930;
t['a176'] = 931;
t['a177'] = 463;
t['a178'] = 883;
t['a179'] = 836;
t['a193'] = 836;
t['a180'] = 867;
t['a199'] = 867;
t['a181'] = 696;
t['a200'] = 696;
t['a182'] = 874;
t['a201'] = 874;
t['a183'] = 760;
t['a184'] = 946;
t['a197'] = 771;
t['a185'] = 865;
t['a194'] = 771;
t['a198'] = 888;
t['a186'] = 967;
t['a195'] = 888;
t['a187'] = 831;
t['a188'] = 873;
t['a189'] = 927;
t['a190'] = 970;
t['a191'] = 918;
});
});
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exports.getMetrics = getMetrics;
}));
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(function (root, factory) {
{
factory((root.pdfjsCoreMurmurHash3 = {}), root.pdfjsSharedUtil);
}
}(this, function (exports, sharedUtil) {
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var Uint32ArrayView = sharedUtil.Uint32ArrayView;
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var MurmurHash3_64 = (function MurmurHash3_64Closure (seed) {
// Workaround for missing math precison in JS.
var MASK_HIGH = 0xffff0000;
var MASK_LOW = 0xffff;
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function MurmurHash3_64 (seed) {
var SEED = 0xc3d2e1f0;
this.h1 = seed ? seed & 0xffffffff : SEED;
this.h2 = seed ? seed & 0xffffffff : SEED;
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}
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var alwaysUseUint32ArrayView = false;
// old webkits have issues with non-aligned arrays
try {
new Uint32Array(new Uint8Array(5).buffer, 0, 1);
} catch (e) {
alwaysUseUint32ArrayView = true;
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}
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MurmurHash3_64.prototype = {
update: function MurmurHash3_64_update(input) {
var useUint32ArrayView = alwaysUseUint32ArrayView;
var i;
if (typeof input === 'string') {
var data = new Uint8Array(input.length * 2);
var length = 0;
for (i = 0; i < input.length; i++) {
var code = input.charCodeAt(i);
if (code <= 0xff) {
data[length++] = code;
}
else {
data[length++] = code >>> 8;
data[length++] = code & 0xff;
}
}
} else if (input instanceof Uint8Array) {
data = input;
length = data.length;
} else if (typeof input === 'object' && ('length' in input)) {
// processing regular arrays as well, e.g. for IE9
data = input;
length = data.length;
useUint32ArrayView = true;
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} else {
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throw new Error('Wrong data format in MurmurHash3_64_update. ' +
'Input must be a string or array.');
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}
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var blockCounts = length >> 2;
var tailLength = length - blockCounts * 4;
// we don't care about endianness here
var dataUint32 = useUint32ArrayView ?
new Uint32ArrayView(data, blockCounts) :
new Uint32Array(data.buffer, 0, blockCounts);
var k1 = 0;
var k2 = 0;
var h1 = this.h1;
var h2 = this.h2;
var C1 = 0xcc9e2d51;
var C2 = 0x1b873593;
var C1_LOW = C1 & MASK_LOW;
var C2_LOW = C2 & MASK_LOW;
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for (i = 0; i < blockCounts; i++) {
if (i & 1) {
k1 = dataUint32[i];
k1 = (k1 * C1 & MASK_HIGH) | (k1 * C1_LOW & MASK_LOW);
k1 = k1 << 15 | k1 >>> 17;
k1 = (k1 * C2 & MASK_HIGH) | (k1 * C2_LOW & MASK_LOW);
h1 ^= k1;
h1 = h1 << 13 | h1 >>> 19;
h1 = h1 * 5 + 0xe6546b64;
} else {
k2 = dataUint32[i];
k2 = (k2 * C1 & MASK_HIGH) | (k2 * C1_LOW & MASK_LOW);
k2 = k2 << 15 | k2 >>> 17;
k2 = (k2 * C2 & MASK_HIGH) | (k2 * C2_LOW & MASK_LOW);
h2 ^= k2;
h2 = h2 << 13 | h2 >>> 19;
h2 = h2 * 5 + 0xe6546b64;
}
}
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k1 = 0;
switch (tailLength) {
case 3:
k1 ^= data[blockCounts * 4 + 2] << 16;
/* falls through */
case 2:
k1 ^= data[blockCounts * 4 + 1] << 8;
/* falls through */
case 1:
k1 ^= data[blockCounts * 4];
/* falls through */
k1 = (k1 * C1 & MASK_HIGH) | (k1 * C1_LOW & MASK_LOW);
k1 = k1 << 15 | k1 >>> 17;
k1 = (k1 * C2 & MASK_HIGH) | (k1 * C2_LOW & MASK_LOW);
if (blockCounts & 1) {
h1 ^= k1;
} else {
h2 ^= k1;
}
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}
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this.h1 = h1;
this.h2 = h2;
return this;
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},
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hexdigest: function MurmurHash3_64_hexdigest () {
var h1 = this.h1;
var h2 = this.h2;
h1 ^= h2 >>> 1;
h1 = (h1 * 0xed558ccd & MASK_HIGH) | (h1 * 0x8ccd & MASK_LOW);
h2 = (h2 * 0xff51afd7 & MASK_HIGH) |
(((h2 << 16 | h1 >>> 16) * 0xafd7ed55 & MASK_HIGH) >>> 16);
h1 ^= h2 >>> 1;
h1 = (h1 * 0x1a85ec53 & MASK_HIGH) | (h1 * 0xec53 & MASK_LOW);
h2 = (h2 * 0xc4ceb9fe & MASK_HIGH) |
(((h2 << 16 | h1 >>> 16) * 0xb9fe1a85 & MASK_HIGH) >>> 16);
h1 ^= h2 >>> 1;
for (var i = 0, arr = [h1, h2], str = ''; i < arr.length; i++) {
var hex = (arr[i] >>> 0).toString(16);
while (hex.length < 8) {
hex = '0' + hex;
}
str += hex;
}
return str;
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}
};
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return MurmurHash3_64;
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})();
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exports.MurmurHash3_64 = MurmurHash3_64;
}));
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(function (root, factory) {
{
factory((root.pdfjsCorePrimitives = {}), root.pdfjsSharedUtil);
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}
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}(this, function (exports, sharedUtil) {
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var isArray = sharedUtil.isArray;
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var Name = (function NameClosure() {
function Name(name) {
this.name = name;
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}
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Name.prototype = {};
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var nameCache = Object.create(null);
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Name.get = function Name_get(name) {
var nameValue = nameCache[name];
return (nameValue ? nameValue : (nameCache[name] = new Name(name)));
};
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return Name;
})();
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var Cmd = (function CmdClosure() {
function Cmd(cmd) {
this.cmd = cmd;
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}
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Cmd.prototype = {};
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var cmdCache = Object.create(null);
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Cmd.get = function Cmd_get(cmd) {
var cmdValue = cmdCache[cmd];
return (cmdValue ? cmdValue : (cmdCache[cmd] = new Cmd(cmd)));
};
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return Cmd;
})();
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var Dict = (function DictClosure() {
var nonSerializable = function nonSerializableClosure() {
return nonSerializable; // creating closure on some variable
};
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// xref is optional
function Dict(xref) {
// Map should only be used internally, use functions below to access.
this.map = Object.create(null);
this.xref = xref;
this.objId = null;
this.__nonSerializable__ = nonSerializable; // disable cloning of the Dict
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}
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Dict.prototype = {
assignXref: function Dict_assignXref(newXref) {
this.xref = newXref;
},
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// automatically dereferences Ref objects
get: function Dict_get(key1, key2, key3) {
var value;
var xref = this.xref;
if (typeof (value = this.map[key1]) !== 'undefined' || key1 in this.map ||
typeof key2 === 'undefined') {
return xref ? xref.fetchIfRef(value) : value;
}
if (typeof (value = this.map[key2]) !== 'undefined' || key2 in this.map ||
typeof key3 === 'undefined') {
return xref ? xref.fetchIfRef(value) : value;
}
value = this.map[key3] || null;
return xref ? xref.fetchIfRef(value) : value;
},
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// Same as get(), but returns a promise and uses fetchIfRefAsync().
getAsync: function Dict_getAsync(key1, key2, key3) {
var value;
var xref = this.xref;
if (typeof (value = this.map[key1]) !== 'undefined' || key1 in this.map ||
typeof key2 === 'undefined') {
if (xref) {
return xref.fetchIfRefAsync(value);
}
return Promise.resolve(value);
}
if (typeof (value = this.map[key2]) !== 'undefined' || key2 in this.map ||
typeof key3 === 'undefined') {
if (xref) {
return xref.fetchIfRefAsync(value);
}
return Promise.resolve(value);
}
value = this.map[key3] || null;
if (xref) {
return xref.fetchIfRefAsync(value);
}
return Promise.resolve(value);
},
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// Same as get(), but dereferences all elements if the result is an Array.
getArray: function Dict_getArray(key1, key2, key3) {
var value = this.get(key1, key2, key3);
var xref = this.xref;
if (!isArray(value) || !xref) {
return value;
}
value = value.slice(); // Ensure that we don't modify the Dict data.
for (var i = 0, ii = value.length; i < ii; i++) {
if (!isRef(value[i])) {
continue;
}
value[i] = xref.fetch(value[i]);
}
return value;
},
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// no dereferencing
getRaw: function Dict_getRaw(key) {
return this.map[key];
},
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getKeys: function Dict_getKeys() {
return Object.keys(this.map);
},
set: function Dict_set(key, value) {
this.map[key] = value;
},
has: function Dict_has(key) {
return key in this.map;
},
forEach: function Dict_forEach(callback) {
for (var key in this.map) {
callback(key, this.get(key));
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}
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}
};
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Dict.empty = new Dict(null);
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Dict.merge = function Dict_merge(xref, dictArray) {
var mergedDict = new Dict(xref);
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for (var i = 0, ii = dictArray.length; i < ii; i++) {
var dict = dictArray[i];
if (!isDict(dict)) {
continue;
}
for (var keyName in dict.map) {
if (mergedDict.map[keyName]) {
continue;
}
mergedDict.map[keyName] = dict.map[keyName];
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}
}
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return mergedDict;
};
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return Dict;
})();
var Ref = (function RefClosure() {
function Ref(num, gen) {
this.num = num;
this.gen = gen;
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}
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Ref.prototype = {
toString: function Ref_toString() {
// This function is hot, so we make the string as compact as possible.
// |this.gen| is almost always zero, so we treat that case specially.
var str = this.num + 'R';
if (this.gen !== 0) {
str += this.gen;
}
return str;
}
};
return Ref;
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})();
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// The reference is identified by number and generation.
// This structure stores only one instance of the reference.
var RefSet = (function RefSetClosure() {
function RefSet() {
this.dict = Object.create(null);
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}
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RefSet.prototype = {
has: function RefSet_has(ref) {
return ref.toString() in this.dict;
},
put: function RefSet_put(ref) {
this.dict[ref.toString()] = true;
},
remove: function RefSet_remove(ref) {
delete this.dict[ref.toString()];
}
};
return RefSet;
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})();
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var RefSetCache = (function RefSetCacheClosure() {
function RefSetCache() {
this.dict = Object.create(null);
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}
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RefSetCache.prototype = {
get: function RefSetCache_get(ref) {
return this.dict[ref.toString()];
},
has: function RefSetCache_has(ref) {
return ref.toString() in this.dict;
},
put: function RefSetCache_put(ref, obj) {
this.dict[ref.toString()] = obj;
},
putAlias: function RefSetCache_putAlias(ref, aliasRef) {
this.dict[ref.toString()] = this.get(aliasRef);
},
forEach: function RefSetCache_forEach(fn, thisArg) {
for (var i in this.dict) {
fn.call(thisArg, this.dict[i]);
}
},
clear: function RefSetCache_clear() {
this.dict = Object.create(null);
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}
};
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return RefSetCache;
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})();
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function isName(v) {
return v instanceof Name;
}
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function isCmd(v, cmd) {
return v instanceof Cmd && (cmd === undefined || v.cmd === cmd);
}
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function isDict(v, type) {
if (!(v instanceof Dict)) {
return false;
}
if (!type) {
return true;
}
var dictType = v.get('Type');
return isName(dictType) && dictType.name === type;
}
function isRef(v) {
return v instanceof Ref;
}
function isStream(v) {
return typeof v === 'object' && v !== null && v.getBytes !== undefined;
}
exports.Cmd = Cmd;
exports.Dict = Dict;
exports.Name = Name;
exports.Ref = Ref;
exports.RefSet = RefSet;
exports.RefSetCache = RefSetCache;
exports.isCmd = isCmd;
exports.isDict = isDict;
exports.isName = isName;
exports.isRef = isRef;
exports.isStream = isStream;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreStandardFonts = {}), root.pdfjsSharedUtil);
}
}(this, function (exports, sharedUtil) {
var getLookupTableFactory = sharedUtil.getLookupTableFactory;
/**
* Hold a map of decoded fonts and of the standard fourteen Type1
* fonts and their acronyms.
*/
var getStdFontMap = getLookupTableFactory(function (t) {
t['ArialNarrow'] = 'Helvetica';
t['ArialNarrow-Bold'] = 'Helvetica-Bold';
t['ArialNarrow-BoldItalic'] = 'Helvetica-BoldOblique';
t['ArialNarrow-Italic'] = 'Helvetica-Oblique';
t['ArialBlack'] = 'Helvetica';
t['ArialBlack-Bold'] = 'Helvetica-Bold';
t['ArialBlack-BoldItalic'] = 'Helvetica-BoldOblique';
t['ArialBlack-Italic'] = 'Helvetica-Oblique';
t['Arial'] = 'Helvetica';
t['Arial-Bold'] = 'Helvetica-Bold';
t['Arial-BoldItalic'] = 'Helvetica-BoldOblique';
t['Arial-Italic'] = 'Helvetica-Oblique';
t['Arial-BoldItalicMT'] = 'Helvetica-BoldOblique';
t['Arial-BoldMT'] = 'Helvetica-Bold';
t['Arial-ItalicMT'] = 'Helvetica-Oblique';
t['ArialMT'] = 'Helvetica';
t['Courier-Bold'] = 'Courier-Bold';
t['Courier-BoldItalic'] = 'Courier-BoldOblique';
t['Courier-Italic'] = 'Courier-Oblique';
t['CourierNew'] = 'Courier';
t['CourierNew-Bold'] = 'Courier-Bold';
t['CourierNew-BoldItalic'] = 'Courier-BoldOblique';
t['CourierNew-Italic'] = 'Courier-Oblique';
t['CourierNewPS-BoldItalicMT'] = 'Courier-BoldOblique';
t['CourierNewPS-BoldMT'] = 'Courier-Bold';
t['CourierNewPS-ItalicMT'] = 'Courier-Oblique';
t['CourierNewPSMT'] = 'Courier';
t['Helvetica'] = 'Helvetica';
t['Helvetica-Bold'] = 'Helvetica-Bold';
t['Helvetica-BoldItalic'] = 'Helvetica-BoldOblique';
t['Helvetica-BoldOblique'] = 'Helvetica-BoldOblique';
t['Helvetica-Italic'] = 'Helvetica-Oblique';
t['Helvetica-Oblique'] = 'Helvetica-Oblique';
t['Symbol-Bold'] = 'Symbol';
t['Symbol-BoldItalic'] = 'Symbol';
t['Symbol-Italic'] = 'Symbol';
t['TimesNewRoman'] = 'Times-Roman';
t['TimesNewRoman-Bold'] = 'Times-Bold';
t['TimesNewRoman-BoldItalic'] = 'Times-BoldItalic';
t['TimesNewRoman-Italic'] = 'Times-Italic';
t['TimesNewRomanPS'] = 'Times-Roman';
t['TimesNewRomanPS-Bold'] = 'Times-Bold';
t['TimesNewRomanPS-BoldItalic'] = 'Times-BoldItalic';
t['TimesNewRomanPS-BoldItalicMT'] = 'Times-BoldItalic';
t['TimesNewRomanPS-BoldMT'] = 'Times-Bold';
t['TimesNewRomanPS-Italic'] = 'Times-Italic';
t['TimesNewRomanPS-ItalicMT'] = 'Times-Italic';
t['TimesNewRomanPSMT'] = 'Times-Roman';
t['TimesNewRomanPSMT-Bold'] = 'Times-Bold';
t['TimesNewRomanPSMT-BoldItalic'] = 'Times-BoldItalic';
t['TimesNewRomanPSMT-Italic'] = 'Times-Italic';
});
/**
* Holds the map of the non-standard fonts that might be included as
* a standard fonts without glyph data.
*/
var getNonStdFontMap = getLookupTableFactory(function (t) {
t['CenturyGothic'] = 'Helvetica';
t['CenturyGothic-Bold'] = 'Helvetica-Bold';
t['CenturyGothic-BoldItalic'] = 'Helvetica-BoldOblique';
t['CenturyGothic-Italic'] = 'Helvetica-Oblique';
t['ComicSansMS'] = 'Comic Sans MS';
t['ComicSansMS-Bold'] = 'Comic Sans MS-Bold';
t['ComicSansMS-BoldItalic'] = 'Comic Sans MS-BoldItalic';
t['ComicSansMS-Italic'] = 'Comic Sans MS-Italic';
t['LucidaConsole'] = 'Courier';
t['LucidaConsole-Bold'] = 'Courier-Bold';
t['LucidaConsole-BoldItalic'] = 'Courier-BoldOblique';
t['LucidaConsole-Italic'] = 'Courier-Oblique';
t['MS-Gothic'] = 'MS Gothic';
t['MS-Gothic-Bold'] = 'MS Gothic-Bold';
t['MS-Gothic-BoldItalic'] = 'MS Gothic-BoldItalic';
t['MS-Gothic-Italic'] = 'MS Gothic-Italic';
t['MS-Mincho'] = 'MS Mincho';
t['MS-Mincho-Bold'] = 'MS Mincho-Bold';
t['MS-Mincho-BoldItalic'] = 'MS Mincho-BoldItalic';
t['MS-Mincho-Italic'] = 'MS Mincho-Italic';
t['MS-PGothic'] = 'MS PGothic';
t['MS-PGothic-Bold'] = 'MS PGothic-Bold';
t['MS-PGothic-BoldItalic'] = 'MS PGothic-BoldItalic';
t['MS-PGothic-Italic'] = 'MS PGothic-Italic';
t['MS-PMincho'] = 'MS PMincho';
t['MS-PMincho-Bold'] = 'MS PMincho-Bold';
t['MS-PMincho-BoldItalic'] = 'MS PMincho-BoldItalic';
t['MS-PMincho-Italic'] = 'MS PMincho-Italic';
t['Wingdings'] = 'ZapfDingbats';
});
var getSerifFonts = getLookupTableFactory(function (t) {
t['Adobe Jenson'] = true;
t['Adobe Text'] = true;
t['Albertus'] = true;
t['Aldus'] = true;
t['Alexandria'] = true;
t['Algerian'] = true;
t['American Typewriter'] = true;
t['Antiqua'] = true;
t['Apex'] = true;
t['Arno'] = true;
t['Aster'] = true;
t['Aurora'] = true;
t['Baskerville'] = true;
t['Bell'] = true;
t['Bembo'] = true;
t['Bembo Schoolbook'] = true;
t['Benguiat'] = true;
t['Berkeley Old Style'] = true;
t['Bernhard Modern'] = true;
t['Berthold City'] = true;
t['Bodoni'] = true;
t['Bauer Bodoni'] = true;
t['Book Antiqua'] = true;
t['Bookman'] = true;
t['Bordeaux Roman'] = true;
t['Californian FB'] = true;
t['Calisto'] = true;
t['Calvert'] = true;
t['Capitals'] = true;
t['Cambria'] = true;
t['Cartier'] = true;
t['Caslon'] = true;
t['Catull'] = true;
t['Centaur'] = true;
t['Century Old Style'] = true;
t['Century Schoolbook'] = true;
t['Chaparral'] = true;
t['Charis SIL'] = true;
t['Cheltenham'] = true;
t['Cholla Slab'] = true;
t['Clarendon'] = true;
t['Clearface'] = true;
t['Cochin'] = true;
t['Colonna'] = true;
t['Computer Modern'] = true;
t['Concrete Roman'] = true;
t['Constantia'] = true;
t['Cooper Black'] = true;
t['Corona'] = true;
t['Ecotype'] = true;
t['Egyptienne'] = true;
t['Elephant'] = true;
t['Excelsior'] = true;
t['Fairfield'] = true;
t['FF Scala'] = true;
t['Folkard'] = true;
t['Footlight'] = true;
t['FreeSerif'] = true;
t['Friz Quadrata'] = true;
t['Garamond'] = true;
t['Gentium'] = true;
t['Georgia'] = true;
t['Gloucester'] = true;
t['Goudy Old Style'] = true;
t['Goudy Schoolbook'] = true;
t['Goudy Pro Font'] = true;
t['Granjon'] = true;
t['Guardian Egyptian'] = true;
t['Heather'] = true;
t['Hercules'] = true;
t['High Tower Text'] = true;
t['Hiroshige'] = true;
t['Hoefler Text'] = true;
t['Humana Serif'] = true;
t['Imprint'] = true;
t['Ionic No. 5'] = true;
t['Janson'] = true;
t['Joanna'] = true;
t['Korinna'] = true;
t['Lexicon'] = true;
t['Liberation Serif'] = true;
t['Linux Libertine'] = true;
t['Literaturnaya'] = true;
t['Lucida'] = true;
t['Lucida Bright'] = true;
t['Melior'] = true;
t['Memphis'] = true;
t['Miller'] = true;
t['Minion'] = true;
t['Modern'] = true;
t['Mona Lisa'] = true;
t['Mrs Eaves'] = true;
t['MS Serif'] = true;
t['Museo Slab'] = true;
t['New York'] = true;
t['Nimbus Roman'] = true;
t['NPS Rawlinson Roadway'] = true;
t['Palatino'] = true;
t['Perpetua'] = true;
t['Plantin'] = true;
t['Plantin Schoolbook'] = true;
t['Playbill'] = true;
t['Poor Richard'] = true;
t['Rawlinson Roadway'] = true;
t['Renault'] = true;
t['Requiem'] = true;
t['Rockwell'] = true;
t['Roman'] = true;
t['Rotis Serif'] = true;
t['Sabon'] = true;
t['Scala'] = true;
t['Seagull'] = true;
t['Sistina'] = true;
t['Souvenir'] = true;
t['STIX'] = true;
t['Stone Informal'] = true;
t['Stone Serif'] = true;
t['Sylfaen'] = true;
t['Times'] = true;
t['Trajan'] = true;
t['Trinité'] = true;
t['Trump Mediaeval'] = true;
t['Utopia'] = true;
t['Vale Type'] = true;
t['Bitstream Vera'] = true;
t['Vera Serif'] = true;
t['Versailles'] = true;
t['Wanted'] = true;
t['Weiss'] = true;
t['Wide Latin'] = true;
t['Windsor'] = true;
t['XITS'] = true;
});
var getSymbolsFonts = getLookupTableFactory(function (t) {
t['Dingbats'] = true;
t['Symbol'] = true;
t['ZapfDingbats'] = true;
});
// Glyph map for well-known standard fonts. Sometimes Ghostscript uses CID
// fonts, but does not embed the CID to GID mapping. The mapping is incomplete
// for all glyphs, but common for some set of the standard fonts.
var getGlyphMapForStandardFonts = getLookupTableFactory(function (t) {
t[2] = 10; t[3] = 32; t[4] = 33; t[5] = 34; t[6] = 35; t[7] = 36; t[8] = 37;
t[9] = 38; t[10] = 39; t[11] = 40; t[12] = 41; t[13] = 42; t[14] = 43;
t[15] = 44; t[16] = 45; t[17] = 46; t[18] = 47; t[19] = 48; t[20] = 49;
t[21] = 50; t[22] = 51; t[23] = 52; t[24] = 53; t[25] = 54; t[26] = 55;
t[27] = 56; t[28] = 57; t[29] = 58; t[30] = 894; t[31] = 60; t[32] = 61;
t[33] = 62; t[34] = 63; t[35] = 64; t[36] = 65; t[37] = 66; t[38] = 67;
t[39] = 68; t[40] = 69; t[41] = 70; t[42] = 71; t[43] = 72; t[44] = 73;
t[45] = 74; t[46] = 75; t[47] = 76; t[48] = 77; t[49] = 78; t[50] = 79;
t[51] = 80; t[52] = 81; t[53] = 82; t[54] = 83; t[55] = 84; t[56] = 85;
t[57] = 86; t[58] = 87; t[59] = 88; t[60] = 89; t[61] = 90; t[62] = 91;
t[63] = 92; t[64] = 93; t[65] = 94; t[66] = 95; t[67] = 96; t[68] = 97;
t[69] = 98; t[70] = 99; t[71] = 100; t[72] = 101; t[73] = 102; t[74] = 103;
t[75] = 104; t[76] = 105; t[77] = 106; t[78] = 107; t[79] = 108;
t[80] = 109; t[81] = 110; t[82] = 111; t[83] = 112; t[84] = 113;
t[85] = 114; t[86] = 115; t[87] = 116; t[88] = 117; t[89] = 118;
t[90] = 119; t[91] = 120; t[92] = 121; t[93] = 122; t[94] = 123;
t[95] = 124; t[96] = 125; t[97] = 126; t[98] = 196; t[99] = 197;
t[100] = 199; t[101] = 201; t[102] = 209; t[103] = 214; t[104] = 220;
t[105] = 225; t[106] = 224; t[107] = 226; t[108] = 228; t[109] = 227;
t[110] = 229; t[111] = 231; t[112] = 233; t[113] = 232; t[114] = 234;
t[115] = 235; t[116] = 237; t[117] = 236; t[118] = 238; t[119] = 239;
t[120] = 241; t[121] = 243; t[122] = 242; t[123] = 244; t[124] = 246;
t[125] = 245; t[126] = 250; t[127] = 249; t[128] = 251; t[129] = 252;
t[130] = 8224; t[131] = 176; t[132] = 162; t[133] = 163; t[134] = 167;
t[135] = 8226; t[136] = 182; t[137] = 223; t[138] = 174; t[139] = 169;
t[140] = 8482; t[141] = 180; t[142] = 168; t[143] = 8800; t[144] = 198;
t[145] = 216; t[146] = 8734; t[147] = 177; t[148] = 8804; t[149] = 8805;
t[150] = 165; t[151] = 181; t[152] = 8706; t[153] = 8721; t[154] = 8719;
t[156] = 8747; t[157] = 170; t[158] = 186; t[159] = 8486; t[160] = 230;
t[161] = 248; t[162] = 191; t[163] = 161; t[164] = 172; t[165] = 8730;
t[166] = 402; t[167] = 8776; t[168] = 8710; t[169] = 171; t[170] = 187;
t[171] = 8230; t[210] = 218; t[223] = 711; t[224] = 321; t[225] = 322;
t[227] = 353; t[229] = 382; t[234] = 253; t[252] = 263; t[253] = 268;
t[254] = 269; t[258] = 258; t[260] = 260; t[261] = 261; t[265] = 280;
t[266] = 281; t[268] = 283; t[269] = 313; t[275] = 323; t[276] = 324;
t[278] = 328; t[284] = 345; t[285] = 346; t[286] = 347; t[292] = 367;
t[295] = 377; t[296] = 378; t[298] = 380; t[305] = 963; t[306] = 964;
t[307] = 966; t[308] = 8215; t[309] = 8252; t[310] = 8319; t[311] = 8359;
t[312] = 8592; t[313] = 8593; t[337] = 9552; t[493] = 1039;
t[494] = 1040; t[705] = 1524; t[706] = 8362; t[710] = 64288; t[711] = 64298;
t[759] = 1617; t[761] = 1776; t[763] = 1778; t[775] = 1652; t[777] = 1764;
t[778] = 1780; t[779] = 1781; t[780] = 1782; t[782] = 771; t[783] = 64726;
t[786] = 8363; t[788] = 8532; t[790] = 768; t[791] = 769; t[792] = 768;
t[795] = 803; t[797] = 64336; t[798] = 64337; t[799] = 64342;
t[800] = 64343; t[801] = 64344; t[802] = 64345; t[803] = 64362;
t[804] = 64363; t[805] = 64364; t[2424] = 7821; t[2425] = 7822;
t[2426] = 7823; t[2427] = 7824; t[2428] = 7825; t[2429] = 7826;
t[2430] = 7827; t[2433] = 7682; t[2678] = 8045; t[2679] = 8046;
t[2830] = 1552; t[2838] = 686; t[2840] = 751; t[2842] = 753; t[2843] = 754;
t[2844] = 755; t[2846] = 757; t[2856] = 767; t[2857] = 848; t[2858] = 849;
t[2862] = 853; t[2863] = 854; t[2864] = 855; t[2865] = 861; t[2866] = 862;
t[2906] = 7460; t[2908] = 7462; t[2909] = 7463; t[2910] = 7464;
t[2912] = 7466; t[2913] = 7467; t[2914] = 7468; t[2916] = 7470;
t[2917] = 7471; t[2918] = 7472; t[2920] = 7474; t[2921] = 7475;
t[2922] = 7476; t[2924] = 7478; t[2925] = 7479; t[2926] = 7480;
t[2928] = 7482; t[2929] = 7483; t[2930] = 7484; t[2932] = 7486;
t[2933] = 7487; t[2934] = 7488; t[2936] = 7490; t[2937] = 7491;
t[2938] = 7492; t[2940] = 7494; t[2941] = 7495; t[2942] = 7496;
t[2944] = 7498; t[2946] = 7500; t[2948] = 7502; t[2950] = 7504;
t[2951] = 7505; t[2952] = 7506; t[2954] = 7508; t[2955] = 7509;
t[2956] = 7510; t[2958] = 7512; t[2959] = 7513; t[2960] = 7514;
t[2962] = 7516; t[2963] = 7517; t[2964] = 7518; t[2966] = 7520;
t[2967] = 7521; t[2968] = 7522; t[2970] = 7524; t[2971] = 7525;
t[2972] = 7526; t[2974] = 7528; t[2975] = 7529; t[2976] = 7530;
t[2978] = 1537; t[2979] = 1538; t[2980] = 1539; t[2982] = 1549;
t[2983] = 1551; t[2984] = 1552; t[2986] = 1554; t[2987] = 1555;
t[2988] = 1556; t[2990] = 1623; t[2991] = 1624; t[2995] = 1775;
t[2999] = 1791; t[3002] = 64290; t[3003] = 64291; t[3004] = 64292;
t[3006] = 64294; t[3007] = 64295; t[3008] = 64296; t[3011] = 1900;
t[3014] = 8223; t[3015] = 8244; t[3017] = 7532; t[3018] = 7533;
t[3019] = 7534; t[3075] = 7590; t[3076] = 7591; t[3079] = 7594;
t[3080] = 7595; t[3083] = 7598; t[3084] = 7599; t[3087] = 7602;
t[3088] = 7603; t[3091] = 7606; t[3092] = 7607; t[3095] = 7610;
t[3096] = 7611; t[3099] = 7614; t[3100] = 7615; t[3103] = 7618;
t[3104] = 7619; t[3107] = 8337; t[3108] = 8338; t[3116] = 1884;
t[3119] = 1885; t[3120] = 1885; t[3123] = 1886; t[3124] = 1886;
t[3127] = 1887; t[3128] = 1887; t[3131] = 1888; t[3132] = 1888;
t[3135] = 1889; t[3136] = 1889; t[3139] = 1890; t[3140] = 1890;
t[3143] = 1891; t[3144] = 1891; t[3147] = 1892; t[3148] = 1892;
t[3153] = 580; t[3154] = 581; t[3157] = 584; t[3158] = 585; t[3161] = 588;
t[3162] = 589; t[3165] = 891; t[3166] = 892; t[3169] = 1274; t[3170] = 1275;
t[3173] = 1278; t[3174] = 1279; t[3181] = 7622; t[3182] = 7623;
t[3282] = 11799; t[3316] = 578; t[3379] = 42785; t[3393] = 1159;
t[3416] = 8377;
});
// The glyph map for ArialBlack differs slightly from the glyph map used for
// other well-known standard fonts. Hence we use this (incomplete) CID to GID
// mapping to adjust the glyph map for non-embedded ArialBlack fonts.
var getSupplementalGlyphMapForArialBlack =
getLookupTableFactory(function (t) {
t[227] = 322; t[264] = 261; t[291] = 346;
});
exports.getStdFontMap = getStdFontMap;
exports.getNonStdFontMap = getNonStdFontMap;
exports.getSerifFonts = getSerifFonts;
exports.getSymbolsFonts = getSymbolsFonts;
exports.getGlyphMapForStandardFonts = getGlyphMapForStandardFonts;
exports.getSupplementalGlyphMapForArialBlack =
getSupplementalGlyphMapForArialBlack;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreUnicode = {}), root.pdfjsSharedUtil);
}
}(this, function (exports, sharedUtil) {
var getLookupTableFactory = sharedUtil.getLookupTableFactory;
// Some characters, e.g. copyrightserif, are mapped to the private use area
// and might not be displayed using standard fonts. Mapping/hacking well-known
// chars to the similar equivalents in the normal characters range.
var getSpecialPUASymbols = getLookupTableFactory(function (t) {
t[63721] = 0x00A9; // copyrightsans (0xF8E9) => copyright
t[63193] = 0x00A9; // copyrightserif (0xF6D9) => copyright
t[63720] = 0x00AE; // registersans (0xF8E8) => registered
t[63194] = 0x00AE; // registerserif (0xF6DA) => registered
t[63722] = 0x2122; // trademarksans (0xF8EA) => trademark
t[63195] = 0x2122; // trademarkserif (0xF6DB) => trademark
t[63729] = 0x23A7; // bracelefttp (0xF8F1)
t[63730] = 0x23A8; // braceleftmid (0xF8F2)
t[63731] = 0x23A9; // braceleftbt (0xF8F3)
t[63740] = 0x23AB; // bracerighttp (0xF8FC)
t[63741] = 0x23AC; // bracerightmid (0xF8FD)
t[63742] = 0x23AD; // bracerightbt (0xF8FE)
t[63726] = 0x23A1; // bracketlefttp (0xF8EE)
t[63727] = 0x23A2; // bracketleftex (0xF8EF)
t[63728] = 0x23A3; // bracketleftbt (0xF8F0)
t[63737] = 0x23A4; // bracketrighttp (0xF8F9)
t[63738] = 0x23A5; // bracketrightex (0xF8FA)
t[63739] = 0x23A6; // bracketrightbt (0xF8FB)
t[63723] = 0x239B; // parenlefttp (0xF8EB)
t[63724] = 0x239C; // parenleftex (0xF8EC)
t[63725] = 0x239D; // parenleftbt (0xF8ED)
t[63734] = 0x239E; // parenrighttp (0xF8F6)
t[63735] = 0x239F; // parenrightex (0xF8F7)
t[63736] = 0x23A0; // parenrightbt (0xF8F8)
});
function mapSpecialUnicodeValues(code) {
if (code >= 0xFFF0 && code <= 0xFFFF) { // Specials unicode block.
return 0;
} else if (code >= 0xF600 && code <= 0xF8FF) {
return (getSpecialPUASymbols()[code] || code);
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}
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return code;
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}
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function getUnicodeForGlyph(name, glyphsUnicodeMap) {
var unicode = glyphsUnicodeMap[name];
if (unicode !== undefined) {
return unicode;
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}
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if (!name) {
return -1;
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}
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// Try to recover valid Unicode values from 'uniXXXX'/'uXXXX{XX}' glyphs.
if (name[0] === 'u') {
var nameLen = name.length, hexStr;
if (nameLen === 7 && name[1] === 'n' && name[2] === 'i') { // 'uniXXXX'
hexStr = name.substr(3);
} else if (nameLen >= 5 && nameLen <= 7) { // 'uXXXX{XX}'
hexStr = name.substr(1);
} else {
return -1;
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}
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// Check for upper-case hexadecimal characters, to avoid false positives.
if (hexStr === hexStr.toUpperCase()) {
unicode = parseInt(hexStr, 16);
if (unicode >= 0) {
return unicode;
}
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}
}
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return -1;
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}
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var UnicodeRanges = [
{ 'begin': 0x0000, 'end': 0x007F }, // Basic Latin
{ 'begin': 0x0080, 'end': 0x00FF }, // Latin-1 Supplement
{ 'begin': 0x0100, 'end': 0x017F }, // Latin Extended-A
{ 'begin': 0x0180, 'end': 0x024F }, // Latin Extended-B
{ 'begin': 0x0250, 'end': 0x02AF }, // IPA Extensions
{ 'begin': 0x02B0, 'end': 0x02FF }, // Spacing Modifier Letters
{ 'begin': 0x0300, 'end': 0x036F }, // Combining Diacritical Marks
{ 'begin': 0x0370, 'end': 0x03FF }, // Greek and Coptic
{ 'begin': 0x2C80, 'end': 0x2CFF }, // Coptic
{ 'begin': 0x0400, 'end': 0x04FF }, // Cyrillic
{ 'begin': 0x0530, 'end': 0x058F }, // Armenian
{ 'begin': 0x0590, 'end': 0x05FF }, // Hebrew
{ 'begin': 0xA500, 'end': 0xA63F }, // Vai
{ 'begin': 0x0600, 'end': 0x06FF }, // Arabic
{ 'begin': 0x07C0, 'end': 0x07FF }, // NKo
{ 'begin': 0x0900, 'end': 0x097F }, // Devanagari
{ 'begin': 0x0980, 'end': 0x09FF }, // Bengali
{ 'begin': 0x0A00, 'end': 0x0A7F }, // Gurmukhi
{ 'begin': 0x0A80, 'end': 0x0AFF }, // Gujarati
{ 'begin': 0x0B00, 'end': 0x0B7F }, // Oriya
{ 'begin': 0x0B80, 'end': 0x0BFF }, // Tamil
{ 'begin': 0x0C00, 'end': 0x0C7F }, // Telugu
{ 'begin': 0x0C80, 'end': 0x0CFF }, // Kannada
{ 'begin': 0x0D00, 'end': 0x0D7F }, // Malayalam
{ 'begin': 0x0E00, 'end': 0x0E7F }, // Thai
{ 'begin': 0x0E80, 'end': 0x0EFF }, // Lao
{ 'begin': 0x10A0, 'end': 0x10FF }, // Georgian
{ 'begin': 0x1B00, 'end': 0x1B7F }, // Balinese
{ 'begin': 0x1100, 'end': 0x11FF }, // Hangul Jamo
{ 'begin': 0x1E00, 'end': 0x1EFF }, // Latin Extended Additional
{ 'begin': 0x1F00, 'end': 0x1FFF }, // Greek Extended
{ 'begin': 0x2000, 'end': 0x206F }, // General Punctuation
{ 'begin': 0x2070, 'end': 0x209F }, // Superscripts And Subscripts
{ 'begin': 0x20A0, 'end': 0x20CF }, // Currency Symbol
{ 'begin': 0x20D0, 'end': 0x20FF }, // Combining Diacritical Marks
{ 'begin': 0x2100, 'end': 0x214F }, // Letterlike Symbols
{ 'begin': 0x2150, 'end': 0x218F }, // Number Forms
{ 'begin': 0x2190, 'end': 0x21FF }, // Arrows
{ 'begin': 0x2200, 'end': 0x22FF }, // Mathematical Operators
{ 'begin': 0x2300, 'end': 0x23FF }, // Miscellaneous Technical
{ 'begin': 0x2400, 'end': 0x243F }, // Control Pictures
{ 'begin': 0x2440, 'end': 0x245F }, // Optical Character Recognition
{ 'begin': 0x2460, 'end': 0x24FF }, // Enclosed Alphanumerics
{ 'begin': 0x2500, 'end': 0x257F }, // Box Drawing
{ 'begin': 0x2580, 'end': 0x259F }, // Block Elements
{ 'begin': 0x25A0, 'end': 0x25FF }, // Geometric Shapes
{ 'begin': 0x2600, 'end': 0x26FF }, // Miscellaneous Symbols
{ 'begin': 0x2700, 'end': 0x27BF }, // Dingbats
{ 'begin': 0x3000, 'end': 0x303F }, // CJK Symbols And Punctuation
{ 'begin': 0x3040, 'end': 0x309F }, // Hiragana
{ 'begin': 0x30A0, 'end': 0x30FF }, // Katakana
{ 'begin': 0x3100, 'end': 0x312F }, // Bopomofo
{ 'begin': 0x3130, 'end': 0x318F }, // Hangul Compatibility Jamo
{ 'begin': 0xA840, 'end': 0xA87F }, // Phags-pa
{ 'begin': 0x3200, 'end': 0x32FF }, // Enclosed CJK Letters And Months
{ 'begin': 0x3300, 'end': 0x33FF }, // CJK Compatibility
{ 'begin': 0xAC00, 'end': 0xD7AF }, // Hangul Syllables
{ 'begin': 0xD800, 'end': 0xDFFF }, // Non-Plane 0 *
{ 'begin': 0x10900, 'end': 0x1091F }, // Phoenicia
{ 'begin': 0x4E00, 'end': 0x9FFF }, // CJK Unified Ideographs
{ 'begin': 0xE000, 'end': 0xF8FF }, // Private Use Area (plane 0)
{ 'begin': 0x31C0, 'end': 0x31EF }, // CJK Strokes
{ 'begin': 0xFB00, 'end': 0xFB4F }, // Alphabetic Presentation Forms
{ 'begin': 0xFB50, 'end': 0xFDFF }, // Arabic Presentation Forms-A
{ 'begin': 0xFE20, 'end': 0xFE2F }, // Combining Half Marks
{ 'begin': 0xFE10, 'end': 0xFE1F }, // Vertical Forms
{ 'begin': 0xFE50, 'end': 0xFE6F }, // Small Form Variants
{ 'begin': 0xFE70, 'end': 0xFEFF }, // Arabic Presentation Forms-B
{ 'begin': 0xFF00, 'end': 0xFFEF }, // Halfwidth And Fullwidth Forms
{ 'begin': 0xFFF0, 'end': 0xFFFF }, // Specials
{ 'begin': 0x0F00, 'end': 0x0FFF }, // Tibetan
{ 'begin': 0x0700, 'end': 0x074F }, // Syriac
{ 'begin': 0x0780, 'end': 0x07BF }, // Thaana
{ 'begin': 0x0D80, 'end': 0x0DFF }, // Sinhala
{ 'begin': 0x1000, 'end': 0x109F }, // Myanmar
{ 'begin': 0x1200, 'end': 0x137F }, // Ethiopic
{ 'begin': 0x13A0, 'end': 0x13FF }, // Cherokee
{ 'begin': 0x1400, 'end': 0x167F }, // Unified Canadian Aboriginal Syllabics
{ 'begin': 0x1680, 'end': 0x169F }, // Ogham
{ 'begin': 0x16A0, 'end': 0x16FF }, // Runic
{ 'begin': 0x1780, 'end': 0x17FF }, // Khmer
{ 'begin': 0x1800, 'end': 0x18AF }, // Mongolian
{ 'begin': 0x2800, 'end': 0x28FF }, // Braille Patterns
{ 'begin': 0xA000, 'end': 0xA48F }, // Yi Syllables
{ 'begin': 0x1700, 'end': 0x171F }, // Tagalog
{ 'begin': 0x10300, 'end': 0x1032F }, // Old Italic
{ 'begin': 0x10330, 'end': 0x1034F }, // Gothic
{ 'begin': 0x10400, 'end': 0x1044F }, // Deseret
{ 'begin': 0x1D000, 'end': 0x1D0FF }, // Byzantine Musical Symbols
{ 'begin': 0x1D400, 'end': 0x1D7FF }, // Mathematical Alphanumeric Symbols
{ 'begin': 0xFF000, 'end': 0xFFFFD }, // Private Use (plane 15)
{ 'begin': 0xFE00, 'end': 0xFE0F }, // Variation Selectors
{ 'begin': 0xE0000, 'end': 0xE007F }, // Tags
{ 'begin': 0x1900, 'end': 0x194F }, // Limbu
{ 'begin': 0x1950, 'end': 0x197F }, // Tai Le
{ 'begin': 0x1980, 'end': 0x19DF }, // New Tai Lue
{ 'begin': 0x1A00, 'end': 0x1A1F }, // Buginese
{ 'begin': 0x2C00, 'end': 0x2C5F }, // Glagolitic
{ 'begin': 0x2D30, 'end': 0x2D7F }, // Tifinagh
{ 'begin': 0x4DC0, 'end': 0x4DFF }, // Yijing Hexagram Symbols
{ 'begin': 0xA800, 'end': 0xA82F }, // Syloti Nagri
{ 'begin': 0x10000, 'end': 0x1007F }, // Linear B Syllabary
{ 'begin': 0x10140, 'end': 0x1018F }, // Ancient Greek Numbers
{ 'begin': 0x10380, 'end': 0x1039F }, // Ugaritic
{ 'begin': 0x103A0, 'end': 0x103DF }, // Old Persian
{ 'begin': 0x10450, 'end': 0x1047F }, // Shavian
{ 'begin': 0x10480, 'end': 0x104AF }, // Osmanya
{ 'begin': 0x10800, 'end': 0x1083F }, // Cypriot Syllabary
{ 'begin': 0x10A00, 'end': 0x10A5F }, // Kharoshthi
{ 'begin': 0x1D300, 'end': 0x1D35F }, // Tai Xuan Jing Symbols
{ 'begin': 0x12000, 'end': 0x123FF }, // Cuneiform
{ 'begin': 0x1D360, 'end': 0x1D37F }, // Counting Rod Numerals
{ 'begin': 0x1B80, 'end': 0x1BBF }, // Sundanese
{ 'begin': 0x1C00, 'end': 0x1C4F }, // Lepcha
{ 'begin': 0x1C50, 'end': 0x1C7F }, // Ol Chiki
{ 'begin': 0xA880, 'end': 0xA8DF }, // Saurashtra
{ 'begin': 0xA900, 'end': 0xA92F }, // Kayah Li
{ 'begin': 0xA930, 'end': 0xA95F }, // Rejang
{ 'begin': 0xAA00, 'end': 0xAA5F }, // Cham
{ 'begin': 0x10190, 'end': 0x101CF }, // Ancient Symbols
{ 'begin': 0x101D0, 'end': 0x101FF }, // Phaistos Disc
{ 'begin': 0x102A0, 'end': 0x102DF }, // Carian
{ 'begin': 0x1F030, 'end': 0x1F09F } // Domino Tiles
];
2013-12-31 11:04:23 +00:00
2016-04-04 13:49:28 +00:00
function getUnicodeRangeFor(value) {
for (var i = 0, ii = UnicodeRanges.length; i < ii; i++) {
var range = UnicodeRanges[i];
if (value >= range.begin && value < range.end) {
return i;
2013-12-31 11:04:23 +00:00
}
}
2016-04-04 13:49:28 +00:00
return -1;
}
2013-12-31 11:04:23 +00:00
2016-04-04 13:49:28 +00:00
function isRTLRangeFor(value) {
var range = UnicodeRanges[13];
if (value >= range.begin && value < range.end) {
return true;
2014-11-23 23:56:52 +00:00
}
2016-04-04 13:49:28 +00:00
range = UnicodeRanges[11];
if (value >= range.begin && value < range.end) {
return true;
2014-11-23 23:56:52 +00:00
}
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return false;
2013-12-31 11:04:23 +00:00
}
2016-04-04 13:49:28 +00:00
// The normalization table is obtained by filtering the Unicode characters
// database with <compat> entries.
var getNormalizedUnicodes = getLookupTableFactory(function (t) {
t['\u00A8'] = '\u0020\u0308';
t['\u00AF'] = '\u0020\u0304';
t['\u00B4'] = '\u0020\u0301';
t['\u00B5'] = '\u03BC';
t['\u00B8'] = '\u0020\u0327';
t['\u0132'] = '\u0049\u004A';
t['\u0133'] = '\u0069\u006A';
t['\u013F'] = '\u004C\u00B7';
t['\u0140'] = '\u006C\u00B7';
t['\u0149'] = '\u02BC\u006E';
t['\u017F'] = '\u0073';
t['\u01C4'] = '\u0044\u017D';
t['\u01C5'] = '\u0044\u017E';
t['\u01C6'] = '\u0064\u017E';
t['\u01C7'] = '\u004C\u004A';
t['\u01C8'] = '\u004C\u006A';
t['\u01C9'] = '\u006C\u006A';
t['\u01CA'] = '\u004E\u004A';
t['\u01CB'] = '\u004E\u006A';
t['\u01CC'] = '\u006E\u006A';
t['\u01F1'] = '\u0044\u005A';
t['\u01F2'] = '\u0044\u007A';
t['\u01F3'] = '\u0064\u007A';
t['\u02D8'] = '\u0020\u0306';
t['\u02D9'] = '\u0020\u0307';
t['\u02DA'] = '\u0020\u030A';
t['\u02DB'] = '\u0020\u0328';
t['\u02DC'] = '\u0020\u0303';
t['\u02DD'] = '\u0020\u030B';
t['\u037A'] = '\u0020\u0345';
t['\u0384'] = '\u0020\u0301';
t['\u03D0'] = '\u03B2';
t['\u03D1'] = '\u03B8';
t['\u03D2'] = '\u03A5';
t['\u03D5'] = '\u03C6';
t['\u03D6'] = '\u03C0';
t['\u03F0'] = '\u03BA';
t['\u03F1'] = '\u03C1';
t['\u03F2'] = '\u03C2';
t['\u03F4'] = '\u0398';
t['\u03F5'] = '\u03B5';
t['\u03F9'] = '\u03A3';
t['\u0587'] = '\u0565\u0582';
t['\u0675'] = '\u0627\u0674';
t['\u0676'] = '\u0648\u0674';
t['\u0677'] = '\u06C7\u0674';
t['\u0678'] = '\u064A\u0674';
t['\u0E33'] = '\u0E4D\u0E32';
t['\u0EB3'] = '\u0ECD\u0EB2';
t['\u0EDC'] = '\u0EAB\u0E99';
t['\u0EDD'] = '\u0EAB\u0EA1';
t['\u0F77'] = '\u0FB2\u0F81';
t['\u0F79'] = '\u0FB3\u0F81';
t['\u1E9A'] = '\u0061\u02BE';
t['\u1FBD'] = '\u0020\u0313';
t['\u1FBF'] = '\u0020\u0313';
t['\u1FC0'] = '\u0020\u0342';
t['\u1FFE'] = '\u0020\u0314';
t['\u2002'] = '\u0020';
t['\u2003'] = '\u0020';
t['\u2004'] = '\u0020';
t['\u2005'] = '\u0020';
t['\u2006'] = '\u0020';
t['\u2008'] = '\u0020';
t['\u2009'] = '\u0020';
t['\u200A'] = '\u0020';
t['\u2017'] = '\u0020\u0333';
t['\u2024'] = '\u002E';
t['\u2025'] = '\u002E\u002E';
t['\u2026'] = '\u002E\u002E\u002E';
t['\u2033'] = '\u2032\u2032';
t['\u2034'] = '\u2032\u2032\u2032';
t['\u2036'] = '\u2035\u2035';
t['\u2037'] = '\u2035\u2035\u2035';
t['\u203C'] = '\u0021\u0021';
t['\u203E'] = '\u0020\u0305';
t['\u2047'] = '\u003F\u003F';
t['\u2048'] = '\u003F\u0021';
t['\u2049'] = '\u0021\u003F';
t['\u2057'] = '\u2032\u2032\u2032\u2032';
t['\u205F'] = '\u0020';
t['\u20A8'] = '\u0052\u0073';
t['\u2100'] = '\u0061\u002F\u0063';
t['\u2101'] = '\u0061\u002F\u0073';
t['\u2103'] = '\u00B0\u0043';
t['\u2105'] = '\u0063\u002F\u006F';
t['\u2106'] = '\u0063\u002F\u0075';
t['\u2107'] = '\u0190';
t['\u2109'] = '\u00B0\u0046';
t['\u2116'] = '\u004E\u006F';
t['\u2121'] = '\u0054\u0045\u004C';
t['\u2135'] = '\u05D0';
t['\u2136'] = '\u05D1';
t['\u2137'] = '\u05D2';
t['\u2138'] = '\u05D3';
t['\u213B'] = '\u0046\u0041\u0058';
t['\u2160'] = '\u0049';
t['\u2161'] = '\u0049\u0049';
t['\u2162'] = '\u0049\u0049\u0049';
t['\u2163'] = '\u0049\u0056';
t['\u2164'] = '\u0056';
t['\u2165'] = '\u0056\u0049';
t['\u2166'] = '\u0056\u0049\u0049';
t['\u2167'] = '\u0056\u0049\u0049\u0049';
t['\u2168'] = '\u0049\u0058';
t['\u2169'] = '\u0058';
t['\u216A'] = '\u0058\u0049';
t['\u216B'] = '\u0058\u0049\u0049';
t['\u216C'] = '\u004C';
t['\u216D'] = '\u0043';
t['\u216E'] = '\u0044';
t['\u216F'] = '\u004D';
t['\u2170'] = '\u0069';
t['\u2171'] = '\u0069\u0069';
t['\u2172'] = '\u0069\u0069\u0069';
t['\u2173'] = '\u0069\u0076';
t['\u2174'] = '\u0076';
t['\u2175'] = '\u0076\u0069';
t['\u2176'] = '\u0076\u0069\u0069';
t['\u2177'] = '\u0076\u0069\u0069\u0069';
t['\u2178'] = '\u0069\u0078';
t['\u2179'] = '\u0078';
t['\u217A'] = '\u0078\u0069';
t['\u217B'] = '\u0078\u0069\u0069';
t['\u217C'] = '\u006C';
t['\u217D'] = '\u0063';
t['\u217E'] = '\u0064';
t['\u217F'] = '\u006D';
t['\u222C'] = '\u222B\u222B';
t['\u222D'] = '\u222B\u222B\u222B';
t['\u222F'] = '\u222E\u222E';
t['\u2230'] = '\u222E\u222E\u222E';
t['\u2474'] = '\u0028\u0031\u0029';
t['\u2475'] = '\u0028\u0032\u0029';
t['\u2476'] = '\u0028\u0033\u0029';
t['\u2477'] = '\u0028\u0034\u0029';
t['\u2478'] = '\u0028\u0035\u0029';
t['\u2479'] = '\u0028\u0036\u0029';
t['\u247A'] = '\u0028\u0037\u0029';
t['\u247B'] = '\u0028\u0038\u0029';
t['\u247C'] = '\u0028\u0039\u0029';
t['\u247D'] = '\u0028\u0031\u0030\u0029';
t['\u247E'] = '\u0028\u0031\u0031\u0029';
t['\u247F'] = '\u0028\u0031\u0032\u0029';
t['\u2480'] = '\u0028\u0031\u0033\u0029';
t['\u2481'] = '\u0028\u0031\u0034\u0029';
t['\u2482'] = '\u0028\u0031\u0035\u0029';
t['\u2483'] = '\u0028\u0031\u0036\u0029';
t['\u2484'] = '\u0028\u0031\u0037\u0029';
t['\u2485'] = '\u0028\u0031\u0038\u0029';
t['\u2486'] = '\u0028\u0031\u0039\u0029';
t['\u2487'] = '\u0028\u0032\u0030\u0029';
t['\u2488'] = '\u0031\u002E';
t['\u2489'] = '\u0032\u002E';
t['\u248A'] = '\u0033\u002E';
t['\u248B'] = '\u0034\u002E';
t['\u248C'] = '\u0035\u002E';
t['\u248D'] = '\u0036\u002E';
t['\u248E'] = '\u0037\u002E';
t['\u248F'] = '\u0038\u002E';
t['\u2490'] = '\u0039\u002E';
t['\u2491'] = '\u0031\u0030\u002E';
t['\u2492'] = '\u0031\u0031\u002E';
t['\u2493'] = '\u0031\u0032\u002E';
t['\u2494'] = '\u0031\u0033\u002E';
t['\u2495'] = '\u0031\u0034\u002E';
t['\u2496'] = '\u0031\u0035\u002E';
t['\u2497'] = '\u0031\u0036\u002E';
t['\u2498'] = '\u0031\u0037\u002E';
t['\u2499'] = '\u0031\u0038\u002E';
t['\u249A'] = '\u0031\u0039\u002E';
t['\u249B'] = '\u0032\u0030\u002E';
t['\u249C'] = '\u0028\u0061\u0029';
t['\u249D'] = '\u0028\u0062\u0029';
t['\u249E'] = '\u0028\u0063\u0029';
t['\u249F'] = '\u0028\u0064\u0029';
t['\u24A0'] = '\u0028\u0065\u0029';
t['\u24A1'] = '\u0028\u0066\u0029';
t['\u24A2'] = '\u0028\u0067\u0029';
t['\u24A3'] = '\u0028\u0068\u0029';
t['\u24A4'] = '\u0028\u0069\u0029';
t['\u24A5'] = '\u0028\u006A\u0029';
t['\u24A6'] = '\u0028\u006B\u0029';
t['\u24A7'] = '\u0028\u006C\u0029';
t['\u24A8'] = '\u0028\u006D\u0029';
t['\u24A9'] = '\u0028\u006E\u0029';
t['\u24AA'] = '\u0028\u006F\u0029';
t['\u24AB'] = '\u0028\u0070\u0029';
t['\u24AC'] = '\u0028\u0071\u0029';
t['\u24AD'] = '\u0028\u0072\u0029';
t['\u24AE'] = '\u0028\u0073\u0029';
t['\u24AF'] = '\u0028\u0074\u0029';
t['\u24B0'] = '\u0028\u0075\u0029';
t['\u24B1'] = '\u0028\u0076\u0029';
t['\u24B2'] = '\u0028\u0077\u0029';
t['\u24B3'] = '\u0028\u0078\u0029';
t['\u24B4'] = '\u0028\u0079\u0029';
t['\u24B5'] = '\u0028\u007A\u0029';
t['\u2A0C'] = '\u222B\u222B\u222B\u222B';
t['\u2A74'] = '\u003A\u003A\u003D';
t['\u2A75'] = '\u003D\u003D';
t['\u2A76'] = '\u003D\u003D\u003D';
t['\u2E9F'] = '\u6BCD';
t['\u2EF3'] = '\u9F9F';
t['\u2F00'] = '\u4E00';
t['\u2F01'] = '\u4E28';
t['\u2F02'] = '\u4E36';
t['\u2F03'] = '\u4E3F';
t['\u2F04'] = '\u4E59';
t['\u2F05'] = '\u4E85';
t['\u2F06'] = '\u4E8C';
t['\u2F07'] = '\u4EA0';
t['\u2F08'] = '\u4EBA';
t['\u2F09'] = '\u513F';
t['\u2F0A'] = '\u5165';
t['\u2F0B'] = '\u516B';
t['\u2F0C'] = '\u5182';
t['\u2F0D'] = '\u5196';
t['\u2F0E'] = '\u51AB';
t['\u2F0F'] = '\u51E0';
t['\u2F10'] = '\u51F5';
t['\u2F11'] = '\u5200';
t['\u2F12'] = '\u529B';
t['\u2F13'] = '\u52F9';
t['\u2F14'] = '\u5315';
t['\u2F15'] = '\u531A';
t['\u2F16'] = '\u5338';
t['\u2F17'] = '\u5341';
t['\u2F18'] = '\u535C';
t['\u2F19'] = '\u5369';
t['\u2F1A'] = '\u5382';
t['\u2F1B'] = '\u53B6';
t['\u2F1C'] = '\u53C8';
t['\u2F1D'] = '\u53E3';
t['\u2F1E'] = '\u56D7';
t['\u2F1F'] = '\u571F';
t['\u2F20'] = '\u58EB';
t['\u2F21'] = '\u5902';
t['\u2F22'] = '\u590A';
t['\u2F23'] = '\u5915';
t['\u2F24'] = '\u5927';
t['\u2F25'] = '\u5973';
t['\u2F26'] = '\u5B50';
t['\u2F27'] = '\u5B80';
t['\u2F28'] = '\u5BF8';
t['\u2F29'] = '\u5C0F';
t['\u2F2A'] = '\u5C22';
t['\u2F2B'] = '\u5C38';
t['\u2F2C'] = '\u5C6E';
t['\u2F2D'] = '\u5C71';
t['\u2F2E'] = '\u5DDB';
t['\u2F2F'] = '\u5DE5';
t['\u2F30'] = '\u5DF1';
t['\u2F31'] = '\u5DFE';
t['\u2F32'] = '\u5E72';
t['\u2F33'] = '\u5E7A';
t['\u2F34'] = '\u5E7F';
t['\u2F35'] = '\u5EF4';
t['\u2F36'] = '\u5EFE';
t['\u2F37'] = '\u5F0B';
t['\u2F38'] = '\u5F13';
t['\u2F39'] = '\u5F50';
t['\u2F3A'] = '\u5F61';
t['\u2F3B'] = '\u5F73';
t['\u2F3C'] = '\u5FC3';
t['\u2F3D'] = '\u6208';
t['\u2F3E'] = '\u6236';
t['\u2F3F'] = '\u624B';
t['\u2F40'] = '\u652F';
t['\u2F41'] = '\u6534';
t['\u2F42'] = '\u6587';
t['\u2F43'] = '\u6597';
t['\u2F44'] = '\u65A4';
t['\u2F45'] = '\u65B9';
t['\u2F46'] = '\u65E0';
t['\u2F47'] = '\u65E5';
t['\u2F48'] = '\u66F0';
t['\u2F49'] = '\u6708';
t['\u2F4A'] = '\u6728';
t['\u2F4B'] = '\u6B20';
t['\u2F4C'] = '\u6B62';
t['\u2F4D'] = '\u6B79';
t['\u2F4E'] = '\u6BB3';
t['\u2F4F'] = '\u6BCB';
t['\u2F50'] = '\u6BD4';
t['\u2F51'] = '\u6BDB';
t['\u2F52'] = '\u6C0F';
t['\u2F53'] = '\u6C14';
t['\u2F54'] = '\u6C34';
t['\u2F55'] = '\u706B';
t['\u2F56'] = '\u722A';
t['\u2F57'] = '\u7236';
t['\u2F58'] = '\u723B';
t['\u2F59'] = '\u723F';
t['\u2F5A'] = '\u7247';
t['\u2F5B'] = '\u7259';
t['\u2F5C'] = '\u725B';
t['\u2F5D'] = '\u72AC';
t['\u2F5E'] = '\u7384';
t['\u2F5F'] = '\u7389';
t['\u2F60'] = '\u74DC';
t['\u2F61'] = '\u74E6';
t['\u2F62'] = '\u7518';
t['\u2F63'] = '\u751F';
t['\u2F64'] = '\u7528';
t['\u2F65'] = '\u7530';
t['\u2F66'] = '\u758B';
t['\u2F67'] = '\u7592';
t['\u2F68'] = '\u7676';
t['\u2F69'] = '\u767D';
t['\u2F6A'] = '\u76AE';
t['\u2F6B'] = '\u76BF';
t['\u2F6C'] = '\u76EE';
t['\u2F6D'] = '\u77DB';
t['\u2F6E'] = '\u77E2';
t['\u2F6F'] = '\u77F3';
t['\u2F70'] = '\u793A';
t['\u2F71'] = '\u79B8';
t['\u2F72'] = '\u79BE';
t['\u2F73'] = '\u7A74';
t['\u2F74'] = '\u7ACB';
t['\u2F75'] = '\u7AF9';
t['\u2F76'] = '\u7C73';
t['\u2F77'] = '\u7CF8';
t['\u2F78'] = '\u7F36';
t['\u2F79'] = '\u7F51';
t['\u2F7A'] = '\u7F8A';
t['\u2F7B'] = '\u7FBD';
t['\u2F7C'] = '\u8001';
t['\u2F7D'] = '\u800C';
t['\u2F7E'] = '\u8012';
t['\u2F7F'] = '\u8033';
t['\u2F80'] = '\u807F';
t['\u2F81'] = '\u8089';
t['\u2F82'] = '\u81E3';
t['\u2F83'] = '\u81EA';
t['\u2F84'] = '\u81F3';
t['\u2F85'] = '\u81FC';
t['\u2F86'] = '\u820C';
t['\u2F87'] = '\u821B';
t['\u2F88'] = '\u821F';
t['\u2F89'] = '\u826E';
t['\u2F8A'] = '\u8272';
t['\u2F8B'] = '\u8278';
t['\u2F8C'] = '\u864D';
t['\u2F8D'] = '\u866B';
t['\u2F8E'] = '\u8840';
t['\u2F8F'] = '\u884C';
t['\u2F90'] = '\u8863';
t['\u2F91'] = '\u897E';
t['\u2F92'] = '\u898B';
t['\u2F93'] = '\u89D2';
t['\u2F94'] = '\u8A00';
t['\u2F95'] = '\u8C37';
t['\u2F96'] = '\u8C46';
t['\u2F97'] = '\u8C55';
t['\u2F98'] = '\u8C78';
t['\u2F99'] = '\u8C9D';
t['\u2F9A'] = '\u8D64';
t['\u2F9B'] = '\u8D70';
t['\u2F9C'] = '\u8DB3';
t['\u2F9D'] = '\u8EAB';
t['\u2F9E'] = '\u8ECA';
t['\u2F9F'] = '\u8F9B';
t['\u2FA0'] = '\u8FB0';
t['\u2FA1'] = '\u8FB5';
t['\u2FA2'] = '\u9091';
t['\u2FA3'] = '\u9149';
t['\u2FA4'] = '\u91C6';
t['\u2FA5'] = '\u91CC';
t['\u2FA6'] = '\u91D1';
t['\u2FA7'] = '\u9577';
t['\u2FA8'] = '\u9580';
t['\u2FA9'] = '\u961C';
t['\u2FAA'] = '\u96B6';
t['\u2FAB'] = '\u96B9';
t['\u2FAC'] = '\u96E8';
t['\u2FAD'] = '\u9751';
t['\u2FAE'] = '\u975E';
t['\u2FAF'] = '\u9762';
t['\u2FB0'] = '\u9769';
t['\u2FB1'] = '\u97CB';
t['\u2FB2'] = '\u97ED';
t['\u2FB3'] = '\u97F3';
t['\u2FB4'] = '\u9801';
t['\u2FB5'] = '\u98A8';
t['\u2FB6'] = '\u98DB';
t['\u2FB7'] = '\u98DF';
t['\u2FB8'] = '\u9996';
t['\u2FB9'] = '\u9999';
t['\u2FBA'] = '\u99AC';
t['\u2FBB'] = '\u9AA8';
t['\u2FBC'] = '\u9AD8';
t['\u2FBD'] = '\u9ADF';
t['\u2FBE'] = '\u9B25';
t['\u2FBF'] = '\u9B2F';
t['\u2FC0'] = '\u9B32';
t['\u2FC1'] = '\u9B3C';
t['\u2FC2'] = '\u9B5A';
t['\u2FC3'] = '\u9CE5';
t['\u2FC4'] = '\u9E75';
t['\u2FC5'] = '\u9E7F';
t['\u2FC6'] = '\u9EA5';
t['\u2FC7'] = '\u9EBB';
t['\u2FC8'] = '\u9EC3';
t['\u2FC9'] = '\u9ECD';
t['\u2FCA'] = '\u9ED1';
t['\u2FCB'] = '\u9EF9';
t['\u2FCC'] = '\u9EFD';
t['\u2FCD'] = '\u9F0E';
t['\u2FCE'] = '\u9F13';
t['\u2FCF'] = '\u9F20';
t['\u2FD0'] = '\u9F3B';
t['\u2FD1'] = '\u9F4A';
t['\u2FD2'] = '\u9F52';
t['\u2FD3'] = '\u9F8D';
t['\u2FD4'] = '\u9F9C';
t['\u2FD5'] = '\u9FA0';
t['\u3036'] = '\u3012';
t['\u3038'] = '\u5341';
t['\u3039'] = '\u5344';
t['\u303A'] = '\u5345';
t['\u309B'] = '\u0020\u3099';
t['\u309C'] = '\u0020\u309A';
t['\u3131'] = '\u1100';
t['\u3132'] = '\u1101';
t['\u3133'] = '\u11AA';
t['\u3134'] = '\u1102';
t['\u3135'] = '\u11AC';
t['\u3136'] = '\u11AD';
t['\u3137'] = '\u1103';
t['\u3138'] = '\u1104';
t['\u3139'] = '\u1105';
t['\u313A'] = '\u11B0';
t['\u313B'] = '\u11B1';
t['\u313C'] = '\u11B2';
t['\u313D'] = '\u11B3';
t['\u313E'] = '\u11B4';
t['\u313F'] = '\u11B5';
t['\u3140'] = '\u111A';
t['\u3141'] = '\u1106';
t['\u3142'] = '\u1107';
t['\u3143'] = '\u1108';
t['\u3144'] = '\u1121';
t['\u3145'] = '\u1109';
t['\u3146'] = '\u110A';
t['\u3147'] = '\u110B';
t['\u3148'] = '\u110C';
t['\u3149'] = '\u110D';
t['\u314A'] = '\u110E';
t['\u314B'] = '\u110F';
t['\u314C'] = '\u1110';
t['\u314D'] = '\u1111';
t['\u314E'] = '\u1112';
t['\u314F'] = '\u1161';
t['\u3150'] = '\u1162';
t['\u3151'] = '\u1163';
t['\u3152'] = '\u1164';
t['\u3153'] = '\u1165';
t['\u3154'] = '\u1166';
t['\u3155'] = '\u1167';
t['\u3156'] = '\u1168';
t['\u3157'] = '\u1169';
t['\u3158'] = '\u116A';
t['\u3159'] = '\u116B';
t['\u315A'] = '\u116C';
t['\u315B'] = '\u116D';
t['\u315C'] = '\u116E';
t['\u315D'] = '\u116F';
t['\u315E'] = '\u1170';
t['\u315F'] = '\u1171';
t['\u3160'] = '\u1172';
t['\u3161'] = '\u1173';
t['\u3162'] = '\u1174';
t['\u3163'] = '\u1175';
t['\u3164'] = '\u1160';
t['\u3165'] = '\u1114';
t['\u3166'] = '\u1115';
t['\u3167'] = '\u11C7';
t['\u3168'] = '\u11C8';
t['\u3169'] = '\u11CC';
t['\u316A'] = '\u11CE';
t['\u316B'] = '\u11D3';
t['\u316C'] = '\u11D7';
t['\u316D'] = '\u11D9';
t['\u316E'] = '\u111C';
t['\u316F'] = '\u11DD';
t['\u3170'] = '\u11DF';
t['\u3171'] = '\u111D';
t['\u3172'] = '\u111E';
t['\u3173'] = '\u1120';
t['\u3174'] = '\u1122';
t['\u3175'] = '\u1123';
t['\u3176'] = '\u1127';
t['\u3177'] = '\u1129';
t['\u3178'] = '\u112B';
t['\u3179'] = '\u112C';
t['\u317A'] = '\u112D';
t['\u317B'] = '\u112E';
t['\u317C'] = '\u112F';
t['\u317D'] = '\u1132';
t['\u317E'] = '\u1136';
t['\u317F'] = '\u1140';
t['\u3180'] = '\u1147';
t['\u3181'] = '\u114C';
t['\u3182'] = '\u11F1';
t['\u3183'] = '\u11F2';
t['\u3184'] = '\u1157';
t['\u3185'] = '\u1158';
t['\u3186'] = '\u1159';
t['\u3187'] = '\u1184';
t['\u3188'] = '\u1185';
t['\u3189'] = '\u1188';
t['\u318A'] = '\u1191';
t['\u318B'] = '\u1192';
t['\u318C'] = '\u1194';
t['\u318D'] = '\u119E';
t['\u318E'] = '\u11A1';
t['\u3200'] = '\u0028\u1100\u0029';
t['\u3201'] = '\u0028\u1102\u0029';
t['\u3202'] = '\u0028\u1103\u0029';
t['\u3203'] = '\u0028\u1105\u0029';
t['\u3204'] = '\u0028\u1106\u0029';
t['\u3205'] = '\u0028\u1107\u0029';
t['\u3206'] = '\u0028\u1109\u0029';
t['\u3207'] = '\u0028\u110B\u0029';
t['\u3208'] = '\u0028\u110C\u0029';
t['\u3209'] = '\u0028\u110E\u0029';
t['\u320A'] = '\u0028\u110F\u0029';
t['\u320B'] = '\u0028\u1110\u0029';
t['\u320C'] = '\u0028\u1111\u0029';
t['\u320D'] = '\u0028\u1112\u0029';
t['\u320E'] = '\u0028\u1100\u1161\u0029';
t['\u320F'] = '\u0028\u1102\u1161\u0029';
t['\u3210'] = '\u0028\u1103\u1161\u0029';
t['\u3211'] = '\u0028\u1105\u1161\u0029';
t['\u3212'] = '\u0028\u1106\u1161\u0029';
t['\u3213'] = '\u0028\u1107\u1161\u0029';
t['\u3214'] = '\u0028\u1109\u1161\u0029';
t['\u3215'] = '\u0028\u110B\u1161\u0029';
t['\u3216'] = '\u0028\u110C\u1161\u0029';
t['\u3217'] = '\u0028\u110E\u1161\u0029';
t['\u3218'] = '\u0028\u110F\u1161\u0029';
t['\u3219'] = '\u0028\u1110\u1161\u0029';
t['\u321A'] = '\u0028\u1111\u1161\u0029';
t['\u321B'] = '\u0028\u1112\u1161\u0029';
t['\u321C'] = '\u0028\u110C\u116E\u0029';
t['\u321D'] = '\u0028\u110B\u1169\u110C\u1165\u11AB\u0029';
t['\u321E'] = '\u0028\u110B\u1169\u1112\u116E\u0029';
t['\u3220'] = '\u0028\u4E00\u0029';
t['\u3221'] = '\u0028\u4E8C\u0029';
t['\u3222'] = '\u0028\u4E09\u0029';
t['\u3223'] = '\u0028\u56DB\u0029';
t['\u3224'] = '\u0028\u4E94\u0029';
t['\u3225'] = '\u0028\u516D\u0029';
t['\u3226'] = '\u0028\u4E03\u0029';
t['\u3227'] = '\u0028\u516B\u0029';
t['\u3228'] = '\u0028\u4E5D\u0029';
t['\u3229'] = '\u0028\u5341\u0029';
t['\u322A'] = '\u0028\u6708\u0029';
t['\u322B'] = '\u0028\u706B\u0029';
t['\u322C'] = '\u0028\u6C34\u0029';
t['\u322D'] = '\u0028\u6728\u0029';
t['\u322E'] = '\u0028\u91D1\u0029';
t['\u322F'] = '\u0028\u571F\u0029';
t['\u3230'] = '\u0028\u65E5\u0029';
t['\u3231'] = '\u0028\u682A\u0029';
t['\u3232'] = '\u0028\u6709\u0029';
t['\u3233'] = '\u0028\u793E\u0029';
t['\u3234'] = '\u0028\u540D\u0029';
t['\u3235'] = '\u0028\u7279\u0029';
t['\u3236'] = '\u0028\u8CA1\u0029';
t['\u3237'] = '\u0028\u795D\u0029';
t['\u3238'] = '\u0028\u52B4\u0029';
t['\u3239'] = '\u0028\u4EE3\u0029';
t['\u323A'] = '\u0028\u547C\u0029';
t['\u323B'] = '\u0028\u5B66\u0029';
t['\u323C'] = '\u0028\u76E3\u0029';
t['\u323D'] = '\u0028\u4F01\u0029';
t['\u323E'] = '\u0028\u8CC7\u0029';
t['\u323F'] = '\u0028\u5354\u0029';
t['\u3240'] = '\u0028\u796D\u0029';
t['\u3241'] = '\u0028\u4F11\u0029';
t['\u3242'] = '\u0028\u81EA\u0029';
t['\u3243'] = '\u0028\u81F3\u0029';
t['\u32C0'] = '\u0031\u6708';
t['\u32C1'] = '\u0032\u6708';
t['\u32C2'] = '\u0033\u6708';
t['\u32C3'] = '\u0034\u6708';
t['\u32C4'] = '\u0035\u6708';
t['\u32C5'] = '\u0036\u6708';
t['\u32C6'] = '\u0037\u6708';
t['\u32C7'] = '\u0038\u6708';
t['\u32C8'] = '\u0039\u6708';
t['\u32C9'] = '\u0031\u0030\u6708';
t['\u32CA'] = '\u0031\u0031\u6708';
t['\u32CB'] = '\u0031\u0032\u6708';
t['\u3358'] = '\u0030\u70B9';
t['\u3359'] = '\u0031\u70B9';
t['\u335A'] = '\u0032\u70B9';
t['\u335B'] = '\u0033\u70B9';
t['\u335C'] = '\u0034\u70B9';
t['\u335D'] = '\u0035\u70B9';
t['\u335E'] = '\u0036\u70B9';
t['\u335F'] = '\u0037\u70B9';
t['\u3360'] = '\u0038\u70B9';
t['\u3361'] = '\u0039\u70B9';
t['\u3362'] = '\u0031\u0030\u70B9';
t['\u3363'] = '\u0031\u0031\u70B9';
t['\u3364'] = '\u0031\u0032\u70B9';
t['\u3365'] = '\u0031\u0033\u70B9';
t['\u3366'] = '\u0031\u0034\u70B9';
t['\u3367'] = '\u0031\u0035\u70B9';
t['\u3368'] = '\u0031\u0036\u70B9';
t['\u3369'] = '\u0031\u0037\u70B9';
t['\u336A'] = '\u0031\u0038\u70B9';
t['\u336B'] = '\u0031\u0039\u70B9';
t['\u336C'] = '\u0032\u0030\u70B9';
t['\u336D'] = '\u0032\u0031\u70B9';
t['\u336E'] = '\u0032\u0032\u70B9';
t['\u336F'] = '\u0032\u0033\u70B9';
t['\u3370'] = '\u0032\u0034\u70B9';
t['\u33E0'] = '\u0031\u65E5';
t['\u33E1'] = '\u0032\u65E5';
t['\u33E2'] = '\u0033\u65E5';
t['\u33E3'] = '\u0034\u65E5';
t['\u33E4'] = '\u0035\u65E5';
t['\u33E5'] = '\u0036\u65E5';
t['\u33E6'] = '\u0037\u65E5';
t['\u33E7'] = '\u0038\u65E5';
t['\u33E8'] = '\u0039\u65E5';
t['\u33E9'] = '\u0031\u0030\u65E5';
t['\u33EA'] = '\u0031\u0031\u65E5';
t['\u33EB'] = '\u0031\u0032\u65E5';
t['\u33EC'] = '\u0031\u0033\u65E5';
t['\u33ED'] = '\u0031\u0034\u65E5';
t['\u33EE'] = '\u0031\u0035\u65E5';
t['\u33EF'] = '\u0031\u0036\u65E5';
t['\u33F0'] = '\u0031\u0037\u65E5';
t['\u33F1'] = '\u0031\u0038\u65E5';
t['\u33F2'] = '\u0031\u0039\u65E5';
t['\u33F3'] = '\u0032\u0030\u65E5';
t['\u33F4'] = '\u0032\u0031\u65E5';
t['\u33F5'] = '\u0032\u0032\u65E5';
t['\u33F6'] = '\u0032\u0033\u65E5';
t['\u33F7'] = '\u0032\u0034\u65E5';
t['\u33F8'] = '\u0032\u0035\u65E5';
t['\u33F9'] = '\u0032\u0036\u65E5';
t['\u33FA'] = '\u0032\u0037\u65E5';
t['\u33FB'] = '\u0032\u0038\u65E5';
t['\u33FC'] = '\u0032\u0039\u65E5';
t['\u33FD'] = '\u0033\u0030\u65E5';
t['\u33FE'] = '\u0033\u0031\u65E5';
t['\uFB00'] = '\u0066\u0066';
t['\uFB01'] = '\u0066\u0069';
t['\uFB02'] = '\u0066\u006C';
t['\uFB03'] = '\u0066\u0066\u0069';
t['\uFB04'] = '\u0066\u0066\u006C';
t['\uFB05'] = '\u017F\u0074';
t['\uFB06'] = '\u0073\u0074';
t['\uFB13'] = '\u0574\u0576';
t['\uFB14'] = '\u0574\u0565';
t['\uFB15'] = '\u0574\u056B';
t['\uFB16'] = '\u057E\u0576';
t['\uFB17'] = '\u0574\u056D';
t['\uFB4F'] = '\u05D0\u05DC';
t['\uFB50'] = '\u0671';
t['\uFB51'] = '\u0671';
t['\uFB52'] = '\u067B';
t['\uFB53'] = '\u067B';
t['\uFB54'] = '\u067B';
t['\uFB55'] = '\u067B';
t['\uFB56'] = '\u067E';
t['\uFB57'] = '\u067E';
t['\uFB58'] = '\u067E';
t['\uFB59'] = '\u067E';
t['\uFB5A'] = '\u0680';
t['\uFB5B'] = '\u0680';
t['\uFB5C'] = '\u0680';
t['\uFB5D'] = '\u0680';
t['\uFB5E'] = '\u067A';
t['\uFB5F'] = '\u067A';
t['\uFB60'] = '\u067A';
t['\uFB61'] = '\u067A';
t['\uFB62'] = '\u067F';
t['\uFB63'] = '\u067F';
t['\uFB64'] = '\u067F';
t['\uFB65'] = '\u067F';
t['\uFB66'] = '\u0679';
t['\uFB67'] = '\u0679';
t['\uFB68'] = '\u0679';
t['\uFB69'] = '\u0679';
t['\uFB6A'] = '\u06A4';
t['\uFB6B'] = '\u06A4';
t['\uFB6C'] = '\u06A4';
t['\uFB6D'] = '\u06A4';
t['\uFB6E'] = '\u06A6';
t['\uFB6F'] = '\u06A6';
t['\uFB70'] = '\u06A6';
t['\uFB71'] = '\u06A6';
t['\uFB72'] = '\u0684';
t['\uFB73'] = '\u0684';
t['\uFB74'] = '\u0684';
t['\uFB75'] = '\u0684';
t['\uFB76'] = '\u0683';
t['\uFB77'] = '\u0683';
t['\uFB78'] = '\u0683';
t['\uFB79'] = '\u0683';
t['\uFB7A'] = '\u0686';
t['\uFB7B'] = '\u0686';
t['\uFB7C'] = '\u0686';
t['\uFB7D'] = '\u0686';
t['\uFB7E'] = '\u0687';
t['\uFB7F'] = '\u0687';
t['\uFB80'] = '\u0687';
t['\uFB81'] = '\u0687';
t['\uFB82'] = '\u068D';
t['\uFB83'] = '\u068D';
t['\uFB84'] = '\u068C';
t['\uFB85'] = '\u068C';
t['\uFB86'] = '\u068E';
t['\uFB87'] = '\u068E';
t['\uFB88'] = '\u0688';
t['\uFB89'] = '\u0688';
t['\uFB8A'] = '\u0698';
t['\uFB8B'] = '\u0698';
t['\uFB8C'] = '\u0691';
t['\uFB8D'] = '\u0691';
t['\uFB8E'] = '\u06A9';
t['\uFB8F'] = '\u06A9';
t['\uFB90'] = '\u06A9';
t['\uFB91'] = '\u06A9';
t['\uFB92'] = '\u06AF';
t['\uFB93'] = '\u06AF';
t['\uFB94'] = '\u06AF';
t['\uFB95'] = '\u06AF';
t['\uFB96'] = '\u06B3';
t['\uFB97'] = '\u06B3';
t['\uFB98'] = '\u06B3';
t['\uFB99'] = '\u06B3';
t['\uFB9A'] = '\u06B1';
t['\uFB9B'] = '\u06B1';
t['\uFB9C'] = '\u06B1';
t['\uFB9D'] = '\u06B1';
t['\uFB9E'] = '\u06BA';
t['\uFB9F'] = '\u06BA';
t['\uFBA0'] = '\u06BB';
t['\uFBA1'] = '\u06BB';
t['\uFBA2'] = '\u06BB';
t['\uFBA3'] = '\u06BB';
t['\uFBA4'] = '\u06C0';
t['\uFBA5'] = '\u06C0';
t['\uFBA6'] = '\u06C1';
t['\uFBA7'] = '\u06C1';
t['\uFBA8'] = '\u06C1';
t['\uFBA9'] = '\u06C1';
t['\uFBAA'] = '\u06BE';
t['\uFBAB'] = '\u06BE';
t['\uFBAC'] = '\u06BE';
t['\uFBAD'] = '\u06BE';
t['\uFBAE'] = '\u06D2';
t['\uFBAF'] = '\u06D2';
t['\uFBB0'] = '\u06D3';
t['\uFBB1'] = '\u06D3';
t['\uFBD3'] = '\u06AD';
t['\uFBD4'] = '\u06AD';
t['\uFBD5'] = '\u06AD';
t['\uFBD6'] = '\u06AD';
t['\uFBD7'] = '\u06C7';
t['\uFBD8'] = '\u06C7';
t['\uFBD9'] = '\u06C6';
t['\uFBDA'] = '\u06C6';
t['\uFBDB'] = '\u06C8';
t['\uFBDC'] = '\u06C8';
t['\uFBDD'] = '\u0677';
t['\uFBDE'] = '\u06CB';
t['\uFBDF'] = '\u06CB';
t['\uFBE0'] = '\u06C5';
t['\uFBE1'] = '\u06C5';
t['\uFBE2'] = '\u06C9';
t['\uFBE3'] = '\u06C9';
t['\uFBE4'] = '\u06D0';
t['\uFBE5'] = '\u06D0';
t['\uFBE6'] = '\u06D0';
t['\uFBE7'] = '\u06D0';
t['\uFBE8'] = '\u0649';
t['\uFBE9'] = '\u0649';
t['\uFBEA'] = '\u0626\u0627';
t['\uFBEB'] = '\u0626\u0627';
t['\uFBEC'] = '\u0626\u06D5';
t['\uFBED'] = '\u0626\u06D5';
t['\uFBEE'] = '\u0626\u0648';
t['\uFBEF'] = '\u0626\u0648';
t['\uFBF0'] = '\u0626\u06C7';
t['\uFBF1'] = '\u0626\u06C7';
t['\uFBF2'] = '\u0626\u06C6';
t['\uFBF3'] = '\u0626\u06C6';
t['\uFBF4'] = '\u0626\u06C8';
t['\uFBF5'] = '\u0626\u06C8';
t['\uFBF6'] = '\u0626\u06D0';
t['\uFBF7'] = '\u0626\u06D0';
t['\uFBF8'] = '\u0626\u06D0';
t['\uFBF9'] = '\u0626\u0649';
t['\uFBFA'] = '\u0626\u0649';
t['\uFBFB'] = '\u0626\u0649';
t['\uFBFC'] = '\u06CC';
t['\uFBFD'] = '\u06CC';
t['\uFBFE'] = '\u06CC';
t['\uFBFF'] = '\u06CC';
t['\uFC00'] = '\u0626\u062C';
t['\uFC01'] = '\u0626\u062D';
t['\uFC02'] = '\u0626\u0645';
t['\uFC03'] = '\u0626\u0649';
t['\uFC04'] = '\u0626\u064A';
t['\uFC05'] = '\u0628\u062C';
t['\uFC06'] = '\u0628\u062D';
t['\uFC07'] = '\u0628\u062E';
t['\uFC08'] = '\u0628\u0645';
t['\uFC09'] = '\u0628\u0649';
t['\uFC0A'] = '\u0628\u064A';
t['\uFC0B'] = '\u062A\u062C';
t['\uFC0C'] = '\u062A\u062D';
t['\uFC0D'] = '\u062A\u062E';
t['\uFC0E'] = '\u062A\u0645';
t['\uFC0F'] = '\u062A\u0649';
t['\uFC10'] = '\u062A\u064A';
t['\uFC11'] = '\u062B\u062C';
t['\uFC12'] = '\u062B\u0645';
t['\uFC13'] = '\u062B\u0649';
t['\uFC14'] = '\u062B\u064A';
t['\uFC15'] = '\u062C\u062D';
t['\uFC16'] = '\u062C\u0645';
t['\uFC17'] = '\u062D\u062C';
t['\uFC18'] = '\u062D\u0645';
t['\uFC19'] = '\u062E\u062C';
t['\uFC1A'] = '\u062E\u062D';
t['\uFC1B'] = '\u062E\u0645';
t['\uFC1C'] = '\u0633\u062C';
t['\uFC1D'] = '\u0633\u062D';
t['\uFC1E'] = '\u0633\u062E';
t['\uFC1F'] = '\u0633\u0645';
t['\uFC20'] = '\u0635\u062D';
t['\uFC21'] = '\u0635\u0645';
t['\uFC22'] = '\u0636\u062C';
t['\uFC23'] = '\u0636\u062D';
t['\uFC24'] = '\u0636\u062E';
t['\uFC25'] = '\u0636\u0645';
t['\uFC26'] = '\u0637\u062D';
t['\uFC27'] = '\u0637\u0645';
t['\uFC28'] = '\u0638\u0645';
t['\uFC29'] = '\u0639\u062C';
t['\uFC2A'] = '\u0639\u0645';
t['\uFC2B'] = '\u063A\u062C';
t['\uFC2C'] = '\u063A\u0645';
t['\uFC2D'] = '\u0641\u062C';
t['\uFC2E'] = '\u0641\u062D';
t['\uFC2F'] = '\u0641\u062E';
t['\uFC30'] = '\u0641\u0645';
t['\uFC31'] = '\u0641\u0649';
t['\uFC32'] = '\u0641\u064A';
t['\uFC33'] = '\u0642\u062D';
t['\uFC34'] = '\u0642\u0645';
t['\uFC35'] = '\u0642\u0649';
t['\uFC36'] = '\u0642\u064A';
t['\uFC37'] = '\u0643\u0627';
t['\uFC38'] = '\u0643\u062C';
t['\uFC39'] = '\u0643\u062D';
t['\uFC3A'] = '\u0643\u062E';
t['\uFC3B'] = '\u0643\u0644';
t['\uFC3C'] = '\u0643\u0645';
t['\uFC3D'] = '\u0643\u0649';
t['\uFC3E'] = '\u0643\u064A';
t['\uFC3F'] = '\u0644\u062C';
t['\uFC40'] = '\u0644\u062D';
t['\uFC41'] = '\u0644\u062E';
t['\uFC42'] = '\u0644\u0645';
t['\uFC43'] = '\u0644\u0649';
t['\uFC44'] = '\u0644\u064A';
t['\uFC45'] = '\u0645\u062C';
t['\uFC46'] = '\u0645\u062D';
t['\uFC47'] = '\u0645\u062E';
t['\uFC48'] = '\u0645\u0645';
t['\uFC49'] = '\u0645\u0649';
t['\uFC4A'] = '\u0645\u064A';
t['\uFC4B'] = '\u0646\u062C';
t['\uFC4C'] = '\u0646\u062D';
t['\uFC4D'] = '\u0646\u062E';
t['\uFC4E'] = '\u0646\u0645';
t['\uFC4F'] = '\u0646\u0649';
t['\uFC50'] = '\u0646\u064A';
t['\uFC51'] = '\u0647\u062C';
t['\uFC52'] = '\u0647\u0645';
t['\uFC53'] = '\u0647\u0649';
t['\uFC54'] = '\u0647\u064A';
t['\uFC55'] = '\u064A\u062C';
t['\uFC56'] = '\u064A\u062D';
t['\uFC57'] = '\u064A\u062E';
t['\uFC58'] = '\u064A\u0645';
t['\uFC59'] = '\u064A\u0649';
t['\uFC5A'] = '\u064A\u064A';
t['\uFC5B'] = '\u0630\u0670';
t['\uFC5C'] = '\u0631\u0670';
t['\uFC5D'] = '\u0649\u0670';
t['\uFC5E'] = '\u0020\u064C\u0651';
t['\uFC5F'] = '\u0020\u064D\u0651';
t['\uFC60'] = '\u0020\u064E\u0651';
t['\uFC61'] = '\u0020\u064F\u0651';
t['\uFC62'] = '\u0020\u0650\u0651';
t['\uFC63'] = '\u0020\u0651\u0670';
t['\uFC64'] = '\u0626\u0631';
t['\uFC65'] = '\u0626\u0632';
t['\uFC66'] = '\u0626\u0645';
t['\uFC67'] = '\u0626\u0646';
t['\uFC68'] = '\u0626\u0649';
t['\uFC69'] = '\u0626\u064A';
t['\uFC6A'] = '\u0628\u0631';
t['\uFC6B'] = '\u0628\u0632';
t['\uFC6C'] = '\u0628\u0645';
t['\uFC6D'] = '\u0628\u0646';
t['\uFC6E'] = '\u0628\u0649';
t['\uFC6F'] = '\u0628\u064A';
t['\uFC70'] = '\u062A\u0631';
t['\uFC71'] = '\u062A\u0632';
t['\uFC72'] = '\u062A\u0645';
t['\uFC73'] = '\u062A\u0646';
t['\uFC74'] = '\u062A\u0649';
t['\uFC75'] = '\u062A\u064A';
t['\uFC76'] = '\u062B\u0631';
t['\uFC77'] = '\u062B\u0632';
t['\uFC78'] = '\u062B\u0645';
t['\uFC79'] = '\u062B\u0646';
t['\uFC7A'] = '\u062B\u0649';
t['\uFC7B'] = '\u062B\u064A';
t['\uFC7C'] = '\u0641\u0649';
t['\uFC7D'] = '\u0641\u064A';
t['\uFC7E'] = '\u0642\u0649';
t['\uFC7F'] = '\u0642\u064A';
t['\uFC80'] = '\u0643\u0627';
t['\uFC81'] = '\u0643\u0644';
t['\uFC82'] = '\u0643\u0645';
t['\uFC83'] = '\u0643\u0649';
t['\uFC84'] = '\u0643\u064A';
t['\uFC85'] = '\u0644\u0645';
t['\uFC86'] = '\u0644\u0649';
t['\uFC87'] = '\u0644\u064A';
t['\uFC88'] = '\u0645\u0627';
t['\uFC89'] = '\u0645\u0645';
t['\uFC8A'] = '\u0646\u0631';
t['\uFC8B'] = '\u0646\u0632';
t['\uFC8C'] = '\u0646\u0645';
t['\uFC8D'] = '\u0646\u0646';
t['\uFC8E'] = '\u0646\u0649';
t['\uFC8F'] = '\u0646\u064A';
t['\uFC90'] = '\u0649\u0670';
t['\uFC91'] = '\u064A\u0631';
t['\uFC92'] = '\u064A\u0632';
t['\uFC93'] = '\u064A\u0645';
t['\uFC94'] = '\u064A\u0646';
t['\uFC95'] = '\u064A\u0649';
t['\uFC96'] = '\u064A\u064A';
t['\uFC97'] = '\u0626\u062C';
t['\uFC98'] = '\u0626\u062D';
t['\uFC99'] = '\u0626\u062E';
t['\uFC9A'] = '\u0626\u0645';
t['\uFC9B'] = '\u0626\u0647';
t['\uFC9C'] = '\u0628\u062C';
t['\uFC9D'] = '\u0628\u062D';
t['\uFC9E'] = '\u0628\u062E';
t['\uFC9F'] = '\u0628\u0645';
t['\uFCA0'] = '\u0628\u0647';
t['\uFCA1'] = '\u062A\u062C';
t['\uFCA2'] = '\u062A\u062D';
t['\uFCA3'] = '\u062A\u062E';
t['\uFCA4'] = '\u062A\u0645';
t['\uFCA5'] = '\u062A\u0647';
t['\uFCA6'] = '\u062B\u0645';
t['\uFCA7'] = '\u062C\u062D';
t['\uFCA8'] = '\u062C\u0645';
t['\uFCA9'] = '\u062D\u062C';
t['\uFCAA'] = '\u062D\u0645';
t['\uFCAB'] = '\u062E\u062C';
t['\uFCAC'] = '\u062E\u0645';
t['\uFCAD'] = '\u0633\u062C';
t['\uFCAE'] = '\u0633\u062D';
t['\uFCAF'] = '\u0633\u062E';
t['\uFCB0'] = '\u0633\u0645';
t['\uFCB1'] = '\u0635\u062D';
t['\uFCB2'] = '\u0635\u062E';
t['\uFCB3'] = '\u0635\u0645';
t['\uFCB4'] = '\u0636\u062C';
t['\uFCB5'] = '\u0636\u062D';
t['\uFCB6'] = '\u0636\u062E';
t['\uFCB7'] = '\u0636\u0645';
t['\uFCB8'] = '\u0637\u062D';
t['\uFCB9'] = '\u0638\u0645';
t['\uFCBA'] = '\u0639\u062C';
t['\uFCBB'] = '\u0639\u0645';
t['\uFCBC'] = '\u063A\u062C';
t['\uFCBD'] = '\u063A\u0645';
t['\uFCBE'] = '\u0641\u062C';
t['\uFCBF'] = '\u0641\u062D';
t['\uFCC0'] = '\u0641\u062E';
t['\uFCC1'] = '\u0641\u0645';
t['\uFCC2'] = '\u0642\u062D';
t['\uFCC3'] = '\u0642\u0645';
t['\uFCC4'] = '\u0643\u062C';
t['\uFCC5'] = '\u0643\u062D';
t['\uFCC6'] = '\u0643\u062E';
t['\uFCC7'] = '\u0643\u0644';
t['\uFCC8'] = '\u0643\u0645';
t['\uFCC9'] = '\u0644\u062C';
t['\uFCCA'] = '\u0644\u062D';
t['\uFCCB'] = '\u0644\u062E';
t['\uFCCC'] = '\u0644\u0645';
t['\uFCCD'] = '\u0644\u0647';
t['\uFCCE'] = '\u0645\u062C';
t['\uFCCF'] = '\u0645\u062D';
t['\uFCD0'] = '\u0645\u062E';
t['\uFCD1'] = '\u0645\u0645';
t['\uFCD2'] = '\u0646\u062C';
t['\uFCD3'] = '\u0646\u062D';
t['\uFCD4'] = '\u0646\u062E';
t['\uFCD5'] = '\u0646\u0645';
t['\uFCD6'] = '\u0646\u0647';
t['\uFCD7'] = '\u0647\u062C';
t['\uFCD8'] = '\u0647\u0645';
t['\uFCD9'] = '\u0647\u0670';
t['\uFCDA'] = '\u064A\u062C';
t['\uFCDB'] = '\u064A\u062D';
t['\uFCDC'] = '\u064A\u062E';
t['\uFCDD'] = '\u064A\u0645';
t['\uFCDE'] = '\u064A\u0647';
t['\uFCDF'] = '\u0626\u0645';
t['\uFCE0'] = '\u0626\u0647';
t['\uFCE1'] = '\u0628\u0645';
t['\uFCE2'] = '\u0628\u0647';
t['\uFCE3'] = '\u062A\u0645';
t['\uFCE4'] = '\u062A\u0647';
t['\uFCE5'] = '\u062B\u0645';
t['\uFCE6'] = '\u062B\u0647';
t['\uFCE7'] = '\u0633\u0645';
t['\uFCE8'] = '\u0633\u0647';
t['\uFCE9'] = '\u0634\u0645';
t['\uFCEA'] = '\u0634\u0647';
t['\uFCEB'] = '\u0643\u0644';
t['\uFCEC'] = '\u0643\u0645';
t['\uFCED'] = '\u0644\u0645';
t['\uFCEE'] = '\u0646\u0645';
t['\uFCEF'] = '\u0646\u0647';
t['\uFCF0'] = '\u064A\u0645';
t['\uFCF1'] = '\u064A\u0647';
t['\uFCF2'] = '\u0640\u064E\u0651';
t['\uFCF3'] = '\u0640\u064F\u0651';
t['\uFCF4'] = '\u0640\u0650\u0651';
t['\uFCF5'] = '\u0637\u0649';
t['\uFCF6'] = '\u0637\u064A';
t['\uFCF7'] = '\u0639\u0649';
t['\uFCF8'] = '\u0639\u064A';
t['\uFCF9'] = '\u063A\u0649';
t['\uFCFA'] = '\u063A\u064A';
t['\uFCFB'] = '\u0633\u0649';
t['\uFCFC'] = '\u0633\u064A';
t['\uFCFD'] = '\u0634\u0649';
t['\uFCFE'] = '\u0634\u064A';
t['\uFCFF'] = '\u062D\u0649';
t['\uFD00'] = '\u062D\u064A';
t['\uFD01'] = '\u062C\u0649';
t['\uFD02'] = '\u062C\u064A';
t['\uFD03'] = '\u062E\u0649';
t['\uFD04'] = '\u062E\u064A';
t['\uFD05'] = '\u0635\u0649';
t['\uFD06'] = '\u0635\u064A';
t['\uFD07'] = '\u0636\u0649';
t['\uFD08'] = '\u0636\u064A';
t['\uFD09'] = '\u0634\u062C';
t['\uFD0A'] = '\u0634\u062D';
t['\uFD0B'] = '\u0634\u062E';
t['\uFD0C'] = '\u0634\u0645';
t['\uFD0D'] = '\u0634\u0631';
t['\uFD0E'] = '\u0633\u0631';
t['\uFD0F'] = '\u0635\u0631';
t['\uFD10'] = '\u0636\u0631';
t['\uFD11'] = '\u0637\u0649';
t['\uFD12'] = '\u0637\u064A';
t['\uFD13'] = '\u0639\u0649';
t['\uFD14'] = '\u0639\u064A';
t['\uFD15'] = '\u063A\u0649';
t['\uFD16'] = '\u063A\u064A';
t['\uFD17'] = '\u0633\u0649';
t['\uFD18'] = '\u0633\u064A';
t['\uFD19'] = '\u0634\u0649';
t['\uFD1A'] = '\u0634\u064A';
t['\uFD1B'] = '\u062D\u0649';
t['\uFD1C'] = '\u062D\u064A';
t['\uFD1D'] = '\u062C\u0649';
t['\uFD1E'] = '\u062C\u064A';
t['\uFD1F'] = '\u062E\u0649';
t['\uFD20'] = '\u062E\u064A';
t['\uFD21'] = '\u0635\u0649';
t['\uFD22'] = '\u0635\u064A';
t['\uFD23'] = '\u0636\u0649';
t['\uFD24'] = '\u0636\u064A';
t['\uFD25'] = '\u0634\u062C';
t['\uFD26'] = '\u0634\u062D';
t['\uFD27'] = '\u0634\u062E';
t['\uFD28'] = '\u0634\u0645';
t['\uFD29'] = '\u0634\u0631';
t['\uFD2A'] = '\u0633\u0631';
t['\uFD2B'] = '\u0635\u0631';
t['\uFD2C'] = '\u0636\u0631';
t['\uFD2D'] = '\u0634\u062C';
t['\uFD2E'] = '\u0634\u062D';
t['\uFD2F'] = '\u0634\u062E';
t['\uFD30'] = '\u0634\u0645';
t['\uFD31'] = '\u0633\u0647';
t['\uFD32'] = '\u0634\u0647';
t['\uFD33'] = '\u0637\u0645';
t['\uFD34'] = '\u0633\u062C';
t['\uFD35'] = '\u0633\u062D';
t['\uFD36'] = '\u0633\u062E';
t['\uFD37'] = '\u0634\u062C';
t['\uFD38'] = '\u0634\u062D';
t['\uFD39'] = '\u0634\u062E';
t['\uFD3A'] = '\u0637\u0645';
t['\uFD3B'] = '\u0638\u0645';
t['\uFD3C'] = '\u0627\u064B';
t['\uFD3D'] = '\u0627\u064B';
t['\uFD50'] = '\u062A\u062C\u0645';
t['\uFD51'] = '\u062A\u062D\u062C';
t['\uFD52'] = '\u062A\u062D\u062C';
t['\uFD53'] = '\u062A\u062D\u0645';
t['\uFD54'] = '\u062A\u062E\u0645';
t['\uFD55'] = '\u062A\u0645\u062C';
t['\uFD56'] = '\u062A\u0645\u062D';
t['\uFD57'] = '\u062A\u0645\u062E';
t['\uFD58'] = '\u062C\u0645\u062D';
t['\uFD59'] = '\u062C\u0645\u062D';
t['\uFD5A'] = '\u062D\u0645\u064A';
t['\uFD5B'] = '\u062D\u0645\u0649';
t['\uFD5C'] = '\u0633\u062D\u062C';
t['\uFD5D'] = '\u0633\u062C\u062D';
t['\uFD5E'] = '\u0633\u062C\u0649';
t['\uFD5F'] = '\u0633\u0645\u062D';
t['\uFD60'] = '\u0633\u0645\u062D';
t['\uFD61'] = '\u0633\u0645\u062C';
t['\uFD62'] = '\u0633\u0645\u0645';
t['\uFD63'] = '\u0633\u0645\u0645';
t['\uFD64'] = '\u0635\u062D\u062D';
t['\uFD65'] = '\u0635\u062D\u062D';
t['\uFD66'] = '\u0635\u0645\u0645';
t['\uFD67'] = '\u0634\u062D\u0645';
t['\uFD68'] = '\u0634\u062D\u0645';
t['\uFD69'] = '\u0634\u062C\u064A';
t['\uFD6A'] = '\u0634\u0645\u062E';
t['\uFD6B'] = '\u0634\u0645\u062E';
t['\uFD6C'] = '\u0634\u0645\u0645';
t['\uFD6D'] = '\u0634\u0645\u0645';
t['\uFD6E'] = '\u0636\u062D\u0649';
t['\uFD6F'] = '\u0636\u062E\u0645';
t['\uFD70'] = '\u0636\u062E\u0645';
t['\uFD71'] = '\u0637\u0645\u062D';
t['\uFD72'] = '\u0637\u0645\u062D';
t['\uFD73'] = '\u0637\u0645\u0645';
t['\uFD74'] = '\u0637\u0645\u064A';
t['\uFD75'] = '\u0639\u062C\u0645';
t['\uFD76'] = '\u0639\u0645\u0645';
t['\uFD77'] = '\u0639\u0645\u0645';
t['\uFD78'] = '\u0639\u0645\u0649';
t['\uFD79'] = '\u063A\u0645\u0645';
t['\uFD7A'] = '\u063A\u0645\u064A';
t['\uFD7B'] = '\u063A\u0645\u0649';
t['\uFD7C'] = '\u0641\u062E\u0645';
t['\uFD7D'] = '\u0641\u062E\u0645';
t['\uFD7E'] = '\u0642\u0645\u062D';
t['\uFD7F'] = '\u0642\u0645\u0645';
t['\uFD80'] = '\u0644\u062D\u0645';
t['\uFD81'] = '\u0644\u062D\u064A';
t['\uFD82'] = '\u0644\u062D\u0649';
t['\uFD83'] = '\u0644\u062C\u062C';
t['\uFD84'] = '\u0644\u062C\u062C';
t['\uFD85'] = '\u0644\u062E\u0645';
t['\uFD86'] = '\u0644\u062E\u0645';
t['\uFD87'] = '\u0644\u0645\u062D';
t['\uFD88'] = '\u0644\u0645\u062D';
t['\uFD89'] = '\u0645\u062D\u062C';
t['\uFD8A'] = '\u0645\u062D\u0645';
t['\uFD8B'] = '\u0645\u062D\u064A';
t['\uFD8C'] = '\u0645\u062C\u062D';
t['\uFD8D'] = '\u0645\u062C\u0645';
t['\uFD8E'] = '\u0645\u062E\u062C';
t['\uFD8F'] = '\u0645\u062E\u0645';
t['\uFD92'] = '\u0645\u062C\u062E';
t['\uFD93'] = '\u0647\u0645\u062C';
t['\uFD94'] = '\u0647\u0645\u0645';
t['\uFD95'] = '\u0646\u062D\u0645';
t['\uFD96'] = '\u0646\u062D\u0649';
t['\uFD97'] = '\u0646\u062C\u0645';
t['\uFD98'] = '\u0646\u062C\u0645';
t['\uFD99'] = '\u0646\u062C\u0649';
t['\uFD9A'] = '\u0646\u0645\u064A';
t['\uFD9B'] = '\u0646\u0645\u0649';
t['\uFD9C'] = '\u064A\u0645\u0645';
t['\uFD9D'] = '\u064A\u0645\u0645';
t['\uFD9E'] = '\u0628\u062E\u064A';
t['\uFD9F'] = '\u062A\u062C\u064A';
t['\uFDA0'] = '\u062A\u062C\u0649';
t['\uFDA1'] = '\u062A\u062E\u064A';
t['\uFDA2'] = '\u062A\u062E\u0649';
t['\uFDA3'] = '\u062A\u0645\u064A';
t['\uFDA4'] = '\u062A\u0645\u0649';
t['\uFDA5'] = '\u062C\u0645\u064A';
t['\uFDA6'] = '\u062C\u062D\u0649';
t['\uFDA7'] = '\u062C\u0645\u0649';
t['\uFDA8'] = '\u0633\u062E\u0649';
t['\uFDA9'] = '\u0635\u062D\u064A';
t['\uFDAA'] = '\u0634\u062D\u064A';
t['\uFDAB'] = '\u0636\u062D\u064A';
t['\uFDAC'] = '\u0644\u062C\u064A';
t['\uFDAD'] = '\u0644\u0645\u064A';
t['\uFDAE'] = '\u064A\u062D\u064A';
t['\uFDAF'] = '\u064A\u062C\u064A';
t['\uFDB0'] = '\u064A\u0645\u064A';
t['\uFDB1'] = '\u0645\u0645\u064A';
t['\uFDB2'] = '\u0642\u0645\u064A';
t['\uFDB3'] = '\u0646\u062D\u064A';
t['\uFDB4'] = '\u0642\u0645\u062D';
t['\uFDB5'] = '\u0644\u062D\u0645';
t['\uFDB6'] = '\u0639\u0645\u064A';
t['\uFDB7'] = '\u0643\u0645\u064A';
t['\uFDB8'] = '\u0646\u062C\u062D';
t['\uFDB9'] = '\u0645\u062E\u064A';
t['\uFDBA'] = '\u0644\u062C\u0645';
t['\uFDBB'] = '\u0643\u0645\u0645';
t['\uFDBC'] = '\u0644\u062C\u0645';
t['\uFDBD'] = '\u0646\u062C\u062D';
t['\uFDBE'] = '\u062C\u062D\u064A';
t['\uFDBF'] = '\u062D\u062C\u064A';
t['\uFDC0'] = '\u0645\u062C\u064A';
t['\uFDC1'] = '\u0641\u0645\u064A';
t['\uFDC2'] = '\u0628\u062D\u064A';
t['\uFDC3'] = '\u0643\u0645\u0645';
t['\uFDC4'] = '\u0639\u062C\u0645';
t['\uFDC5'] = '\u0635\u0645\u0645';
t['\uFDC6'] = '\u0633\u062E\u064A';
t['\uFDC7'] = '\u0646\u062C\u064A';
t['\uFE49'] = '\u203E';
t['\uFE4A'] = '\u203E';
t['\uFE4B'] = '\u203E';
t['\uFE4C'] = '\u203E';
t['\uFE4D'] = '\u005F';
t['\uFE4E'] = '\u005F';
t['\uFE4F'] = '\u005F';
t['\uFE80'] = '\u0621';
t['\uFE81'] = '\u0622';
t['\uFE82'] = '\u0622';
t['\uFE83'] = '\u0623';
t['\uFE84'] = '\u0623';
t['\uFE85'] = '\u0624';
t['\uFE86'] = '\u0624';
t['\uFE87'] = '\u0625';
t['\uFE88'] = '\u0625';
t['\uFE89'] = '\u0626';
t['\uFE8A'] = '\u0626';
t['\uFE8B'] = '\u0626';
t['\uFE8C'] = '\u0626';
t['\uFE8D'] = '\u0627';
t['\uFE8E'] = '\u0627';
t['\uFE8F'] = '\u0628';
t['\uFE90'] = '\u0628';
t['\uFE91'] = '\u0628';
t['\uFE92'] = '\u0628';
t['\uFE93'] = '\u0629';
t['\uFE94'] = '\u0629';
t['\uFE95'] = '\u062A';
t['\uFE96'] = '\u062A';
t['\uFE97'] = '\u062A';
t['\uFE98'] = '\u062A';
t['\uFE99'] = '\u062B';
t['\uFE9A'] = '\u062B';
t['\uFE9B'] = '\u062B';
t['\uFE9C'] = '\u062B';
t['\uFE9D'] = '\u062C';
t['\uFE9E'] = '\u062C';
t['\uFE9F'] = '\u062C';
t['\uFEA0'] = '\u062C';
t['\uFEA1'] = '\u062D';
t['\uFEA2'] = '\u062D';
t['\uFEA3'] = '\u062D';
t['\uFEA4'] = '\u062D';
t['\uFEA5'] = '\u062E';
t['\uFEA6'] = '\u062E';
t['\uFEA7'] = '\u062E';
t['\uFEA8'] = '\u062E';
t['\uFEA9'] = '\u062F';
t['\uFEAA'] = '\u062F';
t['\uFEAB'] = '\u0630';
t['\uFEAC'] = '\u0630';
t['\uFEAD'] = '\u0631';
t['\uFEAE'] = '\u0631';
t['\uFEAF'] = '\u0632';
t['\uFEB0'] = '\u0632';
t['\uFEB1'] = '\u0633';
t['\uFEB2'] = '\u0633';
t['\uFEB3'] = '\u0633';
t['\uFEB4'] = '\u0633';
t['\uFEB5'] = '\u0634';
t['\uFEB6'] = '\u0634';
t['\uFEB7'] = '\u0634';
t['\uFEB8'] = '\u0634';
t['\uFEB9'] = '\u0635';
t['\uFEBA'] = '\u0635';
t['\uFEBB'] = '\u0635';
t['\uFEBC'] = '\u0635';
t['\uFEBD'] = '\u0636';
t['\uFEBE'] = '\u0636';
t['\uFEBF'] = '\u0636';
t['\uFEC0'] = '\u0636';
t['\uFEC1'] = '\u0637';
t['\uFEC2'] = '\u0637';
t['\uFEC3'] = '\u0637';
t['\uFEC4'] = '\u0637';
t['\uFEC5'] = '\u0638';
t['\uFEC6'] = '\u0638';
t['\uFEC7'] = '\u0638';
t['\uFEC8'] = '\u0638';
t['\uFEC9'] = '\u0639';
t['\uFECA'] = '\u0639';
t['\uFECB'] = '\u0639';
t['\uFECC'] = '\u0639';
t['\uFECD'] = '\u063A';
t['\uFECE'] = '\u063A';
t['\uFECF'] = '\u063A';
t['\uFED0'] = '\u063A';
t['\uFED1'] = '\u0641';
t['\uFED2'] = '\u0641';
t['\uFED3'] = '\u0641';
t['\uFED4'] = '\u0641';
t['\uFED5'] = '\u0642';
t['\uFED6'] = '\u0642';
t['\uFED7'] = '\u0642';
t['\uFED8'] = '\u0642';
t['\uFED9'] = '\u0643';
t['\uFEDA'] = '\u0643';
t['\uFEDB'] = '\u0643';
t['\uFEDC'] = '\u0643';
t['\uFEDD'] = '\u0644';
t['\uFEDE'] = '\u0644';
t['\uFEDF'] = '\u0644';
t['\uFEE0'] = '\u0644';
t['\uFEE1'] = '\u0645';
t['\uFEE2'] = '\u0645';
t['\uFEE3'] = '\u0645';
t['\uFEE4'] = '\u0645';
t['\uFEE5'] = '\u0646';
t['\uFEE6'] = '\u0646';
t['\uFEE7'] = '\u0646';
t['\uFEE8'] = '\u0646';
t['\uFEE9'] = '\u0647';
t['\uFEEA'] = '\u0647';
t['\uFEEB'] = '\u0647';
t['\uFEEC'] = '\u0647';
t['\uFEED'] = '\u0648';
t['\uFEEE'] = '\u0648';
t['\uFEEF'] = '\u0649';
t['\uFEF0'] = '\u0649';
t['\uFEF1'] = '\u064A';
t['\uFEF2'] = '\u064A';
t['\uFEF3'] = '\u064A';
t['\uFEF4'] = '\u064A';
t['\uFEF5'] = '\u0644\u0622';
t['\uFEF6'] = '\u0644\u0622';
t['\uFEF7'] = '\u0644\u0623';
t['\uFEF8'] = '\u0644\u0623';
t['\uFEF9'] = '\u0644\u0625';
t['\uFEFA'] = '\u0644\u0625';
t['\uFEFB'] = '\u0644\u0627';
t['\uFEFC'] = '\u0644\u0627';
});
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function reverseIfRtl(chars) {
var charsLength = chars.length;
//reverse an arabic ligature
if (charsLength <= 1 || !isRTLRangeFor(chars.charCodeAt(0))) {
return chars;
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}
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var s = '';
for (var ii = charsLength - 1; ii >= 0; ii--) {
s += chars[ii];
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}
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return s;
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}
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exports.mapSpecialUnicodeValues = mapSpecialUnicodeValues;
exports.reverseIfRtl = reverseIfRtl;
exports.getUnicodeRangeFor = getUnicodeRangeFor;
exports.getNormalizedUnicodes = getNormalizedUnicodes;
exports.getUnicodeForGlyph = getUnicodeForGlyph;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreStream = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreJbig2, root.pdfjsCoreJpg,
root.pdfjsCoreJpx);
}
}(this, function (exports, sharedUtil, corePrimitives, coreJbig2, coreJpg,
coreJpx) {
var Util = sharedUtil.Util;
var error = sharedUtil.error;
var info = sharedUtil.info;
var isArray = sharedUtil.isArray;
var createObjectURL = sharedUtil.createObjectURL;
var shadow = sharedUtil.shadow;
var warn = sharedUtil.warn;
var Dict = corePrimitives.Dict;
var Jbig2Image = coreJbig2.Jbig2Image;
var JpegImage = coreJpg.JpegImage;
var JpxImage = coreJpx.JpxImage;
var Stream = (function StreamClosure() {
function Stream(arrayBuffer, start, length, dict) {
this.bytes = (arrayBuffer instanceof Uint8Array ?
arrayBuffer : new Uint8Array(arrayBuffer));
this.start = start || 0;
this.pos = this.start;
this.end = (start + length) || this.bytes.length;
this.dict = dict;
}
// required methods for a stream. if a particular stream does not
// implement these, an error should be thrown
Stream.prototype = {
get length() {
return this.end - this.start;
},
get isEmpty() {
return this.length === 0;
},
getByte: function Stream_getByte() {
if (this.pos >= this.end) {
return -1;
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}
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return this.bytes[this.pos++];
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},
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getUint16: function Stream_getUint16() {
var b0 = this.getByte();
var b1 = this.getByte();
if (b0 === -1 || b1 === -1) {
return -1;
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}
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return (b0 << 8) + b1;
},
getInt32: function Stream_getInt32() {
var b0 = this.getByte();
var b1 = this.getByte();
var b2 = this.getByte();
var b3 = this.getByte();
return (b0 << 24) + (b1 << 16) + (b2 << 8) + b3;
},
// returns subarray of original buffer
// should only be read
getBytes: function Stream_getBytes(length) {
var bytes = this.bytes;
var pos = this.pos;
var strEnd = this.end;
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if (!length) {
return bytes.subarray(pos, strEnd);
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}
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var end = pos + length;
if (end > strEnd) {
end = strEnd;
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}
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this.pos = end;
return bytes.subarray(pos, end);
},
peekByte: function Stream_peekByte() {
var peekedByte = this.getByte();
this.pos--;
return peekedByte;
},
peekBytes: function Stream_peekBytes(length) {
var bytes = this.getBytes(length);
this.pos -= bytes.length;
return bytes;
},
skip: function Stream_skip(n) {
if (!n) {
n = 1;
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}
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this.pos += n;
},
reset: function Stream_reset() {
this.pos = this.start;
},
moveStart: function Stream_moveStart() {
this.start = this.pos;
},
makeSubStream: function Stream_makeSubStream(start, length, dict) {
return new Stream(this.bytes.buffer, start, length, dict);
},
isStream: true
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};
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return Stream;
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})();
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var StringStream = (function StringStreamClosure() {
function StringStream(str) {
var length = str.length;
var bytes = new Uint8Array(length);
for (var n = 0; n < length; ++n) {
bytes[n] = str.charCodeAt(n);
}
Stream.call(this, bytes);
}
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StringStream.prototype = Stream.prototype;
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return StringStream;
})();
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// super class for the decoding streams
var DecodeStream = (function DecodeStreamClosure() {
// Lots of DecodeStreams are created whose buffers are never used. For these
// we share a single empty buffer. This is (a) space-efficient and (b) avoids
// having special cases that would be required if we used |null| for an empty
// buffer.
var emptyBuffer = new Uint8Array(0);
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function DecodeStream(maybeMinBufferLength) {
this.pos = 0;
this.bufferLength = 0;
this.eof = false;
this.buffer = emptyBuffer;
this.minBufferLength = 512;
if (maybeMinBufferLength) {
// Compute the first power of two that is as big as maybeMinBufferLength.
while (this.minBufferLength < maybeMinBufferLength) {
this.minBufferLength *= 2;
}
}
}
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DecodeStream.prototype = {
get isEmpty() {
while (!this.eof && this.bufferLength === 0) {
this.readBlock();
}
return this.bufferLength === 0;
},
ensureBuffer: function DecodeStream_ensureBuffer(requested) {
var buffer = this.buffer;
if (requested <= buffer.byteLength) {
return buffer;
}
var size = this.minBufferLength;
while (size < requested) {
size *= 2;
}
var buffer2 = new Uint8Array(size);
buffer2.set(buffer);
return (this.buffer = buffer2);
},
getByte: function DecodeStream_getByte() {
var pos = this.pos;
while (this.bufferLength <= pos) {
if (this.eof) {
return -1;
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}
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this.readBlock();
}
return this.buffer[this.pos++];
},
getUint16: function DecodeStream_getUint16() {
var b0 = this.getByte();
var b1 = this.getByte();
if (b0 === -1 || b1 === -1) {
return -1;
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}
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return (b0 << 8) + b1;
},
getInt32: function DecodeStream_getInt32() {
var b0 = this.getByte();
var b1 = this.getByte();
var b2 = this.getByte();
var b3 = this.getByte();
return (b0 << 24) + (b1 << 16) + (b2 << 8) + b3;
},
getBytes: function DecodeStream_getBytes(length) {
var end, pos = this.pos;
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if (length) {
this.ensureBuffer(pos + length);
end = pos + length;
while (!this.eof && this.bufferLength < end) {
this.readBlock();
}
var bufEnd = this.bufferLength;
if (end > bufEnd) {
end = bufEnd;
}
} else {
while (!this.eof) {
this.readBlock();
}
end = this.bufferLength;
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}
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this.pos = end;
return this.buffer.subarray(pos, end);
},
peekByte: function DecodeStream_peekByte() {
var peekedByte = this.getByte();
this.pos--;
return peekedByte;
},
peekBytes: function DecodeStream_peekBytes(length) {
var bytes = this.getBytes(length);
this.pos -= bytes.length;
return bytes;
},
makeSubStream: function DecodeStream_makeSubStream(start, length, dict) {
var end = start + length;
while (this.bufferLength <= end && !this.eof) {
this.readBlock();
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}
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return new Stream(this.buffer, start, length, dict);
},
skip: function DecodeStream_skip(n) {
if (!n) {
n = 1;
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}
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this.pos += n;
},
reset: function DecodeStream_reset() {
this.pos = 0;
},
getBaseStreams: function DecodeStream_getBaseStreams() {
if (this.str && this.str.getBaseStreams) {
return this.str.getBaseStreams();
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}
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return [];
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}
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};
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return DecodeStream;
})();
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var StreamsSequenceStream = (function StreamsSequenceStreamClosure() {
function StreamsSequenceStream(streams) {
this.streams = streams;
DecodeStream.call(this, /* maybeLength = */ null);
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}
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StreamsSequenceStream.prototype = Object.create(DecodeStream.prototype);
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StreamsSequenceStream.prototype.readBlock =
function streamSequenceStreamReadBlock() {
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var streams = this.streams;
if (streams.length === 0) {
this.eof = true;
return;
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}
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var stream = streams.shift();
var chunk = stream.getBytes();
var bufferLength = this.bufferLength;
var newLength = bufferLength + chunk.length;
var buffer = this.ensureBuffer(newLength);
buffer.set(chunk, bufferLength);
this.bufferLength = newLength;
};
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StreamsSequenceStream.prototype.getBaseStreams =
function StreamsSequenceStream_getBaseStreams() {
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var baseStreams = [];
for (var i = 0, ii = this.streams.length; i < ii; i++) {
var stream = this.streams[i];
if (stream.getBaseStreams) {
Util.appendToArray(baseStreams, stream.getBaseStreams());
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}
}
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return baseStreams;
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};
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return StreamsSequenceStream;
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})();
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var FlateStream = (function FlateStreamClosure() {
var codeLenCodeMap = new Int32Array([
16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15
]);
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var lengthDecode = new Int32Array([
0x00003, 0x00004, 0x00005, 0x00006, 0x00007, 0x00008, 0x00009, 0x0000a,
0x1000b, 0x1000d, 0x1000f, 0x10011, 0x20013, 0x20017, 0x2001b, 0x2001f,
0x30023, 0x3002b, 0x30033, 0x3003b, 0x40043, 0x40053, 0x40063, 0x40073,
0x50083, 0x500a3, 0x500c3, 0x500e3, 0x00102, 0x00102, 0x00102
]);
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var distDecode = new Int32Array([
0x00001, 0x00002, 0x00003, 0x00004, 0x10005, 0x10007, 0x20009, 0x2000d,
0x30011, 0x30019, 0x40021, 0x40031, 0x50041, 0x50061, 0x60081, 0x600c1,
0x70101, 0x70181, 0x80201, 0x80301, 0x90401, 0x90601, 0xa0801, 0xa0c01,
0xb1001, 0xb1801, 0xc2001, 0xc3001, 0xd4001, 0xd6001
]);
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var fixedLitCodeTab = [new Int32Array([
0x70100, 0x80050, 0x80010, 0x80118, 0x70110, 0x80070, 0x80030, 0x900c0,
0x70108, 0x80060, 0x80020, 0x900a0, 0x80000, 0x80080, 0x80040, 0x900e0,
0x70104, 0x80058, 0x80018, 0x90090, 0x70114, 0x80078, 0x80038, 0x900d0,
0x7010c, 0x80068, 0x80028, 0x900b0, 0x80008, 0x80088, 0x80048, 0x900f0,
0x70102, 0x80054, 0x80014, 0x8011c, 0x70112, 0x80074, 0x80034, 0x900c8,
0x7010a, 0x80064, 0x80024, 0x900a8, 0x80004, 0x80084, 0x80044, 0x900e8,
0x70106, 0x8005c, 0x8001c, 0x90098, 0x70116, 0x8007c, 0x8003c, 0x900d8,
0x7010e, 0x8006c, 0x8002c, 0x900b8, 0x8000c, 0x8008c, 0x8004c, 0x900f8,
0x70101, 0x80052, 0x80012, 0x8011a, 0x70111, 0x80072, 0x80032, 0x900c4,
0x70109, 0x80062, 0x80022, 0x900a4, 0x80002, 0x80082, 0x80042, 0x900e4,
0x70105, 0x8005a, 0x8001a, 0x90094, 0x70115, 0x8007a, 0x8003a, 0x900d4,
0x7010d, 0x8006a, 0x8002a, 0x900b4, 0x8000a, 0x8008a, 0x8004a, 0x900f4,
0x70103, 0x80056, 0x80016, 0x8011e, 0x70113, 0x80076, 0x80036, 0x900cc,
0x7010b, 0x80066, 0x80026, 0x900ac, 0x80006, 0x80086, 0x80046, 0x900ec,
0x70107, 0x8005e, 0x8001e, 0x9009c, 0x70117, 0x8007e, 0x8003e, 0x900dc,
0x7010f, 0x8006e, 0x8002e, 0x900bc, 0x8000e, 0x8008e, 0x8004e, 0x900fc,
0x70100, 0x80051, 0x80011, 0x80119, 0x70110, 0x80071, 0x80031, 0x900c2,
0x70108, 0x80061, 0x80021, 0x900a2, 0x80001, 0x80081, 0x80041, 0x900e2,
0x70104, 0x80059, 0x80019, 0x90092, 0x70114, 0x80079, 0x80039, 0x900d2,
0x7010c, 0x80069, 0x80029, 0x900b2, 0x80009, 0x80089, 0x80049, 0x900f2,
0x70102, 0x80055, 0x80015, 0x8011d, 0x70112, 0x80075, 0x80035, 0x900ca,
0x7010a, 0x80065, 0x80025, 0x900aa, 0x80005, 0x80085, 0x80045, 0x900ea,
0x70106, 0x8005d, 0x8001d, 0x9009a, 0x70116, 0x8007d, 0x8003d, 0x900da,
0x7010e, 0x8006d, 0x8002d, 0x900ba, 0x8000d, 0x8008d, 0x8004d, 0x900fa,
0x70101, 0x80053, 0x80013, 0x8011b, 0x70111, 0x80073, 0x80033, 0x900c6,
0x70109, 0x80063, 0x80023, 0x900a6, 0x80003, 0x80083, 0x80043, 0x900e6,
0x70105, 0x8005b, 0x8001b, 0x90096, 0x70115, 0x8007b, 0x8003b, 0x900d6,
0x7010d, 0x8006b, 0x8002b, 0x900b6, 0x8000b, 0x8008b, 0x8004b, 0x900f6,
0x70103, 0x80057, 0x80017, 0x8011f, 0x70113, 0x80077, 0x80037, 0x900ce,
0x7010b, 0x80067, 0x80027, 0x900ae, 0x80007, 0x80087, 0x80047, 0x900ee,
0x70107, 0x8005f, 0x8001f, 0x9009e, 0x70117, 0x8007f, 0x8003f, 0x900de,
0x7010f, 0x8006f, 0x8002f, 0x900be, 0x8000f, 0x8008f, 0x8004f, 0x900fe,
0x70100, 0x80050, 0x80010, 0x80118, 0x70110, 0x80070, 0x80030, 0x900c1,
0x70108, 0x80060, 0x80020, 0x900a1, 0x80000, 0x80080, 0x80040, 0x900e1,
0x70104, 0x80058, 0x80018, 0x90091, 0x70114, 0x80078, 0x80038, 0x900d1,
0x7010c, 0x80068, 0x80028, 0x900b1, 0x80008, 0x80088, 0x80048, 0x900f1,
0x70102, 0x80054, 0x80014, 0x8011c, 0x70112, 0x80074, 0x80034, 0x900c9,
0x7010a, 0x80064, 0x80024, 0x900a9, 0x80004, 0x80084, 0x80044, 0x900e9,
0x70106, 0x8005c, 0x8001c, 0x90099, 0x70116, 0x8007c, 0x8003c, 0x900d9,
0x7010e, 0x8006c, 0x8002c, 0x900b9, 0x8000c, 0x8008c, 0x8004c, 0x900f9,
0x70101, 0x80052, 0x80012, 0x8011a, 0x70111, 0x80072, 0x80032, 0x900c5,
0x70109, 0x80062, 0x80022, 0x900a5, 0x80002, 0x80082, 0x80042, 0x900e5,
0x70105, 0x8005a, 0x8001a, 0x90095, 0x70115, 0x8007a, 0x8003a, 0x900d5,
0x7010d, 0x8006a, 0x8002a, 0x900b5, 0x8000a, 0x8008a, 0x8004a, 0x900f5,
0x70103, 0x80056, 0x80016, 0x8011e, 0x70113, 0x80076, 0x80036, 0x900cd,
0x7010b, 0x80066, 0x80026, 0x900ad, 0x80006, 0x80086, 0x80046, 0x900ed,
0x70107, 0x8005e, 0x8001e, 0x9009d, 0x70117, 0x8007e, 0x8003e, 0x900dd,
0x7010f, 0x8006e, 0x8002e, 0x900bd, 0x8000e, 0x8008e, 0x8004e, 0x900fd,
0x70100, 0x80051, 0x80011, 0x80119, 0x70110, 0x80071, 0x80031, 0x900c3,
0x70108, 0x80061, 0x80021, 0x900a3, 0x80001, 0x80081, 0x80041, 0x900e3,
0x70104, 0x80059, 0x80019, 0x90093, 0x70114, 0x80079, 0x80039, 0x900d3,
0x7010c, 0x80069, 0x80029, 0x900b3, 0x80009, 0x80089, 0x80049, 0x900f3,
0x70102, 0x80055, 0x80015, 0x8011d, 0x70112, 0x80075, 0x80035, 0x900cb,
0x7010a, 0x80065, 0x80025, 0x900ab, 0x80005, 0x80085, 0x80045, 0x900eb,
0x70106, 0x8005d, 0x8001d, 0x9009b, 0x70116, 0x8007d, 0x8003d, 0x900db,
0x7010e, 0x8006d, 0x8002d, 0x900bb, 0x8000d, 0x8008d, 0x8004d, 0x900fb,
0x70101, 0x80053, 0x80013, 0x8011b, 0x70111, 0x80073, 0x80033, 0x900c7,
0x70109, 0x80063, 0x80023, 0x900a7, 0x80003, 0x80083, 0x80043, 0x900e7,
0x70105, 0x8005b, 0x8001b, 0x90097, 0x70115, 0x8007b, 0x8003b, 0x900d7,
0x7010d, 0x8006b, 0x8002b, 0x900b7, 0x8000b, 0x8008b, 0x8004b, 0x900f7,
0x70103, 0x80057, 0x80017, 0x8011f, 0x70113, 0x80077, 0x80037, 0x900cf,
0x7010b, 0x80067, 0x80027, 0x900af, 0x80007, 0x80087, 0x80047, 0x900ef,
0x70107, 0x8005f, 0x8001f, 0x9009f, 0x70117, 0x8007f, 0x8003f, 0x900df,
0x7010f, 0x8006f, 0x8002f, 0x900bf, 0x8000f, 0x8008f, 0x8004f, 0x900ff
]), 9];
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var fixedDistCodeTab = [new Int32Array([
0x50000, 0x50010, 0x50008, 0x50018, 0x50004, 0x50014, 0x5000c, 0x5001c,
0x50002, 0x50012, 0x5000a, 0x5001a, 0x50006, 0x50016, 0x5000e, 0x00000,
0x50001, 0x50011, 0x50009, 0x50019, 0x50005, 0x50015, 0x5000d, 0x5001d,
0x50003, 0x50013, 0x5000b, 0x5001b, 0x50007, 0x50017, 0x5000f, 0x00000
]), 5];
function FlateStream(str, maybeLength) {
this.str = str;
this.dict = str.dict;
var cmf = str.getByte();
var flg = str.getByte();
if (cmf === -1 || flg === -1) {
error('Invalid header in flate stream: ' + cmf + ', ' + flg);
}
if ((cmf & 0x0f) !== 0x08) {
error('Unknown compression method in flate stream: ' + cmf + ', ' + flg);
}
if ((((cmf << 8) + flg) % 31) !== 0) {
error('Bad FCHECK in flate stream: ' + cmf + ', ' + flg);
}
if (flg & 0x20) {
error('FDICT bit set in flate stream: ' + cmf + ', ' + flg);
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}
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this.codeSize = 0;
this.codeBuf = 0;
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DecodeStream.call(this, maybeLength);
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}
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FlateStream.prototype = Object.create(DecodeStream.prototype);
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FlateStream.prototype.getBits = function FlateStream_getBits(bits) {
var str = this.str;
var codeSize = this.codeSize;
var codeBuf = this.codeBuf;
var b;
while (codeSize < bits) {
if ((b = str.getByte()) === -1) {
error('Bad encoding in flate stream');
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}
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codeBuf |= b << codeSize;
codeSize += 8;
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}
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b = codeBuf & ((1 << bits) - 1);
this.codeBuf = codeBuf >> bits;
this.codeSize = codeSize -= bits;
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return b;
};
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FlateStream.prototype.getCode = function FlateStream_getCode(table) {
var str = this.str;
var codes = table[0];
var maxLen = table[1];
var codeSize = this.codeSize;
var codeBuf = this.codeBuf;
var b;
while (codeSize < maxLen) {
if ((b = str.getByte()) === -1) {
// premature end of stream. code might however still be valid.
// codeSize < codeLen check below guards against incomplete codeVal.
break;
}
codeBuf |= (b << codeSize);
codeSize += 8;
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}
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var code = codes[codeBuf & ((1 << maxLen) - 1)];
var codeLen = code >> 16;
var codeVal = code & 0xffff;
if (codeLen < 1 || codeSize < codeLen) {
error('Bad encoding in flate stream');
}
this.codeBuf = (codeBuf >> codeLen);
this.codeSize = (codeSize - codeLen);
return codeVal;
};
FlateStream.prototype.generateHuffmanTable =
function flateStreamGenerateHuffmanTable(lengths) {
var n = lengths.length;
// find max code length
var maxLen = 0;
var i;
for (i = 0; i < n; ++i) {
if (lengths[i] > maxLen) {
maxLen = lengths[i];
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}
}
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// build the table
var size = 1 << maxLen;
var codes = new Int32Array(size);
for (var len = 1, code = 0, skip = 2;
len <= maxLen;
++len, code <<= 1, skip <<= 1) {
for (var val = 0; val < n; ++val) {
if (lengths[val] === len) {
// bit-reverse the code
var code2 = 0;
var t = code;
for (i = 0; i < len; ++i) {
code2 = (code2 << 1) | (t & 1);
t >>= 1;
}
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// fill the table entries
for (i = code2; i < size; i += skip) {
codes[i] = (len << 16) | val;
}
++code;
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}
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}
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}
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return [codes, maxLen];
};
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FlateStream.prototype.readBlock = function FlateStream_readBlock() {
var buffer, len;
var str = this.str;
// read block header
var hdr = this.getBits(3);
if (hdr & 1) {
this.eof = true;
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}
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hdr >>= 1;
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if (hdr === 0) { // uncompressed block
var b;
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if ((b = str.getByte()) === -1) {
error('Bad block header in flate stream');
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}
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var blockLen = b;
if ((b = str.getByte()) === -1) {
error('Bad block header in flate stream');
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}
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blockLen |= (b << 8);
if ((b = str.getByte()) === -1) {
error('Bad block header in flate stream');
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}
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var check = b;
if ((b = str.getByte()) === -1) {
error('Bad block header in flate stream');
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}
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check |= (b << 8);
if (check !== (~blockLen & 0xffff) &&
(blockLen !== 0 || check !== 0)) {
// Ignoring error for bad "empty" block (see issue 1277)
error('Bad uncompressed block length in flate stream');
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}
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this.codeBuf = 0;
this.codeSize = 0;
var bufferLength = this.bufferLength;
buffer = this.ensureBuffer(bufferLength + blockLen);
var end = bufferLength + blockLen;
this.bufferLength = end;
if (blockLen === 0) {
if (str.peekByte() === -1) {
this.eof = true;
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}
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} else {
for (var n = bufferLength; n < end; ++n) {
if ((b = str.getByte()) === -1) {
this.eof = true;
break;
}
buffer[n] = b;
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}
}
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return;
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}
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var litCodeTable;
var distCodeTable;
if (hdr === 1) { // compressed block, fixed codes
litCodeTable = fixedLitCodeTab;
distCodeTable = fixedDistCodeTab;
} else if (hdr === 2) { // compressed block, dynamic codes
var numLitCodes = this.getBits(5) + 257;
var numDistCodes = this.getBits(5) + 1;
var numCodeLenCodes = this.getBits(4) + 4;
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// build the code lengths code table
var codeLenCodeLengths = new Uint8Array(codeLenCodeMap.length);
var i;
for (i = 0; i < numCodeLenCodes; ++i) {
codeLenCodeLengths[codeLenCodeMap[i]] = this.getBits(3);
}
var codeLenCodeTab = this.generateHuffmanTable(codeLenCodeLengths);
// build the literal and distance code tables
len = 0;
i = 0;
var codes = numLitCodes + numDistCodes;
var codeLengths = new Uint8Array(codes);
var bitsLength, bitsOffset, what;
while (i < codes) {
var code = this.getCode(codeLenCodeTab);
if (code === 16) {
bitsLength = 2; bitsOffset = 3; what = len;
} else if (code === 17) {
bitsLength = 3; bitsOffset = 3; what = (len = 0);
} else if (code === 18) {
bitsLength = 7; bitsOffset = 11; what = (len = 0);
} else {
codeLengths[i++] = len = code;
continue;
}
var repeatLength = this.getBits(bitsLength) + bitsOffset;
while (repeatLength-- > 0) {
codeLengths[i++] = what;
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}
}
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litCodeTable =
this.generateHuffmanTable(codeLengths.subarray(0, numLitCodes));
distCodeTable =
this.generateHuffmanTable(codeLengths.subarray(numLitCodes, codes));
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} else {
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error('Unknown block type in flate stream');
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}
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buffer = this.buffer;
var limit = buffer ? buffer.length : 0;
var pos = this.bufferLength;
while (true) {
var code1 = this.getCode(litCodeTable);
if (code1 < 256) {
if (pos + 1 >= limit) {
buffer = this.ensureBuffer(pos + 1);
limit = buffer.length;
}
buffer[pos++] = code1;
continue;
}
if (code1 === 256) {
this.bufferLength = pos;
return;
}
code1 -= 257;
code1 = lengthDecode[code1];
var code2 = code1 >> 16;
if (code2 > 0) {
code2 = this.getBits(code2);
}
len = (code1 & 0xffff) + code2;
code1 = this.getCode(distCodeTable);
code1 = distDecode[code1];
code2 = code1 >> 16;
if (code2 > 0) {
code2 = this.getBits(code2);
}
var dist = (code1 & 0xffff) + code2;
if (pos + len >= limit) {
buffer = this.ensureBuffer(pos + len);
limit = buffer.length;
}
for (var k = 0; k < len; ++k, ++pos) {
buffer[pos] = buffer[pos - dist];
}
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}
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};
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return FlateStream;
})();
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var PredictorStream = (function PredictorStreamClosure() {
function PredictorStream(str, maybeLength, params) {
var predictor = this.predictor = params.get('Predictor') || 1;
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if (predictor <= 1) {
return str; // no prediction
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}
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if (predictor !== 2 && (predictor < 10 || predictor > 15)) {
error('Unsupported predictor: ' + predictor);
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}
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if (predictor === 2) {
this.readBlock = this.readBlockTiff;
} else {
this.readBlock = this.readBlockPng;
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}
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this.str = str;
this.dict = str.dict;
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var colors = this.colors = params.get('Colors') || 1;
var bits = this.bits = params.get('BitsPerComponent') || 8;
var columns = this.columns = params.get('Columns') || 1;
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this.pixBytes = (colors * bits + 7) >> 3;
this.rowBytes = (columns * colors * bits + 7) >> 3;
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DecodeStream.call(this, maybeLength);
return this;
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}
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PredictorStream.prototype = Object.create(DecodeStream.prototype);
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PredictorStream.prototype.readBlockTiff =
function predictorStreamReadBlockTiff() {
var rowBytes = this.rowBytes;
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var bufferLength = this.bufferLength;
var buffer = this.ensureBuffer(bufferLength + rowBytes);
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var bits = this.bits;
var colors = this.colors;
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var rawBytes = this.str.getBytes(rowBytes);
this.eof = !rawBytes.length;
if (this.eof) {
return;
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}
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var inbuf = 0, outbuf = 0;
var inbits = 0, outbits = 0;
var pos = bufferLength;
var i;
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if (bits === 1) {
for (i = 0; i < rowBytes; ++i) {
var c = rawBytes[i];
inbuf = (inbuf << 8) | c;
// bitwise addition is exclusive or
// first shift inbuf and then add
buffer[pos++] = (c ^ (inbuf >> colors)) & 0xFF;
// truncate inbuf (assumes colors < 16)
inbuf &= 0xFFFF;
}
} else if (bits === 8) {
for (i = 0; i < colors; ++i) {
buffer[pos++] = rawBytes[i];
}
for (; i < rowBytes; ++i) {
buffer[pos] = buffer[pos - colors] + rawBytes[i];
pos++;
}
} else {
var compArray = new Uint8Array(colors + 1);
var bitMask = (1 << bits) - 1;
var j = 0, k = bufferLength;
var columns = this.columns;
for (i = 0; i < columns; ++i) {
for (var kk = 0; kk < colors; ++kk) {
if (inbits < bits) {
inbuf = (inbuf << 8) | (rawBytes[j++] & 0xFF);
inbits += 8;
}
compArray[kk] = (compArray[kk] +
(inbuf >> (inbits - bits))) & bitMask;
inbits -= bits;
outbuf = (outbuf << bits) | compArray[kk];
outbits += bits;
if (outbits >= 8) {
buffer[k++] = (outbuf >> (outbits - 8)) & 0xFF;
outbits -= 8;
}
}
}
if (outbits > 0) {
buffer[k++] = (outbuf << (8 - outbits)) +
(inbuf & ((1 << (8 - outbits)) - 1));
}
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}
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this.bufferLength += rowBytes;
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};
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PredictorStream.prototype.readBlockPng =
function predictorStreamReadBlockPng() {
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var rowBytes = this.rowBytes;
var pixBytes = this.pixBytes;
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var predictor = this.str.getByte();
var rawBytes = this.str.getBytes(rowBytes);
this.eof = !rawBytes.length;
if (this.eof) {
return;
}
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var bufferLength = this.bufferLength;
var buffer = this.ensureBuffer(bufferLength + rowBytes);
var prevRow = buffer.subarray(bufferLength - rowBytes, bufferLength);
if (prevRow.length === 0) {
prevRow = new Uint8Array(rowBytes);
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}
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var i, j = bufferLength, up, c;
switch (predictor) {
case 0:
for (i = 0; i < rowBytes; ++i) {
buffer[j++] = rawBytes[i];
}
break;
case 1:
for (i = 0; i < pixBytes; ++i) {
buffer[j++] = rawBytes[i];
}
for (; i < rowBytes; ++i) {
buffer[j] = (buffer[j - pixBytes] + rawBytes[i]) & 0xFF;
j++;
}
break;
case 2:
for (i = 0; i < rowBytes; ++i) {
buffer[j++] = (prevRow[i] + rawBytes[i]) & 0xFF;
}
break;
case 3:
for (i = 0; i < pixBytes; ++i) {
buffer[j++] = (prevRow[i] >> 1) + rawBytes[i];
}
for (; i < rowBytes; ++i) {
buffer[j] = (((prevRow[i] + buffer[j - pixBytes]) >> 1) +
rawBytes[i]) & 0xFF;
j++;
}
break;
case 4:
// we need to save the up left pixels values. the simplest way
// is to create a new buffer
for (i = 0; i < pixBytes; ++i) {
up = prevRow[i];
c = rawBytes[i];
buffer[j++] = up + c;
}
for (; i < rowBytes; ++i) {
up = prevRow[i];
var upLeft = prevRow[i - pixBytes];
var left = buffer[j - pixBytes];
var p = left + up - upLeft;
var pa = p - left;
if (pa < 0) {
pa = -pa;
}
var pb = p - up;
if (pb < 0) {
pb = -pb;
}
var pc = p - upLeft;
if (pc < 0) {
pc = -pc;
}
c = rawBytes[i];
if (pa <= pb && pa <= pc) {
buffer[j++] = left + c;
} else if (pb <= pc) {
buffer[j++] = up + c;
} else {
buffer[j++] = upLeft + c;
}
}
break;
default:
error('Unsupported predictor: ' + predictor);
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}
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this.bufferLength += rowBytes;
};
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return PredictorStream;
})();
/**
* Depending on the type of JPEG a JpegStream is handled in different ways. For
* JPEG's that are supported natively such as DeviceGray and DeviceRGB the image
* data is stored and then loaded by the browser. For unsupported JPEG's we use
* a library to decode these images and the stream behaves like all the other
* DecodeStreams.
*/
var JpegStream = (function JpegStreamClosure() {
function JpegStream(stream, maybeLength, dict, xref) {
// Some images may contain 'junk' before the SOI (start-of-image) marker.
// Note: this seems to mainly affect inline images.
var ch;
while ((ch = stream.getByte()) !== -1) {
if (ch === 0xFF) { // Find the first byte of the SOI marker (0xFFD8).
stream.skip(-1); // Reset the stream position to the SOI.
break;
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}
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}
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this.stream = stream;
this.maybeLength = maybeLength;
this.dict = dict;
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DecodeStream.call(this, maybeLength);
}
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JpegStream.prototype = Object.create(DecodeStream.prototype);
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Object.defineProperty(JpegStream.prototype, 'bytes', {
get: function JpegStream_bytes() {
// If this.maybeLength is null, we'll get the entire stream.
return shadow(this, 'bytes', this.stream.getBytes(this.maybeLength));
},
configurable: true
});
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JpegStream.prototype.ensureBuffer = function JpegStream_ensureBuffer(req) {
if (this.bufferLength) {
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return;
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}
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try {
var jpegImage = new JpegImage();
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// checking if values needs to be transformed before conversion
if (this.forceRGB && this.dict && isArray(this.dict.get('Decode'))) {
var decodeArr = this.dict.get('Decode');
var bitsPerComponent = this.dict.get('BitsPerComponent') || 8;
var decodeArrLength = decodeArr.length;
var transform = new Int32Array(decodeArrLength);
var transformNeeded = false;
var maxValue = (1 << bitsPerComponent) - 1;
for (var i = 0; i < decodeArrLength; i += 2) {
transform[i] = ((decodeArr[i + 1] - decodeArr[i]) * 256) | 0;
transform[i + 1] = (decodeArr[i] * maxValue) | 0;
if (transform[i] !== 256 || transform[i + 1] !== 0) {
transformNeeded = true;
}
}
if (transformNeeded) {
jpegImage.decodeTransform = transform;
}
}
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jpegImage.parse(this.bytes);
var data = jpegImage.getData(this.drawWidth, this.drawHeight,
this.forceRGB);
this.buffer = data;
this.bufferLength = data.length;
this.eof = true;
} catch (e) {
error('JPEG error: ' + e);
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}
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};
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JpegStream.prototype.getBytes = function JpegStream_getBytes(length) {
this.ensureBuffer();
return this.buffer;
};
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JpegStream.prototype.getIR = function JpegStream_getIR(forceDataSchema) {
return createObjectURL(this.bytes, 'image/jpeg', forceDataSchema);
};
return JpegStream;
})();
/**
* For JPEG 2000's we use a library to decode these images and
* the stream behaves like all the other DecodeStreams.
*/
var JpxStream = (function JpxStreamClosure() {
function JpxStream(stream, maybeLength, dict) {
this.stream = stream;
this.maybeLength = maybeLength;
this.dict = dict;
DecodeStream.call(this, maybeLength);
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}
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JpxStream.prototype = Object.create(DecodeStream.prototype);
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Object.defineProperty(JpxStream.prototype, 'bytes', {
get: function JpxStream_bytes() {
// If this.maybeLength is null, we'll get the entire stream.
return shadow(this, 'bytes', this.stream.getBytes(this.maybeLength));
},
configurable: true
});
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JpxStream.prototype.ensureBuffer = function JpxStream_ensureBuffer(req) {
if (this.bufferLength) {
return;
}
var jpxImage = new JpxImage();
jpxImage.parse(this.bytes);
var width = jpxImage.width;
var height = jpxImage.height;
var componentsCount = jpxImage.componentsCount;
var tileCount = jpxImage.tiles.length;
if (tileCount === 1) {
this.buffer = jpxImage.tiles[0].items;
} else {
var data = new Uint8Array(width * height * componentsCount);
for (var k = 0; k < tileCount; k++) {
var tileComponents = jpxImage.tiles[k];
var tileWidth = tileComponents.width;
var tileHeight = tileComponents.height;
var tileLeft = tileComponents.left;
var tileTop = tileComponents.top;
var src = tileComponents.items;
var srcPosition = 0;
var dataPosition = (width * tileTop + tileLeft) * componentsCount;
var imgRowSize = width * componentsCount;
var tileRowSize = tileWidth * componentsCount;
for (var j = 0; j < tileHeight; j++) {
var rowBytes = src.subarray(srcPosition, srcPosition + tileRowSize);
data.set(rowBytes, dataPosition);
srcPosition += tileRowSize;
dataPosition += imgRowSize;
}
}
this.buffer = data;
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}
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this.bufferLength = this.buffer.length;
this.eof = true;
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};
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return JpxStream;
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})();
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/**
* For JBIG2's we use a library to decode these images and
* the stream behaves like all the other DecodeStreams.
*/
var Jbig2Stream = (function Jbig2StreamClosure() {
function Jbig2Stream(stream, maybeLength, dict) {
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this.stream = stream;
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this.maybeLength = maybeLength;
this.dict = dict;
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DecodeStream.call(this, maybeLength);
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}
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Jbig2Stream.prototype = Object.create(DecodeStream.prototype);
Object.defineProperty(Jbig2Stream.prototype, 'bytes', {
get: function Jbig2Stream_bytes() {
// If this.maybeLength is null, we'll get the entire stream.
return shadow(this, 'bytes', this.stream.getBytes(this.maybeLength));
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},
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configurable: true
});
Jbig2Stream.prototype.ensureBuffer = function Jbig2Stream_ensureBuffer(req) {
if (this.bufferLength) {
return;
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}
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var jbig2Image = new Jbig2Image();
var chunks = [], xref = this.dict.xref;
var decodeParams = xref.fetchIfRef(this.dict.get('DecodeParms'));
// According to the PDF specification, DecodeParms can be either
// a dictionary, or an array whose elements are dictionaries.
if (isArray(decodeParams)) {
if (decodeParams.length > 1) {
warn('JBIG2 - \'DecodeParms\' array with multiple elements ' +
'not supported.');
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}
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decodeParams = xref.fetchIfRef(decodeParams[0]);
}
if (decodeParams && decodeParams.has('JBIG2Globals')) {
var globalsStream = decodeParams.get('JBIG2Globals');
var globals = globalsStream.getBytes();
chunks.push({data: globals, start: 0, end: globals.length});
}
chunks.push({data: this.bytes, start: 0, end: this.bytes.length});
var data = jbig2Image.parseChunks(chunks);
var dataLength = data.length;
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// JBIG2 had black as 1 and white as 0, inverting the colors
for (var i = 0; i < dataLength; i++) {
data[i] ^= 0xFF;
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}
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this.buffer = data;
this.bufferLength = dataLength;
this.eof = true;
};
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return Jbig2Stream;
})();
var DecryptStream = (function DecryptStreamClosure() {
function DecryptStream(str, maybeLength, decrypt) {
this.str = str;
this.dict = str.dict;
this.decrypt = decrypt;
this.nextChunk = null;
this.initialized = false;
DecodeStream.call(this, maybeLength);
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}
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var chunkSize = 512;
DecryptStream.prototype = Object.create(DecodeStream.prototype);
DecryptStream.prototype.readBlock = function DecryptStream_readBlock() {
var chunk;
if (this.initialized) {
chunk = this.nextChunk;
} else {
chunk = this.str.getBytes(chunkSize);
this.initialized = true;
}
if (!chunk || chunk.length === 0) {
this.eof = true;
return;
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}
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this.nextChunk = this.str.getBytes(chunkSize);
var hasMoreData = this.nextChunk && this.nextChunk.length > 0;
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var decrypt = this.decrypt;
chunk = decrypt(chunk, !hasMoreData);
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var bufferLength = this.bufferLength;
var i, n = chunk.length;
var buffer = this.ensureBuffer(bufferLength + n);
for (i = 0; i < n; i++) {
buffer[bufferLength++] = chunk[i];
}
this.bufferLength = bufferLength;
};
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return DecryptStream;
})();
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var Ascii85Stream = (function Ascii85StreamClosure() {
// Checks if ch is one of the following characters: SPACE, TAB, CR or LF.
function isSpace(ch) {
return (ch === 0x20 || ch === 0x09 || ch === 0x0D || ch === 0x0A);
}
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function Ascii85Stream(str, maybeLength) {
this.str = str;
this.dict = str.dict;
this.input = new Uint8Array(5);
// Most streams increase in size when decoded, but Ascii85 streams
// typically shrink by ~20%.
if (maybeLength) {
maybeLength = 0.8 * maybeLength;
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}
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DecodeStream.call(this, maybeLength);
}
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Ascii85Stream.prototype = Object.create(DecodeStream.prototype);
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Ascii85Stream.prototype.readBlock = function Ascii85Stream_readBlock() {
var TILDA_CHAR = 0x7E; // '~'
var Z_LOWER_CHAR = 0x7A; // 'z'
var EOF = -1;
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var str = this.str;
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var c = str.getByte();
while (isSpace(c)) {
c = str.getByte();
}
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if (c === EOF || c === TILDA_CHAR) {
this.eof = true;
return;
}
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var bufferLength = this.bufferLength, buffer;
var i;
// special code for z
if (c === Z_LOWER_CHAR) {
buffer = this.ensureBuffer(bufferLength + 4);
for (i = 0; i < 4; ++i) {
buffer[bufferLength + i] = 0;
}
this.bufferLength += 4;
} else {
var input = this.input;
input[0] = c;
for (i = 1; i < 5; ++i) {
c = str.getByte();
while (isSpace(c)) {
c = str.getByte();
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}
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input[i] = c;
if (c === EOF || c === TILDA_CHAR) {
break;
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}
}
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buffer = this.ensureBuffer(bufferLength + i - 1);
this.bufferLength += i - 1;
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// partial ending;
if (i < 5) {
for (; i < 5; ++i) {
input[i] = 0x21 + 84;
}
this.eof = true;
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}
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var t = 0;
for (i = 0; i < 5; ++i) {
t = t * 85 + (input[i] - 0x21);
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}
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for (i = 3; i >= 0; --i) {
buffer[bufferLength + i] = t & 0xFF;
t >>= 8;
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}
}
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};
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return Ascii85Stream;
})();
var AsciiHexStream = (function AsciiHexStreamClosure() {
function AsciiHexStream(str, maybeLength) {
this.str = str;
this.dict = str.dict;
this.firstDigit = -1;
// Most streams increase in size when decoded, but AsciiHex streams shrink
// by 50%.
if (maybeLength) {
maybeLength = 0.5 * maybeLength;
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}
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DecodeStream.call(this, maybeLength);
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}
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AsciiHexStream.prototype = Object.create(DecodeStream.prototype);
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AsciiHexStream.prototype.readBlock = function AsciiHexStream_readBlock() {
var UPSTREAM_BLOCK_SIZE = 8000;
var bytes = this.str.getBytes(UPSTREAM_BLOCK_SIZE);
if (!bytes.length) {
this.eof = true;
return;
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}
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var maxDecodeLength = (bytes.length + 1) >> 1;
var buffer = this.ensureBuffer(this.bufferLength + maxDecodeLength);
var bufferLength = this.bufferLength;
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var firstDigit = this.firstDigit;
for (var i = 0, ii = bytes.length; i < ii; i++) {
var ch = bytes[i], digit;
if (ch >= 0x30 && ch <= 0x39) { // '0'-'9'
digit = ch & 0x0F;
} else if ((ch >= 0x41 && ch <= 0x46) || (ch >= 0x61 && ch <= 0x66)) {
// 'A'-'Z', 'a'-'z'
digit = (ch & 0x0F) + 9;
} else if (ch === 0x3E) { // '>'
this.eof = true;
break;
} else { // probably whitespace
continue; // ignoring
}
if (firstDigit < 0) {
firstDigit = digit;
} else {
buffer[bufferLength++] = (firstDigit << 4) | digit;
firstDigit = -1;
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}
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}
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if (firstDigit >= 0 && this.eof) {
// incomplete byte
buffer[bufferLength++] = (firstDigit << 4);
firstDigit = -1;
}
this.firstDigit = firstDigit;
this.bufferLength = bufferLength;
};
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return AsciiHexStream;
})();
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var RunLengthStream = (function RunLengthStreamClosure() {
function RunLengthStream(str, maybeLength) {
this.str = str;
this.dict = str.dict;
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DecodeStream.call(this, maybeLength);
}
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RunLengthStream.prototype = Object.create(DecodeStream.prototype);
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RunLengthStream.prototype.readBlock = function RunLengthStream_readBlock() {
// The repeatHeader has following format. The first byte defines type of run
// and amount of bytes to repeat/copy: n = 0 through 127 - copy next n bytes
// (in addition to the second byte from the header), n = 129 through 255 -
// duplicate the second byte from the header (257 - n) times, n = 128 - end.
var repeatHeader = this.str.getBytes(2);
if (!repeatHeader || repeatHeader.length < 2 || repeatHeader[0] === 128) {
this.eof = true;
return;
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}
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var buffer;
var bufferLength = this.bufferLength;
var n = repeatHeader[0];
if (n < 128) {
// copy n bytes
buffer = this.ensureBuffer(bufferLength + n + 1);
buffer[bufferLength++] = repeatHeader[1];
if (n > 0) {
var source = this.str.getBytes(n);
buffer.set(source, bufferLength);
bufferLength += n;
}
} else {
n = 257 - n;
var b = repeatHeader[1];
buffer = this.ensureBuffer(bufferLength + n + 1);
for (var i = 0; i < n; i++) {
buffer[bufferLength++] = b;
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}
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}
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this.bufferLength = bufferLength;
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};
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return RunLengthStream;
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})();
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var CCITTFaxStream = (function CCITTFaxStreamClosure() {
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var ccittEOL = -2;
var ccittEOF = -1;
var twoDimPass = 0;
var twoDimHoriz = 1;
var twoDimVert0 = 2;
var twoDimVertR1 = 3;
var twoDimVertL1 = 4;
var twoDimVertR2 = 5;
var twoDimVertL2 = 6;
var twoDimVertR3 = 7;
var twoDimVertL3 = 8;
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var twoDimTable = [
[-1, -1], [-1, -1], // 000000x
[7, twoDimVertL3], // 0000010
[7, twoDimVertR3], // 0000011
[6, twoDimVertL2], [6, twoDimVertL2], // 000010x
[6, twoDimVertR2], [6, twoDimVertR2], // 000011x
[4, twoDimPass], [4, twoDimPass], // 0001xxx
[4, twoDimPass], [4, twoDimPass],
[4, twoDimPass], [4, twoDimPass],
[4, twoDimPass], [4, twoDimPass],
[3, twoDimHoriz], [3, twoDimHoriz], // 001xxxx
[3, twoDimHoriz], [3, twoDimHoriz],
[3, twoDimHoriz], [3, twoDimHoriz],
[3, twoDimHoriz], [3, twoDimHoriz],
[3, twoDimHoriz], [3, twoDimHoriz],
[3, twoDimHoriz], [3, twoDimHoriz],
[3, twoDimHoriz], [3, twoDimHoriz],
[3, twoDimHoriz], [3, twoDimHoriz],
[3, twoDimVertL1], [3, twoDimVertL1], // 010xxxx
[3, twoDimVertL1], [3, twoDimVertL1],
[3, twoDimVertL1], [3, twoDimVertL1],
[3, twoDimVertL1], [3, twoDimVertL1],
[3, twoDimVertL1], [3, twoDimVertL1],
[3, twoDimVertL1], [3, twoDimVertL1],
[3, twoDimVertL1], [3, twoDimVertL1],
[3, twoDimVertL1], [3, twoDimVertL1],
[3, twoDimVertR1], [3, twoDimVertR1], // 011xxxx
[3, twoDimVertR1], [3, twoDimVertR1],
[3, twoDimVertR1], [3, twoDimVertR1],
[3, twoDimVertR1], [3, twoDimVertR1],
[3, twoDimVertR1], [3, twoDimVertR1],
[3, twoDimVertR1], [3, twoDimVertR1],
[3, twoDimVertR1], [3, twoDimVertR1],
[3, twoDimVertR1], [3, twoDimVertR1],
[1, twoDimVert0], [1, twoDimVert0], // 1xxxxxx
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0],
[1, twoDimVert0], [1, twoDimVert0]
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];
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var whiteTable1 = [
[-1, -1], // 00000
[12, ccittEOL], // 00001
[-1, -1], [-1, -1], // 0001x
[-1, -1], [-1, -1], [-1, -1], [-1, -1], // 001xx
[-1, -1], [-1, -1], [-1, -1], [-1, -1], // 010xx
[-1, -1], [-1, -1], [-1, -1], [-1, -1], // 011xx
[11, 1792], [11, 1792], // 1000x
[12, 1984], // 10010
[12, 2048], // 10011
[12, 2112], // 10100
[12, 2176], // 10101
[12, 2240], // 10110
[12, 2304], // 10111
[11, 1856], [11, 1856], // 1100x
[11, 1920], [11, 1920], // 1101x
[12, 2368], // 11100
[12, 2432], // 11101
[12, 2496], // 11110
[12, 2560] // 11111
];
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var whiteTable2 = [
[-1, -1], [-1, -1], [-1, -1], [-1, -1], // 0000000xx
[8, 29], [8, 29], // 00000010x
[8, 30], [8, 30], // 00000011x
[8, 45], [8, 45], // 00000100x
[8, 46], [8, 46], // 00000101x
[7, 22], [7, 22], [7, 22], [7, 22], // 0000011xx
[7, 23], [7, 23], [7, 23], [7, 23], // 0000100xx
[8, 47], [8, 47], // 00001010x
[8, 48], [8, 48], // 00001011x
[6, 13], [6, 13], [6, 13], [6, 13], // 000011xxx
[6, 13], [6, 13], [6, 13], [6, 13],
[7, 20], [7, 20], [7, 20], [7, 20], // 0001000xx
[8, 33], [8, 33], // 00010010x
[8, 34], [8, 34], // 00010011x
[8, 35], [8, 35], // 00010100x
[8, 36], [8, 36], // 00010101x
[8, 37], [8, 37], // 00010110x
[8, 38], [8, 38], // 00010111x
[7, 19], [7, 19], [7, 19], [7, 19], // 0001100xx
[8, 31], [8, 31], // 00011010x
[8, 32], [8, 32], // 00011011x
[6, 1], [6, 1], [6, 1], [6, 1], // 000111xxx
[6, 1], [6, 1], [6, 1], [6, 1],
[6, 12], [6, 12], [6, 12], [6, 12], // 001000xxx
[6, 12], [6, 12], [6, 12], [6, 12],
[8, 53], [8, 53], // 00100100x
[8, 54], [8, 54], // 00100101x
[7, 26], [7, 26], [7, 26], [7, 26], // 0010011xx
[8, 39], [8, 39], // 00101000x
[8, 40], [8, 40], // 00101001x
[8, 41], [8, 41], // 00101010x
[8, 42], [8, 42], // 00101011x
[8, 43], [8, 43], // 00101100x
[8, 44], [8, 44], // 00101101x
[7, 21], [7, 21], [7, 21], [7, 21], // 0010111xx
[7, 28], [7, 28], [7, 28], [7, 28], // 0011000xx
[8, 61], [8, 61], // 00110010x
[8, 62], [8, 62], // 00110011x
[8, 63], [8, 63], // 00110100x
[8, 0], [8, 0], // 00110101x
[8, 320], [8, 320], // 00110110x
[8, 384], [8, 384], // 00110111x
[5, 10], [5, 10], [5, 10], [5, 10], // 00111xxxx
[5, 10], [5, 10], [5, 10], [5, 10],
[5, 10], [5, 10], [5, 10], [5, 10],
[5, 10], [5, 10], [5, 10], [5, 10],
[5, 11], [5, 11], [5, 11], [5, 11], // 01000xxxx
[5, 11], [5, 11], [5, 11], [5, 11],
[5, 11], [5, 11], [5, 11], [5, 11],
[5, 11], [5, 11], [5, 11], [5, 11],
[7, 27], [7, 27], [7, 27], [7, 27], // 0100100xx
[8, 59], [8, 59], // 01001010x
[8, 60], [8, 60], // 01001011x
[9, 1472], // 010011000
[9, 1536], // 010011001
[9, 1600], // 010011010
[9, 1728], // 010011011
[7, 18], [7, 18], [7, 18], [7, 18], // 0100111xx
[7, 24], [7, 24], [7, 24], [7, 24], // 0101000xx
[8, 49], [8, 49], // 01010010x
[8, 50], [8, 50], // 01010011x
[8, 51], [8, 51], // 01010100x
[8, 52], [8, 52], // 01010101x
[7, 25], [7, 25], [7, 25], [7, 25], // 0101011xx
[8, 55], [8, 55], // 01011000x
[8, 56], [8, 56], // 01011001x
[8, 57], [8, 57], // 01011010x
[8, 58], [8, 58], // 01011011x
[6, 192], [6, 192], [6, 192], [6, 192], // 010111xxx
[6, 192], [6, 192], [6, 192], [6, 192],
[6, 1664], [6, 1664], [6, 1664], [6, 1664], // 011000xxx
[6, 1664], [6, 1664], [6, 1664], [6, 1664],
[8, 448], [8, 448], // 01100100x
[8, 512], [8, 512], // 01100101x
[9, 704], // 011001100
[9, 768], // 011001101
[8, 640], [8, 640], // 01100111x
[8, 576], [8, 576], // 01101000x
[9, 832], // 011010010
[9, 896], // 011010011
[9, 960], // 011010100
[9, 1024], // 011010101
[9, 1088], // 011010110
[9, 1152], // 011010111
[9, 1216], // 011011000
[9, 1280], // 011011001
[9, 1344], // 011011010
[9, 1408], // 011011011
[7, 256], [7, 256], [7, 256], [7, 256], // 0110111xx
[4, 2], [4, 2], [4, 2], [4, 2], // 0111xxxxx
[4, 2], [4, 2], [4, 2], [4, 2],
[4, 2], [4, 2], [4, 2], [4, 2],
[4, 2], [4, 2], [4, 2], [4, 2],
[4, 2], [4, 2], [4, 2], [4, 2],
[4, 2], [4, 2], [4, 2], [4, 2],
[4, 2], [4, 2], [4, 2], [4, 2],
[4, 2], [4, 2], [4, 2], [4, 2],
[4, 3], [4, 3], [4, 3], [4, 3], // 1000xxxxx
[4, 3], [4, 3], [4, 3], [4, 3],
[4, 3], [4, 3], [4, 3], [4, 3],
[4, 3], [4, 3], [4, 3], [4, 3],
[4, 3], [4, 3], [4, 3], [4, 3],
[4, 3], [4, 3], [4, 3], [4, 3],
[4, 3], [4, 3], [4, 3], [4, 3],
[4, 3], [4, 3], [4, 3], [4, 3],
[5, 128], [5, 128], [5, 128], [5, 128], // 10010xxxx
[5, 128], [5, 128], [5, 128], [5, 128],
[5, 128], [5, 128], [5, 128], [5, 128],
[5, 128], [5, 128], [5, 128], [5, 128],
[5, 8], [5, 8], [5, 8], [5, 8], // 10011xxxx
[5, 8], [5, 8], [5, 8], [5, 8],
[5, 8], [5, 8], [5, 8], [5, 8],
[5, 8], [5, 8], [5, 8], [5, 8],
[5, 9], [5, 9], [5, 9], [5, 9], // 10100xxxx
[5, 9], [5, 9], [5, 9], [5, 9],
[5, 9], [5, 9], [5, 9], [5, 9],
[5, 9], [5, 9], [5, 9], [5, 9],
[6, 16], [6, 16], [6, 16], [6, 16], // 101010xxx
[6, 16], [6, 16], [6, 16], [6, 16],
[6, 17], [6, 17], [6, 17], [6, 17], // 101011xxx
[6, 17], [6, 17], [6, 17], [6, 17],
[4, 4], [4, 4], [4, 4], [4, 4], // 1011xxxxx
[4, 4], [4, 4], [4, 4], [4, 4],
[4, 4], [4, 4], [4, 4], [4, 4],
[4, 4], [4, 4], [4, 4], [4, 4],
[4, 4], [4, 4], [4, 4], [4, 4],
[4, 4], [4, 4], [4, 4], [4, 4],
[4, 4], [4, 4], [4, 4], [4, 4],
[4, 4], [4, 4], [4, 4], [4, 4],
[4, 5], [4, 5], [4, 5], [4, 5], // 1100xxxxx
[4, 5], [4, 5], [4, 5], [4, 5],
[4, 5], [4, 5], [4, 5], [4, 5],
[4, 5], [4, 5], [4, 5], [4, 5],
[4, 5], [4, 5], [4, 5], [4, 5],
[4, 5], [4, 5], [4, 5], [4, 5],
[4, 5], [4, 5], [4, 5], [4, 5],
[4, 5], [4, 5], [4, 5], [4, 5],
[6, 14], [6, 14], [6, 14], [6, 14], // 110100xxx
[6, 14], [6, 14], [6, 14], [6, 14],
[6, 15], [6, 15], [6, 15], [6, 15], // 110101xxx
[6, 15], [6, 15], [6, 15], [6, 15],
[5, 64], [5, 64], [5, 64], [5, 64], // 11011xxxx
[5, 64], [5, 64], [5, 64], [5, 64],
[5, 64], [5, 64], [5, 64], [5, 64],
[5, 64], [5, 64], [5, 64], [5, 64],
[4, 6], [4, 6], [4, 6], [4, 6], // 1110xxxxx
[4, 6], [4, 6], [4, 6], [4, 6],
[4, 6], [4, 6], [4, 6], [4, 6],
[4, 6], [4, 6], [4, 6], [4, 6],
[4, 6], [4, 6], [4, 6], [4, 6],
[4, 6], [4, 6], [4, 6], [4, 6],
[4, 6], [4, 6], [4, 6], [4, 6],
[4, 6], [4, 6], [4, 6], [4, 6],
[4, 7], [4, 7], [4, 7], [4, 7], // 1111xxxxx
[4, 7], [4, 7], [4, 7], [4, 7],
[4, 7], [4, 7], [4, 7], [4, 7],
[4, 7], [4, 7], [4, 7], [4, 7],
[4, 7], [4, 7], [4, 7], [4, 7],
[4, 7], [4, 7], [4, 7], [4, 7],
[4, 7], [4, 7], [4, 7], [4, 7],
[4, 7], [4, 7], [4, 7], [4, 7]
];
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var blackTable1 = [
[-1, -1], [-1, -1], // 000000000000x
[12, ccittEOL], [12, ccittEOL], // 000000000001x
[-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000001xx
[-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000010xx
[-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000011xx
[-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000100xx
[-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000101xx
[-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000110xx
[-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000111xx
[11, 1792], [11, 1792], [11, 1792], [11, 1792], // 00000001000xx
[12, 1984], [12, 1984], // 000000010010x
[12, 2048], [12, 2048], // 000000010011x
[12, 2112], [12, 2112], // 000000010100x
[12, 2176], [12, 2176], // 000000010101x
[12, 2240], [12, 2240], // 000000010110x
[12, 2304], [12, 2304], // 000000010111x
[11, 1856], [11, 1856], [11, 1856], [11, 1856], // 00000001100xx
[11, 1920], [11, 1920], [11, 1920], [11, 1920], // 00000001101xx
[12, 2368], [12, 2368], // 000000011100x
[12, 2432], [12, 2432], // 000000011101x
[12, 2496], [12, 2496], // 000000011110x
[12, 2560], [12, 2560], // 000000011111x
[10, 18], [10, 18], [10, 18], [10, 18], // 0000001000xxx
[10, 18], [10, 18], [10, 18], [10, 18],
[12, 52], [12, 52], // 000000100100x
[13, 640], // 0000001001010
[13, 704], // 0000001001011
[13, 768], // 0000001001100
[13, 832], // 0000001001101
[12, 55], [12, 55], // 000000100111x
[12, 56], [12, 56], // 000000101000x
[13, 1280], // 0000001010010
[13, 1344], // 0000001010011
[13, 1408], // 0000001010100
[13, 1472], // 0000001010101
[12, 59], [12, 59], // 000000101011x
[12, 60], [12, 60], // 000000101100x
[13, 1536], // 0000001011010
[13, 1600], // 0000001011011
[11, 24], [11, 24], [11, 24], [11, 24], // 00000010111xx
[11, 25], [11, 25], [11, 25], [11, 25], // 00000011000xx
[13, 1664], // 0000001100100
[13, 1728], // 0000001100101
[12, 320], [12, 320], // 000000110011x
[12, 384], [12, 384], // 000000110100x
[12, 448], [12, 448], // 000000110101x
[13, 512], // 0000001101100
[13, 576], // 0000001101101
[12, 53], [12, 53], // 000000110111x
[12, 54], [12, 54], // 000000111000x
[13, 896], // 0000001110010
[13, 960], // 0000001110011
[13, 1024], // 0000001110100
[13, 1088], // 0000001110101
[13, 1152], // 0000001110110
[13, 1216], // 0000001110111
[10, 64], [10, 64], [10, 64], [10, 64], // 0000001111xxx
[10, 64], [10, 64], [10, 64], [10, 64]
];
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var blackTable2 = [
[8, 13], [8, 13], [8, 13], [8, 13], // 00000100xxxx
[8, 13], [8, 13], [8, 13], [8, 13],
[8, 13], [8, 13], [8, 13], [8, 13],
[8, 13], [8, 13], [8, 13], [8, 13],
[11, 23], [11, 23], // 00000101000x
[12, 50], // 000001010010
[12, 51], // 000001010011
[12, 44], // 000001010100
[12, 45], // 000001010101
[12, 46], // 000001010110
[12, 47], // 000001010111
[12, 57], // 000001011000
[12, 58], // 000001011001
[12, 61], // 000001011010
[12, 256], // 000001011011
[10, 16], [10, 16], [10, 16], [10, 16], // 0000010111xx
[10, 17], [10, 17], [10, 17], [10, 17], // 0000011000xx
[12, 48], // 000001100100
[12, 49], // 000001100101
[12, 62], // 000001100110
[12, 63], // 000001100111
[12, 30], // 000001101000
[12, 31], // 000001101001
[12, 32], // 000001101010
[12, 33], // 000001101011
[12, 40], // 000001101100
[12, 41], // 000001101101
[11, 22], [11, 22], // 00000110111x
[8, 14], [8, 14], [8, 14], [8, 14], // 00000111xxxx
[8, 14], [8, 14], [8, 14], [8, 14],
[8, 14], [8, 14], [8, 14], [8, 14],
[8, 14], [8, 14], [8, 14], [8, 14],
[7, 10], [7, 10], [7, 10], [7, 10], // 0000100xxxxx
[7, 10], [7, 10], [7, 10], [7, 10],
[7, 10], [7, 10], [7, 10], [7, 10],
[7, 10], [7, 10], [7, 10], [7, 10],
[7, 10], [7, 10], [7, 10], [7, 10],
[7, 10], [7, 10], [7, 10], [7, 10],
[7, 10], [7, 10], [7, 10], [7, 10],
[7, 10], [7, 10], [7, 10], [7, 10],
[7, 11], [7, 11], [7, 11], [7, 11], // 0000101xxxxx
[7, 11], [7, 11], [7, 11], [7, 11],
[7, 11], [7, 11], [7, 11], [7, 11],
[7, 11], [7, 11], [7, 11], [7, 11],
[7, 11], [7, 11], [7, 11], [7, 11],
[7, 11], [7, 11], [7, 11], [7, 11],
[7, 11], [7, 11], [7, 11], [7, 11],
[7, 11], [7, 11], [7, 11], [7, 11],
[9, 15], [9, 15], [9, 15], [9, 15], // 000011000xxx
[9, 15], [9, 15], [9, 15], [9, 15],
[12, 128], // 000011001000
[12, 192], // 000011001001
[12, 26], // 000011001010
[12, 27], // 000011001011
[12, 28], // 000011001100
[12, 29], // 000011001101
[11, 19], [11, 19], // 00001100111x
[11, 20], [11, 20], // 00001101000x
[12, 34], // 000011010010
[12, 35], // 000011010011
[12, 36], // 000011010100
[12, 37], // 000011010101
[12, 38], // 000011010110
[12, 39], // 000011010111
[11, 21], [11, 21], // 00001101100x
[12, 42], // 000011011010
[12, 43], // 000011011011
[10, 0], [10, 0], [10, 0], [10, 0], // 0000110111xx
[7, 12], [7, 12], [7, 12], [7, 12], // 0000111xxxxx
[7, 12], [7, 12], [7, 12], [7, 12],
[7, 12], [7, 12], [7, 12], [7, 12],
[7, 12], [7, 12], [7, 12], [7, 12],
[7, 12], [7, 12], [7, 12], [7, 12],
[7, 12], [7, 12], [7, 12], [7, 12],
[7, 12], [7, 12], [7, 12], [7, 12],
[7, 12], [7, 12], [7, 12], [7, 12]
];
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var blackTable3 = [
[-1, -1], [-1, -1], [-1, -1], [-1, -1], // 0000xx
[6, 9], // 000100
[6, 8], // 000101
[5, 7], [5, 7], // 00011x
[4, 6], [4, 6], [4, 6], [4, 6], // 0010xx
[4, 5], [4, 5], [4, 5], [4, 5], // 0011xx
[3, 1], [3, 1], [3, 1], [3, 1], // 010xxx
[3, 1], [3, 1], [3, 1], [3, 1],
[3, 4], [3, 4], [3, 4], [3, 4], // 011xxx
[3, 4], [3, 4], [3, 4], [3, 4],
[2, 3], [2, 3], [2, 3], [2, 3], // 10xxxx
[2, 3], [2, 3], [2, 3], [2, 3],
[2, 3], [2, 3], [2, 3], [2, 3],
[2, 3], [2, 3], [2, 3], [2, 3],
[2, 2], [2, 2], [2, 2], [2, 2], // 11xxxx
[2, 2], [2, 2], [2, 2], [2, 2],
[2, 2], [2, 2], [2, 2], [2, 2],
[2, 2], [2, 2], [2, 2], [2, 2]
];
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function CCITTFaxStream(str, maybeLength, params) {
this.str = str;
this.dict = str.dict;
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params = params || Dict.empty;
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this.encoding = params.get('K') || 0;
this.eoline = params.get('EndOfLine') || false;
this.byteAlign = params.get('EncodedByteAlign') || false;
this.columns = params.get('Columns') || 1728;
this.rows = params.get('Rows') || 0;
var eoblock = params.get('EndOfBlock');
if (eoblock === null || eoblock === undefined) {
eoblock = true;
}
this.eoblock = eoblock;
this.black = params.get('BlackIs1') || false;
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this.codingLine = new Uint32Array(this.columns + 1);
this.refLine = new Uint32Array(this.columns + 2);
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this.codingLine[0] = this.columns;
this.codingPos = 0;
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this.row = 0;
this.nextLine2D = this.encoding < 0;
this.inputBits = 0;
this.inputBuf = 0;
this.outputBits = 0;
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var code1;
while ((code1 = this.lookBits(12)) === 0) {
this.eatBits(1);
}
if (code1 === 1) {
this.eatBits(12);
}
if (this.encoding > 0) {
this.nextLine2D = !this.lookBits(1);
this.eatBits(1);
}
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DecodeStream.call(this, maybeLength);
}
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CCITTFaxStream.prototype = Object.create(DecodeStream.prototype);
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CCITTFaxStream.prototype.readBlock = function CCITTFaxStream_readBlock() {
while (!this.eof) {
var c = this.lookChar();
this.ensureBuffer(this.bufferLength + 1);
this.buffer[this.bufferLength++] = c;
}
};
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CCITTFaxStream.prototype.addPixels =
function ccittFaxStreamAddPixels(a1, blackPixels) {
var codingLine = this.codingLine;
var codingPos = this.codingPos;
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if (a1 > codingLine[codingPos]) {
if (a1 > this.columns) {
info('row is wrong length');
this.err = true;
a1 = this.columns;
}
if ((codingPos & 1) ^ blackPixels) {
++codingPos;
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}
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codingLine[codingPos] = a1;
}
this.codingPos = codingPos;
};
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CCITTFaxStream.prototype.addPixelsNeg =
function ccittFaxStreamAddPixelsNeg(a1, blackPixels) {
var codingLine = this.codingLine;
var codingPos = this.codingPos;
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if (a1 > codingLine[codingPos]) {
if (a1 > this.columns) {
info('row is wrong length');
this.err = true;
a1 = this.columns;
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}
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if ((codingPos & 1) ^ blackPixels) {
++codingPos;
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}
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codingLine[codingPos] = a1;
} else if (a1 < codingLine[codingPos]) {
if (a1 < 0) {
info('invalid code');
this.err = true;
a1 = 0;
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}
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while (codingPos > 0 && a1 < codingLine[codingPos - 1]) {
--codingPos;
}
codingLine[codingPos] = a1;
}
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this.codingPos = codingPos;
};
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CCITTFaxStream.prototype.lookChar = function CCITTFaxStream_lookChar() {
var refLine = this.refLine;
var codingLine = this.codingLine;
var columns = this.columns;
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var refPos, blackPixels, bits, i;
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if (this.outputBits === 0) {
if (this.eof) {
return null;
}
this.err = false;
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var code1, code2, code3;
if (this.nextLine2D) {
for (i = 0; codingLine[i] < columns; ++i) {
refLine[i] = codingLine[i];
}
refLine[i++] = columns;
refLine[i] = columns;
codingLine[0] = 0;
this.codingPos = 0;
refPos = 0;
blackPixels = 0;
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while (codingLine[this.codingPos] < columns) {
code1 = this.getTwoDimCode();
switch (code1) {
case twoDimPass:
this.addPixels(refLine[refPos + 1], blackPixels);
if (refLine[refPos + 1] < columns) {
refPos += 2;
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}
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break;
case twoDimHoriz:
code1 = code2 = 0;
if (blackPixels) {
do {
code1 += (code3 = this.getBlackCode());
} while (code3 >= 64);
do {
code2 += (code3 = this.getWhiteCode());
} while (code3 >= 64);
} else {
do {
code1 += (code3 = this.getWhiteCode());
} while (code3 >= 64);
do {
code2 += (code3 = this.getBlackCode());
} while (code3 >= 64);
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}
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this.addPixels(codingLine[this.codingPos] +
code1, blackPixels);
if (codingLine[this.codingPos] < columns) {
this.addPixels(codingLine[this.codingPos] + code2,
blackPixels ^ 1);
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}
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while (refLine[refPos] <= codingLine[this.codingPos] &&
refLine[refPos] < columns) {
refPos += 2;
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}
break;
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case twoDimVertR3:
this.addPixels(refLine[refPos] + 3, blackPixels);
blackPixels ^= 1;
if (codingLine[this.codingPos] < columns) {
++refPos;
while (refLine[refPos] <= codingLine[this.codingPos] &&
refLine[refPos] < columns) {
refPos += 2;
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}
}
break;
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case twoDimVertR2:
this.addPixels(refLine[refPos] + 2, blackPixels);
blackPixels ^= 1;
if (codingLine[this.codingPos] < columns) {
++refPos;
while (refLine[refPos] <= codingLine[this.codingPos] &&
refLine[refPos] < columns) {
refPos += 2;
}
}
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break;
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case twoDimVertR1:
this.addPixels(refLine[refPos] + 1, blackPixels);
blackPixels ^= 1;
if (codingLine[this.codingPos] < columns) {
++refPos;
while (refLine[refPos] <= codingLine[this.codingPos] &&
refLine[refPos] < columns) {
refPos += 2;
}
}
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break;
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case twoDimVert0:
this.addPixels(refLine[refPos], blackPixels);
blackPixels ^= 1;
if (codingLine[this.codingPos] < columns) {
++refPos;
while (refLine[refPos] <= codingLine[this.codingPos] &&
refLine[refPos] < columns) {
refPos += 2;
}
}
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break;
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case twoDimVertL3:
this.addPixelsNeg(refLine[refPos] - 3, blackPixels);
blackPixels ^= 1;
if (codingLine[this.codingPos] < columns) {
if (refPos > 0) {
--refPos;
} else {
++refPos;
}
while (refLine[refPos] <= codingLine[this.codingPos] &&
refLine[refPos] < columns) {
refPos += 2;
}
}
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break;
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case twoDimVertL2:
this.addPixelsNeg(refLine[refPos] - 2, blackPixels);
blackPixels ^= 1;
if (codingLine[this.codingPos] < columns) {
if (refPos > 0) {
--refPos;
} else {
++refPos;
}
while (refLine[refPos] <= codingLine[this.codingPos] &&
refLine[refPos] < columns) {
refPos += 2;
}
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}
break;
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case twoDimVertL1:
this.addPixelsNeg(refLine[refPos] - 1, blackPixels);
blackPixels ^= 1;
if (codingLine[this.codingPos] < columns) {
if (refPos > 0) {
--refPos;
} else {
++refPos;
}
while (refLine[refPos] <= codingLine[this.codingPos] &&
refLine[refPos] < columns) {
refPos += 2;
}
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}
break;
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case ccittEOF:
this.addPixels(columns, 0);
this.eof = true;
break;
default:
info('bad 2d code');
this.addPixels(columns, 0);
this.err = true;
}
}
} else {
codingLine[0] = 0;
this.codingPos = 0;
blackPixels = 0;
while (codingLine[this.codingPos] < columns) {
code1 = 0;
if (blackPixels) {
do {
code1 += (code3 = this.getBlackCode());
} while (code3 >= 64);
} else {
do {
code1 += (code3 = this.getWhiteCode());
} while (code3 >= 64);
}
this.addPixels(codingLine[this.codingPos] + code1, blackPixels);
blackPixels ^= 1;
}
}
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var gotEOL = false;
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if (this.byteAlign) {
this.inputBits &= ~7;
}
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if (!this.eoblock && this.row === this.rows - 1) {
this.eof = true;
} else {
code1 = this.lookBits(12);
if (this.eoline) {
while (code1 !== ccittEOF && code1 !== 1) {
this.eatBits(1);
code1 = this.lookBits(12);
}
} else {
while (code1 === 0) {
this.eatBits(1);
code1 = this.lookBits(12);
}
}
if (code1 === 1) {
this.eatBits(12);
gotEOL = true;
} else if (code1 === ccittEOF) {
this.eof = true;
}
}
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if (!this.eof && this.encoding > 0) {
this.nextLine2D = !this.lookBits(1);
this.eatBits(1);
}
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if (this.eoblock && gotEOL && this.byteAlign) {
code1 = this.lookBits(12);
if (code1 === 1) {
this.eatBits(12);
if (this.encoding > 0) {
this.lookBits(1);
this.eatBits(1);
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}
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if (this.encoding >= 0) {
for (i = 0; i < 4; ++i) {
code1 = this.lookBits(12);
if (code1 !== 1) {
info('bad rtc code: ' + code1);
}
this.eatBits(12);
if (this.encoding > 0) {
this.lookBits(1);
this.eatBits(1);
}
}
}
this.eof = true;
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}
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} else if (this.err && this.eoline) {
while (true) {
code1 = this.lookBits(13);
if (code1 === ccittEOF) {
this.eof = true;
return null;
}
if ((code1 >> 1) === 1) {
break;
}
this.eatBits(1);
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}
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this.eatBits(12);
if (this.encoding > 0) {
this.eatBits(1);
this.nextLine2D = !(code1 & 1);
}
}
if (codingLine[0] > 0) {
this.outputBits = codingLine[this.codingPos = 0];
} else {
this.outputBits = codingLine[this.codingPos = 1];
}
this.row++;
}
var c;
if (this.outputBits >= 8) {
c = (this.codingPos & 1) ? 0 : 0xFF;
this.outputBits -= 8;
if (this.outputBits === 0 && codingLine[this.codingPos] < columns) {
this.codingPos++;
this.outputBits = (codingLine[this.codingPos] -
codingLine[this.codingPos - 1]);
}
} else {
bits = 8;
c = 0;
do {
if (this.outputBits > bits) {
c <<= bits;
if (!(this.codingPos & 1)) {
c |= 0xFF >> (8 - bits);
}
this.outputBits -= bits;
bits = 0;
} else {
c <<= this.outputBits;
if (!(this.codingPos & 1)) {
c |= 0xFF >> (8 - this.outputBits);
}
bits -= this.outputBits;
this.outputBits = 0;
if (codingLine[this.codingPos] < columns) {
this.codingPos++;
this.outputBits = (codingLine[this.codingPos] -
codingLine[this.codingPos - 1]);
} else if (bits > 0) {
c <<= bits;
bits = 0;
}
}
} while (bits);
}
if (this.black) {
c ^= 0xFF;
}
return c;
};
// This functions returns the code found from the table.
// The start and end parameters set the boundaries for searching the table.
// The limit parameter is optional. Function returns an array with three
// values. The first array element indicates whether a valid code is being
// returned. The second array element is the actual code. The third array
// element indicates whether EOF was reached.
CCITTFaxStream.prototype.findTableCode =
function ccittFaxStreamFindTableCode(start, end, table, limit) {
var limitValue = limit || 0;
for (var i = start; i <= end; ++i) {
var code = this.lookBits(i);
if (code === ccittEOF) {
return [true, 1, false];
}
if (i < end) {
code <<= end - i;
}
if (!limitValue || code >= limitValue) {
var p = table[code - limitValue];
if (p[0] === i) {
this.eatBits(i);
return [true, p[1], true];
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}
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}
}
return [false, 0, false];
};
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CCITTFaxStream.prototype.getTwoDimCode =
function ccittFaxStreamGetTwoDimCode() {
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var code = 0;
var p;
if (this.eoblock) {
code = this.lookBits(7);
p = twoDimTable[code];
if (p && p[0] > 0) {
this.eatBits(p[0]);
return p[1];
}
} else {
var result = this.findTableCode(1, 7, twoDimTable);
if (result[0] && result[2]) {
return result[1];
}
}
info('Bad two dim code');
return ccittEOF;
};
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CCITTFaxStream.prototype.getWhiteCode =
function ccittFaxStreamGetWhiteCode() {
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var code = 0;
var p;
if (this.eoblock) {
code = this.lookBits(12);
if (code === ccittEOF) {
return 1;
}
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if ((code >> 5) === 0) {
p = whiteTable1[code];
} else {
p = whiteTable2[code >> 3];
}
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if (p[0] > 0) {
this.eatBits(p[0]);
return p[1];
}
} else {
var result = this.findTableCode(1, 9, whiteTable2);
if (result[0]) {
return result[1];
}
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result = this.findTableCode(11, 12, whiteTable1);
if (result[0]) {
return result[1];
}
}
info('bad white code');
this.eatBits(1);
return 1;
};
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CCITTFaxStream.prototype.getBlackCode =
function ccittFaxStreamGetBlackCode() {
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var code, p;
if (this.eoblock) {
code = this.lookBits(13);
if (code === ccittEOF) {
return 1;
}
if ((code >> 7) === 0) {
p = blackTable1[code];
} else if ((code >> 9) === 0 && (code >> 7) !== 0) {
p = blackTable2[(code >> 1) - 64];
} else {
p = blackTable3[code >> 7];
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}
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if (p[0] > 0) {
this.eatBits(p[0]);
return p[1];
}
} else {
var result = this.findTableCode(2, 6, blackTable3);
if (result[0]) {
return result[1];
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}
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result = this.findTableCode(7, 12, blackTable2, 64);
if (result[0]) {
return result[1];
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}
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result = this.findTableCode(10, 13, blackTable1);
if (result[0]) {
return result[1];
}
}
info('bad black code');
this.eatBits(1);
return 1;
};
CCITTFaxStream.prototype.lookBits = function CCITTFaxStream_lookBits(n) {
var c;
while (this.inputBits < n) {
if ((c = this.str.getByte()) === -1) {
if (this.inputBits === 0) {
return ccittEOF;
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}
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return ((this.inputBuf << (n - this.inputBits)) &
(0xFFFF >> (16 - n)));
}
this.inputBuf = (this.inputBuf << 8) | c;
this.inputBits += 8;
}
return (this.inputBuf >> (this.inputBits - n)) & (0xFFFF >> (16 - n));
};
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CCITTFaxStream.prototype.eatBits = function CCITTFaxStream_eatBits(n) {
if ((this.inputBits -= n) < 0) {
this.inputBits = 0;
}
};
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return CCITTFaxStream;
})();
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var LZWStream = (function LZWStreamClosure() {
function LZWStream(str, maybeLength, earlyChange) {
this.str = str;
this.dict = str.dict;
this.cachedData = 0;
this.bitsCached = 0;
var maxLzwDictionarySize = 4096;
var lzwState = {
earlyChange: earlyChange,
codeLength: 9,
nextCode: 258,
dictionaryValues: new Uint8Array(maxLzwDictionarySize),
dictionaryLengths: new Uint16Array(maxLzwDictionarySize),
dictionaryPrevCodes: new Uint16Array(maxLzwDictionarySize),
currentSequence: new Uint8Array(maxLzwDictionarySize),
currentSequenceLength: 0
};
for (var i = 0; i < 256; ++i) {
lzwState.dictionaryValues[i] = i;
lzwState.dictionaryLengths[i] = 1;
}
this.lzwState = lzwState;
DecodeStream.call(this, maybeLength);
}
LZWStream.prototype = Object.create(DecodeStream.prototype);
LZWStream.prototype.readBits = function LZWStream_readBits(n) {
var bitsCached = this.bitsCached;
var cachedData = this.cachedData;
while (bitsCached < n) {
var c = this.str.getByte();
if (c === -1) {
this.eof = true;
return null;
}
cachedData = (cachedData << 8) | c;
bitsCached += 8;
}
this.bitsCached = (bitsCached -= n);
this.cachedData = cachedData;
this.lastCode = null;
return (cachedData >>> bitsCached) & ((1 << n) - 1);
};
LZWStream.prototype.readBlock = function LZWStream_readBlock() {
var blockSize = 512;
var estimatedDecodedSize = blockSize * 2, decodedSizeDelta = blockSize;
var i, j, q;
var lzwState = this.lzwState;
if (!lzwState) {
return; // eof was found
}
var earlyChange = lzwState.earlyChange;
var nextCode = lzwState.nextCode;
var dictionaryValues = lzwState.dictionaryValues;
var dictionaryLengths = lzwState.dictionaryLengths;
var dictionaryPrevCodes = lzwState.dictionaryPrevCodes;
var codeLength = lzwState.codeLength;
var prevCode = lzwState.prevCode;
var currentSequence = lzwState.currentSequence;
var currentSequenceLength = lzwState.currentSequenceLength;
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var decodedLength = 0;
var currentBufferLength = this.bufferLength;
var buffer = this.ensureBuffer(this.bufferLength + estimatedDecodedSize);
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for (i = 0; i < blockSize; i++) {
var code = this.readBits(codeLength);
var hasPrev = currentSequenceLength > 0;
if (code < 256) {
currentSequence[0] = code;
currentSequenceLength = 1;
} else if (code >= 258) {
if (code < nextCode) {
currentSequenceLength = dictionaryLengths[code];
for (j = currentSequenceLength - 1, q = code; j >= 0; j--) {
currentSequence[j] = dictionaryValues[q];
q = dictionaryPrevCodes[q];
}
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} else {
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currentSequence[currentSequenceLength++] = currentSequence[0];
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}
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} else if (code === 256) {
codeLength = 9;
nextCode = 258;
currentSequenceLength = 0;
continue;
} else {
this.eof = true;
delete this.lzwState;
break;
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}
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if (hasPrev) {
dictionaryPrevCodes[nextCode] = prevCode;
dictionaryLengths[nextCode] = dictionaryLengths[prevCode] + 1;
dictionaryValues[nextCode] = currentSequence[0];
nextCode++;
codeLength = (nextCode + earlyChange) & (nextCode + earlyChange - 1) ?
codeLength : Math.min(Math.log(nextCode + earlyChange) /
0.6931471805599453 + 1, 12) | 0;
}
prevCode = code;
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decodedLength += currentSequenceLength;
if (estimatedDecodedSize < decodedLength) {
do {
estimatedDecodedSize += decodedSizeDelta;
} while (estimatedDecodedSize < decodedLength);
buffer = this.ensureBuffer(this.bufferLength + estimatedDecodedSize);
}
for (j = 0; j < currentSequenceLength; j++) {
buffer[currentBufferLength++] = currentSequence[j];
}
}
lzwState.nextCode = nextCode;
lzwState.codeLength = codeLength;
lzwState.prevCode = prevCode;
lzwState.currentSequenceLength = currentSequenceLength;
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this.bufferLength = currentBufferLength;
};
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return LZWStream;
})();
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var NullStream = (function NullStreamClosure() {
function NullStream() {
Stream.call(this, new Uint8Array(0));
}
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NullStream.prototype = Stream.prototype;
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return NullStream;
})();
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exports.Ascii85Stream = Ascii85Stream;
exports.AsciiHexStream = AsciiHexStream;
exports.CCITTFaxStream = CCITTFaxStream;
exports.DecryptStream = DecryptStream;
exports.DecodeStream = DecodeStream;
exports.FlateStream = FlateStream;
exports.Jbig2Stream = Jbig2Stream;
exports.JpegStream = JpegStream;
exports.JpxStream = JpxStream;
exports.NullStream = NullStream;
exports.PredictorStream = PredictorStream;
exports.RunLengthStream = RunLengthStream;
exports.Stream = Stream;
exports.StreamsSequenceStream = StreamsSequenceStream;
exports.StringStream = StringStream;
exports.LZWStream = LZWStream;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreCrypto = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreStream);
}
}(this, function (exports, sharedUtil, corePrimitives, coreStream) {
var PasswordException = sharedUtil.PasswordException;
var PasswordResponses = sharedUtil.PasswordResponses;
var bytesToString = sharedUtil.bytesToString;
var error = sharedUtil.error;
var isInt = sharedUtil.isInt;
var stringToBytes = sharedUtil.stringToBytes;
var utf8StringToString = sharedUtil.utf8StringToString;
var warn = sharedUtil.warn;
var Name = corePrimitives.Name;
var isName = corePrimitives.isName;
var isDict = corePrimitives.isDict;
var DecryptStream = coreStream.DecryptStream;
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var ARCFourCipher = (function ARCFourCipherClosure() {
function ARCFourCipher(key) {
this.a = 0;
this.b = 0;
var s = new Uint8Array(256);
var i, j = 0, tmp, keyLength = key.length;
for (i = 0; i < 256; ++i) {
s[i] = i;
}
for (i = 0; i < 256; ++i) {
tmp = s[i];
j = (j + tmp + key[i % keyLength]) & 0xFF;
s[i] = s[j];
s[j] = tmp;
}
this.s = s;
}
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ARCFourCipher.prototype = {
encryptBlock: function ARCFourCipher_encryptBlock(data) {
var i, n = data.length, tmp, tmp2;
var a = this.a, b = this.b, s = this.s;
var output = new Uint8Array(n);
for (i = 0; i < n; ++i) {
a = (a + 1) & 0xFF;
tmp = s[a];
b = (b + tmp) & 0xFF;
tmp2 = s[b];
s[a] = tmp2;
s[b] = tmp;
output[i] = data[i] ^ s[(tmp + tmp2) & 0xFF];
}
this.a = a;
this.b = b;
return output;
}
};
ARCFourCipher.prototype.decryptBlock = ARCFourCipher.prototype.encryptBlock;
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return ARCFourCipher;
})();
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var calculateMD5 = (function calculateMD5Closure() {
var r = new Uint8Array([
7, 12, 17, 22, 7, 12, 17, 22, 7, 12, 17, 22, 7, 12, 17, 22,
5, 9, 14, 20, 5, 9, 14, 20, 5, 9, 14, 20, 5, 9, 14, 20,
4, 11, 16, 23, 4, 11, 16, 23, 4, 11, 16, 23, 4, 11, 16, 23,
6, 10, 15, 21, 6, 10, 15, 21, 6, 10, 15, 21, 6, 10, 15, 21]);
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var k = new Int32Array([
-680876936, -389564586, 606105819, -1044525330, -176418897, 1200080426,
-1473231341, -45705983, 1770035416, -1958414417, -42063, -1990404162,
1804603682, -40341101, -1502002290, 1236535329, -165796510, -1069501632,
643717713, -373897302, -701558691, 38016083, -660478335, -405537848,
568446438, -1019803690, -187363961, 1163531501, -1444681467, -51403784,
1735328473, -1926607734, -378558, -2022574463, 1839030562, -35309556,
-1530992060, 1272893353, -155497632, -1094730640, 681279174, -358537222,
-722521979, 76029189, -640364487, -421815835, 530742520, -995338651,
-198630844, 1126891415, -1416354905, -57434055, 1700485571, -1894986606,
-1051523, -2054922799, 1873313359, -30611744, -1560198380, 1309151649,
-145523070, -1120210379, 718787259, -343485551]);
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function hash(data, offset, length) {
var h0 = 1732584193, h1 = -271733879, h2 = -1732584194, h3 = 271733878;
// pre-processing
var paddedLength = (length + 72) & ~63; // data + 9 extra bytes
var padded = new Uint8Array(paddedLength);
var i, j, n;
for (i = 0; i < length; ++i) {
padded[i] = data[offset++];
}
padded[i++] = 0x80;
n = paddedLength - 8;
while (i < n) {
padded[i++] = 0;
}
padded[i++] = (length << 3) & 0xFF;
padded[i++] = (length >> 5) & 0xFF;
padded[i++] = (length >> 13) & 0xFF;
padded[i++] = (length >> 21) & 0xFF;
padded[i++] = (length >>> 29) & 0xFF;
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = 0;
var w = new Int32Array(16);
for (i = 0; i < paddedLength;) {
for (j = 0; j < 16; ++j, i += 4) {
w[j] = (padded[i] | (padded[i + 1] << 8) |
(padded[i + 2] << 16) | (padded[i + 3] << 24));
}
var a = h0, b = h1, c = h2, d = h3, f, g;
for (j = 0; j < 64; ++j) {
if (j < 16) {
f = (b & c) | ((~b) & d);
g = j;
} else if (j < 32) {
f = (d & b) | ((~d) & c);
g = (5 * j + 1) & 15;
} else if (j < 48) {
f = b ^ c ^ d;
g = (3 * j + 5) & 15;
} else {
f = c ^ (b | (~d));
g = (7 * j) & 15;
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}
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var tmp = d, rotateArg = (a + f + k[j] + w[g]) | 0, rotate = r[j];
d = c;
c = b;
b = (b + ((rotateArg << rotate) | (rotateArg >>> (32 - rotate)))) | 0;
a = tmp;
}
h0 = (h0 + a) | 0;
h1 = (h1 + b) | 0;
h2 = (h2 + c) | 0;
h3 = (h3 + d) | 0;
}
return new Uint8Array([
h0 & 0xFF, (h0 >> 8) & 0xFF, (h0 >> 16) & 0xFF, (h0 >>> 24) & 0xFF,
h1 & 0xFF, (h1 >> 8) & 0xFF, (h1 >> 16) & 0xFF, (h1 >>> 24) & 0xFF,
h2 & 0xFF, (h2 >> 8) & 0xFF, (h2 >> 16) & 0xFF, (h2 >>> 24) & 0xFF,
h3 & 0xFF, (h3 >> 8) & 0xFF, (h3 >> 16) & 0xFF, (h3 >>> 24) & 0xFF
]);
}
return hash;
})();
var Word64 = (function Word64Closure() {
function Word64(highInteger, lowInteger) {
this.high = highInteger | 0;
this.low = lowInteger | 0;
}
Word64.prototype = {
and: function Word64_and(word) {
this.high &= word.high;
this.low &= word.low;
},
xor: function Word64_xor(word) {
this.high ^= word.high;
this.low ^= word.low;
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},
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or: function Word64_or(word) {
this.high |= word.high;
this.low |= word.low;
},
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shiftRight: function Word64_shiftRight(places) {
if (places >= 32) {
this.low = (this.high >>> (places - 32)) | 0;
this.high = 0;
} else {
this.low = (this.low >>> places) | (this.high << (32 - places));
this.high = (this.high >>> places) | 0;
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}
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},
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shiftLeft: function Word64_shiftLeft(places) {
if (places >= 32) {
this.high = this.low << (places - 32);
this.low = 0;
} else {
this.high = (this.high << places) | (this.low >>> (32 - places));
this.low = this.low << places;
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}
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},
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rotateRight: function Word64_rotateRight(places) {
var low, high;
if (places & 32) {
high = this.low;
low = this.high;
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} else {
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low = this.low;
high = this.high;
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}
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places &= 31;
this.low = (low >>> places) | (high << (32 - places));
this.high = (high >>> places) | (low << (32 - places));
},
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not: function Word64_not() {
this.high = ~this.high;
this.low = ~this.low;
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},
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add: function Word64_add(word) {
var lowAdd = (this.low >>> 0) + (word.low >>> 0);
var highAdd = (this.high >>> 0) + (word.high >>> 0);
if (lowAdd > 0xFFFFFFFF) {
highAdd += 1;
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}
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this.low = lowAdd | 0;
this.high = highAdd | 0;
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},
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copyTo: function Word64_copyTo(bytes, offset) {
bytes[offset] = (this.high >>> 24) & 0xFF;
bytes[offset + 1] = (this.high >> 16) & 0xFF;
bytes[offset + 2] = (this.high >> 8) & 0xFF;
bytes[offset + 3] = this.high & 0xFF;
bytes[offset + 4] = (this.low >>> 24) & 0xFF;
bytes[offset + 5] = (this.low >> 16) & 0xFF;
bytes[offset + 6] = (this.low >> 8) & 0xFF;
bytes[offset + 7] = this.low & 0xFF;
},
assign: function Word64_assign(word) {
this.high = word.high;
this.low = word.low;
}
};
return Word64;
})();
var calculateSHA256 = (function calculateSHA256Closure() {
function rotr(x, n) {
return (x >>> n) | (x << 32 - n);
}
function ch(x, y, z) {
return (x & y) ^ (~x & z);
}
function maj(x, y, z) {
return (x & y) ^ (x & z) ^ (y & z);
}
function sigma(x) {
return rotr(x, 2) ^ rotr(x, 13) ^ rotr(x, 22);
}
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function sigmaPrime(x) {
return rotr(x, 6) ^ rotr(x, 11) ^ rotr(x, 25);
}
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function littleSigma(x) {
return rotr(x, 7) ^ rotr(x, 18) ^ x >>> 3;
}
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function littleSigmaPrime(x) {
return rotr(x, 17) ^ rotr(x, 19) ^ x >>> 10;
}
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var k = [0x428a2f98, 0x71374491, 0xb5c0fbcf, 0xe9b5dba5,
0x3956c25b, 0x59f111f1, 0x923f82a4, 0xab1c5ed5,
0xd807aa98, 0x12835b01, 0x243185be, 0x550c7dc3,
0x72be5d74, 0x80deb1fe, 0x9bdc06a7, 0xc19bf174,
0xe49b69c1, 0xefbe4786, 0x0fc19dc6, 0x240ca1cc,
0x2de92c6f, 0x4a7484aa, 0x5cb0a9dc, 0x76f988da,
0x983e5152, 0xa831c66d, 0xb00327c8, 0xbf597fc7,
0xc6e00bf3, 0xd5a79147, 0x06ca6351, 0x14292967,
0x27b70a85, 0x2e1b2138, 0x4d2c6dfc, 0x53380d13,
0x650a7354, 0x766a0abb, 0x81c2c92e, 0x92722c85,
0xa2bfe8a1, 0xa81a664b, 0xc24b8b70, 0xc76c51a3,
0xd192e819, 0xd6990624, 0xf40e3585, 0x106aa070,
0x19a4c116, 0x1e376c08, 0x2748774c, 0x34b0bcb5,
0x391c0cb3, 0x4ed8aa4a, 0x5b9cca4f, 0x682e6ff3,
0x748f82ee, 0x78a5636f, 0x84c87814, 0x8cc70208,
0x90befffa, 0xa4506ceb, 0xbef9a3f7, 0xc67178f2];
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function hash(data, offset, length) {
// initial hash values
var h0 = 0x6a09e667, h1 = 0xbb67ae85, h2 = 0x3c6ef372,
h3 = 0xa54ff53a, h4 = 0x510e527f, h5 = 0x9b05688c,
h6 = 0x1f83d9ab, h7 = 0x5be0cd19;
// pre-processing
var paddedLength = Math.ceil((length + 9) / 64) * 64;
var padded = new Uint8Array(paddedLength);
var i, j, n;
for (i = 0; i < length; ++i) {
padded[i] = data[offset++];
}
padded[i++] = 0x80;
n = paddedLength - 8;
while (i < n) {
padded[i++] = 0;
}
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = (length >>> 29) & 0xFF;
padded[i++] = (length >> 21) & 0xFF;
padded[i++] = (length >> 13) & 0xFF;
padded[i++] = (length >> 5) & 0xFF;
padded[i++] = (length << 3) & 0xFF;
var w = new Uint32Array(64);
// for each 512 bit block
for (i = 0; i < paddedLength;) {
for (j = 0; j < 16; ++j) {
w[j] = (padded[i] << 24 | (padded[i + 1] << 16) |
(padded[i + 2] << 8) | (padded[i + 3]));
i += 4;
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}
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for (j = 16; j < 64; ++j) {
w[j] = littleSigmaPrime(w[j - 2]) + w[j - 7] +
littleSigma(w[j - 15]) + w[j - 16] | 0;
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}
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var a = h0, b = h1, c = h2, d = h3, e = h4,
f = h5, g = h6, h = h7, t1, t2;
for (j = 0; j < 64; ++j) {
t1 = h + sigmaPrime(e) + ch(e, f, g) + k[j] + w[j];
t2 = sigma(a) + maj(a, b, c);
h = g;
g = f;
f = e;
e = (d + t1) | 0;
d = c;
c = b;
b = a;
a = (t1 + t2) | 0;
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}
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h0 = (h0 + a) | 0;
h1 = (h1 + b) | 0;
h2 = (h2 + c) | 0;
h3 = (h3 + d) | 0;
h4 = (h4 + e) | 0;
h5 = (h5 + f) | 0;
h6 = (h6 + g) | 0;
h7 = (h7 + h) | 0;
}
return new Uint8Array([
(h0 >> 24) & 0xFF, (h0 >> 16) & 0xFF, (h0 >> 8) & 0xFF, (h0) & 0xFF,
(h1 >> 24) & 0xFF, (h1 >> 16) & 0xFF, (h1 >> 8) & 0xFF, (h1) & 0xFF,
(h2 >> 24) & 0xFF, (h2 >> 16) & 0xFF, (h2 >> 8) & 0xFF, (h2) & 0xFF,
(h3 >> 24) & 0xFF, (h3 >> 16) & 0xFF, (h3 >> 8) & 0xFF, (h3) & 0xFF,
(h4 >> 24) & 0xFF, (h4 >> 16) & 0xFF, (h4 >> 8) & 0xFF, (h4) & 0xFF,
(h5 >> 24) & 0xFF, (h5 >> 16) & 0xFF, (h5 >> 8) & 0xFF, (h5) & 0xFF,
(h6 >> 24) & 0xFF, (h6 >> 16) & 0xFF, (h6 >> 8) & 0xFF, (h6) & 0xFF,
(h7 >> 24) & 0xFF, (h7 >> 16) & 0xFF, (h7 >> 8) & 0xFF, (h7) & 0xFF
]);
}
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return hash;
})();
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var calculateSHA512 = (function calculateSHA512Closure() {
function ch(result, x, y, z, tmp) {
result.assign(x);
result.and(y);
tmp.assign(x);
tmp.not();
tmp.and(z);
result.xor(tmp);
}
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function maj(result, x, y, z, tmp) {
result.assign(x);
result.and(y);
tmp.assign(x);
tmp.and(z);
result.xor(tmp);
tmp.assign(y);
tmp.and(z);
result.xor(tmp);
}
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function sigma(result, x, tmp) {
result.assign(x);
result.rotateRight(28);
tmp.assign(x);
tmp.rotateRight(34);
result.xor(tmp);
tmp.assign(x);
tmp.rotateRight(39);
result.xor(tmp);
}
function sigmaPrime(result, x, tmp) {
result.assign(x);
result.rotateRight(14);
tmp.assign(x);
tmp.rotateRight(18);
result.xor(tmp);
tmp.assign(x);
tmp.rotateRight(41);
result.xor(tmp);
}
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function littleSigma(result, x, tmp) {
result.assign(x);
result.rotateRight(1);
tmp.assign(x);
tmp.rotateRight(8);
result.xor(tmp);
tmp.assign(x);
tmp.shiftRight(7);
result.xor(tmp);
}
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function littleSigmaPrime(result, x, tmp) {
result.assign(x);
result.rotateRight(19);
tmp.assign(x);
tmp.rotateRight(61);
result.xor(tmp);
tmp.assign(x);
tmp.shiftRight(6);
result.xor(tmp);
}
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var k = [
new Word64(0x428a2f98, 0xd728ae22), new Word64(0x71374491, 0x23ef65cd),
new Word64(0xb5c0fbcf, 0xec4d3b2f), new Word64(0xe9b5dba5, 0x8189dbbc),
new Word64(0x3956c25b, 0xf348b538), new Word64(0x59f111f1, 0xb605d019),
new Word64(0x923f82a4, 0xaf194f9b), new Word64(0xab1c5ed5, 0xda6d8118),
new Word64(0xd807aa98, 0xa3030242), new Word64(0x12835b01, 0x45706fbe),
new Word64(0x243185be, 0x4ee4b28c), new Word64(0x550c7dc3, 0xd5ffb4e2),
new Word64(0x72be5d74, 0xf27b896f), new Word64(0x80deb1fe, 0x3b1696b1),
new Word64(0x9bdc06a7, 0x25c71235), new Word64(0xc19bf174, 0xcf692694),
new Word64(0xe49b69c1, 0x9ef14ad2), new Word64(0xefbe4786, 0x384f25e3),
new Word64(0x0fc19dc6, 0x8b8cd5b5), new Word64(0x240ca1cc, 0x77ac9c65),
new Word64(0x2de92c6f, 0x592b0275), new Word64(0x4a7484aa, 0x6ea6e483),
new Word64(0x5cb0a9dc, 0xbd41fbd4), new Word64(0x76f988da, 0x831153b5),
new Word64(0x983e5152, 0xee66dfab), new Word64(0xa831c66d, 0x2db43210),
new Word64(0xb00327c8, 0x98fb213f), new Word64(0xbf597fc7, 0xbeef0ee4),
new Word64(0xc6e00bf3, 0x3da88fc2), new Word64(0xd5a79147, 0x930aa725),
new Word64(0x06ca6351, 0xe003826f), new Word64(0x14292967, 0x0a0e6e70),
new Word64(0x27b70a85, 0x46d22ffc), new Word64(0x2e1b2138, 0x5c26c926),
new Word64(0x4d2c6dfc, 0x5ac42aed), new Word64(0x53380d13, 0x9d95b3df),
new Word64(0x650a7354, 0x8baf63de), new Word64(0x766a0abb, 0x3c77b2a8),
new Word64(0x81c2c92e, 0x47edaee6), new Word64(0x92722c85, 0x1482353b),
new Word64(0xa2bfe8a1, 0x4cf10364), new Word64(0xa81a664b, 0xbc423001),
new Word64(0xc24b8b70, 0xd0f89791), new Word64(0xc76c51a3, 0x0654be30),
new Word64(0xd192e819, 0xd6ef5218), new Word64(0xd6990624, 0x5565a910),
new Word64(0xf40e3585, 0x5771202a), new Word64(0x106aa070, 0x32bbd1b8),
new Word64(0x19a4c116, 0xb8d2d0c8), new Word64(0x1e376c08, 0x5141ab53),
new Word64(0x2748774c, 0xdf8eeb99), new Word64(0x34b0bcb5, 0xe19b48a8),
new Word64(0x391c0cb3, 0xc5c95a63), new Word64(0x4ed8aa4a, 0xe3418acb),
new Word64(0x5b9cca4f, 0x7763e373), new Word64(0x682e6ff3, 0xd6b2b8a3),
new Word64(0x748f82ee, 0x5defb2fc), new Word64(0x78a5636f, 0x43172f60),
new Word64(0x84c87814, 0xa1f0ab72), new Word64(0x8cc70208, 0x1a6439ec),
new Word64(0x90befffa, 0x23631e28), new Word64(0xa4506ceb, 0xde82bde9),
new Word64(0xbef9a3f7, 0xb2c67915), new Word64(0xc67178f2, 0xe372532b),
new Word64(0xca273ece, 0xea26619c), new Word64(0xd186b8c7, 0x21c0c207),
new Word64(0xeada7dd6, 0xcde0eb1e), new Word64(0xf57d4f7f, 0xee6ed178),
new Word64(0x06f067aa, 0x72176fba), new Word64(0x0a637dc5, 0xa2c898a6),
new Word64(0x113f9804, 0xbef90dae), new Word64(0x1b710b35, 0x131c471b),
new Word64(0x28db77f5, 0x23047d84), new Word64(0x32caab7b, 0x40c72493),
new Word64(0x3c9ebe0a, 0x15c9bebc), new Word64(0x431d67c4, 0x9c100d4c),
new Word64(0x4cc5d4be, 0xcb3e42b6), new Word64(0x597f299c, 0xfc657e2a),
new Word64(0x5fcb6fab, 0x3ad6faec), new Word64(0x6c44198c, 0x4a475817)];
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function hash(data, offset, length, mode384) {
mode384 = !!mode384;
// initial hash values
var h0, h1, h2, h3, h4, h5, h6, h7;
if (!mode384) {
h0 = new Word64(0x6a09e667, 0xf3bcc908);
h1 = new Word64(0xbb67ae85, 0x84caa73b);
h2 = new Word64(0x3c6ef372, 0xfe94f82b);
h3 = new Word64(0xa54ff53a, 0x5f1d36f1);
h4 = new Word64(0x510e527f, 0xade682d1);
h5 = new Word64(0x9b05688c, 0x2b3e6c1f);
h6 = new Word64(0x1f83d9ab, 0xfb41bd6b);
h7 = new Word64(0x5be0cd19, 0x137e2179);
}
else {
// SHA384 is exactly the same
// except with different starting values and a trimmed result
h0 = new Word64(0xcbbb9d5d, 0xc1059ed8);
h1 = new Word64(0x629a292a, 0x367cd507);
h2 = new Word64(0x9159015a, 0x3070dd17);
h3 = new Word64(0x152fecd8, 0xf70e5939);
h4 = new Word64(0x67332667, 0xffc00b31);
h5 = new Word64(0x8eb44a87, 0x68581511);
h6 = new Word64(0xdb0c2e0d, 0x64f98fa7);
h7 = new Word64(0x47b5481d, 0xbefa4fa4);
}
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// pre-processing
var paddedLength = Math.ceil((length + 17) / 128) * 128;
var padded = new Uint8Array(paddedLength);
var i, j, n;
for (i = 0; i < length; ++i) {
padded[i] = data[offset++];
}
padded[i++] = 0x80;
n = paddedLength - 16;
while (i < n) {
padded[i++] = 0;
}
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = 0;
padded[i++] = (length >>> 29) & 0xFF;
padded[i++] = (length >> 21) & 0xFF;
padded[i++] = (length >> 13) & 0xFF;
padded[i++] = (length >> 5) & 0xFF;
padded[i++] = (length << 3) & 0xFF;
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var w = new Array(80);
for (i = 0; i < 80; i++) {
w[i] = new Word64(0, 0);
}
var a = new Word64(0, 0), b = new Word64(0, 0), c = new Word64(0, 0);
var d = new Word64(0, 0), e = new Word64(0, 0), f = new Word64(0, 0);
var g = new Word64(0, 0), h = new Word64(0, 0);
var t1 = new Word64(0, 0), t2 = new Word64(0, 0);
var tmp1 = new Word64(0, 0), tmp2 = new Word64(0, 0), tmp3;
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// for each 1024 bit block
for (i = 0; i < paddedLength;) {
for (j = 0; j < 16; ++j) {
w[j].high = (padded[i] << 24) | (padded[i + 1] << 16) |
(padded[i + 2] << 8) | (padded[i + 3]);
w[j].low = (padded[i + 4]) << 24 | (padded[i + 5]) << 16 |
(padded[i + 6]) << 8 | (padded[i + 7]);
i += 8;
}
for (j = 16; j < 80; ++j) {
tmp3 = w[j];
littleSigmaPrime(tmp3, w[j - 2], tmp2);
tmp3.add(w[j - 7]);
littleSigma(tmp1, w[j - 15], tmp2);
tmp3.add(tmp1);
tmp3.add(w[j - 16]);
}
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a.assign(h0); b.assign(h1); c.assign(h2); d.assign(h3);
e.assign(h4); f.assign(h5); g.assign(h6); h.assign(h7);
for (j = 0; j < 80; ++j) {
t1.assign(h);
sigmaPrime(tmp1, e, tmp2);
t1.add(tmp1);
ch(tmp1, e, f, g, tmp2);
t1.add(tmp1);
t1.add(k[j]);
t1.add(w[j]);
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sigma(t2, a, tmp2);
maj(tmp1, a, b, c, tmp2);
t2.add(tmp1);
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tmp3 = h;
h = g;
g = f;
f = e;
d.add(t1);
e = d;
d = c;
c = b;
b = a;
tmp3.assign(t1);
tmp3.add(t2);
a = tmp3;
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}
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h0.add(a);
h1.add(b);
h2.add(c);
h3.add(d);
h4.add(e);
h5.add(f);
h6.add(g);
h7.add(h);
}
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var result;
if (!mode384) {
result = new Uint8Array(64);
h0.copyTo(result,0);
h1.copyTo(result,8);
h2.copyTo(result,16);
h3.copyTo(result,24);
h4.copyTo(result,32);
h5.copyTo(result,40);
h6.copyTo(result,48);
h7.copyTo(result,56);
}
else {
result = new Uint8Array(48);
h0.copyTo(result,0);
h1.copyTo(result,8);
h2.copyTo(result,16);
h3.copyTo(result,24);
h4.copyTo(result,32);
h5.copyTo(result,40);
}
return result;
}
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return hash;
})();
var calculateSHA384 = (function calculateSHA384Closure() {
function hash(data, offset, length) {
return calculateSHA512(data, offset, length, true);
}
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return hash;
})();
var NullCipher = (function NullCipherClosure() {
function NullCipher() {
}
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NullCipher.prototype = {
decryptBlock: function NullCipher_decryptBlock(data) {
return data;
}
};
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return NullCipher;
})();
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var AES128Cipher = (function AES128CipherClosure() {
var rcon = new Uint8Array([
0x8d, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1b, 0x36, 0x6c,
0xd8, 0xab, 0x4d, 0x9a, 0x2f, 0x5e, 0xbc, 0x63, 0xc6, 0x97, 0x35, 0x6a,
0xd4, 0xb3, 0x7d, 0xfa, 0xef, 0xc5, 0x91, 0x39, 0x72, 0xe4, 0xd3, 0xbd,
0x61, 0xc2, 0x9f, 0x25, 0x4a, 0x94, 0x33, 0x66, 0xcc, 0x83, 0x1d, 0x3a,
0x74, 0xe8, 0xcb, 0x8d, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80,
0x1b, 0x36, 0x6c, 0xd8, 0xab, 0x4d, 0x9a, 0x2f, 0x5e, 0xbc, 0x63, 0xc6,
0x97, 0x35, 0x6a, 0xd4, 0xb3, 0x7d, 0xfa, 0xef, 0xc5, 0x91, 0x39, 0x72,
0xe4, 0xd3, 0xbd, 0x61, 0xc2, 0x9f, 0x25, 0x4a, 0x94, 0x33, 0x66, 0xcc,
0x83, 0x1d, 0x3a, 0x74, 0xe8, 0xcb, 0x8d, 0x01, 0x02, 0x04, 0x08, 0x10,
0x20, 0x40, 0x80, 0x1b, 0x36, 0x6c, 0xd8, 0xab, 0x4d, 0x9a, 0x2f, 0x5e,
0xbc, 0x63, 0xc6, 0x97, 0x35, 0x6a, 0xd4, 0xb3, 0x7d, 0xfa, 0xef, 0xc5,
0x91, 0x39, 0x72, 0xe4, 0xd3, 0xbd, 0x61, 0xc2, 0x9f, 0x25, 0x4a, 0x94,
0x33, 0x66, 0xcc, 0x83, 0x1d, 0x3a, 0x74, 0xe8, 0xcb, 0x8d, 0x01, 0x02,
0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1b, 0x36, 0x6c, 0xd8, 0xab, 0x4d,
0x9a, 0x2f, 0x5e, 0xbc, 0x63, 0xc6, 0x97, 0x35, 0x6a, 0xd4, 0xb3, 0x7d,
0xfa, 0xef, 0xc5, 0x91, 0x39, 0x72, 0xe4, 0xd3, 0xbd, 0x61, 0xc2, 0x9f,
0x25, 0x4a, 0x94, 0x33, 0x66, 0xcc, 0x83, 0x1d, 0x3a, 0x74, 0xe8, 0xcb,
0x8d, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1b, 0x36, 0x6c,
0xd8, 0xab, 0x4d, 0x9a, 0x2f, 0x5e, 0xbc, 0x63, 0xc6, 0x97, 0x35, 0x6a,
0xd4, 0xb3, 0x7d, 0xfa, 0xef, 0xc5, 0x91, 0x39, 0x72, 0xe4, 0xd3, 0xbd,
0x61, 0xc2, 0x9f, 0x25, 0x4a, 0x94, 0x33, 0x66, 0xcc, 0x83, 0x1d, 0x3a,
0x74, 0xe8, 0xcb, 0x8d]);
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var s = new Uint8Array([
0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5, 0x30, 0x01, 0x67, 0x2b,
0xfe, 0xd7, 0xab, 0x76, 0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0,
0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0, 0xb7, 0xfd, 0x93, 0x26,
0x36, 0x3f, 0xf7, 0xcc, 0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15,
0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a, 0x07, 0x12, 0x80, 0xe2,
0xeb, 0x27, 0xb2, 0x75, 0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0,
0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84, 0x53, 0xd1, 0x00, 0xed,
0x20, 0xfc, 0xb1, 0x5b, 0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf,
0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85, 0x45, 0xf9, 0x02, 0x7f,
0x50, 0x3c, 0x9f, 0xa8, 0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5,
0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2, 0xcd, 0x0c, 0x13, 0xec,
0x5f, 0x97, 0x44, 0x17, 0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73,
0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88, 0x46, 0xee, 0xb8, 0x14,
0xde, 0x5e, 0x0b, 0xdb, 0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c,
0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79, 0xe7, 0xc8, 0x37, 0x6d,
0x8d, 0xd5, 0x4e, 0xa9, 0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08,
0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6, 0xe8, 0xdd, 0x74, 0x1f,
0x4b, 0xbd, 0x8b, 0x8a, 0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e,
0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e, 0xe1, 0xf8, 0x98, 0x11,
0x69, 0xd9, 0x8e, 0x94, 0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf,
0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68, 0x41, 0x99, 0x2d, 0x0f,
0xb0, 0x54, 0xbb, 0x16]);
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var inv_s = new Uint8Array([
0x52, 0x09, 0x6a, 0xd5, 0x30, 0x36, 0xa5, 0x38, 0xbf, 0x40, 0xa3, 0x9e,
0x81, 0xf3, 0xd7, 0xfb, 0x7c, 0xe3, 0x39, 0x82, 0x9b, 0x2f, 0xff, 0x87,
0x34, 0x8e, 0x43, 0x44, 0xc4, 0xde, 0xe9, 0xcb, 0x54, 0x7b, 0x94, 0x32,
0xa6, 0xc2, 0x23, 0x3d, 0xee, 0x4c, 0x95, 0x0b, 0x42, 0xfa, 0xc3, 0x4e,
0x08, 0x2e, 0xa1, 0x66, 0x28, 0xd9, 0x24, 0xb2, 0x76, 0x5b, 0xa2, 0x49,
0x6d, 0x8b, 0xd1, 0x25, 0x72, 0xf8, 0xf6, 0x64, 0x86, 0x68, 0x98, 0x16,
0xd4, 0xa4, 0x5c, 0xcc, 0x5d, 0x65, 0xb6, 0x92, 0x6c, 0x70, 0x48, 0x50,
0xfd, 0xed, 0xb9, 0xda, 0x5e, 0x15, 0x46, 0x57, 0xa7, 0x8d, 0x9d, 0x84,
0x90, 0xd8, 0xab, 0x00, 0x8c, 0xbc, 0xd3, 0x0a, 0xf7, 0xe4, 0x58, 0x05,
0xb8, 0xb3, 0x45, 0x06, 0xd0, 0x2c, 0x1e, 0x8f, 0xca, 0x3f, 0x0f, 0x02,
0xc1, 0xaf, 0xbd, 0x03, 0x01, 0x13, 0x8a, 0x6b, 0x3a, 0x91, 0x11, 0x41,
0x4f, 0x67, 0xdc, 0xea, 0x97, 0xf2, 0xcf, 0xce, 0xf0, 0xb4, 0xe6, 0x73,
0x96, 0xac, 0x74, 0x22, 0xe7, 0xad, 0x35, 0x85, 0xe2, 0xf9, 0x37, 0xe8,
0x1c, 0x75, 0xdf, 0x6e, 0x47, 0xf1, 0x1a, 0x71, 0x1d, 0x29, 0xc5, 0x89,
0x6f, 0xb7, 0x62, 0x0e, 0xaa, 0x18, 0xbe, 0x1b, 0xfc, 0x56, 0x3e, 0x4b,
0xc6, 0xd2, 0x79, 0x20, 0x9a, 0xdb, 0xc0, 0xfe, 0x78, 0xcd, 0x5a, 0xf4,
0x1f, 0xdd, 0xa8, 0x33, 0x88, 0x07, 0xc7, 0x31, 0xb1, 0x12, 0x10, 0x59,
0x27, 0x80, 0xec, 0x5f, 0x60, 0x51, 0x7f, 0xa9, 0x19, 0xb5, 0x4a, 0x0d,
0x2d, 0xe5, 0x7a, 0x9f, 0x93, 0xc9, 0x9c, 0xef, 0xa0, 0xe0, 0x3b, 0x4d,
0xae, 0x2a, 0xf5, 0xb0, 0xc8, 0xeb, 0xbb, 0x3c, 0x83, 0x53, 0x99, 0x61,
0x17, 0x2b, 0x04, 0x7e, 0xba, 0x77, 0xd6, 0x26, 0xe1, 0x69, 0x14, 0x63,
0x55, 0x21, 0x0c, 0x7d]);
var mixCol = new Uint8Array(256);
for (var i = 0; i < 256; i++) {
if (i < 128) {
mixCol[i] = i << 1;
} else {
mixCol[i] = (i << 1) ^ 0x1b;
}
}
var mix = new Uint32Array([
0x00000000, 0x0e090d0b, 0x1c121a16, 0x121b171d, 0x3824342c, 0x362d3927,
0x24362e3a, 0x2a3f2331, 0x70486858, 0x7e416553, 0x6c5a724e, 0x62537f45,
0x486c5c74, 0x4665517f, 0x547e4662, 0x5a774b69, 0xe090d0b0, 0xee99ddbb,
0xfc82caa6, 0xf28bc7ad, 0xd8b4e49c, 0xd6bde997, 0xc4a6fe8a, 0xcaaff381,
0x90d8b8e8, 0x9ed1b5e3, 0x8ccaa2fe, 0x82c3aff5, 0xa8fc8cc4, 0xa6f581cf,
0xb4ee96d2, 0xbae79bd9, 0xdb3bbb7b, 0xd532b670, 0xc729a16d, 0xc920ac66,
0xe31f8f57, 0xed16825c, 0xff0d9541, 0xf104984a, 0xab73d323, 0xa57ade28,
0xb761c935, 0xb968c43e, 0x9357e70f, 0x9d5eea04, 0x8f45fd19, 0x814cf012,
0x3bab6bcb, 0x35a266c0, 0x27b971dd, 0x29b07cd6, 0x038f5fe7, 0x0d8652ec,
0x1f9d45f1, 0x119448fa, 0x4be30393, 0x45ea0e98, 0x57f11985, 0x59f8148e,
0x73c737bf, 0x7dce3ab4, 0x6fd52da9, 0x61dc20a2, 0xad766df6, 0xa37f60fd,
0xb16477e0, 0xbf6d7aeb, 0x955259da, 0x9b5b54d1, 0x894043cc, 0x87494ec7,
0xdd3e05ae, 0xd33708a5, 0xc12c1fb8, 0xcf2512b3, 0xe51a3182, 0xeb133c89,
0xf9082b94, 0xf701269f, 0x4de6bd46, 0x43efb04d, 0x51f4a750, 0x5ffdaa5b,
0x75c2896a, 0x7bcb8461, 0x69d0937c, 0x67d99e77, 0x3daed51e, 0x33a7d815,
0x21bccf08, 0x2fb5c203, 0x058ae132, 0x0b83ec39, 0x1998fb24, 0x1791f62f,
0x764dd68d, 0x7844db86, 0x6a5fcc9b, 0x6456c190, 0x4e69e2a1, 0x4060efaa,
0x527bf8b7, 0x5c72f5bc, 0x0605bed5, 0x080cb3de, 0x1a17a4c3, 0x141ea9c8,
0x3e218af9, 0x302887f2, 0x223390ef, 0x2c3a9de4, 0x96dd063d, 0x98d40b36,
0x8acf1c2b, 0x84c61120, 0xaef93211, 0xa0f03f1a, 0xb2eb2807, 0xbce2250c,
0xe6956e65, 0xe89c636e, 0xfa877473, 0xf48e7978, 0xdeb15a49, 0xd0b85742,
0xc2a3405f, 0xccaa4d54, 0x41ecdaf7, 0x4fe5d7fc, 0x5dfec0e1, 0x53f7cdea,
0x79c8eedb, 0x77c1e3d0, 0x65daf4cd, 0x6bd3f9c6, 0x31a4b2af, 0x3fadbfa4,
0x2db6a8b9, 0x23bfa5b2, 0x09808683, 0x07898b88, 0x15929c95, 0x1b9b919e,
0xa17c0a47, 0xaf75074c, 0xbd6e1051, 0xb3671d5a, 0x99583e6b, 0x97513360,
0x854a247d, 0x8b432976, 0xd134621f, 0xdf3d6f14, 0xcd267809, 0xc32f7502,
0xe9105633, 0xe7195b38, 0xf5024c25, 0xfb0b412e, 0x9ad7618c, 0x94de6c87,
0x86c57b9a, 0x88cc7691, 0xa2f355a0, 0xacfa58ab, 0xbee14fb6, 0xb0e842bd,
0xea9f09d4, 0xe49604df, 0xf68d13c2, 0xf8841ec9, 0xd2bb3df8, 0xdcb230f3,
0xcea927ee, 0xc0a02ae5, 0x7a47b13c, 0x744ebc37, 0x6655ab2a, 0x685ca621,
0x42638510, 0x4c6a881b, 0x5e719f06, 0x5078920d, 0x0a0fd964, 0x0406d46f,
0x161dc372, 0x1814ce79, 0x322bed48, 0x3c22e043, 0x2e39f75e, 0x2030fa55,
0xec9ab701, 0xe293ba0a, 0xf088ad17, 0xfe81a01c, 0xd4be832d, 0xdab78e26,
0xc8ac993b, 0xc6a59430, 0x9cd2df59, 0x92dbd252, 0x80c0c54f, 0x8ec9c844,
0xa4f6eb75, 0xaaffe67e, 0xb8e4f163, 0xb6edfc68, 0x0c0a67b1, 0x02036aba,
0x10187da7, 0x1e1170ac, 0x342e539d, 0x3a275e96, 0x283c498b, 0x26354480,
0x7c420fe9, 0x724b02e2, 0x605015ff, 0x6e5918f4, 0x44663bc5, 0x4a6f36ce,
0x587421d3, 0x567d2cd8, 0x37a10c7a, 0x39a80171, 0x2bb3166c, 0x25ba1b67,
0x0f853856, 0x018c355d, 0x13972240, 0x1d9e2f4b, 0x47e96422, 0x49e06929,
0x5bfb7e34, 0x55f2733f, 0x7fcd500e, 0x71c45d05, 0x63df4a18, 0x6dd64713,
0xd731dcca, 0xd938d1c1, 0xcb23c6dc, 0xc52acbd7, 0xef15e8e6, 0xe11ce5ed,
0xf307f2f0, 0xfd0efffb, 0xa779b492, 0xa970b999, 0xbb6bae84, 0xb562a38f,
0x9f5d80be, 0x91548db5, 0x834f9aa8, 0x8d4697a3]);
function expandKey128(cipherKey) {
var b = 176, result = new Uint8Array(b);
result.set(cipherKey);
for (var j = 16, i = 1; j < b; ++i) {
// RotWord
var t1 = result[j - 3], t2 = result[j - 2],
t3 = result[j - 1], t4 = result[j - 4];
// SubWord
t1 = s[t1];
t2 = s[t2];
t3 = s[t3];
t4 = s[t4];
// Rcon
t1 = t1 ^ rcon[i];
for (var n = 0; n < 4; ++n) {
result[j] = (t1 ^= result[j - 16]);
j++;
result[j] = (t2 ^= result[j - 16]);
j++;
result[j] = (t3 ^= result[j - 16]);
j++;
result[j] = (t4 ^= result[j - 16]);
j++;
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}
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}
return result;
}
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function decrypt128(input, key) {
var state = new Uint8Array(16);
state.set(input);
var i, j, k;
var t, u, v;
// AddRoundKey
for (j = 0, k = 160; j < 16; ++j, ++k) {
state[j] ^= key[k];
}
for (i = 9; i >= 1; --i) {
// InvShiftRows
t = state[13];
state[13] = state[9];
state[9] = state[5];
state[5] = state[1];
state[1] = t;
t = state[14];
u = state[10];
state[14] = state[6];
state[10] = state[2];
state[6] = t;
state[2] = u;
t = state[15];
u = state[11];
v = state[7];
state[15] = state[3];
state[11] = t;
state[7] = u;
state[3] = v;
// InvSubBytes
for (j = 0; j < 16; ++j) {
state[j] = inv_s[state[j]];
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}
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// AddRoundKey
for (j = 0, k = i * 16; j < 16; ++j, ++k) {
state[j] ^= key[k];
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}
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// InvMixColumns
for (j = 0; j < 16; j += 4) {
var s0 = mix[state[j]], s1 = mix[state[j + 1]],
s2 = mix[state[j + 2]], s3 = mix[state[j + 3]];
t = (s0 ^ (s1 >>> 8) ^ (s1 << 24) ^ (s2 >>> 16) ^ (s2 << 16) ^
(s3 >>> 24) ^ (s3 << 8));
state[j] = (t >>> 24) & 0xFF;
state[j + 1] = (t >> 16) & 0xFF;
state[j + 2] = (t >> 8) & 0xFF;
state[j + 3] = t & 0xFF;
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}
}
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// InvShiftRows
t = state[13];
state[13] = state[9];
state[9] = state[5];
state[5] = state[1];
state[1] = t;
t = state[14];
u = state[10];
state[14] = state[6];
state[10] = state[2];
state[6] = t;
state[2] = u;
t = state[15];
u = state[11];
v = state[7];
state[15] = state[3];
state[11] = t;
state[7] = u;
state[3] = v;
for (j = 0; j < 16; ++j) {
// InvSubBytes
state[j] = inv_s[state[j]];
// AddRoundKey
state[j] ^= key[j];
}
return state;
}
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function encrypt128(input, key) {
var t, u, v, k;
var state = new Uint8Array(16);
state.set(input);
for (j = 0; j < 16; ++j) {
// AddRoundKey
state[j] ^= key[j];
}
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for (i = 1; i < 10; i++) {
//SubBytes
for (j = 0; j < 16; ++j) {
state[j] = s[state[j]];
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}
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//ShiftRows
v = state[1];
state[1] = state[5];
state[5] = state[9];
state[9] = state[13];
state[13] = v;
v = state[2];
u = state[6];
state[2] = state[10];
state[6] = state[14];
state[10] = v;
state[14] = u;
v = state[3];
u = state[7];
t = state[11];
state[3] = state[15];
state[7] = v;
state[11] = u;
state[15] = t;
//MixColumns
for (var j = 0; j < 16; j += 4) {
var s0 = state[j + 0], s1 = state[j + 1];
var s2 = state[j + 2], s3 = state[j + 3];
t = s0 ^ s1 ^ s2 ^ s3;
state[j + 0] ^= t ^ mixCol[s0 ^ s1];
state[j + 1] ^= t ^ mixCol[s1 ^ s2];
state[j + 2] ^= t ^ mixCol[s2 ^ s3];
state[j + 3] ^= t ^ mixCol[s3 ^ s0];
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}
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//AddRoundKey
for (j = 0, k = i * 16; j < 16; ++j, ++k) {
state[j] ^= key[k];
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}
}
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//SubBytes
for (j = 0; j < 16; ++j) {
state[j] = s[state[j]];
}
//ShiftRows
v = state[1];
state[1] = state[5];
state[5] = state[9];
state[9] = state[13];
state[13] = v;
v = state[2];
u = state[6];
state[2] = state[10];
state[6] = state[14];
state[10] = v;
state[14] = u;
v = state[3];
u = state[7];
t = state[11];
state[3] = state[15];
state[7] = v;
state[11] = u;
state[15] = t;
//AddRoundKey
for (j = 0, k = 160; j < 16; ++j, ++k) {
state[j] ^= key[k];
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}
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return state;
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}
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function AES128Cipher(key) {
this.key = expandKey128(key);
this.buffer = new Uint8Array(16);
this.bufferPosition = 0;
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}
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function decryptBlock2(data, finalize) {
var i, j, ii, sourceLength = data.length,
buffer = this.buffer, bufferLength = this.bufferPosition,
result = [], iv = this.iv;
for (i = 0; i < sourceLength; ++i) {
buffer[bufferLength] = data[i];
++bufferLength;
if (bufferLength < 16) {
continue;
}
// buffer is full, decrypting
var plain = decrypt128(buffer, this.key);
// xor-ing the IV vector to get plain text
for (j = 0; j < 16; ++j) {
plain[j] ^= iv[j];
}
iv = buffer;
result.push(plain);
buffer = new Uint8Array(16);
bufferLength = 0;
}
// saving incomplete buffer
this.buffer = buffer;
this.bufferLength = bufferLength;
this.iv = iv;
if (result.length === 0) {
return new Uint8Array([]);
}
// combining plain text blocks into one
var outputLength = 16 * result.length;
if (finalize) {
// undo a padding that is described in RFC 2898
var lastBlock = result[result.length - 1];
var psLen = lastBlock[15];
if (psLen <= 16) {
for (i = 15, ii = 16 - psLen; i >= ii; --i) {
if (lastBlock[i] !== psLen) {
// Invalid padding, assume that the block has no padding.
psLen = 0;
break;
}
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}
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outputLength -= psLen;
result[result.length - 1] = lastBlock.subarray(0, 16 - psLen);
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}
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}
var output = new Uint8Array(outputLength);
for (i = 0, j = 0, ii = result.length; i < ii; ++i, j += 16) {
output.set(result[i], j);
}
return output;
}
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AES128Cipher.prototype = {
decryptBlock: function AES128Cipher_decryptBlock(data, finalize) {
var i, sourceLength = data.length;
var buffer = this.buffer, bufferLength = this.bufferPosition;
// waiting for IV values -- they are at the start of the stream
for (i = 0; bufferLength < 16 && i < sourceLength; ++i, ++bufferLength) {
buffer[bufferLength] = data[i];
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}
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if (bufferLength < 16) {
// need more data
this.bufferLength = bufferLength;
return new Uint8Array([]);
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}
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this.iv = buffer;
this.buffer = new Uint8Array(16);
this.bufferLength = 0;
// starting decryption
this.decryptBlock = decryptBlock2;
return this.decryptBlock(data.subarray(16), finalize);
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},
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encrypt: function AES128Cipher_encrypt(data, iv) {
var i, j, ii, sourceLength = data.length,
buffer = this.buffer, bufferLength = this.bufferPosition,
result = [];
if (!iv) {
iv = new Uint8Array(16);
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}
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for (i = 0; i < sourceLength; ++i) {
buffer[bufferLength] = data[i];
++bufferLength;
if (bufferLength < 16) {
continue;
}
for (j = 0; j < 16; ++j) {
buffer[j] ^= iv[j];
}
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// buffer is full, encrypting
var cipher = encrypt128(buffer, this.key);
iv = cipher;
result.push(cipher);
buffer = new Uint8Array(16);
bufferLength = 0;
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}
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// saving incomplete buffer
this.buffer = buffer;
this.bufferLength = bufferLength;
this.iv = iv;
if (result.length === 0) {
return new Uint8Array([]);
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}
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// combining plain text blocks into one
var outputLength = 16 * result.length;
var output = new Uint8Array(outputLength);
for (i = 0, j = 0, ii = result.length; i < ii; ++i, j += 16) {
output.set(result[i], j);
}
return output;
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}
};
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return AES128Cipher;
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})();
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var AES256Cipher = (function AES256CipherClosure() {
var rcon = new Uint8Array([
0x8d, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1b, 0x36, 0x6c,
0xd8, 0xab, 0x4d, 0x9a, 0x2f, 0x5e, 0xbc, 0x63, 0xc6, 0x97, 0x35, 0x6a,
0xd4, 0xb3, 0x7d, 0xfa, 0xef, 0xc5, 0x91, 0x39, 0x72, 0xe4, 0xd3, 0xbd,
0x61, 0xc2, 0x9f, 0x25, 0x4a, 0x94, 0x33, 0x66, 0xcc, 0x83, 0x1d, 0x3a,
0x74, 0xe8, 0xcb, 0x8d, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80,
0x1b, 0x36, 0x6c, 0xd8, 0xab, 0x4d, 0x9a, 0x2f, 0x5e, 0xbc, 0x63, 0xc6,
0x97, 0x35, 0x6a, 0xd4, 0xb3, 0x7d, 0xfa, 0xef, 0xc5, 0x91, 0x39, 0x72,
0xe4, 0xd3, 0xbd, 0x61, 0xc2, 0x9f, 0x25, 0x4a, 0x94, 0x33, 0x66, 0xcc,
0x83, 0x1d, 0x3a, 0x74, 0xe8, 0xcb, 0x8d, 0x01, 0x02, 0x04, 0x08, 0x10,
0x20, 0x40, 0x80, 0x1b, 0x36, 0x6c, 0xd8, 0xab, 0x4d, 0x9a, 0x2f, 0x5e,
0xbc, 0x63, 0xc6, 0x97, 0x35, 0x6a, 0xd4, 0xb3, 0x7d, 0xfa, 0xef, 0xc5,
0x91, 0x39, 0x72, 0xe4, 0xd3, 0xbd, 0x61, 0xc2, 0x9f, 0x25, 0x4a, 0x94,
0x33, 0x66, 0xcc, 0x83, 0x1d, 0x3a, 0x74, 0xe8, 0xcb, 0x8d, 0x01, 0x02,
0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1b, 0x36, 0x6c, 0xd8, 0xab, 0x4d,
0x9a, 0x2f, 0x5e, 0xbc, 0x63, 0xc6, 0x97, 0x35, 0x6a, 0xd4, 0xb3, 0x7d,
0xfa, 0xef, 0xc5, 0x91, 0x39, 0x72, 0xe4, 0xd3, 0xbd, 0x61, 0xc2, 0x9f,
0x25, 0x4a, 0x94, 0x33, 0x66, 0xcc, 0x83, 0x1d, 0x3a, 0x74, 0xe8, 0xcb,
0x8d, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1b, 0x36, 0x6c,
0xd8, 0xab, 0x4d, 0x9a, 0x2f, 0x5e, 0xbc, 0x63, 0xc6, 0x97, 0x35, 0x6a,
0xd4, 0xb3, 0x7d, 0xfa, 0xef, 0xc5, 0x91, 0x39, 0x72, 0xe4, 0xd3, 0xbd,
0x61, 0xc2, 0x9f, 0x25, 0x4a, 0x94, 0x33, 0x66, 0xcc, 0x83, 0x1d, 0x3a,
0x74, 0xe8, 0xcb, 0x8d]);
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var s = new Uint8Array([
0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5, 0x30, 0x01, 0x67, 0x2b,
0xfe, 0xd7, 0xab, 0x76, 0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0,
0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0, 0xb7, 0xfd, 0x93, 0x26,
0x36, 0x3f, 0xf7, 0xcc, 0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15,
0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a, 0x07, 0x12, 0x80, 0xe2,
0xeb, 0x27, 0xb2, 0x75, 0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0,
0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84, 0x53, 0xd1, 0x00, 0xed,
0x20, 0xfc, 0xb1, 0x5b, 0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf,
0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85, 0x45, 0xf9, 0x02, 0x7f,
0x50, 0x3c, 0x9f, 0xa8, 0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5,
0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2, 0xcd, 0x0c, 0x13, 0xec,
0x5f, 0x97, 0x44, 0x17, 0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73,
0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88, 0x46, 0xee, 0xb8, 0x14,
0xde, 0x5e, 0x0b, 0xdb, 0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c,
0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79, 0xe7, 0xc8, 0x37, 0x6d,
0x8d, 0xd5, 0x4e, 0xa9, 0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08,
0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6, 0xe8, 0xdd, 0x74, 0x1f,
0x4b, 0xbd, 0x8b, 0x8a, 0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e,
0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e, 0xe1, 0xf8, 0x98, 0x11,
0x69, 0xd9, 0x8e, 0x94, 0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf,
0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68, 0x41, 0x99, 0x2d, 0x0f,
0xb0, 0x54, 0xbb, 0x16]);
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var inv_s = new Uint8Array([
0x52, 0x09, 0x6a, 0xd5, 0x30, 0x36, 0xa5, 0x38, 0xbf, 0x40, 0xa3, 0x9e,
0x81, 0xf3, 0xd7, 0xfb, 0x7c, 0xe3, 0x39, 0x82, 0x9b, 0x2f, 0xff, 0x87,
0x34, 0x8e, 0x43, 0x44, 0xc4, 0xde, 0xe9, 0xcb, 0x54, 0x7b, 0x94, 0x32,
0xa6, 0xc2, 0x23, 0x3d, 0xee, 0x4c, 0x95, 0x0b, 0x42, 0xfa, 0xc3, 0x4e,
0x08, 0x2e, 0xa1, 0x66, 0x28, 0xd9, 0x24, 0xb2, 0x76, 0x5b, 0xa2, 0x49,
0x6d, 0x8b, 0xd1, 0x25, 0x72, 0xf8, 0xf6, 0x64, 0x86, 0x68, 0x98, 0x16,
0xd4, 0xa4, 0x5c, 0xcc, 0x5d, 0x65, 0xb6, 0x92, 0x6c, 0x70, 0x48, 0x50,
0xfd, 0xed, 0xb9, 0xda, 0x5e, 0x15, 0x46, 0x57, 0xa7, 0x8d, 0x9d, 0x84,
0x90, 0xd8, 0xab, 0x00, 0x8c, 0xbc, 0xd3, 0x0a, 0xf7, 0xe4, 0x58, 0x05,
0xb8, 0xb3, 0x45, 0x06, 0xd0, 0x2c, 0x1e, 0x8f, 0xca, 0x3f, 0x0f, 0x02,
0xc1, 0xaf, 0xbd, 0x03, 0x01, 0x13, 0x8a, 0x6b, 0x3a, 0x91, 0x11, 0x41,
0x4f, 0x67, 0xdc, 0xea, 0x97, 0xf2, 0xcf, 0xce, 0xf0, 0xb4, 0xe6, 0x73,
0x96, 0xac, 0x74, 0x22, 0xe7, 0xad, 0x35, 0x85, 0xe2, 0xf9, 0x37, 0xe8,
0x1c, 0x75, 0xdf, 0x6e, 0x47, 0xf1, 0x1a, 0x71, 0x1d, 0x29, 0xc5, 0x89,
0x6f, 0xb7, 0x62, 0x0e, 0xaa, 0x18, 0xbe, 0x1b, 0xfc, 0x56, 0x3e, 0x4b,
0xc6, 0xd2, 0x79, 0x20, 0x9a, 0xdb, 0xc0, 0xfe, 0x78, 0xcd, 0x5a, 0xf4,
0x1f, 0xdd, 0xa8, 0x33, 0x88, 0x07, 0xc7, 0x31, 0xb1, 0x12, 0x10, 0x59,
0x27, 0x80, 0xec, 0x5f, 0x60, 0x51, 0x7f, 0xa9, 0x19, 0xb5, 0x4a, 0x0d,
0x2d, 0xe5, 0x7a, 0x9f, 0x93, 0xc9, 0x9c, 0xef, 0xa0, 0xe0, 0x3b, 0x4d,
0xae, 0x2a, 0xf5, 0xb0, 0xc8, 0xeb, 0xbb, 0x3c, 0x83, 0x53, 0x99, 0x61,
0x17, 0x2b, 0x04, 0x7e, 0xba, 0x77, 0xd6, 0x26, 0xe1, 0x69, 0x14, 0x63,
0x55, 0x21, 0x0c, 0x7d]);
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var mixCol = new Uint8Array(256);
for (var i = 0; i < 256; i++) {
if (i < 128) {
mixCol[i] = i << 1;
} else {
mixCol[i] = (i << 1) ^ 0x1b;
}
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}
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var mix = new Uint32Array([
0x00000000, 0x0e090d0b, 0x1c121a16, 0x121b171d, 0x3824342c, 0x362d3927,
0x24362e3a, 0x2a3f2331, 0x70486858, 0x7e416553, 0x6c5a724e, 0x62537f45,
0x486c5c74, 0x4665517f, 0x547e4662, 0x5a774b69, 0xe090d0b0, 0xee99ddbb,
0xfc82caa6, 0xf28bc7ad, 0xd8b4e49c, 0xd6bde997, 0xc4a6fe8a, 0xcaaff381,
0x90d8b8e8, 0x9ed1b5e3, 0x8ccaa2fe, 0x82c3aff5, 0xa8fc8cc4, 0xa6f581cf,
0xb4ee96d2, 0xbae79bd9, 0xdb3bbb7b, 0xd532b670, 0xc729a16d, 0xc920ac66,
0xe31f8f57, 0xed16825c, 0xff0d9541, 0xf104984a, 0xab73d323, 0xa57ade28,
0xb761c935, 0xb968c43e, 0x9357e70f, 0x9d5eea04, 0x8f45fd19, 0x814cf012,
0x3bab6bcb, 0x35a266c0, 0x27b971dd, 0x29b07cd6, 0x038f5fe7, 0x0d8652ec,
0x1f9d45f1, 0x119448fa, 0x4be30393, 0x45ea0e98, 0x57f11985, 0x59f8148e,
0x73c737bf, 0x7dce3ab4, 0x6fd52da9, 0x61dc20a2, 0xad766df6, 0xa37f60fd,
0xb16477e0, 0xbf6d7aeb, 0x955259da, 0x9b5b54d1, 0x894043cc, 0x87494ec7,
0xdd3e05ae, 0xd33708a5, 0xc12c1fb8, 0xcf2512b3, 0xe51a3182, 0xeb133c89,
0xf9082b94, 0xf701269f, 0x4de6bd46, 0x43efb04d, 0x51f4a750, 0x5ffdaa5b,
0x75c2896a, 0x7bcb8461, 0x69d0937c, 0x67d99e77, 0x3daed51e, 0x33a7d815,
0x21bccf08, 0x2fb5c203, 0x058ae132, 0x0b83ec39, 0x1998fb24, 0x1791f62f,
0x764dd68d, 0x7844db86, 0x6a5fcc9b, 0x6456c190, 0x4e69e2a1, 0x4060efaa,
0x527bf8b7, 0x5c72f5bc, 0x0605bed5, 0x080cb3de, 0x1a17a4c3, 0x141ea9c8,
0x3e218af9, 0x302887f2, 0x223390ef, 0x2c3a9de4, 0x96dd063d, 0x98d40b36,
0x8acf1c2b, 0x84c61120, 0xaef93211, 0xa0f03f1a, 0xb2eb2807, 0xbce2250c,
0xe6956e65, 0xe89c636e, 0xfa877473, 0xf48e7978, 0xdeb15a49, 0xd0b85742,
0xc2a3405f, 0xccaa4d54, 0x41ecdaf7, 0x4fe5d7fc, 0x5dfec0e1, 0x53f7cdea,
0x79c8eedb, 0x77c1e3d0, 0x65daf4cd, 0x6bd3f9c6, 0x31a4b2af, 0x3fadbfa4,
0x2db6a8b9, 0x23bfa5b2, 0x09808683, 0x07898b88, 0x15929c95, 0x1b9b919e,
0xa17c0a47, 0xaf75074c, 0xbd6e1051, 0xb3671d5a, 0x99583e6b, 0x97513360,
0x854a247d, 0x8b432976, 0xd134621f, 0xdf3d6f14, 0xcd267809, 0xc32f7502,
0xe9105633, 0xe7195b38, 0xf5024c25, 0xfb0b412e, 0x9ad7618c, 0x94de6c87,
0x86c57b9a, 0x88cc7691, 0xa2f355a0, 0xacfa58ab, 0xbee14fb6, 0xb0e842bd,
0xea9f09d4, 0xe49604df, 0xf68d13c2, 0xf8841ec9, 0xd2bb3df8, 0xdcb230f3,
0xcea927ee, 0xc0a02ae5, 0x7a47b13c, 0x744ebc37, 0x6655ab2a, 0x685ca621,
0x42638510, 0x4c6a881b, 0x5e719f06, 0x5078920d, 0x0a0fd964, 0x0406d46f,
0x161dc372, 0x1814ce79, 0x322bed48, 0x3c22e043, 0x2e39f75e, 0x2030fa55,
0xec9ab701, 0xe293ba0a, 0xf088ad17, 0xfe81a01c, 0xd4be832d, 0xdab78e26,
0xc8ac993b, 0xc6a59430, 0x9cd2df59, 0x92dbd252, 0x80c0c54f, 0x8ec9c844,
0xa4f6eb75, 0xaaffe67e, 0xb8e4f163, 0xb6edfc68, 0x0c0a67b1, 0x02036aba,
0x10187da7, 0x1e1170ac, 0x342e539d, 0x3a275e96, 0x283c498b, 0x26354480,
0x7c420fe9, 0x724b02e2, 0x605015ff, 0x6e5918f4, 0x44663bc5, 0x4a6f36ce,
0x587421d3, 0x567d2cd8, 0x37a10c7a, 0x39a80171, 0x2bb3166c, 0x25ba1b67,
0x0f853856, 0x018c355d, 0x13972240, 0x1d9e2f4b, 0x47e96422, 0x49e06929,
0x5bfb7e34, 0x55f2733f, 0x7fcd500e, 0x71c45d05, 0x63df4a18, 0x6dd64713,
0xd731dcca, 0xd938d1c1, 0xcb23c6dc, 0xc52acbd7, 0xef15e8e6, 0xe11ce5ed,
0xf307f2f0, 0xfd0efffb, 0xa779b492, 0xa970b999, 0xbb6bae84, 0xb562a38f,
0x9f5d80be, 0x91548db5, 0x834f9aa8, 0x8d4697a3]);
function expandKey256(cipherKey) {
var b = 240, result = new Uint8Array(b);
var r = 1;
result.set(cipherKey);
for (var j = 32, i = 1; j < b; ++i) {
if (j % 32 === 16) {
t1 = s[t1];
t2 = s[t2];
t3 = s[t3];
t4 = s[t4];
} else if (j % 32 === 0) {
// RotWord
var t1 = result[j - 3], t2 = result[j - 2],
t3 = result[j - 1], t4 = result[j - 4];
// SubWord
t1 = s[t1];
t2 = s[t2];
t3 = s[t3];
t4 = s[t4];
// Rcon
t1 = t1 ^ r;
if ((r <<= 1) >= 256) {
r = (r ^ 0x1b) & 0xFF;
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}
}
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for (var n = 0; n < 4; ++n) {
result[j] = (t1 ^= result[j - 32]);
j++;
result[j] = (t2 ^= result[j - 32]);
j++;
result[j] = (t3 ^= result[j - 32]);
j++;
result[j] = (t4 ^= result[j - 32]);
j++;
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}
}
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return result;
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}
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function decrypt256(input, key) {
var state = new Uint8Array(16);
state.set(input);
var i, j, k;
var t, u, v;
// AddRoundKey
for (j = 0, k = 224; j < 16; ++j, ++k) {
state[j] ^= key[k];
}
for (i = 13; i >= 1; --i) {
// InvShiftRows
t = state[13];
state[13] = state[9];
state[9] = state[5];
state[5] = state[1];
state[1] = t;
t = state[14];
u = state[10];
state[14] = state[6];
state[10] = state[2];
state[6] = t;
state[2] = u;
t = state[15];
u = state[11];
v = state[7];
state[15] = state[3];
state[11] = t;
state[7] = u;
state[3] = v;
// InvSubBytes
for (j = 0; j < 16; ++j) {
state[j] = inv_s[state[j]];
}
// AddRoundKey
for (j = 0, k = i * 16; j < 16; ++j, ++k) {
state[j] ^= key[k];
}
// InvMixColumns
for (j = 0; j < 16; j += 4) {
var s0 = mix[state[j]], s1 = mix[state[j + 1]],
s2 = mix[state[j + 2]], s3 = mix[state[j + 3]];
t = (s0 ^ (s1 >>> 8) ^ (s1 << 24) ^ (s2 >>> 16) ^ (s2 << 16) ^
(s3 >>> 24) ^ (s3 << 8));
state[j] = (t >>> 24) & 0xFF;
state[j + 1] = (t >> 16) & 0xFF;
state[j + 2] = (t >> 8) & 0xFF;
state[j + 3] = t & 0xFF;
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}
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}
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// InvShiftRows
t = state[13];
state[13] = state[9];
state[9] = state[5];
state[5] = state[1];
state[1] = t;
t = state[14];
u = state[10];
state[14] = state[6];
state[10] = state[2];
state[6] = t;
state[2] = u;
t = state[15];
u = state[11];
v = state[7];
state[15] = state[3];
state[11] = t;
state[7] = u;
state[3] = v;
for (j = 0; j < 16; ++j) {
// InvSubBytes
state[j] = inv_s[state[j]];
// AddRoundKey
state[j] ^= key[j];
}
return state;
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}
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function encrypt256(input, key) {
var t, u, v, k;
var state = new Uint8Array(16);
state.set(input);
for (j = 0; j < 16; ++j) {
// AddRoundKey
state[j] ^= key[j];
}
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for (i = 1; i < 14; i++) {
//SubBytes
for (j = 0; j < 16; ++j) {
state[j] = s[state[j]];
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}
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//ShiftRows
v = state[1];
state[1] = state[5];
state[5] = state[9];
state[9] = state[13];
state[13] = v;
v = state[2];
u = state[6];
state[2] = state[10];
state[6] = state[14];
state[10] = v;
state[14] = u;
v = state[3];
u = state[7];
t = state[11];
state[3] = state[15];
state[7] = v;
state[11] = u;
state[15] = t;
//MixColumns
for (var j = 0; j < 16; j += 4) {
var s0 = state[j + 0], s1 = state[j + 1];
var s2 = state[j + 2], s3 = state[j + 3];
t = s0 ^ s1 ^ s2 ^ s3;
state[j + 0] ^= t ^ mixCol[s0 ^ s1];
state[j + 1] ^= t ^ mixCol[s1 ^ s2];
state[j + 2] ^= t ^ mixCol[s2 ^ s3];
state[j + 3] ^= t ^ mixCol[s3 ^ s0];
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}
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//AddRoundKey
for (j = 0, k = i * 16; j < 16; ++j, ++k) {
state[j] ^= key[k];
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}
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}
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//SubBytes
for (j = 0; j < 16; ++j) {
state[j] = s[state[j]];
}
//ShiftRows
v = state[1];
state[1] = state[5];
state[5] = state[9];
state[9] = state[13];
state[13] = v;
v = state[2];
u = state[6];
state[2] = state[10];
state[6] = state[14];
state[10] = v;
state[14] = u;
v = state[3];
u = state[7];
t = state[11];
state[3] = state[15];
state[7] = v;
state[11] = u;
state[15] = t;
//AddRoundKey
for (j = 0, k = 224; j < 16; ++j, ++k) {
state[j] ^= key[k];
}
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return state;
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}
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function AES256Cipher(key) {
this.key = expandKey256(key);
this.buffer = new Uint8Array(16);
this.bufferPosition = 0;
}
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function decryptBlock2(data, finalize) {
var i, j, ii, sourceLength = data.length,
buffer = this.buffer, bufferLength = this.bufferPosition,
result = [], iv = this.iv;
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for (i = 0; i < sourceLength; ++i) {
buffer[bufferLength] = data[i];
++bufferLength;
if (bufferLength < 16) {
continue;
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}
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// buffer is full, decrypting
var plain = decrypt256(buffer, this.key);
// xor-ing the IV vector to get plain text
for (j = 0; j < 16; ++j) {
plain[j] ^= iv[j];
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}
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iv = buffer;
result.push(plain);
buffer = new Uint8Array(16);
bufferLength = 0;
}
// saving incomplete buffer
this.buffer = buffer;
this.bufferLength = bufferLength;
this.iv = iv;
if (result.length === 0) {
return new Uint8Array([]);
}
// combining plain text blocks into one
var outputLength = 16 * result.length;
if (finalize) {
// undo a padding that is described in RFC 2898
var lastBlock = result[result.length - 1];
var psLen = lastBlock[15];
if (psLen <= 16) {
for (i = 15, ii = 16 - psLen; i >= ii; --i) {
if (lastBlock[i] !== psLen) {
// Invalid padding, assume that the block has no padding.
psLen = 0;
break;
}
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}
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outputLength -= psLen;
result[result.length - 1] = lastBlock.subarray(0, 16 - psLen);
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}
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}
var output = new Uint8Array(outputLength);
for (i = 0, j = 0, ii = result.length; i < ii; ++i, j += 16) {
output.set(result[i], j);
}
return output;
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}
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AES256Cipher.prototype = {
decryptBlock: function AES256Cipher_decryptBlock(data, finalize, iv) {
var i, sourceLength = data.length;
var buffer = this.buffer, bufferLength = this.bufferPosition;
// if not supplied an IV wait for IV values
// they are at the start of the stream
if (iv) {
this.iv = iv;
} else {
for (i = 0; bufferLength < 16 &&
i < sourceLength; ++i, ++bufferLength) {
buffer[bufferLength] = data[i];
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}
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if (bufferLength < 16) {
//need more data
this.bufferLength = bufferLength;
return new Uint8Array([]);
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}
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this.iv = buffer;
data = data.subarray(16);
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}
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this.buffer = new Uint8Array(16);
this.bufferLength = 0;
// starting decryption
this.decryptBlock = decryptBlock2;
return this.decryptBlock(data, finalize);
},
encrypt: function AES256Cipher_encrypt(data, iv) {
var i, j, ii, sourceLength = data.length,
buffer = this.buffer, bufferLength = this.bufferPosition,
result = [];
if (!iv) {
iv = new Uint8Array(16);
}
for (i = 0; i < sourceLength; ++i) {
buffer[bufferLength] = data[i];
++bufferLength;
if (bufferLength < 16) {
continue;
}
for (j = 0; j < 16; ++j) {
buffer[j] ^= iv[j];
}
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// buffer is full, encrypting
var cipher = encrypt256(buffer, this.key);
this.iv = cipher;
result.push(cipher);
buffer = new Uint8Array(16);
bufferLength = 0;
}
// saving incomplete buffer
this.buffer = buffer;
this.bufferLength = bufferLength;
this.iv = iv;
if (result.length === 0) {
return new Uint8Array([]);
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}
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// combining plain text blocks into one
var outputLength = 16 * result.length;
var output = new Uint8Array(outputLength);
for (i = 0, j = 0, ii = result.length; i < ii; ++i, j += 16) {
output.set(result[i], j);
}
return output;
}
};
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return AES256Cipher;
})();
var PDF17 = (function PDF17Closure() {
function compareByteArrays(array1, array2) {
if (array1.length !== array2.length) {
return false;
}
for (var i = 0; i < array1.length; i++) {
if (array1[i] !== array2[i]) {
return false;
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}
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}
return true;
}
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function PDF17() {
}
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PDF17.prototype = {
checkOwnerPassword: function PDF17_checkOwnerPassword(password,
ownerValidationSalt,
userBytes,
ownerPassword) {
var hashData = new Uint8Array(password.length + 56);
hashData.set(password, 0);
hashData.set(ownerValidationSalt, password.length);
hashData.set(userBytes, password.length + ownerValidationSalt.length);
var result = calculateSHA256(hashData, 0, hashData.length);
return compareByteArrays(result, ownerPassword);
},
checkUserPassword: function PDF17_checkUserPassword(password,
userValidationSalt,
userPassword) {
var hashData = new Uint8Array(password.length + 8);
hashData.set(password, 0);
hashData.set(userValidationSalt, password.length);
var result = calculateSHA256(hashData, 0, hashData.length);
return compareByteArrays(result, userPassword);
},
getOwnerKey: function PDF17_getOwnerKey(password, ownerKeySalt, userBytes,
ownerEncryption) {
var hashData = new Uint8Array(password.length + 56);
hashData.set(password, 0);
hashData.set(ownerKeySalt, password.length);
hashData.set(userBytes, password.length + ownerKeySalt.length);
var key = calculateSHA256(hashData, 0, hashData.length);
var cipher = new AES256Cipher(key);
return cipher.decryptBlock(ownerEncryption,
false,
new Uint8Array(16));
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},
getUserKey: function PDF17_getUserKey(password, userKeySalt,
userEncryption) {
var hashData = new Uint8Array(password.length + 8);
hashData.set(password, 0);
hashData.set(userKeySalt, password.length);
//key is the decryption key for the UE string
var key = calculateSHA256(hashData, 0, hashData.length);
var cipher = new AES256Cipher(key);
return cipher.decryptBlock(userEncryption,
false,
new Uint8Array(16));
}
};
return PDF17;
})();
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var PDF20 = (function PDF20Closure() {
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function concatArrays(array1, array2) {
var t = new Uint8Array(array1.length + array2.length);
t.set(array1, 0);
t.set(array2, array1.length);
return t;
}
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function calculatePDF20Hash(password, input, userBytes) {
//This refers to Algorithm 2.B as defined in ISO 32000-2
var k = calculateSHA256(input, 0, input.length).subarray(0, 32);
var e = [0];
var i = 0;
while (i < 64 || e[e.length - 1] > i - 32) {
var arrayLength = password.length + k.length + userBytes.length;
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var k1 = new Uint8Array(arrayLength * 64);
var array = concatArrays(password, k);
array = concatArrays(array, userBytes);
for (var j = 0, pos = 0; j < 64; j++, pos += arrayLength) {
k1.set(array, pos);
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}
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//AES128 CBC NO PADDING with
//first 16 bytes of k as the key and the second 16 as the iv.
var cipher = new AES128Cipher(k.subarray(0, 16));
e = cipher.encrypt(k1, k.subarray(16, 32));
//Now we have to take the first 16 bytes of an unsigned
//big endian integer... and compute the remainder
//modulo 3.... That is a fairly large number and
//JavaScript isn't going to handle that well...
//So we're using a trick that allows us to perform
//modulo math byte by byte
var remainder = 0;
for (var z = 0; z < 16; z++) {
remainder *= (256 % 3);
remainder %= 3;
remainder += ((e[z] >>> 0) % 3);
remainder %= 3;
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}
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if (remainder === 0) {
k = calculateSHA256(e, 0, e.length);
}
else if (remainder === 1) {
k = calculateSHA384(e, 0, e.length);
}
else if (remainder === 2) {
k = calculateSHA512(e, 0, e.length);
}
i++;
}
return k.subarray(0, 32);
}
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function PDF20() {
}
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function compareByteArrays(array1, array2) {
if (array1.length !== array2.length) {
return false;
}
for (var i = 0; i < array1.length; i++) {
if (array1[i] !== array2[i]) {
return false;
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}
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}
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return true;
}
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PDF20.prototype = {
hash: function PDF20_hash(password, concatBytes, userBytes) {
return calculatePDF20Hash(password, concatBytes, userBytes);
},
checkOwnerPassword: function PDF20_checkOwnerPassword(password,
ownerValidationSalt,
userBytes,
ownerPassword) {
var hashData = new Uint8Array(password.length + 56);
hashData.set(password, 0);
hashData.set(ownerValidationSalt, password.length);
hashData.set(userBytes, password.length + ownerValidationSalt.length);
var result = calculatePDF20Hash(password, hashData, userBytes);
return compareByteArrays(result, ownerPassword);
},
checkUserPassword: function PDF20_checkUserPassword(password,
userValidationSalt,
userPassword) {
var hashData = new Uint8Array(password.length + 8);
hashData.set(password, 0);
hashData.set(userValidationSalt, password.length);
var result = calculatePDF20Hash(password, hashData, []);
return compareByteArrays(result, userPassword);
},
getOwnerKey: function PDF20_getOwnerKey(password, ownerKeySalt, userBytes,
ownerEncryption) {
var hashData = new Uint8Array(password.length + 56);
hashData.set(password, 0);
hashData.set(ownerKeySalt, password.length);
hashData.set(userBytes, password.length + ownerKeySalt.length);
var key = calculatePDF20Hash(password, hashData, userBytes);
var cipher = new AES256Cipher(key);
return cipher.decryptBlock(ownerEncryption,
false,
new Uint8Array(16));
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},
getUserKey: function PDF20_getUserKey(password, userKeySalt,
userEncryption) {
var hashData = new Uint8Array(password.length + 8);
hashData.set(password, 0);
hashData.set(userKeySalt, password.length);
//key is the decryption key for the UE string
var key = calculatePDF20Hash(password, hashData, []);
var cipher = new AES256Cipher(key);
return cipher.decryptBlock(userEncryption,
false,
new Uint8Array(16));
}
};
return PDF20;
})();
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var CipherTransform = (function CipherTransformClosure() {
function CipherTransform(stringCipherConstructor, streamCipherConstructor) {
this.stringCipherConstructor = stringCipherConstructor;
this.streamCipherConstructor = streamCipherConstructor;
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}
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CipherTransform.prototype = {
createStream: function CipherTransform_createStream(stream, length) {
var cipher = new this.streamCipherConstructor();
return new DecryptStream(stream, length,
function cipherTransformDecryptStream(data, finalize) {
return cipher.decryptBlock(data, finalize);
}
);
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},
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decryptString: function CipherTransform_decryptString(s) {
var cipher = new this.stringCipherConstructor();
var data = stringToBytes(s);
data = cipher.decryptBlock(data, true);
return bytesToString(data);
}
};
return CipherTransform;
})();
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var CipherTransformFactory = (function CipherTransformFactoryClosure() {
var defaultPasswordBytes = new Uint8Array([
0x28, 0xBF, 0x4E, 0x5E, 0x4E, 0x75, 0x8A, 0x41,
0x64, 0x00, 0x4E, 0x56, 0xFF, 0xFA, 0x01, 0x08,
0x2E, 0x2E, 0x00, 0xB6, 0xD0, 0x68, 0x3E, 0x80,
0x2F, 0x0C, 0xA9, 0xFE, 0x64, 0x53, 0x69, 0x7A]);
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function createEncryptionKey20(revision, password, ownerPassword,
ownerValidationSalt, ownerKeySalt, uBytes,
userPassword, userValidationSalt, userKeySalt,
ownerEncryption, userEncryption, perms) {
if (password) {
var passwordLength = Math.min(127, password.length);
password = password.subarray(0, passwordLength);
} else {
password = [];
}
var pdfAlgorithm;
if (revision === 6) {
pdfAlgorithm = new PDF20();
} else {
pdfAlgorithm = new PDF17();
}
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if (pdfAlgorithm) {
if (pdfAlgorithm.checkUserPassword(password, userValidationSalt,
userPassword)) {
return pdfAlgorithm.getUserKey(password, userKeySalt, userEncryption);
} else if (password.length && pdfAlgorithm.checkOwnerPassword(password,
ownerValidationSalt,
uBytes,
ownerPassword)) {
return pdfAlgorithm.getOwnerKey(password, ownerKeySalt, uBytes,
ownerEncryption);
}
}
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return null;
}
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function prepareKeyData(fileId, password, ownerPassword, userPassword,
flags, revision, keyLength, encryptMetadata) {
var hashDataSize = 40 + ownerPassword.length + fileId.length;
var hashData = new Uint8Array(hashDataSize), i = 0, j, n;
if (password) {
n = Math.min(32, password.length);
for (; i < n; ++i) {
hashData[i] = password[i];
}
}
j = 0;
while (i < 32) {
hashData[i++] = defaultPasswordBytes[j++];
}
// as now the padded password in the hashData[0..i]
for (j = 0, n = ownerPassword.length; j < n; ++j) {
hashData[i++] = ownerPassword[j];
}
hashData[i++] = flags & 0xFF;
hashData[i++] = (flags >> 8) & 0xFF;
hashData[i++] = (flags >> 16) & 0xFF;
hashData[i++] = (flags >>> 24) & 0xFF;
for (j = 0, n = fileId.length; j < n; ++j) {
hashData[i++] = fileId[j];
}
if (revision >= 4 && !encryptMetadata) {
hashData[i++] = 0xFF;
hashData[i++] = 0xFF;
hashData[i++] = 0xFF;
hashData[i++] = 0xFF;
}
var hash = calculateMD5(hashData, 0, i);
var keyLengthInBytes = keyLength >> 3;
if (revision >= 3) {
for (j = 0; j < 50; ++j) {
hash = calculateMD5(hash, 0, keyLengthInBytes);
}
}
var encryptionKey = hash.subarray(0, keyLengthInBytes);
var cipher, checkData;
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if (revision >= 3) {
for (i = 0; i < 32; ++i) {
hashData[i] = defaultPasswordBytes[i];
}
for (j = 0, n = fileId.length; j < n; ++j) {
hashData[i++] = fileId[j];
}
cipher = new ARCFourCipher(encryptionKey);
checkData = cipher.encryptBlock(calculateMD5(hashData, 0, i));
n = encryptionKey.length;
var derivedKey = new Uint8Array(n), k;
for (j = 1; j <= 19; ++j) {
for (k = 0; k < n; ++k) {
derivedKey[k] = encryptionKey[k] ^ j;
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}
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cipher = new ARCFourCipher(derivedKey);
checkData = cipher.encryptBlock(checkData);
}
for (j = 0, n = checkData.length; j < n; ++j) {
if (userPassword[j] !== checkData[j]) {
return null;
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}
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}
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} else {
cipher = new ARCFourCipher(encryptionKey);
checkData = cipher.encryptBlock(defaultPasswordBytes);
for (j = 0, n = checkData.length; j < n; ++j) {
if (userPassword[j] !== checkData[j]) {
return null;
}
}
}
return encryptionKey;
}
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function decodeUserPassword(password, ownerPassword, revision, keyLength) {
var hashData = new Uint8Array(32), i = 0, j, n;
n = Math.min(32, password.length);
for (; i < n; ++i) {
hashData[i] = password[i];
}
j = 0;
while (i < 32) {
hashData[i++] = defaultPasswordBytes[j++];
}
var hash = calculateMD5(hashData, 0, i);
var keyLengthInBytes = keyLength >> 3;
if (revision >= 3) {
for (j = 0; j < 50; ++j) {
hash = calculateMD5(hash, 0, hash.length);
}
}
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var cipher, userPassword;
if (revision >= 3) {
userPassword = ownerPassword;
var derivedKey = new Uint8Array(keyLengthInBytes), k;
for (j = 19; j >= 0; j--) {
for (k = 0; k < keyLengthInBytes; ++k) {
derivedKey[k] = hash[k] ^ j;
}
cipher = new ARCFourCipher(derivedKey);
userPassword = cipher.encryptBlock(userPassword);
}
} else {
cipher = new ARCFourCipher(hash.subarray(0, keyLengthInBytes));
userPassword = cipher.encryptBlock(ownerPassword);
}
return userPassword;
}
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var identityName = Name.get('Identity');
function CipherTransformFactory(dict, fileId, password) {
var filter = dict.get('Filter');
if (!isName(filter) || filter.name !== 'Standard') {
error('unknown encryption method');
}
this.dict = dict;
var algorithm = dict.get('V');
if (!isInt(algorithm) ||
(algorithm !== 1 && algorithm !== 2 && algorithm !== 4 &&
algorithm !== 5)) {
error('unsupported encryption algorithm');
}
this.algorithm = algorithm;
var keyLength = dict.get('Length');
if (!keyLength) {
// Spec asks to rely on encryption dictionary's Length entry, however
// some PDFs don't have it. Trying to recover.
if (algorithm <= 3) {
// For 1 and 2 it's fixed to 40-bit, for 3 40-bit is a minimal value.
keyLength = 40;
} else {
// Trying to find default handler -- it usually has Length.
var cfDict = dict.get('CF');
var streamCryptoName = dict.get('StmF');
if (isDict(cfDict) && isName(streamCryptoName)) {
var handlerDict = cfDict.get(streamCryptoName.name);
keyLength = (handlerDict && handlerDict.get('Length')) || 128;
if (keyLength < 40) {
// Sometimes it's incorrect value of bits, generators specify bytes.
keyLength <<= 3;
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}
}
}
}
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if (!isInt(keyLength) ||
keyLength < 40 || (keyLength % 8) !== 0) {
error('invalid key length');
}
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// prepare keys
var ownerPassword = stringToBytes(dict.get('O')).subarray(0, 32);
var userPassword = stringToBytes(dict.get('U')).subarray(0, 32);
var flags = dict.get('P');
var revision = dict.get('R');
// meaningful when V is 4 or 5
var encryptMetadata = ((algorithm === 4 || algorithm === 5) &&
dict.get('EncryptMetadata') !== false);
this.encryptMetadata = encryptMetadata;
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var fileIdBytes = stringToBytes(fileId);
var passwordBytes;
if (password) {
if (revision === 6) {
try {
password = utf8StringToString(password);
} catch (ex) {
warn('CipherTransformFactory: ' +
'Unable to convert UTF8 encoded password.');
}
}
passwordBytes = stringToBytes(password);
}
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var encryptionKey;
if (algorithm !== 5) {
encryptionKey = prepareKeyData(fileIdBytes, passwordBytes,
ownerPassword, userPassword, flags,
revision, keyLength, encryptMetadata);
}
else {
var ownerValidationSalt = stringToBytes(dict.get('O')).subarray(32, 40);
var ownerKeySalt = stringToBytes(dict.get('O')).subarray(40, 48);
var uBytes = stringToBytes(dict.get('U')).subarray(0, 48);
var userValidationSalt = stringToBytes(dict.get('U')).subarray(32, 40);
var userKeySalt = stringToBytes(dict.get('U')).subarray(40, 48);
var ownerEncryption = stringToBytes(dict.get('OE'));
var userEncryption = stringToBytes(dict.get('UE'));
var perms = stringToBytes(dict.get('Perms'));
encryptionKey =
createEncryptionKey20(revision, passwordBytes,
ownerPassword, ownerValidationSalt,
ownerKeySalt, uBytes,
userPassword, userValidationSalt,
userKeySalt, ownerEncryption,
userEncryption, perms);
}
if (!encryptionKey && !password) {
throw new PasswordException('No password given',
PasswordResponses.NEED_PASSWORD);
} else if (!encryptionKey && password) {
// Attempting use the password as an owner password
var decodedPassword = decodeUserPassword(passwordBytes, ownerPassword,
revision, keyLength);
encryptionKey = prepareKeyData(fileIdBytes, decodedPassword,
ownerPassword, userPassword, flags,
revision, keyLength, encryptMetadata);
}
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if (!encryptionKey) {
throw new PasswordException('Incorrect Password',
PasswordResponses.INCORRECT_PASSWORD);
}
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this.encryptionKey = encryptionKey;
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if (algorithm >= 4) {
this.cf = dict.get('CF');
this.stmf = dict.get('StmF') || identityName;
this.strf = dict.get('StrF') || identityName;
this.eff = dict.get('EFF') || this.stmf;
}
}
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function buildObjectKey(num, gen, encryptionKey, isAes) {
var key = new Uint8Array(encryptionKey.length + 9), i, n;
for (i = 0, n = encryptionKey.length; i < n; ++i) {
key[i] = encryptionKey[i];
}
key[i++] = num & 0xFF;
key[i++] = (num >> 8) & 0xFF;
key[i++] = (num >> 16) & 0xFF;
key[i++] = gen & 0xFF;
key[i++] = (gen >> 8) & 0xFF;
if (isAes) {
key[i++] = 0x73;
key[i++] = 0x41;
key[i++] = 0x6C;
key[i++] = 0x54;
}
var hash = calculateMD5(key, 0, i);
return hash.subarray(0, Math.min(encryptionKey.length + 5, 16));
}
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function buildCipherConstructor(cf, name, num, gen, key) {
var cryptFilter = cf.get(name.name);
var cfm;
if (cryptFilter !== null && cryptFilter !== undefined) {
cfm = cryptFilter.get('CFM');
}
if (!cfm || cfm.name === 'None') {
return function cipherTransformFactoryBuildCipherConstructorNone() {
return new NullCipher();
};
}
if ('V2' === cfm.name) {
return function cipherTransformFactoryBuildCipherConstructorV2() {
return new ARCFourCipher(buildObjectKey(num, gen, key, false));
};
}
if ('AESV2' === cfm.name) {
return function cipherTransformFactoryBuildCipherConstructorAESV2() {
return new AES128Cipher(buildObjectKey(num, gen, key, true));
};
}
if ('AESV3' === cfm.name) {
return function cipherTransformFactoryBuildCipherConstructorAESV3() {
return new AES256Cipher(key);
};
}
error('Unknown crypto method');
}
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CipherTransformFactory.prototype = {
createCipherTransform:
function CipherTransformFactory_createCipherTransform(num, gen) {
if (this.algorithm === 4 || this.algorithm === 5) {
return new CipherTransform(
buildCipherConstructor(this.cf, this.stmf,
num, gen, this.encryptionKey),
buildCipherConstructor(this.cf, this.strf,
num, gen, this.encryptionKey));
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}
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// algorithms 1 and 2
var key = buildObjectKey(num, gen, this.encryptionKey, false);
var cipherConstructor = function buildCipherCipherConstructor() {
return new ARCFourCipher(key);
};
return new CipherTransform(cipherConstructor, cipherConstructor);
}
};
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return CipherTransformFactory;
})();
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exports.AES128Cipher = AES128Cipher;
exports.AES256Cipher = AES256Cipher;
exports.ARCFourCipher = ARCFourCipher;
exports.CipherTransformFactory = CipherTransformFactory;
exports.PDF17 = PDF17;
exports.PDF20 = PDF20;
exports.calculateMD5 = calculateMD5;
exports.calculateSHA256 = calculateSHA256;
exports.calculateSHA384 = calculateSHA384;
exports.calculateSHA512 = calculateSHA512;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreFontRenderer = {}), root.pdfjsSharedUtil,
root.pdfjsCoreStream, root.pdfjsCoreGlyphList, root.pdfjsCoreEncodings,
root.pdfjsCoreCFFParser);
}
}(this, function (exports, sharedUtil, coreStream, coreGlyphList,
coreEncodings, coreCFFParser) {
var Util = sharedUtil.Util;
var bytesToString = sharedUtil.bytesToString;
var error = sharedUtil.error;
var Stream = coreStream.Stream;
var getGlyphsUnicode = coreGlyphList.getGlyphsUnicode;
var StandardEncoding = coreEncodings.StandardEncoding;
var CFFParser = coreCFFParser.CFFParser;
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var FontRendererFactory = (function FontRendererFactoryClosure() {
function getLong(data, offset) {
return (data[offset] << 24) | (data[offset + 1] << 16) |
(data[offset + 2] << 8) | data[offset + 3];
}
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function getUshort(data, offset) {
return (data[offset] << 8) | data[offset + 1];
}
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function parseCmap(data, start, end) {
var offset = (getUshort(data, start + 2) === 1 ?
getLong(data, start + 8) : getLong(data, start + 16));
var format = getUshort(data, start + offset);
var length, ranges, p, i;
if (format === 4) {
length = getUshort(data, start + offset + 2);
var segCount = getUshort(data, start + offset + 6) >> 1;
p = start + offset + 14;
ranges = [];
for (i = 0; i < segCount; i++, p += 2) {
ranges[i] = {end: getUshort(data, p)};
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}
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p += 2;
for (i = 0; i < segCount; i++, p += 2) {
ranges[i].start = getUshort(data, p);
}
for (i = 0; i < segCount; i++, p += 2) {
ranges[i].idDelta = getUshort(data, p);
}
for (i = 0; i < segCount; i++, p += 2) {
var idOffset = getUshort(data, p);
if (idOffset === 0) {
continue;
}
ranges[i].ids = [];
for (var j = 0, jj = ranges[i].end - ranges[i].start + 1; j < jj; j++) {
ranges[i].ids[j] = getUshort(data, p + idOffset);
idOffset += 2;
}
}
return ranges;
} else if (format === 12) {
length = getLong(data, start + offset + 4);
var groups = getLong(data, start + offset + 12);
p = start + offset + 16;
ranges = [];
for (i = 0; i < groups; i++) {
ranges.push({
start: getLong(data, p),
end: getLong(data, p + 4),
idDelta: getLong(data, p + 8) - getLong(data, p)
});
p += 12;
}
return ranges;
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}
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error('not supported cmap: ' + format);
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}
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function parseCff(data, start, end, seacAnalysisEnabled) {
var properties = {};
var parser = new CFFParser(new Stream(data, start, end - start),
properties, seacAnalysisEnabled);
var cff = parser.parse();
return {
glyphs: cff.charStrings.objects,
subrs: (cff.topDict.privateDict && cff.topDict.privateDict.subrsIndex &&
cff.topDict.privateDict.subrsIndex.objects),
gsubrs: cff.globalSubrIndex && cff.globalSubrIndex.objects
};
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}
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function parseGlyfTable(glyf, loca, isGlyphLocationsLong) {
var itemSize, itemDecode;
if (isGlyphLocationsLong) {
itemSize = 4;
itemDecode = function fontItemDecodeLong(data, offset) {
return (data[offset] << 24) | (data[offset + 1] << 16) |
(data[offset + 2] << 8) | data[offset + 3];
};
} else {
itemSize = 2;
itemDecode = function fontItemDecode(data, offset) {
return (data[offset] << 9) | (data[offset + 1] << 1);
};
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}
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var glyphs = [];
var startOffset = itemDecode(loca, 0);
for (var j = itemSize; j < loca.length; j += itemSize) {
var endOffset = itemDecode(loca, j);
glyphs.push(glyf.subarray(startOffset, endOffset));
startOffset = endOffset;
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}
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return glyphs;
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}
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function lookupCmap(ranges, unicode) {
var code = unicode.charCodeAt(0), gid = 0;
var l = 0, r = ranges.length - 1;
while (l < r) {
var c = (l + r + 1) >> 1;
if (code < ranges[c].start) {
r = c - 1;
} else {
l = c;
}
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}
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if (ranges[l].start <= code && code <= ranges[l].end) {
gid = (ranges[l].idDelta + (ranges[l].ids ?
ranges[l].ids[code - ranges[l].start] : code)) & 0xFFFF;
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}
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return {
charCode: code,
glyphId: gid,
};
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}
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function compileGlyf(code, cmds, font) {
function moveTo(x, y) {
cmds.push({cmd: 'moveTo', args: [x, y]});
}
function lineTo(x, y) {
cmds.push({cmd: 'lineTo', args: [x, y]});
}
function quadraticCurveTo(xa, ya, x, y) {
cmds.push({cmd: 'quadraticCurveTo', args: [xa, ya, x, y]});
}
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var i = 0;
var numberOfContours = ((code[i] << 24) | (code[i + 1] << 16)) >> 16;
var flags;
var x = 0, y = 0;
i += 10;
if (numberOfContours < 0) {
// composite glyph
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do {
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flags = (code[i] << 8) | code[i + 1];
var glyphIndex = (code[i + 2] << 8) | code[i + 3];
i += 4;
var arg1, arg2;
if ((flags & 0x01)) {
arg1 = ((code[i] << 24) | (code[i + 1] << 16)) >> 16;
arg2 = ((code[i + 2] << 24) | (code[i + 3] << 16)) >> 16;
i += 4;
} else {
arg1 = code[i++]; arg2 = code[i++];
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}
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if ((flags & 0x02)) {
x = arg1;
y = arg2;
} else {
x = 0; y = 0; // TODO "they are points" ?
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}
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var scaleX = 1, scaleY = 1, scale01 = 0, scale10 = 0;
if ((flags & 0x08)) {
scaleX =
scaleY = ((code[i] << 24) | (code[i + 1] << 16)) / 1073741824;
i += 2;
} else if ((flags & 0x40)) {
scaleX = ((code[i] << 24) | (code[i + 1] << 16)) / 1073741824;
scaleY = ((code[i + 2] << 24) | (code[i + 3] << 16)) / 1073741824;
i += 4;
} else if ((flags & 0x80)) {
scaleX = ((code[i] << 24) | (code[i + 1] << 16)) / 1073741824;
scale01 = ((code[i + 2] << 24) | (code[i + 3] << 16)) / 1073741824;
scale10 = ((code[i + 4] << 24) | (code[i + 5] << 16)) / 1073741824;
scaleY = ((code[i + 6] << 24) | (code[i + 7] << 16)) / 1073741824;
i += 8;
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}
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var subglyph = font.glyphs[glyphIndex];
if (subglyph) {
cmds.push({cmd: 'save'});
cmds.push({cmd: 'transform',
args: [scaleX, scale01, scale10, scaleY, x, y]});
compileGlyf(subglyph, cmds, font);
cmds.push({cmd: 'restore'});
}
} while ((flags & 0x20));
} else {
// simple glyph
var endPtsOfContours = [];
var j, jj;
for (j = 0; j < numberOfContours; j++) {
endPtsOfContours.push((code[i] << 8) | code[i + 1]);
i += 2;
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}
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var instructionLength = (code[i] << 8) | code[i + 1];
i += 2 + instructionLength; // skipping the instructions
var numberOfPoints = endPtsOfContours[endPtsOfContours.length - 1] + 1;
var points = [];
while (points.length < numberOfPoints) {
flags = code[i++];
var repeat = 1;
if ((flags & 0x08)) {
repeat += code[i++];
}
while (repeat-- > 0) {
points.push({flags: flags});
}
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}
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for (j = 0; j < numberOfPoints; j++) {
switch (points[j].flags & 0x12) {
case 0x00:
x += ((code[i] << 24) | (code[i + 1] << 16)) >> 16;
i += 2;
break;
case 0x02:
x -= code[i++];
break;
case 0x12:
x += code[i++];
break;
}
points[j].x = x;
}
for (j = 0; j < numberOfPoints; j++) {
switch (points[j].flags & 0x24) {
case 0x00:
y += ((code[i] << 24) | (code[i + 1] << 16)) >> 16;
i += 2;
break;
case 0x04:
y -= code[i++];
break;
case 0x24:
y += code[i++];
break;
}
points[j].y = y;
}
var startPoint = 0;
for (i = 0; i < numberOfContours; i++) {
var endPoint = endPtsOfContours[i];
// contours might have implicit points, which is located in the middle
// between two neighboring off-curve points
var contour = points.slice(startPoint, endPoint + 1);
if ((contour[0].flags & 1)) {
contour.push(contour[0]); // using start point at the contour end
} else if ((contour[contour.length - 1].flags & 1)) {
// first is off-curve point, trying to use one from the end
contour.unshift(contour[contour.length - 1]);
} else {
// start and end are off-curve points, creating implicit one
var p = {
flags: 1,
x: (contour[0].x + contour[contour.length - 1].x) / 2,
y: (contour[0].y + contour[contour.length - 1].y) / 2
};
contour.unshift(p);
contour.push(p);
}
moveTo(contour[0].x, contour[0].y);
for (j = 1, jj = contour.length; j < jj; j++) {
if ((contour[j].flags & 1)) {
lineTo(contour[j].x, contour[j].y);
} else if ((contour[j + 1].flags & 1)){
quadraticCurveTo(contour[j].x, contour[j].y,
contour[j + 1].x, contour[j + 1].y);
j++;
} else {
quadraticCurveTo(contour[j].x, contour[j].y,
(contour[j].x + contour[j + 1].x) / 2,
(contour[j].y + contour[j + 1].y) / 2);
}
}
startPoint = endPoint + 1;
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}
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}
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}
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function compileCharString(code, cmds, font) {
var stack = [];
var x = 0, y = 0;
var stems = 0;
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function moveTo(x, y) {
cmds.push({cmd: 'moveTo', args: [x, y]});
}
function lineTo(x, y) {
cmds.push({cmd: 'lineTo', args: [x, y]});
}
function bezierCurveTo(x1, y1, x2, y2, x, y) {
cmds.push({cmd: 'bezierCurveTo', args: [x1, y1, x2, y2, x, y]});
}
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function parse(code) {
var i = 0;
while (i < code.length) {
var stackClean = false;
var v = code[i++];
var xa, xb, ya, yb, y1, y2, y3, n, subrCode;
switch (v) {
case 1: // hstem
stems += stack.length >> 1;
stackClean = true;
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break;
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case 3: // vstem
stems += stack.length >> 1;
stackClean = true;
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break;
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case 4: // vmoveto
y += stack.pop();
moveTo(x, y);
stackClean = true;
break;
case 5: // rlineto
while (stack.length > 0) {
x += stack.shift();
y += stack.shift();
lineTo(x, y);
}
break;
case 6: // hlineto
while (stack.length > 0) {
x += stack.shift();
lineTo(x, y);
if (stack.length === 0) {
break;
}
y += stack.shift();
lineTo(x, y);
}
break;
case 7: // vlineto
while (stack.length > 0) {
y += stack.shift();
lineTo(x, y);
if (stack.length === 0) {
break;
}
x += stack.shift();
lineTo(x, y);
}
break;
case 8: // rrcurveto
while (stack.length > 0) {
xa = x + stack.shift(); ya = y + stack.shift();
xb = xa + stack.shift(); yb = ya + stack.shift();
x = xb + stack.shift(); y = yb + stack.shift();
bezierCurveTo(xa, ya, xb, yb, x, y);
}
break;
case 10: // callsubr
n = stack.pop() + font.subrsBias;
subrCode = font.subrs[n];
if (subrCode) {
parse(subrCode);
}
break;
case 11: // return
return;
case 12:
v = code[i++];
switch (v) {
case 34: // flex
xa = x + stack.shift();
xb = xa + stack.shift(); y1 = y + stack.shift();
x = xb + stack.shift();
bezierCurveTo(xa, y, xb, y1, x, y1);
xa = x + stack.shift();
xb = xa + stack.shift();
x = xb + stack.shift();
bezierCurveTo(xa, y1, xb, y, x, y);
break;
case 35: // flex
xa = x + stack.shift(); ya = y + stack.shift();
xb = xa + stack.shift(); yb = ya + stack.shift();
x = xb + stack.shift(); y = yb + stack.shift();
bezierCurveTo(xa, ya, xb, yb, x, y);
xa = x + stack.shift(); ya = y + stack.shift();
xb = xa + stack.shift(); yb = ya + stack.shift();
x = xb + stack.shift(); y = yb + stack.shift();
bezierCurveTo(xa, ya, xb, yb, x, y);
stack.pop(); // fd
break;
case 36: // hflex1
xa = x + stack.shift(); y1 = y + stack.shift();
xb = xa + stack.shift(); y2 = y1 + stack.shift();
x = xb + stack.shift();
bezierCurveTo(xa, y1, xb, y2, x, y2);
xa = x + stack.shift();
xb = xa + stack.shift(); y3 = y2 + stack.shift();
x = xb + stack.shift();
bezierCurveTo(xa, y2, xb, y3, x, y);
break;
case 37: // flex1
var x0 = x, y0 = y;
xa = x + stack.shift(); ya = y + stack.shift();
xb = xa + stack.shift(); yb = ya + stack.shift();
x = xb + stack.shift(); y = yb + stack.shift();
bezierCurveTo(xa, ya, xb, yb, x, y);
xa = x + stack.shift(); ya = y + stack.shift();
xb = xa + stack.shift(); yb = ya + stack.shift();
x = xb; y = yb;
if (Math.abs(x - x0) > Math.abs(y - y0)) {
x += stack.shift();
} else {
y += stack.shift();
}
bezierCurveTo(xa, ya, xb, yb, x, y);
break;
default:
error('unknown operator: 12 ' + v);
}
break;
case 14: // endchar
if (stack.length >= 4) {
var achar = stack.pop();
var bchar = stack.pop();
y = stack.pop();
x = stack.pop();
cmds.push({cmd: 'save'});
cmds.push({cmd: 'translate', args: [x, y]});
var cmap = lookupCmap(font.cmap, String.fromCharCode(
font.glyphNameMap[StandardEncoding[achar]]));
compileCharString(font.glyphs[cmap.glyphId], cmds, font);
cmds.push({cmd: 'restore'});
cmap = lookupCmap(font.cmap, String.fromCharCode(
font.glyphNameMap[StandardEncoding[bchar]]));
compileCharString(font.glyphs[cmap.glyphId], cmds, font);
}
return;
case 18: // hstemhm
stems += stack.length >> 1;
stackClean = true;
break;
case 19: // hintmask
stems += stack.length >> 1;
i += (stems + 7) >> 3;
stackClean = true;
break;
case 20: // cntrmask
stems += stack.length >> 1;
i += (stems + 7) >> 3;
stackClean = true;
break;
case 21: // rmoveto
y += stack.pop();
x += stack.pop();
moveTo(x, y);
stackClean = true;
break;
case 22: // hmoveto
x += stack.pop();
moveTo(x, y);
stackClean = true;
break;
case 23: // vstemhm
stems += stack.length >> 1;
stackClean = true;
break;
case 24: // rcurveline
while (stack.length > 2) {
xa = x + stack.shift(); ya = y + stack.shift();
xb = xa + stack.shift(); yb = ya + stack.shift();
x = xb + stack.shift(); y = yb + stack.shift();
bezierCurveTo(xa, ya, xb, yb, x, y);
}
x += stack.shift();
y += stack.shift();
lineTo(x, y);
break;
case 25: // rlinecurve
while (stack.length > 6) {
x += stack.shift();
y += stack.shift();
lineTo(x, y);
}
xa = x + stack.shift(); ya = y + stack.shift();
xb = xa + stack.shift(); yb = ya + stack.shift();
x = xb + stack.shift(); y = yb + stack.shift();
bezierCurveTo(xa, ya, xb, yb, x, y);
break;
case 26: // vvcurveto
if (stack.length % 2) {
x += stack.shift();
}
while (stack.length > 0) {
xa = x; ya = y + stack.shift();
xb = xa + stack.shift(); yb = ya + stack.shift();
x = xb; y = yb + stack.shift();
bezierCurveTo(xa, ya, xb, yb, x, y);
}
break;
case 27: // hhcurveto
if (stack.length % 2) {
y += stack.shift();
}
while (stack.length > 0) {
xa = x + stack.shift(); ya = y;
xb = xa + stack.shift(); yb = ya + stack.shift();
x = xb + stack.shift(); y = yb;
bezierCurveTo(xa, ya, xb, yb, x, y);
}
break;
case 28:
stack.push(((code[i] << 24) | (code[i + 1] << 16)) >> 16);
i += 2;
break;
case 29: // callgsubr
n = stack.pop() + font.gsubrsBias;
subrCode = font.gsubrs[n];
if (subrCode) {
parse(subrCode);
}
break;
case 30: // vhcurveto
while (stack.length > 0) {
xa = x; ya = y + stack.shift();
xb = xa + stack.shift(); yb = ya + stack.shift();
x = xb + stack.shift();
y = yb + (stack.length === 1 ? stack.shift() : 0);
bezierCurveTo(xa, ya, xb, yb, x, y);
if (stack.length === 0) {
break;
}
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xa = x + stack.shift(); ya = y;
xb = xa + stack.shift(); yb = ya + stack.shift();
y = yb + stack.shift();
x = xb + (stack.length === 1 ? stack.shift() : 0);
bezierCurveTo(xa, ya, xb, yb, x, y);
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}
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break;
case 31: // hvcurveto
while (stack.length > 0) {
xa = x + stack.shift(); ya = y;
xb = xa + stack.shift(); yb = ya + stack.shift();
y = yb + stack.shift();
x = xb + (stack.length === 1 ? stack.shift() : 0);
bezierCurveTo(xa, ya, xb, yb, x, y);
if (stack.length === 0) {
break;
}
xa = x; ya = y + stack.shift();
xb = xa + stack.shift(); yb = ya + stack.shift();
x = xb + stack.shift();
y = yb + (stack.length === 1 ? stack.shift() : 0);
bezierCurveTo(xa, ya, xb, yb, x, y);
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}
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break;
default:
if (v < 32) {
error('unknown operator: ' + v);
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}
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if (v < 247) {
stack.push(v - 139);
} else if (v < 251) {
stack.push((v - 247) * 256 + code[i++] + 108);
} else if (v < 255) {
stack.push(-(v - 251) * 256 - code[i++] - 108);
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} else {
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stack.push(((code[i] << 24) | (code[i + 1] << 16) |
(code[i + 2] << 8) | code[i + 3]) / 65536);
i += 4;
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}
break;
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}
if (stackClean) {
stack.length = 0;
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}
}
}
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parse(code);
}
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var noop = '';
function CompiledFont(fontMatrix) {
this.compiledGlyphs = Object.create(null);
this.compiledCharCodeToGlyphId = Object.create(null);
this.fontMatrix = fontMatrix;
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}
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CompiledFont.prototype = {
getPathJs: function (unicode) {
var cmap = lookupCmap(this.cmap, unicode);
var fn = this.compiledGlyphs[cmap.glyphId];
if (!fn) {
fn = this.compileGlyph(this.glyphs[cmap.glyphId]);
this.compiledGlyphs[cmap.glyphId] = fn;
}
if (this.compiledCharCodeToGlyphId[cmap.charCode] === undefined) {
this.compiledCharCodeToGlyphId[cmap.charCode] = cmap.glyphId;
}
return fn;
},
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compileGlyph: function (code) {
if (!code || code.length === 0 || code[0] === 14) {
return noop;
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}
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var cmds = [];
cmds.push({cmd: 'save'});
cmds.push({cmd: 'transform', args: this.fontMatrix.slice()});
cmds.push({cmd: 'scale', args: ['size', '-size']});
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this.compileGlyphImpl(code, cmds);
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cmds.push({cmd: 'restore'});
return cmds;
},
compileGlyphImpl: function () {
error('Children classes should implement this.');
},
hasBuiltPath: function (unicode) {
var cmap = lookupCmap(this.cmap, unicode);
return (this.compiledGlyphs[cmap.glyphId] !== undefined &&
this.compiledCharCodeToGlyphId[cmap.charCode] !== undefined);
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}
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};
function TrueTypeCompiled(glyphs, cmap, fontMatrix) {
fontMatrix = fontMatrix || [0.000488, 0, 0, 0.000488, 0, 0];
CompiledFont.call(this, fontMatrix);
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this.glyphs = glyphs;
this.cmap = cmap;
}
Util.inherit(TrueTypeCompiled, CompiledFont, {
compileGlyphImpl: function (code, cmds) {
compileGlyf(code, cmds, this);
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}
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});
function Type2Compiled(cffInfo, cmap, fontMatrix, glyphNameMap) {
fontMatrix = fontMatrix || [0.001, 0, 0, 0.001, 0, 0];
CompiledFont.call(this, fontMatrix);
this.glyphs = cffInfo.glyphs;
this.gsubrs = cffInfo.gsubrs || [];
this.subrs = cffInfo.subrs || [];
this.cmap = cmap;
this.glyphNameMap = glyphNameMap || getGlyphsUnicode();
this.gsubrsBias = (this.gsubrs.length < 1240 ?
107 : (this.gsubrs.length < 33900 ? 1131 : 32768));
this.subrsBias = (this.subrs.length < 1240 ?
107 : (this.subrs.length < 33900 ? 1131 : 32768));
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}
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Util.inherit(Type2Compiled, CompiledFont, {
compileGlyphImpl: function (code, cmds) {
compileCharString(code, cmds, this);
}
});
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return {
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create: function FontRendererFactory_create(font, seacAnalysisEnabled) {
var data = new Uint8Array(font.data);
var cmap, glyf, loca, cff, indexToLocFormat, unitsPerEm;
var numTables = getUshort(data, 4);
for (var i = 0, p = 12; i < numTables; i++, p += 16) {
var tag = bytesToString(data.subarray(p, p + 4));
var offset = getLong(data, p + 8);
var length = getLong(data, p + 12);
switch (tag) {
case 'cmap':
cmap = parseCmap(data, offset, offset + length);
break;
case 'glyf':
glyf = data.subarray(offset, offset + length);
break;
case 'loca':
loca = data.subarray(offset, offset + length);
break;
case 'head':
unitsPerEm = getUshort(data, offset + 18);
indexToLocFormat = getUshort(data, offset + 50);
break;
case 'CFF ':
cff = parseCff(data, offset, offset + length, seacAnalysisEnabled);
break;
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}
}
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if (glyf) {
var fontMatrix = (!unitsPerEm ? font.fontMatrix :
[1 / unitsPerEm, 0, 0, 1 / unitsPerEm, 0, 0]);
return new TrueTypeCompiled(
parseGlyfTable(glyf, loca, indexToLocFormat), cmap, fontMatrix);
} else {
return new Type2Compiled(cff, cmap, font.fontMatrix, font.glyphNameMap);
}
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}
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};
})();
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exports.FontRendererFactory = FontRendererFactory;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreParser = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreStream);
}
}(this, function (exports, sharedUtil, corePrimitives, coreStream) {
var MissingDataException = sharedUtil.MissingDataException;
var StreamType = sharedUtil.StreamType;
var assert = sharedUtil.assert;
var error = sharedUtil.error;
var info = sharedUtil.info;
var isArray = sharedUtil.isArray;
var isInt = sharedUtil.isInt;
var isNum = sharedUtil.isNum;
var isString = sharedUtil.isString;
var warn = sharedUtil.warn;
var Cmd = corePrimitives.Cmd;
var Dict = corePrimitives.Dict;
var Name = corePrimitives.Name;
var Ref = corePrimitives.Ref;
var isCmd = corePrimitives.isCmd;
var isDict = corePrimitives.isDict;
var isName = corePrimitives.isName;
var Ascii85Stream = coreStream.Ascii85Stream;
var AsciiHexStream = coreStream.AsciiHexStream;
var CCITTFaxStream = coreStream.CCITTFaxStream;
var FlateStream = coreStream.FlateStream;
var Jbig2Stream = coreStream.Jbig2Stream;
var JpegStream = coreStream.JpegStream;
var JpxStream = coreStream.JpxStream;
var LZWStream = coreStream.LZWStream;
var NullStream = coreStream.NullStream;
var PredictorStream = coreStream.PredictorStream;
var RunLengthStream = coreStream.RunLengthStream;
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var EOF = {};
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function isEOF(v) {
return (v === EOF);
}
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var MAX_LENGTH_TO_CACHE = 1000;
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var Parser = (function ParserClosure() {
function Parser(lexer, allowStreams, xref) {
this.lexer = lexer;
this.allowStreams = allowStreams;
this.xref = xref;
this.imageCache = Object.create(null);
this.refill();
}
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Parser.prototype = {
refill: function Parser_refill() {
this.buf1 = this.lexer.getObj();
this.buf2 = this.lexer.getObj();
},
shift: function Parser_shift() {
if (isCmd(this.buf2, 'ID')) {
this.buf1 = this.buf2;
this.buf2 = null;
} else {
this.buf1 = this.buf2;
this.buf2 = this.lexer.getObj();
}
},
tryShift: function Parser_tryShift() {
try {
this.shift();
return true;
} catch (e) {
if (e instanceof MissingDataException) {
throw e;
}
// Upon failure, the caller should reset this.lexer.pos to a known good
// state and call this.shift() twice to reset the buffers.
return false;
}
},
getObj: function Parser_getObj(cipherTransform) {
var buf1 = this.buf1;
this.shift();
if (buf1 instanceof Cmd) {
switch (buf1.cmd) {
case 'BI': // inline image
return this.makeInlineImage(cipherTransform);
case '[': // array
var array = [];
while (!isCmd(this.buf1, ']') && !isEOF(this.buf1)) {
array.push(this.getObj(cipherTransform));
}
if (isEOF(this.buf1)) {
error('End of file inside array');
}
this.shift();
return array;
case '<<': // dictionary or stream
var dict = new Dict(this.xref);
while (!isCmd(this.buf1, '>>') && !isEOF(this.buf1)) {
if (!isName(this.buf1)) {
info('Malformed dictionary: key must be a name object');
this.shift();
continue;
}
var key = this.buf1.name;
this.shift();
if (isEOF(this.buf1)) {
break;
}
dict.set(key, this.getObj(cipherTransform));
}
if (isEOF(this.buf1)) {
error('End of file inside dictionary');
}
// Stream objects are not allowed inside content streams or
// object streams.
if (isCmd(this.buf2, 'stream')) {
return (this.allowStreams ?
this.makeStream(dict, cipherTransform) : dict);
}
this.shift();
return dict;
default: // simple object
return buf1;
}
}
if (isInt(buf1)) { // indirect reference or integer
var num = buf1;
if (isInt(this.buf1) && isCmd(this.buf2, 'R')) {
var ref = new Ref(num, this.buf1);
this.shift();
this.shift();
return ref;
}
return num;
}
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if (isString(buf1)) { // string
var str = buf1;
if (cipherTransform) {
str = cipherTransform.decryptString(str);
}
return str;
}
// simple object
return buf1;
},
/**
* Find the end of the stream by searching for the /EI\s/.
* @returns {number} The inline stream length.
*/
findDefaultInlineStreamEnd:
function Parser_findDefaultInlineStreamEnd(stream) {
var E = 0x45, I = 0x49, SPACE = 0x20, LF = 0xA, CR = 0xD;
var startPos = stream.pos, state = 0, ch, i, n, followingBytes;
while ((ch = stream.getByte()) !== -1) {
if (state === 0) {
state = (ch === E) ? 1 : 0;
} else if (state === 1) {
state = (ch === I) ? 2 : 0;
} else {
assert(state === 2);
if (ch === SPACE || ch === LF || ch === CR) {
// Let's check the next five bytes are ASCII... just be sure.
n = 5;
followingBytes = stream.peekBytes(n);
for (i = 0; i < n; i++) {
ch = followingBytes[i];
if (ch !== LF && ch !== CR && (ch < SPACE || ch > 0x7F)) {
// Not a LF, CR, SPACE or any visible ASCII character, i.e.
// it's binary stuff. Resetting the state.
state = 0;
break;
}
}
if (state === 2) {
break; // Finished!
}
} else {
state = 0;
}
}
}
return ((stream.pos - 4) - startPos);
},
/**
* Find the EOI (end-of-image) marker 0xFFD9 of the stream.
* @returns {number} The inline stream length.
*/
findDCTDecodeInlineStreamEnd:
function Parser_findDCTDecodeInlineStreamEnd(stream) {
var startPos = stream.pos, foundEOI = false, b, markerLength, length;
while ((b = stream.getByte()) !== -1) {
if (b !== 0xFF) { // Not a valid marker.
continue;
}
switch (stream.getByte()) {
case 0x00: // Byte stuffing.
// 0xFF00 appears to be a very common byte sequence in JPEG images.
break;
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case 0xFF: // Fill byte.
// Avoid skipping a valid marker, resetting the stream position.
stream.skip(-1);
break;
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case 0xD9: // EOI
foundEOI = true;
break;
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case 0xC0: // SOF0
case 0xC1: // SOF1
case 0xC2: // SOF2
case 0xC3: // SOF3
case 0xC5: // SOF5
case 0xC6: // SOF6
case 0xC7: // SOF7
case 0xC9: // SOF9
case 0xCA: // SOF10
case 0xCB: // SOF11
case 0xCD: // SOF13
case 0xCE: // SOF14
case 0xCF: // SOF15
case 0xC4: // DHT
case 0xCC: // DAC
case 0xDA: // SOS
case 0xDB: // DQT
case 0xDC: // DNL
case 0xDD: // DRI
case 0xDE: // DHP
case 0xDF: // EXP
case 0xE0: // APP0
case 0xE1: // APP1
case 0xE2: // APP2
case 0xE3: // APP3
case 0xE4: // APP4
case 0xE5: // APP5
case 0xE6: // APP6
case 0xE7: // APP7
case 0xE8: // APP8
case 0xE9: // APP9
case 0xEA: // APP10
case 0xEB: // APP11
case 0xEC: // APP12
case 0xED: // APP13
case 0xEE: // APP14
case 0xEF: // APP15
case 0xFE: // COM
// The marker should be followed by the length of the segment.
markerLength = stream.getUint16();
if (markerLength > 2) {
// |markerLength| contains the byte length of the marker segment,
// including its own length (2 bytes) and excluding the marker.
stream.skip(markerLength - 2); // Jump to the next marker.
} else {
// The marker length is invalid, resetting the stream position.
stream.skip(-2);
}
break;
}
if (foundEOI) {
break;
}
}
length = stream.pos - startPos;
if (b === -1) {
warn('Inline DCTDecode image stream: ' +
'EOI marker not found, searching for /EI/ instead.');
stream.skip(-length); // Reset the stream position.
return this.findDefaultInlineStreamEnd(stream);
}
this.inlineStreamSkipEI(stream);
return length;
},
/**
* Find the EOD (end-of-data) marker '~>' (i.e. TILDE + GT) of the stream.
* @returns {number} The inline stream length.
*/
findASCII85DecodeInlineStreamEnd:
function Parser_findASCII85DecodeInlineStreamEnd(stream) {
var TILDE = 0x7E, GT = 0x3E;
var startPos = stream.pos, ch, length;
while ((ch = stream.getByte()) !== -1) {
if (ch === TILDE && stream.peekByte() === GT) {
stream.skip();
break;
}
}
length = stream.pos - startPos;
if (ch === -1) {
warn('Inline ASCII85Decode image stream: ' +
'EOD marker not found, searching for /EI/ instead.');
stream.skip(-length); // Reset the stream position.
return this.findDefaultInlineStreamEnd(stream);
}
this.inlineStreamSkipEI(stream);
return length;
},
/**
* Find the EOD (end-of-data) marker '>' (i.e. GT) of the stream.
* @returns {number} The inline stream length.
*/
findASCIIHexDecodeInlineStreamEnd:
function Parser_findASCIIHexDecodeInlineStreamEnd(stream) {
var GT = 0x3E;
var startPos = stream.pos, ch, length;
while ((ch = stream.getByte()) !== -1) {
if (ch === GT) {
break;
}
}
length = stream.pos - startPos;
if (ch === -1) {
warn('Inline ASCIIHexDecode image stream: ' +
'EOD marker not found, searching for /EI/ instead.');
stream.skip(-length); // Reset the stream position.
return this.findDefaultInlineStreamEnd(stream);
}
this.inlineStreamSkipEI(stream);
return length;
},
/**
* Skip over the /EI/ for streams where we search for an EOD marker.
*/
inlineStreamSkipEI: function Parser_inlineStreamSkipEI(stream) {
var E = 0x45, I = 0x49;
var state = 0, ch;
while ((ch = stream.getByte()) !== -1) {
if (state === 0) {
state = (ch === E) ? 1 : 0;
} else if (state === 1) {
state = (ch === I) ? 2 : 0;
} else if (state === 2) {
break;
}
}
},
makeInlineImage: function Parser_makeInlineImage(cipherTransform) {
var lexer = this.lexer;
var stream = lexer.stream;
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// Parse dictionary.
var dict = new Dict(this.xref);
while (!isCmd(this.buf1, 'ID') && !isEOF(this.buf1)) {
if (!isName(this.buf1)) {
error('Dictionary key must be a name object');
}
var key = this.buf1.name;
this.shift();
if (isEOF(this.buf1)) {
break;
}
dict.set(key, this.getObj(cipherTransform));
}
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// Extract the name of the first (i.e. the current) image filter.
var filter = dict.get('Filter', 'F'), filterName;
if (isName(filter)) {
filterName = filter.name;
} else if (isArray(filter) && isName(filter[0])) {
filterName = filter[0].name;
}
// Parse image stream.
var startPos = stream.pos, length, i, ii;
if (filterName === 'DCTDecode' || filterName === 'DCT') {
length = this.findDCTDecodeInlineStreamEnd(stream);
} else if (filterName === 'ASCII85Decide' || filterName === 'A85') {
length = this.findASCII85DecodeInlineStreamEnd(stream);
} else if (filterName === 'ASCIIHexDecode' || filterName === 'AHx') {
length = this.findASCIIHexDecodeInlineStreamEnd(stream);
} else {
length = this.findDefaultInlineStreamEnd(stream);
}
var imageStream = stream.makeSubStream(startPos, length, dict);
// Cache all images below the MAX_LENGTH_TO_CACHE threshold by their
// adler32 checksum.
var adler32;
if (length < MAX_LENGTH_TO_CACHE) {
var imageBytes = imageStream.getBytes();
imageStream.reset();
var a = 1;
var b = 0;
for (i = 0, ii = imageBytes.length; i < ii; ++i) {
// No modulo required in the loop if imageBytes.length < 5552.
a += imageBytes[i] & 0xff;
b += a;
}
adler32 = ((b % 65521) << 16) | (a % 65521);
if (this.imageCache.adler32 === adler32) {
this.buf2 = Cmd.get('EI');
this.shift();
this.imageCache[adler32].reset();
return this.imageCache[adler32];
}
}
if (cipherTransform) {
imageStream = cipherTransform.createStream(imageStream, length);
}
imageStream = this.filter(imageStream, dict, length);
imageStream.dict = dict;
if (adler32 !== undefined) {
imageStream.cacheKey = 'inline_' + length + '_' + adler32;
this.imageCache[adler32] = imageStream;
}
this.buf2 = Cmd.get('EI');
this.shift();
return imageStream;
},
makeStream: function Parser_makeStream(dict, cipherTransform) {
var lexer = this.lexer;
var stream = lexer.stream;
// get stream start position
lexer.skipToNextLine();
var pos = stream.pos - 1;
// get length
var length = dict.get('Length');
if (!isInt(length)) {
info('Bad ' + length + ' attribute in stream');
length = 0;
}
// skip over the stream data
stream.pos = pos + length;
lexer.nextChar();
// Shift '>>' and check whether the new object marks the end of the stream
if (this.tryShift() && isCmd(this.buf2, 'endstream')) {
this.shift(); // 'stream'
} else {
// bad stream length, scanning for endstream
stream.pos = pos;
var SCAN_BLOCK_SIZE = 2048;
var ENDSTREAM_SIGNATURE_LENGTH = 9;
var ENDSTREAM_SIGNATURE = [0x65, 0x6E, 0x64, 0x73, 0x74, 0x72, 0x65,
0x61, 0x6D];
var skipped = 0, found = false, i, j;
while (stream.pos < stream.end) {
var scanBytes = stream.peekBytes(SCAN_BLOCK_SIZE);
var scanLength = scanBytes.length - ENDSTREAM_SIGNATURE_LENGTH;
if (scanLength <= 0) {
break;
}
found = false;
i = 0;
while (i < scanLength) {
j = 0;
while (j < ENDSTREAM_SIGNATURE_LENGTH &&
scanBytes[i + j] === ENDSTREAM_SIGNATURE[j]) {
j++;
}
if (j >= ENDSTREAM_SIGNATURE_LENGTH) {
found = true;
break;
}
i++;
}
if (found) {
skipped += i;
stream.pos += i;
break;
}
skipped += scanLength;
stream.pos += scanLength;
}
if (!found) {
error('Missing endstream');
}
length = skipped;
lexer.nextChar();
this.shift();
this.shift();
}
this.shift(); // 'endstream'
stream = stream.makeSubStream(pos, length, dict);
if (cipherTransform) {
stream = cipherTransform.createStream(stream, length);
}
stream = this.filter(stream, dict, length);
stream.dict = dict;
return stream;
},
filter: function Parser_filter(stream, dict, length) {
var filter = dict.get('Filter', 'F');
var params = dict.get('DecodeParms', 'DP');
if (isName(filter)) {
return this.makeFilter(stream, filter.name, length, params);
}
var maybeLength = length;
if (isArray(filter)) {
var filterArray = filter;
var paramsArray = params;
for (var i = 0, ii = filterArray.length; i < ii; ++i) {
filter = filterArray[i];
if (!isName(filter)) {
error('Bad filter name: ' + filter);
}
params = null;
if (isArray(paramsArray) && (i in paramsArray)) {
params = paramsArray[i];
}
stream = this.makeFilter(stream, filter.name, maybeLength, params);
// after the first stream the length variable is invalid
maybeLength = null;
}
}
return stream;
},
makeFilter: function Parser_makeFilter(stream, name, maybeLength, params) {
if (stream.dict.get('Length') === 0 && !maybeLength) {
warn('Empty "' + name + '" stream.');
return new NullStream(stream);
}
try {
if (params && this.xref) {
params = this.xref.fetchIfRef(params);
}
var xrefStreamStats = this.xref.stats.streamTypes;
if (name === 'FlateDecode' || name === 'Fl') {
xrefStreamStats[StreamType.FLATE] = true;
if (params) {
return new PredictorStream(new FlateStream(stream, maybeLength),
maybeLength, params);
}
return new FlateStream(stream, maybeLength);
}
if (name === 'LZWDecode' || name === 'LZW') {
xrefStreamStats[StreamType.LZW] = true;
var earlyChange = 1;
if (params) {
if (params.has('EarlyChange')) {
earlyChange = params.get('EarlyChange');
}
return new PredictorStream(
new LZWStream(stream, maybeLength, earlyChange),
maybeLength, params);
}
return new LZWStream(stream, maybeLength, earlyChange);
}
if (name === 'DCTDecode' || name === 'DCT') {
xrefStreamStats[StreamType.DCT] = true;
return new JpegStream(stream, maybeLength, stream.dict, this.xref);
}
if (name === 'JPXDecode' || name === 'JPX') {
xrefStreamStats[StreamType.JPX] = true;
return new JpxStream(stream, maybeLength, stream.dict);
}
if (name === 'ASCII85Decode' || name === 'A85') {
xrefStreamStats[StreamType.A85] = true;
return new Ascii85Stream(stream, maybeLength);
}
if (name === 'ASCIIHexDecode' || name === 'AHx') {
xrefStreamStats[StreamType.AHX] = true;
return new AsciiHexStream(stream, maybeLength);
}
if (name === 'CCITTFaxDecode' || name === 'CCF') {
xrefStreamStats[StreamType.CCF] = true;
return new CCITTFaxStream(stream, maybeLength, params);
}
if (name === 'RunLengthDecode' || name === 'RL') {
xrefStreamStats[StreamType.RL] = true;
return new RunLengthStream(stream, maybeLength);
}
if (name === 'JBIG2Decode') {
xrefStreamStats[StreamType.JBIG] = true;
return new Jbig2Stream(stream, maybeLength, stream.dict);
}
warn('filter "' + name + '" not supported yet');
return stream;
} catch (ex) {
if (ex instanceof MissingDataException) {
throw ex;
}
warn('Invalid stream: \"' + ex + '\"');
return new NullStream(stream);
}
}
};
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return Parser;
})();
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var Lexer = (function LexerClosure() {
function Lexer(stream, knownCommands) {
this.stream = stream;
this.nextChar();
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// While lexing, we build up many strings one char at a time. Using += for
// this can result in lots of garbage strings. It's better to build an
// array of single-char strings and then join() them together at the end.
// And reusing a single array (i.e. |this.strBuf|) over and over for this
// purpose uses less memory than using a new array for each string.
this.strBuf = [];
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// The PDFs might have "glued" commands with other commands, operands or
// literals, e.g. "q1". The knownCommands is a dictionary of the valid
// commands and their prefixes. The prefixes are built the following way:
// if there a command that is a prefix of the other valid command or
// literal (e.g. 'f' and 'false') the following prefixes must be included,
// 'fa', 'fal', 'fals'. The prefixes are not needed, if the command has no
// other commands or literals as a prefix. The knowCommands is optional.
this.knownCommands = knownCommands;
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}
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Lexer.isSpace = function Lexer_isSpace(ch) {
// Space is one of the following characters: SPACE, TAB, CR or LF.
return (ch === 0x20 || ch === 0x09 || ch === 0x0D || ch === 0x0A);
};
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// A '1' in this array means the character is white space. A '1' or
// '2' means the character ends a name or command.
var specialChars = [
1, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 1, 1, 0, 0, // 0x
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 1x
1, 0, 0, 0, 0, 2, 0, 0, 2, 2, 0, 0, 0, 0, 0, 2, // 2x
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 0, 2, 0, // 3x
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 4x
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 0, 2, 0, 0, // 5x
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 6x
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 0, 2, 0, 0, // 7x
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 8x
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 9x
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // ax
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // bx
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // cx
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // dx
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // ex
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 // fx
];
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function toHexDigit(ch) {
if (ch >= 0x30 && ch <= 0x39) { // '0'-'9'
return ch & 0x0F;
}
if ((ch >= 0x41 && ch <= 0x46) || (ch >= 0x61 && ch <= 0x66)) {
// 'A'-'F', 'a'-'f'
return (ch & 0x0F) + 9;
}
return -1;
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}
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Lexer.prototype = {
nextChar: function Lexer_nextChar() {
return (this.currentChar = this.stream.getByte());
},
peekChar: function Lexer_peekChar() {
return this.stream.peekByte();
},
getNumber: function Lexer_getNumber() {
var ch = this.currentChar;
var eNotation = false;
var divideBy = 0; // different from 0 if it's a floating point value
var sign = 1;
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if (ch === 0x2D) { // '-'
sign = -1;
ch = this.nextChar();
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if (ch === 0x2D) { // '-'
// Ignore double negative (this is consistent with Adobe Reader).
ch = this.nextChar();
}
} else if (ch === 0x2B) { // '+'
ch = this.nextChar();
}
if (ch === 0x2E) { // '.'
divideBy = 10;
ch = this.nextChar();
}
if (ch < 0x30 || ch > 0x39) { // '0' - '9'
error('Invalid number: ' + String.fromCharCode(ch));
return 0;
}
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var baseValue = ch - 0x30; // '0'
var powerValue = 0;
var powerValueSign = 1;
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while ((ch = this.nextChar()) >= 0) {
if (0x30 <= ch && ch <= 0x39) { // '0' - '9'
var currentDigit = ch - 0x30; // '0'
if (eNotation) { // We are after an 'e' or 'E'
powerValue = powerValue * 10 + currentDigit;
} else {
if (divideBy !== 0) { // We are after a point
divideBy *= 10;
}
baseValue = baseValue * 10 + currentDigit;
}
} else if (ch === 0x2E) { // '.'
if (divideBy === 0) {
divideBy = 1;
} else {
// A number can have only one '.'
break;
}
} else if (ch === 0x2D) { // '-'
// ignore minus signs in the middle of numbers to match
// Adobe's behavior
warn('Badly formated number');
} else if (ch === 0x45 || ch === 0x65) { // 'E', 'e'
// 'E' can be either a scientific notation or the beginning of a new
// operator
ch = this.peekChar();
if (ch === 0x2B || ch === 0x2D) { // '+', '-'
powerValueSign = (ch === 0x2D) ? -1 : 1;
this.nextChar(); // Consume the sign character
} else if (ch < 0x30 || ch > 0x39) { // '0' - '9'
// The 'E' must be the beginning of a new operator
break;
}
eNotation = true;
} else {
// the last character doesn't belong to us
break;
}
}
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if (divideBy !== 0) {
baseValue /= divideBy;
}
if (eNotation) {
baseValue *= Math.pow(10, powerValueSign * powerValue);
}
return sign * baseValue;
},
getString: function Lexer_getString() {
var numParen = 1;
var done = false;
var strBuf = this.strBuf;
strBuf.length = 0;
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var ch = this.nextChar();
while (true) {
var charBuffered = false;
switch (ch | 0) {
case -1:
warn('Unterminated string');
done = true;
break;
case 0x28: // '('
++numParen;
strBuf.push('(');
break;
case 0x29: // ')'
if (--numParen === 0) {
this.nextChar(); // consume strings ')'
done = true;
} else {
strBuf.push(')');
}
break;
case 0x5C: // '\\'
ch = this.nextChar();
switch (ch) {
case -1:
warn('Unterminated string');
done = true;
break;
case 0x6E: // 'n'
strBuf.push('\n');
break;
case 0x72: // 'r'
strBuf.push('\r');
break;
case 0x74: // 't'
strBuf.push('\t');
break;
case 0x62: // 'b'
strBuf.push('\b');
break;
case 0x66: // 'f'
strBuf.push('\f');
break;
case 0x5C: // '\'
case 0x28: // '('
case 0x29: // ')'
strBuf.push(String.fromCharCode(ch));
break;
case 0x30: case 0x31: case 0x32: case 0x33: // '0'-'3'
case 0x34: case 0x35: case 0x36: case 0x37: // '4'-'7'
var x = ch & 0x0F;
ch = this.nextChar();
charBuffered = true;
if (ch >= 0x30 && ch <= 0x37) { // '0'-'7'
x = (x << 3) + (ch & 0x0F);
ch = this.nextChar();
if (ch >= 0x30 && ch <= 0x37) { // '0'-'7'
charBuffered = false;
x = (x << 3) + (ch & 0x0F);
}
}
strBuf.push(String.fromCharCode(x));
break;
case 0x0D: // CR
if (this.peekChar() === 0x0A) { // LF
this.nextChar();
}
break;
case 0x0A: // LF
break;
default:
strBuf.push(String.fromCharCode(ch));
break;
}
break;
default:
strBuf.push(String.fromCharCode(ch));
break;
}
if (done) {
break;
}
if (!charBuffered) {
ch = this.nextChar();
}
}
return strBuf.join('');
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},
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getName: function Lexer_getName() {
var ch, previousCh;
var strBuf = this.strBuf;
strBuf.length = 0;
while ((ch = this.nextChar()) >= 0 && !specialChars[ch]) {
if (ch === 0x23) { // '#'
ch = this.nextChar();
if (specialChars[ch]) {
warn('Lexer_getName: ' +
'NUMBER SIGN (#) should be followed by a hexadecimal number.');
strBuf.push('#');
break;
}
var x = toHexDigit(ch);
if (x !== -1) {
previousCh = ch;
ch = this.nextChar();
var x2 = toHexDigit(ch);
if (x2 === -1) {
warn('Lexer_getName: Illegal digit (' +
String.fromCharCode(ch) +') in hexadecimal number.');
strBuf.push('#', String.fromCharCode(previousCh));
if (specialChars[ch]) {
break;
}
strBuf.push(String.fromCharCode(ch));
continue;
}
strBuf.push(String.fromCharCode((x << 4) | x2));
} else {
strBuf.push('#', String.fromCharCode(ch));
}
} else {
strBuf.push(String.fromCharCode(ch));
}
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}
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if (strBuf.length > 127) {
warn('name token is longer than allowed by the spec: ' + strBuf.length);
}
return Name.get(strBuf.join(''));
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},
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getHexString: function Lexer_getHexString() {
var strBuf = this.strBuf;
strBuf.length = 0;
var ch = this.currentChar;
var isFirstHex = true;
var firstDigit;
var secondDigit;
while (true) {
if (ch < 0) {
warn('Unterminated hex string');
break;
} else if (ch === 0x3E) { // '>'
this.nextChar();
break;
} else if (specialChars[ch] === 1) {
ch = this.nextChar();
continue;
} else {
if (isFirstHex) {
firstDigit = toHexDigit(ch);
if (firstDigit === -1) {
warn('Ignoring invalid character "' + ch + '" in hex string');
ch = this.nextChar();
continue;
}
} else {
secondDigit = toHexDigit(ch);
if (secondDigit === -1) {
warn('Ignoring invalid character "' + ch + '" in hex string');
ch = this.nextChar();
continue;
}
strBuf.push(String.fromCharCode((firstDigit << 4) | secondDigit));
}
isFirstHex = !isFirstHex;
ch = this.nextChar();
}
}
return strBuf.join('');
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},
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getObj: function Lexer_getObj() {
// skip whitespace and comments
var comment = false;
var ch = this.currentChar;
while (true) {
if (ch < 0) {
return EOF;
}
if (comment) {
if (ch === 0x0A || ch === 0x0D) { // LF, CR
comment = false;
}
} else if (ch === 0x25) { // '%'
comment = true;
} else if (specialChars[ch] !== 1) {
break;
}
ch = this.nextChar();
}
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// start reading token
switch (ch | 0) {
case 0x30: case 0x31: case 0x32: case 0x33: case 0x34: // '0'-'4'
case 0x35: case 0x36: case 0x37: case 0x38: case 0x39: // '5'-'9'
case 0x2B: case 0x2D: case 0x2E: // '+', '-', '.'
return this.getNumber();
case 0x28: // '('
return this.getString();
case 0x2F: // '/'
return this.getName();
// array punctuation
case 0x5B: // '['
this.nextChar();
return Cmd.get('[');
case 0x5D: // ']'
this.nextChar();
return Cmd.get(']');
// hex string or dict punctuation
case 0x3C: // '<'
ch = this.nextChar();
if (ch === 0x3C) {
// dict punctuation
this.nextChar();
return Cmd.get('<<');
}
return this.getHexString();
// dict punctuation
case 0x3E: // '>'
ch = this.nextChar();
if (ch === 0x3E) {
this.nextChar();
return Cmd.get('>>');
}
return Cmd.get('>');
case 0x7B: // '{'
this.nextChar();
return Cmd.get('{');
case 0x7D: // '}'
this.nextChar();
return Cmd.get('}');
case 0x29: // ')'
error('Illegal character: ' + ch);
break;
}
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// command
var str = String.fromCharCode(ch);
var knownCommands = this.knownCommands;
var knownCommandFound = knownCommands && knownCommands[str] !== undefined;
while ((ch = this.nextChar()) >= 0 && !specialChars[ch]) {
// stop if known command is found and next character does not make
// the str a command
var possibleCommand = str + String.fromCharCode(ch);
if (knownCommandFound && knownCommands[possibleCommand] === undefined) {
break;
}
if (str.length === 128) {
error('Command token too long: ' + str.length);
}
str = possibleCommand;
knownCommandFound = knownCommands && knownCommands[str] !== undefined;
}
if (str === 'true') {
return true;
}
if (str === 'false') {
return false;
}
if (str === 'null') {
return null;
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}
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return Cmd.get(str);
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},
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skipToNextLine: function Lexer_skipToNextLine() {
var ch = this.currentChar;
while (ch >= 0) {
if (ch === 0x0D) { // CR
ch = this.nextChar();
if (ch === 0x0A) { // LF
this.nextChar();
}
break;
} else if (ch === 0x0A) { // LF
this.nextChar();
break;
}
ch = this.nextChar();
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}
}
};
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return Lexer;
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})();
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var Linearization = {
create: function LinearizationCreate(stream) {
function getInt(name, allowZeroValue) {
var obj = linDict.get(name);
if (isInt(obj) && (allowZeroValue ? obj >= 0 : obj > 0)) {
return obj;
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}
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throw new Error('The "' + name + '" parameter in the linearization ' +
'dictionary is invalid.');
}
function getHints() {
var hints = linDict.get('H'), hintsLength, item;
if (isArray(hints) &&
((hintsLength = hints.length) === 2 || hintsLength === 4)) {
for (var index = 0; index < hintsLength; index++) {
if (!(isInt(item = hints[index]) && item > 0)) {
throw new Error('Hint (' + index +
') in the linearization dictionary is invalid.');
}
}
return hints;
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}
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throw new Error('Hint array in the linearization dictionary is invalid.');
}
var parser = new Parser(new Lexer(stream), false, null);
var obj1 = parser.getObj();
var obj2 = parser.getObj();
var obj3 = parser.getObj();
var linDict = parser.getObj();
var obj, length;
if (!(isInt(obj1) && isInt(obj2) && isCmd(obj3, 'obj') && isDict(linDict) &&
isNum(obj = linDict.get('Linearized')) && obj > 0)) {
return null; // No valid linearization dictionary found.
} else if ((length = getInt('L')) !== stream.length) {
throw new Error('The "L" parameter in the linearization dictionary ' +
'does not equal the stream length.');
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}
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return {
length: length,
hints: getHints(),
objectNumberFirst: getInt('O'),
endFirst: getInt('E'),
numPages: getInt('N'),
mainXRefEntriesOffset: getInt('T'),
pageFirst: (linDict.has('P') ? getInt('P', true) : 0)
};
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}
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};
exports.EOF = EOF;
exports.Lexer = Lexer;
exports.Linearization = Linearization;
exports.Parser = Parser;
exports.isEOF = isEOF;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreCMap = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreStream, root.pdfjsCoreParser);
}
}(this, function (exports, sharedUtil, corePrimitives, coreStream, coreParser) {
var Util = sharedUtil.Util;
var assert = sharedUtil.assert;
var error = sharedUtil.error;
var isInt = sharedUtil.isInt;
var isString = sharedUtil.isString;
var isName = corePrimitives.isName;
var isCmd = corePrimitives.isCmd;
var isStream = corePrimitives.isStream;
var StringStream = coreStream.StringStream;
var Lexer = coreParser.Lexer;
var isEOF = coreParser.isEOF;
var BUILT_IN_CMAPS = [
// << Start unicode maps.
'Adobe-GB1-UCS2',
'Adobe-CNS1-UCS2',
'Adobe-Japan1-UCS2',
'Adobe-Korea1-UCS2',
// >> End unicode maps.
'78-EUC-H',
'78-EUC-V',
'78-H',
'78-RKSJ-H',
'78-RKSJ-V',
'78-V',
'78ms-RKSJ-H',
'78ms-RKSJ-V',
'83pv-RKSJ-H',
'90ms-RKSJ-H',
'90ms-RKSJ-V',
'90msp-RKSJ-H',
'90msp-RKSJ-V',
'90pv-RKSJ-H',
'90pv-RKSJ-V',
'Add-H',
'Add-RKSJ-H',
'Add-RKSJ-V',
'Add-V',
'Adobe-CNS1-0',
'Adobe-CNS1-1',
'Adobe-CNS1-2',
'Adobe-CNS1-3',
'Adobe-CNS1-4',
'Adobe-CNS1-5',
'Adobe-CNS1-6',
'Adobe-GB1-0',
'Adobe-GB1-1',
'Adobe-GB1-2',
'Adobe-GB1-3',
'Adobe-GB1-4',
'Adobe-GB1-5',
'Adobe-Japan1-0',
'Adobe-Japan1-1',
'Adobe-Japan1-2',
'Adobe-Japan1-3',
'Adobe-Japan1-4',
'Adobe-Japan1-5',
'Adobe-Japan1-6',
'Adobe-Korea1-0',
'Adobe-Korea1-1',
'Adobe-Korea1-2',
'B5-H',
'B5-V',
'B5pc-H',
'B5pc-V',
'CNS-EUC-H',
'CNS-EUC-V',
'CNS1-H',
'CNS1-V',
'CNS2-H',
'CNS2-V',
'ETHK-B5-H',
'ETHK-B5-V',
'ETen-B5-H',
'ETen-B5-V',
'ETenms-B5-H',
'ETenms-B5-V',
'EUC-H',
'EUC-V',
'Ext-H',
'Ext-RKSJ-H',
'Ext-RKSJ-V',
'Ext-V',
'GB-EUC-H',
'GB-EUC-V',
'GB-H',
'GB-V',
'GBK-EUC-H',
'GBK-EUC-V',
'GBK2K-H',
'GBK2K-V',
'GBKp-EUC-H',
'GBKp-EUC-V',
'GBT-EUC-H',
'GBT-EUC-V',
'GBT-H',
'GBT-V',
'GBTpc-EUC-H',
'GBTpc-EUC-V',
'GBpc-EUC-H',
'GBpc-EUC-V',
'H',
'HKdla-B5-H',
'HKdla-B5-V',
'HKdlb-B5-H',
'HKdlb-B5-V',
'HKgccs-B5-H',
'HKgccs-B5-V',
'HKm314-B5-H',
'HKm314-B5-V',
'HKm471-B5-H',
'HKm471-B5-V',
'HKscs-B5-H',
'HKscs-B5-V',
'Hankaku',
'Hiragana',
'KSC-EUC-H',
'KSC-EUC-V',
'KSC-H',
'KSC-Johab-H',
'KSC-Johab-V',
'KSC-V',
'KSCms-UHC-H',
'KSCms-UHC-HW-H',
'KSCms-UHC-HW-V',
'KSCms-UHC-V',
'KSCpc-EUC-H',
'KSCpc-EUC-V',
'Katakana',
'NWP-H',
'NWP-V',
'RKSJ-H',
'RKSJ-V',
'Roman',
'UniCNS-UCS2-H',
'UniCNS-UCS2-V',
'UniCNS-UTF16-H',
'UniCNS-UTF16-V',
'UniCNS-UTF32-H',
'UniCNS-UTF32-V',
'UniCNS-UTF8-H',
'UniCNS-UTF8-V',
'UniGB-UCS2-H',
'UniGB-UCS2-V',
'UniGB-UTF16-H',
'UniGB-UTF16-V',
'UniGB-UTF32-H',
'UniGB-UTF32-V',
'UniGB-UTF8-H',
'UniGB-UTF8-V',
'UniJIS-UCS2-H',
'UniJIS-UCS2-HW-H',
'UniJIS-UCS2-HW-V',
'UniJIS-UCS2-V',
'UniJIS-UTF16-H',
'UniJIS-UTF16-V',
'UniJIS-UTF32-H',
'UniJIS-UTF32-V',
'UniJIS-UTF8-H',
'UniJIS-UTF8-V',
'UniJIS2004-UTF16-H',
'UniJIS2004-UTF16-V',
'UniJIS2004-UTF32-H',
'UniJIS2004-UTF32-V',
'UniJIS2004-UTF8-H',
'UniJIS2004-UTF8-V',
'UniJISPro-UCS2-HW-V',
'UniJISPro-UCS2-V',
'UniJISPro-UTF8-V',
'UniJISX0213-UTF32-H',
'UniJISX0213-UTF32-V',
'UniJISX02132004-UTF32-H',
'UniJISX02132004-UTF32-V',
'UniKS-UCS2-H',
'UniKS-UCS2-V',
'UniKS-UTF16-H',
'UniKS-UTF16-V',
'UniKS-UTF32-H',
'UniKS-UTF32-V',
'UniKS-UTF8-H',
'UniKS-UTF8-V',
'V',
'WP-Symbol'];
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// CMap, not to be confused with TrueType's cmap.
var CMap = (function CMapClosure() {
function CMap(builtInCMap) {
// Codespace ranges are stored as follows:
// [[1BytePairs], [2BytePairs], [3BytePairs], [4BytePairs]]
// where nBytePairs are ranges e.g. [low1, high1, low2, high2, ...]
this.codespaceRanges = [[], [], [], []];
this.numCodespaceRanges = 0;
// Map entries have one of two forms.
// - cid chars are 16-bit unsigned integers, stored as integers.
// - bf chars are variable-length byte sequences, stored as strings, with
// one byte per character.
this._map = [];
this.name = '';
this.vertical = false;
this.useCMap = null;
this.builtInCMap = builtInCMap;
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}
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CMap.prototype = {
addCodespaceRange: function(n, low, high) {
this.codespaceRanges[n - 1].push(low, high);
this.numCodespaceRanges++;
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},
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mapCidRange: function(low, high, dstLow) {
while (low <= high) {
this._map[low++] = dstLow++;
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}
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},
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mapBfRange: function(low, high, dstLow) {
var lastByte = dstLow.length - 1;
while (low <= high) {
this._map[low++] = dstLow;
// Only the last byte has to be incremented.
dstLow = dstLow.substr(0, lastByte) +
String.fromCharCode(dstLow.charCodeAt(lastByte) + 1);
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}
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},
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mapBfRangeToArray: function(low, high, array) {
var i = 0, ii = array.length;
while (low <= high && i < ii) {
this._map[low] = array[i++];
++low;
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}
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},
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// This is used for both bf and cid chars.
mapOne: function(src, dst) {
this._map[src] = dst;
},
lookup: function(code) {
return this._map[code];
},
contains: function(code) {
return this._map[code] !== undefined;
},
forEach: function(callback) {
// Most maps have fewer than 65536 entries, and for those we use normal
// array iteration. But really sparse tables are possible -- e.g. with
// indices in the *billions*. For such tables we use for..in, which isn't
// ideal because it stringifies the indices for all present elements, but
// it does avoid iterating over every undefined entry.
var map = this._map;
var length = map.length;
var i;
if (length <= 0x10000) {
for (i = 0; i < length; i++) {
if (map[i] !== undefined) {
callback(i, map[i]);
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}
}
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} else {
for (i in this._map) {
callback(i, map[i]);
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}
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}
},
charCodeOf: function(value) {
return this._map.indexOf(value);
},
getMap: function() {
return this._map;
},
readCharCode: function(str, offset, out) {
var c = 0;
var codespaceRanges = this.codespaceRanges;
var codespaceRangesLen = this.codespaceRanges.length;
// 9.7.6.2 CMap Mapping
// The code length is at most 4.
for (var n = 0; n < codespaceRangesLen; n++) {
c = ((c << 8) | str.charCodeAt(offset + n)) >>> 0;
// Check each codespace range to see if it falls within.
var codespaceRange = codespaceRanges[n];
for (var k = 0, kk = codespaceRange.length; k < kk;) {
var low = codespaceRange[k++];
var high = codespaceRange[k++];
if (c >= low && c <= high) {
out.charcode = c;
out.length = n + 1;
return;
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}
}
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}
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out.charcode = 0;
out.length = 1;
},
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get length() {
return this._map.length;
},
get isIdentityCMap() {
if (!(this.name === 'Identity-H' || this.name === 'Identity-V')) {
return false;
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}
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if (this._map.length !== 0x10000) {
return false;
}
for (var i = 0; i < 0x10000; i++) {
if (this._map[i] !== i) {
return false;
}
}
return true;
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}
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};
return CMap;
})();
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// A special case of CMap, where the _map array implicitly has a length of
// 65536 and each element is equal to its index.
var IdentityCMap = (function IdentityCMapClosure() {
function IdentityCMap(vertical, n) {
CMap.call(this);
this.vertical = vertical;
this.addCodespaceRange(n, 0, 0xffff);
}
Util.inherit(IdentityCMap, CMap, {});
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IdentityCMap.prototype = {
addCodespaceRange: CMap.prototype.addCodespaceRange,
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mapCidRange: function(low, high, dstLow) {
error('should not call mapCidRange');
},
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mapBfRange: function(low, high, dstLow) {
error('should not call mapBfRange');
},
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mapBfRangeToArray: function(low, high, array) {
error('should not call mapBfRangeToArray');
},
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mapOne: function(src, dst) {
error('should not call mapCidOne');
},
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lookup: function(code) {
return (isInt(code) && code <= 0xffff) ? code : undefined;
},
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contains: function(code) {
return isInt(code) && code <= 0xffff;
},
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forEach: function(callback) {
for (var i = 0; i <= 0xffff; i++) {
callback(i, i);
}
},
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charCodeOf: function(value) {
return (isInt(value) && value <= 0xffff) ? value : -1;
},
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getMap: function() {
// Sometimes identity maps must be instantiated, but it's rare.
var map = new Array(0x10000);
for (var i = 0; i <= 0xffff; i++) {
map[i] = i;
}
return map;
},
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readCharCode: CMap.prototype.readCharCode,
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get length() {
return 0x10000;
},
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get isIdentityCMap() {
error('should not access .isIdentityCMap');
}
};
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return IdentityCMap;
})();
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var BinaryCMapReader = (function BinaryCMapReaderClosure() {
function fetchBinaryData(url) {
return new Promise(function (resolve, reject) {
var request = new XMLHttpRequest();
request.open('GET', url, true);
request.responseType = 'arraybuffer';
request.onreadystatechange = function () {
if (request.readyState === XMLHttpRequest.DONE) {
if (!request.response || request.status !== 200 &&
request.status !== 0) {
reject(new Error('Unable to get binary cMap at: ' + url));
} else {
resolve(new Uint8Array(request.response));
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}
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}
};
request.send(null);
});
}
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function hexToInt(a, size) {
var n = 0;
for (var i = 0; i <= size; i++) {
n = (n << 8) | a[i];
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}
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return n >>> 0;
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}
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function hexToStr(a, size) {
// This code is hot. Special-case some common values to avoid creating an
// object with subarray().
if (size === 1) {
return String.fromCharCode(a[0], a[1]);
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}
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if (size === 3) {
return String.fromCharCode(a[0], a[1], a[2], a[3]);
}
return String.fromCharCode.apply(null, a.subarray(0, size + 1));
}
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function addHex(a, b, size) {
var c = 0;
for (var i = size; i >= 0; i--) {
c += a[i] + b[i];
a[i] = c & 255;
c >>= 8;
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}
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}
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function incHex(a, size) {
var c = 1;
for (var i = size; i >= 0 && c > 0; i--) {
c += a[i];
a[i] = c & 255;
c >>= 8;
}
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}
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var MAX_NUM_SIZE = 16;
var MAX_ENCODED_NUM_SIZE = 19; // ceil(MAX_NUM_SIZE * 7 / 8)
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function BinaryCMapStream(data) {
this.buffer = data;
this.pos = 0;
this.end = data.length;
this.tmpBuf = new Uint8Array(MAX_ENCODED_NUM_SIZE);
}
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BinaryCMapStream.prototype = {
readByte: function () {
if (this.pos >= this.end) {
return -1;
}
return this.buffer[this.pos++];
},
readNumber: function () {
var n = 0;
var last;
do {
var b = this.readByte();
if (b < 0) {
error('unexpected EOF in bcmap');
}
last = !(b & 0x80);
n = (n << 7) | (b & 0x7F);
} while (!last);
return n;
},
readSigned: function () {
var n = this.readNumber();
return (n & 1) ? ~(n >>> 1) : n >>> 1;
},
readHex: function (num, size) {
num.set(this.buffer.subarray(this.pos,
this.pos + size + 1));
this.pos += size + 1;
},
readHexNumber: function (num, size) {
var last;
var stack = this.tmpBuf, sp = 0;
do {
var b = this.readByte();
if (b < 0) {
error('unexpected EOF in bcmap');
}
last = !(b & 0x80);
stack[sp++] = b & 0x7F;
} while (!last);
var i = size, buffer = 0, bufferSize = 0;
while (i >= 0) {
while (bufferSize < 8 && stack.length > 0) {
buffer = (stack[--sp] << bufferSize) | buffer;
bufferSize += 7;
}
num[i] = buffer & 255;
i--;
buffer >>= 8;
bufferSize -= 8;
}
},
readHexSigned: function (num, size) {
this.readHexNumber(num, size);
var sign = num[size] & 1 ? 255 : 0;
var c = 0;
for (var i = 0; i <= size; i++) {
c = ((c & 1) << 8) | num[i];
num[i] = (c >> 1) ^ sign;
}
},
readString: function () {
var len = this.readNumber();
var s = '';
for (var i = 0; i < len; i++) {
s += String.fromCharCode(this.readNumber());
}
return s;
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}
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};
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function processBinaryCMap(url, cMap, extend) {
return fetchBinaryData(url).then(function (data) {
var stream = new BinaryCMapStream(data);
var header = stream.readByte();
cMap.vertical = !!(header & 1);
var useCMap = null;
var start = new Uint8Array(MAX_NUM_SIZE);
var end = new Uint8Array(MAX_NUM_SIZE);
var char = new Uint8Array(MAX_NUM_SIZE);
var charCode = new Uint8Array(MAX_NUM_SIZE);
var tmp = new Uint8Array(MAX_NUM_SIZE);
var code;
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var b;
while ((b = stream.readByte()) >= 0) {
var type = b >> 5;
if (type === 7) { // metadata, e.g. comment or usecmap
switch (b & 0x1F) {
case 0:
stream.readString(); // skipping comment
break;
case 1:
useCMap = stream.readString();
break;
}
continue;
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}
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var sequence = !!(b & 0x10);
var dataSize = b & 15;
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assert(dataSize + 1 <= MAX_NUM_SIZE);
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var ucs2DataSize = 1;
var subitemsCount = stream.readNumber();
var i;
switch (type) {
case 0: // codespacerange
stream.readHex(start, dataSize);
stream.readHexNumber(end, dataSize);
addHex(end, start, dataSize);
cMap.addCodespaceRange(dataSize + 1, hexToInt(start, dataSize),
hexToInt(end, dataSize));
for (i = 1; i < subitemsCount; i++) {
incHex(end, dataSize);
stream.readHexNumber(start, dataSize);
addHex(start, end, dataSize);
stream.readHexNumber(end, dataSize);
addHex(end, start, dataSize);
cMap.addCodespaceRange(dataSize + 1, hexToInt(start, dataSize),
hexToInt(end, dataSize));
}
break;
case 1: // notdefrange
stream.readHex(start, dataSize);
stream.readHexNumber(end, dataSize);
addHex(end, start, dataSize);
code = stream.readNumber();
// undefined range, skipping
for (i = 1; i < subitemsCount; i++) {
incHex(end, dataSize);
stream.readHexNumber(start, dataSize);
addHex(start, end, dataSize);
stream.readHexNumber(end, dataSize);
addHex(end, start, dataSize);
code = stream.readNumber();
// nop
}
break;
case 2: // cidchar
stream.readHex(char, dataSize);
code = stream.readNumber();
cMap.mapOne(hexToInt(char, dataSize), code);
for (i = 1; i < subitemsCount; i++) {
incHex(char, dataSize);
if (!sequence) {
stream.readHexNumber(tmp, dataSize);
addHex(char, tmp, dataSize);
}
code = stream.readSigned() + (code + 1);
cMap.mapOne(hexToInt(char, dataSize), code);
}
break;
case 3: // cidrange
stream.readHex(start, dataSize);
stream.readHexNumber(end, dataSize);
addHex(end, start, dataSize);
code = stream.readNumber();
cMap.mapCidRange(hexToInt(start, dataSize), hexToInt(end, dataSize),
code);
for (i = 1; i < subitemsCount; i++) {
incHex(end, dataSize);
if (!sequence) {
stream.readHexNumber(start, dataSize);
addHex(start, end, dataSize);
} else {
start.set(end);
}
stream.readHexNumber(end, dataSize);
addHex(end, start, dataSize);
code = stream.readNumber();
cMap.mapCidRange(hexToInt(start, dataSize),
hexToInt(end, dataSize), code);
}
break;
case 4: // bfchar
stream.readHex(char, ucs2DataSize);
stream.readHex(charCode, dataSize);
cMap.mapOne(hexToInt(char, ucs2DataSize),
hexToStr(charCode, dataSize));
for (i = 1; i < subitemsCount; i++) {
incHex(char, ucs2DataSize);
if (!sequence) {
stream.readHexNumber(tmp, ucs2DataSize);
addHex(char, tmp, ucs2DataSize);
}
incHex(charCode, dataSize);
stream.readHexSigned(tmp, dataSize);
addHex(charCode, tmp, dataSize);
cMap.mapOne(hexToInt(char, ucs2DataSize),
hexToStr(charCode, dataSize));
}
break;
case 5: // bfrange
stream.readHex(start, ucs2DataSize);
stream.readHexNumber(end, ucs2DataSize);
addHex(end, start, ucs2DataSize);
stream.readHex(charCode, dataSize);
cMap.mapBfRange(hexToInt(start, ucs2DataSize),
hexToInt(end, ucs2DataSize),
hexToStr(charCode, dataSize));
for (i = 1; i < subitemsCount; i++) {
incHex(end, ucs2DataSize);
if (!sequence) {
stream.readHexNumber(start, ucs2DataSize);
addHex(start, end, ucs2DataSize);
} else {
start.set(end);
}
stream.readHexNumber(end, ucs2DataSize);
addHex(end, start, ucs2DataSize);
stream.readHex(charCode, dataSize);
cMap.mapBfRange(hexToInt(start, ucs2DataSize),
hexToInt(end, ucs2DataSize),
hexToStr(charCode, dataSize));
}
break;
default:
error('Unknown type: ' + type);
break;
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}
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}
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if (useCMap) {
return extend(useCMap);
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}
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return cMap;
});
}
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function BinaryCMapReader() {}
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BinaryCMapReader.prototype = {
read: processBinaryCMap
};
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return BinaryCMapReader;
})();
var CMapFactory = (function CMapFactoryClosure() {
function strToInt(str) {
var a = 0;
for (var i = 0; i < str.length; i++) {
a = (a << 8) | str.charCodeAt(i);
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}
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return a >>> 0;
}
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function expectString(obj) {
if (!isString(obj)) {
error('Malformed CMap: expected string.');
}
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}
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function expectInt(obj) {
if (!isInt(obj)) {
error('Malformed CMap: expected int.');
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}
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}
function parseBfChar(cMap, lexer) {
while (true) {
var obj = lexer.getObj();
if (isEOF(obj)) {
break;
}
if (isCmd(obj, 'endbfchar')) {
return;
}
expectString(obj);
var src = strToInt(obj);
obj = lexer.getObj();
// TODO are /dstName used?
expectString(obj);
var dst = obj;
cMap.mapOne(src, dst);
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}
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}
function parseBfRange(cMap, lexer) {
while (true) {
var obj = lexer.getObj();
if (isEOF(obj)) {
break;
}
if (isCmd(obj, 'endbfrange')) {
return;
}
expectString(obj);
var low = strToInt(obj);
obj = lexer.getObj();
expectString(obj);
var high = strToInt(obj);
obj = lexer.getObj();
if (isInt(obj) || isString(obj)) {
var dstLow = isInt(obj) ? String.fromCharCode(obj) : obj;
cMap.mapBfRange(low, high, dstLow);
} else if (isCmd(obj, '[')) {
obj = lexer.getObj();
var array = [];
while (!isCmd(obj, ']') && !isEOF(obj)) {
array.push(obj);
obj = lexer.getObj();
}
cMap.mapBfRangeToArray(low, high, array);
} else {
break;
}
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}
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error('Invalid bf range.');
}
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function parseCidChar(cMap, lexer) {
while (true) {
var obj = lexer.getObj();
if (isEOF(obj)) {
break;
}
if (isCmd(obj, 'endcidchar')) {
return;
}
expectString(obj);
var src = strToInt(obj);
obj = lexer.getObj();
expectInt(obj);
var dst = obj;
cMap.mapOne(src, dst);
}
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}
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function parseCidRange(cMap, lexer) {
while (true) {
var obj = lexer.getObj();
if (isEOF(obj)) {
break;
}
if (isCmd(obj, 'endcidrange')) {
return;
}
expectString(obj);
var low = strToInt(obj);
obj = lexer.getObj();
expectString(obj);
var high = strToInt(obj);
obj = lexer.getObj();
expectInt(obj);
var dstLow = obj;
cMap.mapCidRange(low, high, dstLow);
}
}
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function parseCodespaceRange(cMap, lexer) {
while (true) {
var obj = lexer.getObj();
if (isEOF(obj)) {
break;
}
if (isCmd(obj, 'endcodespacerange')) {
return;
}
if (!isString(obj)) {
break;
}
var low = strToInt(obj);
obj = lexer.getObj();
if (!isString(obj)) {
break;
}
var high = strToInt(obj);
cMap.addCodespaceRange(obj.length, low, high);
}
error('Invalid codespace range.');
}
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function parseWMode(cMap, lexer) {
var obj = lexer.getObj();
if (isInt(obj)) {
cMap.vertical = !!obj;
}
}
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function parseCMapName(cMap, lexer) {
var obj = lexer.getObj();
if (isName(obj) && isString(obj.name)) {
cMap.name = obj.name;
}
}
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function parseCMap(cMap, lexer, builtInCMapParams, useCMap) {
var previous;
var embededUseCMap;
objLoop: while (true) {
var obj = lexer.getObj();
if (isEOF(obj)) {
break;
} else if (isName(obj)) {
if (obj.name === 'WMode') {
parseWMode(cMap, lexer);
} else if (obj.name === 'CMapName') {
parseCMapName(cMap, lexer);
}
previous = obj;
} else if (isCmd(obj)) {
switch (obj.cmd) {
case 'endcmap':
break objLoop;
case 'usecmap':
if (isName(previous)) {
embededUseCMap = previous.name;
}
break;
case 'begincodespacerange':
parseCodespaceRange(cMap, lexer);
break;
case 'beginbfchar':
parseBfChar(cMap, lexer);
break;
case 'begincidchar':
parseCidChar(cMap, lexer);
break;
case 'beginbfrange':
parseBfRange(cMap, lexer);
break;
case 'begincidrange':
parseCidRange(cMap, lexer);
break;
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}
}
}
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if (!useCMap && embededUseCMap) {
// Load the usecmap definition from the file only if there wasn't one
// specified.
useCMap = embededUseCMap;
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}
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if (useCMap) {
return extendCMap(cMap, builtInCMapParams, useCMap);
} else {
return Promise.resolve(cMap);
}
}
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function extendCMap(cMap, builtInCMapParams, useCMap) {
return createBuiltInCMap(useCMap, builtInCMapParams).then(
function(newCMap) {
cMap.useCMap = newCMap;
// If there aren't any code space ranges defined clone all the parent ones
// into this cMap.
if (cMap.numCodespaceRanges === 0) {
var useCodespaceRanges = cMap.useCMap.codespaceRanges;
for (var i = 0; i < useCodespaceRanges.length; i++) {
cMap.codespaceRanges[i] = useCodespaceRanges[i].slice();
}
cMap.numCodespaceRanges = cMap.useCMap.numCodespaceRanges;
}
// Merge the map into the current one, making sure not to override
// any previously defined entries.
cMap.useCMap.forEach(function(key, value) {
if (!cMap.contains(key)) {
cMap.mapOne(key, cMap.useCMap.lookup(key));
}
});
return cMap;
});
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}
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function parseBinaryCMap(name, builtInCMapParams) {
var url = builtInCMapParams.url + name + '.bcmap';
var cMap = new CMap(true);
return new BinaryCMapReader().read(url, cMap, function (useCMap) {
return extendCMap(cMap, builtInCMapParams, useCMap);
});
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}
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function createBuiltInCMap(name, builtInCMapParams) {
if (name === 'Identity-H') {
return Promise.resolve(new IdentityCMap(false, 2));
} else if (name === 'Identity-V') {
return Promise.resolve(new IdentityCMap(true, 2));
}
if (BUILT_IN_CMAPS.indexOf(name) === -1) {
return Promise.reject(new Error('Unknown cMap name: ' + name));
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}
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assert(builtInCMapParams, 'built-in cMap parameters are not provided');
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if (builtInCMapParams.packed) {
return parseBinaryCMap(name, builtInCMapParams);
}
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return new Promise(function (resolve, reject) {
var url = builtInCMapParams.url + name;
var request = new XMLHttpRequest();
request.onreadystatechange = function () {
if (request.readyState === XMLHttpRequest.DONE) {
if (request.status === 200 || request.status === 0) {
var cMap = new CMap(true);
var lexer = new Lexer(new StringStream(request.responseText));
parseCMap(cMap, lexer, builtInCMapParams, null).then(
function (parsedCMap) {
resolve(parsedCMap);
}).catch(function (e) {
reject(new Error({ message: 'Invalid CMap data', error: e }));
});
} else {
reject(new Error('Unable to get cMap at: ' + url));
}
}
};
request.open('GET', url, true);
request.send(null);
});
}
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return {
create: function (encoding, builtInCMapParams, useCMap) {
if (isName(encoding)) {
return createBuiltInCMap(encoding.name, builtInCMapParams);
} else if (isStream(encoding)) {
var cMap = new CMap();
var lexer = new Lexer(encoding);
return parseCMap(cMap, lexer, builtInCMapParams, useCMap).then(
function (parsedCMap) {
if (parsedCMap.isIdentityCMap) {
return createBuiltInCMap(parsedCMap.name, builtInCMapParams);
}
return parsedCMap;
});
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}
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return Promise.reject(new Error('Encoding required.'));
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}
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};
})();
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exports.CMap = CMap;
exports.CMapFactory = CMapFactory;
exports.IdentityCMap = IdentityCMap;
}));
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(function (root, factory) {
{
factory((root.pdfjsCorePsParser = {}), root.pdfjsSharedUtil,
root.pdfjsCoreParser);
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}
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}(this, function (exports, sharedUtil, coreParser) {
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var error = sharedUtil.error;
var EOF = coreParser.EOF;
var Lexer = coreParser.Lexer;
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var PostScriptParser = (function PostScriptParserClosure() {
function PostScriptParser(lexer) {
this.lexer = lexer;
this.operators = [];
this.token = null;
this.prev = null;
}
PostScriptParser.prototype = {
nextToken: function PostScriptParser_nextToken() {
this.prev = this.token;
this.token = this.lexer.getToken();
},
accept: function PostScriptParser_accept(type) {
if (this.token.type === type) {
this.nextToken();
return true;
}
return false;
},
expect: function PostScriptParser_expect(type) {
if (this.accept(type)) {
return true;
}
error('Unexpected symbol: found ' + this.token.type + ' expected ' +
type + '.');
},
parse: function PostScriptParser_parse() {
this.nextToken();
this.expect(PostScriptTokenTypes.LBRACE);
this.parseBlock();
this.expect(PostScriptTokenTypes.RBRACE);
return this.operators;
},
parseBlock: function PostScriptParser_parseBlock() {
while (true) {
if (this.accept(PostScriptTokenTypes.NUMBER)) {
this.operators.push(this.prev.value);
} else if (this.accept(PostScriptTokenTypes.OPERATOR)) {
this.operators.push(this.prev.value);
} else if (this.accept(PostScriptTokenTypes.LBRACE)) {
this.parseCondition();
} else {
return;
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}
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}
},
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parseCondition: function PostScriptParser_parseCondition() {
// Add two place holders that will be updated later
var conditionLocation = this.operators.length;
this.operators.push(null, null);
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this.parseBlock();
this.expect(PostScriptTokenTypes.RBRACE);
if (this.accept(PostScriptTokenTypes.IF)) {
// The true block is right after the 'if' so it just falls through on
// true else it jumps and skips the true block.
this.operators[conditionLocation] = this.operators.length;
this.operators[conditionLocation + 1] = 'jz';
} else if (this.accept(PostScriptTokenTypes.LBRACE)) {
var jumpLocation = this.operators.length;
this.operators.push(null, null);
var endOfTrue = this.operators.length;
this.parseBlock();
this.expect(PostScriptTokenTypes.RBRACE);
this.expect(PostScriptTokenTypes.IFELSE);
// The jump is added at the end of the true block to skip the false
// block.
this.operators[jumpLocation] = this.operators.length;
this.operators[jumpLocation + 1] = 'j';
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this.operators[conditionLocation] = endOfTrue;
this.operators[conditionLocation + 1] = 'jz';
} else {
error('PS Function: error parsing conditional.');
}
}
};
return PostScriptParser;
})();
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var PostScriptTokenTypes = {
LBRACE: 0,
RBRACE: 1,
NUMBER: 2,
OPERATOR: 3,
IF: 4,
IFELSE: 5
};
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var PostScriptToken = (function PostScriptTokenClosure() {
function PostScriptToken(type, value) {
this.type = type;
this.value = value;
}
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var opCache = Object.create(null);
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PostScriptToken.getOperator = function PostScriptToken_getOperator(op) {
var opValue = opCache[op];
if (opValue) {
return opValue;
}
return opCache[op] = new PostScriptToken(PostScriptTokenTypes.OPERATOR, op);
};
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PostScriptToken.LBRACE = new PostScriptToken(PostScriptTokenTypes.LBRACE,
'{');
PostScriptToken.RBRACE = new PostScriptToken(PostScriptTokenTypes.RBRACE,
'}');
PostScriptToken.IF = new PostScriptToken(PostScriptTokenTypes.IF, 'IF');
PostScriptToken.IFELSE = new PostScriptToken(PostScriptTokenTypes.IFELSE,
'IFELSE');
return PostScriptToken;
})();
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var PostScriptLexer = (function PostScriptLexerClosure() {
function PostScriptLexer(stream) {
this.stream = stream;
this.nextChar();
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this.strBuf = [];
}
PostScriptLexer.prototype = {
nextChar: function PostScriptLexer_nextChar() {
return (this.currentChar = this.stream.getByte());
},
getToken: function PostScriptLexer_getToken() {
var comment = false;
var ch = this.currentChar;
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// skip comments
while (true) {
if (ch < 0) {
return EOF;
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}
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if (comment) {
if (ch === 0x0A || ch === 0x0D) {
comment = false;
}
} else if (ch === 0x25) { // '%'
comment = true;
} else if (!Lexer.isSpace(ch)) {
break;
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}
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ch = this.nextChar();
}
switch (ch | 0) {
case 0x30: case 0x31: case 0x32: case 0x33: case 0x34: // '0'-'4'
case 0x35: case 0x36: case 0x37: case 0x38: case 0x39: // '5'-'9'
case 0x2B: case 0x2D: case 0x2E: // '+', '-', '.'
return new PostScriptToken(PostScriptTokenTypes.NUMBER,
this.getNumber());
case 0x7B: // '{'
this.nextChar();
return PostScriptToken.LBRACE;
case 0x7D: // '}'
this.nextChar();
return PostScriptToken.RBRACE;
}
// operator
var strBuf = this.strBuf;
strBuf.length = 0;
strBuf[0] = String.fromCharCode(ch);
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while ((ch = this.nextChar()) >= 0 && // and 'A'-'Z', 'a'-'z'
((ch >= 0x41 && ch <= 0x5A) || (ch >= 0x61 && ch <= 0x7A))) {
strBuf.push(String.fromCharCode(ch));
}
var str = strBuf.join('');
switch (str.toLowerCase()) {
case 'if':
return PostScriptToken.IF;
case 'ifelse':
return PostScriptToken.IFELSE;
default:
return PostScriptToken.getOperator(str);
}
},
getNumber: function PostScriptLexer_getNumber() {
var ch = this.currentChar;
var strBuf = this.strBuf;
strBuf.length = 0;
strBuf[0] = String.fromCharCode(ch);
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while ((ch = this.nextChar()) >= 0) {
if ((ch >= 0x30 && ch <= 0x39) || // '0'-'9'
ch === 0x2D || ch === 0x2E) { // '-', '.'
strBuf.push(String.fromCharCode(ch));
} else {
break;
}
}
var value = parseFloat(strBuf.join(''));
if (isNaN(value)) {
error('Invalid floating point number: ' + value);
}
return value;
}
};
return PostScriptLexer;
})();
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exports.PostScriptLexer = PostScriptLexer;
exports.PostScriptParser = PostScriptParser;
}));
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(function (root, factory) {
{
factory((root.pdfjsCoreType1Parser = {}), root.pdfjsSharedUtil,
root.pdfjsCoreStream, root.pdfjsCoreParser, root.pdfjsCoreEncodings);
}
}(this, function (exports, sharedUtil, coreStream, coreParser, coreEncodings) {
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var warn = sharedUtil.warn;
var Stream = coreStream.Stream;
var Lexer = coreParser.Lexer;
var getEncoding = coreEncodings.getEncoding;
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// Hinting is currently disabled due to unknown problems on windows
// in tracemonkey and various other pdfs with type1 fonts.
var HINTING_ENABLED = false;
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/*
* CharStrings are encoded following the the CharString Encoding sequence
* describe in Chapter 6 of the "Adobe Type1 Font Format" specification.
* The value in a byte indicates a command, a number, or subsequent bytes
* that are to be interpreted in a special way.
*
* CharString Number Encoding:
* A CharString byte containing the values from 32 through 255 inclusive
* indicate an integer. These values are decoded in four ranges.
*
* 1. A CharString byte containing a value, v, between 32 and 246 inclusive,
* indicate the integer v - 139. Thus, the integer values from -107 through
* 107 inclusive may be encoded in single byte.
*
* 2. A CharString byte containing a value, v, between 247 and 250 inclusive,
* indicates an integer involving the next byte, w, according to the formula:
* [(v - 247) x 256] + w + 108
*
* 3. A CharString byte containing a value, v, between 251 and 254 inclusive,
* indicates an integer involving the next byte, w, according to the formula:
* -[(v - 251) * 256] - w - 108
*
* 4. A CharString containing the value 255 indicates that the next 4 bytes
* are a two complement signed integer. The first of these bytes contains the
* highest order bits, the second byte contains the next higher order bits
* and the fourth byte contain the lowest order bits.
*
*
* CharString Command Encoding:
* CharStrings commands are encoded in 1 or 2 bytes.
*
* Single byte commands are encoded in 1 byte that contains a value between
* 0 and 31 inclusive.
* If a command byte contains the value 12, then the value in the next byte
* indicates a command. This "escape" mechanism allows many extra commands
* to be encoded and this encoding technique helps to minimize the length of
* the charStrings.
*/
var Type1CharString = (function Type1CharStringClosure() {
var COMMAND_MAP = {
'hstem': [1],
'vstem': [3],
'vmoveto': [4],
'rlineto': [5],
'hlineto': [6],
'vlineto': [7],
'rrcurveto': [8],
'callsubr': [10],
'flex': [12, 35],
'drop' : [12, 18],
'endchar': [14],
'rmoveto': [21],
'hmoveto': [22],
'vhcurveto': [30],
'hvcurveto': [31]
};
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function Type1CharString() {
this.width = 0;
this.lsb = 0;
this.flexing = false;
this.output = [];
this.stack = [];
}
Type1CharString.prototype = {
convert: function Type1CharString_convert(encoded, subrs,
seacAnalysisEnabled) {
var count = encoded.length;
var error = false;
var wx, sbx, subrNumber;
for (var i = 0; i < count; i++) {
var value = encoded[i];
if (value < 32) {
if (value === 12) {
value = (value << 8) + encoded[++i];
}
switch (value) {
case 1: // hstem
if (!HINTING_ENABLED) {
this.stack = [];
break;
}
error = this.executeCommand(2, COMMAND_MAP.hstem);
break;
case 3: // vstem
if (!HINTING_ENABLED) {
this.stack = [];
break;
}
error = this.executeCommand(2, COMMAND_MAP.vstem);
break;
case 4: // vmoveto
if (this.flexing) {
if (this.stack.length < 1) {
error = true;
break;
}
// Add the dx for flex and but also swap the values so they are
// the right order.
var dy = this.stack.pop();
this.stack.push(0, dy);
break;
}
error = this.executeCommand(1, COMMAND_MAP.vmoveto);
break;
case 5: // rlineto
error = this.executeCommand(2, COMMAND_MAP.rlineto);
break;
case 6: // hlineto
error = this.executeCommand(1, COMMAND_MAP.hlineto);
break;
case 7: // vlineto
error = this.executeCommand(1, COMMAND_MAP.vlineto);
break;
case 8: // rrcurveto
error = this.executeCommand(6, COMMAND_MAP.rrcurveto);
break;
case 9: // closepath
// closepath is a Type1 command that does not take argument and is
// useless in Type2 and it can simply be ignored.
this.stack = [];
break;
case 10: // callsubr
if (this.stack.length < 1) {
error = true;
break;
}
subrNumber = this.stack.pop();
error = this.convert(subrs[subrNumber], subrs,
seacAnalysisEnabled);
break;
case 11: // return
return error;
case 13: // hsbw
if (this.stack.length < 2) {
error = true;
break;
}
// To convert to type2 we have to move the width value to the
// first part of the charstring and then use hmoveto with lsb.
wx = this.stack.pop();
sbx = this.stack.pop();
this.lsb = sbx;
this.width = wx;
this.stack.push(wx, sbx);
error = this.executeCommand(2, COMMAND_MAP.hmoveto);
break;
case 14: // endchar
this.output.push(COMMAND_MAP.endchar[0]);
break;
case 21: // rmoveto
if (this.flexing) {
break;
}
error = this.executeCommand(2, COMMAND_MAP.rmoveto);
break;
case 22: // hmoveto
if (this.flexing) {
// Add the dy for flex.
this.stack.push(0);
break;
}
error = this.executeCommand(1, COMMAND_MAP.hmoveto);
break;
case 30: // vhcurveto
error = this.executeCommand(4, COMMAND_MAP.vhcurveto);
break;
case 31: // hvcurveto
error = this.executeCommand(4, COMMAND_MAP.hvcurveto);
break;
case (12 << 8) + 0: // dotsection
// dotsection is a Type1 command to specify some hinting feature
// for dots that do not take a parameter and it can safely be
// ignored for Type2.
this.stack = [];
break;
case (12 << 8) + 1: // vstem3
if (!HINTING_ENABLED) {
this.stack = [];
break;
}
// [vh]stem3 are Type1 only and Type2 supports [vh]stem with
// multiple parameters, so instead of returning [vh]stem3 take a
// shortcut and return [vhstem] instead.
error = this.executeCommand(2, COMMAND_MAP.vstem);
break;
case (12 << 8) + 2: // hstem3
if (!HINTING_ENABLED) {
this.stack = [];
break;
}
// See vstem3.
error = this.executeCommand(2, COMMAND_MAP.hstem);
break;
case (12 << 8) + 6: // seac
// seac is like type 2's special endchar but it doesn't use the
// first argument asb, so remove it.
if (seacAnalysisEnabled) {
this.seac = this.stack.splice(-4, 4);
error = this.executeCommand(0, COMMAND_MAP.endchar);
} else {
error = this.executeCommand(4, COMMAND_MAP.endchar);
}
break;
case (12 << 8) + 7: // sbw
if (this.stack.length < 4) {
error = true;
break;
}
// To convert to type2 we have to move the width value to the
// first part of the charstring and then use rmoveto with
// (dx, dy). The height argument will not be used for vmtx and
// vhea tables reconstruction -- ignoring it.
var wy = this.stack.pop();
wx = this.stack.pop();
var sby = this.stack.pop();
sbx = this.stack.pop();
this.lsb = sbx;
this.width = wx;
this.stack.push(wx, sbx, sby);
error = this.executeCommand(3, COMMAND_MAP.rmoveto);
break;
case (12 << 8) + 12: // div
if (this.stack.length < 2) {
error = true;
break;
}
var num2 = this.stack.pop();
var num1 = this.stack.pop();
this.stack.push(num1 / num2);
break;
case (12 << 8) + 16: // callothersubr
if (this.stack.length < 2) {
error = true;
break;
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}
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subrNumber = this.stack.pop();
var numArgs = this.stack.pop();
if (subrNumber === 0 && numArgs === 3) {
var flexArgs = this.stack.splice(this.stack.length - 17, 17);
this.stack.push(
flexArgs[2] + flexArgs[0], // bcp1x + rpx
flexArgs[3] + flexArgs[1], // bcp1y + rpy
flexArgs[4], // bcp2x
flexArgs[5], // bcp2y
flexArgs[6], // p2x
flexArgs[7], // p2y
flexArgs[8], // bcp3x
flexArgs[9], // bcp3y
flexArgs[10], // bcp4x
flexArgs[11], // bcp4y
flexArgs[12], // p3x
flexArgs[13], // p3y
flexArgs[14] // flexDepth
// 15 = finalx unused by flex
// 16 = finaly unused by flex
);
error = this.executeCommand(13, COMMAND_MAP.flex, true);
this.flexing = false;
this.stack.push(flexArgs[15], flexArgs[16]);
} else if (subrNumber === 1 && numArgs === 0) {
this.flexing = true;
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}
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break;
case (12 << 8) + 17: // pop
// Ignore this since it is only used with othersubr.
break;
case (12 << 8) + 33: // setcurrentpoint
// Ignore for now.
this.stack = [];
break;
default:
warn('Unknown type 1 charstring command of "' + value + '"');
break;
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}
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if (error) {
break;
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}
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continue;
} else if (value <= 246) {
value = value - 139;
} else if (value <= 250) {
value = ((value - 247) * 256) + encoded[++i] + 108;
} else if (value <= 254) {
value = -((value - 251) * 256) - encoded[++i] - 108;
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} else {
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value = (encoded[++i] & 0xff) << 24 | (encoded[++i] & 0xff) << 16 |
(encoded[++i] & 0xff) << 8 | (encoded[++i] & 0xff) << 0;
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}
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this.stack.push(value);
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}
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return error;
},
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executeCommand: function(howManyArgs, command, keepStack) {
var stackLength = this.stack.length;
if (howManyArgs > stackLength) {
return true;
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}
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var start = stackLength - howManyArgs;
for (var i = start; i < stackLength; i++) {
var value = this.stack[i];
if (value === (value | 0)) { // int
this.output.push(28, (value >> 8) & 0xff, value & 0xff);
} else { // fixed point
value = (65536 * value) | 0;
this.output.push(255,
(value >> 24) & 0xFF,
(value >> 16) & 0xFF,
(value >> 8) & 0xFF,
value & 0xFF);
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}
}
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this.output.push.apply(this.output, command);
if (keepStack) {
this.stack.splice(start, howManyArgs);
} else {
this.stack.length = 0;
}
return false;
}
};
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return Type1CharString;
})();
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/*
* Type1Parser encapsulate the needed code for parsing a Type1 font
* program. Some of its logic depends on the Type2 charstrings
* structure.
* Note: this doesn't really parse the font since that would require evaluation
* of PostScript, but it is possible in most cases to extract what we need
* without a full parse.
*/
var Type1Parser = (function Type1ParserClosure() {
/*
* Decrypt a Sequence of Ciphertext Bytes to Produce the Original Sequence
* of Plaintext Bytes. The function took a key as a parameter which can be
* for decrypting the eexec block of for decoding charStrings.
*/
var EEXEC_ENCRYPT_KEY = 55665;
var CHAR_STRS_ENCRYPT_KEY = 4330;
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function isHexDigit(code) {
return code >= 48 && code <= 57 || // '0'-'9'
code >= 65 && code <= 70 || // 'A'-'F'
code >= 97 && code <= 102; // 'a'-'f'
}
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function decrypt(data, key, discardNumber) {
if (discardNumber >= data.length) {
return new Uint8Array(0);
}
var r = key | 0, c1 = 52845, c2 = 22719, i, j;
for (i = 0; i < discardNumber; i++) {
r = ((data[i] + r) * c1 + c2) & ((1 << 16) - 1);
}
var count = data.length - discardNumber;
var decrypted = new Uint8Array(count);
for (i = discardNumber, j = 0; j < count; i++, j++) {
var value = data[i];
decrypted[j] = value ^ (r >> 8);
r = ((value + r) * c1 + c2) & ((1 << 16) - 1);
}
return decrypted;
}
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function decryptAscii(data, key, discardNumber) {
var r = key | 0, c1 = 52845, c2 = 22719;
var count = data.length, maybeLength = count >>> 1;
var decrypted = new Uint8Array(maybeLength);
var i, j;
for (i = 0, j = 0; i < count; i++) {
var digit1 = data[i];
if (!isHexDigit(digit1)) {
continue;
}
i++;
var digit2;
while (i < count && !isHexDigit(digit2 = data[i])) {
i++;
}
if (i < count) {
var value = parseInt(String.fromCharCode(digit1, digit2), 16);
decrypted[j++] = value ^ (r >> 8);
r = ((value + r) * c1 + c2) & ((1 << 16) - 1);
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}
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}
return Array.prototype.slice.call(decrypted, discardNumber, j);
}
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function isSpecial(c) {
return c === 0x2F || // '/'
c === 0x5B || c === 0x5D || // '[', ']'
c === 0x7B || c === 0x7D || // '{', '}'
c === 0x28 || c === 0x29; // '(', ')'
}
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function Type1Parser(stream, encrypted, seacAnalysisEnabled) {
if (encrypted) {
var data = stream.getBytes();
var isBinary = !(isHexDigit(data[0]) && isHexDigit(data[1]) &&
isHexDigit(data[2]) && isHexDigit(data[3]));
stream = new Stream(isBinary ? decrypt(data, EEXEC_ENCRYPT_KEY, 4) :
decryptAscii(data, EEXEC_ENCRYPT_KEY, 4));
}
this.seacAnalysisEnabled = !!seacAnalysisEnabled;
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this.stream = stream;
this.nextChar();
}
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Type1Parser.prototype = {
readNumberArray: function Type1Parser_readNumberArray() {
this.getToken(); // read '[' or '{' (arrays can start with either)
var array = [];
while (true) {
var token = this.getToken();
if (token === null || token === ']' || token === '}') {
break;
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}
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array.push(parseFloat(token || 0));
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}
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return array;
},
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readNumber: function Type1Parser_readNumber() {
var token = this.getToken();
return parseFloat(token || 0);
},
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readInt: function Type1Parser_readInt() {
// Use '| 0' to prevent setting a double into length such as the double
// does not flow into the loop variable.
var token = this.getToken();
return parseInt(token || 0, 10) | 0;
},
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readBoolean: function Type1Parser_readBoolean() {
var token = this.getToken();
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// Use 1 and 0 since that's what type2 charstrings use.
return token === 'true' ? 1 : 0;
},
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nextChar : function Type1_nextChar() {
return (this.currentChar = this.stream.getByte());
},
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getToken: function Type1Parser_getToken() {
// Eat whitespace and comments.
var comment = false;
var ch = this.currentChar;
while (true) {
if (ch === -1) {
return null;
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}
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if (comment) {
if (ch === 0x0A || ch === 0x0D) {
comment = false;
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}
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} else if (ch === 0x25) { // '%'
comment = true;
} else if (!Lexer.isSpace(ch)) {
break;
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}
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ch = this.nextChar();
}
if (isSpecial(ch)) {
this.nextChar();
return String.fromCharCode(ch);
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}
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var token = '';
do {
token += String.fromCharCode(ch);
ch = this.nextChar();
} while (ch >= 0 && !Lexer.isSpace(ch) && !isSpecial(ch));
return token;
},
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/*
* Returns an object containing a Subrs array and a CharStrings
* array extracted from and eexec encrypted block of data
*/
extractFontProgram: function Type1Parser_extractFontProgram() {
var stream = this.stream;
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var subrs = [], charstrings = [];
var privateData = Object.create(null);
privateData['lenIV'] = 4;
var program = {
subrs: [],
charstrings: [],
properties: {
'privateData': privateData
}
};
var token, length, data, lenIV, encoded;
while ((token = this.getToken()) !== null) {
if (token !== '/') {
continue;
}
token = this.getToken();
switch (token) {
case 'CharStrings':
// The number immediately following CharStrings must be greater or
// equal to the number of CharStrings.
this.getToken();
this.getToken(); // read in 'dict'
this.getToken(); // read in 'dup'
this.getToken(); // read in 'begin'
while(true) {
token = this.getToken();
if (token === null || token === 'end') {
break;
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}
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if (token !== '/') {
continue;
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}
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var glyph = this.getToken();
length = this.readInt();
this.getToken(); // read in 'RD' or '-|'
data = stream.makeSubStream(stream.pos, length);
lenIV = program.properties.privateData['lenIV'];
encoded = decrypt(data.getBytes(), CHAR_STRS_ENCRYPT_KEY, lenIV);
// Skip past the required space and binary data.
stream.skip(length);
this.nextChar();
token = this.getToken(); // read in 'ND' or '|-'
if (token === 'noaccess') {
this.getToken(); // read in 'def'
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}
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charstrings.push({
glyph: glyph,
encoded: encoded
});
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}
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break;
case 'Subrs':
var num = this.readInt();
this.getToken(); // read in 'array'
while ((token = this.getToken()) === 'dup') {
var index = this.readInt();
length = this.readInt();
this.getToken(); // read in 'RD' or '-|'
data = stream.makeSubStream(stream.pos, length);
lenIV = program.properties.privateData['lenIV'];
encoded = decrypt(data.getBytes(), CHAR_STRS_ENCRYPT_KEY, lenIV);
// Skip past the required space and binary data.
stream.skip(length);
this.nextChar();
token = this.getToken(); // read in 'NP' or '|'
if (token === 'noaccess') {
this.getToken(); // read in 'put'
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}
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subrs[index] = encoded;
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}
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break;
case 'BlueValues':
case 'OtherBlues':
case 'FamilyBlues':
case 'FamilyOtherBlues':
var blueArray = this.readNumberArray();
// *Blue* values may contain invalid data: disables reading of
// those values when hinting is disabled.
if (blueArray.length > 0 && (blueArray.length % 2) === 0 &&
HINTING_ENABLED) {
program.properties.privateData[token] = blueArray;
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}
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break;
case 'StemSnapH':
case 'StemSnapV':
program.properties.privateData[token] = this.readNumberArray();
break;
case 'StdHW':
case 'StdVW':
program.properties.privateData[token] =
this.readNumberArray()[0];
break;
case 'BlueShift':
case 'lenIV':
case 'BlueFuzz':
case 'BlueScale':
case 'LanguageGroup':
case 'ExpansionFactor':
program.properties.privateData[token] = this.readNumber();
break;
case 'ForceBold':
program.properties.privateData[token] = this.readBoolean();
break;
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}
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}
for (var i = 0; i < charstrings.length; i++) {
glyph = charstrings[i].glyph;
encoded = charstrings[i].encoded;
var charString = new Type1CharString();
var error = charString.convert(encoded, subrs,
this.seacAnalysisEnabled);
var output = charString.output;
if (error) {
// It seems when FreeType encounters an error while evaluating a glyph
// that it completely ignores the glyph so we'll mimic that behaviour
// here and put an endchar to make the validator happy.
output = [14];
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}
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program.charstrings.push({
glyphName: glyph,
charstring: output,
width: charString.width,
lsb: charString.lsb,
seac: charString.seac
});
}
return program;
},
extractFontHeader: function Type1Parser_extractFontHeader(properties) {
var token;
while ((token = this.getToken()) !== null) {
if (token !== '/') {
continue;
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}
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token = this.getToken();
switch (token) {
case 'FontMatrix':
var matrix = this.readNumberArray();
properties.fontMatrix = matrix;
break;
case 'Encoding':
var encodingArg = this.getToken();
var encoding;
if (!/^\d+$/.test(encodingArg)) {
// encoding name is specified
encoding = getEncoding(encodingArg);
} else {
encoding = [];
var size = parseInt(encodingArg, 10) | 0;
this.getToken(); // read in 'array'
for (var j = 0; j < size; j++) {
token = this.getToken();
// skipping till first dup or def (e.g. ignoring for statement)
while (token !== 'dup' && token !== 'def') {
token = this.getToken();
if (token === null) {
return; // invalid header
}
}
if (token === 'def') {
break; // read all array data
}
var index = this.readInt();
this.getToken(); // read in '/'
var glyph = this.getToken();
encoding[index] = glyph;
this.getToken(); // read the in 'put'
}
}
properties.builtInEncoding = encoding;
break;
case 'FontBBox':
var fontBBox = this.readNumberArray();
// adjusting ascent/descent
properties.ascent = fontBBox[3];
properties.descent = fontBBox[1];
properties.ascentScaled = true;
break;
}
}
}
};
return Type1Parser;
})();
exports.Type1Parser = Type1Parser;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreFonts = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreStream, root.pdfjsCoreParser,
root.pdfjsCoreGlyphList, root.pdfjsCoreCharsets,
root.pdfjsCoreFontRenderer, root.pdfjsCoreEncodings,
root.pdfjsCoreStandardFonts, root.pdfjsCoreUnicode,
root.pdfjsCoreType1Parser, root.pdfjsCoreCFFParser);
}
}(this, function (exports, sharedUtil, corePrimitives, coreStream, coreParser,
coreGlyphList, coreCharsets, coreFontRenderer,
coreEncodings, coreStandardFonts, coreUnicode,
coreType1Parser, coreCFFParser) {
var FONT_IDENTITY_MATRIX = sharedUtil.FONT_IDENTITY_MATRIX;
var FontType = sharedUtil.FontType;
var Util = sharedUtil.Util;
var assert = sharedUtil.assert;
var bytesToString = sharedUtil.bytesToString;
var error = sharedUtil.error;
var info = sharedUtil.info;
var isArray = sharedUtil.isArray;
var isInt = sharedUtil.isInt;
var isNum = sharedUtil.isNum;
var readUint32 = sharedUtil.readUint32;
var shadow = sharedUtil.shadow;
var stringToBytes = sharedUtil.stringToBytes;
var string32 = sharedUtil.string32;
var warn = sharedUtil.warn;
var MissingDataException = sharedUtil.MissingDataException;
var Stream = coreStream.Stream;
var Lexer = coreParser.Lexer;
var getGlyphsUnicode = coreGlyphList.getGlyphsUnicode;
var getDingbatsGlyphsUnicode = coreGlyphList.getDingbatsGlyphsUnicode;
var ISOAdobeCharset = coreCharsets.ISOAdobeCharset;
var ExpertCharset = coreCharsets.ExpertCharset;
var ExpertSubsetCharset = coreCharsets.ExpertSubsetCharset;
var FontRendererFactory = coreFontRenderer.FontRendererFactory;
var WinAnsiEncoding = coreEncodings.WinAnsiEncoding;
var StandardEncoding = coreEncodings.StandardEncoding;
var MacRomanEncoding = coreEncodings.MacRomanEncoding;
var SymbolSetEncoding = coreEncodings.SymbolSetEncoding;
var ZapfDingbatsEncoding = coreEncodings.ZapfDingbatsEncoding;
var ExpertEncoding = coreEncodings.ExpertEncoding;
var getEncoding = coreEncodings.getEncoding;
var getStdFontMap = coreStandardFonts.getStdFontMap;
var getNonStdFontMap = coreStandardFonts.getNonStdFontMap;
var getGlyphMapForStandardFonts = coreStandardFonts.getGlyphMapForStandardFonts;
var getSupplementalGlyphMapForArialBlack =
coreStandardFonts.getSupplementalGlyphMapForArialBlack;
var getUnicodeRangeFor = coreUnicode.getUnicodeRangeFor;
var mapSpecialUnicodeValues = coreUnicode.mapSpecialUnicodeValues;
var getUnicodeForGlyph = coreUnicode.getUnicodeForGlyph;
var Type1Parser = coreType1Parser.Type1Parser;
var CFFStandardStrings = coreCFFParser.CFFStandardStrings;
var CFFParser = coreCFFParser.CFFParser;
var CFFCompiler = coreCFFParser.CFFCompiler;
var CFF = coreCFFParser.CFF;
var CFFHeader = coreCFFParser.CFFHeader;
var CFFTopDict = coreCFFParser.CFFTopDict;
var CFFPrivateDict = coreCFFParser.CFFPrivateDict;
var CFFStrings = coreCFFParser.CFFStrings;
var CFFIndex = coreCFFParser.CFFIndex;
var CFFCharset = coreCFFParser.CFFCharset;
// Unicode Private Use Area
var PRIVATE_USE_OFFSET_START = 0xE000;
var PRIVATE_USE_OFFSET_END = 0xF8FF;
var SKIP_PRIVATE_USE_RANGE_F000_TO_F01F = false;
// PDF Glyph Space Units are one Thousandth of a TextSpace Unit
// except for Type 3 fonts
var PDF_GLYPH_SPACE_UNITS = 1000;
// Accented charactars are not displayed properly on Windows, using this flag
// to control analysis of seac charstrings.
var SEAC_ANALYSIS_ENABLED = false;
var FontFlags = {
FixedPitch: 1,
Serif: 2,
Symbolic: 4,
Script: 8,
Nonsymbolic: 32,
Italic: 64,
AllCap: 65536,
SmallCap: 131072,
ForceBold: 262144
};
var MacStandardGlyphOrdering = [
'.notdef', '.null', 'nonmarkingreturn', 'space', 'exclam', 'quotedbl',
'numbersign', 'dollar', 'percent', 'ampersand', 'quotesingle', 'parenleft',
'parenright', 'asterisk', 'plus', 'comma', 'hyphen', 'period', 'slash',
'zero', 'one', 'two', 'three', 'four', 'five', 'six', 'seven', 'eight',
'nine', 'colon', 'semicolon', 'less', 'equal', 'greater', 'question', 'at',
'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O',
'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', 'bracketleft',
'backslash', 'bracketright', 'asciicircum', 'underscore', 'grave', 'a', 'b',
'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q',
'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', 'braceleft', 'bar', 'braceright',
'asciitilde', 'Adieresis', 'Aring', 'Ccedilla', 'Eacute', 'Ntilde',
'Odieresis', 'Udieresis', 'aacute', 'agrave', 'acircumflex', 'adieresis',
'atilde', 'aring', 'ccedilla', 'eacute', 'egrave', 'ecircumflex', 'edieresis',
'iacute', 'igrave', 'icircumflex', 'idieresis', 'ntilde', 'oacute', 'ograve',
'ocircumflex', 'odieresis', 'otilde', 'uacute', 'ugrave', 'ucircumflex',
'udieresis', 'dagger', 'degree', 'cent', 'sterling', 'section', 'bullet',
'paragraph', 'germandbls', 'registered', 'copyright', 'trademark', 'acute',
'dieresis', 'notequal', 'AE', 'Oslash', 'infinity', 'plusminus', 'lessequal',
'greaterequal', 'yen', 'mu', 'partialdiff', 'summation', 'product', 'pi',
'integral', 'ordfeminine', 'ordmasculine', 'Omega', 'ae', 'oslash',
'questiondown', 'exclamdown', 'logicalnot', 'radical', 'florin',
'approxequal', 'Delta', 'guillemotleft', 'guillemotright', 'ellipsis',
'nonbreakingspace', 'Agrave', 'Atilde', 'Otilde', 'OE', 'oe', 'endash',
'emdash', 'quotedblleft', 'quotedblright', 'quoteleft', 'quoteright',
'divide', 'lozenge', 'ydieresis', 'Ydieresis', 'fraction', 'currency',
'guilsinglleft', 'guilsinglright', 'fi', 'fl', 'daggerdbl', 'periodcentered',
'quotesinglbase', 'quotedblbase', 'perthousand', 'Acircumflex',
'Ecircumflex', 'Aacute', 'Edieresis', 'Egrave', 'Iacute', 'Icircumflex',
'Idieresis', 'Igrave', 'Oacute', 'Ocircumflex', 'apple', 'Ograve', 'Uacute',
'Ucircumflex', 'Ugrave', 'dotlessi', 'circumflex', 'tilde', 'macron',
'breve', 'dotaccent', 'ring', 'cedilla', 'hungarumlaut', 'ogonek', 'caron',
'Lslash', 'lslash', 'Scaron', 'scaron', 'Zcaron', 'zcaron', 'brokenbar',
'Eth', 'eth', 'Yacute', 'yacute', 'Thorn', 'thorn', 'minus', 'multiply',
'onesuperior', 'twosuperior', 'threesuperior', 'onehalf', 'onequarter',
'threequarters', 'franc', 'Gbreve', 'gbreve', 'Idotaccent', 'Scedilla',
'scedilla', 'Cacute', 'cacute', 'Ccaron', 'ccaron', 'dcroat'];
function adjustWidths(properties) {
if (!properties.fontMatrix) {
return;
}
if (properties.fontMatrix[0] === FONT_IDENTITY_MATRIX[0]) {
return;
}
// adjusting width to fontMatrix scale
var scale = 0.001 / properties.fontMatrix[0];
var glyphsWidths = properties.widths;
for (var glyph in glyphsWidths) {
glyphsWidths[glyph] *= scale;
}
properties.defaultWidth *= scale;
}
function getFontType(type, subtype) {
switch (type) {
case 'Type1':
return subtype === 'Type1C' ? FontType.TYPE1C : FontType.TYPE1;
case 'CIDFontType0':
return subtype === 'CIDFontType0C' ? FontType.CIDFONTTYPE0C :
FontType.CIDFONTTYPE0;
case 'OpenType':
return FontType.OPENTYPE;
case 'TrueType':
return FontType.TRUETYPE;
case 'CIDFontType2':
return FontType.CIDFONTTYPE2;
case 'MMType1':
return FontType.MMTYPE1;
case 'Type0':
return FontType.TYPE0;
default:
return FontType.UNKNOWN;
}
}
var Glyph = (function GlyphClosure() {
function Glyph(fontChar, unicode, accent, width, vmetric, operatorListId,
isSpace, isInFont) {
this.fontChar = fontChar;
this.unicode = unicode;
this.accent = accent;
this.width = width;
this.vmetric = vmetric;
this.operatorListId = operatorListId;
this.isSpace = isSpace;
this.isInFont = isInFont;
}
Glyph.prototype.matchesForCache = function(fontChar, unicode, accent, width,
vmetric, operatorListId, isSpace,
isInFont) {
return this.fontChar === fontChar &&
this.unicode === unicode &&
this.accent === accent &&
this.width === width &&
this.vmetric === vmetric &&
this.operatorListId === operatorListId &&
this.isSpace === isSpace &&
this.isInFont === isInFont;
};
return Glyph;
})();
var ToUnicodeMap = (function ToUnicodeMapClosure() {
function ToUnicodeMap(cmap) {
// The elements of this._map can be integers or strings, depending on how
// |cmap| was created.
this._map = cmap;
}
ToUnicodeMap.prototype = {
get length() {
return this._map.length;
},
forEach: function(callback) {
for (var charCode in this._map) {
callback(charCode, this._map[charCode].charCodeAt(0));
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}
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},
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has: function(i) {
return this._map[i] !== undefined;
},
get: function(i) {
return this._map[i];
},
charCodeOf: function(v) {
return this._map.indexOf(v);
}
};
return ToUnicodeMap;
})();
var IdentityToUnicodeMap = (function IdentityToUnicodeMapClosure() {
function IdentityToUnicodeMap(firstChar, lastChar) {
this.firstChar = firstChar;
this.lastChar = lastChar;
}
IdentityToUnicodeMap.prototype = {
get length() {
return (this.lastChar + 1) - this.firstChar;
},
forEach: function (callback) {
for (var i = this.firstChar, ii = this.lastChar; i <= ii; i++) {
callback(i, i);
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}
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},
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has: function (i) {
return this.firstChar <= i && i <= this.lastChar;
},
get: function (i) {
if (this.firstChar <= i && i <= this.lastChar) {
return String.fromCharCode(i);
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}
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return undefined;
},
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charCodeOf: function (v) {
return (isInt(v) && v >= this.firstChar && v <= this.lastChar) ? v : -1;
}
};
return IdentityToUnicodeMap;
})();
var OpenTypeFileBuilder = (function OpenTypeFileBuilderClosure() {
function writeInt16(dest, offset, num) {
dest[offset] = (num >> 8) & 0xFF;
dest[offset + 1] = num & 0xFF;
}
function writeInt32(dest, offset, num) {
dest[offset] = (num >> 24) & 0xFF;
dest[offset + 1] = (num >> 16) & 0xFF;
dest[offset + 2] = (num >> 8) & 0xFF;
dest[offset + 3] = num & 0xFF;
}
function writeData(dest, offset, data) {
var i, ii;
if (data instanceof Uint8Array) {
dest.set(data, offset);
} else if (typeof data === 'string') {
for (i = 0, ii = data.length; i < ii; i++) {
dest[offset++] = data.charCodeAt(i) & 0xFF;
}
} else {
// treating everything else as array
for (i = 0, ii = data.length; i < ii; i++) {
dest[offset++] = data[i] & 0xFF;
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}
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}
}
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function OpenTypeFileBuilder(sfnt) {
this.sfnt = sfnt;
this.tables = Object.create(null);
}
OpenTypeFileBuilder.getSearchParams =
function OpenTypeFileBuilder_getSearchParams(entriesCount, entrySize) {
var maxPower2 = 1, log2 = 0;
while ((maxPower2 ^ entriesCount) > maxPower2) {
maxPower2 <<= 1;
log2++;
}
var searchRange = maxPower2 * entrySize;
return {
range: searchRange,
entry: log2,
rangeShift: entrySize * entriesCount - searchRange
};
};
var OTF_HEADER_SIZE = 12;
var OTF_TABLE_ENTRY_SIZE = 16;
OpenTypeFileBuilder.prototype = {
toArray: function OpenTypeFileBuilder_toArray() {
var sfnt = this.sfnt;
// Tables needs to be written by ascendant alphabetic order
var tables = this.tables;
var tablesNames = Object.keys(tables);
tablesNames.sort();
var numTables = tablesNames.length;
var i, j, jj, table, tableName;
// layout the tables data
var offset = OTF_HEADER_SIZE + numTables * OTF_TABLE_ENTRY_SIZE;
var tableOffsets = [offset];
for (i = 0; i < numTables; i++) {
table = tables[tablesNames[i]];
var paddedLength = ((table.length + 3) & ~3) >>> 0;
offset += paddedLength;
tableOffsets.push(offset);
}
var file = new Uint8Array(offset);
// write the table data first (mostly for checksum)
for (i = 0; i < numTables; i++) {
table = tables[tablesNames[i]];
writeData(file, tableOffsets[i], table);
}
// sfnt version (4 bytes)
if (sfnt === 'true') {
// Windows hates the Mac TrueType sfnt version number
sfnt = string32(0x00010000);
}
file[0] = sfnt.charCodeAt(0) & 0xFF;
file[1] = sfnt.charCodeAt(1) & 0xFF;
file[2] = sfnt.charCodeAt(2) & 0xFF;
file[3] = sfnt.charCodeAt(3) & 0xFF;
// numTables (2 bytes)
writeInt16(file, 4, numTables);
var searchParams = OpenTypeFileBuilder.getSearchParams(numTables, 16);
// searchRange (2 bytes)
writeInt16(file, 6, searchParams.range);
// entrySelector (2 bytes)
writeInt16(file, 8, searchParams.entry);
// rangeShift (2 bytes)
writeInt16(file, 10, searchParams.rangeShift);
offset = OTF_HEADER_SIZE;
// writing table entries
for (i = 0; i < numTables; i++) {
tableName = tablesNames[i];
file[offset] = tableName.charCodeAt(0) & 0xFF;
file[offset + 1] = tableName.charCodeAt(1) & 0xFF;
file[offset + 2] = tableName.charCodeAt(2) & 0xFF;
file[offset + 3] = tableName.charCodeAt(3) & 0xFF;
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// checksum
var checksum = 0;
for (j = tableOffsets[i], jj = tableOffsets[i + 1]; j < jj; j += 4) {
var quad = readUint32(file, j);
checksum = (checksum + quad) >>> 0;
}
writeInt32(file, offset + 4, checksum);
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// offset
writeInt32(file, offset + 8, tableOffsets[i]);
// length
writeInt32(file, offset + 12, tables[tableName].length);
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offset += OTF_TABLE_ENTRY_SIZE;
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}
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return file;
},
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addTable: function OpenTypeFileBuilder_addTable(tag, data) {
if (tag in this.tables) {
throw new Error('Table ' + tag + ' already exists');
}
this.tables[tag] = data;
}
};
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return OpenTypeFileBuilder;
})();
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// Problematic Unicode characters in the fonts that needs to be moved to avoid
// issues when they are painted on the canvas, e.g. complex-script shaping or
// control/whitespace characters. The ranges are listed in pairs: the first item
// is a code of the first problematic code, the second one is the next
// non-problematic code. The ranges must be in sorted order.
var ProblematicCharRanges = new Int32Array([
// Control characters.
0x0000, 0x0020,
0x007F, 0x00A1,
0x00AD, 0x00AE,
// Chars that is used in complex-script shaping.
0x0600, 0x0780,
0x08A0, 0x10A0,
0x1780, 0x1800,
// General punctuation chars.
0x2000, 0x2010,
0x2011, 0x2012,
0x2028, 0x2030,
0x205F, 0x2070,
0x25CC, 0x25CD,
// Chars that is used in complex-script shaping.
0xAA60, 0xAA80,
// Specials Unicode block.
0xFFF0, 0x10000
]);
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/**
* 'Font' is the class the outside world should use, it encapsulate all the font
* decoding logics whatever type it is (assuming the font type is supported).
*
* For example to read a Type1 font and to attach it to the document:
* var type1Font = new Font("MyFontName", binaryFile, propertiesObject);
* type1Font.bind();
*/
var Font = (function FontClosure() {
function Font(name, file, properties) {
var charCode, glyphName, unicode;
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this.name = name;
this.loadedName = properties.loadedName;
this.isType3Font = properties.isType3Font;
this.sizes = [];
this.missingFile = false;
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this.glyphCache = Object.create(null);
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var names = name.split('+');
names = names.length > 1 ? names[1] : names[0];
names = names.split(/[-,_]/g)[0];
this.isSerifFont = !!(properties.flags & FontFlags.Serif);
this.isSymbolicFont = !!(properties.flags & FontFlags.Symbolic);
this.isMonospace = !!(properties.flags & FontFlags.FixedPitch);
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var type = properties.type;
var subtype = properties.subtype;
this.type = type;
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this.fallbackName = (this.isMonospace ? 'monospace' :
(this.isSerifFont ? 'serif' : 'sans-serif'));
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this.differences = properties.differences;
this.widths = properties.widths;
this.defaultWidth = properties.defaultWidth;
this.composite = properties.composite;
this.wideChars = properties.wideChars;
this.cMap = properties.cMap;
this.ascent = properties.ascent / PDF_GLYPH_SPACE_UNITS;
this.descent = properties.descent / PDF_GLYPH_SPACE_UNITS;
this.fontMatrix = properties.fontMatrix;
this.bbox = properties.bbox;
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this.toUnicode = properties.toUnicode;
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this.toFontChar = [];
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if (properties.type === 'Type3') {
for (charCode = 0; charCode < 256; charCode++) {
this.toFontChar[charCode] = (this.differences[charCode] ||
properties.defaultEncoding[charCode]);
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}
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this.fontType = FontType.TYPE3;
return;
}
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this.cidEncoding = properties.cidEncoding;
this.vertical = properties.vertical;
if (this.vertical) {
this.vmetrics = properties.vmetrics;
this.defaultVMetrics = properties.defaultVMetrics;
}
var glyphsUnicodeMap;
if (!file || file.isEmpty) {
if (file) {
// Some bad PDF generators will include empty font files,
// attempting to recover by assuming that no file exists.
warn('Font file is empty in "' + name + '" (' + this.loadedName + ')');
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}
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this.missingFile = true;
// The file data is not specified. Trying to fix the font name
// to be used with the canvas.font.
var fontName = name.replace(/[,_]/g, '-');
var stdFontMap = getStdFontMap(), nonStdFontMap = getNonStdFontMap();
var isStandardFont = !!stdFontMap[fontName] ||
!!(nonStdFontMap[fontName] && stdFontMap[nonStdFontMap[fontName]]);
fontName = stdFontMap[fontName] || nonStdFontMap[fontName] || fontName;
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this.bold = (fontName.search(/bold/gi) !== -1);
this.italic = ((fontName.search(/oblique/gi) !== -1) ||
(fontName.search(/italic/gi) !== -1));
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// Use 'name' instead of 'fontName' here because the original
// name ArialBlack for example will be replaced by Helvetica.
this.black = (name.search(/Black/g) !== -1);
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// if at least one width is present, remeasure all chars when exists
this.remeasure = Object.keys(this.widths).length > 0;
if (isStandardFont && type === 'CIDFontType2' &&
properties.cidEncoding.indexOf('Identity-') === 0) {
var GlyphMapForStandardFonts = getGlyphMapForStandardFonts();
// Standard fonts might be embedded as CID font without glyph mapping.
// Building one based on GlyphMapForStandardFonts.
var map = [];
for (charCode in GlyphMapForStandardFonts) {
map[+charCode] = GlyphMapForStandardFonts[charCode];
}
if (/ArialBlack/i.test(name)) {
var SupplementalGlyphMapForArialBlack =
getSupplementalGlyphMapForArialBlack();
for (charCode in SupplementalGlyphMapForArialBlack) {
map[+charCode] = SupplementalGlyphMapForArialBlack[charCode];
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}
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}
var isIdentityUnicode = this.toUnicode instanceof IdentityToUnicodeMap;
if (!isIdentityUnicode) {
this.toUnicode.forEach(function(charCode, unicodeCharCode) {
map[+charCode] = unicodeCharCode;
});
}
this.toFontChar = map;
this.toUnicode = new ToUnicodeMap(map);
} else if (/Symbol/i.test(fontName)) {
this.toFontChar = buildToFontChar(SymbolSetEncoding, getGlyphsUnicode(),
properties.differences);
} else if (/Dingbats/i.test(fontName)) {
if (/Wingdings/i.test(name)) {
warn('Non-embedded Wingdings font, falling back to ZapfDingbats.');
}
this.toFontChar = buildToFontChar(ZapfDingbatsEncoding,
getDingbatsGlyphsUnicode(),
properties.differences);
} else if (isStandardFont) {
this.toFontChar = buildToFontChar(properties.defaultEncoding,
getGlyphsUnicode(),
properties.differences);
} else {
glyphsUnicodeMap = getGlyphsUnicode();
this.toUnicode.forEach(function(charCode, unicodeCharCode) {
if (!this.composite) {
glyphName = (properties.differences[charCode] ||
properties.defaultEncoding[charCode]);
unicode = getUnicodeForGlyph(glyphName, glyphsUnicodeMap);
if (unicode !== -1) {
unicodeCharCode = unicode;
}
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}
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this.toFontChar[charCode] = unicodeCharCode;
}.bind(this));
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}
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this.loadedName = fontName.split('-')[0];
this.loading = false;
this.fontType = getFontType(type, subtype);
return;
}
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// Some fonts might use wrong font types for Type1C or CIDFontType0C
if (subtype === 'Type1C' && (type !== 'Type1' && type !== 'MMType1')) {
// Some TrueType fonts by mistake claim Type1C
if (isTrueTypeFile(file)) {
subtype = 'TrueType';
} else {
type = 'Type1';
}
}
if (subtype === 'CIDFontType0C' && type !== 'CIDFontType0') {
type = 'CIDFontType0';
}
if (subtype === 'OpenType') {
type = 'OpenType';
}
// Some CIDFontType0C fonts by mistake claim CIDFontType0.
if (type === 'CIDFontType0') {
if (isType1File(file)) {
subtype = 'CIDFontType0';
} else if (isOpenTypeFile(file)) {
// Sometimes the type/subtype can be a complete lie (see issue6782.pdf).
type = subtype = 'OpenType';
} else {
subtype = 'CIDFontType0C';
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}
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}
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var data;
switch (type) {
case 'MMType1':
info('MMType1 font (' + name + '), falling back to Type1.');
/* falls through */
case 'Type1':
case 'CIDFontType0':
this.mimetype = 'font/opentype';
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var cff = (subtype === 'Type1C' || subtype === 'CIDFontType0C') ?
new CFFFont(file, properties) : new Type1Font(name, file, properties);
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adjustWidths(properties);
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// Wrap the CFF data inside an OTF font file
data = this.convert(name, cff, properties);
break;
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case 'OpenType':
case 'TrueType':
case 'CIDFontType2':
this.mimetype = 'font/opentype';
// Repair the TrueType file. It is can be damaged in the point of
// view of the sanitizer
data = this.checkAndRepair(name, file, properties);
if (this.isOpenType) {
adjustWidths(properties);
type = 'OpenType';
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}
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break;
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default:
error('Font ' + type + ' is not supported');
break;
}
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this.data = data;
this.fontType = getFontType(type, subtype);
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// Transfer some properties again that could change during font conversion
this.fontMatrix = properties.fontMatrix;
this.widths = properties.widths;
this.defaultWidth = properties.defaultWidth;
this.encoding = properties.baseEncoding;
this.seacMap = properties.seacMap;
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this.loading = true;
}
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Font.getFontID = (function () {
var ID = 1;
return function Font_getFontID() {
return String(ID++);
};
})();
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function int16(b0, b1) {
return (b0 << 8) + b1;
}
function signedInt16(b0, b1) {
var value = (b0 << 8) + b1;
return value & (1 << 15) ? value - 0x10000 : value;
}
function int32(b0, b1, b2, b3) {
return (b0 << 24) + (b1 << 16) + (b2 << 8) + b3;
}
function string16(value) {
return String.fromCharCode((value >> 8) & 0xff, value & 0xff);
}
function safeString16(value) {
// clamp value to the 16-bit int range
value = (value > 0x7FFF ? 0x7FFF : (value < -0x8000 ? -0x8000 : value));
return String.fromCharCode((value >> 8) & 0xff, value & 0xff);
}
function isTrueTypeFile(file) {
var header = file.peekBytes(4);
return readUint32(header, 0) === 0x00010000;
}
function isOpenTypeFile(file) {
var header = file.peekBytes(4);
return bytesToString(header) === 'OTTO';
}
function isType1File(file) {
var header = file.peekBytes(2);
// All Type1 font programs must begin with the comment '%!' (0x25 + 0x21).
if (header[0] === 0x25 && header[1] === 0x21) {
return true;
}
// ... obviously some fonts violate that part of the specification,
// please refer to the comment in |Type1Font| below.
if (header[0] === 0x80 && header[1] === 0x01) { // pfb file header.
return true;
}
return false;
}
function buildToFontChar(encoding, glyphsUnicodeMap, differences) {
var toFontChar = [], unicode;
for (var i = 0, ii = encoding.length; i < ii; i++) {
unicode = getUnicodeForGlyph(encoding[i], glyphsUnicodeMap);
if (unicode !== -1) {
toFontChar[i] = unicode;
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}
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}
for (var charCode in differences) {
unicode = getUnicodeForGlyph(differences[charCode], glyphsUnicodeMap);
if (unicode !== -1) {
toFontChar[+charCode] = unicode;
}
}
return toFontChar;
}
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/**
* Helper function for |adjustMapping|.
* @return {boolean}
*/
function isProblematicUnicodeLocation(code) {
// Using binary search to find a range start.
var i = 0, j = ProblematicCharRanges.length - 1;
while (i < j) {
var c = (i + j + 1) >> 1;
if (code < ProblematicCharRanges[c]) {
j = c - 1;
} else {
i = c;
}
}
// Even index means code in problematic range.
return !(i & 1);
}
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/**
* Rebuilds the char code to glyph ID map by trying to replace the char codes
* with their unicode value. It also moves char codes that are in known
* problematic locations.
* @return {Object} Two properties:
* 'toFontChar' - maps original char codes(the value that will be read
* from commands such as show text) to the char codes that will be used in the
* font that we build
* 'charCodeToGlyphId' - maps the new font char codes to glyph ids
*/
function adjustMapping(charCodeToGlyphId, properties) {
var toUnicode = properties.toUnicode;
var isSymbolic = !!(properties.flags & FontFlags.Symbolic);
var isIdentityUnicode =
properties.toUnicode instanceof IdentityToUnicodeMap;
var newMap = Object.create(null);
var toFontChar = [];
var usedFontCharCodes = [];
var nextAvailableFontCharCode = PRIVATE_USE_OFFSET_START;
for (var originalCharCode in charCodeToGlyphId) {
originalCharCode |= 0;
var glyphId = charCodeToGlyphId[originalCharCode];
var fontCharCode = originalCharCode;
// First try to map the value to a unicode position if a non identity map
// was created.
if (!isIdentityUnicode && toUnicode.has(originalCharCode)) {
var unicode = toUnicode.get(fontCharCode);
// TODO: Try to map ligatures to the correct spot.
if (unicode.length === 1) {
fontCharCode = unicode.charCodeAt(0);
}
}
// Try to move control characters, special characters and already mapped
// characters to the private use area since they will not be drawn by
// canvas if left in their current position. Also, move characters if the
// font was symbolic and there is only an identity unicode map since the
// characters probably aren't in the correct position (fixes an issue
// with firefox and thuluthfont).
if ((usedFontCharCodes[fontCharCode] !== undefined ||
isProblematicUnicodeLocation(fontCharCode) ||
(isSymbolic && isIdentityUnicode)) &&
nextAvailableFontCharCode <= PRIVATE_USE_OFFSET_END) { // Room left.
// Loop to try and find a free spot in the private use area.
do {
fontCharCode = nextAvailableFontCharCode++;
if (SKIP_PRIVATE_USE_RANGE_F000_TO_F01F && fontCharCode === 0xF000) {
fontCharCode = 0xF020;
nextAvailableFontCharCode = fontCharCode + 1;
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}
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} while (usedFontCharCodes[fontCharCode] !== undefined &&
nextAvailableFontCharCode <= PRIVATE_USE_OFFSET_END);
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}
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newMap[fontCharCode] = glyphId;
toFontChar[originalCharCode] = fontCharCode;
usedFontCharCodes[fontCharCode] = true;
}
return {
toFontChar: toFontChar,
charCodeToGlyphId: newMap,
nextAvailableFontCharCode: nextAvailableFontCharCode
};
}
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function getRanges(glyphs, numGlyphs) {
// Array.sort() sorts by characters, not numerically, so convert to an
// array of characters.
var codes = [];
for (var charCode in glyphs) {
// Remove an invalid glyph ID mappings to make OTS happy.
if (glyphs[charCode] >= numGlyphs) {
continue;
}
codes.push({ fontCharCode: charCode | 0, glyphId: glyphs[charCode] });
}
codes.sort(function fontGetRangesSort(a, b) {
return a.fontCharCode - b.fontCharCode;
});
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// Split the sorted codes into ranges.
var ranges = [];
var length = codes.length;
for (var n = 0; n < length; ) {
var start = codes[n].fontCharCode;
var codeIndices = [codes[n].glyphId];
++n;
var end = start;
while (n < length && end + 1 === codes[n].fontCharCode) {
codeIndices.push(codes[n].glyphId);
++end;
++n;
if (end === 0xFFFF) {
break;
}
}
ranges.push([start, end, codeIndices]);
}
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return ranges;
}
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function createCmapTable(glyphs, numGlyphs) {
var ranges = getRanges(glyphs, numGlyphs);
var numTables = ranges[ranges.length - 1][1] > 0xFFFF ? 2 : 1;
var cmap = '\x00\x00' + // version
string16(numTables) + // numTables
'\x00\x03' + // platformID
'\x00\x01' + // encodingID
string32(4 + numTables * 8); // start of the table record
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var i, ii, j, jj;
for (i = ranges.length - 1; i >= 0; --i) {
if (ranges[i][0] <= 0xFFFF) { break; }
}
var bmpLength = i + 1;
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if (ranges[i][0] < 0xFFFF && ranges[i][1] === 0xFFFF) {
ranges[i][1] = 0xFFFE;
}
var trailingRangesCount = ranges[i][1] < 0xFFFF ? 1 : 0;
var segCount = bmpLength + trailingRangesCount;
var searchParams = OpenTypeFileBuilder.getSearchParams(segCount, 2);
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// Fill up the 4 parallel arrays describing the segments.
var startCount = '';
var endCount = '';
var idDeltas = '';
var idRangeOffsets = '';
var glyphsIds = '';
var bias = 0;
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var range, start, end, codes;
for (i = 0, ii = bmpLength; i < ii; i++) {
range = ranges[i];
start = range[0];
end = range[1];
startCount += string16(start);
endCount += string16(end);
codes = range[2];
var contiguous = true;
for (j = 1, jj = codes.length; j < jj; ++j) {
if (codes[j] !== codes[j - 1] + 1) {
contiguous = false;
break;
}
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}
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if (!contiguous) {
var offset = (segCount - i) * 2 + bias * 2;
bias += (end - start + 1);
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idDeltas += string16(0);
idRangeOffsets += string16(offset);
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for (j = 0, jj = codes.length; j < jj; ++j) {
glyphsIds += string16(codes[j]);
}
} else {
var startCode = codes[0];
idDeltas += string16((startCode - start) & 0xFFFF);
idRangeOffsets += string16(0);
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}
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}
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if (trailingRangesCount > 0) {
endCount += '\xFF\xFF';
startCount += '\xFF\xFF';
idDeltas += '\x00\x01';
idRangeOffsets += '\x00\x00';
}
var format314 = '\x00\x00' + // language
string16(2 * segCount) +
string16(searchParams.range) +
string16(searchParams.entry) +
string16(searchParams.rangeShift) +
endCount + '\x00\x00' + startCount +
idDeltas + idRangeOffsets + glyphsIds;
var format31012 = '';
var header31012 = '';
if (numTables > 1) {
cmap += '\x00\x03' + // platformID
'\x00\x0A' + // encodingID
string32(4 + numTables * 8 +
4 + format314.length); // start of the table record
format31012 = '';
for (i = 0, ii = ranges.length; i < ii; i++) {
range = ranges[i];
start = range[0];
codes = range[2];
var code = codes[0];
for (j = 1, jj = codes.length; j < jj; ++j) {
if (codes[j] !== codes[j - 1] + 1) {
end = range[0] + j - 1;
format31012 += string32(start) + // startCharCode
string32(end) + // endCharCode
string32(code); // startGlyphID
start = end + 1;
code = codes[j];
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}
}
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format31012 += string32(start) + // startCharCode
string32(range[1]) + // endCharCode
string32(code); // startGlyphID
}
header31012 = '\x00\x0C' + // format
'\x00\x00' + // reserved
string32(format31012.length + 16) + // length
'\x00\x00\x00\x00' + // language
string32(format31012.length / 12); // nGroups
}
return cmap + '\x00\x04' + // format
string16(format314.length + 4) + // length
format314 + header31012 + format31012;
}
function validateOS2Table(os2) {
var stream = new Stream(os2.data);
var version = stream.getUint16();
// TODO verify all OS/2 tables fields, but currently we validate only those
// that give us issues
stream.getBytes(60); // skipping type, misc sizes, panose, unicode ranges
var selection = stream.getUint16();
if (version < 4 && (selection & 0x0300)) {
return false;
}
var firstChar = stream.getUint16();
var lastChar = stream.getUint16();
if (firstChar > lastChar) {
return false;
}
stream.getBytes(6); // skipping sTypoAscender/Descender/LineGap
var usWinAscent = stream.getUint16();
if (usWinAscent === 0) { // makes font unreadable by windows
return false;
}
// OS/2 appears to be valid, resetting some fields
os2.data[8] = os2.data[9] = 0; // IE rejects fonts if fsType != 0
return true;
}
function createOS2Table(properties, charstrings, override) {
override = override || {
unitsPerEm: 0,
yMax: 0,
yMin: 0,
ascent: 0,
descent: 0
};
var ulUnicodeRange1 = 0;
var ulUnicodeRange2 = 0;
var ulUnicodeRange3 = 0;
var ulUnicodeRange4 = 0;
var firstCharIndex = null;
var lastCharIndex = 0;
if (charstrings) {
for (var code in charstrings) {
code |= 0;
if (firstCharIndex > code || !firstCharIndex) {
firstCharIndex = code;
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}
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if (lastCharIndex < code) {
lastCharIndex = code;
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}
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var position = getUnicodeRangeFor(code);
if (position < 32) {
ulUnicodeRange1 |= 1 << position;
} else if (position < 64) {
ulUnicodeRange2 |= 1 << position - 32;
} else if (position < 96) {
ulUnicodeRange3 |= 1 << position - 64;
} else if (position < 123) {
ulUnicodeRange4 |= 1 << position - 96;
} else {
error('Unicode ranges Bits > 123 are reserved for internal usage');
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}
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}
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} else {
// TODO
firstCharIndex = 0;
lastCharIndex = 255;
}
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var bbox = properties.bbox || [0, 0, 0, 0];
var unitsPerEm = (override.unitsPerEm ||
1 / (properties.fontMatrix || FONT_IDENTITY_MATRIX)[0]);
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// if the font units differ to the PDF glyph space units
// then scale up the values
var scale = (properties.ascentScaled ? 1.0 :
unitsPerEm / PDF_GLYPH_SPACE_UNITS);
var typoAscent = (override.ascent ||
Math.round(scale * (properties.ascent || bbox[3])));
var typoDescent = (override.descent ||
Math.round(scale * (properties.descent || bbox[1])));
if (typoDescent > 0 && properties.descent > 0 && bbox[1] < 0) {
typoDescent = -typoDescent; // fixing incorrect descent
}
var winAscent = override.yMax || typoAscent;
var winDescent = -override.yMin || -typoDescent;
return '\x00\x03' + // version
'\x02\x24' + // xAvgCharWidth
'\x01\xF4' + // usWeightClass
'\x00\x05' + // usWidthClass
'\x00\x00' + // fstype (0 to let the font loads via font-face on IE)
'\x02\x8A' + // ySubscriptXSize
'\x02\xBB' + // ySubscriptYSize
'\x00\x00' + // ySubscriptXOffset
'\x00\x8C' + // ySubscriptYOffset
'\x02\x8A' + // ySuperScriptXSize
'\x02\xBB' + // ySuperScriptYSize
'\x00\x00' + // ySuperScriptXOffset
'\x01\xDF' + // ySuperScriptYOffset
'\x00\x31' + // yStrikeOutSize
'\x01\x02' + // yStrikeOutPosition
'\x00\x00' + // sFamilyClass
'\x00\x00\x06' +
String.fromCharCode(properties.fixedPitch ? 0x09 : 0x00) +
'\x00\x00\x00\x00\x00\x00' + // Panose
string32(ulUnicodeRange1) + // ulUnicodeRange1 (Bits 0-31)
string32(ulUnicodeRange2) + // ulUnicodeRange2 (Bits 32-63)
string32(ulUnicodeRange3) + // ulUnicodeRange3 (Bits 64-95)
string32(ulUnicodeRange4) + // ulUnicodeRange4 (Bits 96-127)
'\x2A\x32\x31\x2A' + // achVendID
string16(properties.italicAngle ? 1 : 0) + // fsSelection
string16(firstCharIndex ||
properties.firstChar) + // usFirstCharIndex
string16(lastCharIndex || properties.lastChar) + // usLastCharIndex
string16(typoAscent) + // sTypoAscender
string16(typoDescent) + // sTypoDescender
'\x00\x64' + // sTypoLineGap (7%-10% of the unitsPerEM value)
string16(winAscent) + // usWinAscent
string16(winDescent) + // usWinDescent
'\x00\x00\x00\x00' + // ulCodePageRange1 (Bits 0-31)
'\x00\x00\x00\x00' + // ulCodePageRange2 (Bits 32-63)
string16(properties.xHeight) + // sxHeight
string16(properties.capHeight) + // sCapHeight
string16(0) + // usDefaultChar
string16(firstCharIndex || properties.firstChar) + // usBreakChar
'\x00\x03'; // usMaxContext
}
function createPostTable(properties) {
var angle = Math.floor(properties.italicAngle * (Math.pow(2, 16)));
return ('\x00\x03\x00\x00' + // Version number
string32(angle) + // italicAngle
'\x00\x00' + // underlinePosition
'\x00\x00' + // underlineThickness
string32(properties.fixedPitch) + // isFixedPitch
'\x00\x00\x00\x00' + // minMemType42
'\x00\x00\x00\x00' + // maxMemType42
'\x00\x00\x00\x00' + // minMemType1
'\x00\x00\x00\x00'); // maxMemType1
}
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function createNameTable(name, proto) {
if (!proto) {
proto = [[], []]; // no strings and unicode strings
}
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var strings = [
proto[0][0] || 'Original licence', // 0.Copyright
proto[0][1] || name, // 1.Font family
proto[0][2] || 'Unknown', // 2.Font subfamily (font weight)
proto[0][3] || 'uniqueID', // 3.Unique ID
proto[0][4] || name, // 4.Full font name
proto[0][5] || 'Version 0.11', // 5.Version
proto[0][6] || '', // 6.Postscript name
proto[0][7] || 'Unknown', // 7.Trademark
proto[0][8] || 'Unknown', // 8.Manufacturer
proto[0][9] || 'Unknown' // 9.Designer
];
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// Mac want 1-byte per character strings while Windows want
// 2-bytes per character, so duplicate the names table
var stringsUnicode = [];
var i, ii, j, jj, str;
for (i = 0, ii = strings.length; i < ii; i++) {
str = proto[1][i] || strings[i];
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var strBufUnicode = [];
for (j = 0, jj = str.length; j < jj; j++) {
strBufUnicode.push(string16(str.charCodeAt(j)));
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}
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stringsUnicode.push(strBufUnicode.join(''));
}
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var names = [strings, stringsUnicode];
var platforms = ['\x00\x01', '\x00\x03'];
var encodings = ['\x00\x00', '\x00\x01'];
var languages = ['\x00\x00', '\x04\x09'];
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var namesRecordCount = strings.length * platforms.length;
var nameTable =
'\x00\x00' + // format
string16(namesRecordCount) + // Number of names Record
string16(namesRecordCount * 12 + 6); // Storage
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// Build the name records field
var strOffset = 0;
for (i = 0, ii = platforms.length; i < ii; i++) {
var strs = names[i];
for (j = 0, jj = strs.length; j < jj; j++) {
str = strs[j];
var nameRecord =
platforms[i] + // platform ID
encodings[i] + // encoding ID
languages[i] + // language ID
string16(j) + // name ID
string16(str.length) +
string16(strOffset);
nameTable += nameRecord;
strOffset += str.length;
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}
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}
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nameTable += strings.join('') + stringsUnicode.join('');
return nameTable;
}
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Font.prototype = {
name: null,
font: null,
mimetype: null,
encoding: null,
get renderer() {
var renderer = FontRendererFactory.create(this, SEAC_ANALYSIS_ENABLED);
return shadow(this, 'renderer', renderer);
},
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exportData: function Font_exportData() {
// TODO remove enumerating of the properties, e.g. hardcode exact names.
var data = {};
for (var i in this) {
if (this.hasOwnProperty(i)) {
data[i] = this[i];
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}
}
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return data;
},
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checkAndRepair: function Font_checkAndRepair(name, font, properties) {
function readTableEntry(file) {
var tag = bytesToString(file.getBytes(4));
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var checksum = file.getInt32() >>> 0;
var offset = file.getInt32() >>> 0;
var length = file.getInt32() >>> 0;
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// Read the table associated data
var previousPosition = file.pos;
file.pos = file.start ? file.start : 0;
file.skip(offset);
var data = file.getBytes(length);
file.pos = previousPosition;
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if (tag === 'head') {
// clearing checksum adjustment
data[8] = data[9] = data[10] = data[11] = 0;
data[17] |= 0x20; //Set font optimized for cleartype flag
}
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return {
tag: tag,
checksum: checksum,
length: length,
offset: offset,
data: data
};
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}
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function readOpenTypeHeader(ttf) {
return {
version: bytesToString(ttf.getBytes(4)),
numTables: ttf.getUint16(),
searchRange: ttf.getUint16(),
entrySelector: ttf.getUint16(),
rangeShift: ttf.getUint16()
};
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}
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/**
* Read the appropriate subtable from the cmap according to 9.6.6.4 from
* PDF spec
*/
function readCmapTable(cmap, font, isSymbolicFont, hasEncoding) {
if (!cmap) {
warn('No cmap table available.');
return {
platformId: -1,
encodingId: -1,
mappings: [],
hasShortCmap: false
};
}
var segment;
var start = (font.start ? font.start : 0) + cmap.offset;
font.pos = start;
var version = font.getUint16();
var numTables = font.getUint16();
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var potentialTable;
var canBreak = false;
// There's an order of preference in terms of which cmap subtable to
// use:
// - non-symbolic fonts the preference is a 3,1 table then a 1,0 table
// - symbolic fonts the preference is a 3,0 table then a 1,0 table
// The following takes advantage of the fact that the tables are sorted
// to work.
for (var i = 0; i < numTables; i++) {
var platformId = font.getUint16();
var encodingId = font.getUint16();
var offset = font.getInt32() >>> 0;
var useTable = false;
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if (platformId === 0 && encodingId === 0) {
useTable = true;
// Continue the loop since there still may be a higher priority
// table.
} else if (platformId === 1 && encodingId === 0) {
useTable = true;
// Continue the loop since there still may be a higher priority
// table.
} else if (platformId === 3 && encodingId === 1 &&
((!isSymbolicFont && hasEncoding) || !potentialTable)) {
useTable = true;
if (!isSymbolicFont) {
canBreak = true;
}
} else if (isSymbolicFont && platformId === 3 && encodingId === 0) {
useTable = true;
canBreak = true;
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}
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if (useTable) {
potentialTable = {
platformId: platformId,
encodingId: encodingId,
offset: offset
};
}
if (canBreak) {
break;
}
}
if (potentialTable) {
font.pos = start + potentialTable.offset;
}
if (!potentialTable || font.peekByte() === -1) {
warn('Could not find a preferred cmap table.');
return {
platformId: -1,
encodingId: -1,
mappings: [],
hasShortCmap: false
};
}
var format = font.getUint16();
var length = font.getUint16();
var language = font.getUint16();
var hasShortCmap = false;
var mappings = [];
var j, glyphId;
// TODO(mack): refactor this cmap subtable reading logic out
if (format === 0) {
for (j = 0; j < 256; j++) {
var index = font.getByte();
if (!index) {
continue;
}
mappings.push({
charCode: j,
glyphId: index
});
}
hasShortCmap = true;
} else if (format === 4) {
// re-creating the table in format 4 since the encoding
// might be changed
var segCount = (font.getUint16() >> 1);
font.getBytes(6); // skipping range fields
var segIndex, segments = [];
for (segIndex = 0; segIndex < segCount; segIndex++) {
segments.push({ end: font.getUint16() });
}
font.getUint16();
for (segIndex = 0; segIndex < segCount; segIndex++) {
segments[segIndex].start = font.getUint16();
}
for (segIndex = 0; segIndex < segCount; segIndex++) {
segments[segIndex].delta = font.getUint16();
}
var offsetsCount = 0;
for (segIndex = 0; segIndex < segCount; segIndex++) {
segment = segments[segIndex];
var rangeOffset = font.getUint16();
if (!rangeOffset) {
segment.offsetIndex = -1;
continue;
}
var offsetIndex = (rangeOffset >> 1) - (segCount - segIndex);
segment.offsetIndex = offsetIndex;
offsetsCount = Math.max(offsetsCount, offsetIndex +
segment.end - segment.start + 1);
}
var offsets = [];
for (j = 0; j < offsetsCount; j++) {
offsets.push(font.getUint16());
}
for (segIndex = 0; segIndex < segCount; segIndex++) {
segment = segments[segIndex];
start = segment.start;
var end = segment.end;
var delta = segment.delta;
offsetIndex = segment.offsetIndex;
for (j = start; j <= end; j++) {
if (j === 0xFFFF) {
continue;
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}
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glyphId = (offsetIndex < 0 ?
j : offsets[offsetIndex + j - start]);
glyphId = (glyphId + delta) & 0xFFFF;
if (glyphId === 0) {
continue;
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}
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mappings.push({
charCode: j,
glyphId: glyphId
});
}
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}
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} else if (format === 6) {
// Format 6 is a 2-bytes dense mapping, which means the font data
// lives glue together even if they are pretty far in the unicode
// table. (This looks weird, so I can have missed something), this
// works on Linux but seems to fails on Mac so let's rewrite the
// cmap table to a 3-1-4 style
var firstCode = font.getUint16();
var entryCount = font.getUint16();
for (j = 0; j < entryCount; j++) {
glyphId = font.getUint16();
var charCode = firstCode + j;
mappings.push({
charCode: charCode,
glyphId: glyphId
});
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}
} else {
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warn('cmap table has unsupported format: ' + format);
return {
platformId: -1,
encodingId: -1,
mappings: [],
hasShortCmap: false
};
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}
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// removing duplicate entries
mappings.sort(function (a, b) {
return a.charCode - b.charCode;
});
for (i = 1; i < mappings.length; i++) {
if (mappings[i - 1].charCode === mappings[i].charCode) {
mappings.splice(i, 1);
i--;
}
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}
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return {
platformId: potentialTable.platformId,
encodingId: potentialTable.encodingId,
mappings: mappings,
hasShortCmap: hasShortCmap
};
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}
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function sanitizeMetrics(font, header, metrics, numGlyphs) {
if (!header) {
if (metrics) {
metrics.data = null;
}
return;
}
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font.pos = (font.start ? font.start : 0) + header.offset;
font.pos += header.length - 2;
var numOfMetrics = font.getUint16();
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if (numOfMetrics > numGlyphs) {
info('The numOfMetrics (' + numOfMetrics + ') should not be ' +
'greater than the numGlyphs (' + numGlyphs + ')');
// Reduce numOfMetrics if it is greater than numGlyphs
numOfMetrics = numGlyphs;
header.data[34] = (numOfMetrics & 0xff00) >> 8;
header.data[35] = numOfMetrics & 0x00ff;
}
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var numOfSidebearings = numGlyphs - numOfMetrics;
var numMissing = numOfSidebearings -
((metrics.length - numOfMetrics * 4) >> 1);
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if (numMissing > 0) {
// For each missing glyph, we set both the width and lsb to 0 (zero).
// Since we need to add two properties for each glyph, this explains
// the use of |numMissing * 2| when initializing the typed array.
var entries = new Uint8Array(metrics.length + numMissing * 2);
entries.set(metrics.data);
metrics.data = entries;
}
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}
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function sanitizeGlyph(source, sourceStart, sourceEnd, dest, destStart,
hintsValid) {
if (sourceEnd - sourceStart <= 12) {
// glyph with data less than 12 is invalid one
return 0;
}
var glyf = source.subarray(sourceStart, sourceEnd);
var contoursCount = (glyf[0] << 8) | glyf[1];
if (contoursCount & 0x8000) {
// complex glyph, writing as is
dest.set(glyf, destStart);
return glyf.length;
}
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var i, j = 10, flagsCount = 0;
for (i = 0; i < contoursCount; i++) {
var endPoint = (glyf[j] << 8) | glyf[j + 1];
flagsCount = endPoint + 1;
j += 2;
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}
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// skipping instructions
var instructionsStart = j;
var instructionsLength = (glyf[j] << 8) | glyf[j + 1];
j += 2 + instructionsLength;
var instructionsEnd = j;
// validating flags
var coordinatesLength = 0;
for (i = 0; i < flagsCount; i++) {
var flag = glyf[j++];
if (flag & 0xC0) {
// reserved flags must be zero, cleaning up
glyf[j - 1] = flag & 0x3F;
}
var xyLength = ((flag & 2) ? 1 : (flag & 16) ? 0 : 2) +
((flag & 4) ? 1 : (flag & 32) ? 0 : 2);
coordinatesLength += xyLength;
if (flag & 8) {
var repeat = glyf[j++];
i += repeat;
coordinatesLength += repeat * xyLength;
}
}
// glyph without coordinates will be rejected
if (coordinatesLength === 0) {
return 0;
}
var glyphDataLength = j + coordinatesLength;
if (glyphDataLength > glyf.length) {
// not enough data for coordinates
return 0;
}
if (!hintsValid && instructionsLength > 0) {
dest.set(glyf.subarray(0, instructionsStart), destStart);
dest.set([0, 0], destStart + instructionsStart);
dest.set(glyf.subarray(instructionsEnd, glyphDataLength),
destStart + instructionsStart + 2);
glyphDataLength -= instructionsLength;
if (glyf.length - glyphDataLength > 3) {
glyphDataLength = (glyphDataLength + 3) & ~3;
}
return glyphDataLength;
}
if (glyf.length - glyphDataLength > 3) {
// truncating and aligning to 4 bytes the long glyph data
glyphDataLength = (glyphDataLength + 3) & ~3;
dest.set(glyf.subarray(0, glyphDataLength), destStart);
return glyphDataLength;
}
// glyph data is fine
dest.set(glyf, destStart);
return glyf.length;
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}
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function sanitizeHead(head, numGlyphs, locaLength) {
var data = head.data;
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// Validate version:
// Should always be 0x00010000
var version = int32(data[0], data[1], data[2], data[3]);
if (version >> 16 !== 1) {
info('Attempting to fix invalid version in head table: ' + version);
data[0] = 0;
data[1] = 1;
data[2] = 0;
data[3] = 0;
}
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var indexToLocFormat = int16(data[50], data[51]);
if (indexToLocFormat < 0 || indexToLocFormat > 1) {
info('Attempting to fix invalid indexToLocFormat in head table: ' +
indexToLocFormat);
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// The value of indexToLocFormat should be 0 if the loca table
// consists of short offsets, and should be 1 if the loca table
// consists of long offsets.
//
// The number of entries in the loca table should be numGlyphs + 1.
//
// Using this information, we can work backwards to deduce if the
// size of each offset in the loca table, and thus figure out the
// appropriate value for indexToLocFormat.
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var numGlyphsPlusOne = numGlyphs + 1;
if (locaLength === numGlyphsPlusOne << 1) {
// 0x0000 indicates the loca table consists of short offsets
data[50] = 0;
data[51] = 0;
} else if (locaLength === numGlyphsPlusOne << 2) {
// 0x0001 indicates the loca table consists of long offsets
data[50] = 0;
data[51] = 1;
} else {
warn('Could not fix indexToLocFormat: ' + indexToLocFormat);
}
}
}
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function sanitizeGlyphLocations(loca, glyf, numGlyphs,
isGlyphLocationsLong, hintsValid,
dupFirstEntry) {
var itemSize, itemDecode, itemEncode;
if (isGlyphLocationsLong) {
itemSize = 4;
itemDecode = function fontItemDecodeLong(data, offset) {
return (data[offset] << 24) | (data[offset + 1] << 16) |
(data[offset + 2] << 8) | data[offset + 3];
};
itemEncode = function fontItemEncodeLong(data, offset, value) {
data[offset] = (value >>> 24) & 0xFF;
data[offset + 1] = (value >> 16) & 0xFF;
data[offset + 2] = (value >> 8) & 0xFF;
data[offset + 3] = value & 0xFF;
};
} else {
itemSize = 2;
itemDecode = function fontItemDecode(data, offset) {
return (data[offset] << 9) | (data[offset + 1] << 1);
};
itemEncode = function fontItemEncode(data, offset, value) {
data[offset] = (value >> 9) & 0xFF;
data[offset + 1] = (value >> 1) & 0xFF;
};
}
var locaData = loca.data;
var locaDataSize = itemSize * (1 + numGlyphs);
// is loca.data too short or long?
if (locaData.length !== locaDataSize) {
locaData = new Uint8Array(locaDataSize);
locaData.set(loca.data.subarray(0, locaDataSize));
loca.data = locaData;
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}
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// removing the invalid glyphs
var oldGlyfData = glyf.data;
var oldGlyfDataLength = oldGlyfData.length;
var newGlyfData = new Uint8Array(oldGlyfDataLength);
var startOffset = itemDecode(locaData, 0);
var writeOffset = 0;
var missingGlyphData = Object.create(null);
itemEncode(locaData, 0, writeOffset);
var i, j;
for (i = 0, j = itemSize; i < numGlyphs; i++, j += itemSize) {
var endOffset = itemDecode(locaData, j);
if (endOffset > oldGlyfDataLength &&
((oldGlyfDataLength + 3) & ~3) === endOffset) {
// Aspose breaks fonts by aligning the glyphs to the qword, but not
// the glyf table size, which makes last glyph out of range.
endOffset = oldGlyfDataLength;
}
if (endOffset > oldGlyfDataLength) {
// glyph end offset points outside glyf data, rejecting the glyph
itemEncode(locaData, j, writeOffset);
startOffset = endOffset;
continue;
}
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if (startOffset === endOffset) {
missingGlyphData[i] = true;
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}
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var newLength = sanitizeGlyph(oldGlyfData, startOffset, endOffset,
newGlyfData, writeOffset, hintsValid);
writeOffset += newLength;
itemEncode(locaData, j, writeOffset);
startOffset = endOffset;
}
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if (writeOffset === 0) {
// glyf table cannot be empty -- redoing the glyf and loca tables
// to have single glyph with one point
var simpleGlyph = new Uint8Array(
[0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 49, 0]);
for (i = 0, j = itemSize; i < numGlyphs; i++, j += itemSize) {
itemEncode(locaData, j, simpleGlyph.length);
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}
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glyf.data = simpleGlyph;
return missingGlyphData;
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}
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if (dupFirstEntry) {
var firstEntryLength = itemDecode(locaData, itemSize);
if (newGlyfData.length > firstEntryLength + writeOffset) {
glyf.data = newGlyfData.subarray(0, firstEntryLength + writeOffset);
} else {
glyf.data = new Uint8Array(firstEntryLength + writeOffset);
glyf.data.set(newGlyfData.subarray(0, writeOffset));
}
glyf.data.set(newGlyfData.subarray(0, firstEntryLength), writeOffset);
itemEncode(loca.data, locaData.length - itemSize,
writeOffset + firstEntryLength);
} else {
glyf.data = newGlyfData.subarray(0, writeOffset);
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}
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return missingGlyphData;
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}
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function readPostScriptTable(post, properties, maxpNumGlyphs) {
var start = (font.start ? font.start : 0) + post.offset;
font.pos = start;
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var length = post.length, end = start + length;
var version = font.getInt32();
// skip rest to the tables
font.getBytes(28);
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var glyphNames;
var valid = true;
var i;
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switch (version) {
case 0x00010000:
glyphNames = MacStandardGlyphOrdering;
break;
case 0x00020000:
var numGlyphs = font.getUint16();
if (numGlyphs !== maxpNumGlyphs) {
valid = false;
break;
}
var glyphNameIndexes = [];
for (i = 0; i < numGlyphs; ++i) {
var index = font.getUint16();
if (index >= 32768) {
valid = false;
break;
}
glyphNameIndexes.push(index);
}
if (!valid) {
break;
}
var customNames = [];
var strBuf = [];
while (font.pos < end) {
var stringLength = font.getByte();
strBuf.length = stringLength;
for (i = 0; i < stringLength; ++i) {
strBuf[i] = String.fromCharCode(font.getByte());
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}
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customNames.push(strBuf.join(''));
}
glyphNames = [];
for (i = 0; i < numGlyphs; ++i) {
var j = glyphNameIndexes[i];
if (j < 258) {
glyphNames.push(MacStandardGlyphOrdering[j]);
continue;
}
glyphNames.push(customNames[j - 258]);
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}
break;
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case 0x00030000:
break;
default:
warn('Unknown/unsupported post table version ' + version);
valid = false;
if (properties.defaultEncoding) {
glyphNames = properties.defaultEncoding;
}
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break;
}
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properties.glyphNames = glyphNames;
return valid;
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}
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function readNameTable(nameTable) {
var start = (font.start ? font.start : 0) + nameTable.offset;
font.pos = start;
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var names = [[], []];
var length = nameTable.length, end = start + length;
var format = font.getUint16();
var FORMAT_0_HEADER_LENGTH = 6;
if (format !== 0 || length < FORMAT_0_HEADER_LENGTH) {
// unsupported name table format or table "too" small
return names;
}
var numRecords = font.getUint16();
var stringsStart = font.getUint16();
var records = [];
var NAME_RECORD_LENGTH = 12;
var i, ii;
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for (i = 0; i < numRecords &&
font.pos + NAME_RECORD_LENGTH <= end; i++) {
var r = {
platform: font.getUint16(),
encoding: font.getUint16(),
language: font.getUint16(),
name: font.getUint16(),
length: font.getUint16(),
offset: font.getUint16()
};
// using only Macintosh and Windows platform/encoding names
if ((r.platform === 1 && r.encoding === 0 && r.language === 0) ||
(r.platform === 3 && r.encoding === 1 && r.language === 0x409)) {
records.push(r);
}
}
for (i = 0, ii = records.length; i < ii; i++) {
var record = records[i];
if (record.length <= 0) {
continue; // Nothing to process, ignoring.
}
var pos = start + stringsStart + record.offset;
if (pos + record.length > end) {
continue; // outside of name table, ignoring
}
font.pos = pos;
var nameIndex = record.name;
if (record.encoding) {
// unicode
var str = '';
for (var j = 0, jj = record.length; j < jj; j += 2) {
str += String.fromCharCode(font.getUint16());
}
names[1][nameIndex] = str;
} else {
names[0][nameIndex] = bytesToString(font.getBytes(record.length));
}
}
return names;
}
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var TTOpsStackDeltas = [
0, 0, 0, 0, 0, 0, 0, 0, -2, -2, -2, -2, 0, 0, -2, -5,
-1, -1, -1, -1, -1, -1, -1, -1, 0, 0, -1, 0, -1, -1, -1, -1,
1, -1, -999, 0, 1, 0, -1, -2, 0, -1, -2, -1, -1, 0, -1, -1,
0, 0, -999, -999, -1, -1, -1, -1, -2, -999, -2, -2, -999, 0, -2, -2,
0, 0, -2, 0, -2, 0, 0, 0, -2, -1, -1, 1, 1, 0, 0, -1,
-1, -1, -1, -1, -1, -1, 0, 0, -1, 0, -1, -1, 0, -999, -1, -1,
-1, -1, -1, -1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
-2, -999, -999, -999, -999, -999, -1, -1, -2, -2, 0, 0, 0, 0, -1, -1,
-999, -2, -2, 0, 0, -1, -2, -2, 0, 0, 0, -1, -1, -1, -2];
// 0xC0-DF == -1 and 0xE0-FF == -2
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function sanitizeTTProgram(table, ttContext) {
var data = table.data;
var i = 0, j, n, b, funcId, pc, lastEndf = 0, lastDeff = 0;
var stack = [];
var callstack = [];
var functionsCalled = [];
var tooComplexToFollowFunctions =
ttContext.tooComplexToFollowFunctions;
var inFDEF = false, ifLevel = 0, inELSE = 0;
for (var ii = data.length; i < ii;) {
var op = data[i++];
// The TrueType instruction set docs can be found at
// https://developer.apple.com/fonts/TTRefMan/RM05/Chap5.html
if (op === 0x40) { // NPUSHB - pushes n bytes
n = data[i++];
if (inFDEF || inELSE) {
i += n;
} else {
for (j = 0; j < n; j++) {
stack.push(data[i++]);
}
}
} else if (op === 0x41) { // NPUSHW - pushes n words
n = data[i++];
if (inFDEF || inELSE) {
i += n * 2;
} else {
for (j = 0; j < n; j++) {
b = data[i++];
stack.push((b << 8) | data[i++]);
}
}
} else if ((op & 0xF8) === 0xB0) { // PUSHB - pushes bytes
n = op - 0xB0 + 1;
if (inFDEF || inELSE) {
i += n;
} else {
for (j = 0; j < n; j++) {
stack.push(data[i++]);
}
}
} else if ((op & 0xF8) === 0xB8) { // PUSHW - pushes words
n = op - 0xB8 + 1;
if (inFDEF || inELSE) {
i += n * 2;
} else {
for (j = 0; j < n; j++) {
b = data[i++];
stack.push((b << 8) | data[i++]);
}
}
} else if (op === 0x2B && !tooComplexToFollowFunctions) { // CALL
if (!inFDEF && !inELSE) {
// collecting inforamtion about which functions are used
funcId = stack[stack.length - 1];
ttContext.functionsUsed[funcId] = true;
if (funcId in ttContext.functionsStackDeltas) {
stack.length += ttContext.functionsStackDeltas[funcId];
} else if (funcId in ttContext.functionsDefined &&
functionsCalled.indexOf(funcId) < 0) {
callstack.push({data: data, i: i, stackTop: stack.length - 1});
functionsCalled.push(funcId);
pc = ttContext.functionsDefined[funcId];
if (!pc) {
warn('TT: CALL non-existent function');
ttContext.hintsValid = false;
return;
}
data = pc.data;
i = pc.i;
}
}
} else if (op === 0x2C && !tooComplexToFollowFunctions) { // FDEF
if (inFDEF || inELSE) {
warn('TT: nested FDEFs not allowed');
tooComplexToFollowFunctions = true;
}
inFDEF = true;
// collecting inforamtion about which functions are defined
lastDeff = i;
funcId = stack.pop();
ttContext.functionsDefined[funcId] = {data: data, i: i};
} else if (op === 0x2D) { // ENDF - end of function
if (inFDEF) {
inFDEF = false;
lastEndf = i;
} else {
pc = callstack.pop();
if (!pc) {
warn('TT: ENDF bad stack');
ttContext.hintsValid = false;
return;
}
funcId = functionsCalled.pop();
data = pc.data;
i = pc.i;
ttContext.functionsStackDeltas[funcId] =
stack.length - pc.stackTop;
}
} else if (op === 0x89) { // IDEF - instruction definition
if (inFDEF || inELSE) {
warn('TT: nested IDEFs not allowed');
tooComplexToFollowFunctions = true;
}
inFDEF = true;
// recording it as a function to track ENDF
lastDeff = i;
} else if (op === 0x58) { // IF
++ifLevel;
} else if (op === 0x1B) { // ELSE
inELSE = ifLevel;
} else if (op === 0x59) { // EIF
if (inELSE === ifLevel) {
inELSE = 0;
}
--ifLevel;
} else if (op === 0x1C) { // JMPR
if (!inFDEF && !inELSE) {
var offset = stack[stack.length - 1];
// only jumping forward to prevent infinite loop
if (offset > 0) {
i += offset - 1;
}
}
}
// Adjusting stack not extactly, but just enough to get function id
if (!inFDEF && !inELSE) {
var stackDelta = op <= 0x8E ? TTOpsStackDeltas[op] :
op >= 0xC0 && op <= 0xDF ? -1 : op >= 0xE0 ? -2 : 0;
if (op >= 0x71 && op <= 0x75) {
n = stack.pop();
if (n === n) {
stackDelta = -n * 2;
}
}
while (stackDelta < 0 && stack.length > 0) {
stack.pop();
stackDelta++;
}
while (stackDelta > 0) {
stack.push(NaN); // pushing any number into stack
stackDelta--;
}
}
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}
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ttContext.tooComplexToFollowFunctions = tooComplexToFollowFunctions;
var content = [data];
if (i > data.length) {
content.push(new Uint8Array(i - data.length));
}
if (lastDeff > lastEndf) {
warn('TT: complementing a missing function tail');
// new function definition started, but not finished
// complete function by [CLEAR, ENDF]
content.push(new Uint8Array([0x22, 0x2D]));
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}
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foldTTTable(table, content);
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}
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function checkInvalidFunctions(ttContext, maxFunctionDefs) {
if (ttContext.tooComplexToFollowFunctions) {
return;
}
if (ttContext.functionsDefined.length > maxFunctionDefs) {
warn('TT: more functions defined than expected');
ttContext.hintsValid = false;
return;
}
for (var j = 0, jj = ttContext.functionsUsed.length; j < jj; j++) {
if (j > maxFunctionDefs) {
warn('TT: invalid function id: ' + j);
ttContext.hintsValid = false;
return;
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}
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if (ttContext.functionsUsed[j] && !ttContext.functionsDefined[j]) {
warn('TT: undefined function: ' + j);
ttContext.hintsValid = false;
return;
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}
}
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}
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function foldTTTable(table, content) {
if (content.length > 1) {
// concatenating the content items
var newLength = 0;
var j, jj;
for (j = 0, jj = content.length; j < jj; j++) {
newLength += content[j].length;
}
newLength = (newLength + 3) & ~3;
var result = new Uint8Array(newLength);
var pos = 0;
for (j = 0, jj = content.length; j < jj; j++) {
result.set(content[j], pos);
pos += content[j].length;
}
table.data = result;
table.length = newLength;
}
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}
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function sanitizeTTPrograms(fpgm, prep, cvt) {
var ttContext = {
functionsDefined: [],
functionsUsed: [],
functionsStackDeltas: [],
tooComplexToFollowFunctions: false,
hintsValid: true
};
if (fpgm) {
sanitizeTTProgram(fpgm, ttContext);
}
if (prep) {
sanitizeTTProgram(prep, ttContext);
}
if (fpgm) {
checkInvalidFunctions(ttContext, maxFunctionDefs);
}
if (cvt && (cvt.length & 1)) {
var cvtData = new Uint8Array(cvt.length + 1);
cvtData.set(cvt.data);
cvt.data = cvtData;
}
return ttContext.hintsValid;
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}
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// The following steps modify the original font data, making copy
font = new Stream(new Uint8Array(font.getBytes()));
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var VALID_TABLES = ['OS/2', 'cmap', 'head', 'hhea', 'hmtx', 'maxp',
'name', 'post', 'loca', 'glyf', 'fpgm', 'prep', 'cvt ', 'CFF '];
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var header = readOpenTypeHeader(font);
var numTables = header.numTables;
var cff, cffFile;
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var tables = Object.create(null);
tables['OS/2'] = null;
tables['cmap'] = null;
tables['head'] = null;
tables['hhea'] = null;
tables['hmtx'] = null;
tables['maxp'] = null;
tables['name'] = null;
tables['post'] = null;
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var table;
for (var i = 0; i < numTables; i++) {
table = readTableEntry(font);
if (VALID_TABLES.indexOf(table.tag) < 0) {
continue; // skipping table if it's not a required or optional table
}
if (table.length === 0) {
continue; // skipping empty tables
}
tables[table.tag] = table;
}
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var isTrueType = !tables['CFF '];
if (!isTrueType) {
// OpenType font
if ((header.version === 'OTTO' && properties.type !== 'CIDFontType2') ||
!tables['head'] || !tables['hhea'] || !tables['maxp'] ||
!tables['post']) {
// no major tables: throwing everything at CFFFont
cffFile = new Stream(tables['CFF '].data);
cff = new CFFFont(cffFile, properties);
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adjustWidths(properties);
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return this.convert(name, cff, properties);
}
delete tables['glyf'];
delete tables['loca'];
delete tables['fpgm'];
delete tables['prep'];
delete tables['cvt '];
this.isOpenType = true;
} else {
if (!tables['loca']) {
error('Required "loca" table is not found');
}
if (!tables['glyf']) {
warn('Required "glyf" table is not found -- trying to recover.');
// Note: We use `sanitizeGlyphLocations` to add dummy glyf data below.
tables['glyf'] = {
tag: 'glyf',
data: new Uint8Array(0),
};
}
this.isOpenType = false;
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}
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if (!tables['maxp']) {
error('Required "maxp" table is not found');
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}
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font.pos = (font.start || 0) + tables['maxp'].offset;
var version = font.getInt32();
var numGlyphs = font.getUint16();
var maxFunctionDefs = 0;
if (version >= 0x00010000 && tables['maxp'].length >= 22) {
// maxZones can be invalid
font.pos += 8;
var maxZones = font.getUint16();
if (maxZones > 2) { // reset to 2 if font has invalid maxZones
tables['maxp'].data[14] = 0;
tables['maxp'].data[15] = 2;
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}
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font.pos += 4;
maxFunctionDefs = font.getUint16();
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}
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var dupFirstEntry = false;
if (properties.type === 'CIDFontType2' && properties.toUnicode &&
properties.toUnicode.get(0) > '\u0000') {
// oracle's defect (see 3427), duplicating first entry
dupFirstEntry = true;
numGlyphs++;
tables['maxp'].data[4] = numGlyphs >> 8;
tables['maxp'].data[5] = numGlyphs & 255;
}
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var hintsValid = sanitizeTTPrograms(tables['fpgm'], tables['prep'],
tables['cvt '], maxFunctionDefs);
if (!hintsValid) {
delete tables['fpgm'];
delete tables['prep'];
delete tables['cvt '];
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}
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// Ensure the hmtx table contains the advance width and
// sidebearings information for numGlyphs in the maxp table
sanitizeMetrics(font, tables['hhea'], tables['hmtx'], numGlyphs);
if (!tables['head']) {
error('Required "head" table is not found');
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}
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sanitizeHead(tables['head'], numGlyphs,
isTrueType ? tables['loca'].length : 0);
var missingGlyphs = Object.create(null);
if (isTrueType) {
var isGlyphLocationsLong = int16(tables['head'].data[50],
tables['head'].data[51]);
missingGlyphs = sanitizeGlyphLocations(tables['loca'], tables['glyf'],
numGlyphs, isGlyphLocationsLong,
hintsValid, dupFirstEntry);
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}
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if (!tables['hhea']) {
error('Required "hhea" table is not found');
}
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// Sanitizer reduces the glyph advanceWidth to the maxAdvanceWidth
// Sometimes it's 0. That needs to be fixed
if (tables['hhea'].data[10] === 0 && tables['hhea'].data[11] === 0) {
tables['hhea'].data[10] = 0xFF;
tables['hhea'].data[11] = 0xFF;
}
// Extract some more font properties from the OpenType head and
// hhea tables; yMin and descent value are always negative.
var metricsOverride = {
unitsPerEm: int16(tables['head'].data[18], tables['head'].data[19]),
yMax: int16(tables['head'].data[42], tables['head'].data[43]),
yMin: signedInt16(tables['head'].data[38], tables['head'].data[39]),
ascent: int16(tables['hhea'].data[4], tables['hhea'].data[5]),
descent: signedInt16(tables['hhea'].data[6], tables['hhea'].data[7])
};
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// PDF FontDescriptor metrics lie -- using data from actual font.
this.ascent = metricsOverride.ascent / metricsOverride.unitsPerEm;
this.descent = metricsOverride.descent / metricsOverride.unitsPerEm;
// The 'post' table has glyphs names.
if (tables['post']) {
var valid = readPostScriptTable(tables['post'], properties, numGlyphs);
if (!valid) {
tables['post'] = null;
}
}
var charCodeToGlyphId = [], charCode;
var toUnicode = properties.toUnicode, widths = properties.widths;
var skipToUnicode = (toUnicode instanceof IdentityToUnicodeMap ||
toUnicode.length === 0x10000);
// Helper function to try to skip mapping of empty glyphs.
// Note: In some cases, just relying on the glyph data doesn't work,
// hence we also use a few heuristics to fix various PDF files.
function hasGlyph(glyphId, charCode, widthCode) {
if (!missingGlyphs[glyphId]) {
return true;
}
if (!skipToUnicode && charCode >= 0 && toUnicode.has(charCode)) {
return true;
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}
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if (widths && widthCode >= 0 && isNum(widths[widthCode])) {
return true;
}
return false;
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}
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// Some bad PDF generators, e.g. Scribus PDF, include glyph names
// in a 'uniXXXX' format -- attempting to recover proper ones.
function recoverGlyphName(name, glyphsUnicodeMap) {
if (glyphsUnicodeMap[name] !== undefined) {
return name;
}
// The glyph name is non-standard, trying to recover.
var unicode = getUnicodeForGlyph(name, glyphsUnicodeMap);
if (unicode !== -1) {
for (var key in glyphsUnicodeMap) {
if (glyphsUnicodeMap[key] === unicode) {
return key;
}
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}
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}
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warn('Unable to recover a standard glyph name for: ' + name);
return name;
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}
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if (properties.type === 'CIDFontType2') {
var cidToGidMap = properties.cidToGidMap || [];
var isCidToGidMapEmpty = cidToGidMap.length === 0;
properties.cMap.forEach(function(charCode, cid) {
assert(cid <= 0xffff, 'Max size of CID is 65,535');
var glyphId = -1;
if (isCidToGidMapEmpty) {
glyphId = cid;
} else if (cidToGidMap[cid] !== undefined) {
glyphId = cidToGidMap[cid];
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}
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if (glyphId >= 0 && glyphId < numGlyphs &&
hasGlyph(glyphId, charCode, cid)) {
charCodeToGlyphId[charCode] = glyphId;
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}
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});
if (dupFirstEntry) {
charCodeToGlyphId[0] = numGlyphs - 1;
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}
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} else {
// Most of the following logic in this code branch is based on the
// 9.6.6.4 of the PDF spec.
var hasEncoding =
properties.differences.length > 0 || !!properties.baseEncodingName;
var cmapTable =
readCmapTable(tables['cmap'], font, this.isSymbolicFont, hasEncoding);
var cmapPlatformId = cmapTable.platformId;
var cmapEncodingId = cmapTable.encodingId;
var cmapMappings = cmapTable.mappings;
var cmapMappingsLength = cmapMappings.length;
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// The spec seems to imply that if the font is symbolic the encoding
// should be ignored, this doesn't appear to work for 'preistabelle.pdf'
// where the the font is symbolic and it has an encoding.
if (hasEncoding &&
(cmapPlatformId === 3 && cmapEncodingId === 1 ||
cmapPlatformId === 1 && cmapEncodingId === 0) ||
(cmapPlatformId === -1 && cmapEncodingId === -1 && // Temporary hack
!!getEncoding(properties.baseEncodingName))) { // Temporary hack
// When no preferred cmap table was found and |baseEncodingName| is
// one of the predefined encodings, we seem to obtain a better
// |charCodeToGlyphId| map from the code below (fixes bug 1057544).
// TODO: Note that this is a hack which should be removed as soon as
// we have proper support for more exotic cmap tables.
var baseEncoding = [];
if (properties.baseEncodingName === 'MacRomanEncoding' ||
properties.baseEncodingName === 'WinAnsiEncoding') {
baseEncoding = getEncoding(properties.baseEncodingName);
}
var glyphsUnicodeMap = getGlyphsUnicode();
for (charCode = 0; charCode < 256; charCode++) {
var glyphName, standardGlyphName;
if (this.differences && charCode in this.differences) {
glyphName = this.differences[charCode];
} else if (charCode in baseEncoding &&
baseEncoding[charCode] !== '') {
glyphName = baseEncoding[charCode];
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} else {
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glyphName = StandardEncoding[charCode];
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}
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if (!glyphName) {
continue;
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}
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// Ensure that non-standard glyph names are resolved to valid ones.
standardGlyphName = recoverGlyphName(glyphName, glyphsUnicodeMap);
var unicodeOrCharCode, isUnicode = false;
if (cmapPlatformId === 3 && cmapEncodingId === 1) {
unicodeOrCharCode = glyphsUnicodeMap[standardGlyphName];
isUnicode = true;
} else if (cmapPlatformId === 1 && cmapEncodingId === 0) {
// TODO: the encoding needs to be updated with mac os table.
unicodeOrCharCode = MacRomanEncoding.indexOf(standardGlyphName);
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}
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var found = false;
for (i = 0; i < cmapMappingsLength; ++i) {
if (cmapMappings[i].charCode !== unicodeOrCharCode) {
continue;
}
var code = isUnicode ? charCode : unicodeOrCharCode;
if (hasGlyph(cmapMappings[i].glyphId, code, -1)) {
charCodeToGlyphId[charCode] = cmapMappings[i].glyphId;
found = true;
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break;
}
}
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if (!found && properties.glyphNames) {
// Try to map using the post table.
var glyphId = properties.glyphNames.indexOf(glyphName);
// The post table ought to use the same kind of glyph names as the
// `differences` array, but check the standard ones as a fallback.
if (glyphId === -1 && standardGlyphName !== glyphName) {
glyphId = properties.glyphNames.indexOf(standardGlyphName);
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}
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if (glyphId > 0 && hasGlyph(glyphId, -1, -1)) {
charCodeToGlyphId[charCode] = glyphId;
found = true;
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}
}
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if (!found) {
charCodeToGlyphId[charCode] = 0; // notdef
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}
}
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} else if (cmapPlatformId === 0 && cmapEncodingId === 0) {
// Default Unicode semantics, use the charcodes as is.
for (i = 0; i < cmapMappingsLength; ++i) {
charCodeToGlyphId[cmapMappings[i].charCode] =
cmapMappings[i].glyphId;
}
} else {
// For (3, 0) cmap tables:
// The charcode key being stored in charCodeToGlyphId is the lower
// byte of the two-byte charcodes of the cmap table since according to
// the spec: 'each byte from the string shall be prepended with the
// high byte of the range [of charcodes in the cmap table], to form
// a two-byte character, which shall be used to select the
// associated glyph description from the subtable'.
//
// For (1, 0) cmap tables:
// 'single bytes from the string shall be used to look up the
// associated glyph descriptions from the subtable'. This means
// charcodes in the cmap will be single bytes, so no-op since
// glyph.charCode & 0xFF === glyph.charCode
for (i = 0; i < cmapMappingsLength; ++i) {
charCode = cmapMappings[i].charCode & 0xFF;
charCodeToGlyphId[charCode] = cmapMappings[i].glyphId;
}
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}
}
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if (charCodeToGlyphId.length === 0) {
// defines at least one glyph
charCodeToGlyphId[0] = 0;
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}
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// Converting glyphs and ids into font's cmap table
var newMapping = adjustMapping(charCodeToGlyphId, properties);
this.toFontChar = newMapping.toFontChar;
tables['cmap'] = {
tag: 'cmap',
data: createCmapTable(newMapping.charCodeToGlyphId, numGlyphs)
};
if (!tables['OS/2'] || !validateOS2Table(tables['OS/2'])) {
tables['OS/2'] = {
tag: 'OS/2',
data: createOS2Table(properties, newMapping.charCodeToGlyphId,
metricsOverride)
};
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}
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// Rewrite the 'post' table if needed
if (!tables['post']) {
tables['post'] = {
tag: 'post',
data: createPostTable(properties)
};
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}
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if (!isTrueType) {
try {
// Trying to repair CFF file
cffFile = new Stream(tables['CFF '].data);
var parser = new CFFParser(cffFile, properties,
SEAC_ANALYSIS_ENABLED);
cff = parser.parse();
var compiler = new CFFCompiler(cff);
tables['CFF '].data = compiler.compile();
} catch (e) {
warn('Failed to compile font ' + properties.loadedName);
}
}
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// Re-creating 'name' table
if (!tables['name']) {
tables['name'] = {
tag: 'name',
data: createNameTable(this.name)
};
} else {
// ... using existing 'name' table as prototype
var namePrototype = readNameTable(tables['name']);
tables['name'].data = createNameTable(name, namePrototype);
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}
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var builder = new OpenTypeFileBuilder(header.version);
for (var tableTag in tables) {
builder.addTable(tableTag, tables[tableTag].data);
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}
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return builder.toArray();
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},
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convert: function Font_convert(fontName, font, properties) {
// TODO: Check the charstring widths to determine this.
properties.fixedPitch = false;
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var mapping = font.getGlyphMapping(properties);
var newMapping = adjustMapping(mapping, properties);
this.toFontChar = newMapping.toFontChar;
var numGlyphs = font.numGlyphs;
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function getCharCodes(charCodeToGlyphId, glyphId) {
var charCodes = null;
for (var charCode in charCodeToGlyphId) {
if (glyphId === charCodeToGlyphId[charCode]) {
if (!charCodes) {
charCodes = [];
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}
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charCodes.push(charCode | 0);
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}
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}
return charCodes;
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}
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function createCharCode(charCodeToGlyphId, glyphId) {
for (var charCode in charCodeToGlyphId) {
if (glyphId === charCodeToGlyphId[charCode]) {
return charCode | 0;
}
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}
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newMapping.charCodeToGlyphId[newMapping.nextAvailableFontCharCode] =
glyphId;
return newMapping.nextAvailableFontCharCode++;
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}
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var seacs = font.seacs;
if (SEAC_ANALYSIS_ENABLED && seacs && seacs.length) {
var matrix = properties.fontMatrix || FONT_IDENTITY_MATRIX;
var charset = font.getCharset();
var seacMap = Object.create(null);
for (var glyphId in seacs) {
glyphId |= 0;
var seac = seacs[glyphId];
var baseGlyphName = StandardEncoding[seac[2]];
var accentGlyphName = StandardEncoding[seac[3]];
var baseGlyphId = charset.indexOf(baseGlyphName);
var accentGlyphId = charset.indexOf(accentGlyphName);
if (baseGlyphId < 0 || accentGlyphId < 0) {
continue;
}
var accentOffset = {
x: seac[0] * matrix[0] + seac[1] * matrix[2] + matrix[4],
y: seac[0] * matrix[1] + seac[1] * matrix[3] + matrix[5]
};
var charCodes = getCharCodes(mapping, glyphId);
if (!charCodes) {
// There's no point in mapping it if the char code was never mapped
// to begin with.
continue;
}
for (var i = 0, ii = charCodes.length; i < ii; i++) {
var charCode = charCodes[i];
// Find a fontCharCode that maps to the base and accent glyphs.
// If one doesn't exists, create it.
var charCodeToGlyphId = newMapping.charCodeToGlyphId;
var baseFontCharCode = createCharCode(charCodeToGlyphId,
baseGlyphId);
var accentFontCharCode = createCharCode(charCodeToGlyphId,
accentGlyphId);
seacMap[charCode] = {
baseFontCharCode: baseFontCharCode,
accentFontCharCode: accentFontCharCode,
accentOffset: accentOffset
};
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}
}
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properties.seacMap = seacMap;
}
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var unitsPerEm = 1 / (properties.fontMatrix || FONT_IDENTITY_MATRIX)[0];
var builder = new OpenTypeFileBuilder('\x4F\x54\x54\x4F');
// PostScript Font Program
builder.addTable('CFF ', font.data);
// OS/2 and Windows Specific metrics
builder.addTable('OS/2', createOS2Table(properties,
newMapping.charCodeToGlyphId));
// Character to glyphs mapping
builder.addTable('cmap', createCmapTable(newMapping.charCodeToGlyphId,
numGlyphs));
// Font header
builder.addTable('head',
'\x00\x01\x00\x00' + // Version number
'\x00\x00\x10\x00' + // fontRevision
'\x00\x00\x00\x00' + // checksumAdjustement
'\x5F\x0F\x3C\xF5' + // magicNumber
'\x00\x00' + // Flags
safeString16(unitsPerEm) + // unitsPerEM
'\x00\x00\x00\x00\x9e\x0b\x7e\x27' + // creation date
'\x00\x00\x00\x00\x9e\x0b\x7e\x27' + // modifification date
'\x00\x00' + // xMin
safeString16(properties.descent) + // yMin
'\x0F\xFF' + // xMax
safeString16(properties.ascent) + // yMax
string16(properties.italicAngle ? 2 : 0) + // macStyle
'\x00\x11' + // lowestRecPPEM
'\x00\x00' + // fontDirectionHint
'\x00\x00' + // indexToLocFormat
'\x00\x00'); // glyphDataFormat
// Horizontal header
builder.addTable('hhea',
'\x00\x01\x00\x00' + // Version number
safeString16(properties.ascent) + // Typographic Ascent
safeString16(properties.descent) + // Typographic Descent
'\x00\x00' + // Line Gap
'\xFF\xFF' + // advanceWidthMax
'\x00\x00' + // minLeftSidebearing
'\x00\x00' + // minRightSidebearing
'\x00\x00' + // xMaxExtent
safeString16(properties.capHeight) + // caretSlopeRise
safeString16(Math.tan(properties.italicAngle) *
properties.xHeight) + // caretSlopeRun
'\x00\x00' + // caretOffset
'\x00\x00' + // -reserved-
'\x00\x00' + // -reserved-
'\x00\x00' + // -reserved-
'\x00\x00' + // -reserved-
'\x00\x00' + // metricDataFormat
string16(numGlyphs)); // Number of HMetrics
// Horizontal metrics
builder.addTable('hmtx', (function fontFieldsHmtx() {
var charstrings = font.charstrings;
var cffWidths = font.cff ? font.cff.widths : null;
var hmtx = '\x00\x00\x00\x00'; // Fake .notdef
for (var i = 1, ii = numGlyphs; i < ii; i++) {
var width = 0;
if (charstrings) {
var charstring = charstrings[i - 1];
width = 'width' in charstring ? charstring.width : 0;
} else if (cffWidths) {
width = Math.ceil(cffWidths[i] || 0);
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}
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hmtx += string16(width) + string16(0);
}
return hmtx;
})());
// Maximum profile
builder.addTable('maxp',
'\x00\x00\x50\x00' + // Version number
string16(numGlyphs)); // Num of glyphs
// Naming tables
builder.addTable('name', createNameTable(fontName));
// PostScript informations
builder.addTable('post', createPostTable(properties));
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return builder.toArray();
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},
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get spaceWidth() {
if ('_shadowWidth' in this) {
return this._shadowWidth;
}
// trying to estimate space character width
var possibleSpaceReplacements = ['space', 'minus', 'one', 'i'];
var width;
for (var i = 0, ii = possibleSpaceReplacements.length; i < ii; i++) {
var glyphName = possibleSpaceReplacements[i];
// if possible, getting width by glyph name
if (glyphName in this.widths) {
width = this.widths[glyphName];
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break;
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}
var glyphsUnicodeMap = getGlyphsUnicode();
var glyphUnicode = glyphsUnicodeMap[glyphName];
// finding the charcode via unicodeToCID map
var charcode = 0;
if (this.composite) {
if (this.cMap.contains(glyphUnicode)) {
charcode = this.cMap.lookup(glyphUnicode);
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}
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}
// ... via toUnicode map
if (!charcode && this.toUnicode) {
charcode = this.toUnicode.charCodeOf(glyphUnicode);
}
// setting it to unicode if negative or undefined
if (charcode <= 0) {
charcode = glyphUnicode;
}
// trying to get width via charcode
width = this.widths[charcode];
if (width) {
break; // the non-zero width found
}
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}
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width = width || this.defaultWidth;
// Do not shadow the property here. See discussion:
// https://github.com/mozilla/pdf.js/pull/2127#discussion_r1662280
this._shadowWidth = width;
return width;
},
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charToGlyph: function Font_charToGlyph(charcode, isSpace) {
var fontCharCode, width, operatorListId;
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var widthCode = charcode;
if (this.cMap && this.cMap.contains(charcode)) {
widthCode = this.cMap.lookup(charcode);
}
width = this.widths[widthCode];
width = isNum(width) ? width : this.defaultWidth;
var vmetric = this.vmetrics && this.vmetrics[widthCode];
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var unicode = this.toUnicode.get(charcode) || charcode;
if (typeof unicode === 'number') {
unicode = String.fromCharCode(unicode);
}
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var isInFont = charcode in this.toFontChar;
// First try the toFontChar map, if it's not there then try falling
// back to the char code.
fontCharCode = this.toFontChar[charcode] || charcode;
if (this.missingFile) {
fontCharCode = mapSpecialUnicodeValues(fontCharCode);
}
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if (this.isType3Font) {
// Font char code in this case is actually a glyph name.
operatorListId = fontCharCode;
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}
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var accent = null;
if (this.seacMap && this.seacMap[charcode]) {
isInFont = true;
var seac = this.seacMap[charcode];
fontCharCode = seac.baseFontCharCode;
accent = {
fontChar: String.fromCharCode(seac.accentFontCharCode),
offset: seac.accentOffset
};
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}
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var fontChar = String.fromCharCode(fontCharCode);
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var glyph = this.glyphCache[charcode];
if (!glyph ||
!glyph.matchesForCache(fontChar, unicode, accent, width, vmetric,
operatorListId, isSpace, isInFont)) {
glyph = new Glyph(fontChar, unicode, accent, width, vmetric,
operatorListId, isSpace, isInFont);
this.glyphCache[charcode] = glyph;
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}
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return glyph;
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},
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charsToGlyphs: function Font_charsToGlyphs(chars) {
var charsCache = this.charsCache;
var glyphs, glyph, charcode;
// if we translated this string before, just grab it from the cache
if (charsCache) {
glyphs = charsCache[chars];
if (glyphs) {
return glyphs;
}
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}
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// lazily create the translation cache
if (!charsCache) {
charsCache = this.charsCache = Object.create(null);
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}
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glyphs = [];
var charsCacheKey = chars;
var i = 0, ii;
if (this.cMap) {
// composite fonts have multi-byte strings convert the string from
// single-byte to multi-byte
var c = Object.create(null);
while (i < chars.length) {
this.cMap.readCharCode(chars, i, c);
charcode = c.charcode;
var length = c.length;
i += length;
// Space is char with code 0x20 and length 1 in multiple-byte codes.
var isSpace = length === 1 && chars.charCodeAt(i - 1) === 0x20;
glyph = this.charToGlyph(charcode, isSpace);
glyphs.push(glyph);
}
} else {
for (i = 0, ii = chars.length; i < ii; ++i) {
charcode = chars.charCodeAt(i);
glyph = this.charToGlyph(charcode, charcode === 0x20);
glyphs.push(glyph);
}
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}
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// Enter the translated string into the cache
return (charsCache[charsCacheKey] = glyphs);
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}
};
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return Font;
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})();
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var ErrorFont = (function ErrorFontClosure() {
function ErrorFont(error) {
this.error = error;
this.loadedName = 'g_font_error';
this.loading = false;
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}
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ErrorFont.prototype = {
charsToGlyphs: function ErrorFont_charsToGlyphs() {
return [];
},
exportData: function ErrorFont_exportData() {
return {error: this.error};
}
};
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return ErrorFont;
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})();
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/**
* Shared logic for building a char code to glyph id mapping for Type1 and
* simple CFF fonts. See section 9.6.6.2 of the spec.
* @param {Object} properties Font properties object.
* @param {Object} builtInEncoding The encoding contained within the actual font
* data.
* @param {Array} Array of glyph names where the index is the glyph ID.
* @returns {Object} A char code to glyph ID map.
*/
function type1FontGlyphMapping(properties, builtInEncoding, glyphNames) {
var charCodeToGlyphId = Object.create(null);
var glyphId, charCode, baseEncoding;
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if (properties.baseEncodingName) {
// If a valid base encoding name was used, the mapping is initialized with
// that.
baseEncoding = getEncoding(properties.baseEncodingName);
for (charCode = 0; charCode < baseEncoding.length; charCode++) {
glyphId = glyphNames.indexOf(baseEncoding[charCode]);
if (glyphId >= 0) {
charCodeToGlyphId[charCode] = glyphId;
} else {
charCodeToGlyphId[charCode] = 0; // notdef
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}
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}
} else if (!!(properties.flags & FontFlags.Symbolic)) {
// For a symbolic font the encoding should be the fonts built-in
// encoding.
for (charCode in builtInEncoding) {
charCodeToGlyphId[charCode] = builtInEncoding[charCode];
}
} else {
// For non-symbolic fonts that don't have a base encoding the standard
// encoding should be used.
baseEncoding = StandardEncoding;
for (charCode = 0; charCode < baseEncoding.length; charCode++) {
glyphId = glyphNames.indexOf(baseEncoding[charCode]);
if (glyphId >= 0) {
charCodeToGlyphId[charCode] = glyphId;
} else {
charCodeToGlyphId[charCode] = 0; // notdef
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}
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}
}
// Lastly, merge in the differences.
var differences = properties.differences;
if (differences) {
for (charCode in differences) {
var glyphName = differences[charCode];
glyphId = glyphNames.indexOf(glyphName);
if (glyphId >= 0) {
charCodeToGlyphId[charCode] = glyphId;
} else {
charCodeToGlyphId[charCode] = 0; // notdef
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}
}
}
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return charCodeToGlyphId;
}
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// Type1Font is also a CIDFontType0.
var Type1Font = (function Type1FontClosure() {
function findBlock(streamBytes, signature, startIndex) {
var streamBytesLength = streamBytes.length;
var signatureLength = signature.length;
var scanLength = streamBytesLength - signatureLength;
var i = startIndex, j, found = false;
while (i < scanLength) {
j = 0;
while (j < signatureLength && streamBytes[i + j] === signature[j]) {
j++;
}
if (j >= signatureLength) { // `signature` found, skip over whitespace.
i += j;
while (i < streamBytesLength && Lexer.isSpace(streamBytes[i])) {
i++;
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}
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found = true;
break;
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}
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i++;
}
return {
found: found,
length: i,
};
}
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function getHeaderBlock(stream, suggestedLength) {
var EEXEC_SIGNATURE = [0x65, 0x65, 0x78, 0x65, 0x63];
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var streamStartPos = stream.pos; // Save the initial stream position.
var headerBytes, headerBytesLength, block;
try {
headerBytes = stream.getBytes(suggestedLength);
headerBytesLength = headerBytes.length;
} catch (ex) {
if (ex instanceof MissingDataException) {
throw ex;
}
// Ignore errors if the `suggestedLength` is huge enough that a Uint8Array
// cannot hold the result of `getBytes`, and fallback to simply checking
// the entire stream (fixes issue3928.pdf).
}
if (headerBytesLength === suggestedLength) {
// Most of the time `suggestedLength` is correct, so to speed things up we
// initially only check the last few bytes to see if the header was found.
// Otherwise we (potentially) check the entire stream to prevent errors in
// `Type1Parser` (fixes issue5686.pdf).
block = findBlock(headerBytes, EEXEC_SIGNATURE,
suggestedLength - 2 * EEXEC_SIGNATURE.length);
if (block.found && block.length === suggestedLength) {
return {
stream: new Stream(headerBytes),
length: suggestedLength,
};
}
}
warn('Invalid "Length1" property in Type1 font -- trying to recover.');
stream.pos = streamStartPos; // Reset the stream position.
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var SCAN_BLOCK_LENGTH = 2048;
var actualLength;
while (true) {
var scanBytes = stream.peekBytes(SCAN_BLOCK_LENGTH);
block = findBlock(scanBytes, EEXEC_SIGNATURE, 0);
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if (block.length === 0) {
break;
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}
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stream.pos += block.length; // Update the stream position.
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if (block.found) {
actualLength = stream.pos - streamStartPos;
break;
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}
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}
stream.pos = streamStartPos; // Reset the stream position.
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if (actualLength) {
return {
stream: new Stream(stream.getBytes(actualLength)),
length: actualLength,
};
}
warn('Unable to recover "Length1" property in Type1 font -- using as is.');
return {
stream: new Stream(stream.getBytes(suggestedLength)),
length: suggestedLength,
};
}
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function getEexecBlock(stream, suggestedLength) {
// We should ideally parse the eexec block to ensure that `suggestedLength`
// is correct, so we don't truncate the block data if it's too small.
// However, this would also require checking if the fixed-content portion
// exists (using the 'Length3' property), and ensuring that it's valid.
//
// Given that `suggestedLength` almost always is correct, all the validation
// would require a great deal of unnecessary parsing for most fonts.
// To save time, we always fetch the entire stream instead, which also avoid
// issues if `suggestedLength` is huge (see comment in `getHeaderBlock`).
//
// NOTE: This means that the function can include the fixed-content portion
// in the returned eexec block. In practice this does *not* seem to matter,
// since `Type1Parser_extractFontProgram` will skip over any non-commands.
var eexecBytes = stream.getBytes();
return {
stream: new Stream(eexecBytes),
length: eexecBytes.length,
};
}
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function Type1Font(name, file, properties) {
// Some bad generators embed pfb file as is, we have to strip 6-byte header.
// Also, length1 and length2 might be off by 6 bytes as well.
// http://www.math.ubc.ca/~cass/piscript/type1.pdf
var PFB_HEADER_SIZE = 6;
var headerBlockLength = properties.length1;
var eexecBlockLength = properties.length2;
var pfbHeader = file.peekBytes(PFB_HEADER_SIZE);
var pfbHeaderPresent = pfbHeader[0] === 0x80 && pfbHeader[1] === 0x01;
if (pfbHeaderPresent) {
file.skip(PFB_HEADER_SIZE);
headerBlockLength = (pfbHeader[5] << 24) | (pfbHeader[4] << 16) |
(pfbHeader[3] << 8) | pfbHeader[2];
}
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// Get the data block containing glyphs and subrs informations
var headerBlock = getHeaderBlock(file, headerBlockLength);
headerBlockLength = headerBlock.length;
var headerBlockParser = new Type1Parser(headerBlock.stream, false,
SEAC_ANALYSIS_ENABLED);
headerBlockParser.extractFontHeader(properties);
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if (pfbHeaderPresent) {
pfbHeader = file.getBytes(PFB_HEADER_SIZE);
eexecBlockLength = (pfbHeader[5] << 24) | (pfbHeader[4] << 16) |
(pfbHeader[3] << 8) | pfbHeader[2];
}
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// Decrypt the data blocks and retrieve it's content
var eexecBlock = getEexecBlock(file, eexecBlockLength);
eexecBlockLength = eexecBlock.length;
var eexecBlockParser = new Type1Parser(eexecBlock.stream, true,
SEAC_ANALYSIS_ENABLED);
var data = eexecBlockParser.extractFontProgram();
for (var info in data.properties) {
properties[info] = data.properties[info];
}
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var charstrings = data.charstrings;
var type2Charstrings = this.getType2Charstrings(charstrings);
var subrs = this.getType2Subrs(data.subrs);
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this.charstrings = charstrings;
this.data = this.wrap(name, type2Charstrings, this.charstrings,
subrs, properties);
this.seacs = this.getSeacs(data.charstrings);
}
Type1Font.prototype = {
get numGlyphs() {
return this.charstrings.length + 1;
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},
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getCharset: function Type1Font_getCharset() {
var charset = ['.notdef'];
var charstrings = this.charstrings;
for (var glyphId = 0; glyphId < charstrings.length; glyphId++) {
charset.push(charstrings[glyphId].glyphName);
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}
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return charset;
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},
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getGlyphMapping: function Type1Font_getGlyphMapping(properties) {
var charstrings = this.charstrings;
var glyphNames = ['.notdef'], glyphId;
for (glyphId = 0; glyphId < charstrings.length; glyphId++) {
glyphNames.push(charstrings[glyphId].glyphName);
}
var encoding = properties.builtInEncoding;
if (encoding) {
var builtInEncoding = Object.create(null);
for (var charCode in encoding) {
glyphId = glyphNames.indexOf(encoding[charCode]);
if (glyphId >= 0) {
builtInEncoding[charCode] = glyphId;
}
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}
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}
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return type1FontGlyphMapping(properties, builtInEncoding, glyphNames);
},
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getSeacs: function Type1Font_getSeacs(charstrings) {
var i, ii;
var seacMap = [];
for (i = 0, ii = charstrings.length; i < ii; i++) {
var charstring = charstrings[i];
if (charstring.seac) {
// Offset by 1 for .notdef
seacMap[i + 1] = charstring.seac;
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}
}
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return seacMap;
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},
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getType2Charstrings: function Type1Font_getType2Charstrings(
type1Charstrings) {
var type2Charstrings = [];
for (var i = 0, ii = type1Charstrings.length; i < ii; i++) {
type2Charstrings.push(type1Charstrings[i].charstring);
}
return type2Charstrings;
},
getType2Subrs: function Type1Font_getType2Subrs(type1Subrs) {
var bias = 0;
var count = type1Subrs.length;
if (count < 1133) {
bias = 107;
} else if (count < 33769) {
bias = 1131;
} else {
bias = 32768;
}
// Add a bunch of empty subrs to deal with the Type2 bias
var type2Subrs = [];
var i;
for (i = 0; i < bias; i++) {
type2Subrs.push([0x0B]);
}
for (i = 0; i < count; i++) {
type2Subrs.push(type1Subrs[i]);
}
return type2Subrs;
},
wrap: function Type1Font_wrap(name, glyphs, charstrings, subrs,
properties) {
var cff = new CFF();
cff.header = new CFFHeader(1, 0, 4, 4);
cff.names = [name];
var topDict = new CFFTopDict();
// CFF strings IDs 0...390 are predefined names, so refering
// to entries in our own String INDEX starts at SID 391.
topDict.setByName('version', 391);
topDict.setByName('Notice', 392);
topDict.setByName('FullName', 393);
topDict.setByName('FamilyName', 394);
topDict.setByName('Weight', 395);
topDict.setByName('Encoding', null); // placeholder
topDict.setByName('FontMatrix', properties.fontMatrix);
topDict.setByName('FontBBox', properties.bbox);
topDict.setByName('charset', null); // placeholder
topDict.setByName('CharStrings', null); // placeholder
topDict.setByName('Private', null); // placeholder
cff.topDict = topDict;
var strings = new CFFStrings();
strings.add('Version 0.11'); // Version
strings.add('See original notice'); // Notice
strings.add(name); // FullName
strings.add(name); // FamilyName
strings.add('Medium'); // Weight
cff.strings = strings;
cff.globalSubrIndex = new CFFIndex();
var count = glyphs.length;
var charsetArray = [0];
var i, ii;
for (i = 0; i < count; i++) {
var index = CFFStandardStrings.indexOf(charstrings[i].glyphName);
// TODO: Insert the string and correctly map it. Previously it was
// thought mapping names that aren't in the standard strings to .notdef
// was fine, however in issue818 when mapping them all to .notdef the
// adieresis glyph no longer worked.
if (index === -1) {
index = 0;
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}
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charsetArray.push((index >> 8) & 0xff, index & 0xff);
}
cff.charset = new CFFCharset(false, 0, [], charsetArray);
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var charStringsIndex = new CFFIndex();
charStringsIndex.add([0x8B, 0x0E]); // .notdef
for (i = 0; i < count; i++) {
charStringsIndex.add(glyphs[i]);
}
cff.charStrings = charStringsIndex;
var privateDict = new CFFPrivateDict();
privateDict.setByName('Subrs', null); // placeholder
var fields = [
'BlueValues',
'OtherBlues',
'FamilyBlues',
'FamilyOtherBlues',
'StemSnapH',
'StemSnapV',
'BlueShift',
'BlueFuzz',
'BlueScale',
'LanguageGroup',
'ExpansionFactor',
'ForceBold',
'StdHW',
'StdVW'
];
for (i = 0, ii = fields.length; i < ii; i++) {
var field = fields[i];
if (!(field in properties.privateData)) {
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continue;
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}
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var value = properties.privateData[field];
if (isArray(value)) {
// All of the private dictionary array data in CFF must be stored as
// "delta-encoded" numbers.
for (var j = value.length - 1; j > 0; j--) {
value[j] -= value[j - 1]; // ... difference from previous value
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}
}
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privateDict.setByName(field, value);
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}
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cff.topDict.privateDict = privateDict;
var subrIndex = new CFFIndex();
for (i = 0, ii = subrs.length; i < ii; i++) {
subrIndex.add(subrs[i]);
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}
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privateDict.subrsIndex = subrIndex;
var compiler = new CFFCompiler(cff);
return compiler.compile();
}
};
return Type1Font;
})();
var CFFFont = (function CFFFontClosure() {
function CFFFont(file, properties) {
this.properties = properties;
var parser = new CFFParser(file, properties, SEAC_ANALYSIS_ENABLED);
this.cff = parser.parse();
var compiler = new CFFCompiler(this.cff);
this.seacs = this.cff.seacs;
try {
this.data = compiler.compile();
} catch (e) {
warn('Failed to compile font ' + properties.loadedName);
// There may have just been an issue with the compiler, set the data
// anyway and hope the font loaded.
this.data = file;
}
}
CFFFont.prototype = {
get numGlyphs() {
return this.cff.charStrings.count;
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},
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getCharset: function CFFFont_getCharset() {
return this.cff.charset.charset;
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},
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getGlyphMapping: function CFFFont_getGlyphMapping() {
var cff = this.cff;
var properties = this.properties;
var charsets = cff.charset.charset;
var charCodeToGlyphId;
var glyphId;
if (properties.composite) {
charCodeToGlyphId = Object.create(null);
if (cff.isCIDFont) {
// If the font is actually a CID font then we should use the charset
// to map CIDs to GIDs.
for (glyphId = 0; glyphId < charsets.length; glyphId++) {
var cid = charsets[glyphId];
var charCode = properties.cMap.charCodeOf(cid);
charCodeToGlyphId[charCode] = glyphId;
}
} else {
// If it is NOT actually a CID font then CIDs should be mapped
// directly to GIDs.
for (glyphId = 0; glyphId < cff.charStrings.count; glyphId++) {
charCodeToGlyphId[glyphId] = glyphId;
}
}
return charCodeToGlyphId;
}
var encoding = cff.encoding ? cff.encoding.encoding : null;
charCodeToGlyphId = type1FontGlyphMapping(properties, encoding, charsets);
return charCodeToGlyphId;
}
};
return CFFFont;
})();
// Workaround for seac on Windows.
(function checkSeacSupport() {
if (typeof navigator !== 'undefined' && /Windows/.test(navigator.userAgent)) {
SEAC_ANALYSIS_ENABLED = true;
}
})();
// Workaround for Private Use Area characters in Chrome on Windows
// http://code.google.com/p/chromium/issues/detail?id=122465
// https://github.com/mozilla/pdf.js/issues/1689
(function checkChromeWindows() {
if (typeof navigator !== 'undefined' &&
/Windows.*Chrome/.test(navigator.userAgent)) {
SKIP_PRIVATE_USE_RANGE_F000_TO_F01F = true;
}
})();
exports.SEAC_ANALYSIS_ENABLED = SEAC_ANALYSIS_ENABLED;
exports.ErrorFont = ErrorFont;
exports.Font = Font;
exports.FontFlags = FontFlags;
exports.IdentityToUnicodeMap = IdentityToUnicodeMap;
exports.ToUnicodeMap = ToUnicodeMap;
exports.getFontType = getFontType;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreFunction = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCorePsParser);
}
}(this, function (exports, sharedUtil, corePrimitives, corePsParser) {
var error = sharedUtil.error;
var info = sharedUtil.info;
var isArray = sharedUtil.isArray;
var isBool = sharedUtil.isBool;
var isDict = corePrimitives.isDict;
var isStream = corePrimitives.isStream;
var PostScriptLexer = corePsParser.PostScriptLexer;
var PostScriptParser = corePsParser.PostScriptParser;
var PDFFunction = (function PDFFunctionClosure() {
var CONSTRUCT_SAMPLED = 0;
var CONSTRUCT_INTERPOLATED = 2;
var CONSTRUCT_STICHED = 3;
var CONSTRUCT_POSTSCRIPT = 4;
return {
getSampleArray: function PDFFunction_getSampleArray(size, outputSize, bps,
str) {
var i, ii;
var length = 1;
for (i = 0, ii = size.length; i < ii; i++) {
length *= size[i];
}
length *= outputSize;
var array = new Array(length);
var codeSize = 0;
var codeBuf = 0;
// 32 is a valid bps so shifting won't work
var sampleMul = 1.0 / (Math.pow(2.0, bps) - 1);
var strBytes = str.getBytes((length * bps + 7) / 8);
var strIdx = 0;
for (i = 0; i < length; i++) {
while (codeSize < bps) {
codeBuf <<= 8;
codeBuf |= strBytes[strIdx++];
codeSize += 8;
}
codeSize -= bps;
array[i] = (codeBuf >> codeSize) * sampleMul;
codeBuf &= (1 << codeSize) - 1;
}
return array;
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},
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getIR: function PDFFunction_getIR(xref, fn) {
var dict = fn.dict;
if (!dict) {
dict = fn;
}
var types = [this.constructSampled,
null,
this.constructInterpolated,
this.constructStiched,
this.constructPostScript];
var typeNum = dict.get('FunctionType');
var typeFn = types[typeNum];
if (!typeFn) {
error('Unknown type of function');
}
return typeFn.call(this, fn, dict, xref);
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},
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fromIR: function PDFFunction_fromIR(IR) {
var type = IR[0];
switch (type) {
case CONSTRUCT_SAMPLED:
return this.constructSampledFromIR(IR);
case CONSTRUCT_INTERPOLATED:
return this.constructInterpolatedFromIR(IR);
case CONSTRUCT_STICHED:
return this.constructStichedFromIR(IR);
//case CONSTRUCT_POSTSCRIPT:
default:
return this.constructPostScriptFromIR(IR);
}
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},
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parse: function PDFFunction_parse(xref, fn) {
var IR = this.getIR(xref, fn);
return this.fromIR(IR);
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},
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parseArray: function PDFFunction_parseArray(xref, fnObj) {
if (!isArray(fnObj)) {
// not an array -- parsing as regular function
return this.parse(xref, fnObj);
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}
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var fnArray = [];
for (var j = 0, jj = fnObj.length; j < jj; j++) {
var obj = xref.fetchIfRef(fnObj[j]);
fnArray.push(PDFFunction.parse(xref, obj));
}
return function (src, srcOffset, dest, destOffset) {
for (var i = 0, ii = fnArray.length; i < ii; i++) {
fnArray[i](src, srcOffset, dest, destOffset + i);
}
};
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},
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constructSampled: function PDFFunction_constructSampled(str, dict) {
function toMultiArray(arr) {
var inputLength = arr.length;
var out = [];
var index = 0;
for (var i = 0; i < inputLength; i += 2) {
out[index] = [arr[i], arr[i + 1]];
++index;
}
return out;
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}
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var domain = dict.get('Domain');
var range = dict.get('Range');
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if (!domain || !range) {
error('No domain or range');
}
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var inputSize = domain.length / 2;
var outputSize = range.length / 2;
domain = toMultiArray(domain);
range = toMultiArray(range);
var size = dict.get('Size');
var bps = dict.get('BitsPerSample');
var order = dict.get('Order') || 1;
if (order !== 1) {
// No description how cubic spline interpolation works in PDF32000:2008
// As in poppler, ignoring order, linear interpolation may work as good
info('No support for cubic spline interpolation: ' + order);
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}
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var encode = dict.get('Encode');
if (!encode) {
encode = [];
for (var i = 0; i < inputSize; ++i) {
encode.push(0);
encode.push(size[i] - 1);
}
}
encode = toMultiArray(encode);
var decode = dict.get('Decode');
if (!decode) {
decode = range;
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} else {
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decode = toMultiArray(decode);
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}
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var samples = this.getSampleArray(size, outputSize, bps, str);
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return [
CONSTRUCT_SAMPLED, inputSize, domain, encode, decode, samples, size,
outputSize, Math.pow(2, bps) - 1, range
];
},
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constructSampledFromIR: function PDFFunction_constructSampledFromIR(IR) {
// See chapter 3, page 109 of the PDF reference
function interpolate(x, xmin, xmax, ymin, ymax) {
return ymin + ((x - xmin) * ((ymax - ymin) / (xmax - xmin)));
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}
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return function constructSampledFromIRResult(src, srcOffset,
dest, destOffset) {
// See chapter 3, page 110 of the PDF reference.
var m = IR[1];
var domain = IR[2];
var encode = IR[3];
var decode = IR[4];
var samples = IR[5];
var size = IR[6];
var n = IR[7];
//var mask = IR[8];
var range = IR[9];
// Building the cube vertices: its part and sample index
// http://rjwagner49.com/Mathematics/Interpolation.pdf
var cubeVertices = 1 << m;
var cubeN = new Float64Array(cubeVertices);
var cubeVertex = new Uint32Array(cubeVertices);
var i, j;
for (j = 0; j < cubeVertices; j++) {
cubeN[j] = 1;
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}
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var k = n, pos = 1;
// Map x_i to y_j for 0 <= i < m using the sampled function.
for (i = 0; i < m; ++i) {
// x_i' = min(max(x_i, Domain_2i), Domain_2i+1)
var domain_2i = domain[i][0];
var domain_2i_1 = domain[i][1];
var xi = Math.min(Math.max(src[srcOffset +i], domain_2i),
domain_2i_1);
// e_i = Interpolate(x_i', Domain_2i, Domain_2i+1,
// Encode_2i, Encode_2i+1)
var e = interpolate(xi, domain_2i, domain_2i_1,
encode[i][0], encode[i][1]);
// e_i' = min(max(e_i, 0), Size_i - 1)
var size_i = size[i];
e = Math.min(Math.max(e, 0), size_i - 1);
// Adjusting the cube: N and vertex sample index
var e0 = e < size_i - 1 ? Math.floor(e) : e - 1; // e1 = e0 + 1;
var n0 = e0 + 1 - e; // (e1 - e) / (e1 - e0);
var n1 = e - e0; // (e - e0) / (e1 - e0);
var offset0 = e0 * k;
var offset1 = offset0 + k; // e1 * k
for (j = 0; j < cubeVertices; j++) {
if (j & pos) {
cubeN[j] *= n1;
cubeVertex[j] += offset1;
} else {
cubeN[j] *= n0;
cubeVertex[j] += offset0;
}
}
k *= size_i;
pos <<= 1;
}
for (j = 0; j < n; ++j) {
// Sum all cube vertices' samples portions
var rj = 0;
for (i = 0; i < cubeVertices; i++) {
rj += samples[cubeVertex[i] + j] * cubeN[i];
}
// r_j' = Interpolate(r_j, 0, 2^BitsPerSample - 1,
// Decode_2j, Decode_2j+1)
rj = interpolate(rj, 0, 1, decode[j][0], decode[j][1]);
// y_j = min(max(r_j, range_2j), range_2j+1)
dest[destOffset + j] = Math.min(Math.max(rj, range[j][0]),
range[j][1]);
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}
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};
},
constructInterpolated: function PDFFunction_constructInterpolated(str,
dict) {
var c0 = dict.get('C0') || [0];
var c1 = dict.get('C1') || [1];
var n = dict.get('N');
if (!isArray(c0) || !isArray(c1)) {
error('Illegal dictionary for interpolated function');
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}
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var length = c0.length;
var diff = [];
for (var i = 0; i < length; ++i) {
diff.push(c1[i] - c0[i]);
}
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return [CONSTRUCT_INTERPOLATED, c0, diff, n];
},
constructInterpolatedFromIR:
function PDFFunction_constructInterpolatedFromIR(IR) {
var c0 = IR[1];
var diff = IR[2];
var n = IR[3];
var length = diff.length;
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return function constructInterpolatedFromIRResult(src, srcOffset,
dest, destOffset) {
var x = n === 1 ? src[srcOffset] : Math.pow(src[srcOffset], n);
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for (var j = 0; j < length; ++j) {
dest[destOffset + j] = c0[j] + (x * diff[j]);
}
};
},
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constructStiched: function PDFFunction_constructStiched(fn, dict, xref) {
var domain = dict.get('Domain');
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if (!domain) {
error('No domain');
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}
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var inputSize = domain.length / 2;
if (inputSize !== 1) {
error('Bad domain for stiched function');
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}
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var fnRefs = dict.get('Functions');
var fns = [];
for (var i = 0, ii = fnRefs.length; i < ii; ++i) {
fns.push(PDFFunction.getIR(xref, xref.fetchIfRef(fnRefs[i])));
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}
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var bounds = dict.get('Bounds');
var encode = dict.get('Encode');
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return [CONSTRUCT_STICHED, domain, bounds, encode, fns];
},
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constructStichedFromIR: function PDFFunction_constructStichedFromIR(IR) {
var domain = IR[1];
var bounds = IR[2];
var encode = IR[3];
var fnsIR = IR[4];
var fns = [];
var tmpBuf = new Float32Array(1);
for (var i = 0, ii = fnsIR.length; i < ii; i++) {
fns.push(PDFFunction.fromIR(fnsIR[i]));
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}
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return function constructStichedFromIRResult(src, srcOffset,
dest, destOffset) {
var clip = function constructStichedFromIRClip(v, min, max) {
if (v > max) {
v = max;
} else if (v < min) {
v = min;
}
return v;
};
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// clip to domain
var v = clip(src[srcOffset], domain[0], domain[1]);
// calulate which bound the value is in
for (var i = 0, ii = bounds.length; i < ii; ++i) {
if (v < bounds[i]) {
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break;
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}
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}
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// encode value into domain of function
var dmin = domain[0];
if (i > 0) {
dmin = bounds[i - 1];
}
var dmax = domain[1];
if (i < bounds.length) {
dmax = bounds[i];
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}
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var rmin = encode[2 * i];
var rmax = encode[2 * i + 1];
// Prevent the value from becoming NaN as a result
// of division by zero (fixes issue6113.pdf).
tmpBuf[0] = dmin === dmax ? rmin :
rmin + (v - dmin) * (rmax - rmin) / (dmax - dmin);
// call the appropriate function
fns[i](tmpBuf, 0, dest, destOffset);
};
},
constructPostScript: function PDFFunction_constructPostScript(fn, dict,
xref) {
var domain = dict.get('Domain');
var range = dict.get('Range');
if (!domain) {
error('No domain.');
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}
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if (!range) {
error('No range.');
}
var lexer = new PostScriptLexer(fn);
var parser = new PostScriptParser(lexer);
var code = parser.parse();
return [CONSTRUCT_POSTSCRIPT, domain, range, code];
},
constructPostScriptFromIR: function PDFFunction_constructPostScriptFromIR(
IR) {
var domain = IR[1];
var range = IR[2];
var code = IR[3];
var compiled = (new PostScriptCompiler()).compile(code, domain, range);
if (compiled) {
// Compiled function consists of simple expressions such as addition,
// subtraction, Math.max, and also contains 'var' and 'return'
// statements. See the generation in the PostScriptCompiler below.
/*jshint -W054 */
return new Function('src', 'srcOffset', 'dest', 'destOffset', compiled);
}
info('Unable to compile PS function');
var numOutputs = range.length >> 1;
var numInputs = domain.length >> 1;
var evaluator = new PostScriptEvaluator(code);
// Cache the values for a big speed up, the cache size is limited though
// since the number of possible values can be huge from a PS function.
var cache = Object.create(null);
// The MAX_CACHE_SIZE is set to ~4x the maximum number of distinct values
// seen in our tests.
var MAX_CACHE_SIZE = 2048 * 4;
var cache_available = MAX_CACHE_SIZE;
var tmpBuf = new Float32Array(numInputs);
return function constructPostScriptFromIRResult(src, srcOffset,
dest, destOffset) {
var i, value;
var key = '';
var input = tmpBuf;
for (i = 0; i < numInputs; i++) {
value = src[srcOffset + i];
input[i] = value;
key += value + '_';
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}
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var cachedValue = cache[key];
if (cachedValue !== undefined) {
dest.set(cachedValue, destOffset);
return;
}
var output = new Float32Array(numOutputs);
var stack = evaluator.execute(input);
var stackIndex = stack.length - numOutputs;
for (i = 0; i < numOutputs; i++) {
value = stack[stackIndex + i];
var bound = range[i * 2];
if (value < bound) {
value = bound;
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} else {
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bound = range[i * 2 +1];
if (value > bound) {
value = bound;
}
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}
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output[i] = value;
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}
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if (cache_available > 0) {
cache_available--;
cache[key] = output;
}
dest.set(output, destOffset);
};
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}
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};
})();
function isPDFFunction(v) {
var fnDict;
if (typeof v !== 'object') {
return false;
} else if (isDict(v)) {
fnDict = v;
} else if (isStream(v)) {
fnDict = v.dict;
} else {
return false;
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}
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return fnDict.has('FunctionType');
}
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var PostScriptStack = (function PostScriptStackClosure() {
var MAX_STACK_SIZE = 100;
function PostScriptStack(initialStack) {
this.stack = !initialStack ? [] :
Array.prototype.slice.call(initialStack, 0);
}
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PostScriptStack.prototype = {
push: function PostScriptStack_push(value) {
if (this.stack.length >= MAX_STACK_SIZE) {
error('PostScript function stack overflow.');
}
this.stack.push(value);
},
pop: function PostScriptStack_pop() {
if (this.stack.length <= 0) {
error('PostScript function stack underflow.');
}
return this.stack.pop();
},
copy: function PostScriptStack_copy(n) {
if (this.stack.length + n >= MAX_STACK_SIZE) {
error('PostScript function stack overflow.');
}
var stack = this.stack;
for (var i = stack.length - n, j = n - 1; j >= 0; j--, i++) {
stack.push(stack[i]);
}
},
index: function PostScriptStack_index(n) {
this.push(this.stack[this.stack.length - n - 1]);
},
// rotate the last n stack elements p times
roll: function PostScriptStack_roll(n, p) {
var stack = this.stack;
var l = stack.length - n;
var r = stack.length - 1, c = l + (p - Math.floor(p / n) * n), i, j, t;
for (i = l, j = r; i < j; i++, j--) {
t = stack[i]; stack[i] = stack[j]; stack[j] = t;
}
for (i = l, j = c - 1; i < j; i++, j--) {
t = stack[i]; stack[i] = stack[j]; stack[j] = t;
}
for (i = c, j = r; i < j; i++, j--) {
t = stack[i]; stack[i] = stack[j]; stack[j] = t;
}
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}
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};
return PostScriptStack;
})();
var PostScriptEvaluator = (function PostScriptEvaluatorClosure() {
function PostScriptEvaluator(operators) {
this.operators = operators;
}
PostScriptEvaluator.prototype = {
execute: function PostScriptEvaluator_execute(initialStack) {
var stack = new PostScriptStack(initialStack);
var counter = 0;
var operators = this.operators;
var length = operators.length;
var operator, a, b;
while (counter < length) {
operator = operators[counter++];
if (typeof operator === 'number') {
// Operator is really an operand and should be pushed to the stack.
stack.push(operator);
continue;
}
switch (operator) {
// non standard ps operators
case 'jz': // jump if false
b = stack.pop();
a = stack.pop();
if (!a) {
counter = b;
}
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break;
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case 'j': // jump
a = stack.pop();
counter = a;
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break;
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// all ps operators in alphabetical order (excluding if/ifelse)
case 'abs':
a = stack.pop();
stack.push(Math.abs(a));
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break;
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case 'add':
b = stack.pop();
a = stack.pop();
stack.push(a + b);
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break;
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case 'and':
b = stack.pop();
a = stack.pop();
if (isBool(a) && isBool(b)) {
stack.push(a && b);
} else {
stack.push(a & b);
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}
break;
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case 'atan':
a = stack.pop();
stack.push(Math.atan(a));
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break;
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case 'bitshift':
b = stack.pop();
a = stack.pop();
if (a > 0) {
stack.push(a << b);
} else {
stack.push(a >> b);
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}
break;
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case 'ceiling':
a = stack.pop();
stack.push(Math.ceil(a));
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break;
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case 'copy':
a = stack.pop();
stack.copy(a);
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break;
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case 'cos':
a = stack.pop();
stack.push(Math.cos(a));
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break;
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case 'cvi':
a = stack.pop() | 0;
stack.push(a);
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break;
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case 'cvr':
// noop
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break;
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case 'div':
b = stack.pop();
a = stack.pop();
stack.push(a / b);
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break;
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case 'dup':
stack.copy(1);
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break;
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case 'eq':
b = stack.pop();
a = stack.pop();
stack.push(a === b);
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break;
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case 'exch':
stack.roll(2, 1);
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break;
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case 'exp':
b = stack.pop();
a = stack.pop();
stack.push(Math.pow(a, b));
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break;
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case 'false':
stack.push(false);
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break;
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case 'floor':
a = stack.pop();
stack.push(Math.floor(a));
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break;
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case 'ge':
b = stack.pop();
a = stack.pop();
stack.push(a >= b);
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break;
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case 'gt':
b = stack.pop();
a = stack.pop();
stack.push(a > b);
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break;
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case 'idiv':
b = stack.pop();
a = stack.pop();
stack.push((a / b) | 0);
break;
case 'index':
a = stack.pop();
stack.index(a);
break;
case 'le':
b = stack.pop();
a = stack.pop();
stack.push(a <= b);
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break;
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case 'ln':
a = stack.pop();
stack.push(Math.log(a));
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break;
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case 'log':
a = stack.pop();
stack.push(Math.log(a) / Math.LN10);
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break;
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case 'lt':
b = stack.pop();
a = stack.pop();
stack.push(a < b);
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break;
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case 'mod':
b = stack.pop();
a = stack.pop();
stack.push(a % b);
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break;
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case 'mul':
b = stack.pop();
a = stack.pop();
stack.push(a * b);
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break;
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case 'ne':
b = stack.pop();
a = stack.pop();
stack.push(a !== b);
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break;
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case 'neg':
a = stack.pop();
stack.push(-a);
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break;
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case 'not':
a = stack.pop();
if (isBool(a)) {
stack.push(!a);
} else {
stack.push(~a);
}
break;
case 'or':
b = stack.pop();
a = stack.pop();
if (isBool(a) && isBool(b)) {
stack.push(a || b);
} else {
stack.push(a | b);
}
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break;
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case 'pop':
stack.pop();
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break;
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case 'roll':
b = stack.pop();
a = stack.pop();
stack.roll(a, b);
break;
case 'round':
a = stack.pop();
stack.push(Math.round(a));
break;
case 'sin':
a = stack.pop();
stack.push(Math.sin(a));
break;
case 'sqrt':
a = stack.pop();
stack.push(Math.sqrt(a));
break;
case 'sub':
b = stack.pop();
a = stack.pop();
stack.push(a - b);
break;
case 'true':
stack.push(true);
break;
case 'truncate':
a = stack.pop();
a = a < 0 ? Math.ceil(a) : Math.floor(a);
stack.push(a);
break;
case 'xor':
b = stack.pop();
a = stack.pop();
if (isBool(a) && isBool(b)) {
stack.push(a !== b);
} else {
stack.push(a ^ b);
}
break;
default:
error('Unknown operator ' + operator);
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break;
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}
}
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return stack.stack;
}
};
return PostScriptEvaluator;
})();
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// Most of the PDFs functions consist of simple operations such as:
// roll, exch, sub, cvr, pop, index, dup, mul, if, gt, add.
//
// We can compile most of such programs, and at the same moment, we can
// optimize some expressions using basic math properties. Keeping track of
// min/max values will allow us to avoid extra Math.min/Math.max calls.
var PostScriptCompiler = (function PostScriptCompilerClosure() {
function AstNode(type) {
this.type = type;
}
AstNode.prototype.visit = function (visitor) {
throw new Error('abstract method');
};
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function AstArgument(index, min, max) {
AstNode.call(this, 'args');
this.index = index;
this.min = min;
this.max = max;
}
AstArgument.prototype = Object.create(AstNode.prototype);
AstArgument.prototype.visit = function (visitor) {
visitor.visitArgument(this);
};
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function AstLiteral(number) {
AstNode.call(this, 'literal');
this.number = number;
this.min = number;
this.max = number;
}
AstLiteral.prototype = Object.create(AstNode.prototype);
AstLiteral.prototype.visit = function (visitor) {
visitor.visitLiteral(this);
};
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function AstBinaryOperation(op, arg1, arg2, min, max) {
AstNode.call(this, 'binary');
this.op = op;
this.arg1 = arg1;
this.arg2 = arg2;
this.min = min;
this.max = max;
}
AstBinaryOperation.prototype = Object.create(AstNode.prototype);
AstBinaryOperation.prototype.visit = function (visitor) {
visitor.visitBinaryOperation(this);
};
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function AstMin(arg, max) {
AstNode.call(this, 'max');
this.arg = arg;
this.min = arg.min;
this.max = max;
}
AstMin.prototype = Object.create(AstNode.prototype);
AstMin.prototype.visit = function (visitor) {
visitor.visitMin(this);
};
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function AstVariable(index, min, max) {
AstNode.call(this, 'var');
this.index = index;
this.min = min;
this.max = max;
}
AstVariable.prototype = Object.create(AstNode.prototype);
AstVariable.prototype.visit = function (visitor) {
visitor.visitVariable(this);
};
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function AstVariableDefinition(variable, arg) {
AstNode.call(this, 'definition');
this.variable = variable;
this.arg = arg;
}
AstVariableDefinition.prototype = Object.create(AstNode.prototype);
AstVariableDefinition.prototype.visit = function (visitor) {
visitor.visitVariableDefinition(this);
};
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function ExpressionBuilderVisitor() {
this.parts = [];
}
ExpressionBuilderVisitor.prototype = {
visitArgument: function (arg) {
this.parts.push('Math.max(', arg.min, ', Math.min(',
arg.max, ', src[srcOffset + ', arg.index, ']))');
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},
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visitVariable: function (variable) {
this.parts.push('v', variable.index);
},
visitLiteral: function (literal) {
this.parts.push(literal.number);
},
visitBinaryOperation: function (operation) {
this.parts.push('(');
operation.arg1.visit(this);
this.parts.push(' ', operation.op, ' ');
operation.arg2.visit(this);
this.parts.push(')');
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},
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visitVariableDefinition: function (definition) {
this.parts.push('var ');
definition.variable.visit(this);
this.parts.push(' = ');
definition.arg.visit(this);
this.parts.push(';');
},
visitMin: function (max) {
this.parts.push('Math.min(');
max.arg.visit(this);
this.parts.push(', ', max.max, ')');
},
toString: function () {
return this.parts.join('');
}
};
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function buildAddOperation(num1, num2) {
if (num2.type === 'literal' && num2.number === 0) {
// optimization: second operand is 0
return num1;
}
if (num1.type === 'literal' && num1.number === 0) {
// optimization: first operand is 0
return num2;
}
if (num2.type === 'literal' && num1.type === 'literal') {
// optimization: operands operand are literals
return new AstLiteral(num1.number + num2.number);
}
return new AstBinaryOperation('+', num1, num2,
num1.min + num2.min, num1.max + num2.max);
}
function buildMulOperation(num1, num2) {
if (num2.type === 'literal') {
// optimization: second operands is a literal...
if (num2.number === 0) {
return new AstLiteral(0); // and it's 0
} else if (num2.number === 1) {
return num1; // and it's 1
} else if (num1.type === 'literal') {
// ... and first operands is a literal too
return new AstLiteral(num1.number * num2.number);
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}
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}
if (num1.type === 'literal') {
// optimization: first operands is a literal...
if (num1.number === 0) {
return new AstLiteral(0); // and it's 0
} else if (num1.number === 1) {
return num2; // and it's 1
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}
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}
var min = Math.min(num1.min * num2.min, num1.min * num2.max,
num1.max * num2.min, num1.max * num2.max);
var max = Math.max(num1.min * num2.min, num1.min * num2.max,
num1.max * num2.min, num1.max * num2.max);
return new AstBinaryOperation('*', num1, num2, min, max);
}
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function buildSubOperation(num1, num2) {
if (num2.type === 'literal') {
// optimization: second operands is a literal...
if (num2.number === 0) {
return num1; // ... and it's 0
} else if (num1.type === 'literal') {
// ... and first operands is a literal too
return new AstLiteral(num1.number - num2.number);
}
}
if (num2.type === 'binary' && num2.op === '-' &&
num1.type === 'literal' && num1.number === 1 &&
num2.arg1.type === 'literal' && num2.arg1.number === 1) {
// optimization for case: 1 - (1 - x)
return num2.arg2;
}
return new AstBinaryOperation('-', num1, num2,
num1.min - num2.max, num1.max - num2.min);
}
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function buildMinOperation(num1, max) {
if (num1.min >= max) {
// optimization: num1 min value is not less than required max
return new AstLiteral(max); // just returning max
} else if (num1.max <= max) {
// optimization: num1 max value is not greater than required max
return num1; // just returning an argument
}
return new AstMin(num1, max);
}
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function PostScriptCompiler() {}
PostScriptCompiler.prototype = {
compile: function PostScriptCompiler_compile(code, domain, range) {
var stack = [];
var i, ii;
var instructions = [];
var inputSize = domain.length >> 1, outputSize = range.length >> 1;
var lastRegister = 0;
var n, j;
var num1, num2, ast1, ast2, tmpVar, item;
for (i = 0; i < inputSize; i++) {
stack.push(new AstArgument(i, domain[i * 2], domain[i * 2 + 1]));
}
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for (i = 0, ii = code.length; i < ii; i++) {
item = code[i];
if (typeof item === 'number') {
stack.push(new AstLiteral(item));
continue;
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}
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switch (item) {
case 'add':
if (stack.length < 2) {
return null;
}
num2 = stack.pop();
num1 = stack.pop();
stack.push(buildAddOperation(num1, num2));
break;
case 'cvr':
if (stack.length < 1) {
return null;
}
break;
case 'mul':
if (stack.length < 2) {
return null;
}
num2 = stack.pop();
num1 = stack.pop();
stack.push(buildMulOperation(num1, num2));
break;
case 'sub':
if (stack.length < 2) {
return null;
}
num2 = stack.pop();
num1 = stack.pop();
stack.push(buildSubOperation(num1, num2));
break;
case 'exch':
if (stack.length < 2) {
return null;
}
ast1 = stack.pop(); ast2 = stack.pop();
stack.push(ast1, ast2);
break;
case 'pop':
if (stack.length < 1) {
return null;
}
stack.pop();
break;
case 'index':
if (stack.length < 1) {
return null;
}
num1 = stack.pop();
if (num1.type !== 'literal') {
return null;
}
n = num1.number;
if (n < 0 || (n|0) !== n || stack.length < n) {
return null;
}
ast1 = stack[stack.length - n - 1];
if (ast1.type === 'literal' || ast1.type === 'var') {
stack.push(ast1);
break;
}
tmpVar = new AstVariable(lastRegister++, ast1.min, ast1.max);
stack[stack.length - n - 1] = tmpVar;
stack.push(tmpVar);
instructions.push(new AstVariableDefinition(tmpVar, ast1));
break;
case 'dup':
if (stack.length < 1) {
return null;
}
if (typeof code[i + 1] === 'number' && code[i + 2] === 'gt' &&
code[i + 3] === i + 7 && code[i + 4] === 'jz' &&
code[i + 5] === 'pop' && code[i + 6] === code[i + 1]) {
// special case of the commands sequence for the min operation
num1 = stack.pop();
stack.push(buildMinOperation(num1, code[i + 1]));
i += 6;
break;
}
ast1 = stack[stack.length - 1];
if (ast1.type === 'literal' || ast1.type === 'var') {
// we don't have to save into intermediate variable a literal or
// variable.
stack.push(ast1);
break;
}
tmpVar = new AstVariable(lastRegister++, ast1.min, ast1.max);
stack[stack.length - 1] = tmpVar;
stack.push(tmpVar);
instructions.push(new AstVariableDefinition(tmpVar, ast1));
break;
case 'roll':
if (stack.length < 2) {
return null;
}
num2 = stack.pop();
num1 = stack.pop();
if (num2.type !== 'literal' || num1.type !== 'literal') {
// both roll operands must be numbers
return null;
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}
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j = num2.number;
n = num1.number;
if (n <= 0 || (n|0) !== n || (j|0) !== j || stack.length < n) {
// ... and integers
return null;
}
j = ((j % n) + n) % n;
if (j === 0) {
break; // just skipping -- there are nothing to rotate
}
Array.prototype.push.apply(stack,
stack.splice(stack.length - n, n - j));
break;
default:
return null; // unsupported operator
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}
}
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if (stack.length !== outputSize) {
return null;
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}
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var result = [];
instructions.forEach(function (instruction) {
var statementBuilder = new ExpressionBuilderVisitor();
instruction.visit(statementBuilder);
result.push(statementBuilder.toString());
});
stack.forEach(function (expr, i) {
var statementBuilder = new ExpressionBuilderVisitor();
expr.visit(statementBuilder);
var min = range[i * 2], max = range[i * 2 + 1];
var out = [statementBuilder.toString()];
if (min > expr.min) {
out.unshift('Math.max(', min, ', ');
out.push(')');
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}
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if (max < expr.max) {
out.unshift('Math.min(', max, ', ');
out.push(')');
}
out.unshift('dest[destOffset + ', i, '] = ');
out.push(';');
result.push(out.join(''));
});
return result.join('\n');
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}
};
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return PostScriptCompiler;
})();
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exports.isPDFFunction = isPDFFunction;
exports.PDFFunction = PDFFunction;
exports.PostScriptEvaluator = PostScriptEvaluator;
exports.PostScriptCompiler = PostScriptCompiler;
}));
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(function (root, factory) {
{
factory((root.pdfjsCoreColorSpace = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreFunction);
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}
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}(this, function (exports, sharedUtil, corePrimitives, coreFunction) {
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var error = sharedUtil.error;
var info = sharedUtil.info;
var isArray = sharedUtil.isArray;
var isString = sharedUtil.isString;
var shadow = sharedUtil.shadow;
var warn = sharedUtil.warn;
var isDict = corePrimitives.isDict;
var isName = corePrimitives.isName;
var isStream = corePrimitives.isStream;
var PDFFunction = coreFunction.PDFFunction;
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var coreImage; // see _setCoreImage below
var PDFImage; // = coreImage.PDFImage;
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var ColorSpace = (function ColorSpaceClosure() {
// Constructor should define this.numComps, this.defaultColor, this.name
function ColorSpace() {
error('should not call ColorSpace constructor');
}
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ColorSpace.prototype = {
/**
* Converts the color value to the RGB color. The color components are
* located in the src array starting from the srcOffset. Returns the array
* of the rgb components, each value ranging from [0,255].
*/
getRgb: function ColorSpace_getRgb(src, srcOffset) {
var rgb = new Uint8Array(3);
this.getRgbItem(src, srcOffset, rgb, 0);
return rgb;
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},
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/**
* Converts the color value to the RGB color, similar to the getRgb method.
* The result placed into the dest array starting from the destOffset.
*/
getRgbItem: function ColorSpace_getRgbItem(src, srcOffset,
dest, destOffset) {
error('Should not call ColorSpace.getRgbItem');
},
/**
* Converts the specified number of the color values to the RGB colors.
* The colors are located in the src array starting from the srcOffset.
* The result is placed into the dest array starting from the destOffset.
* The src array items shall be in [0,2^bits) range, the dest array items
* will be in [0,255] range. alpha01 indicates how many alpha components
* there are in the dest array; it will be either 0 (RGB array) or 1 (RGBA
* array).
*/
getRgbBuffer: function ColorSpace_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
error('Should not call ColorSpace.getRgbBuffer');
},
/**
* Determines the number of bytes required to store the result of the
* conversion done by the getRgbBuffer method. As in getRgbBuffer,
* |alpha01| is either 0 (RGB output) or 1 (RGBA output).
*/
getOutputLength: function ColorSpace_getOutputLength(inputLength,
alpha01) {
error('Should not call ColorSpace.getOutputLength');
},
/**
* Returns true if source data will be equal the result/output data.
*/
isPassthrough: function ColorSpace_isPassthrough(bits) {
return false;
},
/**
* Fills in the RGB colors in the destination buffer. alpha01 indicates
* how many alpha components there are in the dest array; it will be either
* 0 (RGB array) or 1 (RGBA array).
*/
fillRgb: function ColorSpace_fillRgb(dest, originalWidth,
originalHeight, width, height,
actualHeight, bpc, comps, alpha01) {
var count = originalWidth * originalHeight;
var rgbBuf = null;
var numComponentColors = 1 << bpc;
var needsResizing = originalHeight !== height || originalWidth !== width;
var i, ii;
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if (this.isPassthrough(bpc)) {
rgbBuf = comps;
} else if (this.numComps === 1 && count > numComponentColors &&
this.name !== 'DeviceGray' && this.name !== 'DeviceRGB') {
// Optimization: create a color map when there is just one component and
// we are converting more colors than the size of the color map. We
// don't build the map if the colorspace is gray or rgb since those
// methods are faster than building a map. This mainly offers big speed
// ups for indexed and alternate colorspaces.
//
// TODO it may be worth while to cache the color map. While running
// testing I never hit a cache so I will leave that out for now (perhaps
// we are reparsing colorspaces too much?).
var allColors = bpc <= 8 ? new Uint8Array(numComponentColors) :
new Uint16Array(numComponentColors);
var key;
for (i = 0; i < numComponentColors; i++) {
allColors[i] = i;
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}
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var colorMap = new Uint8Array(numComponentColors * 3);
this.getRgbBuffer(allColors, 0, numComponentColors, colorMap, 0, bpc,
/* alpha01 = */ 0);
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var destPos, rgbPos;
if (!needsResizing) {
// Fill in the RGB values directly into |dest|.
destPos = 0;
for (i = 0; i < count; ++i) {
key = comps[i] * 3;
dest[destPos++] = colorMap[key];
dest[destPos++] = colorMap[key + 1];
dest[destPos++] = colorMap[key + 2];
destPos += alpha01;
}
} else {
rgbBuf = new Uint8Array(count * 3);
rgbPos = 0;
for (i = 0; i < count; ++i) {
key = comps[i] * 3;
rgbBuf[rgbPos++] = colorMap[key];
rgbBuf[rgbPos++] = colorMap[key + 1];
rgbBuf[rgbPos++] = colorMap[key + 2];
}
}
} else {
if (!needsResizing) {
// Fill in the RGB values directly into |dest|.
this.getRgbBuffer(comps, 0, width * actualHeight, dest, 0, bpc,
alpha01);
} else {
rgbBuf = new Uint8Array(count * 3);
this.getRgbBuffer(comps, 0, count, rgbBuf, 0, bpc,
/* alpha01 = */ 0);
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}
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}
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if (rgbBuf) {
if (needsResizing) {
PDFImage.resize(rgbBuf, bpc, 3, originalWidth, originalHeight, width,
height, dest, alpha01);
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} else {
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rgbPos = 0;
destPos = 0;
for (i = 0, ii = width * actualHeight; i < ii; i++) {
dest[destPos++] = rgbBuf[rgbPos++];
dest[destPos++] = rgbBuf[rgbPos++];
dest[destPos++] = rgbBuf[rgbPos++];
destPos += alpha01;
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}
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}
}
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},
/**
* True if the colorspace has components in the default range of [0, 1].
* This should be true for all colorspaces except for lab color spaces
* which are [0,100], [-128, 127], [-128, 127].
*/
usesZeroToOneRange: true
};
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ColorSpace.parse = function ColorSpace_parse(cs, xref, res) {
var IR = ColorSpace.parseToIR(cs, xref, res);
if (IR instanceof AlternateCS) {
return IR;
}
return ColorSpace.fromIR(IR);
};
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ColorSpace.fromIR = function ColorSpace_fromIR(IR) {
var name = isArray(IR) ? IR[0] : IR;
var whitePoint, blackPoint, gamma;
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switch (name) {
case 'DeviceGrayCS':
return this.singletons.gray;
case 'DeviceRgbCS':
return this.singletons.rgb;
case 'DeviceCmykCS':
return this.singletons.cmyk;
case 'CalGrayCS':
whitePoint = IR[1];
blackPoint = IR[2];
gamma = IR[3];
return new CalGrayCS(whitePoint, blackPoint, gamma);
case 'CalRGBCS':
whitePoint = IR[1];
blackPoint = IR[2];
gamma = IR[3];
var matrix = IR[4];
return new CalRGBCS(whitePoint, blackPoint, gamma, matrix);
case 'PatternCS':
var basePatternCS = IR[1];
if (basePatternCS) {
basePatternCS = ColorSpace.fromIR(basePatternCS);
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}
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return new PatternCS(basePatternCS);
case 'IndexedCS':
var baseIndexedCS = IR[1];
var hiVal = IR[2];
var lookup = IR[3];
return new IndexedCS(ColorSpace.fromIR(baseIndexedCS), hiVal, lookup);
case 'AlternateCS':
var numComps = IR[1];
var alt = IR[2];
var tintFnIR = IR[3];
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return new AlternateCS(numComps, ColorSpace.fromIR(alt),
PDFFunction.fromIR(tintFnIR));
case 'LabCS':
whitePoint = IR[1];
blackPoint = IR[2];
var range = IR[3];
return new LabCS(whitePoint, blackPoint, range);
default:
error('Unknown name ' + name);
}
return null;
};
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ColorSpace.parseToIR = function ColorSpace_parseToIR(cs, xref, res) {
if (isName(cs)) {
var colorSpaces = res.get('ColorSpace');
if (isDict(colorSpaces)) {
var refcs = colorSpaces.get(cs.name);
if (refcs) {
cs = refcs;
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}
}
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}
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cs = xref.fetchIfRef(cs);
var mode;
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if (isName(cs)) {
mode = cs.name;
this.mode = mode;
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switch (mode) {
case 'DeviceGray':
case 'G':
return 'DeviceGrayCS';
case 'DeviceRGB':
case 'RGB':
return 'DeviceRgbCS';
case 'DeviceCMYK':
case 'CMYK':
return 'DeviceCmykCS';
case 'Pattern':
return ['PatternCS', null];
default:
error('unrecognized colorspace ' + mode);
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}
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} else if (isArray(cs)) {
mode = xref.fetchIfRef(cs[0]).name;
this.mode = mode;
var numComps, params, alt, whitePoint, blackPoint, gamma;
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switch (mode) {
case 'DeviceGray':
case 'G':
return 'DeviceGrayCS';
case 'DeviceRGB':
case 'RGB':
return 'DeviceRgbCS';
case 'DeviceCMYK':
case 'CMYK':
return 'DeviceCmykCS';
case 'CalGray':
params = xref.fetchIfRef(cs[1]);
whitePoint = params.get('WhitePoint');
blackPoint = params.get('BlackPoint');
gamma = params.get('Gamma');
return ['CalGrayCS', whitePoint, blackPoint, gamma];
case 'CalRGB':
params = xref.fetchIfRef(cs[1]);
whitePoint = params.get('WhitePoint');
blackPoint = params.get('BlackPoint');
gamma = params.get('Gamma');
var matrix = params.get('Matrix');
return ['CalRGBCS', whitePoint, blackPoint, gamma, matrix];
case 'ICCBased':
var stream = xref.fetchIfRef(cs[1]);
var dict = stream.dict;
numComps = dict.get('N');
alt = dict.get('Alternate');
if (alt) {
var altIR = ColorSpace.parseToIR(alt, xref, res);
// Parse the /Alternate CS to ensure that the number of components
// are correct, and also (indirectly) that it is not a PatternCS.
var altCS = ColorSpace.fromIR(altIR);
if (altCS.numComps === numComps) {
return altIR;
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}
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warn('ICCBased color space: Ignoring incorrect /Alternate entry.');
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}
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if (numComps === 1) {
return 'DeviceGrayCS';
} else if (numComps === 3) {
return 'DeviceRgbCS';
} else if (numComps === 4) {
return 'DeviceCmykCS';
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}
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break;
case 'Pattern':
var basePatternCS = cs[1] || null;
if (basePatternCS) {
basePatternCS = ColorSpace.parseToIR(basePatternCS, xref, res);
}
return ['PatternCS', basePatternCS];
case 'Indexed':
case 'I':
var baseIndexedCS = ColorSpace.parseToIR(cs[1], xref, res);
var hiVal = xref.fetchIfRef(cs[2]) + 1;
var lookup = xref.fetchIfRef(cs[3]);
if (isStream(lookup)) {
lookup = lookup.getBytes();
}
return ['IndexedCS', baseIndexedCS, hiVal, lookup];
case 'Separation':
case 'DeviceN':
var name = xref.fetchIfRef(cs[1]);
numComps = 1;
if (isName(name)) {
numComps = 1;
} else if (isArray(name)) {
numComps = name.length;
}
alt = ColorSpace.parseToIR(cs[2], xref, res);
var tintFnIR = PDFFunction.getIR(xref, xref.fetchIfRef(cs[3]));
return ['AlternateCS', numComps, alt, tintFnIR];
case 'Lab':
params = xref.fetchIfRef(cs[1]);
whitePoint = params.get('WhitePoint');
blackPoint = params.get('BlackPoint');
var range = params.get('Range');
return ['LabCS', whitePoint, blackPoint, range];
default:
error('unimplemented color space object "' + mode + '"');
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}
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} else {
error('unrecognized color space object: "' + cs + '"');
}
return null;
};
/**
* Checks if a decode map matches the default decode map for a color space.
* This handles the general decode maps where there are two values per
* component. e.g. [0, 1, 0, 1, 0, 1] for a RGB color.
* This does not handle Lab, Indexed, or Pattern decode maps since they are
* slightly different.
* @param {Array} decode Decode map (usually from an image).
* @param {Number} n Number of components the color space has.
*/
ColorSpace.isDefaultDecode = function ColorSpace_isDefaultDecode(decode, n) {
if (!isArray(decode)) {
return true;
}
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if (n * 2 !== decode.length) {
warn('The decode map is not the correct length');
return true;
}
for (var i = 0, ii = decode.length; i < ii; i += 2) {
if (decode[i] !== 0 || decode[i + 1] !== 1) {
return false;
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}
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}
return true;
};
ColorSpace.singletons = {
get gray() {
return shadow(this, 'gray', new DeviceGrayCS());
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},
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get rgb() {
return shadow(this, 'rgb', new DeviceRgbCS());
},
get cmyk() {
return shadow(this, 'cmyk', new DeviceCmykCS());
}
};
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return ColorSpace;
})();
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/**
* Alternate color space handles both Separation and DeviceN color spaces. A
* Separation color space is actually just a DeviceN with one color component.
* Both color spaces use a tinting function to convert colors to a base color
* space.
*/
var AlternateCS = (function AlternateCSClosure() {
function AlternateCS(numComps, base, tintFn) {
this.name = 'Alternate';
this.numComps = numComps;
this.defaultColor = new Float32Array(numComps);
for (var i = 0; i < numComps; ++i) {
this.defaultColor[i] = 1;
}
this.base = base;
this.tintFn = tintFn;
this.tmpBuf = new Float32Array(base.numComps);
}
AlternateCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function AlternateCS_getRgbItem(src, srcOffset,
dest, destOffset) {
var tmpBuf = this.tmpBuf;
this.tintFn(src, srcOffset, tmpBuf, 0);
this.base.getRgbItem(tmpBuf, 0, dest, destOffset);
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},
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getRgbBuffer: function AlternateCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var tintFn = this.tintFn;
var base = this.base;
var scale = 1 / ((1 << bits) - 1);
var baseNumComps = base.numComps;
var usesZeroToOneRange = base.usesZeroToOneRange;
var isPassthrough = (base.isPassthrough(8) || !usesZeroToOneRange) &&
alpha01 === 0;
var pos = isPassthrough ? destOffset : 0;
var baseBuf = isPassthrough ? dest : new Uint8Array(baseNumComps * count);
var numComps = this.numComps;
var scaled = new Float32Array(numComps);
var tinted = new Float32Array(baseNumComps);
var i, j;
if (usesZeroToOneRange) {
for (i = 0; i < count; i++) {
for (j = 0; j < numComps; j++) {
scaled[j] = src[srcOffset++] * scale;
}
tintFn(scaled, 0, tinted, 0);
for (j = 0; j < baseNumComps; j++) {
baseBuf[pos++] = tinted[j] * 255;
}
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}
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} else {
for (i = 0; i < count; i++) {
for (j = 0; j < numComps; j++) {
scaled[j] = src[srcOffset++] * scale;
}
tintFn(scaled, 0, tinted, 0);
base.getRgbItem(tinted, 0, baseBuf, pos);
pos += baseNumComps;
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}
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}
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if (!isPassthrough) {
base.getRgbBuffer(baseBuf, 0, count, dest, destOffset, 8, alpha01);
}
},
getOutputLength: function AlternateCS_getOutputLength(inputLength,
alpha01) {
return this.base.getOutputLength(inputLength *
this.base.numComps / this.numComps,
alpha01);
},
isPassthrough: ColorSpace.prototype.isPassthrough,
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function AlternateCS_isDefaultDecode(decodeMap) {
return ColorSpace.isDefaultDecode(decodeMap, this.numComps);
},
usesZeroToOneRange: true
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};
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return AlternateCS;
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})();
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var PatternCS = (function PatternCSClosure() {
function PatternCS(baseCS) {
this.name = 'Pattern';
this.base = baseCS;
}
PatternCS.prototype = {};
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return PatternCS;
})();
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var IndexedCS = (function IndexedCSClosure() {
function IndexedCS(base, highVal, lookup) {
this.name = 'Indexed';
this.numComps = 1;
this.defaultColor = new Uint8Array([0]);
this.base = base;
this.highVal = highVal;
var baseNumComps = base.numComps;
var length = baseNumComps * highVal;
var lookupArray;
if (isStream(lookup)) {
lookupArray = new Uint8Array(length);
var bytes = lookup.getBytes(length);
lookupArray.set(bytes);
} else if (isString(lookup)) {
lookupArray = new Uint8Array(length);
for (var i = 0; i < length; ++i) {
lookupArray[i] = lookup.charCodeAt(i);
}
} else if (lookup instanceof Uint8Array || lookup instanceof Array) {
lookupArray = lookup;
} else {
error('Unrecognized lookup table: ' + lookup);
}
this.lookup = lookupArray;
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}
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IndexedCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function IndexedCS_getRgbItem(src, srcOffset,
dest, destOffset) {
var numComps = this.base.numComps;
var start = src[srcOffset] * numComps;
this.base.getRgbItem(this.lookup, start, dest, destOffset);
},
getRgbBuffer: function IndexedCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var base = this.base;
var numComps = base.numComps;
var outputDelta = base.getOutputLength(numComps, alpha01);
var lookup = this.lookup;
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for (var i = 0; i < count; ++i) {
var lookupPos = src[srcOffset++] * numComps;
base.getRgbBuffer(lookup, lookupPos, 1, dest, destOffset, 8, alpha01);
destOffset += outputDelta;
}
},
getOutputLength: function IndexedCS_getOutputLength(inputLength, alpha01) {
return this.base.getOutputLength(inputLength * this.base.numComps,
alpha01);
},
isPassthrough: ColorSpace.prototype.isPassthrough,
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function IndexedCS_isDefaultDecode(decodeMap) {
// indexed color maps shouldn't be changed
return true;
},
usesZeroToOneRange: true
};
return IndexedCS;
})();
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var DeviceGrayCS = (function DeviceGrayCSClosure() {
function DeviceGrayCS() {
this.name = 'DeviceGray';
this.numComps = 1;
this.defaultColor = new Float32Array([0]);
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}
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DeviceGrayCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function DeviceGrayCS_getRgbItem(src, srcOffset,
dest, destOffset) {
var c = (src[srcOffset] * 255) | 0;
c = c < 0 ? 0 : c > 255 ? 255 : c;
dest[destOffset] = dest[destOffset + 1] = dest[destOffset + 2] = c;
},
getRgbBuffer: function DeviceGrayCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var scale = 255 / ((1 << bits) - 1);
var j = srcOffset, q = destOffset;
for (var i = 0; i < count; ++i) {
var c = (scale * src[j++]) | 0;
dest[q++] = c;
dest[q++] = c;
dest[q++] = c;
q += alpha01;
}
},
getOutputLength: function DeviceGrayCS_getOutputLength(inputLength,
alpha01) {
return inputLength * (3 + alpha01);
},
isPassthrough: ColorSpace.prototype.isPassthrough,
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function DeviceGrayCS_isDefaultDecode(decodeMap) {
return ColorSpace.isDefaultDecode(decodeMap, this.numComps);
},
usesZeroToOneRange: true
};
return DeviceGrayCS;
})();
var DeviceRgbCS = (function DeviceRgbCSClosure() {
function DeviceRgbCS() {
this.name = 'DeviceRGB';
this.numComps = 3;
this.defaultColor = new Float32Array([0, 0, 0]);
}
DeviceRgbCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function DeviceRgbCS_getRgbItem(src, srcOffset,
dest, destOffset) {
var r = (src[srcOffset] * 255) | 0;
var g = (src[srcOffset + 1] * 255) | 0;
var b = (src[srcOffset + 2] * 255) | 0;
dest[destOffset] = r < 0 ? 0 : r > 255 ? 255 : r;
dest[destOffset + 1] = g < 0 ? 0 : g > 255 ? 255 : g;
dest[destOffset + 2] = b < 0 ? 0 : b > 255 ? 255 : b;
},
getRgbBuffer: function DeviceRgbCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
if (bits === 8 && alpha01 === 0) {
dest.set(src.subarray(srcOffset, srcOffset + count * 3), destOffset);
return;
}
var scale = 255 / ((1 << bits) - 1);
var j = srcOffset, q = destOffset;
for (var i = 0; i < count; ++i) {
dest[q++] = (scale * src[j++]) | 0;
dest[q++] = (scale * src[j++]) | 0;
dest[q++] = (scale * src[j++]) | 0;
q += alpha01;
}
},
getOutputLength: function DeviceRgbCS_getOutputLength(inputLength,
alpha01) {
return (inputLength * (3 + alpha01) / 3) | 0;
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},
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isPassthrough: function DeviceRgbCS_isPassthrough(bits) {
return bits === 8;
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},
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fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function DeviceRgbCS_isDefaultDecode(decodeMap) {
return ColorSpace.isDefaultDecode(decodeMap, this.numComps);
},
usesZeroToOneRange: true
};
return DeviceRgbCS;
})();
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var DeviceCmykCS = (function DeviceCmykCSClosure() {
// The coefficients below was found using numerical analysis: the method of
// steepest descent for the sum((f_i - color_value_i)^2) for r/g/b colors,
// where color_value is the tabular value from the table of sampled RGB colors
// from CMYK US Web Coated (SWOP) colorspace, and f_i is the corresponding
// CMYK color conversion using the estimation below:
// f(A, B,.. N) = Acc+Bcm+Ccy+Dck+c+Fmm+Gmy+Hmk+Im+Jyy+Kyk+Ly+Mkk+Nk+255
function convertToRgb(src, srcOffset, srcScale, dest, destOffset) {
var c = src[srcOffset + 0] * srcScale;
var m = src[srcOffset + 1] * srcScale;
var y = src[srcOffset + 2] * srcScale;
var k = src[srcOffset + 3] * srcScale;
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var r =
(c * (-4.387332384609988 * c + 54.48615194189176 * m +
18.82290502165302 * y + 212.25662451639585 * k +
-285.2331026137004) +
m * (1.7149763477362134 * m - 5.6096736904047315 * y +
-17.873870861415444 * k - 5.497006427196366) +
y * (-2.5217340131683033 * y - 21.248923337353073 * k +
17.5119270841813) +
k * (-21.86122147463605 * k - 189.48180835922747) + 255) | 0;
var g =
(c * (8.841041422036149 * c + 60.118027045597366 * m +
6.871425592049007 * y + 31.159100130055922 * k +
-79.2970844816548) +
m * (-15.310361306967817 * m + 17.575251261109482 * y +
131.35250912493976 * k - 190.9453302588951) +
y * (4.444339102852739 * y + 9.8632861493405 * k - 24.86741582555878) +
k * (-20.737325471181034 * k - 187.80453709719578) + 255) | 0;
var b =
(c * (0.8842522430003296 * c + 8.078677503112928 * m +
30.89978309703729 * y - 0.23883238689178934 * k +
-14.183576799673286) +
m * (10.49593273432072 * m + 63.02378494754052 * y +
50.606957656360734 * k - 112.23884253719248) +
y * (0.03296041114873217 * y + 115.60384449646641 * k +
-193.58209356861505) +
k * (-22.33816807309886 * k - 180.12613974708367) + 255) | 0;
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dest[destOffset] = r > 255 ? 255 : r < 0 ? 0 : r;
dest[destOffset + 1] = g > 255 ? 255 : g < 0 ? 0 : g;
dest[destOffset + 2] = b > 255 ? 255 : b < 0 ? 0 : b;
}
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function DeviceCmykCS() {
this.name = 'DeviceCMYK';
this.numComps = 4;
this.defaultColor = new Float32Array([0, 0, 0, 1]);
}
DeviceCmykCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function DeviceCmykCS_getRgbItem(src, srcOffset,
dest, destOffset) {
convertToRgb(src, srcOffset, 1, dest, destOffset);
},
getRgbBuffer: function DeviceCmykCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var scale = 1 / ((1 << bits) - 1);
for (var i = 0; i < count; i++) {
convertToRgb(src, srcOffset, scale, dest, destOffset);
srcOffset += 4;
destOffset += 3 + alpha01;
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}
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},
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getOutputLength: function DeviceCmykCS_getOutputLength(inputLength,
alpha01) {
return (inputLength / 4 * (3 + alpha01)) | 0;
},
isPassthrough: ColorSpace.prototype.isPassthrough,
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function DeviceCmykCS_isDefaultDecode(decodeMap) {
return ColorSpace.isDefaultDecode(decodeMap, this.numComps);
},
usesZeroToOneRange: true
};
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return DeviceCmykCS;
})();
//
// CalGrayCS: Based on "PDF Reference, Sixth Ed", p.245
//
var CalGrayCS = (function CalGrayCSClosure() {
function CalGrayCS(whitePoint, blackPoint, gamma) {
this.name = 'CalGray';
this.numComps = 1;
this.defaultColor = new Float32Array([0]);
if (!whitePoint) {
error('WhitePoint missing - required for color space CalGray');
}
blackPoint = blackPoint || [0, 0, 0];
gamma = gamma || 1;
// Translate arguments to spec variables.
this.XW = whitePoint[0];
this.YW = whitePoint[1];
this.ZW = whitePoint[2];
this.XB = blackPoint[0];
this.YB = blackPoint[1];
this.ZB = blackPoint[2];
this.G = gamma;
// Validate variables as per spec.
if (this.XW < 0 || this.ZW < 0 || this.YW !== 1) {
error('Invalid WhitePoint components for ' + this.name +
', no fallback available');
}
if (this.XB < 0 || this.YB < 0 || this.ZB < 0) {
info('Invalid BlackPoint for ' + this.name + ', falling back to default');
this.XB = this.YB = this.ZB = 0;
}
if (this.XB !== 0 || this.YB !== 0 || this.ZB !== 0) {
warn(this.name + ', BlackPoint: XB: ' + this.XB + ', YB: ' + this.YB +
', ZB: ' + this.ZB + ', only default values are supported.');
}
if (this.G < 1) {
info('Invalid Gamma: ' + this.G + ' for ' + this.name +
', falling back to default');
this.G = 1;
}
}
function convertToRgb(cs, src, srcOffset, dest, destOffset, scale) {
// A represents a gray component of a calibrated gray space.
// A <---> AG in the spec
var A = src[srcOffset] * scale;
var AG = Math.pow(A, cs.G);
// Computes L as per spec. ( = cs.YW * AG )
// Except if other than default BlackPoint values are used.
var L = cs.YW * AG;
// http://www.poynton.com/notes/colour_and_gamma/ColorFAQ.html, Ch 4.
// Convert values to rgb range [0, 255].
var val = Math.max(295.8 * Math.pow(L, 0.333333333333333333) - 40.8, 0) | 0;
dest[destOffset] = val;
dest[destOffset + 1] = val;
dest[destOffset + 2] = val;
}
CalGrayCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function CalGrayCS_getRgbItem(src, srcOffset,
dest, destOffset) {
convertToRgb(this, src, srcOffset, dest, destOffset, 1);
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},
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getRgbBuffer: function CalGrayCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var scale = 1 / ((1 << bits) - 1);
for (var i = 0; i < count; ++i) {
convertToRgb(this, src, srcOffset, dest, destOffset, scale);
srcOffset += 1;
destOffset += 3 + alpha01;
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}
},
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getOutputLength: function CalGrayCS_getOutputLength(inputLength, alpha01) {
return inputLength * (3 + alpha01);
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},
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isPassthrough: ColorSpace.prototype.isPassthrough,
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function CalGrayCS_isDefaultDecode(decodeMap) {
return ColorSpace.isDefaultDecode(decodeMap, this.numComps);
},
usesZeroToOneRange: true
};
return CalGrayCS;
})();
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//
// CalRGBCS: Based on "PDF Reference, Sixth Ed", p.247
//
var CalRGBCS = (function CalRGBCSClosure() {
// See http://www.brucelindbloom.com/index.html?Eqn_ChromAdapt.html for these
// matrices.
var BRADFORD_SCALE_MATRIX = new Float32Array([
0.8951, 0.2664, -0.1614,
-0.7502, 1.7135, 0.0367,
0.0389, -0.0685, 1.0296]);
var BRADFORD_SCALE_INVERSE_MATRIX = new Float32Array([
0.9869929, -0.1470543, 0.1599627,
0.4323053, 0.5183603, 0.0492912,
-0.0085287, 0.0400428, 0.9684867]);
// See http://www.brucelindbloom.com/index.html?Eqn_RGB_XYZ_Matrix.html.
var SRGB_D65_XYZ_TO_RGB_MATRIX = new Float32Array([
3.2404542, -1.5371385, -0.4985314,
-0.9692660, 1.8760108, 0.0415560,
0.0556434, -0.2040259, 1.0572252]);
var FLAT_WHITEPOINT_MATRIX = new Float32Array([1, 1, 1]);
var tempNormalizeMatrix = new Float32Array(3);
var tempConvertMatrix1 = new Float32Array(3);
var tempConvertMatrix2 = new Float32Array(3);
var DECODE_L_CONSTANT = Math.pow(((8 + 16) / 116), 3) / 8.0;
function CalRGBCS(whitePoint, blackPoint, gamma, matrix) {
this.name = 'CalRGB';
this.numComps = 3;
this.defaultColor = new Float32Array(3);
if (!whitePoint) {
error('WhitePoint missing - required for color space CalRGB');
}
blackPoint = blackPoint || new Float32Array(3);
gamma = gamma || new Float32Array([1, 1, 1]);
matrix = matrix || new Float32Array([1, 0, 0, 0, 1, 0, 0, 0, 1]);
// Translate arguments to spec variables.
var XW = whitePoint[0];
var YW = whitePoint[1];
var ZW = whitePoint[2];
this.whitePoint = whitePoint;
var XB = blackPoint[0];
var YB = blackPoint[1];
var ZB = blackPoint[2];
this.blackPoint = blackPoint;
this.GR = gamma[0];
this.GG = gamma[1];
this.GB = gamma[2];
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this.MXA = matrix[0];
this.MYA = matrix[1];
this.MZA = matrix[2];
this.MXB = matrix[3];
this.MYB = matrix[4];
this.MZB = matrix[5];
this.MXC = matrix[6];
this.MYC = matrix[7];
this.MZC = matrix[8];
// Validate variables as per spec.
if (XW < 0 || ZW < 0 || YW !== 1) {
error('Invalid WhitePoint components for ' + this.name +
', no fallback available');
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}
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if (XB < 0 || YB < 0 || ZB < 0) {
info('Invalid BlackPoint for ' + this.name + ' [' + XB + ', ' + YB +
', ' + ZB + '], falling back to default');
this.blackPoint = new Float32Array(3);
}
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if (this.GR < 0 || this.GG < 0 || this.GB < 0) {
info('Invalid Gamma [' + this.GR + ', ' + this.GG + ', ' + this.GB +
'] for ' + this.name + ', falling back to default');
this.GR = this.GG = this.GB = 1;
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}
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if (this.MXA < 0 || this.MYA < 0 || this.MZA < 0 ||
this.MXB < 0 || this.MYB < 0 || this.MZB < 0 ||
this.MXC < 0 || this.MYC < 0 || this.MZC < 0) {
info('Invalid Matrix for ' + this.name + ' [' +
this.MXA + ', ' + this.MYA + ', ' + this.MZA +
this.MXB + ', ' + this.MYB + ', ' + this.MZB +
this.MXC + ', ' + this.MYC + ', ' + this.MZC +
'], falling back to default');
this.MXA = this.MYB = this.MZC = 1;
this.MXB = this.MYA = this.MZA = this.MXC = this.MYC = this.MZB = 0;
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}
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}
function matrixProduct(a, b, result) {
result[0] = a[0] * b[0] + a[1] * b[1] + a[2] * b[2];
result[1] = a[3] * b[0] + a[4] * b[1] + a[5] * b[2];
result[2] = a[6] * b[0] + a[7] * b[1] + a[8] * b[2];
}
function convertToFlat(sourceWhitePoint, LMS, result) {
result[0] = LMS[0] * 1 / sourceWhitePoint[0];
result[1] = LMS[1] * 1 / sourceWhitePoint[1];
result[2] = LMS[2] * 1 / sourceWhitePoint[2];
}
function convertToD65(sourceWhitePoint, LMS, result) {
var D65X = 0.95047;
var D65Y = 1;
var D65Z = 1.08883;
result[0] = LMS[0] * D65X / sourceWhitePoint[0];
result[1] = LMS[1] * D65Y / sourceWhitePoint[1];
result[2] = LMS[2] * D65Z / sourceWhitePoint[2];
}
function sRGBTransferFunction(color) {
// See http://en.wikipedia.org/wiki/SRGB.
if (color <= 0.0031308){
return adjustToRange(0, 1, 12.92 * color);
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}
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return adjustToRange(0, 1, (1 + 0.055) * Math.pow(color, 1 / 2.4) - 0.055);
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}
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function adjustToRange(min, max, value) {
return Math.max(min, Math.min(max, value));
}
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function decodeL(L) {
if (L < 0) {
return -decodeL(-L);
}
if (L > 8.0) {
return Math.pow(((L + 16) / 116), 3);
}
return L * DECODE_L_CONSTANT;
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}
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function compensateBlackPoint(sourceBlackPoint, XYZ_Flat, result) {
// In case the blackPoint is already the default blackPoint then there is
// no need to do compensation.
if (sourceBlackPoint[0] === 0 &&
sourceBlackPoint[1] === 0 &&
sourceBlackPoint[2] === 0) {
result[0] = XYZ_Flat[0];
result[1] = XYZ_Flat[1];
result[2] = XYZ_Flat[2];
return;
}
// For the blackPoint calculation details, please see
// http://www.adobe.com/content/dam/Adobe/en/devnet/photoshop/sdk/
// AdobeBPC.pdf.
// The destination blackPoint is the default blackPoint [0, 0, 0].
var zeroDecodeL = decodeL(0);
var X_DST = zeroDecodeL;
var X_SRC = decodeL(sourceBlackPoint[0]);
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var Y_DST = zeroDecodeL;
var Y_SRC = decodeL(sourceBlackPoint[1]);
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var Z_DST = zeroDecodeL;
var Z_SRC = decodeL(sourceBlackPoint[2]);
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var X_Scale = (1 - X_DST) / (1 - X_SRC);
var X_Offset = 1 - X_Scale;
var Y_Scale = (1 - Y_DST) / (1 - Y_SRC);
var Y_Offset = 1 - Y_Scale;
var Z_Scale = (1 - Z_DST) / (1 - Z_SRC);
var Z_Offset = 1 - Z_Scale;
result[0] = XYZ_Flat[0] * X_Scale + X_Offset;
result[1] = XYZ_Flat[1] * Y_Scale + Y_Offset;
result[2] = XYZ_Flat[2] * Z_Scale + Z_Offset;
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}
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function normalizeWhitePointToFlat(sourceWhitePoint, XYZ_In, result) {
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// In case the whitePoint is already flat then there is no need to do
// normalization.
if (sourceWhitePoint[0] === 1 && sourceWhitePoint[2] === 1) {
result[0] = XYZ_In[0];
result[1] = XYZ_In[1];
result[2] = XYZ_In[2];
return;
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}
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var LMS = result;
matrixProduct(BRADFORD_SCALE_MATRIX, XYZ_In, LMS);
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var LMS_Flat = tempNormalizeMatrix;
convertToFlat(sourceWhitePoint, LMS, LMS_Flat);
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matrixProduct(BRADFORD_SCALE_INVERSE_MATRIX, LMS_Flat, result);
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}
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function normalizeWhitePointToD65(sourceWhitePoint, XYZ_In, result) {
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var LMS = result;
matrixProduct(BRADFORD_SCALE_MATRIX, XYZ_In, LMS);
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var LMS_D65 = tempNormalizeMatrix;
convertToD65(sourceWhitePoint, LMS, LMS_D65);
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matrixProduct(BRADFORD_SCALE_INVERSE_MATRIX, LMS_D65, result);
}
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function convertToRgb(cs, src, srcOffset, dest, destOffset, scale) {
// A, B and C represent a red, green and blue components of a calibrated
// rgb space.
var A = adjustToRange(0, 1, src[srcOffset] * scale);
var B = adjustToRange(0, 1, src[srcOffset + 1] * scale);
var C = adjustToRange(0, 1, src[srcOffset + 2] * scale);
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// A <---> AGR in the spec
// B <---> BGG in the spec
// C <---> CGB in the spec
var AGR = Math.pow(A, cs.GR);
var BGG = Math.pow(B, cs.GG);
var CGB = Math.pow(C, cs.GB);
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// Computes intermediate variables L, M, N as per spec.
// To decode X, Y, Z values map L, M, N directly to them.
var X = cs.MXA * AGR + cs.MXB * BGG + cs.MXC * CGB;
var Y = cs.MYA * AGR + cs.MYB * BGG + cs.MYC * CGB;
var Z = cs.MZA * AGR + cs.MZB * BGG + cs.MZC * CGB;
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// The following calculations are based on this document:
// http://www.adobe.com/content/dam/Adobe/en/devnet/photoshop/sdk/
// AdobeBPC.pdf.
var XYZ = tempConvertMatrix1;
XYZ[0] = X;
XYZ[1] = Y;
XYZ[2] = Z;
var XYZ_Flat = tempConvertMatrix2;
normalizeWhitePointToFlat(cs.whitePoint, XYZ, XYZ_Flat);
var XYZ_Black = tempConvertMatrix1;
compensateBlackPoint(cs.blackPoint, XYZ_Flat, XYZ_Black);
var XYZ_D65 = tempConvertMatrix2;
normalizeWhitePointToD65(FLAT_WHITEPOINT_MATRIX, XYZ_Black, XYZ_D65);
var SRGB = tempConvertMatrix1;
matrixProduct(SRGB_D65_XYZ_TO_RGB_MATRIX, XYZ_D65, SRGB);
var sR = sRGBTransferFunction(SRGB[0]);
var sG = sRGBTransferFunction(SRGB[1]);
var sB = sRGBTransferFunction(SRGB[2]);
// Convert the values to rgb range [0, 255].
dest[destOffset] = Math.round(sR * 255);
dest[destOffset + 1] = Math.round(sG * 255);
dest[destOffset + 2] = Math.round(sB * 255);
}
CalRGBCS.prototype = {
getRgb: function CalRGBCS_getRgb(src, srcOffset) {
var rgb = new Uint8Array(3);
this.getRgbItem(src, srcOffset, rgb, 0);
return rgb;
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},
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getRgbItem: function CalRGBCS_getRgbItem(src, srcOffset,
dest, destOffset) {
convertToRgb(this, src, srcOffset, dest, destOffset, 1);
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},
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getRgbBuffer: function CalRGBCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var scale = 1 / ((1 << bits) - 1);
for (var i = 0; i < count; ++i) {
convertToRgb(this, src, srcOffset, dest, destOffset, scale);
srcOffset += 3;
destOffset += 3 + alpha01;
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}
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},
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getOutputLength: function CalRGBCS_getOutputLength(inputLength, alpha01) {
return (inputLength * (3 + alpha01) / 3) | 0;
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},
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isPassthrough: ColorSpace.prototype.isPassthrough,
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function CalRGBCS_isDefaultDecode(decodeMap) {
return ColorSpace.isDefaultDecode(decodeMap, this.numComps);
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},
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usesZeroToOneRange: true
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};
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return CalRGBCS;
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})();
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//
// LabCS: Based on "PDF Reference, Sixth Ed", p.250
//
var LabCS = (function LabCSClosure() {
function LabCS(whitePoint, blackPoint, range) {
this.name = 'Lab';
this.numComps = 3;
this.defaultColor = new Float32Array([0, 0, 0]);
if (!whitePoint) {
error('WhitePoint missing - required for color space Lab');
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}
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blackPoint = blackPoint || [0, 0, 0];
range = range || [-100, 100, -100, 100];
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// Translate args to spec variables
this.XW = whitePoint[0];
this.YW = whitePoint[1];
this.ZW = whitePoint[2];
this.amin = range[0];
this.amax = range[1];
this.bmin = range[2];
this.bmax = range[3];
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// These are here just for completeness - the spec doesn't offer any
// formulas that use BlackPoint in Lab
this.XB = blackPoint[0];
this.YB = blackPoint[1];
this.ZB = blackPoint[2];
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// Validate vars as per spec
if (this.XW < 0 || this.ZW < 0 || this.YW !== 1) {
error('Invalid WhitePoint components, no fallback available');
}
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if (this.XB < 0 || this.YB < 0 || this.ZB < 0) {
info('Invalid BlackPoint, falling back to default');
this.XB = this.YB = this.ZB = 0;
}
if (this.amin > this.amax || this.bmin > this.bmax) {
info('Invalid Range, falling back to defaults');
this.amin = -100;
this.amax = 100;
this.bmin = -100;
this.bmax = 100;
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}
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}
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// Function g(x) from spec
function fn_g(x) {
if (x >= 6 / 29) {
return x * x * x;
} else {
return (108 / 841) * (x - 4 / 29);
}
}
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function decode(value, high1, low2, high2) {
return low2 + (value) * (high2 - low2) / (high1);
}
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// If decoding is needed maxVal should be 2^bits per component - 1.
function convertToRgb(cs, src, srcOffset, maxVal, dest, destOffset) {
// XXX: Lab input is in the range of [0, 100], [amin, amax], [bmin, bmax]
// not the usual [0, 1]. If a command like setFillColor is used the src
// values will already be within the correct range. However, if we are
// converting an image we have to map the values to the correct range given
// above.
// Ls,as,bs <---> L*,a*,b* in the spec
var Ls = src[srcOffset];
var as = src[srcOffset + 1];
var bs = src[srcOffset + 2];
if (maxVal !== false) {
Ls = decode(Ls, maxVal, 0, 100);
as = decode(as, maxVal, cs.amin, cs.amax);
bs = decode(bs, maxVal, cs.bmin, cs.bmax);
}
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// Adjust limits of 'as' and 'bs'
as = as > cs.amax ? cs.amax : as < cs.amin ? cs.amin : as;
bs = bs > cs.bmax ? cs.bmax : bs < cs.bmin ? cs.bmin : bs;
// Computes intermediate variables X,Y,Z as per spec
var M = (Ls + 16) / 116;
var L = M + (as / 500);
var N = M - (bs / 200);
var X = cs.XW * fn_g(L);
var Y = cs.YW * fn_g(M);
var Z = cs.ZW * fn_g(N);
var r, g, b;
// Using different conversions for D50 and D65 white points,
// per http://www.color.org/srgb.pdf
if (cs.ZW < 1) {
// Assuming D50 (X=0.9642, Y=1.00, Z=0.8249)
r = X * 3.1339 + Y * -1.6170 + Z * -0.4906;
g = X * -0.9785 + Y * 1.9160 + Z * 0.0333;
b = X * 0.0720 + Y * -0.2290 + Z * 1.4057;
} else {
// Assuming D65 (X=0.9505, Y=1.00, Z=1.0888)
r = X * 3.2406 + Y * -1.5372 + Z * -0.4986;
g = X * -0.9689 + Y * 1.8758 + Z * 0.0415;
b = X * 0.0557 + Y * -0.2040 + Z * 1.0570;
}
// clamp color values to [0,1] range then convert to [0,255] range.
dest[destOffset] = r <= 0 ? 0 : r >= 1 ? 255 : Math.sqrt(r) * 255 | 0;
dest[destOffset + 1] = g <= 0 ? 0 : g >= 1 ? 255 : Math.sqrt(g) * 255 | 0;
dest[destOffset + 2] = b <= 0 ? 0 : b >= 1 ? 255 : Math.sqrt(b) * 255 | 0;
}
LabCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function LabCS_getRgbItem(src, srcOffset, dest, destOffset) {
convertToRgb(this, src, srcOffset, false, dest, destOffset);
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},
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getRgbBuffer: function LabCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var maxVal = (1 << bits) - 1;
for (var i = 0; i < count; i++) {
convertToRgb(this, src, srcOffset, maxVal, dest, destOffset);
srcOffset += 3;
destOffset += 3 + alpha01;
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}
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},
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getOutputLength: function LabCS_getOutputLength(inputLength, alpha01) {
return (inputLength * (3 + alpha01) / 3) | 0;
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},
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isPassthrough: ColorSpace.prototype.isPassthrough,
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function LabCS_isDefaultDecode(decodeMap) {
// XXX: Decoding is handled with the lab conversion because of the strange
// ranges that are used.
return true;
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},
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usesZeroToOneRange: false
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};
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return LabCS;
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})();
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// TODO refactor to remove dependency on image.js
function _setCoreImage(coreImage_) {
coreImage = coreImage_;
PDFImage = coreImage_.PDFImage;
}
exports._setCoreImage = _setCoreImage;
exports.ColorSpace = ColorSpace;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreImage = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreColorSpace, root.pdfjsCoreStream,
root.pdfjsCoreJpx);
}
}(this, function (exports, sharedUtil, corePrimitives, coreColorSpace,
coreStream, coreJpx) {
var ImageKind = sharedUtil.ImageKind;
var assert = sharedUtil.assert;
var error = sharedUtil.error;
var info = sharedUtil.info;
var isArray = sharedUtil.isArray;
var warn = sharedUtil.warn;
var Name = corePrimitives.Name;
var isStream = corePrimitives.isStream;
var ColorSpace = coreColorSpace.ColorSpace;
var DecodeStream = coreStream.DecodeStream;
var JpegStream = coreStream.JpegStream;
var JpxImage = coreJpx.JpxImage;
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var PDFImage = (function PDFImageClosure() {
/**
* Decodes the image using native decoder if possible. Resolves the promise
* when the image data is ready.
*/
function handleImageData(image, nativeDecoder) {
if (nativeDecoder && nativeDecoder.canDecode(image)) {
return nativeDecoder.decode(image);
} else {
return Promise.resolve(image);
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}
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}
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/**
* Decode and clamp a value. The formula is different from the spec because we
* don't decode to float range [0,1], we decode it in the [0,max] range.
*/
function decodeAndClamp(value, addend, coefficient, max) {
value = addend + value * coefficient;
// Clamp the value to the range
return (value < 0 ? 0 : (value > max ? max : value));
}
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function PDFImage(xref, res, image, inline, smask, mask, isMask) {
this.image = image;
var dict = image.dict;
if (dict.has('Filter')) {
var filter = dict.get('Filter').name;
if (filter === 'JPXDecode') {
var jpxImage = new JpxImage();
jpxImage.parseImageProperties(image.stream);
image.stream.reset();
image.bitsPerComponent = jpxImage.bitsPerComponent;
image.numComps = jpxImage.componentsCount;
} else if (filter === 'JBIG2Decode') {
image.bitsPerComponent = 1;
image.numComps = 1;
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}
}
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// TODO cache rendered images?
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this.width = dict.get('Width', 'W');
this.height = dict.get('Height', 'H');
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if (this.width < 1 || this.height < 1) {
error('Invalid image width: ' + this.width + ' or height: ' +
this.height);
}
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this.interpolate = dict.get('Interpolate', 'I') || false;
this.imageMask = dict.get('ImageMask', 'IM') || false;
this.matte = dict.get('Matte') || false;
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var bitsPerComponent = image.bitsPerComponent;
if (!bitsPerComponent) {
bitsPerComponent = dict.get('BitsPerComponent', 'BPC');
if (!bitsPerComponent) {
if (this.imageMask) {
bitsPerComponent = 1;
} else {
error('Bits per component missing in image: ' + this.imageMask);
}
}
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}
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this.bpc = bitsPerComponent;
if (!this.imageMask) {
var colorSpace = dict.get('ColorSpace', 'CS');
if (!colorSpace) {
info('JPX images (which do not require color spaces)');
switch (image.numComps) {
case 1:
colorSpace = Name.get('DeviceGray');
break;
case 3:
colorSpace = Name.get('DeviceRGB');
break;
case 4:
colorSpace = Name.get('DeviceCMYK');
break;
default:
error('JPX images with ' + this.numComps +
' color components not supported.');
}
}
this.colorSpace = ColorSpace.parse(colorSpace, xref, res);
this.numComps = this.colorSpace.numComps;
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}
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this.decode = dict.get('Decode', 'D');
this.needsDecode = false;
if (this.decode &&
((this.colorSpace && !this.colorSpace.isDefaultDecode(this.decode)) ||
(isMask && !ColorSpace.isDefaultDecode(this.decode, 1)))) {
this.needsDecode = true;
// Do some preprocessing to avoid more math.
var max = (1 << bitsPerComponent) - 1;
this.decodeCoefficients = [];
this.decodeAddends = [];
for (var i = 0, j = 0; i < this.decode.length; i += 2, ++j) {
var dmin = this.decode[i];
var dmax = this.decode[i + 1];
this.decodeCoefficients[j] = dmax - dmin;
this.decodeAddends[j] = max * dmin;
}
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}
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if (smask) {
this.smask = new PDFImage(xref, res, smask, false);
} else if (mask) {
if (isStream(mask)) {
var maskDict = mask.dict, imageMask = maskDict.get('ImageMask', 'IM');
if (!imageMask) {
warn('Ignoring /Mask in image without /ImageMask.');
} else {
this.mask = new PDFImage(xref, res, mask, false, null, null, true);
}
} else {
// Color key mask (just an array).
this.mask = mask;
}
}
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}
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/**
* Handles processing of image data and returns the Promise that is resolved
* with a PDFImage when the image is ready to be used.
*/
PDFImage.buildImage = function PDFImage_buildImage(handler, xref,
res, image, inline,
nativeDecoder) {
var imagePromise = handleImageData(image, nativeDecoder);
var smaskPromise;
var maskPromise;
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var smask = image.dict.get('SMask');
var mask = image.dict.get('Mask');
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if (smask) {
smaskPromise = handleImageData(smask, nativeDecoder);
maskPromise = Promise.resolve(null);
} else {
smaskPromise = Promise.resolve(null);
if (mask) {
if (isStream(mask)) {
maskPromise = handleImageData(mask, nativeDecoder);
} else if (isArray(mask)) {
maskPromise = Promise.resolve(mask);
} else {
warn('Unsupported mask format.');
maskPromise = Promise.resolve(null);
}
} else {
maskPromise = Promise.resolve(null);
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}
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}
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return Promise.all([imagePromise, smaskPromise, maskPromise]).then(
function(results) {
var imageData = results[0];
var smaskData = results[1];
var maskData = results[2];
return new PDFImage(xref, res, imageData, inline, smaskData, maskData);
});
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};
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/**
* Resize an image using the nearest neighbor algorithm. Currently only
* supports one and three component images.
* @param {TypedArray} pixels The original image with one component.
* @param {Number} bpc Number of bits per component.
* @param {Number} components Number of color components, 1 or 3 is supported.
* @param {Number} w1 Original width.
* @param {Number} h1 Original height.
* @param {Number} w2 New width.
* @param {Number} h2 New height.
* @param {TypedArray} dest (Optional) The destination buffer.
* @param {Number} alpha01 (Optional) Size reserved for the alpha channel.
* @return {TypedArray} Resized image data.
*/
PDFImage.resize = function PDFImage_resize(pixels, bpc, components,
w1, h1, w2, h2, dest, alpha01) {
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if (components !== 1 && components !== 3) {
error('Unsupported component count for resizing.');
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}
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var length = w2 * h2 * components;
var temp = dest ? dest : (bpc <= 8 ? new Uint8Array(length) :
(bpc <= 16 ? new Uint16Array(length) : new Uint32Array(length)));
var xRatio = w1 / w2;
var yRatio = h1 / h2;
var i, j, py, newIndex = 0, oldIndex;
var xScaled = new Uint16Array(w2);
var w1Scanline = w1 * components;
if (alpha01 !== 1) {
alpha01 = 0;
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}
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for (j = 0; j < w2; j++) {
xScaled[j] = Math.floor(j * xRatio) * components;
}
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if (components === 1) {
for (i = 0; i < h2; i++) {
py = Math.floor(i * yRatio) * w1Scanline;
for (j = 0; j < w2; j++) {
oldIndex = py + xScaled[j];
temp[newIndex++] = pixels[oldIndex];
}
}
} else if (components === 3) {
for (i = 0; i < h2; i++) {
py = Math.floor(i * yRatio) * w1Scanline;
for (j = 0; j < w2; j++) {
oldIndex = py + xScaled[j];
temp[newIndex++] = pixels[oldIndex++];
temp[newIndex++] = pixels[oldIndex++];
temp[newIndex++] = pixels[oldIndex++];
newIndex += alpha01;
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}
}
}
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return temp;
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};
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PDFImage.createMask =
function PDFImage_createMask(imgArray, width, height,
imageIsFromDecodeStream, inverseDecode) {
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// |imgArray| might not contain full data for every pixel of the mask, so
// we need to distinguish between |computedLength| and |actualLength|.
// In particular, if inverseDecode is true, then the array we return must
// have a length of |computedLength|.
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var computedLength = ((width + 7) >> 3) * height;
var actualLength = imgArray.byteLength;
var haveFullData = computedLength === actualLength;
var data, i;
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if (imageIsFromDecodeStream && (!inverseDecode || haveFullData)) {
// imgArray came from a DecodeStream and its data is in an appropriate
// form, so we can just transfer it.
data = imgArray;
} else if (!inverseDecode) {
data = new Uint8Array(actualLength);
data.set(imgArray);
} else {
data = new Uint8Array(computedLength);
data.set(imgArray);
for (i = actualLength; i < computedLength; i++) {
data[i] = 0xff;
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}
}
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// If necessary, invert the original mask data (but not any extra we might
// have added above). It's safe to modify the array -- whether it's the
// original or a copy, we're about to transfer it anyway, so nothing else
// in this thread can be relying on its contents.
if (inverseDecode) {
for (i = 0; i < actualLength; i++) {
data[i] = ~data[i];
}
}
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return {data: data, width: width, height: height};
};
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PDFImage.prototype = {
get drawWidth() {
return Math.max(this.width,
this.smask && this.smask.width || 0,
this.mask && this.mask.width || 0);
},
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get drawHeight() {
return Math.max(this.height,
this.smask && this.smask.height || 0,
this.mask && this.mask.height || 0);
},
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decodeBuffer: function PDFImage_decodeBuffer(buffer) {
var bpc = this.bpc;
var numComps = this.numComps;
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var decodeAddends = this.decodeAddends;
var decodeCoefficients = this.decodeCoefficients;
var max = (1 << bpc) - 1;
var i, ii;
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if (bpc === 1) {
// If the buffer needed decode that means it just needs to be inverted.
for (i = 0, ii = buffer.length; i < ii; i++) {
buffer[i] = +!(buffer[i]);
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}
return;
}
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var index = 0;
for (i = 0, ii = this.width * this.height; i < ii; i++) {
for (var j = 0; j < numComps; j++) {
buffer[index] = decodeAndClamp(buffer[index], decodeAddends[j],
decodeCoefficients[j], max);
index++;
}
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}
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},
getComponents: function PDFImage_getComponents(buffer) {
var bpc = this.bpc;
// This image doesn't require any extra work.
if (bpc === 8) {
return buffer;
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}
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var width = this.width;
var height = this.height;
var numComps = this.numComps;
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var length = width * height * numComps;
var bufferPos = 0;
var output = (bpc <= 8 ? new Uint8Array(length) :
(bpc <= 16 ? new Uint16Array(length) : new Uint32Array(length)));
var rowComps = width * numComps;
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var max = (1 << bpc) - 1;
var i = 0, ii, buf;
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if (bpc === 1) {
// Optimization for reading 1 bpc images.
var mask, loop1End, loop2End;
for (var j = 0; j < height; j++) {
loop1End = i + (rowComps & ~7);
loop2End = i + rowComps;
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// unroll loop for all full bytes
while (i < loop1End) {
buf = buffer[bufferPos++];
output[i] = (buf >> 7) & 1;
output[i + 1] = (buf >> 6) & 1;
output[i + 2] = (buf >> 5) & 1;
output[i + 3] = (buf >> 4) & 1;
output[i + 4] = (buf >> 3) & 1;
output[i + 5] = (buf >> 2) & 1;
output[i + 6] = (buf >> 1) & 1;
output[i + 7] = buf & 1;
i += 8;
}
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// handle remaing bits
if (i < loop2End) {
buf = buffer[bufferPos++];
mask = 128;
while (i < loop2End) {
output[i++] = +!!(buf & mask);
mask >>= 1;
}
}
}
} else {
// The general case that handles all other bpc values.
var bits = 0;
buf = 0;
for (i = 0, ii = length; i < ii; ++i) {
if (i % rowComps === 0) {
buf = 0;
bits = 0;
}
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while (bits < bpc) {
buf = (buf << 8) | buffer[bufferPos++];
bits += 8;
}
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var remainingBits = bits - bpc;
var value = buf >> remainingBits;
output[i] = (value < 0 ? 0 : (value > max ? max : value));
buf = buf & ((1 << remainingBits) - 1);
bits = remainingBits;
}
}
return output;
},
fillOpacity: function PDFImage_fillOpacity(rgbaBuf, width, height,
actualHeight, image) {
var smask = this.smask;
var mask = this.mask;
var alphaBuf, sw, sh, i, ii, j;
if (smask) {
sw = smask.width;
sh = smask.height;
alphaBuf = new Uint8Array(sw * sh);
smask.fillGrayBuffer(alphaBuf);
if (sw !== width || sh !== height) {
alphaBuf = PDFImage.resize(alphaBuf, smask.bpc, 1, sw, sh, width,
height);
}
} else if (mask) {
if (mask instanceof PDFImage) {
sw = mask.width;
sh = mask.height;
alphaBuf = new Uint8Array(sw * sh);
mask.numComps = 1;
mask.fillGrayBuffer(alphaBuf);
// Need to invert values in rgbaBuf
for (i = 0, ii = sw * sh; i < ii; ++i) {
alphaBuf[i] = 255 - alphaBuf[i];
}
if (sw !== width || sh !== height) {
alphaBuf = PDFImage.resize(alphaBuf, mask.bpc, 1, sw, sh, width,
height);
}
} else if (isArray(mask)) {
// Color key mask: if any of the compontents are outside the range
// then they should be painted.
alphaBuf = new Uint8Array(width * height);
var numComps = this.numComps;
for (i = 0, ii = width * height; i < ii; ++i) {
var opacity = 0;
var imageOffset = i * numComps;
for (j = 0; j < numComps; ++j) {
var color = image[imageOffset + j];
var maskOffset = j * 2;
if (color < mask[maskOffset] || color > mask[maskOffset + 1]) {
opacity = 255;
break;
}
}
alphaBuf[i] = opacity;
}
} else {
error('Unknown mask format.');
}
}
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if (alphaBuf) {
for (i = 0, j = 3, ii = width * actualHeight; i < ii; ++i, j += 4) {
rgbaBuf[j] = alphaBuf[i];
}
} else {
// No mask.
for (i = 0, j = 3, ii = width * actualHeight; i < ii; ++i, j += 4) {
rgbaBuf[j] = 255;
}
}
},
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undoPreblend: function PDFImage_undoPreblend(buffer, width, height) {
var matte = this.smask && this.smask.matte;
if (!matte) {
return;
}
var matteRgb = this.colorSpace.getRgb(matte, 0);
var matteR = matteRgb[0];
var matteG = matteRgb[1];
var matteB = matteRgb[2];
var length = width * height * 4;
var r, g, b;
for (var i = 0; i < length; i += 4) {
var alpha = buffer[i + 3];
if (alpha === 0) {
// according formula we have to get Infinity in all components
// making it white (typical paper color) should be okay
buffer[i] = 255;
buffer[i + 1] = 255;
buffer[i + 2] = 255;
continue;
}
var k = 255 / alpha;
r = (buffer[i] - matteR) * k + matteR;
g = (buffer[i + 1] - matteG) * k + matteG;
b = (buffer[i + 2] - matteB) * k + matteB;
buffer[i] = r <= 0 ? 0 : r >= 255 ? 255 : r | 0;
buffer[i + 1] = g <= 0 ? 0 : g >= 255 ? 255 : g | 0;
buffer[i + 2] = b <= 0 ? 0 : b >= 255 ? 255 : b | 0;
}
},
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createImageData: function PDFImage_createImageData(forceRGBA) {
var drawWidth = this.drawWidth;
var drawHeight = this.drawHeight;
var imgData = { // other fields are filled in below
width: drawWidth,
height: drawHeight
};
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var numComps = this.numComps;
var originalWidth = this.width;
var originalHeight = this.height;
var bpc = this.bpc;
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// Rows start at byte boundary.
var rowBytes = (originalWidth * numComps * bpc + 7) >> 3;
var imgArray;
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if (!forceRGBA) {
// If it is a 1-bit-per-pixel grayscale (i.e. black-and-white) image
// without any complications, we pass a same-sized copy to the main
// thread rather than expanding by 32x to RGBA form. This saves *lots*
// of memory for many scanned documents. It's also much faster.
//
// Similarly, if it is a 24-bit-per pixel RGB image without any
// complications, we avoid expanding by 1.333x to RGBA form.
var kind;
if (this.colorSpace.name === 'DeviceGray' && bpc === 1) {
kind = ImageKind.GRAYSCALE_1BPP;
} else if (this.colorSpace.name === 'DeviceRGB' && bpc === 8 &&
!this.needsDecode) {
kind = ImageKind.RGB_24BPP;
}
if (kind && !this.smask && !this.mask &&
drawWidth === originalWidth && drawHeight === originalHeight) {
imgData.kind = kind;
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imgArray = this.getImageBytes(originalHeight * rowBytes);
// If imgArray came from a DecodeStream, we're safe to transfer it
// (and thus detach its underlying buffer) because it will constitute
// the entire DecodeStream's data. But if it came from a Stream, we
// need to copy it because it'll only be a portion of the Stream's
// data, and the rest will be read later on.
if (this.image instanceof DecodeStream) {
imgData.data = imgArray;
} else {
var newArray = new Uint8Array(imgArray.length);
newArray.set(imgArray);
imgData.data = newArray;
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}
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if (this.needsDecode) {
// Invert the buffer (which must be grayscale if we reached here).
assert(kind === ImageKind.GRAYSCALE_1BPP);
var buffer = imgData.data;
for (var i = 0, ii = buffer.length; i < ii; i++) {
buffer[i] ^= 0xff;
}
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}
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return imgData;
}
if (this.image instanceof JpegStream && !this.smask && !this.mask &&
(this.colorSpace.name === 'DeviceGray' ||
this.colorSpace.name === 'DeviceRGB' ||
this.colorSpace.name === 'DeviceCMYK')) {
imgData.kind = ImageKind.RGB_24BPP;
imgData.data = this.getImageBytes(originalHeight * rowBytes,
drawWidth, drawHeight, true);
return imgData;
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}
}
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imgArray = this.getImageBytes(originalHeight * rowBytes);
// imgArray can be incomplete (e.g. after CCITT fax encoding).
var actualHeight = 0 | (imgArray.length / rowBytes *
drawHeight / originalHeight);
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var comps = this.getComponents(imgArray);
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// If opacity data is present, use RGBA_32BPP form. Otherwise, use the
// more compact RGB_24BPP form if allowable.
var alpha01, maybeUndoPreblend;
if (!forceRGBA && !this.smask && !this.mask) {
imgData.kind = ImageKind.RGB_24BPP;
imgData.data = new Uint8Array(drawWidth * drawHeight * 3);
alpha01 = 0;
maybeUndoPreblend = false;
} else {
imgData.kind = ImageKind.RGBA_32BPP;
imgData.data = new Uint8Array(drawWidth * drawHeight * 4);
alpha01 = 1;
maybeUndoPreblend = true;
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// Color key masking (opacity) must be performed before decoding.
this.fillOpacity(imgData.data, drawWidth, drawHeight, actualHeight,
comps);
}
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if (this.needsDecode) {
this.decodeBuffer(comps);
}
this.colorSpace.fillRgb(imgData.data, originalWidth, originalHeight,
drawWidth, drawHeight, actualHeight, bpc, comps,
alpha01);
if (maybeUndoPreblend) {
this.undoPreblend(imgData.data, drawWidth, actualHeight);
}
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return imgData;
},
fillGrayBuffer: function PDFImage_fillGrayBuffer(buffer) {
var numComps = this.numComps;
if (numComps !== 1) {
error('Reading gray scale from a color image: ' + numComps);
}
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var width = this.width;
var height = this.height;
var bpc = this.bpc;
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// rows start at byte boundary
var rowBytes = (width * numComps * bpc + 7) >> 3;
var imgArray = this.getImageBytes(height * rowBytes);
var comps = this.getComponents(imgArray);
var i, length;
if (bpc === 1) {
// inline decoding (= inversion) for 1 bpc images
length = width * height;
if (this.needsDecode) {
// invert and scale to {0, 255}
for (i = 0; i < length; ++i) {
buffer[i] = (comps[i] - 1) & 255;
}
} else {
// scale to {0, 255}
for (i = 0; i < length; ++i) {
buffer[i] = (-comps[i]) & 255;
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}
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}
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return;
}
if (this.needsDecode) {
this.decodeBuffer(comps);
}
length = width * height;
// we aren't using a colorspace so we need to scale the value
var scale = 255 / ((1 << bpc) - 1);
for (i = 0; i < length; ++i) {
buffer[i] = (scale * comps[i]) | 0;
}
},
getImageBytes: function PDFImage_getImageBytes(length,
drawWidth, drawHeight,
forceRGB) {
this.image.reset();
this.image.drawWidth = drawWidth || this.width;
this.image.drawHeight = drawHeight || this.height;
this.image.forceRGB = !!forceRGB;
return this.image.getBytes(length);
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}
};
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return PDFImage;
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})();
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exports.PDFImage = PDFImage;
// TODO refactor to remove dependency on colorspace.js
coreColorSpace._setCoreImage(exports);
}));
(function (root, factory) {
{
factory((root.pdfjsCoreObj = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreCrypto, root.pdfjsCoreParser,
root.pdfjsCoreChunkedStream, root.pdfjsCoreColorSpace);
}
}(this, function (exports, sharedUtil, corePrimitives, coreCrypto, coreParser,
coreChunkedStream, coreColorSpace) {
var InvalidPDFException = sharedUtil.InvalidPDFException;
var MissingDataException = sharedUtil.MissingDataException;
var XRefParseException = sharedUtil.XRefParseException;
var assert = sharedUtil.assert;
var bytesToString = sharedUtil.bytesToString;
var createPromiseCapability = sharedUtil.createPromiseCapability;
var error = sharedUtil.error;
var info = sharedUtil.info;
var isArray = sharedUtil.isArray;
var isInt = sharedUtil.isInt;
var isString = sharedUtil.isString;
var shadow = sharedUtil.shadow;
var stringToPDFString = sharedUtil.stringToPDFString;
var stringToUTF8String = sharedUtil.stringToUTF8String;
var warn = sharedUtil.warn;
var isValidUrl = sharedUtil.isValidUrl;
var Util = sharedUtil.Util;
var Ref = corePrimitives.Ref;
var RefSet = corePrimitives.RefSet;
var RefSetCache = corePrimitives.RefSetCache;
var isName = corePrimitives.isName;
var isCmd = corePrimitives.isCmd;
var isDict = corePrimitives.isDict;
var isRef = corePrimitives.isRef;
var isStream = corePrimitives.isStream;
var CipherTransformFactory = coreCrypto.CipherTransformFactory;
var Lexer = coreParser.Lexer;
var Parser = coreParser.Parser;
var ChunkedStream = coreChunkedStream.ChunkedStream;
var ColorSpace = coreColorSpace.ColorSpace;
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var Catalog = (function CatalogClosure() {
function Catalog(pdfManager, xref, pageFactory) {
this.pdfManager = pdfManager;
this.xref = xref;
this.catDict = xref.getCatalogObj();
this.fontCache = new RefSetCache();
assert(isDict(this.catDict),
'catalog object is not a dictionary');
// TODO refactor to move getPage() to the PDFDocument.
this.pageFactory = pageFactory;
this.pagePromises = [];
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}
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Catalog.prototype = {
get metadata() {
var streamRef = this.catDict.getRaw('Metadata');
if (!isRef(streamRef)) {
return shadow(this, 'metadata', null);
}
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var encryptMetadata = (!this.xref.encrypt ? false :
this.xref.encrypt.encryptMetadata);
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var stream = this.xref.fetch(streamRef, !encryptMetadata);
var metadata;
if (stream && isDict(stream.dict)) {
var type = stream.dict.get('Type');
var subtype = stream.dict.get('Subtype');
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if (isName(type) && isName(subtype) &&
type.name === 'Metadata' && subtype.name === 'XML') {
// XXX: This should examine the charset the XML document defines,
// however since there are currently no real means to decode
// arbitrary charsets, let's just hope that the author of the PDF
// was reasonable enough to stick with the XML default charset,
// which is UTF-8.
try {
metadata = stringToUTF8String(bytesToString(stream.getBytes()));
} catch (e) {
info('Skipping invalid metadata.');
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}
}
}
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return shadow(this, 'metadata', metadata);
},
get toplevelPagesDict() {
var pagesObj = this.catDict.get('Pages');
assert(isDict(pagesObj), 'invalid top-level pages dictionary');
// shadow the prototype getter
return shadow(this, 'toplevelPagesDict', pagesObj);
},
get documentOutline() {
var obj = null;
try {
obj = this.readDocumentOutline();
} catch (ex) {
if (ex instanceof MissingDataException) {
throw ex;
}
warn('Unable to read document outline');
}
return shadow(this, 'documentOutline', obj);
},
readDocumentOutline: function Catalog_readDocumentOutline() {
var obj = this.catDict.get('Outlines');
if (!isDict(obj)) {
return null;
}
obj = obj.getRaw('First');
if (!isRef(obj)) {
return null;
}
var root = { items: [] };
var queue = [{obj: obj, parent: root}];
// To avoid recursion, keep track of the already processed items.
var processed = new RefSet();
processed.put(obj);
var xref = this.xref, blackColor = new Uint8Array(3);
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while (queue.length > 0) {
var i = queue.shift();
var outlineDict = xref.fetchIfRef(i.obj);
if (outlineDict === null) {
continue;
}
assert(outlineDict.has('Title'), 'Invalid outline item');
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var actionDict = outlineDict.get('A'), dest = null, url = null;
if (actionDict) {
var destEntry = actionDict.get('D');
if (destEntry) {
dest = destEntry;
} else {
var uriEntry = actionDict.get('URI');
if (isString(uriEntry) && isValidUrl(uriEntry, false)) {
url = uriEntry;
}
}
} else if (outlineDict.has('Dest')) {
dest = outlineDict.getRaw('Dest');
if (isName(dest)) {
dest = dest.name;
}
}
var title = outlineDict.get('Title');
var flags = outlineDict.get('F') || 0;
var color = outlineDict.get('C'), rgbColor = blackColor;
// We only need to parse the color when it's valid, and non-default.
if (isArray(color) && color.length === 3 &&
(color[0] !== 0 || color[1] !== 0 || color[2] !== 0)) {
rgbColor = ColorSpace.singletons.rgb.getRgb(color, 0);
}
var outlineItem = {
dest: dest,
url: url,
title: stringToPDFString(title),
color: rgbColor,
count: outlineDict.get('Count'),
bold: !!(flags & 2),
italic: !!(flags & 1),
items: []
};
i.parent.items.push(outlineItem);
obj = outlineDict.getRaw('First');
if (isRef(obj) && !processed.has(obj)) {
queue.push({obj: obj, parent: outlineItem});
processed.put(obj);
}
obj = outlineDict.getRaw('Next');
if (isRef(obj) && !processed.has(obj)) {
queue.push({obj: obj, parent: i.parent});
processed.put(obj);
}
}
return (root.items.length > 0 ? root.items : null);
},
get numPages() {
var obj = this.toplevelPagesDict.get('Count');
assert(
isInt(obj),
'page count in top level pages object is not an integer'
);
// shadow the prototype getter
return shadow(this, 'num', obj);
},
get destinations() {
function fetchDestination(dest) {
return isDict(dest) ? dest.get('D') : dest;
}
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var xref = this.xref;
var dests = {}, nameTreeRef, nameDictionaryRef;
var obj = this.catDict.get('Names');
if (obj && obj.has('Dests')) {
nameTreeRef = obj.getRaw('Dests');
} else if (this.catDict.has('Dests')) {
nameDictionaryRef = this.catDict.get('Dests');
}
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if (nameDictionaryRef) {
// reading simple destination dictionary
obj = nameDictionaryRef;
obj.forEach(function catalogForEach(key, value) {
if (!value) {
return;
}
dests[key] = fetchDestination(value);
});
}
if (nameTreeRef) {
var nameTree = new NameTree(nameTreeRef, xref);
var names = nameTree.getAll();
for (var name in names) {
dests[name] = fetchDestination(names[name]);
}
}
return shadow(this, 'destinations', dests);
},
getDestination: function Catalog_getDestination(destinationId) {
function fetchDestination(dest) {
return isDict(dest) ? dest.get('D') : dest;
}
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var xref = this.xref;
var dest = null, nameTreeRef, nameDictionaryRef;
var obj = this.catDict.get('Names');
if (obj && obj.has('Dests')) {
nameTreeRef = obj.getRaw('Dests');
} else if (this.catDict.has('Dests')) {
nameDictionaryRef = this.catDict.get('Dests');
}
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if (nameDictionaryRef) { // Simple destination dictionary.
var value = nameDictionaryRef.get(destinationId);
if (value) {
dest = fetchDestination(value);
}
}
if (nameTreeRef) {
var nameTree = new NameTree(nameTreeRef, xref);
dest = fetchDestination(nameTree.get(destinationId));
}
return dest;
},
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get pageLabels() {
var obj = null;
try {
obj = this.readPageLabels();
} catch (ex) {
if (ex instanceof MissingDataException) {
throw ex;
}
warn('Unable to read page labels.');
}
return shadow(this, 'pageLabels', obj);
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},
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readPageLabels: function Catalog_readPageLabels() {
var obj = this.catDict.getRaw('PageLabels');
if (!obj) {
return null;
}
var pageLabels = new Array(this.numPages);
var style = null;
var prefix = '';
var start = 1;
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var numberTree = new NumberTree(obj, this.xref);
var nums = numberTree.getAll();
var currentLabel = '', currentIndex = 1;
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for (var i = 0, ii = this.numPages; i < ii; i++) {
if (i in nums) {
var labelDict = nums[i];
assert(isDict(labelDict), 'The PageLabel is not a dictionary.');
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var type = labelDict.get('Type');
assert(!type || (isName(type) && type.name === 'PageLabel'),
'Invalid type in PageLabel dictionary.');
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var s = labelDict.get('S');
assert(!s || isName(s), 'Invalid style in PageLabel dictionary.');
style = (s ? s.name : null);
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prefix = labelDict.get('P') || '';
assert(isString(prefix), 'Invalid prefix in PageLabel dictionary.');
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start = labelDict.get('St') || 1;
assert(isInt(start), 'Invalid start in PageLabel dictionary.');
currentIndex = start;
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}
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switch (style) {
case 'D':
currentLabel = currentIndex;
break;
case 'R':
case 'r':
currentLabel = Util.toRoman(currentIndex, style === 'r');
break;
case 'A':
case 'a':
var LIMIT = 26; // Use only the characters A--Z, or a--z.
var A_UPPER_CASE = 0x41, A_LOWER_CASE = 0x61;
var baseCharCode = (style === 'a' ? A_LOWER_CASE : A_UPPER_CASE);
var letterIndex = currentIndex - 1;
var character = String.fromCharCode(baseCharCode +
(letterIndex % LIMIT));
var charBuf = [];
for (var j = 0, jj = (letterIndex / LIMIT) | 0; j <= jj; j++) {
charBuf.push(character);
}
currentLabel = charBuf.join('');
break;
default:
assert(!style,
'Invalid style "' + style + '" in PageLabel dictionary.');
}
pageLabels[i] = prefix + currentLabel;
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currentLabel = '';
currentIndex++;
}
return pageLabels;
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},
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get attachments() {
var xref = this.xref;
var attachments = null, nameTreeRef;
var obj = this.catDict.get('Names');
if (obj) {
nameTreeRef = obj.getRaw('EmbeddedFiles');
}
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if (nameTreeRef) {
var nameTree = new NameTree(nameTreeRef, xref);
var names = nameTree.getAll();
for (var name in names) {
var fs = new FileSpec(names[name], xref);
if (!attachments) {
attachments = Object.create(null);
}
attachments[stringToPDFString(name)] = fs.serializable;
}
}
return shadow(this, 'attachments', attachments);
},
get javaScript() {
var xref = this.xref;
var obj = this.catDict.get('Names');
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var javaScript = [];
function appendIfJavaScriptDict(jsDict) {
var type = jsDict.get('S');
if (!isName(type) || type.name !== 'JavaScript') {
return;
}
var js = jsDict.get('JS');
if (isStream(js)) {
js = bytesToString(js.getBytes());
} else if (!isString(js)) {
return;
}
javaScript.push(stringToPDFString(js));
}
if (obj && obj.has('JavaScript')) {
var nameTree = new NameTree(obj.getRaw('JavaScript'), xref);
var names = nameTree.getAll();
for (var name in names) {
// We don't really use the JavaScript right now. This code is
// defensive so we don't cause errors on document load.
var jsDict = names[name];
if (isDict(jsDict)) {
appendIfJavaScriptDict(jsDict);
}
}
}
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// Append OpenAction actions to javaScript array
var openactionDict = this.catDict.get('OpenAction');
if (isDict(openactionDict, 'Action')) {
var actionType = openactionDict.get('S');
if (isName(actionType) && actionType.name === 'Named') {
// The named Print action is not a part of the PDF 1.7 specification,
// but is supported by many PDF readers/writers (including Adobe's).
var action = openactionDict.get('N');
if (isName(action) && action.name === 'Print') {
javaScript.push('print({});');
}
} else {
appendIfJavaScriptDict(openactionDict);
}
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}
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return shadow(this, 'javaScript', javaScript);
},
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cleanup: function Catalog_cleanup() {
var promises = [];
this.fontCache.forEach(function (promise) {
promises.push(promise);
});
return Promise.all(promises).then(function (translatedFonts) {
for (var i = 0, ii = translatedFonts.length; i < ii; i++) {
var font = translatedFonts[i].dict;
delete font.translated;
}
this.fontCache.clear();
}.bind(this));
},
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getPage: function Catalog_getPage(pageIndex) {
if (!(pageIndex in this.pagePromises)) {
this.pagePromises[pageIndex] = this.getPageDict(pageIndex).then(
function (a) {
var dict = a[0];
var ref = a[1];
return this.pageFactory.createPage(pageIndex, dict, ref,
this.fontCache);
}.bind(this)
);
}
return this.pagePromises[pageIndex];
},
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getPageDict: function Catalog_getPageDict(pageIndex) {
var capability = createPromiseCapability();
var nodesToVisit = [this.catDict.getRaw('Pages')];
var currentPageIndex = 0;
var xref = this.xref;
var checkAllKids = false;
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function next() {
while (nodesToVisit.length) {
var currentNode = nodesToVisit.pop();
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if (isRef(currentNode)) {
xref.fetchAsync(currentNode).then(function (obj) {
if (isDict(obj, 'Page') || (isDict(obj) && !obj.has('Kids'))) {
if (pageIndex === currentPageIndex) {
capability.resolve([obj, currentNode]);
} else {
currentPageIndex++;
next();
}
return;
}
nodesToVisit.push(obj);
next();
}, capability.reject);
return;
}
// Must be a child page dictionary.
assert(
isDict(currentNode),
'page dictionary kid reference points to wrong type of object'
);
var count = currentNode.get('Count');
// If the current node doesn't have any children, avoid getting stuck
// in an empty node further down in the tree (see issue5644.pdf).
if (count === 0) {
checkAllKids = true;
}
// Skip nodes where the page can't be.
if (currentPageIndex + count <= pageIndex) {
currentPageIndex += count;
continue;
}
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var kids = currentNode.get('Kids');
assert(isArray(kids), 'page dictionary kids object is not an array');
if (!checkAllKids && count === kids.length) {
// Nodes that don't have the page have been skipped and this is the
// bottom of the tree which means the page requested must be a
// descendant of this pages node. Ideally we would just resolve the
// promise with the page ref here, but there is the case where more
// pages nodes could link to single a page (see issue 3666 pdf). To
// handle this push it back on the queue so if it is a pages node it
// will be descended into.
nodesToVisit = [kids[pageIndex - currentPageIndex]];
currentPageIndex = pageIndex;
continue;
} else {
for (var last = kids.length - 1; last >= 0; last--) {
nodesToVisit.push(kids[last]);
}
}
}
capability.reject('Page index ' + pageIndex + ' not found.');
}
next();
return capability.promise;
},
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getPageIndex: function Catalog_getPageIndex(ref) {
// The page tree nodes have the count of all the leaves below them. To get
// how many pages are before we just have to walk up the tree and keep
// adding the count of siblings to the left of the node.
var xref = this.xref;
function pagesBeforeRef(kidRef) {
var total = 0;
var parentRef;
return xref.fetchAsync(kidRef).then(function (node) {
if (!node) {
return null;
}
parentRef = node.getRaw('Parent');
return node.getAsync('Parent');
}).then(function (parent) {
if (!parent) {
return null;
}
return parent.getAsync('Kids');
}).then(function (kids) {
if (!kids) {
return null;
}
var kidPromises = [];
var found = false;
for (var i = 0; i < kids.length; i++) {
var kid = kids[i];
assert(isRef(kid), 'kids must be a ref');
if (kid.num === kidRef.num) {
found = true;
break;
}
kidPromises.push(xref.fetchAsync(kid).then(function (kid) {
if (kid.has('Count')) {
var count = kid.get('Count');
total += count;
} else { // page leaf node
total++;
}
}));
}
if (!found) {
error('kid ref not found in parents kids');
}
return Promise.all(kidPromises).then(function () {
return [total, parentRef];
});
});
}
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var total = 0;
function next(ref) {
return pagesBeforeRef(ref).then(function (args) {
if (!args) {
return total;
}
var count = args[0];
var parentRef = args[1];
total += count;
return next(parentRef);
});
}
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return next(ref);
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}
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};
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return Catalog;
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})();
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var XRef = (function XRefClosure() {
function XRef(stream, password) {
this.stream = stream;
this.entries = [];
this.xrefstms = Object.create(null);
// prepare the XRef cache
this.cache = [];
this.password = password;
this.stats = {
streamTypes: [],
fontTypes: []
};
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}
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XRef.prototype = {
setStartXRef: function XRef_setStartXRef(startXRef) {
// Store the starting positions of xref tables as we process them
// so we can recover from missing data errors
this.startXRefQueue = [startXRef];
},
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parse: function XRef_parse(recoveryMode) {
var trailerDict;
if (!recoveryMode) {
trailerDict = this.readXRef();
} else {
warn('Indexing all PDF objects');
trailerDict = this.indexObjects();
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}
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trailerDict.assignXref(this);
this.trailer = trailerDict;
var encrypt = trailerDict.get('Encrypt');
if (encrypt) {
var ids = trailerDict.get('ID');
var fileId = (ids && ids.length) ? ids[0] : '';
this.encrypt = new CipherTransformFactory(encrypt, fileId,
this.password);
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}
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// get the root dictionary (catalog) object
if (!(this.root = trailerDict.get('Root'))) {
error('Invalid root reference');
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}
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},
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processXRefTable: function XRef_processXRefTable(parser) {
if (!('tableState' in this)) {
// Stores state of the table as we process it so we can resume
// from middle of table in case of missing data error
this.tableState = {
entryNum: 0,
streamPos: parser.lexer.stream.pos,
parserBuf1: parser.buf1,
parserBuf2: parser.buf2
};
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}
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var obj = this.readXRefTable(parser);
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// Sanity check
if (!isCmd(obj, 'trailer')) {
error('Invalid XRef table: could not find trailer dictionary');
}
// Read trailer dictionary, e.g.
// trailer
// << /Size 22
// /Root 20R
// /Info 10R
// /ID [ <81b14aafa313db63dbd6f981e49f94f4> ]
// >>
// The parser goes through the entire stream << ... >> and provides
// a getter interface for the key-value table
var dict = parser.getObj();
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// The pdflib PDF generator can generate a nested trailer dictionary
if (!isDict(dict) && dict.dict) {
dict = dict.dict;
}
if (!isDict(dict)) {
error('Invalid XRef table: could not parse trailer dictionary');
}
delete this.tableState;
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return dict;
},
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readXRefTable: function XRef_readXRefTable(parser) {
// Example of cross-reference table:
// xref
// 0 1 <-- subsection header (first obj #, obj count)
// 0000000000 65535 f <-- actual object (offset, generation #, f/n)
// 23 2 <-- subsection header ... and so on ...
// 0000025518 00002 n
// 0000025635 00000 n
// trailer
// ...
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var stream = parser.lexer.stream;
var tableState = this.tableState;
stream.pos = tableState.streamPos;
parser.buf1 = tableState.parserBuf1;
parser.buf2 = tableState.parserBuf2;
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// Outer loop is over subsection headers
var obj;
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while (true) {
if (!('firstEntryNum' in tableState) || !('entryCount' in tableState)) {
if (isCmd(obj = parser.getObj(), 'trailer')) {
break;
}
tableState.firstEntryNum = obj;
tableState.entryCount = parser.getObj();
}
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var first = tableState.firstEntryNum;
var count = tableState.entryCount;
if (!isInt(first) || !isInt(count)) {
error('Invalid XRef table: wrong types in subsection header');
}
// Inner loop is over objects themselves
for (var i = tableState.entryNum; i < count; i++) {
tableState.streamPos = stream.pos;
tableState.entryNum = i;
tableState.parserBuf1 = parser.buf1;
tableState.parserBuf2 = parser.buf2;
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var entry = {};
entry.offset = parser.getObj();
entry.gen = parser.getObj();
var type = parser.getObj();
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if (isCmd(type, 'f')) {
entry.free = true;
} else if (isCmd(type, 'n')) {
entry.uncompressed = true;
}
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// Validate entry obj
if (!isInt(entry.offset) || !isInt(entry.gen) ||
!(entry.free || entry.uncompressed)) {
error('Invalid entry in XRef subsection: ' + first + ', ' + count);
}
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if (!this.entries[i + first]) {
this.entries[i + first] = entry;
}
}
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tableState.entryNum = 0;
tableState.streamPos = stream.pos;
tableState.parserBuf1 = parser.buf1;
tableState.parserBuf2 = parser.buf2;
delete tableState.firstEntryNum;
delete tableState.entryCount;
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}
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// Per issue 3248: hp scanners generate bad XRef
if (first === 1 && this.entries[1] && this.entries[1].free) {
// shifting the entries
this.entries.shift();
}
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// Sanity check: as per spec, first object must be free
if (this.entries[0] && !this.entries[0].free) {
error('Invalid XRef table: unexpected first object');
}
return obj;
},
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processXRefStream: function XRef_processXRefStream(stream) {
if (!('streamState' in this)) {
// Stores state of the stream as we process it so we can resume
// from middle of stream in case of missing data error
var streamParameters = stream.dict;
var byteWidths = streamParameters.get('W');
var range = streamParameters.get('Index');
if (!range) {
range = [0, streamParameters.get('Size')];
}
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this.streamState = {
entryRanges: range,
byteWidths: byteWidths,
entryNum: 0,
streamPos: stream.pos
};
}
this.readXRefStream(stream);
delete this.streamState;
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return stream.dict;
},
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readXRefStream: function XRef_readXRefStream(stream) {
var i, j;
var streamState = this.streamState;
stream.pos = streamState.streamPos;
var byteWidths = streamState.byteWidths;
var typeFieldWidth = byteWidths[0];
var offsetFieldWidth = byteWidths[1];
var generationFieldWidth = byteWidths[2];
var entryRanges = streamState.entryRanges;
while (entryRanges.length > 0) {
var first = entryRanges[0];
var n = entryRanges[1];
if (!isInt(first) || !isInt(n)) {
error('Invalid XRef range fields: ' + first + ', ' + n);
}
if (!isInt(typeFieldWidth) || !isInt(offsetFieldWidth) ||
!isInt(generationFieldWidth)) {
error('Invalid XRef entry fields length: ' + first + ', ' + n);
}
for (i = streamState.entryNum; i < n; ++i) {
streamState.entryNum = i;
streamState.streamPos = stream.pos;
var type = 0, offset = 0, generation = 0;
for (j = 0; j < typeFieldWidth; ++j) {
type = (type << 8) | stream.getByte();
}
// if type field is absent, its default value is 1
if (typeFieldWidth === 0) {
type = 1;
}
for (j = 0; j < offsetFieldWidth; ++j) {
offset = (offset << 8) | stream.getByte();
}
for (j = 0; j < generationFieldWidth; ++j) {
generation = (generation << 8) | stream.getByte();
}
var entry = {};
entry.offset = offset;
entry.gen = generation;
switch (type) {
case 0:
entry.free = true;
break;
case 1:
entry.uncompressed = true;
break;
case 2:
break;
default:
error('Invalid XRef entry type: ' + type);
}
if (!this.entries[first + i]) {
this.entries[first + i] = entry;
}
}
streamState.entryNum = 0;
streamState.streamPos = stream.pos;
entryRanges.splice(0, 2);
}
},
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indexObjects: function XRef_indexObjects() {
// Simple scan through the PDF content to find objects,
// trailers and XRef streams.
var TAB = 0x9, LF = 0xA, CR = 0xD, SPACE = 0x20;
var PERCENT = 0x25, LT = 0x3C;
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function readToken(data, offset) {
var token = '', ch = data[offset];
while (ch !== LF && ch !== CR && ch !== LT) {
if (++offset >= data.length) {
break;
}
token += String.fromCharCode(ch);
ch = data[offset];
}
return token;
}
function skipUntil(data, offset, what) {
var length = what.length, dataLength = data.length;
var skipped = 0;
// finding byte sequence
while (offset < dataLength) {
var i = 0;
while (i < length && data[offset + i] === what[i]) {
++i;
}
if (i >= length) {
break; // sequence found
}
offset++;
skipped++;
}
return skipped;
}
var objRegExp = /^(\d+)\s+(\d+)\s+obj\b/;
var trailerBytes = new Uint8Array([116, 114, 97, 105, 108, 101, 114]);
var startxrefBytes = new Uint8Array([115, 116, 97, 114, 116, 120, 114,
101, 102]);
var endobjBytes = new Uint8Array([101, 110, 100, 111, 98, 106]);
var xrefBytes = new Uint8Array([47, 88, 82, 101, 102]);
// Clear out any existing entries, since they may be bogus.
this.entries.length = 0;
var stream = this.stream;
stream.pos = 0;
var buffer = stream.getBytes();
var position = stream.start, length = buffer.length;
var trailers = [], xrefStms = [];
while (position < length) {
var ch = buffer[position];
if (ch === TAB || ch === LF || ch === CR || ch === SPACE) {
++position;
continue;
}
if (ch === PERCENT) { // %-comment
do {
++position;
if (position >= length) {
break;
}
ch = buffer[position];
} while (ch !== LF && ch !== CR);
continue;
}
var token = readToken(buffer, position);
var m;
if (token.indexOf('xref') === 0 &&
(token.length === 4 || /\s/.test(token[4]))) {
position += skipUntil(buffer, position, trailerBytes);
trailers.push(position);
position += skipUntil(buffer, position, startxrefBytes);
} else if ((m = objRegExp.exec(token))) {
if (typeof this.entries[m[1]] === 'undefined') {
this.entries[m[1]] = {
offset: position - stream.start,
gen: m[2] | 0,
uncompressed: true
};
}
var contentLength = skipUntil(buffer, position, endobjBytes) + 7;
var content = buffer.subarray(position, position + contentLength);
// checking XRef stream suspect
// (it shall have '/XRef' and next char is not a letter)
var xrefTagOffset = skipUntil(content, 0, xrefBytes);
if (xrefTagOffset < contentLength &&
content[xrefTagOffset + 5] < 64) {
xrefStms.push(position - stream.start);
this.xrefstms[position - stream.start] = 1; // Avoid recursion
}
position += contentLength;
} else if (token.indexOf('trailer') === 0 &&
(token.length === 7 || /\s/.test(token[7]))) {
trailers.push(position);
position += skipUntil(buffer, position, startxrefBytes);
} else {
position += token.length + 1;
}
}
// reading XRef streams
var i, ii;
for (i = 0, ii = xrefStms.length; i < ii; ++i) {
this.startXRefQueue.push(xrefStms[i]);
this.readXRef(/* recoveryMode */ true);
}
// finding main trailer
var dict;
for (i = 0, ii = trailers.length; i < ii; ++i) {
stream.pos = trailers[i];
var parser = new Parser(new Lexer(stream), true, this);
var obj = parser.getObj();
if (!isCmd(obj, 'trailer')) {
continue;
}
// read the trailer dictionary
if (!isDict(dict = parser.getObj())) {
continue;
}
// taking the first one with 'ID'
if (dict.has('ID')) {
return dict;
}
}
// no tailer with 'ID', taking last one (if exists)
if (dict) {
return dict;
}
// nothing helps
// calling error() would reject worker with an UnknownErrorException.
throw new InvalidPDFException('Invalid PDF structure');
},
readXRef: function XRef_readXRef(recoveryMode) {
var stream = this.stream;
try {
while (this.startXRefQueue.length) {
var startXRef = this.startXRefQueue[0];
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stream.pos = startXRef + stream.start;
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var parser = new Parser(new Lexer(stream), true, this);
var obj = parser.getObj();
var dict;
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// Get dictionary
if (isCmd(obj, 'xref')) {
// Parse end-of-file XRef
dict = this.processXRefTable(parser);
if (!this.topDict) {
this.topDict = dict;
}
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// Recursively get other XRefs 'XRefStm', if any
obj = dict.get('XRefStm');
if (isInt(obj)) {
var pos = obj;
// ignore previously loaded xref streams
// (possible infinite recursion)
if (!(pos in this.xrefstms)) {
this.xrefstms[pos] = 1;
this.startXRefQueue.push(pos);
}
}
} else if (isInt(obj)) {
// Parse in-stream XRef
if (!isInt(parser.getObj()) ||
!isCmd(parser.getObj(), 'obj') ||
!isStream(obj = parser.getObj())) {
error('Invalid XRef stream');
}
dict = this.processXRefStream(obj);
if (!this.topDict) {
this.topDict = dict;
}
if (!dict) {
error('Failed to read XRef stream');
}
} else {
error('Invalid XRef stream header');
}
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// Recursively get previous dictionary, if any
obj = dict.get('Prev');
if (isInt(obj)) {
this.startXRefQueue.push(obj);
} else if (isRef(obj)) {
// The spec says Prev must not be a reference, i.e. "/Prev NNN"
// This is a fallback for non-compliant PDFs, i.e. "/Prev NNN 0 R"
this.startXRefQueue.push(obj.num);
}
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this.startXRefQueue.shift();
}
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return this.topDict;
} catch (e) {
if (e instanceof MissingDataException) {
throw e;
}
info('(while reading XRef): ' + e);
}
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if (recoveryMode) {
return;
}
throw new XRefParseException();
},
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getEntry: function XRef_getEntry(i) {
var xrefEntry = this.entries[i];
if (xrefEntry && !xrefEntry.free && xrefEntry.offset) {
return xrefEntry;
}
return null;
},
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fetchIfRef: function XRef_fetchIfRef(obj) {
if (!isRef(obj)) {
return obj;
}
return this.fetch(obj);
},
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fetch: function XRef_fetch(ref, suppressEncryption) {
assert(isRef(ref), 'ref object is not a reference');
var num = ref.num;
if (num in this.cache) {
var cacheEntry = this.cache[num];
return cacheEntry;
}
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var xrefEntry = this.getEntry(num);
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// the referenced entry can be free
if (xrefEntry === null) {
return (this.cache[num] = null);
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}
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if (xrefEntry.uncompressed) {
xrefEntry = this.fetchUncompressed(ref, xrefEntry, suppressEncryption);
} else {
xrefEntry = this.fetchCompressed(xrefEntry, suppressEncryption);
}
if (isDict(xrefEntry)){
xrefEntry.objId = ref.toString();
} else if (isStream(xrefEntry)) {
xrefEntry.dict.objId = ref.toString();
}
return xrefEntry;
},
fetchUncompressed: function XRef_fetchUncompressed(ref, xrefEntry,
suppressEncryption) {
var gen = ref.gen;
var num = ref.num;
if (xrefEntry.gen !== gen) {
error('inconsistent generation in XRef');
}
var stream = this.stream.makeSubStream(xrefEntry.offset +
this.stream.start);
var parser = new Parser(new Lexer(stream), true, this);
var obj1 = parser.getObj();
var obj2 = parser.getObj();
var obj3 = parser.getObj();
if (!isInt(obj1) || parseInt(obj1, 10) !== num ||
!isInt(obj2) || parseInt(obj2, 10) !== gen ||
!isCmd(obj3)) {
error('bad XRef entry');
}
if (!isCmd(obj3, 'obj')) {
// some bad PDFs use "obj1234" and really mean 1234
if (obj3.cmd.indexOf('obj') === 0) {
num = parseInt(obj3.cmd.substring(3), 10);
if (!isNaN(num)) {
return num;
}
}
error('bad XRef entry');
}
if (this.encrypt && !suppressEncryption) {
xrefEntry = parser.getObj(this.encrypt.createCipherTransform(num, gen));
} else {
xrefEntry = parser.getObj();
}
if (!isStream(xrefEntry)) {
this.cache[num] = xrefEntry;
}
return xrefEntry;
},
fetchCompressed: function XRef_fetchCompressed(xrefEntry,
suppressEncryption) {
var tableOffset = xrefEntry.offset;
var stream = this.fetch(new Ref(tableOffset, 0));
if (!isStream(stream)) {
error('bad ObjStm stream');
}
var first = stream.dict.get('First');
var n = stream.dict.get('N');
if (!isInt(first) || !isInt(n)) {
error('invalid first and n parameters for ObjStm stream');
}
var parser = new Parser(new Lexer(stream), false, this);
parser.allowStreams = true;
var i, entries = [], num, nums = [];
// read the object numbers to populate cache
for (i = 0; i < n; ++i) {
num = parser.getObj();
if (!isInt(num)) {
error('invalid object number in the ObjStm stream: ' + num);
}
nums.push(num);
var offset = parser.getObj();
if (!isInt(offset)) {
error('invalid object offset in the ObjStm stream: ' + offset);
}
}
// read stream objects for cache
for (i = 0; i < n; ++i) {
entries.push(parser.getObj());
num = nums[i];
var entry = this.entries[num];
if (entry && entry.offset === tableOffset && entry.gen === i) {
this.cache[num] = entries[i];
}
}
xrefEntry = entries[xrefEntry.gen];
if (xrefEntry === undefined) {
error('bad XRef entry for compressed object');
}
return xrefEntry;
},
fetchIfRefAsync: function XRef_fetchIfRefAsync(obj) {
if (!isRef(obj)) {
return Promise.resolve(obj);
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}
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return this.fetchAsync(obj);
},
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fetchAsync: function XRef_fetchAsync(ref, suppressEncryption) {
var streamManager = this.stream.manager;
var xref = this;
return new Promise(function tryFetch(resolve, reject) {
try {
resolve(xref.fetch(ref, suppressEncryption));
} catch (e) {
if (e instanceof MissingDataException) {
streamManager.requestRange(e.begin, e.end).then(function () {
tryFetch(resolve, reject);
}, reject);
return;
}
reject(e);
}
});
},
getCatalogObj: function XRef_getCatalogObj() {
return this.root;
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}
};
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return XRef;
})();
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/**
* A NameTree/NumberTree is like a Dict but has some advantageous properties,
* see the specification (7.9.6 and 7.9.7) for additional details.
* TODO: implement all the Dict functions and make this more efficient.
*/
var NameOrNumberTree = (function NameOrNumberTreeClosure() {
function NameOrNumberTree(root, xref) {
throw new Error('Cannot initialize NameOrNumberTree.');
}
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NameOrNumberTree.prototype = {
getAll: function NameOrNumberTree_getAll() {
var dict = Object.create(null);
if (!this.root) {
return dict;
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}
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var xref = this.xref;
// Reading Name/Number tree.
var processed = new RefSet();
processed.put(this.root);
var queue = [this.root];
while (queue.length > 0) {
var i, n;
var obj = xref.fetchIfRef(queue.shift());
if (!isDict(obj)) {
continue;
}
if (obj.has('Kids')) {
var kids = obj.get('Kids');
for (i = 0, n = kids.length; i < n; i++) {
var kid = kids[i];
assert(!processed.has(kid),
'Duplicate entry in "' + this._type + '" tree.');
queue.push(kid);
processed.put(kid);
}
continue;
}
var entries = obj.get(this._type);
if (isArray(entries)) {
for (i = 0, n = entries.length; i < n; i += 2) {
dict[xref.fetchIfRef(entries[i])] = xref.fetchIfRef(entries[i + 1]);
}
}
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}
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return dict;
},
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get: function NameOrNumberTree_get(key) {
if (!this.root) {
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return null;
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}
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var xref = this.xref;
var kidsOrEntries = xref.fetchIfRef(this.root);
var loopCount = 0;
var MAX_LEVELS = 10;
var l, r, m;
// Perform a binary search to quickly find the entry that
// contains the key we are looking for.
while (kidsOrEntries.has('Kids')) {
if (++loopCount > MAX_LEVELS) {
warn('Search depth limit reached for "' + this._type + '" tree.');
return null;
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}
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var kids = kidsOrEntries.get('Kids');
if (!isArray(kids)) {
return null;
}
l = 0;
r = kids.length - 1;
while (l <= r) {
m = (l + r) >> 1;
var kid = xref.fetchIfRef(kids[m]);
var limits = kid.get('Limits');
if (key < xref.fetchIfRef(limits[0])) {
r = m - 1;
} else if (key > xref.fetchIfRef(limits[1])) {
l = m + 1;
} else {
kidsOrEntries = xref.fetchIfRef(kids[m]);
break;
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}
}
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if (l > r) {
return null;
}
}
// If we get here, then we have found the right entry. Now go through the
// entries in the dictionary until we find the key we're looking for.
var entries = kidsOrEntries.get(this._type);
if (isArray(entries)) {
// Perform a binary search to reduce the lookup time.
l = 0;
r = entries.length - 2;
while (l <= r) {
// Check only even indices (0, 2, 4, ...) because the
// odd indices contain the actual data.
m = (l + r) & ~1;
var currentKey = xref.fetchIfRef(entries[m]);
if (key < currentKey) {
r = m - 2;
} else if (key > currentKey) {
l = m + 2;
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} else {
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return xref.fetchIfRef(entries[m + 1]);
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}
}
}
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return null;
}
};
return NameOrNumberTree;
})();
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var NameTree = (function NameTreeClosure() {
function NameTree(root, xref) {
this.root = root;
this.xref = xref;
this._type = 'Names';
}
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Util.inherit(NameTree, NameOrNumberTree, {});
return NameTree;
})();
var NumberTree = (function NumberTreeClosure() {
function NumberTree(root, xref) {
this.root = root;
this.xref = xref;
this._type = 'Nums';
}
Util.inherit(NumberTree, NameOrNumberTree, {});
return NumberTree;
})();
/**
* "A PDF file can refer to the contents of another file by using a File
* Specification (PDF 1.1)", see the spec (7.11) for more details.
* NOTE: Only embedded files are supported (as part of the attachments support)
* TODO: support the 'URL' file system (with caching if !/V), portable
* collections attributes and related files (/RF)
*/
var FileSpec = (function FileSpecClosure() {
function FileSpec(root, xref) {
if (!root || !isDict(root)) {
return;
}
this.xref = xref;
this.root = root;
if (root.has('FS')) {
this.fs = root.get('FS');
}
this.description = root.has('Desc') ?
stringToPDFString(root.get('Desc')) :
'';
if (root.has('RF')) {
warn('Related file specifications are not supported');
}
this.contentAvailable = true;
if (!root.has('EF')) {
this.contentAvailable = false;
warn('Non-embedded file specifications are not supported');
}
}
function pickPlatformItem(dict) {
// Look for the filename in this order:
// UF, F, Unix, Mac, DOS
if (dict.has('UF')) {
return dict.get('UF');
} else if (dict.has('F')) {
return dict.get('F');
} else if (dict.has('Unix')) {
return dict.get('Unix');
} else if (dict.has('Mac')) {
return dict.get('Mac');
} else if (dict.has('DOS')) {
return dict.get('DOS');
} else {
return null;
}
}
FileSpec.prototype = {
get filename() {
if (!this._filename && this.root) {
var filename = pickPlatformItem(this.root) || 'unnamed';
this._filename = stringToPDFString(filename).
replace(/\\\\/g, '\\').
replace(/\\\//g, '/').
replace(/\\/g, '/');
}
return this._filename;
},
get content() {
if (!this.contentAvailable) {
return null;
}
if (!this.contentRef && this.root) {
this.contentRef = pickPlatformItem(this.root.get('EF'));
}
var content = null;
if (this.contentRef) {
var xref = this.xref;
var fileObj = xref.fetchIfRef(this.contentRef);
if (fileObj && isStream(fileObj)) {
content = fileObj.getBytes();
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} else {
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warn('Embedded file specification points to non-existing/invalid ' +
'content');
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}
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} else {
warn('Embedded file specification does not have a content');
}
return content;
},
get serializable() {
return {
filename: this.filename,
content: this.content
};
}
};
return FileSpec;
})();
/**
* A helper for loading missing data in object graphs. It traverses the graph
* depth first and queues up any objects that have missing data. Once it has
* has traversed as many objects that are available it attempts to bundle the
* missing data requests and then resume from the nodes that weren't ready.
*
* NOTE: It provides protection from circular references by keeping track of
* of loaded references. However, you must be careful not to load any graphs
* that have references to the catalog or other pages since that will cause the
* entire PDF document object graph to be traversed.
*/
var ObjectLoader = (function() {
function mayHaveChildren(value) {
return isRef(value) || isDict(value) || isArray(value) || isStream(value);
}
function addChildren(node, nodesToVisit) {
var value;
if (isDict(node) || isStream(node)) {
var map;
if (isDict(node)) {
map = node.map;
} else {
map = node.dict.map;
}
for (var key in map) {
value = map[key];
if (mayHaveChildren(value)) {
nodesToVisit.push(value);
}
}
} else if (isArray(node)) {
for (var i = 0, ii = node.length; i < ii; i++) {
value = node[i];
if (mayHaveChildren(value)) {
nodesToVisit.push(value);
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}
}
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}
}
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function ObjectLoader(obj, keys, xref) {
this.obj = obj;
this.keys = keys;
this.xref = xref;
this.refSet = null;
this.capability = null;
}
ObjectLoader.prototype = {
load: function ObjectLoader_load() {
var keys = this.keys;
this.capability = createPromiseCapability();
// Don't walk the graph if all the data is already loaded.
if (!(this.xref.stream instanceof ChunkedStream) ||
this.xref.stream.getMissingChunks().length === 0) {
this.capability.resolve();
return this.capability.promise;
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}
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this.refSet = new RefSet();
// Setup the initial nodes to visit.
var nodesToVisit = [];
for (var i = 0; i < keys.length; i++) {
nodesToVisit.push(this.obj[keys[i]]);
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}
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this._walk(nodesToVisit);
return this.capability.promise;
},
_walk: function ObjectLoader_walk(nodesToVisit) {
var nodesToRevisit = [];
var pendingRequests = [];
// DFS walk of the object graph.
while (nodesToVisit.length) {
var currentNode = nodesToVisit.pop();
// Only references or chunked streams can cause missing data exceptions.
if (isRef(currentNode)) {
// Skip nodes that have already been visited.
if (this.refSet.has(currentNode)) {
continue;
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}
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try {
var ref = currentNode;
this.refSet.put(ref);
currentNode = this.xref.fetch(currentNode);
} catch (e) {
if (!(e instanceof MissingDataException)) {
throw e;
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}
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nodesToRevisit.push(currentNode);
pendingRequests.push({ begin: e.begin, end: e.end });
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}
}
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if (currentNode && currentNode.getBaseStreams) {
var baseStreams = currentNode.getBaseStreams();
var foundMissingData = false;
for (var i = 0; i < baseStreams.length; i++) {
var stream = baseStreams[i];
if (stream.getMissingChunks && stream.getMissingChunks().length) {
foundMissingData = true;
pendingRequests.push({
begin: stream.start,
end: stream.end
});
}
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}
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if (foundMissingData) {
nodesToRevisit.push(currentNode);
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}
}
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addChildren(currentNode, nodesToVisit);
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}
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if (pendingRequests.length) {
this.xref.stream.manager.requestRanges(pendingRequests).then(
function pendingRequestCallback() {
nodesToVisit = nodesToRevisit;
for (var i = 0; i < nodesToRevisit.length; i++) {
var node = nodesToRevisit[i];
// Remove any reference nodes from the currrent refset so they
// aren't skipped when we revist them.
if (isRef(node)) {
this.refSet.remove(node);
}
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}
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this._walk(nodesToVisit);
}.bind(this), this.capability.reject);
return;
}
// Everything is loaded.
this.refSet = null;
this.capability.resolve();
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}
};
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return ObjectLoader;
})();
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exports.Catalog = Catalog;
exports.ObjectLoader = ObjectLoader;
exports.XRef = XRef;
exports.FileSpec = FileSpec;
}));
(function (root, factory) {
{
factory((root.pdfjsCorePattern = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreFunction,
root.pdfjsCoreColorSpace);
}
}(this, function (exports, sharedUtil, corePrimitives, coreFunction,
coreColorSpace) {
var UNSUPPORTED_FEATURES = sharedUtil.UNSUPPORTED_FEATURES;
var MissingDataException = sharedUtil.MissingDataException;
var Util = sharedUtil.Util;
var assert = sharedUtil.assert;
var error = sharedUtil.error;
var info = sharedUtil.info;
var warn = sharedUtil.warn;
var isStream = corePrimitives.isStream;
var PDFFunction = coreFunction.PDFFunction;
var ColorSpace = coreColorSpace.ColorSpace;
var ShadingType = {
FUNCTION_BASED: 1,
AXIAL: 2,
RADIAL: 3,
FREE_FORM_MESH: 4,
LATTICE_FORM_MESH: 5,
COONS_PATCH_MESH: 6,
TENSOR_PATCH_MESH: 7
};
var Pattern = (function PatternClosure() {
// Constructor should define this.getPattern
function Pattern() {
error('should not call Pattern constructor');
}
Pattern.prototype = {
// Input: current Canvas context
// Output: the appropriate fillStyle or strokeStyle
getPattern: function Pattern_getPattern(ctx) {
error('Should not call Pattern.getStyle: ' + ctx);
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}
};
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Pattern.parseShading = function Pattern_parseShading(shading, matrix, xref,
res, handler) {
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var dict = isStream(shading) ? shading.dict : shading;
var type = dict.get('ShadingType');
try {
switch (type) {
case ShadingType.AXIAL:
case ShadingType.RADIAL:
// Both radial and axial shadings are handled by RadialAxial shading.
return new Shadings.RadialAxial(dict, matrix, xref, res);
case ShadingType.FREE_FORM_MESH:
case ShadingType.LATTICE_FORM_MESH:
case ShadingType.COONS_PATCH_MESH:
case ShadingType.TENSOR_PATCH_MESH:
return new Shadings.Mesh(shading, matrix, xref, res);
default:
throw new Error('Unsupported ShadingType: ' + type);
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}
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} catch (ex) {
if (ex instanceof MissingDataException) {
throw ex;
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}
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handler.send('UnsupportedFeature',
{featureId: UNSUPPORTED_FEATURES.shadingPattern});
warn(ex);
return new Shadings.Dummy();
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}
};
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return Pattern;
})();
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var Shadings = {};
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// A small number to offset the first/last color stops so we can insert ones to
// support extend. Number.MIN_VALUE is too small and breaks the extend.
Shadings.SMALL_NUMBER = 1e-6;
// Radial and axial shading have very similar implementations
// If needed, the implementations can be broken into two classes
Shadings.RadialAxial = (function RadialAxialClosure() {
function RadialAxial(dict, matrix, xref, res) {
this.matrix = matrix;
this.coordsArr = dict.get('Coords');
this.shadingType = dict.get('ShadingType');
this.type = 'Pattern';
var cs = dict.get('ColorSpace', 'CS');
cs = ColorSpace.parse(cs, xref, res);
this.cs = cs;
var t0 = 0.0, t1 = 1.0;
if (dict.has('Domain')) {
var domainArr = dict.get('Domain');
t0 = domainArr[0];
t1 = domainArr[1];
}
var extendStart = false, extendEnd = false;
if (dict.has('Extend')) {
var extendArr = dict.get('Extend');
extendStart = extendArr[0];
extendEnd = extendArr[1];
}
if (this.shadingType === ShadingType.RADIAL &&
(!extendStart || !extendEnd)) {
// Radial gradient only currently works if either circle is fully within
// the other circle.
var x1 = this.coordsArr[0];
var y1 = this.coordsArr[1];
var r1 = this.coordsArr[2];
var x2 = this.coordsArr[3];
var y2 = this.coordsArr[4];
var r2 = this.coordsArr[5];
var distance = Math.sqrt((x1 - x2) * (x1 - x2) + (y1 - y2) * (y1 - y2));
if (r1 <= r2 + distance &&
r2 <= r1 + distance) {
warn('Unsupported radial gradient.');
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}
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}
this.extendStart = extendStart;
this.extendEnd = extendEnd;
var fnObj = dict.get('Function');
var fn = PDFFunction.parseArray(xref, fnObj);
// 10 samples seems good enough for now, but probably won't work
// if there are sharp color changes. Ideally, we would implement
// the spec faithfully and add lossless optimizations.
var diff = t1 - t0;
var step = diff / 10;
var colorStops = this.colorStops = [];
// Protect against bad domains so we don't end up in an infinte loop below.
if (t0 >= t1 || step <= 0) {
// Acrobat doesn't seem to handle these cases so we'll ignore for
// now.
info('Bad shading domain.');
return;
}
var color = new Float32Array(cs.numComps), ratio = new Float32Array(1);
var rgbColor;
for (var i = t0; i <= t1; i += step) {
ratio[0] = i;
fn(ratio, 0, color, 0);
rgbColor = cs.getRgb(color, 0);
var cssColor = Util.makeCssRgb(rgbColor[0], rgbColor[1], rgbColor[2]);
colorStops.push([(i - t0) / diff, cssColor]);
}
var background = 'transparent';
if (dict.has('Background')) {
rgbColor = cs.getRgb(dict.get('Background'), 0);
background = Util.makeCssRgb(rgbColor[0], rgbColor[1], rgbColor[2]);
}
if (!extendStart) {
// Insert a color stop at the front and offset the first real color stop
// so it doesn't conflict with the one we insert.
colorStops.unshift([0, background]);
colorStops[1][0] += Shadings.SMALL_NUMBER;
}
if (!extendEnd) {
// Same idea as above in extendStart but for the end.
colorStops[colorStops.length - 1][0] -= Shadings.SMALL_NUMBER;
colorStops.push([1, background]);
}
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this.colorStops = colorStops;
}
RadialAxial.prototype = {
getIR: function RadialAxial_getIR() {
var coordsArr = this.coordsArr;
var shadingType = this.shadingType;
var type, p0, p1, r0, r1;
if (shadingType === ShadingType.AXIAL) {
p0 = [coordsArr[0], coordsArr[1]];
p1 = [coordsArr[2], coordsArr[3]];
r0 = null;
r1 = null;
type = 'axial';
} else if (shadingType === ShadingType.RADIAL) {
p0 = [coordsArr[0], coordsArr[1]];
p1 = [coordsArr[3], coordsArr[4]];
r0 = coordsArr[2];
r1 = coordsArr[5];
type = 'radial';
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} else {
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error('getPattern type unknown: ' + shadingType);
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}
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var matrix = this.matrix;
if (matrix) {
p0 = Util.applyTransform(p0, matrix);
p1 = Util.applyTransform(p1, matrix);
if (shadingType === ShadingType.RADIAL) {
var scale = Util.singularValueDecompose2dScale(matrix);
r0 *= scale[0];
r1 *= scale[1];
}
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}
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return ['RadialAxial', type, this.colorStops, p0, p1, r0, r1];
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}
};
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return RadialAxial;
})();
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// All mesh shading. For now, they will be presented as set of the triangles
// to be drawn on the canvas and rgb color for each vertex.
Shadings.Mesh = (function MeshClosure() {
function MeshStreamReader(stream, context) {
this.stream = stream;
this.context = context;
this.buffer = 0;
this.bufferLength = 0;
var numComps = context.numComps;
this.tmpCompsBuf = new Float32Array(numComps);
var csNumComps = context.colorSpace.numComps;
this.tmpCsCompsBuf = context.colorFn ? new Float32Array(csNumComps) :
this.tmpCompsBuf;
}
MeshStreamReader.prototype = {
get hasData() {
if (this.stream.end) {
return this.stream.pos < this.stream.end;
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}
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if (this.bufferLength > 0) {
return true;
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}
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var nextByte = this.stream.getByte();
if (nextByte < 0) {
return false;
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}
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this.buffer = nextByte;
this.bufferLength = 8;
return true;
},
readBits: function MeshStreamReader_readBits(n) {
var buffer = this.buffer;
var bufferLength = this.bufferLength;
if (n === 32) {
if (bufferLength === 0) {
return ((this.stream.getByte() << 24) |
(this.stream.getByte() << 16) | (this.stream.getByte() << 8) |
this.stream.getByte()) >>> 0;
}
buffer = (buffer << 24) | (this.stream.getByte() << 16) |
(this.stream.getByte() << 8) | this.stream.getByte();
var nextByte = this.stream.getByte();
this.buffer = nextByte & ((1 << bufferLength) - 1);
return ((buffer << (8 - bufferLength)) |
((nextByte & 0xFF) >> bufferLength)) >>> 0;
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}
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if (n === 8 && bufferLength === 0) {
return this.stream.getByte();
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}
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while (bufferLength < n) {
buffer = (buffer << 8) | this.stream.getByte();
bufferLength += 8;
}
bufferLength -= n;
this.bufferLength = bufferLength;
this.buffer = buffer & ((1 << bufferLength) - 1);
return buffer >> bufferLength;
},
align: function MeshStreamReader_align() {
this.buffer = 0;
this.bufferLength = 0;
},
readFlag: function MeshStreamReader_readFlag() {
return this.readBits(this.context.bitsPerFlag);
},
readCoordinate: function MeshStreamReader_readCoordinate() {
var bitsPerCoordinate = this.context.bitsPerCoordinate;
var xi = this.readBits(bitsPerCoordinate);
var yi = this.readBits(bitsPerCoordinate);
var decode = this.context.decode;
var scale = bitsPerCoordinate < 32 ? 1 / ((1 << bitsPerCoordinate) - 1) :
2.3283064365386963e-10; // 2 ^ -32
return [
xi * scale * (decode[1] - decode[0]) + decode[0],
yi * scale * (decode[3] - decode[2]) + decode[2]
];
},
readComponents: function MeshStreamReader_readComponents() {
var numComps = this.context.numComps;
var bitsPerComponent = this.context.bitsPerComponent;
var scale = bitsPerComponent < 32 ? 1 / ((1 << bitsPerComponent) - 1) :
2.3283064365386963e-10; // 2 ^ -32
var decode = this.context.decode;
var components = this.tmpCompsBuf;
for (var i = 0, j = 4; i < numComps; i++, j += 2) {
var ci = this.readBits(bitsPerComponent);
components[i] = ci * scale * (decode[j + 1] - decode[j]) + decode[j];
}
var color = this.tmpCsCompsBuf;
if (this.context.colorFn) {
this.context.colorFn(components, 0, color, 0);
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}
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return this.context.colorSpace.getRgb(color, 0);
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}
};
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function decodeType4Shading(mesh, reader) {
var coords = mesh.coords;
var colors = mesh.colors;
var operators = [];
var ps = []; // not maintaining cs since that will match ps
var verticesLeft = 0; // assuming we have all data to start a new triangle
while (reader.hasData) {
var f = reader.readFlag();
var coord = reader.readCoordinate();
var color = reader.readComponents();
if (verticesLeft === 0) { // ignoring flags if we started a triangle
assert(0 <= f && f <= 2, 'Unknown type4 flag');
switch (f) {
case 0:
verticesLeft = 3;
break;
case 1:
ps.push(ps[ps.length - 2], ps[ps.length - 1]);
verticesLeft = 1;
break;
case 2:
ps.push(ps[ps.length - 3], ps[ps.length - 1]);
verticesLeft = 1;
break;
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}
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operators.push(f);
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}
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ps.push(coords.length);
coords.push(coord);
colors.push(color);
verticesLeft--;
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reader.align();
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}
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mesh.figures.push({
type: 'triangles',
coords: new Int32Array(ps),
colors: new Int32Array(ps),
});
}
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function decodeType5Shading(mesh, reader, verticesPerRow) {
var coords = mesh.coords;
var colors = mesh.colors;
var ps = []; // not maintaining cs since that will match ps
while (reader.hasData) {
var coord = reader.readCoordinate();
var color = reader.readComponents();
ps.push(coords.length);
coords.push(coord);
colors.push(color);
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}
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mesh.figures.push({
type: 'lattice',
coords: new Int32Array(ps),
colors: new Int32Array(ps),
verticesPerRow: verticesPerRow
});
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}
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var MIN_SPLIT_PATCH_CHUNKS_AMOUNT = 3;
var MAX_SPLIT_PATCH_CHUNKS_AMOUNT = 20;
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var TRIANGLE_DENSITY = 20; // count of triangles per entire mesh bounds
var getB = (function getBClosure() {
function buildB(count) {
var lut = [];
for (var i = 0; i <= count; i++) {
var t = i / count, t_ = 1 - t;
lut.push(new Float32Array([t_ * t_ * t_, 3 * t * t_ * t_,
3 * t * t * t_, t * t * t]));
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}
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return lut;
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}
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var cache = [];
return function getB(count) {
if (!cache[count]) {
cache[count] = buildB(count);
}
return cache[count];
};
})();
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function buildFigureFromPatch(mesh, index) {
var figure = mesh.figures[index];
assert(figure.type === 'patch', 'Unexpected patch mesh figure');
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var coords = mesh.coords, colors = mesh.colors;
var pi = figure.coords;
var ci = figure.colors;
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var figureMinX = Math.min(coords[pi[0]][0], coords[pi[3]][0],
coords[pi[12]][0], coords[pi[15]][0]);
var figureMinY = Math.min(coords[pi[0]][1], coords[pi[3]][1],
coords[pi[12]][1], coords[pi[15]][1]);
var figureMaxX = Math.max(coords[pi[0]][0], coords[pi[3]][0],
coords[pi[12]][0], coords[pi[15]][0]);
var figureMaxY = Math.max(coords[pi[0]][1], coords[pi[3]][1],
coords[pi[12]][1], coords[pi[15]][1]);
var splitXBy = Math.ceil((figureMaxX - figureMinX) * TRIANGLE_DENSITY /
(mesh.bounds[2] - mesh.bounds[0]));
splitXBy = Math.max(MIN_SPLIT_PATCH_CHUNKS_AMOUNT,
Math.min(MAX_SPLIT_PATCH_CHUNKS_AMOUNT, splitXBy));
var splitYBy = Math.ceil((figureMaxY - figureMinY) * TRIANGLE_DENSITY /
(mesh.bounds[3] - mesh.bounds[1]));
splitYBy = Math.max(MIN_SPLIT_PATCH_CHUNKS_AMOUNT,
Math.min(MAX_SPLIT_PATCH_CHUNKS_AMOUNT, splitYBy));
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var verticesPerRow = splitXBy + 1;
var figureCoords = new Int32Array((splitYBy + 1) * verticesPerRow);
var figureColors = new Int32Array((splitYBy + 1) * verticesPerRow);
var k = 0;
var cl = new Uint8Array(3), cr = new Uint8Array(3);
var c0 = colors[ci[0]], c1 = colors[ci[1]],
c2 = colors[ci[2]], c3 = colors[ci[3]];
var bRow = getB(splitYBy), bCol = getB(splitXBy);
for (var row = 0; row <= splitYBy; row++) {
cl[0] = ((c0[0] * (splitYBy - row) + c2[0] * row) / splitYBy) | 0;
cl[1] = ((c0[1] * (splitYBy - row) + c2[1] * row) / splitYBy) | 0;
cl[2] = ((c0[2] * (splitYBy - row) + c2[2] * row) / splitYBy) | 0;
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cr[0] = ((c1[0] * (splitYBy - row) + c3[0] * row) / splitYBy) | 0;
cr[1] = ((c1[1] * (splitYBy - row) + c3[1] * row) / splitYBy) | 0;
cr[2] = ((c1[2] * (splitYBy - row) + c3[2] * row) / splitYBy) | 0;
for (var col = 0; col <= splitXBy; col++, k++) {
if ((row === 0 || row === splitYBy) &&
(col === 0 || col === splitXBy)) {
continue;
}
var x = 0, y = 0;
var q = 0;
for (var i = 0; i <= 3; i++) {
for (var j = 0; j <= 3; j++, q++) {
var m = bRow[row][i] * bCol[col][j];
x += coords[pi[q]][0] * m;
y += coords[pi[q]][1] * m;
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}
}
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figureCoords[k] = coords.length;
coords.push([x, y]);
figureColors[k] = colors.length;
var newColor = new Uint8Array(3);
newColor[0] = ((cl[0] * (splitXBy - col) + cr[0] * col) / splitXBy) | 0;
newColor[1] = ((cl[1] * (splitXBy - col) + cr[1] * col) / splitXBy) | 0;
newColor[2] = ((cl[2] * (splitXBy - col) + cr[2] * col) / splitXBy) | 0;
colors.push(newColor);
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}
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}
figureCoords[0] = pi[0];
figureColors[0] = ci[0];
figureCoords[splitXBy] = pi[3];
figureColors[splitXBy] = ci[1];
figureCoords[verticesPerRow * splitYBy] = pi[12];
figureColors[verticesPerRow * splitYBy] = ci[2];
figureCoords[verticesPerRow * splitYBy + splitXBy] = pi[15];
figureColors[verticesPerRow * splitYBy + splitXBy] = ci[3];
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mesh.figures[index] = {
type: 'lattice',
coords: figureCoords,
colors: figureColors,
verticesPerRow: verticesPerRow
};
}
function decodeType6Shading(mesh, reader) {
// A special case of Type 7. The p11, p12, p21, p22 automatically filled
var coords = mesh.coords;
var colors = mesh.colors;
var ps = new Int32Array(16); // p00, p10, ..., p30, p01, ..., p33
var cs = new Int32Array(4); // c00, c30, c03, c33
while (reader.hasData) {
var f = reader.readFlag();
assert(0 <= f && f <= 3, 'Unknown type6 flag');
var i, ii;
var pi = coords.length;
for (i = 0, ii = (f !== 0 ? 8 : 12); i < ii; i++) {
coords.push(reader.readCoordinate());
}
var ci = colors.length;
for (i = 0, ii = (f !== 0 ? 2 : 4); i < ii; i++) {
colors.push(reader.readComponents());
}
var tmp1, tmp2, tmp3, tmp4;
switch (f) {
case 0:
ps[12] = pi + 3; ps[13] = pi + 4; ps[14] = pi + 5; ps[15] = pi + 6;
ps[ 8] = pi + 2; /* values for 5, 6, 9, 10 are */ ps[11] = pi + 7;
ps[ 4] = pi + 1; /* calculated below */ ps[ 7] = pi + 8;
ps[ 0] = pi; ps[ 1] = pi + 11; ps[ 2] = pi + 10; ps[ 3] = pi + 9;
cs[2] = ci + 1; cs[3] = ci + 2;
cs[0] = ci; cs[1] = ci + 3;
break;
case 1:
tmp1 = ps[12]; tmp2 = ps[13]; tmp3 = ps[14]; tmp4 = ps[15];
ps[12] = tmp4; ps[13] = pi + 0; ps[14] = pi + 1; ps[15] = pi + 2;
ps[ 8] = tmp3; /* values for 5, 6, 9, 10 are */ ps[11] = pi + 3;
ps[ 4] = tmp2; /* calculated below */ ps[ 7] = pi + 4;
ps[ 0] = tmp1; ps[ 1] = pi + 7; ps[ 2] = pi + 6; ps[ 3] = pi + 5;
tmp1 = cs[2]; tmp2 = cs[3];
cs[2] = tmp2; cs[3] = ci;
cs[0] = tmp1; cs[1] = ci + 1;
break;
case 2:
tmp1 = ps[15];
tmp2 = ps[11];
ps[12] = ps[3]; ps[13] = pi + 0; ps[14] = pi + 1; ps[15] = pi + 2;
ps[ 8] = ps[7]; /* values for 5, 6, 9, 10 are */ ps[11] = pi + 3;
ps[ 4] = tmp2; /* calculated below */ ps[ 7] = pi + 4;
ps[ 0] = tmp1; ps[ 1] = pi + 7; ps[ 2] = pi + 6; ps[ 3] = pi + 5;
tmp1 = cs[3];
cs[2] = cs[1]; cs[3] = ci;
cs[0] = tmp1; cs[1] = ci + 1;
break;
case 3:
ps[12] = ps[0]; ps[13] = pi + 0; ps[14] = pi + 1; ps[15] = pi + 2;
ps[ 8] = ps[1]; /* values for 5, 6, 9, 10 are */ ps[11] = pi + 3;
ps[ 4] = ps[2]; /* calculated below */ ps[ 7] = pi + 4;
ps[ 0] = ps[3]; ps[ 1] = pi + 7; ps[ 2] = pi + 6; ps[ 3] = pi + 5;
cs[2] = cs[0]; cs[3] = ci;
cs[0] = cs[1]; cs[1] = ci + 1;
break;
}
// set p11, p12, p21, p22
ps[5] = coords.length;
coords.push([
(-4 * coords[ps[0]][0] - coords[ps[15]][0] +
6 * (coords[ps[4]][0] + coords[ps[1]][0]) -
2 * (coords[ps[12]][0] + coords[ps[3]][0]) +
3 * (coords[ps[13]][0] + coords[ps[7]][0])) / 9,
(-4 * coords[ps[0]][1] - coords[ps[15]][1] +
6 * (coords[ps[4]][1] + coords[ps[1]][1]) -
2 * (coords[ps[12]][1] + coords[ps[3]][1]) +
3 * (coords[ps[13]][1] + coords[ps[7]][1])) / 9
]);
ps[6] = coords.length;
coords.push([
(-4 * coords[ps[3]][0] - coords[ps[12]][0] +
6 * (coords[ps[2]][0] + coords[ps[7]][0]) -
2 * (coords[ps[0]][0] + coords[ps[15]][0]) +
3 * (coords[ps[4]][0] + coords[ps[14]][0])) / 9,
(-4 * coords[ps[3]][1] - coords[ps[12]][1] +
6 * (coords[ps[2]][1] + coords[ps[7]][1]) -
2 * (coords[ps[0]][1] + coords[ps[15]][1]) +
3 * (coords[ps[4]][1] + coords[ps[14]][1])) / 9
]);
ps[9] = coords.length;
coords.push([
(-4 * coords[ps[12]][0] - coords[ps[3]][0] +
6 * (coords[ps[8]][0] + coords[ps[13]][0]) -
2 * (coords[ps[0]][0] + coords[ps[15]][0]) +
3 * (coords[ps[11]][0] + coords[ps[1]][0])) / 9,
(-4 * coords[ps[12]][1] - coords[ps[3]][1] +
6 * (coords[ps[8]][1] + coords[ps[13]][1]) -
2 * (coords[ps[0]][1] + coords[ps[15]][1]) +
3 * (coords[ps[11]][1] + coords[ps[1]][1])) / 9
]);
ps[10] = coords.length;
coords.push([
(-4 * coords[ps[15]][0] - coords[ps[0]][0] +
6 * (coords[ps[11]][0] + coords[ps[14]][0]) -
2 * (coords[ps[12]][0] + coords[ps[3]][0]) +
3 * (coords[ps[2]][0] + coords[ps[8]][0])) / 9,
(-4 * coords[ps[15]][1] - coords[ps[0]][1] +
6 * (coords[ps[11]][1] + coords[ps[14]][1]) -
2 * (coords[ps[12]][1] + coords[ps[3]][1]) +
3 * (coords[ps[2]][1] + coords[ps[8]][1])) / 9
]);
mesh.figures.push({
type: 'patch',
coords: new Int32Array(ps), // making copies of ps and cs
colors: new Int32Array(cs)
});
}
}
function decodeType7Shading(mesh, reader) {
var coords = mesh.coords;
var colors = mesh.colors;
var ps = new Int32Array(16); // p00, p10, ..., p30, p01, ..., p33
var cs = new Int32Array(4); // c00, c30, c03, c33
while (reader.hasData) {
var f = reader.readFlag();
assert(0 <= f && f <= 3, 'Unknown type7 flag');
var i, ii;
var pi = coords.length;
for (i = 0, ii = (f !== 0 ? 12 : 16); i < ii; i++) {
coords.push(reader.readCoordinate());
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}
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var ci = colors.length;
for (i = 0, ii = (f !== 0 ? 2 : 4); i < ii; i++) {
colors.push(reader.readComponents());
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}
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var tmp1, tmp2, tmp3, tmp4;
switch (f) {
case 0:
ps[12] = pi + 3; ps[13] = pi + 4; ps[14] = pi + 5; ps[15] = pi + 6;
ps[ 8] = pi + 2; ps[ 9] = pi + 13; ps[10] = pi + 14; ps[11] = pi + 7;
ps[ 4] = pi + 1; ps[ 5] = pi + 12; ps[ 6] = pi + 15; ps[ 7] = pi + 8;
ps[ 0] = pi; ps[ 1] = pi + 11; ps[ 2] = pi + 10; ps[ 3] = pi + 9;
cs[2] = ci + 1; cs[3] = ci + 2;
cs[0] = ci; cs[1] = ci + 3;
break;
case 1:
tmp1 = ps[12]; tmp2 = ps[13]; tmp3 = ps[14]; tmp4 = ps[15];
ps[12] = tmp4; ps[13] = pi + 0; ps[14] = pi + 1; ps[15] = pi + 2;
ps[ 8] = tmp3; ps[ 9] = pi + 9; ps[10] = pi + 10; ps[11] = pi + 3;
ps[ 4] = tmp2; ps[ 5] = pi + 8; ps[ 6] = pi + 11; ps[ 7] = pi + 4;
ps[ 0] = tmp1; ps[ 1] = pi + 7; ps[ 2] = pi + 6; ps[ 3] = pi + 5;
tmp1 = cs[2]; tmp2 = cs[3];
cs[2] = tmp2; cs[3] = ci;
cs[0] = tmp1; cs[1] = ci + 1;
break;
case 2:
tmp1 = ps[15];
tmp2 = ps[11];
ps[12] = ps[3]; ps[13] = pi + 0; ps[14] = pi + 1; ps[15] = pi + 2;
ps[ 8] = ps[7]; ps[ 9] = pi + 9; ps[10] = pi + 10; ps[11] = pi + 3;
ps[ 4] = tmp2; ps[ 5] = pi + 8; ps[ 6] = pi + 11; ps[ 7] = pi + 4;
ps[ 0] = tmp1; ps[ 1] = pi + 7; ps[ 2] = pi + 6; ps[ 3] = pi + 5;
tmp1 = cs[3];
cs[2] = cs[1]; cs[3] = ci;
cs[0] = tmp1; cs[1] = ci + 1;
break;
case 3:
ps[12] = ps[0]; ps[13] = pi + 0; ps[14] = pi + 1; ps[15] = pi + 2;
ps[ 8] = ps[1]; ps[ 9] = pi + 9; ps[10] = pi + 10; ps[11] = pi + 3;
ps[ 4] = ps[2]; ps[ 5] = pi + 8; ps[ 6] = pi + 11; ps[ 7] = pi + 4;
ps[ 0] = ps[3]; ps[ 1] = pi + 7; ps[ 2] = pi + 6; ps[ 3] = pi + 5;
cs[2] = cs[0]; cs[3] = ci;
cs[0] = cs[1]; cs[1] = ci + 1;
break;
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}
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mesh.figures.push({
type: 'patch',
coords: new Int32Array(ps), // making copies of ps and cs
colors: new Int32Array(cs)
});
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}
}
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function updateBounds(mesh) {
var minX = mesh.coords[0][0], minY = mesh.coords[0][1],
maxX = minX, maxY = minY;
for (var i = 1, ii = mesh.coords.length; i < ii; i++) {
var x = mesh.coords[i][0], y = mesh.coords[i][1];
minX = minX > x ? x : minX;
minY = minY > y ? y : minY;
maxX = maxX < x ? x : maxX;
maxY = maxY < y ? y : maxY;
}
mesh.bounds = [minX, minY, maxX, maxY];
}
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function packData(mesh) {
var i, ii, j, jj;
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var coords = mesh.coords;
var coordsPacked = new Float32Array(coords.length * 2);
for (i = 0, j = 0, ii = coords.length; i < ii; i++) {
var xy = coords[i];
coordsPacked[j++] = xy[0];
coordsPacked[j++] = xy[1];
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}
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mesh.coords = coordsPacked;
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var colors = mesh.colors;
var colorsPacked = new Uint8Array(colors.length * 3);
for (i = 0, j = 0, ii = colors.length; i < ii; i++) {
var c = colors[i];
colorsPacked[j++] = c[0];
colorsPacked[j++] = c[1];
colorsPacked[j++] = c[2];
}
mesh.colors = colorsPacked;
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var figures = mesh.figures;
for (i = 0, ii = figures.length; i < ii; i++) {
var figure = figures[i], ps = figure.coords, cs = figure.colors;
for (j = 0, jj = ps.length; j < jj; j++) {
ps[j] *= 2;
cs[j] *= 3;
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}
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}
}
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function Mesh(stream, matrix, xref, res) {
assert(isStream(stream), 'Mesh data is not a stream');
var dict = stream.dict;
this.matrix = matrix;
this.shadingType = dict.get('ShadingType');
this.type = 'Pattern';
this.bbox = dict.get('BBox');
var cs = dict.get('ColorSpace', 'CS');
cs = ColorSpace.parse(cs, xref, res);
this.cs = cs;
this.background = dict.has('Background') ?
cs.getRgb(dict.get('Background'), 0) : null;
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var fnObj = dict.get('Function');
var fn = fnObj ? PDFFunction.parseArray(xref, fnObj) : null;
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this.coords = [];
this.colors = [];
this.figures = [];
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var decodeContext = {
bitsPerCoordinate: dict.get('BitsPerCoordinate'),
bitsPerComponent: dict.get('BitsPerComponent'),
bitsPerFlag: dict.get('BitsPerFlag'),
decode: dict.get('Decode'),
colorFn: fn,
colorSpace: cs,
numComps: fn ? 1 : cs.numComps
};
var reader = new MeshStreamReader(stream, decodeContext);
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var patchMesh = false;
switch (this.shadingType) {
case ShadingType.FREE_FORM_MESH:
decodeType4Shading(this, reader);
break;
case ShadingType.LATTICE_FORM_MESH:
var verticesPerRow = dict.get('VerticesPerRow') | 0;
assert(verticesPerRow >= 2, 'Invalid VerticesPerRow');
decodeType5Shading(this, reader, verticesPerRow);
break;
case ShadingType.COONS_PATCH_MESH:
decodeType6Shading(this, reader);
patchMesh = true;
break;
case ShadingType.TENSOR_PATCH_MESH:
decodeType7Shading(this, reader);
patchMesh = true;
break;
default:
error('Unsupported mesh type.');
break;
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}
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if (patchMesh) {
// dirty bounds calculation for determining, how dense shall be triangles
updateBounds(this);
for (var i = 0, ii = this.figures.length; i < ii; i++) {
buildFigureFromPatch(this, i);
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}
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}
// calculate bounds
updateBounds(this);
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packData(this);
}
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Mesh.prototype = {
getIR: function Mesh_getIR() {
return ['Mesh', this.shadingType, this.coords, this.colors, this.figures,
this.bounds, this.matrix, this.bbox, this.background];
}
};
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return Mesh;
})();
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Shadings.Dummy = (function DummyClosure() {
function Dummy() {
this.type = 'Pattern';
}
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Dummy.prototype = {
getIR: function Dummy_getIR() {
return ['Dummy'];
}
};
return Dummy;
})();
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function getTilingPatternIR(operatorList, dict, args) {
var matrix = dict.get('Matrix');
var bbox = dict.get('BBox');
var xstep = dict.get('XStep');
var ystep = dict.get('YStep');
var paintType = dict.get('PaintType');
var tilingType = dict.get('TilingType');
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return [
'TilingPattern', args, operatorList, matrix, bbox, xstep, ystep,
paintType, tilingType
];
}
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exports.Pattern = Pattern;
exports.getTilingPatternIR = getTilingPatternIR;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreEvaluator = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreStream, root.pdfjsCoreParser,
root.pdfjsCoreImage, root.pdfjsCoreColorSpace, root.pdfjsCoreMurmurHash3,
root.pdfjsCoreFonts, root.pdfjsCoreFunction, root.pdfjsCorePattern,
root.pdfjsCoreCMap, root.pdfjsCoreMetrics, root.pdfjsCoreBidi,
root.pdfjsCoreEncodings, root.pdfjsCoreStandardFonts,
root.pdfjsCoreUnicode, root.pdfjsCoreGlyphList);
}
}(this, function (exports, sharedUtil, corePrimitives, coreStream, coreParser,
coreImage, coreColorSpace, coreMurmurHash3, coreFonts,
coreFunction, corePattern, coreCMap, coreMetrics, coreBidi,
coreEncodings, coreStandardFonts, coreUnicode,
coreGlyphList) {
var FONT_IDENTITY_MATRIX = sharedUtil.FONT_IDENTITY_MATRIX;
var IDENTITY_MATRIX = sharedUtil.IDENTITY_MATRIX;
var UNSUPPORTED_FEATURES = sharedUtil.UNSUPPORTED_FEATURES;
var ImageKind = sharedUtil.ImageKind;
var OPS = sharedUtil.OPS;
var TextRenderingMode = sharedUtil.TextRenderingMode;
var Util = sharedUtil.Util;
var assert = sharedUtil.assert;
var createPromiseCapability = sharedUtil.createPromiseCapability;
var error = sharedUtil.error;
var info = sharedUtil.info;
var isArray = sharedUtil.isArray;
var isNum = sharedUtil.isNum;
var isString = sharedUtil.isString;
var getLookupTableFactory = sharedUtil.getLookupTableFactory;
var warn = sharedUtil.warn;
var Dict = corePrimitives.Dict;
var Name = corePrimitives.Name;
var isCmd = corePrimitives.isCmd;
var isDict = corePrimitives.isDict;
var isName = corePrimitives.isName;
var isRef = corePrimitives.isRef;
var isStream = corePrimitives.isStream;
var DecodeStream = coreStream.DecodeStream;
var JpegStream = coreStream.JpegStream;
var Stream = coreStream.Stream;
var Lexer = coreParser.Lexer;
var Parser = coreParser.Parser;
var isEOF = coreParser.isEOF;
var PDFImage = coreImage.PDFImage;
var ColorSpace = coreColorSpace.ColorSpace;
var MurmurHash3_64 = coreMurmurHash3.MurmurHash3_64;
var ErrorFont = coreFonts.ErrorFont;
var FontFlags = coreFonts.FontFlags;
var Font = coreFonts.Font;
var IdentityToUnicodeMap = coreFonts.IdentityToUnicodeMap;
var ToUnicodeMap = coreFonts.ToUnicodeMap;
var getFontType = coreFonts.getFontType;
var isPDFFunction = coreFunction.isPDFFunction;
var PDFFunction = coreFunction.PDFFunction;
var Pattern = corePattern.Pattern;
var getTilingPatternIR = corePattern.getTilingPatternIR;
var CMapFactory = coreCMap.CMapFactory;
var IdentityCMap = coreCMap.IdentityCMap;
var getMetrics = coreMetrics.getMetrics;
var bidi = coreBidi.bidi;
var WinAnsiEncoding = coreEncodings.WinAnsiEncoding;
var StandardEncoding = coreEncodings.StandardEncoding;
var MacRomanEncoding = coreEncodings.MacRomanEncoding;
var SymbolSetEncoding = coreEncodings.SymbolSetEncoding;
var ZapfDingbatsEncoding = coreEncodings.ZapfDingbatsEncoding;
var getEncoding = coreEncodings.getEncoding;
var getStdFontMap = coreStandardFonts.getStdFontMap;
var getSerifFonts = coreStandardFonts.getSerifFonts;
var getSymbolsFonts = coreStandardFonts.getSymbolsFonts;
var getNormalizedUnicodes = coreUnicode.getNormalizedUnicodes;
var reverseIfRtl = coreUnicode.reverseIfRtl;
var getUnicodeForGlyph = coreUnicode.getUnicodeForGlyph;
var getGlyphsUnicode = coreGlyphList.getGlyphsUnicode;
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var PartialEvaluator = (function PartialEvaluatorClosure() {
var DefaultPartialEvaluatorOptions = {
forceDataSchema: false,
maxImageSize: -1,
disableFontFace: false,
cMapOptions: { url: null, packed: false }
};
function NativeImageDecoder(xref, resources, handler, forceDataSchema) {
this.xref = xref;
this.resources = resources;
this.handler = handler;
this.forceDataSchema = forceDataSchema;
}
NativeImageDecoder.prototype = {
canDecode: function (image) {
return image instanceof JpegStream &&
NativeImageDecoder.isDecodable(image, this.xref, this.resources);
},
decode: function (image) {
// For natively supported JPEGs send them to the main thread for decoding.
var dict = image.dict;
var colorSpace = dict.get('ColorSpace', 'CS');
colorSpace = ColorSpace.parse(colorSpace, this.xref, this.resources);
var numComps = colorSpace.numComps;
var decodePromise = this.handler.sendWithPromise('JpegDecode',
[image.getIR(this.forceDataSchema), numComps]);
return decodePromise.then(function (message) {
var data = message.data;
return new Stream(data, 0, data.length, image.dict);
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});
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}
};
/**
* Checks if the image can be decoded and displayed by the browser without any
* further processing such as color space conversions.
*/
NativeImageDecoder.isSupported =
function NativeImageDecoder_isSupported(image, xref, res) {
var cs = ColorSpace.parse(image.dict.get('ColorSpace', 'CS'), xref, res);
return (cs.name === 'DeviceGray' || cs.name === 'DeviceRGB') &&
cs.isDefaultDecode(image.dict.get('Decode', 'D'));
};
/**
* Checks if the image can be decoded by the browser.
*/
NativeImageDecoder.isDecodable =
function NativeImageDecoder_isDecodable(image, xref, res) {
var cs = ColorSpace.parse(image.dict.get('ColorSpace', 'CS'), xref, res);
return (cs.numComps === 1 || cs.numComps === 3) &&
cs.isDefaultDecode(image.dict.get('Decode', 'D'));
};
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function PartialEvaluator(pdfManager, xref, handler, pageIndex,
uniquePrefix, idCounters, fontCache, options) {
this.pdfManager = pdfManager;
this.xref = xref;
this.handler = handler;
this.pageIndex = pageIndex;
this.uniquePrefix = uniquePrefix;
this.idCounters = idCounters;
this.fontCache = fontCache;
this.options = options || DefaultPartialEvaluatorOptions;
}
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// Trying to minimize Date.now() usage and check every 100 time
var TIME_SLOT_DURATION_MS = 20;
var CHECK_TIME_EVERY = 100;
function TimeSlotManager() {
this.reset();
}
TimeSlotManager.prototype = {
check: function TimeSlotManager_check() {
if (++this.checked < CHECK_TIME_EVERY) {
return false;
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}
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this.checked = 0;
return this.endTime <= Date.now();
},
reset: function TimeSlotManager_reset() {
this.endTime = Date.now() + TIME_SLOT_DURATION_MS;
this.checked = 0;
}
};
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var deferred = Promise.resolve();
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var TILING_PATTERN = 1, SHADING_PATTERN = 2;
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PartialEvaluator.prototype = {
hasBlendModes: function PartialEvaluator_hasBlendModes(resources) {
if (!isDict(resources)) {
return false;
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}
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var processed = Object.create(null);
if (resources.objId) {
processed[resources.objId] = true;
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}
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var nodes = [resources], xref = this.xref;
while (nodes.length) {
var key, i, ii;
var node = nodes.shift();
// First check the current resources for blend modes.
var graphicStates = node.get('ExtGState');
if (isDict(graphicStates)) {
var graphicStatesKeys = graphicStates.getKeys();
for (i = 0, ii = graphicStatesKeys.length; i < ii; i++) {
key = graphicStatesKeys[i];
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var graphicState = graphicStates.get(key);
var bm = graphicState.get('BM');
if (isName(bm) && bm.name !== 'Normal') {
return true;
}
}
}
// Descend into the XObjects to look for more resources and blend modes.
var xObjects = node.get('XObject');
if (!isDict(xObjects)) {
continue;
}
var xObjectsKeys = xObjects.getKeys();
for (i = 0, ii = xObjectsKeys.length; i < ii; i++) {
key = xObjectsKeys[i];
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var xObject = xObjects.getRaw(key);
if (isRef(xObject)) {
if (processed[xObject.toString()]) {
// The XObject has already been processed, and by avoiding a
// redundant `xref.fetch` we can *significantly* reduce the load
// time for badly generated PDF files (fixes issue6961.pdf).
continue;
}
xObject = xref.fetch(xObject);
}
if (!isStream(xObject)) {
continue;
}
if (xObject.dict.objId) {
if (processed[xObject.dict.objId]) {
// stream has objId and is processed already
continue;
}
processed[xObject.dict.objId] = true;
}
var xResources = xObject.dict.get('Resources');
// Checking objId to detect an infinite loop.
if (isDict(xResources) &&
(!xResources.objId || !processed[xResources.objId])) {
nodes.push(xResources);
if (xResources.objId) {
processed[xResources.objId] = true;
}
}
}
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}
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return false;
},
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buildFormXObject: function PartialEvaluator_buildFormXObject(resources,
xobj, smask,
operatorList,
task,
initialState) {
var matrix = xobj.dict.getArray('Matrix');
var bbox = xobj.dict.getArray('BBox');
var group = xobj.dict.get('Group');
if (group) {
var groupOptions = {
matrix: matrix,
bbox: bbox,
smask: smask,
isolated: false,
knockout: false
};
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var groupSubtype = group.get('S');
var colorSpace;
if (isName(groupSubtype) && groupSubtype.name === 'Transparency') {
groupOptions.isolated = (group.get('I') || false);
groupOptions.knockout = (group.get('K') || false);
colorSpace = (group.has('CS') ?
ColorSpace.parse(group.get('CS'), this.xref, resources) : null);
}
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if (smask && smask.backdrop) {
colorSpace = colorSpace || ColorSpace.singletons.rgb;
smask.backdrop = colorSpace.getRgb(smask.backdrop, 0);
}
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operatorList.addOp(OPS.beginGroup, [groupOptions]);
}
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operatorList.addOp(OPS.paintFormXObjectBegin, [matrix, bbox]);
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return this.getOperatorList(xobj, task,
(xobj.dict.get('Resources') || resources), operatorList, initialState).
then(function () {
operatorList.addOp(OPS.paintFormXObjectEnd, []);
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if (group) {
operatorList.addOp(OPS.endGroup, [groupOptions]);
}
});
},
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buildPaintImageXObject:
function PartialEvaluator_buildPaintImageXObject(resources, image,
inline, operatorList,
cacheKey, imageCache) {
var self = this;
var dict = image.dict;
var w = dict.get('Width', 'W');
var h = dict.get('Height', 'H');
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if (!(w && isNum(w)) || !(h && isNum(h))) {
warn('Image dimensions are missing, or not numbers.');
return;
}
var maxImageSize = this.options.maxImageSize;
if (maxImageSize !== -1 && w * h > maxImageSize) {
warn('Image exceeded maximum allowed size and was removed.');
return;
}
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var imageMask = (dict.get('ImageMask', 'IM') || false);
var imgData, args;
if (imageMask) {
// This depends on a tmpCanvas being filled with the
// current fillStyle, such that processing the pixel
// data can't be done here. Instead of creating a
// complete PDFImage, only read the information needed
// for later.
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var width = dict.get('Width', 'W');
var height = dict.get('Height', 'H');
var bitStrideLength = (width + 7) >> 3;
var imgArray = image.getBytes(bitStrideLength * height);
var decode = dict.get('Decode', 'D');
var inverseDecode = (!!decode && decode[0] > 0);
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imgData = PDFImage.createMask(imgArray, width, height,
image instanceof DecodeStream,
inverseDecode);
imgData.cached = true;
args = [imgData];
operatorList.addOp(OPS.paintImageMaskXObject, args);
if (cacheKey) {
imageCache[cacheKey] = {
fn: OPS.paintImageMaskXObject,
args: args
};
}
return;
}
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var softMask = (dict.get('SMask', 'SM') || false);
var mask = (dict.get('Mask') || false);
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var SMALL_IMAGE_DIMENSIONS = 200;
// Inlining small images into the queue as RGB data
if (inline && !softMask && !mask && !(image instanceof JpegStream) &&
(w + h) < SMALL_IMAGE_DIMENSIONS) {
var imageObj = new PDFImage(this.xref, resources, image,
inline, null, null);
// We force the use of RGBA_32BPP images here, because we can't handle
// any other kind.
imgData = imageObj.createImageData(/* forceRGBA = */ true);
operatorList.addOp(OPS.paintInlineImageXObject, [imgData]);
return;
}
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// If there is no imageMask, create the PDFImage and a lot
// of image processing can be done here.
var uniquePrefix = (this.uniquePrefix || '');
var objId = 'img_' + uniquePrefix + (++this.idCounters.obj);
operatorList.addDependency(objId);
args = [objId, w, h];
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if (!softMask && !mask && image instanceof JpegStream &&
NativeImageDecoder.isSupported(image, this.xref, resources)) {
// These JPEGs don't need any more processing so we can just send it.
operatorList.addOp(OPS.paintJpegXObject, args);
this.handler.send('obj',
[objId, this.pageIndex, 'JpegStream',
image.getIR(this.options.forceDataSchema)]);
return;
}
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// Creates native image decoder only if a JPEG image or mask is present.
var nativeImageDecoder = null;
if (image instanceof JpegStream || mask instanceof JpegStream ||
softMask instanceof JpegStream) {
nativeImageDecoder = new NativeImageDecoder(self.xref, resources,
self.handler, self.options.forceDataSchema);
}
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PDFImage.buildImage(self.handler, self.xref, resources, image, inline,
nativeImageDecoder).
then(function(imageObj) {
var imgData = imageObj.createImageData(/* forceRGBA = */ false);
self.handler.send('obj', [objId, self.pageIndex, 'Image', imgData],
[imgData.data.buffer]);
}).then(undefined, function (reason) {
warn('Unable to decode image: ' + reason);
self.handler.send('obj', [objId, self.pageIndex, 'Image', null]);
});
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operatorList.addOp(OPS.paintImageXObject, args);
if (cacheKey) {
imageCache[cacheKey] = {
fn: OPS.paintImageXObject,
args: args
};
}
},
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handleSMask: function PartialEvaluator_handleSmask(smask, resources,
operatorList, task,
stateManager) {
var smaskContent = smask.get('G');
var smaskOptions = {
subtype: smask.get('S').name,
backdrop: smask.get('BC')
};
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// The SMask might have a alpha/luminosity value transfer function --
// we will build a map of integer values in range 0..255 to be fast.
var transferObj = smask.get('TR');
if (isPDFFunction(transferObj)) {
var transferFn = PDFFunction.parse(this.xref, transferObj);
var transferMap = new Uint8Array(256);
var tmp = new Float32Array(1);
for (var i = 0; i < 256; i++) {
tmp[0] = i / 255;
transferFn(tmp, 0, tmp, 0);
transferMap[i] = (tmp[0] * 255) | 0;
}
smaskOptions.transferMap = transferMap;
}
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return this.buildFormXObject(resources, smaskContent, smaskOptions,
operatorList, task, stateManager.state.clone());
},
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handleTilingType:
function PartialEvaluator_handleTilingType(fn, args, resources,
pattern, patternDict,
operatorList, task) {
// Create an IR of the pattern code.
var tilingOpList = new OperatorList();
// Merge the available resources, to prevent issues when the patternDict
// is missing some /Resources entries (fixes issue6541.pdf).
var resourcesArray = [patternDict.get('Resources'), resources];
var patternResources = Dict.merge(this.xref, resourcesArray);
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return this.getOperatorList(pattern, task, patternResources,
tilingOpList).then(function () {
// Add the dependencies to the parent operator list so they are
// resolved before sub operator list is executed synchronously.
operatorList.addDependencies(tilingOpList.dependencies);
operatorList.addOp(fn, getTilingPatternIR({
fnArray: tilingOpList.fnArray,
argsArray: tilingOpList.argsArray
}, patternDict, args));
});
},
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handleSetFont:
function PartialEvaluator_handleSetFont(resources, fontArgs, fontRef,
operatorList, task, state) {
// TODO(mack): Not needed?
var fontName;
if (fontArgs) {
fontArgs = fontArgs.slice();
fontName = fontArgs[0].name;
}
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var self = this;
return this.loadFont(fontName, fontRef, this.xref, resources).then(
function (translated) {
if (!translated.font.isType3Font) {
return translated;
}
return translated.loadType3Data(self, resources, operatorList, task).
then(function () {
return translated;
}, function (reason) {
// Error in the font data -- sending unsupported feature notification.
self.handler.send('UnsupportedFeature',
{featureId: UNSUPPORTED_FEATURES.font});
return new TranslatedFont('g_font_error',
new ErrorFont('Type3 font load error: ' + reason), translated.font);
});
}).then(function (translated) {
state.font = translated.font;
translated.send(self.handler);
return translated.loadedName;
});
},
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handleText: function PartialEvaluator_handleText(chars, state) {
var font = state.font;
var glyphs = font.charsToGlyphs(chars);
var isAddToPathSet = !!(state.textRenderingMode &
TextRenderingMode.ADD_TO_PATH_FLAG);
if (font.data && (isAddToPathSet || this.options.disableFontFace)) {
var buildPath = function (fontChar) {
if (!font.renderer.hasBuiltPath(fontChar)) {
var path = font.renderer.getPathJs(fontChar);
this.handler.send('commonobj', [
font.loadedName + '_path_' + fontChar,
'FontPath',
path
]);
}
}.bind(this);
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for (var i = 0, ii = glyphs.length; i < ii; i++) {
var glyph = glyphs[i];
buildPath(glyph.fontChar);
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// If the glyph has an accent we need to build a path for its
// fontChar too, otherwise CanvasGraphics_paintChar will fail.
var accent = glyph.accent;
if (accent && accent.fontChar) {
buildPath(accent.fontChar);
}
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}
}
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return glyphs;
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},
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setGState: function PartialEvaluator_setGState(resources, gState,
operatorList, task,
xref, stateManager) {
// This array holds the converted/processed state data.
var gStateObj = [];
var gStateKeys = gState.getKeys();
var self = this;
var promise = Promise.resolve();
for (var i = 0, ii = gStateKeys.length; i < ii; i++) {
var key = gStateKeys[i];
var value = gState.get(key);
switch (key) {
case 'Type':
break;
case 'LW':
case 'LC':
case 'LJ':
case 'ML':
case 'D':
case 'RI':
case 'FL':
case 'CA':
case 'ca':
gStateObj.push([key, value]);
break;
case 'Font':
promise = promise.then(function () {
return self.handleSetFont(resources, null, value[0], operatorList,
task, stateManager.state).
then(function (loadedName) {
operatorList.addDependency(loadedName);
gStateObj.push([key, [loadedName, value[1]]]);
});
});
break;
case 'BM':
gStateObj.push([key, value]);
break;
case 'SMask':
if (isName(value) && value.name === 'None') {
gStateObj.push([key, false]);
break;
}
if (isDict(value)) {
promise = promise.then(function (dict) {
return self.handleSMask(dict, resources, operatorList,
task, stateManager);
}.bind(this, value));
gStateObj.push([key, true]);
} else {
warn('Unsupported SMask type');
}
break;
// Only generate info log messages for the following since
// they are unlikely to have a big impact on the rendering.
case 'OP':
case 'op':
case 'OPM':
case 'BG':
case 'BG2':
case 'UCR':
case 'UCR2':
case 'TR':
case 'TR2':
case 'HT':
case 'SM':
case 'SA':
case 'AIS':
case 'TK':
// TODO implement these operators.
info('graphic state operator ' + key);
break;
default:
info('Unknown graphic state operator ' + key);
break;
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}
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}
return promise.then(function () {
if (gStateObj.length > 0) {
operatorList.addOp(OPS.setGState, [gStateObj]);
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}
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});
},
loadFont: function PartialEvaluator_loadFont(fontName, font, xref,
resources) {
function errorFont() {
return Promise.resolve(new TranslatedFont('g_font_error',
new ErrorFont('Font ' + fontName + ' is not available'), font));
}
var fontRef;
if (font) { // Loading by ref.
assert(isRef(font));
fontRef = font;
} else { // Loading by name.
var fontRes = resources.get('Font');
if (fontRes) {
fontRef = fontRes.getRaw(fontName);
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} else {
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warn('fontRes not available');
return errorFont();
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}
}
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if (!fontRef) {
warn('fontRef not available');
return errorFont();
}
if (this.fontCache.has(fontRef)) {
return this.fontCache.get(fontRef);
}
font = xref.fetchIfRef(fontRef);
if (!isDict(font)) {
return errorFont();
}
// We are holding font.translated references just for fontRef that are not
// dictionaries (Dict). See explanation below.
if (font.translated) {
return font.translated;
}
var fontCapability = createPromiseCapability();
var preEvaluatedFont = this.preEvaluateFont(font, xref);
var descriptor = preEvaluatedFont.descriptor;
var fontID = fontRef.num + '_' + fontRef.gen;
if (isDict(descriptor)) {
if (!descriptor.fontAliases) {
descriptor.fontAliases = Object.create(null);
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}
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var fontAliases = descriptor.fontAliases;
var hash = preEvaluatedFont.hash;
if (fontAliases[hash]) {
var aliasFontRef = fontAliases[hash].aliasRef;
if (aliasFontRef && this.fontCache.has(aliasFontRef)) {
this.fontCache.putAlias(fontRef, aliasFontRef);
return this.fontCache.get(fontRef);
}
}
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if (!fontAliases[hash]) {
fontAliases[hash] = {
fontID: Font.getFontID()
};
}
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fontAliases[hash].aliasRef = fontRef;
fontID = fontAliases[hash].fontID;
}
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// Workaround for bad PDF generators that don't reference fonts
// properly, i.e. by not using an object identifier.
// Check if the fontRef is a Dict (as opposed to a standard object),
// in which case we don't cache the font and instead reference it by
// fontName in font.loadedName below.
var fontRefIsDict = isDict(fontRef);
if (!fontRefIsDict) {
this.fontCache.put(fontRef, fontCapability.promise);
}
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// Keep track of each font we translated so the caller can
// load them asynchronously before calling display on a page.
font.loadedName = 'g_' + this.pdfManager.docId + '_f' + (fontRefIsDict ?
fontName.replace(/\W/g, '') : fontID);
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font.translated = fontCapability.promise;
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// TODO move promises into translate font
var translatedPromise;
try {
translatedPromise = this.translateFont(preEvaluatedFont, xref);
} catch (e) {
translatedPromise = Promise.reject(e);
}
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var self = this;
translatedPromise.then(function (translatedFont) {
if (translatedFont.fontType !== undefined) {
var xrefFontStats = xref.stats.fontTypes;
xrefFontStats[translatedFont.fontType] = true;
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}
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fontCapability.resolve(new TranslatedFont(font.loadedName,
translatedFont, font));
}, function (reason) {
// TODO fontCapability.reject?
// Error in the font data -- sending unsupported feature notification.
self.handler.send('UnsupportedFeature',
{featureId: UNSUPPORTED_FEATURES.font});
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try {
// error, but it's still nice to have font type reported
var descriptor = preEvaluatedFont.descriptor;
var fontFile3 = descriptor && descriptor.get('FontFile3');
var subtype = fontFile3 && fontFile3.get('Subtype');
var fontType = getFontType(preEvaluatedFont.type,
subtype && subtype.name);
var xrefFontStats = xref.stats.fontTypes;
xrefFontStats[fontType] = true;
} catch (ex) { }
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fontCapability.resolve(new TranslatedFont(font.loadedName,
new ErrorFont(reason instanceof Error ? reason.message : reason),
font));
});
return fontCapability.promise;
},
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buildPath: function PartialEvaluator_buildPath(operatorList, fn, args) {
var lastIndex = operatorList.length - 1;
if (!args) {
args = [];
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}
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if (lastIndex < 0 ||
operatorList.fnArray[lastIndex] !== OPS.constructPath) {
operatorList.addOp(OPS.constructPath, [[fn], args]);
} else {
var opArgs = operatorList.argsArray[lastIndex];
opArgs[0].push(fn);
Array.prototype.push.apply(opArgs[1], args);
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}
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},
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handleColorN: function PartialEvaluator_handleColorN(operatorList, fn, args,
cs, patterns, resources, task, xref) {
// compile tiling patterns
var patternName = args[args.length - 1];
// SCN/scn applies patterns along with normal colors
var pattern;
if (isName(patternName) &&
(pattern = patterns.get(patternName.name))) {
var dict = (isStream(pattern) ? pattern.dict : pattern);
var typeNum = dict.get('PatternType');
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if (typeNum === TILING_PATTERN) {
var color = cs.base ? cs.base.getRgb(args, 0) : null;
return this.handleTilingType(fn, color, resources, pattern,
dict, operatorList, task);
} else if (typeNum === SHADING_PATTERN) {
var shading = dict.get('Shading');
var matrix = dict.get('Matrix');
pattern = Pattern.parseShading(shading, matrix, xref, resources,
this.handler);
operatorList.addOp(fn, pattern.getIR());
return Promise.resolve();
} else {
return Promise.reject('Unknown PatternType: ' + typeNum);
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}
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}
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// TODO shall we fail here?
operatorList.addOp(fn, args);
return Promise.resolve();
},
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getOperatorList: function PartialEvaluator_getOperatorList(stream,
task,
resources,
operatorList,
initialState) {
var self = this;
var xref = this.xref;
var imageCache = Object.create(null);
assert(operatorList);
resources = (resources || Dict.empty);
var xobjs = (resources.get('XObject') || Dict.empty);
var patterns = (resources.get('Pattern') || Dict.empty);
var stateManager = new StateManager(initialState || new EvalState());
var preprocessor = new EvaluatorPreprocessor(stream, xref, stateManager);
var timeSlotManager = new TimeSlotManager();
return new Promise(function promiseBody(resolve, reject) {
var next = function (promise) {
promise.then(function () {
try {
promiseBody(resolve, reject);
} catch (ex) {
reject(ex);
}
}, reject);
};
task.ensureNotTerminated();
timeSlotManager.reset();
var stop, operation = {}, i, ii, cs;
while (!(stop = timeSlotManager.check())) {
// The arguments parsed by read() are used beyond this loop, so we
// cannot reuse the same array on each iteration. Therefore we pass
// in |null| as the initial value (see the comment on
// EvaluatorPreprocessor_read() for why).
operation.args = null;
if (!(preprocessor.read(operation))) {
break;
}
var args = operation.args;
var fn = operation.fn;
switch (fn | 0) {
case OPS.paintXObject:
if (args[0].code) {
break;
}
// eagerly compile XForm objects
var name = args[0].name;
if (!name) {
warn('XObject must be referred to by name.');
continue;
}
if (imageCache[name] !== undefined) {
operatorList.addOp(imageCache[name].fn, imageCache[name].args);
args = null;
continue;
}
var xobj = xobjs.get(name);
if (xobj) {
assert(isStream(xobj), 'XObject should be a stream');
var type = xobj.dict.get('Subtype');
assert(isName(type),
'XObject should have a Name subtype');
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if (type.name === 'Form') {
stateManager.save();
next(self.buildFormXObject(resources, xobj, null,
operatorList, task,
stateManager.state.clone()).
then(function () {
stateManager.restore();
}));
return;
} else if (type.name === 'Image') {
self.buildPaintImageXObject(resources, xobj, false,
operatorList, name, imageCache);
args = null;
continue;
} else if (type.name === 'PS') {
// PostScript XObjects are unused when viewing documents.
// See section 4.7.1 of Adobe's PDF reference.
info('Ignored XObject subtype PS');
continue;
} else {
error('Unhandled XObject subtype ' + type.name);
}
}
break;
case OPS.setFont:
var fontSize = args[1];
// eagerly collect all fonts
next(self.handleSetFont(resources, args, null, operatorList,
task, stateManager.state).
then(function (loadedName) {
operatorList.addDependency(loadedName);
operatorList.addOp(OPS.setFont, [loadedName, fontSize]);
}));
return;
case OPS.endInlineImage:
var cacheKey = args[0].cacheKey;
if (cacheKey) {
var cacheEntry = imageCache[cacheKey];
if (cacheEntry !== undefined) {
operatorList.addOp(cacheEntry.fn, cacheEntry.args);
args = null;
continue;
}
}
self.buildPaintImageXObject(resources, args[0], true,
operatorList, cacheKey, imageCache);
args = null;
continue;
case OPS.showText:
args[0] = self.handleText(args[0], stateManager.state);
break;
case OPS.showSpacedText:
var arr = args[0];
var combinedGlyphs = [];
var arrLength = arr.length;
var state = stateManager.state;
for (i = 0; i < arrLength; ++i) {
var arrItem = arr[i];
if (isString(arrItem)) {
Array.prototype.push.apply(combinedGlyphs,
self.handleText(arrItem, state));
} else if (isNum(arrItem)) {
combinedGlyphs.push(arrItem);
}
}
args[0] = combinedGlyphs;
fn = OPS.showText;
break;
case OPS.nextLineShowText:
operatorList.addOp(OPS.nextLine);
args[0] = self.handleText(args[0], stateManager.state);
fn = OPS.showText;
break;
case OPS.nextLineSetSpacingShowText:
operatorList.addOp(OPS.nextLine);
operatorList.addOp(OPS.setWordSpacing, [args.shift()]);
operatorList.addOp(OPS.setCharSpacing, [args.shift()]);
args[0] = self.handleText(args[0], stateManager.state);
fn = OPS.showText;
break;
case OPS.setTextRenderingMode:
stateManager.state.textRenderingMode = args[0];
break;
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case OPS.setFillColorSpace:
stateManager.state.fillColorSpace =
ColorSpace.parse(args[0], xref, resources);
continue;
case OPS.setStrokeColorSpace:
stateManager.state.strokeColorSpace =
ColorSpace.parse(args[0], xref, resources);
continue;
case OPS.setFillColor:
cs = stateManager.state.fillColorSpace;
args = cs.getRgb(args, 0);
fn = OPS.setFillRGBColor;
break;
case OPS.setStrokeColor:
cs = stateManager.state.strokeColorSpace;
args = cs.getRgb(args, 0);
fn = OPS.setStrokeRGBColor;
break;
case OPS.setFillGray:
stateManager.state.fillColorSpace = ColorSpace.singletons.gray;
args = ColorSpace.singletons.gray.getRgb(args, 0);
fn = OPS.setFillRGBColor;
break;
case OPS.setStrokeGray:
stateManager.state.strokeColorSpace = ColorSpace.singletons.gray;
args = ColorSpace.singletons.gray.getRgb(args, 0);
fn = OPS.setStrokeRGBColor;
break;
case OPS.setFillCMYKColor:
stateManager.state.fillColorSpace = ColorSpace.singletons.cmyk;
args = ColorSpace.singletons.cmyk.getRgb(args, 0);
fn = OPS.setFillRGBColor;
break;
case OPS.setStrokeCMYKColor:
stateManager.state.strokeColorSpace = ColorSpace.singletons.cmyk;
args = ColorSpace.singletons.cmyk.getRgb(args, 0);
fn = OPS.setStrokeRGBColor;
break;
case OPS.setFillRGBColor:
stateManager.state.fillColorSpace = ColorSpace.singletons.rgb;
args = ColorSpace.singletons.rgb.getRgb(args, 0);
break;
case OPS.setStrokeRGBColor:
stateManager.state.strokeColorSpace = ColorSpace.singletons.rgb;
args = ColorSpace.singletons.rgb.getRgb(args, 0);
break;
case OPS.setFillColorN:
cs = stateManager.state.fillColorSpace;
if (cs.name === 'Pattern') {
next(self.handleColorN(operatorList, OPS.setFillColorN, args,
cs, patterns, resources, task, xref));
return;
}
args = cs.getRgb(args, 0);
fn = OPS.setFillRGBColor;
break;
case OPS.setStrokeColorN:
cs = stateManager.state.strokeColorSpace;
if (cs.name === 'Pattern') {
next(self.handleColorN(operatorList, OPS.setStrokeColorN, args,
cs, patterns, resources, task, xref));
return;
}
args = cs.getRgb(args, 0);
fn = OPS.setStrokeRGBColor;
break;
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case OPS.shadingFill:
var shadingRes = resources.get('Shading');
if (!shadingRes) {
error('No shading resource found');
}
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var shading = shadingRes.get(args[0].name);
if (!shading) {
error('No shading object found');
}
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var shadingFill = Pattern.parseShading(shading, null, xref,
resources, self.handler);
var patternIR = shadingFill.getIR();
args = [patternIR];
fn = OPS.shadingFill;
break;
case OPS.setGState:
var dictName = args[0];
var extGState = resources.get('ExtGState');
if (!isDict(extGState) || !extGState.has(dictName.name)) {
break;
}
var gState = extGState.get(dictName.name);
next(self.setGState(resources, gState, operatorList, task, xref,
stateManager));
return;
case OPS.moveTo:
case OPS.lineTo:
case OPS.curveTo:
case OPS.curveTo2:
case OPS.curveTo3:
case OPS.closePath:
self.buildPath(operatorList, fn, args);
continue;
case OPS.rectangle:
self.buildPath(operatorList, fn, args);
continue;
case OPS.markPoint:
case OPS.markPointProps:
case OPS.beginMarkedContent:
case OPS.beginMarkedContentProps:
case OPS.endMarkedContent:
case OPS.beginCompat:
case OPS.endCompat:
// Ignore operators where the corresponding handlers are known to
// be no-op in CanvasGraphics (display/canvas.js). This prevents
// serialization errors and is also a bit more efficient.
// We could also try to serialize all objects in a general way,
// e.g. as done in https://github.com/mozilla/pdf.js/pull/6266,
// but doing so is meaningless without knowing the semantics.
continue;
default:
// Note: Ignore the operator if it has `Dict` arguments, since
// those are non-serializable, otherwise postMessage will throw
// "An object could not be cloned.".
if (args !== null) {
for (i = 0, ii = args.length; i < ii; i++) {
if (args[i] instanceof Dict) {
break;
}
}
if (i < ii) {
warn('getOperatorList - ignoring operator: ' + fn);
continue;
}
}
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}
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operatorList.addOp(fn, args);
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}
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if (stop) {
next(deferred);
return;
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}
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// Some PDFs don't close all restores inside object/form.
// Closing those for them.
for (i = 0, ii = preprocessor.savedStatesDepth; i < ii; i++) {
operatorList.addOp(OPS.restore, []);
}
resolve();
});
},
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getTextContent:
function PartialEvaluator_getTextContent(stream, task, resources,
stateManager,
normalizeWhitespace) {
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stateManager = (stateManager || new StateManager(new TextState()));
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var WhitespaceRegexp = /\s/g;
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var textContent = {
items: [],
styles: Object.create(null)
};
var textContentItem = {
initialized: false,
str: [],
width: 0,
height: 0,
vertical: false,
lastAdvanceWidth: 0,
lastAdvanceHeight: 0,
textAdvanceScale: 0,
spaceWidth: 0,
fakeSpaceMin: Infinity,
fakeMultiSpaceMin: Infinity,
fakeMultiSpaceMax: -0,
textRunBreakAllowed: false,
transform: null,
fontName: null
};
var SPACE_FACTOR = 0.3;
var MULTI_SPACE_FACTOR = 1.5;
var MULTI_SPACE_FACTOR_MAX = 4;
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var self = this;
var xref = this.xref;
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resources = (xref.fetchIfRef(resources) || Dict.empty);
// The xobj is parsed iff it's needed, e.g. if there is a `DO` cmd.
var xobjs = null;
var xobjsCache = Object.create(null);
var preprocessor = new EvaluatorPreprocessor(stream, xref, stateManager);
var textState;
function ensureTextContentItem() {
if (textContentItem.initialized) {
return textContentItem;
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}
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var font = textState.font;
if (!(font.loadedName in textContent.styles)) {
textContent.styles[font.loadedName] = {
fontFamily: font.fallbackName,
ascent: font.ascent,
descent: font.descent,
vertical: font.vertical
};
}
textContentItem.fontName = font.loadedName;
// 9.4.4 Text Space Details
var tsm = [textState.fontSize * textState.textHScale, 0,
0, textState.fontSize,
0, textState.textRise];
if (font.isType3Font &&
textState.fontMatrix !== FONT_IDENTITY_MATRIX &&
textState.fontSize === 1) {
var glyphHeight = font.bbox[3] - font.bbox[1];
if (glyphHeight > 0) {
glyphHeight = glyphHeight * textState.fontMatrix[3];
tsm[3] *= glyphHeight;
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}
}
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var trm = Util.transform(textState.ctm,
Util.transform(textState.textMatrix, tsm));
textContentItem.transform = trm;
if (!font.vertical) {
textContentItem.width = 0;
textContentItem.height = Math.sqrt(trm[2] * trm[2] + trm[3] * trm[3]);
textContentItem.vertical = false;
} else {
textContentItem.width = Math.sqrt(trm[0] * trm[0] + trm[1] * trm[1]);
textContentItem.height = 0;
textContentItem.vertical = true;
}
var a = textState.textLineMatrix[0];
var b = textState.textLineMatrix[1];
var scaleLineX = Math.sqrt(a * a + b * b);
a = textState.ctm[0];
b = textState.ctm[1];
var scaleCtmX = Math.sqrt(a * a + b * b);
textContentItem.textAdvanceScale = scaleCtmX * scaleLineX;
textContentItem.lastAdvanceWidth = 0;
textContentItem.lastAdvanceHeight = 0;
var spaceWidth = font.spaceWidth / 1000 * textState.fontSize;
if (spaceWidth) {
textContentItem.spaceWidth = spaceWidth;
textContentItem.fakeSpaceMin = spaceWidth * SPACE_FACTOR;
textContentItem.fakeMultiSpaceMin = spaceWidth * MULTI_SPACE_FACTOR;
textContentItem.fakeMultiSpaceMax =
spaceWidth * MULTI_SPACE_FACTOR_MAX;
// It's okay for monospace fonts to fake as much space as needed.
textContentItem.textRunBreakAllowed = !font.isMonospace;
} else {
textContentItem.spaceWidth = 0;
textContentItem.fakeSpaceMin = Infinity;
textContentItem.fakeMultiSpaceMin = Infinity;
textContentItem.fakeMultiSpaceMax = 0;
textContentItem.textRunBreakAllowed = false;
}
textContentItem.initialized = true;
return textContentItem;
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}
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function replaceWhitespace(str) {
// Replaces all whitespaces with standard spaces (0x20), to avoid
// alignment issues between the textLayer and the canvas if the text
// contains e.g. tabs (fixes issue6612.pdf).
var i = 0, ii = str.length, code;
while (i < ii && (code = str.charCodeAt(i)) >= 0x20 && code <= 0x7F) {
i++;
}
return (i < ii ? str.replace(WhitespaceRegexp, ' ') : str);
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}
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function runBidiTransform(textChunk) {
var str = textChunk.str.join('');
var bidiResult = bidi(str, -1, textChunk.vertical);
return {
str: (normalizeWhitespace ? replaceWhitespace(bidiResult.str) :
bidiResult.str),
dir: bidiResult.dir,
width: textChunk.width,
height: textChunk.height,
transform: textChunk.transform,
fontName: textChunk.fontName
};
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}
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function handleSetFont(fontName, fontRef) {
return self.loadFont(fontName, fontRef, xref, resources).
then(function (translated) {
textState.font = translated.font;
textState.fontMatrix = translated.font.fontMatrix ||
FONT_IDENTITY_MATRIX;
});
}
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function buildTextContentItem(chars) {
var font = textState.font;
var textChunk = ensureTextContentItem();
var width = 0;
var height = 0;
var glyphs = font.charsToGlyphs(chars);
var defaultVMetrics = font.defaultVMetrics;
for (var i = 0; i < glyphs.length; i++) {
var glyph = glyphs[i];
var vMetricX = null;
var vMetricY = null;
var glyphWidth = null;
if (font.vertical) {
if (glyph.vmetric) {
glyphWidth = glyph.vmetric[0];
vMetricX = glyph.vmetric[1];
vMetricY = glyph.vmetric[2];
} else {
glyphWidth = glyph.width;
vMetricX = glyph.width * 0.5;
vMetricY = defaultVMetrics[2];
}
} else {
glyphWidth = glyph.width;
}
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var glyphUnicode = glyph.unicode;
var NormalizedUnicodes = getNormalizedUnicodes();
if (NormalizedUnicodes[glyphUnicode] !== undefined) {
glyphUnicode = NormalizedUnicodes[glyphUnicode];
}
glyphUnicode = reverseIfRtl(glyphUnicode);
// The following will calculate the x and y of the individual glyphs.
// if (font.vertical) {
// tsm[4] -= vMetricX * Math.abs(textState.fontSize) *
// textState.fontMatrix[0];
// tsm[5] -= vMetricY * textState.fontSize *
// textState.fontMatrix[0];
// }
// var trm = Util.transform(textState.textMatrix, tsm);
// var pt = Util.applyTransform([trm[4], trm[5]], textState.ctm);
// var x = pt[0];
// var y = pt[1];
var charSpacing = textState.charSpacing;
if (glyph.isSpace) {
var wordSpacing = textState.wordSpacing;
charSpacing += wordSpacing;
if (wordSpacing > 0) {
addFakeSpaces(wordSpacing, textChunk.str);
}
}
var tx = 0;
var ty = 0;
if (!font.vertical) {
var w0 = glyphWidth * textState.fontMatrix[0];
tx = (w0 * textState.fontSize + charSpacing) *
textState.textHScale;
width += tx;
} else {
var w1 = glyphWidth * textState.fontMatrix[0];
ty = w1 * textState.fontSize + charSpacing;
height += ty;
}
textState.translateTextMatrix(tx, ty);
textChunk.str.push(glyphUnicode);
}
if (!font.vertical) {
textChunk.lastAdvanceWidth = width;
textChunk.width += width * textChunk.textAdvanceScale;
} else {
textChunk.lastAdvanceHeight = height;
textChunk.height += Math.abs(height * textChunk.textAdvanceScale);
}
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return textChunk;
}
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function addFakeSpaces(width, strBuf) {
if (width < textContentItem.fakeSpaceMin) {
return;
}
if (width < textContentItem.fakeMultiSpaceMin) {
strBuf.push(' ');
return;
}
var fakeSpaces = Math.round(width / textContentItem.spaceWidth);
while (fakeSpaces-- > 0) {
strBuf.push(' ');
}
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}
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function flushTextContentItem() {
if (!textContentItem.initialized) {
return;
}
textContent.items.push(runBidiTransform(textContentItem));
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textContentItem.initialized = false;
textContentItem.str.length = 0;
}
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var timeSlotManager = new TimeSlotManager();
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return new Promise(function promiseBody(resolve, reject) {
var next = function (promise) {
promise.then(function () {
try {
promiseBody(resolve, reject);
} catch (ex) {
reject(ex);
}
}, reject);
};
task.ensureNotTerminated();
timeSlotManager.reset();
var stop, operation = {}, args = [];
while (!(stop = timeSlotManager.check())) {
// The arguments parsed by read() are not used beyond this loop, so
// we can reuse the same array on every iteration, thus avoiding
// unnecessary allocations.
args.length = 0;
operation.args = args;
if (!(preprocessor.read(operation))) {
break;
}
textState = stateManager.state;
var fn = operation.fn;
args = operation.args;
var advance;
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switch (fn | 0) {
case OPS.setFont:
flushTextContentItem();
textState.fontSize = args[1];
next(handleSetFont(args[0].name));
return;
case OPS.setTextRise:
flushTextContentItem();
textState.textRise = args[0];
break;
case OPS.setHScale:
flushTextContentItem();
textState.textHScale = args[0] / 100;
break;
case OPS.setLeading:
flushTextContentItem();
textState.leading = args[0];
break;
case OPS.moveText:
// Optimization to treat same line movement as advance
var isSameTextLine = !textState.font ? false :
((textState.font.vertical ? args[0] : args[1]) === 0);
advance = args[0] - args[1];
if (isSameTextLine && textContentItem.initialized &&
advance > 0 &&
advance <= textContentItem.fakeMultiSpaceMax) {
textState.translateTextLineMatrix(args[0], args[1]);
textContentItem.width +=
(args[0] - textContentItem.lastAdvanceWidth);
textContentItem.height +=
(args[1] - textContentItem.lastAdvanceHeight);
var diff = (args[0] - textContentItem.lastAdvanceWidth) -
(args[1] - textContentItem.lastAdvanceHeight);
addFakeSpaces(diff, textContentItem.str);
break;
}
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flushTextContentItem();
textState.translateTextLineMatrix(args[0], args[1]);
textState.textMatrix = textState.textLineMatrix.slice();
break;
case OPS.setLeadingMoveText:
flushTextContentItem();
textState.leading = -args[1];
textState.translateTextLineMatrix(args[0], args[1]);
textState.textMatrix = textState.textLineMatrix.slice();
break;
case OPS.nextLine:
flushTextContentItem();
textState.carriageReturn();
break;
case OPS.setTextMatrix:
flushTextContentItem();
textState.setTextMatrix(args[0], args[1], args[2], args[3],
args[4], args[5]);
textState.setTextLineMatrix(args[0], args[1], args[2], args[3],
args[4], args[5]);
break;
case OPS.setCharSpacing:
textState.charSpacing = args[0];
break;
case OPS.setWordSpacing:
textState.wordSpacing = args[0];
break;
case OPS.beginText:
flushTextContentItem();
textState.textMatrix = IDENTITY_MATRIX.slice();
textState.textLineMatrix = IDENTITY_MATRIX.slice();
break;
case OPS.showSpacedText:
var items = args[0];
var offset;
for (var j = 0, jj = items.length; j < jj; j++) {
if (typeof items[j] === 'string') {
buildTextContentItem(items[j]);
} else {
ensureTextContentItem();
// PDF Specification 5.3.2 states:
// The number is expressed in thousandths of a unit of text
// space.
// This amount is subtracted from the current horizontal or
// vertical coordinate, depending on the writing mode.
// In the default coordinate system, a positive adjustment
// has the effect of moving the next glyph painted either to
// the left or down by the given amount.
advance = items[j] * textState.fontSize / 1000;
var breakTextRun = false;
if (textState.font.vertical) {
offset = advance *
(textState.textHScale * textState.textMatrix[2] +
textState.textMatrix[3]);
textState.translateTextMatrix(0, advance);
breakTextRun = textContentItem.textRunBreakAllowed &&
advance > textContentItem.fakeMultiSpaceMax;
if (!breakTextRun) {
// Value needs to be added to height to paint down.
textContentItem.height += offset;
}
} else {
advance = -advance;
offset = advance * (
textState.textHScale * textState.textMatrix[0] +
textState.textMatrix[1]);
textState.translateTextMatrix(advance, 0);
breakTextRun = textContentItem.textRunBreakAllowed &&
advance > textContentItem.fakeMultiSpaceMax;
if (!breakTextRun) {
// Value needs to be subtracted from width to paint left.
textContentItem.width += offset;
}
}
if (breakTextRun) {
flushTextContentItem();
} else if (advance > 0) {
addFakeSpaces(advance, textContentItem.str);
}
}
}
break;
case OPS.showText:
buildTextContentItem(args[0]);
break;
case OPS.nextLineShowText:
flushTextContentItem();
textState.carriageReturn();
buildTextContentItem(args[0]);
break;
case OPS.nextLineSetSpacingShowText:
flushTextContentItem();
textState.wordSpacing = args[0];
textState.charSpacing = args[1];
textState.carriageReturn();
buildTextContentItem(args[2]);
break;
case OPS.paintXObject:
flushTextContentItem();
if (args[0].code) {
break;
}
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if (!xobjs) {
xobjs = (resources.get('XObject') || Dict.empty);
}
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var name = args[0].name;
if (xobjsCache.key === name) {
if (xobjsCache.texts) {
Util.appendToArray(textContent.items, xobjsCache.texts.items);
Util.extendObj(textContent.styles, xobjsCache.texts.styles);
}
break;
}
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var xobj = xobjs.get(name);
if (!xobj) {
break;
}
assert(isStream(xobj), 'XObject should be a stream');
var type = xobj.dict.get('Subtype');
assert(isName(type),
'XObject should have a Name subtype');
if ('Form' !== type.name) {
xobjsCache.key = name;
xobjsCache.texts = null;
break;
}
stateManager.save();
var matrix = xobj.dict.get('Matrix');
if (isArray(matrix) && matrix.length === 6) {
stateManager.transform(matrix);
}
next(self.getTextContent(xobj, task,
xobj.dict.get('Resources') || resources, stateManager,
normalizeWhitespace).then(function (formTextContent) {
Util.appendToArray(textContent.items, formTextContent.items);
Util.extendObj(textContent.styles, formTextContent.styles);
stateManager.restore();
xobjsCache.key = name;
xobjsCache.texts = formTextContent;
}));
return;
case OPS.setGState:
flushTextContentItem();
var dictName = args[0];
var extGState = resources.get('ExtGState');
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if (!isDict(extGState) || !extGState.has(dictName.name)) {
break;
}
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var gsStateMap = extGState.get(dictName.name);
var gsStateFont = null;
for (var key in gsStateMap) {
if (key === 'Font') {
assert(!gsStateFont);
gsStateFont = gsStateMap[key];
}
}
if (gsStateFont) {
textState.fontSize = gsStateFont[1];
next(handleSetFont(gsStateFont[0]));
return;
}
break;
} // switch
} // while
if (stop) {
next(deferred);
return;
}
flushTextContentItem();
resolve(textContent);
});
},
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extractDataStructures: function
partialEvaluatorExtractDataStructures(dict, baseDict,
xref, properties) {
// 9.10.2
var toUnicode = (dict.get('ToUnicode') || baseDict.get('ToUnicode'));
var toUnicodePromise = toUnicode ?
this.readToUnicode(toUnicode) : Promise.resolve(undefined);
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if (properties.composite) {
// CIDSystemInfo helps to match CID to glyphs
var cidSystemInfo = dict.get('CIDSystemInfo');
if (isDict(cidSystemInfo)) {
properties.cidSystemInfo = {
registry: cidSystemInfo.get('Registry'),
ordering: cidSystemInfo.get('Ordering'),
supplement: cidSystemInfo.get('Supplement')
};
}
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var cidToGidMap = dict.get('CIDToGIDMap');
if (isStream(cidToGidMap)) {
properties.cidToGidMap = this.readCidToGidMap(cidToGidMap);
}
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}
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// Based on 9.6.6 of the spec the encoding can come from multiple places
// and depends on the font type. The base encoding and differences are
// read here, but the encoding that is actually used is chosen during
// glyph mapping in the font.
// TODO: Loading the built in encoding in the font would allow the
// differences to be merged in here not require us to hold on to it.
var differences = [];
var baseEncodingName = null;
var encoding;
if (dict.has('Encoding')) {
encoding = dict.get('Encoding');
if (isDict(encoding)) {
baseEncodingName = encoding.get('BaseEncoding');
baseEncodingName = (isName(baseEncodingName) ?
baseEncodingName.name : null);
// Load the differences between the base and original
if (encoding.has('Differences')) {
var diffEncoding = encoding.get('Differences');
var index = 0;
for (var j = 0, jj = diffEncoding.length; j < jj; j++) {
var data = xref.fetchIfRef(diffEncoding[j]);
if (isNum(data)) {
index = data;
} else if (isName(data)) {
differences[index++] = data.name;
} else {
error('Invalid entry in \'Differences\' array: ' + data);
}
}
}
} else if (isName(encoding)) {
baseEncodingName = encoding.name;
} else {
error('Encoding is not a Name nor a Dict');
}
// According to table 114 if the encoding is a named encoding it must be
// one of these predefined encodings.
if ((baseEncodingName !== 'MacRomanEncoding' &&
baseEncodingName !== 'MacExpertEncoding' &&
baseEncodingName !== 'WinAnsiEncoding')) {
baseEncodingName = null;
}
}
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if (baseEncodingName) {
properties.defaultEncoding = getEncoding(baseEncodingName).slice();
} else {
encoding = (properties.type === 'TrueType' ?
WinAnsiEncoding : StandardEncoding);
// The Symbolic attribute can be misused for regular fonts
// Heuristic: we have to check if the font is a standard one also
if (!!(properties.flags & FontFlags.Symbolic)) {
encoding = MacRomanEncoding;
if (!properties.file) {
if (/Symbol/i.test(properties.name)) {
encoding = SymbolSetEncoding;
} else if (/Dingbats/i.test(properties.name)) {
encoding = ZapfDingbatsEncoding;
}
}
}
properties.defaultEncoding = encoding;
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}
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properties.differences = differences;
properties.baseEncodingName = baseEncodingName;
properties.dict = dict;
return toUnicodePromise.then(function(toUnicode) {
properties.toUnicode = toUnicode;
return this.buildToUnicode(properties);
}.bind(this)).then(function (toUnicode) {
properties.toUnicode = toUnicode;
return properties;
});
},
/**
* Builds a char code to unicode map based on section 9.10 of the spec.
* @param {Object} properties Font properties object.
* @return {Promise} A Promise resolving to ToUnicodeMap object.
*/
buildToUnicode: function partialEvaluator_buildToUnicode(properties) {
// Section 9.10.2 Mapping Character Codes to Unicode Values
if (properties.toUnicode && properties.toUnicode.length !== 0) {
return Promise.resolve(properties.toUnicode);
}
// According to the spec if the font is a simple font we should only map
// to unicode if the base encoding is MacRoman, MacExpert, or WinAnsi or
// the differences array only contains adobe standard or symbol set names,
// in pratice it seems better to always try to create a toUnicode
// map based of the default encoding.
var toUnicode, charcode;
if (!properties.composite /* is simple font */) {
toUnicode = [];
var encoding = properties.defaultEncoding.slice();
var baseEncodingName = properties.baseEncodingName;
// Merge in the differences array.
var differences = properties.differences;
for (charcode in differences) {
encoding[charcode] = differences[charcode];
}
var glyphsUnicodeMap = getGlyphsUnicode();
for (charcode in encoding) {
// a) Map the character code to a character name.
var glyphName = encoding[charcode];
// b) Look up the character name in the Adobe Glyph List (see the
// Bibliography) to obtain the corresponding Unicode value.
if (glyphName === '') {
continue;
} else if (glyphsUnicodeMap[glyphName] === undefined) {
// (undocumented) c) Few heuristics to recognize unknown glyphs
// NOTE: Adobe Reader does not do this step, but OSX Preview does
var code = 0;
switch (glyphName[0]) {
case 'G': // Gxx glyph
if (glyphName.length === 3) {
code = parseInt(glyphName.substr(1), 16);
}
break;
case 'g': // g00xx glyph
if (glyphName.length === 5) {
code = parseInt(glyphName.substr(1), 16);
}
break;
case 'C': // Cddd glyph
case 'c': // cddd glyph
if (glyphName.length >= 3) {
code = +glyphName.substr(1);
}
break;
default:
// 'uniXXXX'/'uXXXX{XX}' glyphs
var unicode = getUnicodeForGlyph(glyphName, glyphsUnicodeMap);
if (unicode !== -1) {
code = unicode;
}
}
if (code) {
// If |baseEncodingName| is one the predefined encodings,
// and |code| equals |charcode|, using the glyph defined in the
// baseEncoding seems to yield a better |toUnicode| mapping
// (fixes issue 5070).
if (baseEncodingName && code === +charcode) {
var baseEncoding = getEncoding(baseEncodingName);
if (baseEncoding && (glyphName = baseEncoding[charcode])) {
toUnicode[charcode] =
String.fromCharCode(glyphsUnicodeMap[glyphName]);
continue;
}
}
toUnicode[charcode] = String.fromCharCode(code);
}
continue;
}
toUnicode[charcode] =
String.fromCharCode(glyphsUnicodeMap[glyphName]);
}
return Promise.resolve(new ToUnicodeMap(toUnicode));
}
// If the font is a composite font that uses one of the predefined CMaps
// listed in Table 118 (except Identity–H and Identity–V) or whose
// descendant CIDFont uses the Adobe-GB1, Adobe-CNS1, Adobe-Japan1, or
// Adobe-Korea1 character collection:
if (properties.composite && (
(properties.cMap.builtInCMap &&
!(properties.cMap instanceof IdentityCMap)) ||
(properties.cidSystemInfo.registry === 'Adobe' &&
(properties.cidSystemInfo.ordering === 'GB1' ||
properties.cidSystemInfo.ordering === 'CNS1' ||
properties.cidSystemInfo.ordering === 'Japan1' ||
properties.cidSystemInfo.ordering === 'Korea1')))) {
// Then:
// a) Map the character code to a character identifier (CID) according
// to the font’s CMap.
// b) Obtain the registry and ordering of the character collection used
// by the font’s CMap (for example, Adobe and Japan1) from its
// CIDSystemInfo dictionary.
var registry = properties.cidSystemInfo.registry;
var ordering = properties.cidSystemInfo.ordering;
// c) Construct a second CMap name by concatenating the registry and
// ordering obtained in step (b) in the format registry–ordering–UCS2
// (for example, Adobe–Japan1–UCS2).
var ucs2CMapName = new Name(registry + '-' + ordering + '-UCS2');
// d) Obtain the CMap with the name constructed in step (c) (available
// from the ASN Web site; see the Bibliography).
return CMapFactory.create(ucs2CMapName, this.options.cMapOptions,
null).then(
function (ucs2CMap) {
var cMap = properties.cMap;
toUnicode = [];
cMap.forEach(function(charcode, cid) {
assert(cid <= 0xffff, 'Max size of CID is 65,535');
// e) Map the CID obtained in step (a) according to the CMap
// obtained in step (d), producing a Unicode value.
var ucs2 = ucs2CMap.lookup(cid);
if (ucs2) {
toUnicode[charcode] =
String.fromCharCode((ucs2.charCodeAt(0) << 8) +
ucs2.charCodeAt(1));
}
});
return new ToUnicodeMap(toUnicode);
});
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}
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// The viewer's choice, just use an identity map.
return Promise.resolve(new IdentityToUnicodeMap(properties.firstChar,
properties.lastChar));
},
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readToUnicode: function PartialEvaluator_readToUnicode(toUnicode) {
var cmapObj = toUnicode;
if (isName(cmapObj)) {
return CMapFactory.create(cmapObj, this.options.cMapOptions, null).then(
function (cmap) {
if (cmap instanceof IdentityCMap) {
return new IdentityToUnicodeMap(0, 0xFFFF);
}
return new ToUnicodeMap(cmap.getMap());
});
} else if (isStream(cmapObj)) {
return CMapFactory.create(cmapObj, this.options.cMapOptions, null).then(
function (cmap) {
if (cmap instanceof IdentityCMap) {
return new IdentityToUnicodeMap(0, 0xFFFF);
}
var map = new Array(cmap.length);
// Convert UTF-16BE
// NOTE: cmap can be a sparse array, so use forEach instead of for(;;)
// to iterate over all keys.
cmap.forEach(function(charCode, token) {
var str = [];
for (var k = 0; k < token.length; k += 2) {
var w1 = (token.charCodeAt(k) << 8) | token.charCodeAt(k + 1);
if ((w1 & 0xF800) !== 0xD800) { // w1 < 0xD800 || w1 > 0xDFFF
str.push(w1);
continue;
}
k += 2;
var w2 = (token.charCodeAt(k) << 8) | token.charCodeAt(k + 1);
str.push(((w1 & 0x3ff) << 10) + (w2 & 0x3ff) + 0x10000);
}
map[charCode] = String.fromCharCode.apply(String, str);
});
return new ToUnicodeMap(map);
});
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}
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return Promise.resolve(null);
},
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readCidToGidMap: function PartialEvaluator_readCidToGidMap(cidToGidStream) {
// Extract the encoding from the CIDToGIDMap
var glyphsData = cidToGidStream.getBytes();
// Set encoding 0 to later verify the font has an encoding
var result = [];
for (var j = 0, jj = glyphsData.length; j < jj; j++) {
var glyphID = (glyphsData[j++] << 8) | glyphsData[j];
if (glyphID === 0) {
continue;
}
var code = j >> 1;
result[code] = glyphID;
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}
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return result;
},
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extractWidths: function PartialEvaluator_extractWidths(dict, xref,
descriptor,
properties) {
var glyphsWidths = [];
var defaultWidth = 0;
var glyphsVMetrics = [];
var defaultVMetrics;
var i, ii, j, jj, start, code, widths;
if (properties.composite) {
defaultWidth = dict.get('DW') || 1000;
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widths = dict.get('W');
if (widths) {
for (i = 0, ii = widths.length; i < ii; i++) {
start = widths[i++];
code = xref.fetchIfRef(widths[i]);
if (isArray(code)) {
for (j = 0, jj = code.length; j < jj; j++) {
glyphsWidths[start++] = code[j];
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}
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} else {
var width = widths[++i];
for (j = start; j <= code; j++) {
glyphsWidths[j] = width;
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}
}
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}
}
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if (properties.vertical) {
var vmetrics = (dict.get('DW2') || [880, -1000]);
defaultVMetrics = [vmetrics[1], defaultWidth * 0.5, vmetrics[0]];
vmetrics = dict.get('W2');
if (vmetrics) {
for (i = 0, ii = vmetrics.length; i < ii; i++) {
start = vmetrics[i++];
code = xref.fetchIfRef(vmetrics[i]);
if (isArray(code)) {
for (j = 0, jj = code.length; j < jj; j++) {
glyphsVMetrics[start++] = [code[j++], code[j++], code[j]];
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}
} else {
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var vmetric = [vmetrics[++i], vmetrics[++i], vmetrics[++i]];
for (j = start; j <= code; j++) {
glyphsVMetrics[j] = vmetric;
}
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}
}
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}
}
} else {
var firstChar = properties.firstChar;
widths = dict.get('Widths');
if (widths) {
j = firstChar;
for (i = 0, ii = widths.length; i < ii; i++) {
glyphsWidths[j++] = widths[i];
}
defaultWidth = (parseFloat(descriptor.get('MissingWidth')) || 0);
} else {
// Trying get the BaseFont metrics (see comment above).
var baseFontName = dict.get('BaseFont');
if (isName(baseFontName)) {
var metrics = this.getBaseFontMetrics(baseFontName.name);
glyphsWidths = this.buildCharCodeToWidth(metrics.widths,
properties);
defaultWidth = metrics.defaultWidth;
}
}
}
// Heuristic: detection of monospace font by checking all non-zero widths
var isMonospace = true;
var firstWidth = defaultWidth;
for (var glyph in glyphsWidths) {
var glyphWidth = glyphsWidths[glyph];
if (!glyphWidth) {
continue;
}
if (!firstWidth) {
firstWidth = glyphWidth;
continue;
}
if (firstWidth !== glyphWidth) {
isMonospace = false;
break;
}
}
if (isMonospace) {
properties.flags |= FontFlags.FixedPitch;
}
properties.defaultWidth = defaultWidth;
properties.widths = glyphsWidths;
properties.defaultVMetrics = defaultVMetrics;
properties.vmetrics = glyphsVMetrics;
},
isSerifFont: function PartialEvaluator_isSerifFont(baseFontName) {
// Simulating descriptor flags attribute
var fontNameWoStyle = baseFontName.split('-')[0];
return (fontNameWoStyle in getSerifFonts()) ||
(fontNameWoStyle.search(/serif/gi) !== -1);
},
getBaseFontMetrics: function PartialEvaluator_getBaseFontMetrics(name) {
var defaultWidth = 0;
var widths = [];
var monospace = false;
var stdFontMap = getStdFontMap();
var lookupName = (stdFontMap[name] || name);
var Metrics = getMetrics();
if (!(lookupName in Metrics)) {
// Use default fonts for looking up font metrics if the passed
// font is not a base font
if (this.isSerifFont(name)) {
lookupName = 'Times-Roman';
} else {
lookupName = 'Helvetica';
}
}
var glyphWidths = Metrics[lookupName];
if (isNum(glyphWidths)) {
defaultWidth = glyphWidths;
monospace = true;
} else {
widths = glyphWidths(); // expand lazy widths array
}
return {
defaultWidth: defaultWidth,
monospace: monospace,
widths: widths
};
},
buildCharCodeToWidth:
function PartialEvaluator_bulildCharCodeToWidth(widthsByGlyphName,
properties) {
var widths = Object.create(null);
var differences = properties.differences;
var encoding = properties.defaultEncoding;
for (var charCode = 0; charCode < 256; charCode++) {
if (charCode in differences &&
widthsByGlyphName[differences[charCode]]) {
widths[charCode] = widthsByGlyphName[differences[charCode]];
continue;
}
if (charCode in encoding && widthsByGlyphName[encoding[charCode]]) {
widths[charCode] = widthsByGlyphName[encoding[charCode]];
continue;
}
}
return widths;
},
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preEvaluateFont: function PartialEvaluator_preEvaluateFont(dict, xref) {
var baseDict = dict;
var type = dict.get('Subtype');
assert(isName(type), 'invalid font Subtype');
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var composite = false;
var uint8array;
if (type.name === 'Type0') {
// If font is a composite
// - get the descendant font
// - set the type according to the descendant font
// - get the FontDescriptor from the descendant font
var df = dict.get('DescendantFonts');
if (!df) {
error('Descendant fonts are not specified');
}
dict = (isArray(df) ? xref.fetchIfRef(df[0]) : df);
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type = dict.get('Subtype');
assert(isName(type), 'invalid font Subtype');
composite = true;
}
var descriptor = dict.get('FontDescriptor');
if (descriptor) {
var hash = new MurmurHash3_64();
var encoding = baseDict.getRaw('Encoding');
if (isName(encoding)) {
hash.update(encoding.name);
} else if (isRef(encoding)) {
hash.update(encoding.num + '_' + encoding.gen);
} else if (isDict(encoding)) {
var keys = encoding.getKeys();
for (var i = 0, ii = keys.length; i < ii; i++) {
var entry = encoding.getRaw(keys[i]);
if (isName(entry)) {
hash.update(entry.name);
} else if (isRef(entry)) {
hash.update(entry.num + '_' + entry.gen);
} else if (isArray(entry)) { // 'Differences' entry.
// Ideally we should check the contents of the array, but to avoid
// parsing it here and then again in |extractDataStructures|,
// we only use the array length for now (fixes bug1157493.pdf).
hash.update(entry.length.toString());
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}
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}
}
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var toUnicode = dict.get('ToUnicode') || baseDict.get('ToUnicode');
if (isStream(toUnicode)) {
var stream = toUnicode.str || toUnicode;
uint8array = stream.buffer ?
new Uint8Array(stream.buffer.buffer, 0, stream.bufferLength) :
new Uint8Array(stream.bytes.buffer,
stream.start, stream.end - stream.start);
hash.update(uint8array);
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} else if (isName(toUnicode)) {
hash.update(toUnicode.name);
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}
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var widths = dict.get('Widths') || baseDict.get('Widths');
if (widths) {
uint8array = new Uint8Array(new Uint32Array(widths).buffer);
hash.update(uint8array);
}
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}
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return {
descriptor: descriptor,
dict: dict,
baseDict: baseDict,
composite: composite,
type: type.name,
hash: hash ? hash.hexdigest() : ''
};
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},
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translateFont: function PartialEvaluator_translateFont(preEvaluatedFont,
xref) {
var baseDict = preEvaluatedFont.baseDict;
var dict = preEvaluatedFont.dict;
var composite = preEvaluatedFont.composite;
var descriptor = preEvaluatedFont.descriptor;
var type = preEvaluatedFont.type;
var maxCharIndex = (composite ? 0xFFFF : 0xFF);
var cMapOptions = this.options.cMapOptions;
var properties;
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if (!descriptor) {
if (type === 'Type3') {
// FontDescriptor is only required for Type3 fonts when the document
// is a tagged pdf. Create a barbebones one to get by.
descriptor = new Dict(null);
descriptor.set('FontName', Name.get(type));
descriptor.set('FontBBox', dict.get('FontBBox'));
} else {
// Before PDF 1.5 if the font was one of the base 14 fonts, having a
// FontDescriptor was not required.
// This case is here for compatibility.
var baseFontName = dict.get('BaseFont');
if (!isName(baseFontName)) {
error('Base font is not specified');
}
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// Using base font name as a font name.
baseFontName = baseFontName.name.replace(/[,_]/g, '-');
var metrics = this.getBaseFontMetrics(baseFontName);
// Simulating descriptor flags attribute
var fontNameWoStyle = baseFontName.split('-')[0];
var flags =
(this.isSerifFont(fontNameWoStyle) ? FontFlags.Serif : 0) |
(metrics.monospace ? FontFlags.FixedPitch : 0) |
(getSymbolsFonts()[fontNameWoStyle] ? FontFlags.Symbolic :
FontFlags.Nonsymbolic);
properties = {
type: type,
name: baseFontName,
widths: metrics.widths,
defaultWidth: metrics.defaultWidth,
flags: flags,
firstChar: 0,
lastChar: maxCharIndex
};
return this.extractDataStructures(dict, dict, xref, properties).then(
function (properties) {
properties.widths = this.buildCharCodeToWidth(metrics.widths,
properties);
return new Font(baseFontName, null, properties);
}.bind(this));
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}
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}
// According to the spec if 'FontDescriptor' is declared, 'FirstChar',
// 'LastChar' and 'Widths' should exist too, but some PDF encoders seem
// to ignore this rule when a variant of a standart font is used.
// TODO Fill the width array depending on which of the base font this is
// a variant.
var firstChar = (dict.get('FirstChar') || 0);
var lastChar = (dict.get('LastChar') || maxCharIndex);
var fontName = descriptor.get('FontName');
var baseFont = dict.get('BaseFont');
// Some bad PDFs have a string as the font name.
if (isString(fontName)) {
fontName = Name.get(fontName);
}
if (isString(baseFont)) {
baseFont = Name.get(baseFont);
}
if (type !== 'Type3') {
var fontNameStr = fontName && fontName.name;
var baseFontStr = baseFont && baseFont.name;
if (fontNameStr !== baseFontStr) {
info('The FontDescriptor\'s FontName is "' + fontNameStr +
'" but should be the same as the Font\'s BaseFont "' +
baseFontStr + '"');
// Workaround for cases where e.g. fontNameStr = 'Arial' and
// baseFontStr = 'Arial,Bold' (needed when no font file is embedded).
if (fontNameStr && baseFontStr &&
baseFontStr.indexOf(fontNameStr) === 0) {
fontName = baseFont;
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}
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}
}
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fontName = (fontName || baseFont);
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assert(isName(fontName), 'invalid font name');
var fontFile = descriptor.get('FontFile', 'FontFile2', 'FontFile3');
if (fontFile) {
if (fontFile.dict) {
var subtype = fontFile.dict.get('Subtype');
if (subtype) {
subtype = subtype.name;
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}
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var length1 = fontFile.dict.get('Length1');
var length2 = fontFile.dict.get('Length2');
var length3 = fontFile.dict.get('Length3');
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}
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}
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properties = {
type: type,
name: fontName.name,
subtype: subtype,
file: fontFile,
length1: length1,
length2: length2,
length3: length3,
loadedName: baseDict.loadedName,
composite: composite,
wideChars: composite,
fixedPitch: false,
fontMatrix: (dict.get('FontMatrix') || FONT_IDENTITY_MATRIX),
firstChar: firstChar || 0,
lastChar: (lastChar || maxCharIndex),
bbox: descriptor.get('FontBBox'),
ascent: descriptor.get('Ascent'),
descent: descriptor.get('Descent'),
xHeight: descriptor.get('XHeight'),
capHeight: descriptor.get('CapHeight'),
flags: descriptor.get('Flags'),
italicAngle: descriptor.get('ItalicAngle'),
coded: false
};
var cMapPromise;
if (composite) {
var cidEncoding = baseDict.get('Encoding');
if (isName(cidEncoding)) {
properties.cidEncoding = cidEncoding.name;
}
cMapPromise = CMapFactory.create(cidEncoding, cMapOptions, null).then(
function (cMap) {
properties.cMap = cMap;
properties.vertical = properties.cMap.vertical;
});
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} else {
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cMapPromise = Promise.resolve(undefined);
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}
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return cMapPromise.then(function () {
return this.extractDataStructures(dict, baseDict, xref, properties);
}.bind(this)).then(function (properties) {
this.extractWidths(dict, xref, descriptor, properties);
if (type === 'Type3') {
properties.isType3Font = true;
}
return new Font(fontName.name, fontFile, properties);
}.bind(this));
}
};
return PartialEvaluator;
})();
var TranslatedFont = (function TranslatedFontClosure() {
function TranslatedFont(loadedName, font, dict) {
this.loadedName = loadedName;
this.font = font;
this.dict = dict;
this.type3Loaded = null;
this.sent = false;
}
TranslatedFont.prototype = {
send: function (handler) {
if (this.sent) {
return;
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}
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var fontData = this.font.exportData();
handler.send('commonobj', [
this.loadedName,
'Font',
fontData
]);
this.sent = true;
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},
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loadType3Data: function (evaluator, resources, parentOperatorList, task) {
assert(this.font.isType3Font);
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if (this.type3Loaded) {
return this.type3Loaded;
}
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var translatedFont = this.font;
var loadCharProcsPromise = Promise.resolve();
var charProcs = this.dict.get('CharProcs');
var fontResources = this.dict.get('Resources') || resources;
var charProcKeys = charProcs.getKeys();
var charProcOperatorList = Object.create(null);
for (var i = 0, n = charProcKeys.length; i < n; ++i) {
loadCharProcsPromise = loadCharProcsPromise.then(function (key) {
var glyphStream = charProcs.get(key);
var operatorList = new OperatorList();
return evaluator.getOperatorList(glyphStream, task, fontResources,
operatorList).then(function () {
charProcOperatorList[key] = operatorList.getIR();
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// Add the dependencies to the parent operator list so they are
// resolved before sub operator list is executed synchronously.
parentOperatorList.addDependencies(operatorList.dependencies);
}, function (reason) {
warn('Type3 font resource \"' + key + '\" is not available');
var operatorList = new OperatorList();
charProcOperatorList[key] = operatorList.getIR();
});
}.bind(this, charProcKeys[i]));
}
this.type3Loaded = loadCharProcsPromise.then(function () {
translatedFont.charProcOperatorList = charProcOperatorList;
});
return this.type3Loaded;
}
};
return TranslatedFont;
})();
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var OperatorList = (function OperatorListClosure() {
var CHUNK_SIZE = 1000;
var CHUNK_SIZE_ABOUT = CHUNK_SIZE - 5; // close to chunk size
function getTransfers(queue) {
var transfers = [];
var fnArray = queue.fnArray, argsArray = queue.argsArray;
for (var i = 0, ii = queue.length; i < ii; i++) {
switch (fnArray[i]) {
case OPS.paintInlineImageXObject:
case OPS.paintInlineImageXObjectGroup:
case OPS.paintImageMaskXObject:
var arg = argsArray[i][0]; // first param in imgData
if (!arg.cached) {
transfers.push(arg.data.buffer);
}
break;
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}
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}
return transfers;
}
function OperatorList(intent, messageHandler, pageIndex) {
this.messageHandler = messageHandler;
this.fnArray = [];
this.argsArray = [];
this.dependencies = Object.create(null);
this._totalLength = 0;
this.pageIndex = pageIndex;
this.intent = intent;
}
OperatorList.prototype = {
get length() {
return this.argsArray.length;
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},
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/**
* @returns {number} The total length of the entire operator list,
* since `this.length === 0` after flushing.
*/
get totalLength() {
return (this._totalLength + this.length);
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},
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addOp: function(fn, args) {
this.fnArray.push(fn);
this.argsArray.push(args);
if (this.messageHandler) {
if (this.fnArray.length >= CHUNK_SIZE) {
this.flush();
} else if (this.fnArray.length >= CHUNK_SIZE_ABOUT &&
(fn === OPS.restore || fn === OPS.endText)) {
// heuristic to flush on boundary of restore or endText
this.flush();
}
}
},
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addDependency: function(dependency) {
if (dependency in this.dependencies) {
return;
}
this.dependencies[dependency] = true;
this.addOp(OPS.dependency, [dependency]);
},
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addDependencies: function(dependencies) {
for (var key in dependencies) {
this.addDependency(key);
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}
},
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addOpList: function(opList) {
Util.extendObj(this.dependencies, opList.dependencies);
for (var i = 0, ii = opList.length; i < ii; i++) {
this.addOp(opList.fnArray[i], opList.argsArray[i]);
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}
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},
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getIR: function() {
return {
fnArray: this.fnArray,
argsArray: this.argsArray,
length: this.length
};
},
flush: function(lastChunk) {
if (this.intent !== 'oplist') {
new QueueOptimizer().optimize(this);
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}
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var transfers = getTransfers(this);
var length = this.length;
this._totalLength += length;
this.messageHandler.send('RenderPageChunk', {
operatorList: {
fnArray: this.fnArray,
argsArray: this.argsArray,
lastChunk: lastChunk,
length: length
},
pageIndex: this.pageIndex,
intent: this.intent
}, transfers);
this.dependencies = Object.create(null);
this.fnArray.length = 0;
this.argsArray.length = 0;
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}
};
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return OperatorList;
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})();
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var StateManager = (function StateManagerClosure() {
function StateManager(initialState) {
this.state = initialState;
this.stateStack = [];
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}
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StateManager.prototype = {
save: function () {
var old = this.state;
this.stateStack.push(this.state);
this.state = old.clone();
},
restore: function () {
var prev = this.stateStack.pop();
if (prev) {
this.state = prev;
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}
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},
transform: function (args) {
this.state.ctm = Util.transform(this.state.ctm, args);
}
};
return StateManager;
})();
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var TextState = (function TextStateClosure() {
function TextState() {
this.ctm = new Float32Array(IDENTITY_MATRIX);
this.fontSize = 0;
this.font = null;
this.fontMatrix = FONT_IDENTITY_MATRIX;
this.textMatrix = IDENTITY_MATRIX.slice();
this.textLineMatrix = IDENTITY_MATRIX.slice();
this.charSpacing = 0;
this.wordSpacing = 0;
this.leading = 0;
this.textHScale = 1;
this.textRise = 0;
}
TextState.prototype = {
setTextMatrix: function TextState_setTextMatrix(a, b, c, d, e, f) {
var m = this.textMatrix;
m[0] = a; m[1] = b; m[2] = c; m[3] = d; m[4] = e; m[5] = f;
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},
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setTextLineMatrix: function TextState_setTextMatrix(a, b, c, d, e, f) {
var m = this.textLineMatrix;
m[0] = a; m[1] = b; m[2] = c; m[3] = d; m[4] = e; m[5] = f;
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},
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translateTextMatrix: function TextState_translateTextMatrix(x, y) {
var m = this.textMatrix;
m[4] = m[0] * x + m[2] * y + m[4];
m[5] = m[1] * x + m[3] * y + m[5];
},
translateTextLineMatrix: function TextState_translateTextMatrix(x, y) {
var m = this.textLineMatrix;
m[4] = m[0] * x + m[2] * y + m[4];
m[5] = m[1] * x + m[3] * y + m[5];
},
calcRenderMatrix: function TextState_calcRendeMatrix(ctm) {
// 9.4.4 Text Space Details
var tsm = [this.fontSize * this.textHScale, 0,
0, this.fontSize,
0, this.textRise];
return Util.transform(ctm, Util.transform(this.textMatrix, tsm));
},
carriageReturn: function TextState_carriageReturn() {
this.translateTextLineMatrix(0, -this.leading);
this.textMatrix = this.textLineMatrix.slice();
},
clone: function TextState_clone() {
var clone = Object.create(this);
clone.textMatrix = this.textMatrix.slice();
clone.textLineMatrix = this.textLineMatrix.slice();
clone.fontMatrix = this.fontMatrix.slice();
return clone;
}
};
return TextState;
})();
var EvalState = (function EvalStateClosure() {
function EvalState() {
this.ctm = new Float32Array(IDENTITY_MATRIX);
this.font = null;
this.textRenderingMode = TextRenderingMode.FILL;
this.fillColorSpace = ColorSpace.singletons.gray;
this.strokeColorSpace = ColorSpace.singletons.gray;
}
EvalState.prototype = {
clone: function CanvasExtraState_clone() {
return Object.create(this);
},
};
return EvalState;
})();
var EvaluatorPreprocessor = (function EvaluatorPreprocessorClosure() {
// Specifies properties for each command
//
// If variableArgs === true: [0, `numArgs`] expected
// If variableArgs === false: exactly `numArgs` expected
var getOPMap = getLookupTableFactory(function (t) {
// Graphic state
t['w'] = { id: OPS.setLineWidth, numArgs: 1, variableArgs: false };
t['J'] = { id: OPS.setLineCap, numArgs: 1, variableArgs: false };
t['j'] = { id: OPS.setLineJoin, numArgs: 1, variableArgs: false };
t['M'] = { id: OPS.setMiterLimit, numArgs: 1, variableArgs: false };
t['d'] = { id: OPS.setDash, numArgs: 2, variableArgs: false };
t['ri'] = { id: OPS.setRenderingIntent, numArgs: 1, variableArgs: false };
t['i'] = { id: OPS.setFlatness, numArgs: 1, variableArgs: false };
t['gs'] = { id: OPS.setGState, numArgs: 1, variableArgs: false };
t['q'] = { id: OPS.save, numArgs: 0, variableArgs: false };
t['Q'] = { id: OPS.restore, numArgs: 0, variableArgs: false };
t['cm'] = { id: OPS.transform, numArgs: 6, variableArgs: false };
// Path
t['m'] = { id: OPS.moveTo, numArgs: 2, variableArgs: false };
t['l'] = { id: OPS.lineTo, numArgs: 2, variableArgs: false };
t['c'] = { id: OPS.curveTo, numArgs: 6, variableArgs: false };
t['v'] = { id: OPS.curveTo2, numArgs: 4, variableArgs: false };
t['y'] = { id: OPS.curveTo3, numArgs: 4, variableArgs: false };
t['h'] = { id: OPS.closePath, numArgs: 0, variableArgs: false };
t['re'] = { id: OPS.rectangle, numArgs: 4, variableArgs: false };
t['S'] = { id: OPS.stroke, numArgs: 0, variableArgs: false };
t['s'] = { id: OPS.closeStroke, numArgs: 0, variableArgs: false };
t['f'] = { id: OPS.fill, numArgs: 0, variableArgs: false };
t['F'] = { id: OPS.fill, numArgs: 0, variableArgs: false };
t['f*'] = { id: OPS.eoFill, numArgs: 0, variableArgs: false };
t['B'] = { id: OPS.fillStroke, numArgs: 0, variableArgs: false };
t['B*'] = { id: OPS.eoFillStroke, numArgs: 0, variableArgs: false };
t['b'] = { id: OPS.closeFillStroke, numArgs: 0, variableArgs: false };
t['b*'] = { id: OPS.closeEOFillStroke, numArgs: 0, variableArgs: false };
t['n'] = { id: OPS.endPath, numArgs: 0, variableArgs: false };
// Clipping
t['W'] = { id: OPS.clip, numArgs: 0, variableArgs: false };
t['W*'] = { id: OPS.eoClip, numArgs: 0, variableArgs: false };
// Text
t['BT'] = { id: OPS.beginText, numArgs: 0, variableArgs: false };
t['ET'] = { id: OPS.endText, numArgs: 0, variableArgs: false };
t['Tc'] = { id: OPS.setCharSpacing, numArgs: 1, variableArgs: false };
t['Tw'] = { id: OPS.setWordSpacing, numArgs: 1, variableArgs: false };
t['Tz'] = { id: OPS.setHScale, numArgs: 1, variableArgs: false };
t['TL'] = { id: OPS.setLeading, numArgs: 1, variableArgs: false };
t['Tf'] = { id: OPS.setFont, numArgs: 2, variableArgs: false };
t['Tr'] = { id: OPS.setTextRenderingMode, numArgs: 1, variableArgs: false };
t['Ts'] = { id: OPS.setTextRise, numArgs: 1, variableArgs: false };
t['Td'] = { id: OPS.moveText, numArgs: 2, variableArgs: false };
t['TD'] = { id: OPS.setLeadingMoveText, numArgs: 2, variableArgs: false };
t['Tm'] = { id: OPS.setTextMatrix, numArgs: 6, variableArgs: false };
t['T*'] = { id: OPS.nextLine, numArgs: 0, variableArgs: false };
t['Tj'] = { id: OPS.showText, numArgs: 1, variableArgs: false };
t['TJ'] = { id: OPS.showSpacedText, numArgs: 1, variableArgs: false };
t['\''] = { id: OPS.nextLineShowText, numArgs: 1, variableArgs: false };
t['"'] = { id: OPS.nextLineSetSpacingShowText, numArgs: 3,
variableArgs: false };
// Type3 fonts
t['d0'] = { id: OPS.setCharWidth, numArgs: 2, variableArgs: false };
t['d1'] = { id: OPS.setCharWidthAndBounds, numArgs: 6,
variableArgs: false };
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// Color
t['CS'] = { id: OPS.setStrokeColorSpace, numArgs: 1, variableArgs: false };
t['cs'] = { id: OPS.setFillColorSpace, numArgs: 1, variableArgs: false };
t['SC'] = { id: OPS.setStrokeColor, numArgs: 4, variableArgs: true };
t['SCN'] = { id: OPS.setStrokeColorN, numArgs: 33, variableArgs: true };
t['sc'] = { id: OPS.setFillColor, numArgs: 4, variableArgs: true };
t['scn'] = { id: OPS.setFillColorN, numArgs: 33, variableArgs: true };
t['G'] = { id: OPS.setStrokeGray, numArgs: 1, variableArgs: false };
t['g'] = { id: OPS.setFillGray, numArgs: 1, variableArgs: false };
t['RG'] = { id: OPS.setStrokeRGBColor, numArgs: 3, variableArgs: false };
t['rg'] = { id: OPS.setFillRGBColor, numArgs: 3, variableArgs: false };
t['K'] = { id: OPS.setStrokeCMYKColor, numArgs: 4, variableArgs: false };
t['k'] = { id: OPS.setFillCMYKColor, numArgs: 4, variableArgs: false };
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// Shading
t['sh'] = { id: OPS.shadingFill, numArgs: 1, variableArgs: false };
// Images
t['BI'] = { id: OPS.beginInlineImage, numArgs: 0, variableArgs: false };
t['ID'] = { id: OPS.beginImageData, numArgs: 0, variableArgs: false };
t['EI'] = { id: OPS.endInlineImage, numArgs: 1, variableArgs: false };
// XObjects
t['Do'] = { id: OPS.paintXObject, numArgs: 1, variableArgs: false };
t['MP'] = { id: OPS.markPoint, numArgs: 1, variableArgs: false };
t['DP'] = { id: OPS.markPointProps, numArgs: 2, variableArgs: false };
t['BMC'] = { id: OPS.beginMarkedContent, numArgs: 1, variableArgs: false };
t['BDC'] = { id: OPS.beginMarkedContentProps, numArgs: 2,
variableArgs: false };
t['EMC'] = { id: OPS.endMarkedContent, numArgs: 0, variableArgs: false };
// Compatibility
t['BX'] = { id: OPS.beginCompat, numArgs: 0, variableArgs: false };
t['EX'] = { id: OPS.endCompat, numArgs: 0, variableArgs: false };
// (reserved partial commands for the lexer)
t['BM'] = null;
t['BD'] = null;
t['true'] = null;
t['fa'] = null;
t['fal'] = null;
t['fals'] = null;
t['false'] = null;
t['nu'] = null;
t['nul'] = null;
t['null'] = null;
});
function EvaluatorPreprocessor(stream, xref, stateManager) {
this.opMap = getOPMap();
// TODO(mduan): pass array of knownCommands rather than this.opMap
// dictionary
this.parser = new Parser(new Lexer(stream, this.opMap), false, xref);
this.stateManager = stateManager;
this.nonProcessedArgs = [];
}
EvaluatorPreprocessor.prototype = {
get savedStatesDepth() {
return this.stateManager.stateStack.length;
},
// |operation| is an object with two fields:
//
// - |fn| is an out param.
//
// - |args| is an inout param. On entry, it should have one of two values.
//
// - An empty array. This indicates that the caller is providing the
// array in which the args will be stored in. The caller should use
// this value if it can reuse a single array for each call to read().
//
// - |null|. This indicates that the caller needs this function to create
// the array in which any args are stored in. If there are zero args,
// this function will leave |operation.args| as |null| (thus avoiding
// allocations that would occur if we used an empty array to represent
// zero arguments). Otherwise, it will replace |null| with a new array
// containing the arguments. The caller should use this value if it
// cannot reuse an array for each call to read().
//
// These two modes are present because this function is very hot and so
// avoiding allocations where possible is worthwhile.
//
read: function EvaluatorPreprocessor_read(operation) {
var args = operation.args;
while (true) {
var obj = this.parser.getObj();
if (isCmd(obj)) {
var cmd = obj.cmd;
// Check that the command is valid
var opSpec = this.opMap[cmd];
if (!opSpec) {
warn('Unknown command "' + cmd + '"');
continue;
}
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var fn = opSpec.id;
var numArgs = opSpec.numArgs;
var argsLength = args !== null ? args.length : 0;
if (!opSpec.variableArgs) {
// Postscript commands can be nested, e.g. /F2 /GS2 gs 5.711 Tf
if (argsLength !== numArgs) {
var nonProcessedArgs = this.nonProcessedArgs;
while (argsLength > numArgs) {
nonProcessedArgs.push(args.shift());
argsLength--;
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}
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while (argsLength < numArgs && nonProcessedArgs.length !== 0) {
if (!args) {
args = [];
}
args.unshift(nonProcessedArgs.pop());
argsLength++;
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}
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}
if (argsLength < numArgs) {
// If we receive too few args, it's not possible to possible
// to execute the command, so skip the command
info('Command ' + fn + ': because expected ' +
numArgs + ' args, but received ' + argsLength +
' args; skipping');
args = null;
continue;
}
} else if (argsLength > numArgs) {
info('Command ' + fn + ': expected [0,' + numArgs +
'] args, but received ' + argsLength + ' args');
}
// TODO figure out how to type-check vararg functions
this.preprocessCommand(fn, args);
operation.fn = fn;
operation.args = args;
return true;
} else {
if (isEOF(obj)) {
return false; // no more commands
}
// argument
if (obj !== null) {
if (!args) {
args = [];
}
args.push(obj);
assert(args.length <= 33, 'Too many arguments');
}
}
}
},
preprocessCommand:
function EvaluatorPreprocessor_preprocessCommand(fn, args) {
switch (fn | 0) {
case OPS.save:
this.stateManager.save();
break;
case OPS.restore:
this.stateManager.restore();
break;
case OPS.transform:
this.stateManager.transform(args);
break;
}
}
};
return EvaluatorPreprocessor;
})();
var QueueOptimizer = (function QueueOptimizerClosure() {
function addState(parentState, pattern, fn) {
var state = parentState;
for (var i = 0, ii = pattern.length - 1; i < ii; i++) {
var item = pattern[i];
state = (state[item] || (state[item] = []));
}
state[pattern[pattern.length - 1]] = fn;
}
function handlePaintSolidColorImageMask(iFirstSave, count, fnArray,
argsArray) {
// Handles special case of mainly LaTeX documents which use image masks to
// draw lines with the current fill style.
// 'count' groups of (save, transform, paintImageMaskXObject, restore)+
// have been found at iFirstSave.
var iFirstPIMXO = iFirstSave + 2;
for (var i = 0; i < count; i++) {
var arg = argsArray[iFirstPIMXO + 4 * i];
var imageMask = arg.length === 1 && arg[0];
if (imageMask && imageMask.width === 1 && imageMask.height === 1 &&
(!imageMask.data.length ||
(imageMask.data.length === 1 && imageMask.data[0] === 0))) {
fnArray[iFirstPIMXO + 4 * i] = OPS.paintSolidColorImageMask;
continue;
}
break;
}
return count - i;
}
var InitialState = [];
// This replaces (save, transform, paintInlineImageXObject, restore)+
// sequences with one |paintInlineImageXObjectGroup| operation.
addState(InitialState,
[OPS.save, OPS.transform, OPS.paintInlineImageXObject, OPS.restore],
function foundInlineImageGroup(context) {
var MIN_IMAGES_IN_INLINE_IMAGES_BLOCK = 10;
var MAX_IMAGES_IN_INLINE_IMAGES_BLOCK = 200;
var MAX_WIDTH = 1000;
var IMAGE_PADDING = 1;
var fnArray = context.fnArray, argsArray = context.argsArray;
var curr = context.iCurr;
var iFirstSave = curr - 3;
var iFirstTransform = curr - 2;
var iFirstPIIXO = curr - 1;
// Look for the quartets.
var i = iFirstSave + 4;
var ii = fnArray.length;
while (i + 3 < ii) {
if (fnArray[i] !== OPS.save ||
fnArray[i + 1] !== OPS.transform ||
fnArray[i + 2] !== OPS.paintInlineImageXObject ||
fnArray[i + 3] !== OPS.restore) {
break; // ops don't match
}
i += 4;
}
// At this point, i is the index of the first op past the last valid
// quartet.
var count = Math.min((i - iFirstSave) / 4,
MAX_IMAGES_IN_INLINE_IMAGES_BLOCK);
if (count < MIN_IMAGES_IN_INLINE_IMAGES_BLOCK) {
return i;
}
// assuming that heights of those image is too small (~1 pixel)
// packing as much as possible by lines
var maxX = 0;
var map = [], maxLineHeight = 0;
var currentX = IMAGE_PADDING, currentY = IMAGE_PADDING;
var q;
for (q = 0; q < count; q++) {
var transform = argsArray[iFirstTransform + (q << 2)];
var img = argsArray[iFirstPIIXO + (q << 2)][0];
if (currentX + img.width > MAX_WIDTH) {
// starting new line
maxX = Math.max(maxX, currentX);
currentY += maxLineHeight + 2 * IMAGE_PADDING;
currentX = 0;
maxLineHeight = 0;
}
map.push({
transform: transform,
x: currentX, y: currentY,
w: img.width, h: img.height
});
currentX += img.width + 2 * IMAGE_PADDING;
maxLineHeight = Math.max(maxLineHeight, img.height);
}
var imgWidth = Math.max(maxX, currentX) + IMAGE_PADDING;
var imgHeight = currentY + maxLineHeight + IMAGE_PADDING;
var imgData = new Uint8Array(imgWidth * imgHeight * 4);
var imgRowSize = imgWidth << 2;
for (q = 0; q < count; q++) {
var data = argsArray[iFirstPIIXO + (q << 2)][0].data;
// Copy image by lines and extends pixels into padding.
var rowSize = map[q].w << 2;
var dataOffset = 0;
var offset = (map[q].x + map[q].y * imgWidth) << 2;
imgData.set(data.subarray(0, rowSize), offset - imgRowSize);
for (var k = 0, kk = map[q].h; k < kk; k++) {
imgData.set(data.subarray(dataOffset, dataOffset + rowSize), offset);
dataOffset += rowSize;
offset += imgRowSize;
}
imgData.set(data.subarray(dataOffset - rowSize, dataOffset), offset);
while (offset >= 0) {
data[offset - 4] = data[offset];
data[offset - 3] = data[offset + 1];
data[offset - 2] = data[offset + 2];
data[offset - 1] = data[offset + 3];
data[offset + rowSize] = data[offset + rowSize - 4];
data[offset + rowSize + 1] = data[offset + rowSize - 3];
data[offset + rowSize + 2] = data[offset + rowSize - 2];
data[offset + rowSize + 3] = data[offset + rowSize - 1];
offset -= imgRowSize;
}
}
// Replace queue items.
fnArray.splice(iFirstSave, count * 4, OPS.paintInlineImageXObjectGroup);
argsArray.splice(iFirstSave, count * 4,
[{ width: imgWidth, height: imgHeight, kind: ImageKind.RGBA_32BPP,
data: imgData }, map]);
return iFirstSave + 1;
});
// This replaces (save, transform, paintImageMaskXObject, restore)+
// sequences with one |paintImageMaskXObjectGroup| or one
// |paintImageMaskXObjectRepeat| operation.
addState(InitialState,
[OPS.save, OPS.transform, OPS.paintImageMaskXObject, OPS.restore],
function foundImageMaskGroup(context) {
var MIN_IMAGES_IN_MASKS_BLOCK = 10;
var MAX_IMAGES_IN_MASKS_BLOCK = 100;
var MAX_SAME_IMAGES_IN_MASKS_BLOCK = 1000;
var fnArray = context.fnArray, argsArray = context.argsArray;
var curr = context.iCurr;
var iFirstSave = curr - 3;
var iFirstTransform = curr - 2;
var iFirstPIMXO = curr - 1;
// Look for the quartets.
var i = iFirstSave + 4;
var ii = fnArray.length;
while (i + 3 < ii) {
if (fnArray[i] !== OPS.save ||
fnArray[i + 1] !== OPS.transform ||
fnArray[i + 2] !== OPS.paintImageMaskXObject ||
fnArray[i + 3] !== OPS.restore) {
break; // ops don't match
}
i += 4;
}
// At this point, i is the index of the first op past the last valid
// quartet.
var count = (i - iFirstSave) / 4;
count = handlePaintSolidColorImageMask(iFirstSave, count, fnArray,
argsArray);
if (count < MIN_IMAGES_IN_MASKS_BLOCK) {
return i;
}
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var q;
var isSameImage = false;
var iTransform, transformArgs;
var firstPIMXOArg0 = argsArray[iFirstPIMXO][0];
if (argsArray[iFirstTransform][1] === 0 &&
argsArray[iFirstTransform][2] === 0) {
isSameImage = true;
var firstTransformArg0 = argsArray[iFirstTransform][0];
var firstTransformArg3 = argsArray[iFirstTransform][3];
iTransform = iFirstTransform + 4;
var iPIMXO = iFirstPIMXO + 4;
for (q = 1; q < count; q++, iTransform += 4, iPIMXO += 4) {
transformArgs = argsArray[iTransform];
if (argsArray[iPIMXO][0] !== firstPIMXOArg0 ||
transformArgs[0] !== firstTransformArg0 ||
transformArgs[1] !== 0 ||
transformArgs[2] !== 0 ||
transformArgs[3] !== firstTransformArg3) {
if (q < MIN_IMAGES_IN_MASKS_BLOCK) {
isSameImage = false;
} else {
count = q;
}
break; // different image or transform
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}
}
}
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if (isSameImage) {
count = Math.min(count, MAX_SAME_IMAGES_IN_MASKS_BLOCK);
var positions = new Float32Array(count * 2);
iTransform = iFirstTransform;
for (q = 0; q < count; q++, iTransform += 4) {
transformArgs = argsArray[iTransform];
positions[(q << 1)] = transformArgs[4];
positions[(q << 1) + 1] = transformArgs[5];
}
// Replace queue items.
fnArray.splice(iFirstSave, count * 4, OPS.paintImageMaskXObjectRepeat);
argsArray.splice(iFirstSave, count * 4,
[firstPIMXOArg0, firstTransformArg0, firstTransformArg3, positions]);
} else {
count = Math.min(count, MAX_IMAGES_IN_MASKS_BLOCK);
var images = [];
for (q = 0; q < count; q++) {
transformArgs = argsArray[iFirstTransform + (q << 2)];
var maskParams = argsArray[iFirstPIMXO + (q << 2)][0];
images.push({ data: maskParams.data, width: maskParams.width,
height: maskParams.height,
transform: transformArgs });
}
// Replace queue items.
fnArray.splice(iFirstSave, count * 4, OPS.paintImageMaskXObjectGroup);
argsArray.splice(iFirstSave, count * 4, [images]);
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}
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return iFirstSave + 1;
});
// This replaces (save, transform, paintImageXObject, restore)+ sequences
// with one paintImageXObjectRepeat operation, if the |transform| and
// |paintImageXObjectRepeat| ops are appropriate.
addState(InitialState,
[OPS.save, OPS.transform, OPS.paintImageXObject, OPS.restore],
function (context) {
var MIN_IMAGES_IN_BLOCK = 3;
var MAX_IMAGES_IN_BLOCK = 1000;
var fnArray = context.fnArray, argsArray = context.argsArray;
var curr = context.iCurr;
var iFirstSave = curr - 3;
var iFirstTransform = curr - 2;
var iFirstPIXO = curr - 1;
var iFirstRestore = curr;
if (argsArray[iFirstTransform][1] !== 0 ||
argsArray[iFirstTransform][2] !== 0) {
return iFirstRestore + 1; // transform has the wrong form
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}
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// Look for the quartets.
var firstPIXOArg0 = argsArray[iFirstPIXO][0];
var firstTransformArg0 = argsArray[iFirstTransform][0];
var firstTransformArg3 = argsArray[iFirstTransform][3];
var i = iFirstSave + 4;
var ii = fnArray.length;
while (i + 3 < ii) {
if (fnArray[i] !== OPS.save ||
fnArray[i + 1] !== OPS.transform ||
fnArray[i + 2] !== OPS.paintImageXObject ||
fnArray[i + 3] !== OPS.restore) {
break; // ops don't match
}
if (argsArray[i + 1][0] !== firstTransformArg0 ||
argsArray[i + 1][1] !== 0 ||
argsArray[i + 1][2] !== 0 ||
argsArray[i + 1][3] !== firstTransformArg3) {
break; // transforms don't match
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}
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if (argsArray[i + 2][0] !== firstPIXOArg0) {
break; // images don't match
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}
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i += 4;
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}
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// At this point, i is the index of the first op past the last valid
// quartet.
var count = Math.min((i - iFirstSave) / 4, MAX_IMAGES_IN_BLOCK);
if (count < MIN_IMAGES_IN_BLOCK) {
return i;
}
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// Extract the (x,y) positions from all of the matching transforms.
var positions = new Float32Array(count * 2);
var iTransform = iFirstTransform;
for (var q = 0; q < count; q++, iTransform += 4) {
var transformArgs = argsArray[iTransform];
positions[(q << 1)] = transformArgs[4];
positions[(q << 1) + 1] = transformArgs[5];
}
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// Replace queue items.
var args = [firstPIXOArg0, firstTransformArg0, firstTransformArg3,
positions];
fnArray.splice(iFirstSave, count * 4, OPS.paintImageXObjectRepeat);
argsArray.splice(iFirstSave, count * 4, args);
return iFirstSave + 1;
});
// This replaces (beginText, setFont, setTextMatrix, showText, endText)+
// sequences with (beginText, setFont, (setTextMatrix, showText)+, endText)+
// sequences, if the font for each one is the same.
addState(InitialState,
[OPS.beginText, OPS.setFont, OPS.setTextMatrix, OPS.showText, OPS.endText],
function (context) {
var MIN_CHARS_IN_BLOCK = 3;
var MAX_CHARS_IN_BLOCK = 1000;
var fnArray = context.fnArray, argsArray = context.argsArray;
var curr = context.iCurr;
var iFirstBeginText = curr - 4;
var iFirstSetFont = curr - 3;
var iFirstSetTextMatrix = curr - 2;
var iFirstShowText = curr - 1;
var iFirstEndText = curr;
// Look for the quintets.
var firstSetFontArg0 = argsArray[iFirstSetFont][0];
var firstSetFontArg1 = argsArray[iFirstSetFont][1];
var i = iFirstBeginText + 5;
var ii = fnArray.length;
while (i + 4 < ii) {
if (fnArray[i] !== OPS.beginText ||
fnArray[i + 1] !== OPS.setFont ||
fnArray[i + 2] !== OPS.setTextMatrix ||
fnArray[i + 3] !== OPS.showText ||
fnArray[i + 4] !== OPS.endText) {
break; // ops don't match
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}
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if (argsArray[i + 1][0] !== firstSetFontArg0 ||
argsArray[i + 1][1] !== firstSetFontArg1) {
break; // fonts don't match
}
i += 5;
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}
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// At this point, i is the index of the first op past the last valid
// quintet.
var count = Math.min(((i - iFirstBeginText) / 5), MAX_CHARS_IN_BLOCK);
if (count < MIN_CHARS_IN_BLOCK) {
return i;
}
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// If the preceding quintet is (<something>, setFont, setTextMatrix,
// showText, endText), include that as well. (E.g. <something> might be
// |dependency|.)
var iFirst = iFirstBeginText;
if (iFirstBeginText >= 4 &&
fnArray[iFirstBeginText - 4] === fnArray[iFirstSetFont] &&
fnArray[iFirstBeginText - 3] === fnArray[iFirstSetTextMatrix] &&
fnArray[iFirstBeginText - 2] === fnArray[iFirstShowText] &&
fnArray[iFirstBeginText - 1] === fnArray[iFirstEndText] &&
argsArray[iFirstBeginText - 4][0] === firstSetFontArg0 &&
argsArray[iFirstBeginText - 4][1] === firstSetFontArg1) {
count++;
iFirst -= 5;
}
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// Remove (endText, beginText, setFont) trios.
var iEndText = iFirst + 4;
for (var q = 1; q < count; q++) {
fnArray.splice(iEndText, 3);
argsArray.splice(iEndText, 3);
iEndText += 2;
}
return iEndText + 1;
});
function QueueOptimizer() {}
QueueOptimizer.prototype = {
optimize: function QueueOptimizer_optimize(queue) {
var fnArray = queue.fnArray, argsArray = queue.argsArray;
var context = {
iCurr: 0,
fnArray: fnArray,
argsArray: argsArray
};
var state;
var i = 0, ii = fnArray.length;
while (i < ii) {
state = (state || InitialState)[fnArray[i]];
if (typeof state === 'function') { // we found some handler
context.iCurr = i;
// state() returns the index of the first non-matching op (if we
// didn't match) or the first op past the modified ops (if we did
// match and replace).
i = state(context);
state = undefined; // reset the state machine
ii = context.fnArray.length;
} else {
i++;
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}
}
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}
};
return QueueOptimizer;
})();
exports.OperatorList = OperatorList;
exports.PartialEvaluator = PartialEvaluator;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreAnnotation = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreStream, root.pdfjsCoreColorSpace,
root.pdfjsCoreObj, root.pdfjsCoreEvaluator);
}
}(this, function (exports, sharedUtil, corePrimitives, coreStream,
coreColorSpace, coreObj, coreEvaluator) {
var AnnotationBorderStyleType = sharedUtil.AnnotationBorderStyleType;
var AnnotationFlag = sharedUtil.AnnotationFlag;
var AnnotationType = sharedUtil.AnnotationType;
var OPS = sharedUtil.OPS;
var Util = sharedUtil.Util;
var isArray = sharedUtil.isArray;
var isInt = sharedUtil.isInt;
var isValidUrl = sharedUtil.isValidUrl;
var stringToBytes = sharedUtil.stringToBytes;
var stringToPDFString = sharedUtil.stringToPDFString;
var stringToUTF8String = sharedUtil.stringToUTF8String;
var warn = sharedUtil.warn;
var Dict = corePrimitives.Dict;
var isDict = corePrimitives.isDict;
var isName = corePrimitives.isName;
var Stream = coreStream.Stream;
var ColorSpace = coreColorSpace.ColorSpace;
var ObjectLoader = coreObj.ObjectLoader;
var FileSpec = coreObj.FileSpec;
var OperatorList = coreEvaluator.OperatorList;
/**
* @class
* @alias AnnotationFactory
*/
function AnnotationFactory() {}
AnnotationFactory.prototype = /** @lends AnnotationFactory.prototype */ {
/**
* @param {XRef} xref
* @param {Object} ref
* @returns {Annotation}
*/
create: function AnnotationFactory_create(xref, ref) {
var dict = xref.fetchIfRef(ref);
if (!isDict(dict)) {
return;
}
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// Determine the annotation's subtype.
var subtype = dict.get('Subtype');
subtype = isName(subtype) ? subtype.name : '';
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// Return the right annotation object based on the subtype and field type.
var parameters = {
xref: xref,
dict: dict,
ref: ref
};
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switch (subtype) {
case 'Link':
return new LinkAnnotation(parameters);
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case 'Text':
return new TextAnnotation(parameters);
case 'Widget':
var fieldType = Util.getInheritableProperty(dict, 'FT');
if (isName(fieldType) && fieldType.name === 'Tx') {
return new TextWidgetAnnotation(parameters);
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}
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return new WidgetAnnotation(parameters);
case 'Popup':
return new PopupAnnotation(parameters);
case 'Highlight':
return new HighlightAnnotation(parameters);
case 'Underline':
return new UnderlineAnnotation(parameters);
case 'Squiggly':
return new SquigglyAnnotation(parameters);
case 'StrikeOut':
return new StrikeOutAnnotation(parameters);
case 'FileAttachment':
return new FileAttachmentAnnotation(parameters);
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default:
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warn('Unimplemented annotation type "' + subtype + '", ' +
'falling back to base annotation');
return new Annotation(parameters);
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}
}
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};
var Annotation = (function AnnotationClosure() {
// 12.5.5: Algorithm: Appearance streams
function getTransformMatrix(rect, bbox, matrix) {
var bounds = Util.getAxialAlignedBoundingBox(bbox, matrix);
var minX = bounds[0];
var minY = bounds[1];
var maxX = bounds[2];
var maxY = bounds[3];
if (minX === maxX || minY === maxY) {
// From real-life file, bbox was [0, 0, 0, 0]. In this case,
// just apply the transform for rect
return [1, 0, 0, 1, rect[0], rect[1]];
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}
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var xRatio = (rect[2] - rect[0]) / (maxX - minX);
var yRatio = (rect[3] - rect[1]) / (maxY - minY);
return [
xRatio,
0,
0,
yRatio,
rect[0] - minX * xRatio,
rect[1] - minY * yRatio
];
}
function getDefaultAppearance(dict) {
var appearanceState = dict.get('AP');
if (!isDict(appearanceState)) {
return;
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}
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var appearance;
var appearances = appearanceState.get('N');
if (isDict(appearances)) {
var as = dict.get('AS');
if (as && appearances.has(as.name)) {
appearance = appearances.get(as.name);
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}
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} else {
appearance = appearances;
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}
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return appearance;
}
function Annotation(params) {
var dict = params.dict;
this.setFlags(dict.get('F'));
this.setRectangle(dict.getArray('Rect'));
this.setColor(dict.get('C'));
this.setBorderStyle(dict);
this.appearance = getDefaultAppearance(dict);
// Expose public properties using a data object.
this.data = {};
this.data.id = params.ref.toString();
this.data.subtype = dict.get('Subtype').name;
this.data.annotationFlags = this.flags;
this.data.rect = this.rectangle;
this.data.color = this.color;
this.data.borderStyle = this.borderStyle;
this.data.hasAppearance = !!this.appearance;
}
Annotation.prototype = {
/**
* @return {boolean}
*/
get viewable() {
if (this.flags) {
return !this.hasFlag(AnnotationFlag.INVISIBLE) &&
!this.hasFlag(AnnotationFlag.HIDDEN) &&
!this.hasFlag(AnnotationFlag.NOVIEW);
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}
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return true;
},
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/**
* @return {boolean}
*/
get printable() {
if (this.flags) {
return this.hasFlag(AnnotationFlag.PRINT) &&
!this.hasFlag(AnnotationFlag.INVISIBLE) &&
!this.hasFlag(AnnotationFlag.HIDDEN);
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}
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return false;
},
/**
* Set the flags.
*
* @public
* @memberof Annotation
* @param {number} flags - Unsigned 32-bit integer specifying annotation
* characteristics
* @see {@link shared/util.js}
*/
setFlags: function Annotation_setFlags(flags) {
if (isInt(flags)) {
this.flags = flags;
} else {
this.flags = 0;
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}
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},
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/**
* Check if a provided flag is set.
*
* @public
* @memberof Annotation
* @param {number} flag - Hexadecimal representation for an annotation
* characteristic
* @return {boolean}
* @see {@link shared/util.js}
*/
hasFlag: function Annotation_hasFlag(flag) {
if (this.flags) {
return (this.flags & flag) > 0;
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}
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return false;
},
/**
* Set the rectangle.
*
* @public
* @memberof Annotation
* @param {Array} rectangle - The rectangle array with exactly four entries
*/
setRectangle: function Annotation_setRectangle(rectangle) {
if (isArray(rectangle) && rectangle.length === 4) {
this.rectangle = Util.normalizeRect(rectangle);
} else {
this.rectangle = [0, 0, 0, 0];
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}
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},
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/**
* Set the color and take care of color space conversion.
*
* @public
* @memberof Annotation
* @param {Array} color - The color array containing either 0
* (transparent), 1 (grayscale), 3 (RGB) or
* 4 (CMYK) elements
*/
setColor: function Annotation_setColor(color) {
var rgbColor = new Uint8Array(3); // Black in RGB color space (default)
if (!isArray(color)) {
this.color = rgbColor;
return;
}
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switch (color.length) {
case 0: // Transparent, which we indicate with a null value
this.color = null;
break;
case 1: // Convert grayscale to RGB
ColorSpace.singletons.gray.getRgbItem(color, 0, rgbColor, 0);
this.color = rgbColor;
break;
case 3: // Convert RGB percentages to RGB
ColorSpace.singletons.rgb.getRgbItem(color, 0, rgbColor, 0);
this.color = rgbColor;
break;
case 4: // Convert CMYK to RGB
ColorSpace.singletons.cmyk.getRgbItem(color, 0, rgbColor, 0);
this.color = rgbColor;
break;
default:
this.color = rgbColor;
break;
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}
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},
/**
* Set the border style (as AnnotationBorderStyle object).
*
* @public
* @memberof Annotation
* @param {Dict} borderStyle - The border style dictionary
*/
setBorderStyle: function Annotation_setBorderStyle(borderStyle) {
this.borderStyle = new AnnotationBorderStyle();
if (!isDict(borderStyle)) {
return;
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}
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if (borderStyle.has('BS')) {
var dict = borderStyle.get('BS');
var dictType;
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if (!dict.has('Type') || (isName(dictType = dict.get('Type')) &&
dictType.name === 'Border')) {
this.borderStyle.setWidth(dict.get('W'));
this.borderStyle.setStyle(dict.get('S'));
this.borderStyle.setDashArray(dict.get('D'));
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}
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} else if (borderStyle.has('Border')) {
var array = borderStyle.get('Border');
if (isArray(array) && array.length >= 3) {
this.borderStyle.setHorizontalCornerRadius(array[0]);
this.borderStyle.setVerticalCornerRadius(array[1]);
this.borderStyle.setWidth(array[2]);
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if (array.length === 4) { // Dash array available
this.borderStyle.setDashArray(array[3]);
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}
}
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} else {
// There are no border entries in the dictionary. According to the
// specification, we should draw a solid border of width 1 in that
// case, but Adobe Reader did not implement that part of the
// specification and instead draws no border at all, so we do the same.
// See also https://github.com/mozilla/pdf.js/issues/6179.
this.borderStyle.setWidth(0);
}
},
/**
* Prepare the annotation for working with a popup in the display layer.
*
* @private
* @memberof Annotation
* @param {Dict} dict - The annotation's data dictionary
*/
_preparePopup: function Annotation_preparePopup(dict) {
if (!dict.has('C')) {
// Fall back to the default background color.
this.data.color = null;
}
this.data.hasPopup = dict.has('Popup');
this.data.title = stringToPDFString(dict.get('T') || '');
this.data.contents = stringToPDFString(dict.get('Contents') || '');
},
loadResources: function Annotation_loadResources(keys) {
return new Promise(function (resolve, reject) {
this.appearance.dict.getAsync('Resources').then(function (resources) {
if (!resources) {
resolve();
return;
}
var objectLoader = new ObjectLoader(resources.map,
keys,
resources.xref);
objectLoader.load().then(function() {
resolve(resources);
}, reject);
}, reject);
}.bind(this));
},
getOperatorList: function Annotation_getOperatorList(evaluator, task) {
if (!this.appearance) {
return Promise.resolve(new OperatorList());
}
var data = this.data;
var appearanceDict = this.appearance.dict;
var resourcesPromise = this.loadResources([
'ExtGState',
'ColorSpace',
'Pattern',
'Shading',
'XObject',
'Font'
// ProcSet
// Properties
]);
var bbox = appearanceDict.get('BBox') || [0, 0, 1, 1];
var matrix = appearanceDict.get('Matrix') || [1, 0, 0, 1, 0 ,0];
var transform = getTransformMatrix(data.rect, bbox, matrix);
var self = this;
return resourcesPromise.then(function(resources) {
var opList = new OperatorList();
opList.addOp(OPS.beginAnnotation, [data.rect, transform, matrix]);
return evaluator.getOperatorList(self.appearance, task,
resources, opList).
then(function () {
opList.addOp(OPS.endAnnotation, []);
self.appearance.reset();
return opList;
});
});
}
};
Annotation.appendToOperatorList = function Annotation_appendToOperatorList(
annotations, opList, partialEvaluator, task, intent) {
var annotationPromises = [];
for (var i = 0, n = annotations.length; i < n; ++i) {
if ((intent === 'display' && annotations[i].viewable) ||
(intent === 'print' && annotations[i].printable)) {
annotationPromises.push(
annotations[i].getOperatorList(partialEvaluator, task));
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}
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}
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return Promise.all(annotationPromises).then(function(operatorLists) {
opList.addOp(OPS.beginAnnotations, []);
for (var i = 0, n = operatorLists.length; i < n; ++i) {
opList.addOpList(operatorLists[i]);
}
opList.addOp(OPS.endAnnotations, []);
});
};
return Annotation;
})();
/**
* Contains all data regarding an annotation's border style.
*
* @class
*/
var AnnotationBorderStyle = (function AnnotationBorderStyleClosure() {
/**
* @constructor
* @private
*/
function AnnotationBorderStyle() {
this.width = 1;
this.style = AnnotationBorderStyleType.SOLID;
this.dashArray = [3];
this.horizontalCornerRadius = 0;
this.verticalCornerRadius = 0;
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}
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AnnotationBorderStyle.prototype = {
/**
* Set the width.
*
* @public
* @memberof AnnotationBorderStyle
* @param {integer} width - The width
*/
setWidth: function AnnotationBorderStyle_setWidth(width) {
if (width === (width | 0)) {
this.width = width;
}
},
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/**
* Set the style.
*
* @public
* @memberof AnnotationBorderStyle
* @param {Object} style - The style object
* @see {@link shared/util.js}
*/
setStyle: function AnnotationBorderStyle_setStyle(style) {
if (!style) {
return;
}
switch (style.name) {
case 'S':
this.style = AnnotationBorderStyleType.SOLID;
break;
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case 'D':
this.style = AnnotationBorderStyleType.DASHED;
break;
case 'B':
this.style = AnnotationBorderStyleType.BEVELED;
break;
case 'I':
this.style = AnnotationBorderStyleType.INSET;
break;
case 'U':
this.style = AnnotationBorderStyleType.UNDERLINE;
break;
default:
break;
}
},
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/**
* Set the dash array.
*
* @public
* @memberof AnnotationBorderStyle
* @param {Array} dashArray - The dash array with at least one element
*/
setDashArray: function AnnotationBorderStyle_setDashArray(dashArray) {
// We validate the dash array, but we do not use it because CSS does not
// allow us to change spacing of dashes. For more information, visit
// http://www.w3.org/TR/css3-background/#the-border-style.
if (isArray(dashArray) && dashArray.length > 0) {
// According to the PDF specification: the elements in a dashArray
// shall be numbers that are nonnegative and not all equal to zero.
var isValid = true;
var allZeros = true;
for (var i = 0, len = dashArray.length; i < len; i++) {
var element = dashArray[i];
var validNumber = (+element >= 0);
if (!validNumber) {
isValid = false;
break;
} else if (element > 0) {
allZeros = false;
}
}
if (isValid && !allZeros) {
this.dashArray = dashArray;
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} else {
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this.width = 0; // Adobe behavior when the array is invalid.
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}
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} else if (dashArray) {
this.width = 0; // Adobe behavior when the array is invalid.
}
},
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/**
* Set the horizontal corner radius (from a Border dictionary).
*
* @public
* @memberof AnnotationBorderStyle
* @param {integer} radius - The horizontal corner radius
*/
setHorizontalCornerRadius:
function AnnotationBorderStyle_setHorizontalCornerRadius(radius) {
if (radius === (radius | 0)) {
this.horizontalCornerRadius = radius;
}
},
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/**
* Set the vertical corner radius (from a Border dictionary).
*
* @public
* @memberof AnnotationBorderStyle
* @param {integer} radius - The vertical corner radius
*/
setVerticalCornerRadius:
function AnnotationBorderStyle_setVerticalCornerRadius(radius) {
if (radius === (radius | 0)) {
this.verticalCornerRadius = radius;
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}
}
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};
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return AnnotationBorderStyle;
})();
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var WidgetAnnotation = (function WidgetAnnotationClosure() {
function WidgetAnnotation(params) {
Annotation.call(this, params);
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var dict = params.dict;
var data = this.data;
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data.annotationType = AnnotationType.WIDGET;
data.fieldValue = stringToPDFString(
Util.getInheritableProperty(dict, 'V') || '');
data.alternativeText = stringToPDFString(dict.get('TU') || '');
data.defaultAppearance = Util.getInheritableProperty(dict, 'DA') || '';
var fieldType = Util.getInheritableProperty(dict, 'FT');
data.fieldType = isName(fieldType) ? fieldType.name : '';
data.fieldFlags = Util.getInheritableProperty(dict, 'Ff') || 0;
this.fieldResources = Util.getInheritableProperty(dict, 'DR') || Dict.empty;
// Hide unsupported Widget signatures.
if (data.fieldType === 'Sig') {
warn('unimplemented annotation type: Widget signature');
this.setFlags(AnnotationFlag.HIDDEN);
}
// Building the full field name by collecting the field and
// its ancestors 'T' data and joining them using '.'.
var fieldName = [];
var namedItem = dict;
var ref = params.ref;
while (namedItem) {
var parent = namedItem.get('Parent');
var parentRef = namedItem.getRaw('Parent');
var name = namedItem.get('T');
if (name) {
fieldName.unshift(stringToPDFString(name));
} else if (parent && ref) {
// The field name is absent, that means more than one field
// with the same name may exist. Replacing the empty name
// with the '`' plus index in the parent's 'Kids' array.
// This is not in the PDF spec but necessary to id the
// the input controls.
var kids = parent.get('Kids');
var j, jj;
for (j = 0, jj = kids.length; j < jj; j++) {
var kidRef = kids[j];
if (kidRef.num === ref.num && kidRef.gen === ref.gen) {
break;
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}
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}
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fieldName.unshift('`' + j);
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}
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namedItem = parent;
ref = parentRef;
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}
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data.fullName = fieldName.join('.');
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}
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Util.inherit(WidgetAnnotation, Annotation, {});
return WidgetAnnotation;
})();
var TextWidgetAnnotation = (function TextWidgetAnnotationClosure() {
function TextWidgetAnnotation(params) {
WidgetAnnotation.call(this, params);
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this.data.textAlignment = Util.getInheritableProperty(params.dict, 'Q');
}
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Util.inherit(TextWidgetAnnotation, WidgetAnnotation, {
getOperatorList: function TextWidgetAnnotation_getOperatorList(evaluator,
task) {
if (this.appearance) {
return Annotation.prototype.getOperatorList.call(this, evaluator, task);
}
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var opList = new OperatorList();
var data = this.data;
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// Even if there is an appearance stream, ignore it. This is the
// behaviour used by Adobe Reader.
if (!data.defaultAppearance) {
return Promise.resolve(opList);
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}
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var stream = new Stream(stringToBytes(data.defaultAppearance));
return evaluator.getOperatorList(stream, task,
this.fieldResources, opList).
then(function () {
return opList;
});
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}
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});
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return TextWidgetAnnotation;
})();
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var TextAnnotation = (function TextAnnotationClosure() {
var DEFAULT_ICON_SIZE = 22; // px
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function TextAnnotation(parameters) {
Annotation.call(this, parameters);
this.data.annotationType = AnnotationType.TEXT;
if (this.data.hasAppearance) {
this.data.name = 'NoIcon';
} else {
this.data.rect[1] = this.data.rect[3] - DEFAULT_ICON_SIZE;
this.data.rect[2] = this.data.rect[0] + DEFAULT_ICON_SIZE;
this.data.name = parameters.dict.has('Name') ?
parameters.dict.get('Name').name : 'Note';
}
this._preparePopup(parameters.dict);
}
Util.inherit(TextAnnotation, Annotation, {});
return TextAnnotation;
})();
var LinkAnnotation = (function LinkAnnotationClosure() {
function LinkAnnotation(params) {
Annotation.call(this, params);
var dict = params.dict;
var data = this.data;
data.annotationType = AnnotationType.LINK;
var action = dict.get('A');
if (action && isDict(action)) {
var linkType = action.get('S').name;
if (linkType === 'URI') {
var url = action.get('URI');
if (isName(url)) {
// Some bad PDFs do not put parentheses around relative URLs.
url = '/' + url.name;
} else if (url) {
url = addDefaultProtocolToUrl(url);
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}
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// TODO: pdf spec mentions urls can be relative to a Base
// entry in the dictionary.
if (!isValidUrl(url, false)) {
url = '';
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}
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// According to ISO 32000-1:2008, section 12.6.4.7,
// URI should to be encoded in 7-bit ASCII.
// Some bad PDFs may have URIs in UTF-8 encoding, see Bugzilla 1122280.
try {
data.url = stringToUTF8String(url);
} catch (e) {
// Fall back to a simple copy.
data.url = url;
}
} else if (linkType === 'GoTo') {
data.dest = action.get('D');
} else if (linkType === 'GoToR') {
var urlDict = action.get('F');
if (isDict(urlDict)) {
// We assume that the 'url' is a Filspec dictionary
// and fetch the url without checking any further
url = urlDict.get('F') || '';
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}
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// TODO: pdf reference says that GoToR
// can also have 'NewWindow' attribute
if (!isValidUrl(url, false)) {
url = '';
}
data.url = url;
data.dest = action.get('D');
} else if (linkType === 'Named') {
data.action = action.get('N').name;
} else {
warn('unrecognized link type: ' + linkType);
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}
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} else if (dict.has('Dest')) {
// simple destination link
var dest = dict.get('Dest');
data.dest = isName(dest) ? dest.name : dest;
}
}
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// Lets URLs beginning with 'www.' default to using the 'http://' protocol.
function addDefaultProtocolToUrl(url) {
if (url && url.indexOf('www.') === 0) {
return ('http://' + url);
}
return url;
}
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Util.inherit(LinkAnnotation, Annotation, {});
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return LinkAnnotation;
})();
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var PopupAnnotation = (function PopupAnnotationClosure() {
function PopupAnnotation(parameters) {
Annotation.call(this, parameters);
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this.data.annotationType = AnnotationType.POPUP;
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var dict = parameters.dict;
var parentItem = dict.get('Parent');
if (!parentItem) {
warn('Popup annotation has a missing or invalid parent annotation.');
return;
}
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this.data.parentId = dict.getRaw('Parent').toString();
this.data.title = stringToPDFString(parentItem.get('T') || '');
this.data.contents = stringToPDFString(parentItem.get('Contents') || '');
if (!parentItem.has('C')) {
// Fall back to the default background color.
this.data.color = null;
} else {
this.setColor(parentItem.get('C'));
this.data.color = this.color;
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}
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}
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Util.inherit(PopupAnnotation, Annotation, {});
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return PopupAnnotation;
})();
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var HighlightAnnotation = (function HighlightAnnotationClosure() {
function HighlightAnnotation(parameters) {
Annotation.call(this, parameters);
this.data.annotationType = AnnotationType.HIGHLIGHT;
this._preparePopup(parameters.dict);
// PDF viewers completely ignore any border styles.
this.data.borderStyle.setWidth(0);
}
Util.inherit(HighlightAnnotation, Annotation, {});
return HighlightAnnotation;
})();
var UnderlineAnnotation = (function UnderlineAnnotationClosure() {
function UnderlineAnnotation(parameters) {
Annotation.call(this, parameters);
this.data.annotationType = AnnotationType.UNDERLINE;
this._preparePopup(parameters.dict);
// PDF viewers completely ignore any border styles.
this.data.borderStyle.setWidth(0);
}
Util.inherit(UnderlineAnnotation, Annotation, {});
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return UnderlineAnnotation;
})();
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var SquigglyAnnotation = (function SquigglyAnnotationClosure() {
function SquigglyAnnotation(parameters) {
Annotation.call(this, parameters);
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this.data.annotationType = AnnotationType.SQUIGGLY;
this._preparePopup(parameters.dict);
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// PDF viewers completely ignore any border styles.
this.data.borderStyle.setWidth(0);
}
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Util.inherit(SquigglyAnnotation, Annotation, {});
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return SquigglyAnnotation;
})();
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var StrikeOutAnnotation = (function StrikeOutAnnotationClosure() {
function StrikeOutAnnotation(parameters) {
Annotation.call(this, parameters);
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this.data.annotationType = AnnotationType.STRIKEOUT;
this._preparePopup(parameters.dict);
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// PDF viewers completely ignore any border styles.
this.data.borderStyle.setWidth(0);
}
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Util.inherit(StrikeOutAnnotation, Annotation, {});
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return StrikeOutAnnotation;
})();
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var FileAttachmentAnnotation = (function FileAttachmentAnnotationClosure() {
function FileAttachmentAnnotation(parameters) {
Annotation.call(this, parameters);
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var file = new FileSpec(parameters.dict.get('FS'), parameters.xref);
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this.data.annotationType = AnnotationType.FILEATTACHMENT;
this.data.file = file.serializable;
this._preparePopup(parameters.dict);
}
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Util.inherit(FileAttachmentAnnotation, Annotation, {});
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return FileAttachmentAnnotation;
})();
exports.Annotation = Annotation;
exports.AnnotationBorderStyle = AnnotationBorderStyle;
exports.AnnotationFactory = AnnotationFactory;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreDocument = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreStream,
root.pdfjsCoreObj, root.pdfjsCoreParser, root.pdfjsCoreCrypto,
root.pdfjsCoreEvaluator, root.pdfjsCoreAnnotation);
}
}(this, function (exports, sharedUtil, corePrimitives, coreStream, coreObj,
coreParser, coreCrypto, coreEvaluator, coreAnnotation) {
var MissingDataException = sharedUtil.MissingDataException;
var Util = sharedUtil.Util;
var assert = sharedUtil.assert;
var error = sharedUtil.error;
var info = sharedUtil.info;
var isArray = sharedUtil.isArray;
var isArrayBuffer = sharedUtil.isArrayBuffer;
var isString = sharedUtil.isString;
var shadow = sharedUtil.shadow;
var stringToBytes = sharedUtil.stringToBytes;
var stringToPDFString = sharedUtil.stringToPDFString;
var warn = sharedUtil.warn;
var Dict = corePrimitives.Dict;
var isDict = corePrimitives.isDict;
var isName = corePrimitives.isName;
var isStream = corePrimitives.isStream;
var NullStream = coreStream.NullStream;
var Stream = coreStream.Stream;
var StreamsSequenceStream = coreStream.StreamsSequenceStream;
var Catalog = coreObj.Catalog;
var ObjectLoader = coreObj.ObjectLoader;
var XRef = coreObj.XRef;
var Lexer = coreParser.Lexer;
var Linearization = coreParser.Linearization;
var calculateMD5 = coreCrypto.calculateMD5;
var OperatorList = coreEvaluator.OperatorList;
var PartialEvaluator = coreEvaluator.PartialEvaluator;
var Annotation = coreAnnotation.Annotation;
var AnnotationFactory = coreAnnotation.AnnotationFactory;
var Page = (function PageClosure() {
var LETTER_SIZE_MEDIABOX = [0, 0, 612, 792];
function Page(pdfManager, xref, pageIndex, pageDict, ref, fontCache) {
this.pdfManager = pdfManager;
this.pageIndex = pageIndex;
this.pageDict = pageDict;
this.xref = xref;
this.ref = ref;
this.fontCache = fontCache;
this.idCounters = {
obj: 0
};
this.evaluatorOptions = pdfManager.evaluatorOptions;
this.resourcesPromise = null;
}
Page.prototype = {
getPageProp: function Page_getPageProp(key) {
return this.pageDict.get(key);
},
getInheritedPageProp: function Page_getInheritedPageProp(key) {
var dict = this.pageDict, valueArray = null, loopCount = 0;
var MAX_LOOP_COUNT = 100;
// Always walk up the entire parent chain, to be able to find
// e.g. \Resources placed on multiple levels of the tree.
while (dict) {
var value = dict.get(key);
if (value) {
if (!valueArray) {
valueArray = [];
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}
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valueArray.push(value);
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}
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if (++loopCount > MAX_LOOP_COUNT) {
warn('Page_getInheritedPageProp: maximum loop count exceeded.');
break;
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}
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dict = dict.get('Parent');
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}
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if (!valueArray) {
return Dict.empty;
}
if (valueArray.length === 1 || !isDict(valueArray[0]) ||
loopCount > MAX_LOOP_COUNT) {
return valueArray[0];
}
return Dict.merge(this.xref, valueArray);
},
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get content() {
return this.getPageProp('Contents');
},
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get resources() {
// For robustness: The spec states that a \Resources entry has to be
// present, but can be empty. Some document omit it still, in this case
// we return an empty dictionary.
return shadow(this, 'resources', this.getInheritedPageProp('Resources'));
},
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get mediaBox() {
var obj = this.getInheritedPageProp('MediaBox');
// Reset invalid media box to letter size.
if (!isArray(obj) || obj.length !== 4) {
obj = LETTER_SIZE_MEDIABOX;
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}
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return shadow(this, 'mediaBox', obj);
},
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get view() {
var mediaBox = this.mediaBox;
var cropBox = this.getInheritedPageProp('CropBox');
if (!isArray(cropBox) || cropBox.length !== 4) {
return shadow(this, 'view', mediaBox);
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}
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// From the spec, 6th ed., p.963:
// "The crop, bleed, trim, and art boxes should not ordinarily
// extend beyond the boundaries of the media box. If they do, they are
// effectively reduced to their intersection with the media box."
cropBox = Util.intersect(cropBox, mediaBox);
if (!cropBox) {
return shadow(this, 'view', mediaBox);
}
return shadow(this, 'view', cropBox);
},
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get rotate() {
var rotate = this.getInheritedPageProp('Rotate') || 0;
// Normalize rotation so it's a multiple of 90 and between 0 and 270
if (rotate % 90 !== 0) {
rotate = 0;
} else if (rotate >= 360) {
rotate = rotate % 360;
} else if (rotate < 0) {
// The spec doesn't cover negatives, assume its counterclockwise
// rotation. The following is the other implementation of modulo.
rotate = ((rotate % 360) + 360) % 360;
}
return shadow(this, 'rotate', rotate);
},
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getContentStream: function Page_getContentStream() {
var content = this.content;
var stream;
if (isArray(content)) {
// fetching items
var xref = this.xref;
var i, n = content.length;
var streams = [];
for (i = 0; i < n; ++i) {
streams.push(xref.fetchIfRef(content[i]));
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}
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stream = new StreamsSequenceStream(streams);
} else if (isStream(content)) {
stream = content;
} else {
// replacing non-existent page content with empty one
stream = new NullStream();
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}
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return stream;
},
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loadResources: function Page_loadResources(keys) {
if (!this.resourcesPromise) {
// TODO: add async getInheritedPageProp and remove this.
this.resourcesPromise = this.pdfManager.ensure(this, 'resources');
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}
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return this.resourcesPromise.then(function resourceSuccess() {
var objectLoader = new ObjectLoader(this.resources.map,
keys,
this.xref);
return objectLoader.load();
}.bind(this));
},
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getOperatorList: function Page_getOperatorList(handler, task, intent) {
var self = this;
var pdfManager = this.pdfManager;
var contentStreamPromise = pdfManager.ensure(this, 'getContentStream',
[]);
var resourcesPromise = this.loadResources([
'ExtGState',
'ColorSpace',
'Pattern',
'Shading',
'XObject',
'Font'
// ProcSet
// Properties
]);
var partialEvaluator = new PartialEvaluator(pdfManager, this.xref,
handler, this.pageIndex,
'p' + this.pageIndex + '_',
this.idCounters,
this.fontCache,
this.evaluatorOptions);
var dataPromises = Promise.all([contentStreamPromise, resourcesPromise]);
var pageListPromise = dataPromises.then(function(data) {
var contentStream = data[0];
var opList = new OperatorList(intent, handler, self.pageIndex);
handler.send('StartRenderPage', {
transparency: partialEvaluator.hasBlendModes(self.resources),
pageIndex: self.pageIndex,
intent: intent
});
return partialEvaluator.getOperatorList(contentStream, task,
self.resources, opList).then(function () {
return opList;
});
});
var annotationsPromise = pdfManager.ensure(this, 'annotations');
return Promise.all([pageListPromise, annotationsPromise]).then(
function(datas) {
var pageOpList = datas[0];
var annotations = datas[1];
if (annotations.length === 0) {
pageOpList.flush(true);
return pageOpList;
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}
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var annotationsReadyPromise = Annotation.appendToOperatorList(
annotations, pageOpList, partialEvaluator, task, intent);
return annotationsReadyPromise.then(function () {
pageOpList.flush(true);
return pageOpList;
});
});
},
extractTextContent: function Page_extractTextContent(task,
normalizeWhitespace) {
var handler = {
on: function nullHandlerOn() {},
send: function nullHandlerSend() {}
};
var self = this;
var pdfManager = this.pdfManager;
var contentStreamPromise = pdfManager.ensure(this, 'getContentStream',
[]);
var resourcesPromise = this.loadResources([
'ExtGState',
'XObject',
'Font'
]);
var dataPromises = Promise.all([contentStreamPromise,
resourcesPromise]);
return dataPromises.then(function(data) {
var contentStream = data[0];
var partialEvaluator = new PartialEvaluator(pdfManager, self.xref,
handler, self.pageIndex,
'p' + self.pageIndex + '_',
self.idCounters,
self.fontCache,
self.evaluatorOptions);
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return partialEvaluator.getTextContent(contentStream,
task,
self.resources,
/* stateManager = */ null,
normalizeWhitespace);
});
},
getAnnotationsData: function Page_getAnnotationsData(intent) {
var annotations = this.annotations;
var annotationsData = [];
for (var i = 0, n = annotations.length; i < n; ++i) {
if (intent) {
if (!(intent === 'display' && annotations[i].viewable) &&
!(intent === 'print' && annotations[i].printable)) {
continue;
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}
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}
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annotationsData.push(annotations[i].data);
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}
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return annotationsData;
},
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get annotations() {
var annotations = [];
var annotationRefs = this.getInheritedPageProp('Annots') || [];
var annotationFactory = new AnnotationFactory();
for (var i = 0, n = annotationRefs.length; i < n; ++i) {
var annotationRef = annotationRefs[i];
var annotation = annotationFactory.create(this.xref, annotationRef);
if (annotation) {
annotations.push(annotation);
}
}
return shadow(this, 'annotations', annotations);
}
};
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return Page;
})();
/**
* The `PDFDocument` holds all the data of the PDF file. Compared to the
* `PDFDoc`, this one doesn't have any job management code.
* Right now there exists one PDFDocument on the main thread + one object
* for each worker. If there is no worker support enabled, there are two
* `PDFDocument` objects on the main thread created.
*/
var PDFDocument = (function PDFDocumentClosure() {
var FINGERPRINT_FIRST_BYTES = 1024;
var EMPTY_FINGERPRINT = '\x00\x00\x00\x00\x00\x00\x00' +
'\x00\x00\x00\x00\x00\x00\x00\x00\x00';
function PDFDocument(pdfManager, arg, password) {
if (isStream(arg)) {
init.call(this, pdfManager, arg, password);
} else if (isArrayBuffer(arg)) {
init.call(this, pdfManager, new Stream(arg), password);
} else {
error('PDFDocument: Unknown argument type');
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}
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}
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function init(pdfManager, stream, password) {
assert(stream.length > 0, 'stream must have data');
this.pdfManager = pdfManager;
this.stream = stream;
var xref = new XRef(this.stream, password, pdfManager);
this.xref = xref;
}
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function find(stream, needle, limit, backwards) {
var pos = stream.pos;
var end = stream.end;
var strBuf = [];
if (pos + limit > end) {
limit = end - pos;
}
for (var n = 0; n < limit; ++n) {
strBuf.push(String.fromCharCode(stream.getByte()));
}
var str = strBuf.join('');
stream.pos = pos;
var index = backwards ? str.lastIndexOf(needle) : str.indexOf(needle);
if (index === -1) {
return false; /* not found */
}
stream.pos += index;
return true; /* found */
}
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var DocumentInfoValidators = {
get entries() {
// Lazily build this since all the validation functions below are not
// defined until after this file loads.
return shadow(this, 'entries', {
Title: isString,
Author: isString,
Subject: isString,
Keywords: isString,
Creator: isString,
Producer: isString,
CreationDate: isString,
ModDate: isString,
Trapped: isName
});
}
};
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PDFDocument.prototype = {
parse: function PDFDocument_parse(recoveryMode) {
this.setup(recoveryMode);
var version = this.catalog.catDict.get('Version');
if (isName(version)) {
this.pdfFormatVersion = version.name;
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}
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try {
// checking if AcroForm is present
this.acroForm = this.catalog.catDict.get('AcroForm');
if (this.acroForm) {
this.xfa = this.acroForm.get('XFA');
var fields = this.acroForm.get('Fields');
if ((!fields || !isArray(fields) || fields.length === 0) &&
!this.xfa) {
// no fields and no XFA -- not a form (?)
this.acroForm = null;
}
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}
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} catch (ex) {
info('Something wrong with AcroForm entry');
this.acroForm = null;
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}
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},
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get linearization() {
var linearization = null;
if (this.stream.length) {
try {
linearization = Linearization.create(this.stream);
} catch (err) {
if (err instanceof MissingDataException) {
throw err;
}
info(err);
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}
}
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// shadow the prototype getter with a data property
return shadow(this, 'linearization', linearization);
},
get startXRef() {
var stream = this.stream;
var startXRef = 0;
var linearization = this.linearization;
if (linearization) {
// Find end of first obj.
stream.reset();
if (find(stream, 'endobj', 1024)) {
startXRef = stream.pos + 6;
}
} else {
// Find startxref by jumping backward from the end of the file.
var step = 1024;
var found = false, pos = stream.end;
while (!found && pos > 0) {
pos -= step - 'startxref'.length;
if (pos < 0) {
pos = 0;
}
stream.pos = pos;
found = find(stream, 'startxref', step, true);
}
if (found) {
stream.skip(9);
var ch;
do {
ch = stream.getByte();
} while (Lexer.isSpace(ch));
var str = '';
while (ch >= 0x20 && ch <= 0x39) { // < '9'
str += String.fromCharCode(ch);
ch = stream.getByte();
}
startXRef = parseInt(str, 10);
if (isNaN(startXRef)) {
startXRef = 0;
}
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}
}
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// shadow the prototype getter with a data property
return shadow(this, 'startXRef', startXRef);
},
get mainXRefEntriesOffset() {
var mainXRefEntriesOffset = 0;
var linearization = this.linearization;
if (linearization) {
mainXRefEntriesOffset = linearization.mainXRefEntriesOffset;
}
// shadow the prototype getter with a data property
return shadow(this, 'mainXRefEntriesOffset', mainXRefEntriesOffset);
},
// Find the header, remove leading garbage and setup the stream
// starting from the header.
checkHeader: function PDFDocument_checkHeader() {
var stream = this.stream;
stream.reset();
if (find(stream, '%PDF-', 1024)) {
// Found the header, trim off any garbage before it.
stream.moveStart();
// Reading file format version
var MAX_VERSION_LENGTH = 12;
var version = '', ch;
while ((ch = stream.getByte()) > 0x20) { // SPACE
if (version.length >= MAX_VERSION_LENGTH) {
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break;
}
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version += String.fromCharCode(ch);
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}
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if (!this.pdfFormatVersion) {
// removing "%PDF-"-prefix
this.pdfFormatVersion = version.substring(5);
}
return;
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}
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// May not be a PDF file, continue anyway.
},
parseStartXRef: function PDFDocument_parseStartXRef() {
var startXRef = this.startXRef;
this.xref.setStartXRef(startXRef);
},
setup: function PDFDocument_setup(recoveryMode) {
this.xref.parse(recoveryMode);
var self = this;
var pageFactory = {
createPage: function (pageIndex, dict, ref, fontCache) {
return new Page(self.pdfManager, self.xref, pageIndex, dict, ref,
fontCache);
}
};
this.catalog = new Catalog(this.pdfManager, this.xref, pageFactory);
},
get numPages() {
var linearization = this.linearization;
var num = linearization ? linearization.numPages : this.catalog.numPages;
// shadow the prototype getter
return shadow(this, 'numPages', num);
},
get documentInfo() {
var docInfo = {
PDFFormatVersion: this.pdfFormatVersion,
IsAcroFormPresent: !!this.acroForm,
IsXFAPresent: !!this.xfa
};
var infoDict;
try {
infoDict = this.xref.trailer.get('Info');
} catch (err) {
info('The document information dictionary is invalid.');
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}
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if (infoDict) {
var validEntries = DocumentInfoValidators.entries;
// Only fill the document info with valid entries from the spec.
for (var key in validEntries) {
if (infoDict.has(key)) {
var value = infoDict.get(key);
// Make sure the value conforms to the spec.
if (validEntries[key](value)) {
docInfo[key] = (typeof value !== 'string' ?
value : stringToPDFString(value));
} else {
info('Bad value in document info for "' + key + '"');
}
}
}
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}
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return shadow(this, 'documentInfo', docInfo);
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},
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get fingerprint() {
var xref = this.xref, hash, fileID = '';
var idArray = xref.trailer.get('ID');
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if (idArray && isArray(idArray) && idArray[0] && isString(idArray[0]) &&
idArray[0] !== EMPTY_FINGERPRINT) {
hash = stringToBytes(idArray[0]);
} else {
if (this.stream.ensureRange) {
this.stream.ensureRange(0,
Math.min(FINGERPRINT_FIRST_BYTES, this.stream.end));
}
hash = calculateMD5(this.stream.bytes.subarray(0,
FINGERPRINT_FIRST_BYTES), 0, FINGERPRINT_FIRST_BYTES);
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}
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for (var i = 0, n = hash.length; i < n; i++) {
var hex = hash[i].toString(16);
fileID += hex.length === 1 ? '0' + hex : hex;
}
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return shadow(this, 'fingerprint', fileID);
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},
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getPage: function PDFDocument_getPage(pageIndex) {
return this.catalog.getPage(pageIndex);
},
cleanup: function PDFDocument_cleanup() {
return this.catalog.cleanup();
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}
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};
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return PDFDocument;
})();
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exports.Page = Page;
exports.PDFDocument = PDFDocument;
}));
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(function (root, factory) {
{
factory((root.pdfjsCorePdfManager = {}), root.pdfjsSharedUtil,
root.pdfjsCoreStream, root.pdfjsCoreChunkedStream,
root.pdfjsCoreDocument);
}
}(this, function (exports, sharedUtil, coreStream, coreChunkedStream,
coreDocument) {
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var NotImplementedException = sharedUtil.NotImplementedException;
var MissingDataException = sharedUtil.MissingDataException;
var createPromiseCapability = sharedUtil.createPromiseCapability;
var Util = sharedUtil.Util;
var Stream = coreStream.Stream;
var ChunkedStreamManager = coreChunkedStream.ChunkedStreamManager;
var PDFDocument = coreDocument.PDFDocument;
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var BasePdfManager = (function BasePdfManagerClosure() {
function BasePdfManager() {
throw new Error('Cannot initialize BaseManagerManager');
}
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BasePdfManager.prototype = {
get docId() {
return this._docId;
},
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onLoadedStream: function BasePdfManager_onLoadedStream() {
throw new NotImplementedException();
},
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ensureDoc: function BasePdfManager_ensureDoc(prop, args) {
return this.ensure(this.pdfDocument, prop, args);
},
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ensureXRef: function BasePdfManager_ensureXRef(prop, args) {
return this.ensure(this.pdfDocument.xref, prop, args);
},
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ensureCatalog: function BasePdfManager_ensureCatalog(prop, args) {
return this.ensure(this.pdfDocument.catalog, prop, args);
},
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getPage: function BasePdfManager_getPage(pageIndex) {
return this.pdfDocument.getPage(pageIndex);
},
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cleanup: function BasePdfManager_cleanup() {
return this.pdfDocument.cleanup();
},
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ensure: function BasePdfManager_ensure(obj, prop, args) {
return new NotImplementedException();
},
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requestRange: function BasePdfManager_requestRange(begin, end) {
return new NotImplementedException();
},
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requestLoadedStream: function BasePdfManager_requestLoadedStream() {
return new NotImplementedException();
},
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sendProgressiveData: function BasePdfManager_sendProgressiveData(chunk) {
return new NotImplementedException();
},
updatePassword: function BasePdfManager_updatePassword(password) {
this.pdfDocument.xref.password = this.password = password;
if (this._passwordChangedCapability) {
this._passwordChangedCapability.resolve();
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}
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},
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passwordChanged: function BasePdfManager_passwordChanged() {
this._passwordChangedCapability = createPromiseCapability();
return this._passwordChangedCapability.promise;
},
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terminate: function BasePdfManager_terminate() {
return new NotImplementedException();
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}
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};
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return BasePdfManager;
})();
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var LocalPdfManager = (function LocalPdfManagerClosure() {
function LocalPdfManager(docId, data, password, evaluatorOptions) {
this._docId = docId;
this.evaluatorOptions = evaluatorOptions;
var stream = new Stream(data);
this.pdfDocument = new PDFDocument(this, stream, password);
this._loadedStreamCapability = createPromiseCapability();
this._loadedStreamCapability.resolve(stream);
}
Util.inherit(LocalPdfManager, BasePdfManager, {
ensure: function LocalPdfManager_ensure(obj, prop, args) {
return new Promise(function (resolve, reject) {
try {
var value = obj[prop];
var result;
if (typeof value === 'function') {
result = value.apply(obj, args);
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} else {
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result = value;
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}
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resolve(result);
} catch (e) {
reject(e);
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}
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});
},
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requestRange: function LocalPdfManager_requestRange(begin, end) {
return Promise.resolve();
},
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requestLoadedStream: function LocalPdfManager_requestLoadedStream() {
return;
},
onLoadedStream: function LocalPdfManager_onLoadedStream() {
return this._loadedStreamCapability.promise;
},
terminate: function LocalPdfManager_terminate() {
return;
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}
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});
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return LocalPdfManager;
})();
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var NetworkPdfManager = (function NetworkPdfManagerClosure() {
function NetworkPdfManager(docId, pdfNetworkStream, args, evaluatorOptions) {
this._docId = docId;
this.msgHandler = args.msgHandler;
this.evaluatorOptions = evaluatorOptions;
var params = {
msgHandler: args.msgHandler,
url: args.url,
length: args.length,
disableAutoFetch: args.disableAutoFetch,
rangeChunkSize: args.rangeChunkSize
};
this.streamManager = new ChunkedStreamManager(pdfNetworkStream, params);
this.pdfDocument = new PDFDocument(this, this.streamManager.getStream(),
args.password);
}
Util.inherit(NetworkPdfManager, BasePdfManager, {
ensure: function NetworkPdfManager_ensure(obj, prop, args) {
var pdfManager = this;
return new Promise(function (resolve, reject) {
function ensureHelper() {
try {
var result;
var value = obj[prop];
if (typeof value === 'function') {
result = value.apply(obj, args);
} else {
result = value;
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}
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resolve(result);
} catch(e) {
if (!(e instanceof MissingDataException)) {
reject(e);
return;
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}
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pdfManager.streamManager.requestRange(e.begin, e.end).
then(ensureHelper, reject);
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}
}
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ensureHelper();
});
},
requestRange: function NetworkPdfManager_requestRange(begin, end) {
return this.streamManager.requestRange(begin, end);
},
requestLoadedStream: function NetworkPdfManager_requestLoadedStream() {
this.streamManager.requestAllChunks();
},
sendProgressiveData:
function NetworkPdfManager_sendProgressiveData(chunk) {
this.streamManager.onReceiveData({ chunk: chunk });
},
onLoadedStream: function NetworkPdfManager_onLoadedStream() {
return this.streamManager.onLoadedStream();
},
terminate: function NetworkPdfManager_terminate() {
this.streamManager.abort();
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}
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});
return NetworkPdfManager;
})();
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exports.LocalPdfManager = LocalPdfManager;
exports.NetworkPdfManager = NetworkPdfManager;
}));
(function (root, factory) {
{
factory((root.pdfjsCoreWorker = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCorePdfManager);
}
}(this, function (exports, sharedUtil, corePrimitives, corePdfManager) {
var UNSUPPORTED_FEATURES = sharedUtil.UNSUPPORTED_FEATURES;
var InvalidPDFException = sharedUtil.InvalidPDFException;
var MessageHandler = sharedUtil.MessageHandler;
var MissingPDFException = sharedUtil.MissingPDFException;
var UnexpectedResponseException = sharedUtil.UnexpectedResponseException;
var PasswordException = sharedUtil.PasswordException;
var PasswordResponses = sharedUtil.PasswordResponses;
var UnknownErrorException = sharedUtil.UnknownErrorException;
var XRefParseException = sharedUtil.XRefParseException;
var arrayByteLength = sharedUtil.arrayByteLength;
var arraysToBytes = sharedUtil.arraysToBytes;
var assert = sharedUtil.assert;
var createPromiseCapability = sharedUtil.createPromiseCapability;
var error = sharedUtil.error;
var info = sharedUtil.info;
var warn = sharedUtil.warn;
var setVerbosityLevel = sharedUtil.setVerbosityLevel;
var Ref = corePrimitives.Ref;
var LocalPdfManager = corePdfManager.LocalPdfManager;
var NetworkPdfManager = corePdfManager.NetworkPdfManager;
var globalScope = sharedUtil.globalScope;
var WorkerTask = (function WorkerTaskClosure() {
function WorkerTask(name) {
this.name = name;
this.terminated = false;
this._capability = createPromiseCapability();
}
WorkerTask.prototype = {
get finished() {
return this._capability.promise;
},
finish: function () {
this._capability.resolve();
},
terminate: function () {
this.terminated = true;
},
ensureNotTerminated: function () {
if (this.terminated) {
throw new Error('Worker task was terminated');
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}
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}
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};
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return WorkerTask;
})();
/** @implements {IPDFStream} */
var PDFWorkerStream = (function PDFWorkerStreamClosure() {
function PDFWorkerStream(params, msgHandler) {
this._queuedChunks = [];
var initialData = params.initialData;
if (initialData && initialData.length > 0) {
this._queuedChunks.push(initialData);
}
this._msgHandler = msgHandler;
this._isRangeSupported = !(params.disableRange);
this._isStreamingSupported = !(params.disableStream);
this._contentLength = params.length;
this._fullRequestReader = null;
this._rangeReaders = [];
msgHandler.on('OnDataRange', this._onReceiveData.bind(this));
msgHandler.on('OnDataProgress', this._onProgress.bind(this));
}
PDFWorkerStream.prototype = {
_onReceiveData: function PDFWorkerStream_onReceiveData(args) {
if (args.begin === undefined) {
if (this._fullRequestReader) {
this._fullRequestReader._enqueue(args.chunk);
} else {
this._queuedChunks.push(args.chunk);
}
} else {
var found = this._rangeReaders.some(function (rangeReader) {
if (rangeReader._begin !== args.begin) {
return false;
}
rangeReader._enqueue(args.chunk);
return true;
});
assert(found);
}
},
_onProgress: function PDFWorkerStream_onProgress(evt) {
if (this._rangeReaders.length > 0) {
// Reporting to first range reader.
var firstReader = this._rangeReaders[0];
if (firstReader.onProgress) {
firstReader.onProgress({loaded: evt.loaded});
}
}
},
_removeRangeReader: function PDFWorkerStream_removeRangeReader(reader) {
var i = this._rangeReaders.indexOf(reader);
if (i >= 0) {
this._rangeReaders.splice(i, 1);
}
},
getFullReader: function PDFWorkerStream_getFullReader() {
assert(!this._fullRequestReader);
var queuedChunks = this._queuedChunks;
this._queuedChunks = null;
return new PDFWorkerStreamReader(this, queuedChunks);
},
getRangeReader: function PDFWorkerStream_getRangeReader(begin, end) {
var reader = new PDFWorkerStreamRangeReader(this, begin, end);
this._msgHandler.send('RequestDataRange', { begin: begin, end: end });
this._rangeReaders.push(reader);
return reader;
},
cancelAllRequests: function PDFWorkerStream_cancelAllRequests(reason) {
if (this._fullRequestReader) {
this._fullRequestReader.cancel(reason);
}
var readers = this._rangeReaders.slice(0);
readers.forEach(function (rangeReader) {
rangeReader.cancel(reason);
});
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}
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};
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/** @implements {IPDFStreamReader} */
function PDFWorkerStreamReader(stream, queuedChunks) {
this._stream = stream;
this._done = false;
this._queuedChunks = queuedChunks || [];
this._requests = [];
this._headersReady = Promise.resolve();
stream._fullRequestReader = this;
this.onProgress = null; // not used
}
PDFWorkerStreamReader.prototype = {
_enqueue: function PDFWorkerStreamReader_enqueue(chunk) {
if (this._done) {
return; // ignore new data
}
if (this._requests.length > 0) {
var requestCapability = this._requests.shift();
requestCapability.resolve({value: chunk, done: false});
return;
}
this._queuedChunks.push(chunk);
},
get headersReady() {
return this._headersReady;
},
get isRangeSupported() {
return this._stream._isRangeSupported;
},
get isStreamingSupported() {
return this._stream._isStreamingSupported;
},
get contentLength() {
return this._stream._contentLength;
},
read: function PDFWorkerStreamReader_read() {
if (this._queuedChunks.length > 0) {
var chunk = this._queuedChunks.shift();
return Promise.resolve({value: chunk, done: false});
}
if (this._done) {
return Promise.resolve({value: undefined, done: true});
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}
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var requestCapability = createPromiseCapability();
this._requests.push(requestCapability);
return requestCapability.promise;
},
cancel: function PDFWorkerStreamReader_cancel(reason) {
this._done = true;
this._requests.forEach(function (requestCapability) {
requestCapability.resolve({value: undefined, done: true});
});
this._requests = [];
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}
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};
/** @implements {IPDFStreamRangeReader} */
function PDFWorkerStreamRangeReader(stream, begin, end) {
this._stream = stream;
this._begin = begin;
this._end = end;
this._queuedChunk = null;
this._requests = [];
this._done = false;
this.onProgress = null;
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}
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PDFWorkerStreamRangeReader.prototype = {
_enqueue: function PDFWorkerStreamRangeReader_enqueue(chunk) {
if (this._done) {
return; // ignore new data
}
if (this._requests.length === 0) {
this._queuedChunk = chunk;
} else {
var requestsCapability = this._requests.shift();
requestsCapability.resolve({value: chunk, done: false});
this._requests.forEach(function (requestCapability) {
requestCapability.resolve({value: undefined, done: true});
});
this._requests = [];
}
this._done = true;
this._stream._removeRangeReader(this);
},
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get isStreamingSupported() {
return false;
},
read: function PDFWorkerStreamRangeReader_read() {
if (this._queuedChunk) {
return Promise.resolve({value: this._queuedChunk, done: false});
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}
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if (this._done) {
return Promise.resolve({value: undefined, done: true});
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}
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var requestCapability = createPromiseCapability();
this._requests.push(requestCapability);
return requestCapability.promise;
},
cancel: function PDFWorkerStreamRangeReader_cancel(reason) {
this._done = true;
this._requests.forEach(function (requestCapability) {
requestCapability.resolve({value: undefined, done: true});
});
this._requests = [];
this._stream._removeRangeReader(this);
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}
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};
return PDFWorkerStream;
})();
/** @type IPDFStream */
var PDFNetworkStream;
/**
* Sets PDFNetworkStream class to be used as alternative PDF data transport.
* @param {IPDFStream} cls - the PDF data transport.
*/
function setPDFNetworkStreamClass(cls) {
PDFNetworkStream = cls;
}
var WorkerMessageHandler = {
setup: function wphSetup(handler, port) {
var testMessageProcessed = false;
handler.on('test', function wphSetupTest(data) {
if (testMessageProcessed) {
return; // we already processed 'test' message once
}
testMessageProcessed = true;
// check if Uint8Array can be sent to worker
if (!(data instanceof Uint8Array)) {
handler.send('test', 'main', false);
return;
}
// making sure postMessage transfers are working
var supportTransfers = data[0] === 255;
handler.postMessageTransfers = supportTransfers;
// check if the response property is supported by xhr
var xhr = new XMLHttpRequest();
var responseExists = 'response' in xhr;
// check if the property is actually implemented
try {
var dummy = xhr.responseType;
} catch (e) {
responseExists = false;
}
if (!responseExists) {
handler.send('test', false);
return;
}
handler.send('test', {
supportTypedArray: true,
supportTransfers: supportTransfers
});
});
handler.on('configure', function wphConfigure(data) {
setVerbosityLevel(data.verbosity);
});
handler.on('GetDocRequest', function wphSetupDoc(data) {
return WorkerMessageHandler.createDocumentHandler(data, port);
});
},
createDocumentHandler: function wphCreateDocumentHandler(docParams, port) {
// This context is actually holds references on pdfManager and handler,
// until the latter is destroyed.
var pdfManager;
var terminated = false;
var cancelXHRs = null;
var WorkerTasks = [];
var docId = docParams.docId;
var workerHandlerName = docParams.docId + '_worker';
var handler = new MessageHandler(workerHandlerName, docId, port);
// Ensure that postMessage transfers are correctly enabled/disabled,
// to prevent "DataCloneError" in older versions of IE (see issue 6957).
handler.postMessageTransfers = docParams.postMessageTransfers;
function ensureNotTerminated() {
if (terminated) {
throw new Error('Worker was terminated');
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}
}
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function startWorkerTask(task) {
WorkerTasks.push(task);
}
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function finishWorkerTask(task) {
task.finish();
var i = WorkerTasks.indexOf(task);
WorkerTasks.splice(i, 1);
}
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function loadDocument(recoveryMode) {
var loadDocumentCapability = createPromiseCapability();
var parseSuccess = function parseSuccess() {
var numPagesPromise = pdfManager.ensureDoc('numPages');
var fingerprintPromise = pdfManager.ensureDoc('fingerprint');
var encryptedPromise = pdfManager.ensureXRef('encrypt');
Promise.all([numPagesPromise, fingerprintPromise,
encryptedPromise]).then(function onDocReady(results) {
var doc = {
numPages: results[0],
fingerprint: results[1],
encrypted: !!results[2],
};
loadDocumentCapability.resolve(doc);
},
parseFailure);
};
var parseFailure = function parseFailure(e) {
loadDocumentCapability.reject(e);
};
pdfManager.ensureDoc('checkHeader', []).then(function() {
pdfManager.ensureDoc('parseStartXRef', []).then(function() {
pdfManager.ensureDoc('parse', [recoveryMode]).then(
parseSuccess, parseFailure);
}, parseFailure);
}, parseFailure);
return loadDocumentCapability.promise;
}
function getPdfManager(data, evaluatorOptions) {
var pdfManagerCapability = createPromiseCapability();
var pdfManager;
var source = data.source;
if (source.data) {
try {
pdfManager = new LocalPdfManager(docId, source.data, source.password,
evaluatorOptions);
pdfManagerCapability.resolve(pdfManager);
} catch (ex) {
pdfManagerCapability.reject(ex);
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}
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return pdfManagerCapability.promise;
}
var pdfStream;
try {
if (source.chunkedViewerLoading) {
pdfStream = new PDFWorkerStream(source, handler);
} else {
assert(PDFNetworkStream, 'pdfjs/core/network module is not loaded');
pdfStream = new PDFNetworkStream(data);
}
} catch (ex) {
pdfManagerCapability.reject(ex);
return pdfManagerCapability.promise;
}
var fullRequest = pdfStream.getFullReader();
fullRequest.headersReady.then(function () {
if (!fullRequest.isStreamingSupported ||
!fullRequest.isRangeSupported) {
// If stream or range are disabled, it's our only way to report
// loading progress.
fullRequest.onProgress = function (evt) {
handler.send('DocProgress', {
loaded: evt.loaded,
total: evt.total
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});
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};
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}
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if (!fullRequest.isRangeSupported) {
return;
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}
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// We don't need auto-fetch when streaming is enabled.
var disableAutoFetch = source.disableAutoFetch ||
fullRequest.isStreamingSupported;
pdfManager = new NetworkPdfManager(docId, pdfStream, {
msgHandler: handler,
url: source.url,
password: source.password,
length: fullRequest.contentLength,
disableAutoFetch: disableAutoFetch,
rangeChunkSize: source.rangeChunkSize
}, evaluatorOptions);
pdfManagerCapability.resolve(pdfManager);
cancelXHRs = null;
}).catch(function (reason) {
pdfManagerCapability.reject(reason);
cancelXHRs = null;
});
var cachedChunks = [], loaded = 0;
var flushChunks = function () {
var pdfFile = arraysToBytes(cachedChunks);
if (source.length && pdfFile.length !== source.length) {
warn('reported HTTP length is different from actual');
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}
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// the data is array, instantiating directly from it
try {
pdfManager = new LocalPdfManager(docId, pdfFile, source.password,
evaluatorOptions);
pdfManagerCapability.resolve(pdfManager);
} catch (ex) {
pdfManagerCapability.reject(ex);
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}
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cachedChunks = [];
};
var readPromise = new Promise(function (resolve, reject) {
var readChunk = function (chunk) {
try {
ensureNotTerminated();
if (chunk.done) {
if (!pdfManager) {
flushChunks();
}
cancelXHRs = null;
return;
}
var data = chunk.value;
loaded += arrayByteLength(data);
if (!fullRequest.isStreamingSupported) {
handler.send('DocProgress', {
loaded: loaded,
total: Math.max(loaded, fullRequest.contentLength || 0)
});
}
if (pdfManager) {
pdfManager.sendProgressiveData(data);
} else {
cachedChunks.push(data);
}
fullRequest.read().then(readChunk, reject);
} catch (e) {
reject(e);
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}
};
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fullRequest.read().then(readChunk, reject);
});
readPromise.catch(function (e) {
pdfManagerCapability.reject(e);
cancelXHRs = null;
});
cancelXHRs = function () {
pdfStream.cancelAllRequests('abort');
};
return pdfManagerCapability.promise;
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}
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var setupDoc = function(data) {
var onSuccess = function(doc) {
ensureNotTerminated();
handler.send('GetDoc', { pdfInfo: doc });
};
var onFailure = function(e) {
if (e instanceof PasswordException) {
if (e.code === PasswordResponses.NEED_PASSWORD) {
handler.send('NeedPassword', e);
} else if (e.code === PasswordResponses.INCORRECT_PASSWORD) {
handler.send('IncorrectPassword', e);
}
} else if (e instanceof InvalidPDFException) {
handler.send('InvalidPDF', e);
} else if (e instanceof MissingPDFException) {
handler.send('MissingPDF', e);
} else if (e instanceof UnexpectedResponseException) {
handler.send('UnexpectedResponse', e);
} else {
handler.send('UnknownError',
new UnknownErrorException(e.message, e.toString()));
}
};
ensureNotTerminated();
var cMapOptions = {
url: data.cMapUrl === undefined ? null : data.cMapUrl,
packed: data.cMapPacked === true
};
var evaluatorOptions = {
forceDataSchema: data.disableCreateObjectURL,
maxImageSize: data.maxImageSize === undefined ? -1 : data.maxImageSize,
disableFontFace: data.disableFontFace,
cMapOptions: cMapOptions
};
getPdfManager(data, evaluatorOptions).then(function (newPdfManager) {
if (terminated) {
// We were in a process of setting up the manager, but it got
// terminated in the middle.
newPdfManager.terminate();
throw new Error('Worker was terminated');
}
pdfManager = newPdfManager;
handler.send('PDFManagerReady', null);
pdfManager.onLoadedStream().then(function(stream) {
handler.send('DataLoaded', { length: stream.bytes.byteLength });
});
}).then(function pdfManagerReady() {
ensureNotTerminated();
loadDocument(false).then(onSuccess, function loadFailure(ex) {
ensureNotTerminated();
// Try again with recoveryMode == true
if (!(ex instanceof XRefParseException)) {
if (ex instanceof PasswordException) {
// after password exception prepare to receive a new password
// to repeat loading
pdfManager.passwordChanged().then(pdfManagerReady);
}
onFailure(ex);
return;
}
pdfManager.requestLoadedStream();
pdfManager.onLoadedStream().then(function() {
ensureNotTerminated();
loadDocument(true).then(onSuccess, onFailure);
});
}, onFailure);
}, onFailure);
};
handler.on('GetPage', function wphSetupGetPage(data) {
return pdfManager.getPage(data.pageIndex).then(function(page) {
var rotatePromise = pdfManager.ensure(page, 'rotate');
var refPromise = pdfManager.ensure(page, 'ref');
var viewPromise = pdfManager.ensure(page, 'view');
return Promise.all([rotatePromise, refPromise, viewPromise]).then(
function(results) {
return {
rotate: results[0],
ref: results[1],
view: results[2]
};
});
});
});
handler.on('GetPageIndex', function wphSetupGetPageIndex(data) {
var ref = new Ref(data.ref.num, data.ref.gen);
var catalog = pdfManager.pdfDocument.catalog;
return catalog.getPageIndex(ref);
});
handler.on('GetDestinations',
function wphSetupGetDestinations(data) {
return pdfManager.ensureCatalog('destinations');
}
);
handler.on('GetDestination',
function wphSetupGetDestination(data) {
return pdfManager.ensureCatalog('getDestination', [data.id]);
}
);
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handler.on('GetPageLabels',
function wphSetupGetPageLabels(data) {
return pdfManager.ensureCatalog('pageLabels');
}
);
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handler.on('GetAttachments',
function wphSetupGetAttachments(data) {
return pdfManager.ensureCatalog('attachments');
}
);
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handler.on('GetJavaScript',
function wphSetupGetJavaScript(data) {
return pdfManager.ensureCatalog('javaScript');
}
);
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handler.on('GetOutline',
function wphSetupGetOutline(data) {
return pdfManager.ensureCatalog('documentOutline');
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}
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);
handler.on('GetMetadata',
function wphSetupGetMetadata(data) {
return Promise.all([pdfManager.ensureDoc('documentInfo'),
pdfManager.ensureCatalog('metadata')]);
}
);
handler.on('GetData', function wphSetupGetData(data) {
pdfManager.requestLoadedStream();
return pdfManager.onLoadedStream().then(function(stream) {
return stream.bytes;
});
});
handler.on('GetStats',
function wphSetupGetStats(data) {
return pdfManager.pdfDocument.xref.stats;
}
);
handler.on('UpdatePassword', function wphSetupUpdatePassword(data) {
pdfManager.updatePassword(data);
});
handler.on('GetAnnotations', function wphSetupGetAnnotations(data) {
return pdfManager.getPage(data.pageIndex).then(function(page) {
return pdfManager.ensure(page, 'getAnnotationsData', [data.intent]);
});
});
handler.on('RenderPageRequest', function wphSetupRenderPage(data) {
var pageIndex = data.pageIndex;
pdfManager.getPage(pageIndex).then(function(page) {
var task = new WorkerTask('RenderPageRequest: page ' + pageIndex);
startWorkerTask(task);
var pageNum = pageIndex + 1;
var start = Date.now();
// Pre compile the pdf page and fetch the fonts/images.
page.getOperatorList(handler, task, data.intent).then(
function(operatorList) {
finishWorkerTask(task);
info('page=' + pageNum + ' - getOperatorList: time=' +
(Date.now() - start) + 'ms, len=' + operatorList.totalLength);
}, function(e) {
finishWorkerTask(task);
if (task.terminated) {
return; // ignoring errors from the terminated thread
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}
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// For compatibility with older behavior, generating unknown
// unsupported feature notification on errors.
handler.send('UnsupportedFeature',
{featureId: UNSUPPORTED_FEATURES.unknown});
var minimumStackMessage =
'worker.js: while trying to getPage() and getOperatorList()';
var wrappedException;
// Turn the error into an obj that can be serialized
if (typeof e === 'string') {
wrappedException = {
message: e,
stack: minimumStackMessage
};
} else if (typeof e === 'object') {
wrappedException = {
message: e.message || e.toString(),
stack: e.stack || minimumStackMessage
};
} else {
wrappedException = {
message: 'Unknown exception type: ' + (typeof e),
stack: minimumStackMessage
};
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}
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handler.send('PageError', {
pageNum: pageNum,
error: wrappedException,
intent: data.intent
});
});
});
}, this);
handler.on('GetTextContent', function wphExtractText(data) {
var pageIndex = data.pageIndex;
var normalizeWhitespace = data.normalizeWhitespace;
return pdfManager.getPage(pageIndex).then(function(page) {
var task = new WorkerTask('GetTextContent: page ' + pageIndex);
startWorkerTask(task);
var pageNum = pageIndex + 1;
var start = Date.now();
return page.extractTextContent(task, normalizeWhitespace).then(
function(textContent) {
finishWorkerTask(task);
info('text indexing: page=' + pageNum + ' - time=' +
(Date.now() - start) + 'ms');
return textContent;
}, function (reason) {
finishWorkerTask(task);
if (task.terminated) {
return; // ignoring errors from the terminated thread
}
throw reason;
});
});
});
handler.on('Cleanup', function wphCleanup(data) {
return pdfManager.cleanup();
});
handler.on('Terminate', function wphTerminate(data) {
terminated = true;
if (pdfManager) {
pdfManager.terminate();
pdfManager = null;
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}
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if (cancelXHRs) {
cancelXHRs();
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}
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var waitOn = [];
WorkerTasks.forEach(function (task) {
waitOn.push(task.finished);
task.terminate();
});
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return Promise.all(waitOn).then(function () {
// Notice that even if we destroying handler, resolved response promise
// must be sent back.
handler.destroy();
handler = null;
});
});
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handler.on('Ready', function wphReady(data) {
setupDoc(docParams);
docParams = null; // we don't need docParams anymore -- saving memory.
});
return workerHandlerName;
}
};
function initializeWorker() {
if (!('console' in globalScope)) {
var consoleTimer = {};
var workerConsole = {
log: function log() {
var args = Array.prototype.slice.call(arguments);
globalScope.postMessage({
targetName: 'main',
action: 'console_log',
data: args
});
},
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error: function error() {
var args = Array.prototype.slice.call(arguments);
globalScope.postMessage({
targetName: 'main',
action: 'console_error',
data: args
});
throw 'pdf.js execution error';
},
time: function time(name) {
consoleTimer[name] = Date.now();
},
timeEnd: function timeEnd(name) {
var time = consoleTimer[name];
if (!time) {
error('Unknown timer name ' + name);
}
this.log('Timer:', name, Date.now() - time);
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}
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};
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globalScope.console = workerConsole;
}
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var handler = new MessageHandler('worker', 'main', self);
WorkerMessageHandler.setup(handler, self);
handler.send('ready', null);
}
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// Worker thread (and not node.js)?
if (typeof window === 'undefined' &&
!(typeof module !== 'undefined' && module.require)) {
initializeWorker();
}
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exports.setPDFNetworkStreamClass = setPDFNetworkStreamClass;
exports.WorkerTask = WorkerTask;
exports.WorkerMessageHandler = WorkerMessageHandler;
}));
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var NetworkManager = (function NetworkManagerClosure() {
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var OK_RESPONSE = 200;
var PARTIAL_CONTENT_RESPONSE = 206;
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function NetworkManager(url, args) {
this.url = url;
args = args || {};
this.isHttp = /^https?:/i.test(url);
this.httpHeaders = (this.isHttp && args.httpHeaders) || {};
this.withCredentials = args.withCredentials || false;
this.getXhr = args.getXhr ||
function NetworkManager_getXhr() {
return new XMLHttpRequest();
};
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this.currXhrId = 0;
this.pendingRequests = Object.create(null);
this.loadedRequests = Object.create(null);
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}
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function getArrayBuffer(xhr) {
var data = xhr.response;
if (typeof data !== 'string') {
return data;
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}
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var length = data.length;
var array = new Uint8Array(length);
for (var i = 0; i < length; i++) {
array[i] = data.charCodeAt(i) & 0xFF;
}
return array.buffer;
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}
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var supportsMozChunked = (function supportsMozChunkedClosure() {
try {
var x = new XMLHttpRequest();
// Firefox 37- required .open() to be called before setting responseType.
// https://bugzilla.mozilla.org/show_bug.cgi?id=707484
// Even though the URL is not visited, .open() could fail if the URL is
// blocked, e.g. via the connect-src CSP directive or the NoScript addon.
// When this error occurs, this feature detection method will mistakenly
// report that moz-chunked-arraybuffer is not supported in Firefox 37-.
x.open('GET', 'https://example.com');
x.responseType = 'moz-chunked-arraybuffer';
return x.responseType === 'moz-chunked-arraybuffer';
} catch (e) {
return false;
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}
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})();
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NetworkManager.prototype = {
requestRange: function NetworkManager_requestRange(begin, end, listeners) {
var args = {
begin: begin,
end: end
};
for (var prop in listeners) {
args[prop] = listeners[prop];
}
return this.request(args);
},
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requestFull: function NetworkManager_requestFull(listeners) {
return this.request(listeners);
},
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request: function NetworkManager_request(args) {
var xhr = this.getXhr();
var xhrId = this.currXhrId++;
var pendingRequest = this.pendingRequests[xhrId] = {
xhr: xhr
};
xhr.open('GET', this.url);
xhr.withCredentials = this.withCredentials;
for (var property in this.httpHeaders) {
var value = this.httpHeaders[property];
if (typeof value === 'undefined') {
continue;
}
xhr.setRequestHeader(property, value);
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}
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if (this.isHttp && 'begin' in args && 'end' in args) {
var rangeStr = args.begin + '-' + (args.end - 1);
xhr.setRequestHeader('Range', 'bytes=' + rangeStr);
pendingRequest.expectedStatus = 206;
} else {
pendingRequest.expectedStatus = 200;
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}
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var useMozChunkedLoading = supportsMozChunked && !!args.onProgressiveData;
if (useMozChunkedLoading) {
xhr.responseType = 'moz-chunked-arraybuffer';
pendingRequest.onProgressiveData = args.onProgressiveData;
pendingRequest.mozChunked = true;
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} else {
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xhr.responseType = 'arraybuffer';
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}
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if (args.onError) {
xhr.onerror = function(evt) {
args.onError(xhr.status);
};
}
xhr.onreadystatechange = this.onStateChange.bind(this, xhrId);
xhr.onprogress = this.onProgress.bind(this, xhrId);
pendingRequest.onHeadersReceived = args.onHeadersReceived;
pendingRequest.onDone = args.onDone;
pendingRequest.onError = args.onError;
pendingRequest.onProgress = args.onProgress;
xhr.send(null);
return xhrId;
},
onProgress: function NetworkManager_onProgress(xhrId, evt) {
var pendingRequest = this.pendingRequests[xhrId];
if (!pendingRequest) {
// Maybe abortRequest was called...
return;
}
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if (pendingRequest.mozChunked) {
var chunk = getArrayBuffer(pendingRequest.xhr);
pendingRequest.onProgressiveData(chunk);
}
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var onProgress = pendingRequest.onProgress;
if (onProgress) {
onProgress(evt);
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}
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},
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onStateChange: function NetworkManager_onStateChange(xhrId, evt) {
var pendingRequest = this.pendingRequests[xhrId];
if (!pendingRequest) {
// Maybe abortRequest was called...
return;
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}
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var xhr = pendingRequest.xhr;
if (xhr.readyState >= 2 && pendingRequest.onHeadersReceived) {
pendingRequest.onHeadersReceived();
delete pendingRequest.onHeadersReceived;
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}
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if (xhr.readyState !== 4) {
return;
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}
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if (!(xhrId in this.pendingRequests)) {
// The XHR request might have been aborted in onHeadersReceived()
// callback, in which case we should abort request
return;
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}
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delete this.pendingRequests[xhrId];
// success status == 0 can be on ftp, file and other protocols
if (xhr.status === 0 && this.isHttp) {
if (pendingRequest.onError) {
pendingRequest.onError(xhr.status);
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}
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return;
}
var xhrStatus = xhr.status || OK_RESPONSE;
// From http://www.w3.org/Protocols/rfc2616/rfc2616-sec14.html#sec14.35.2:
// "A server MAY ignore the Range header". This means it's possible to
// get a 200 rather than a 206 response from a range request.
var ok_response_on_range_request =
xhrStatus === OK_RESPONSE &&
pendingRequest.expectedStatus === PARTIAL_CONTENT_RESPONSE;
if (!ok_response_on_range_request &&
xhrStatus !== pendingRequest.expectedStatus) {
if (pendingRequest.onError) {
pendingRequest.onError(xhr.status);
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}
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return;
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}
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this.loadedRequests[xhrId] = true;
var chunk = getArrayBuffer(xhr);
if (xhrStatus === PARTIAL_CONTENT_RESPONSE) {
var rangeHeader = xhr.getResponseHeader('Content-Range');
var matches = /bytes (\d+)-(\d+)\/(\d+)/.exec(rangeHeader);
var begin = parseInt(matches[1], 10);
pendingRequest.onDone({
begin: begin,
chunk: chunk
});
} else if (pendingRequest.onProgressiveData) {
pendingRequest.onDone(null);
} else if (chunk) {
pendingRequest.onDone({
begin: 0,
chunk: chunk
});
} else if (pendingRequest.onError) {
pendingRequest.onError(xhr.status);
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}
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},
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hasPendingRequests: function NetworkManager_hasPendingRequests() {
for (var xhrId in this.pendingRequests) {
return true;
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}
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return false;
},
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getRequestXhr: function NetworkManager_getXhr(xhrId) {
return this.pendingRequests[xhrId].xhr;
},
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isStreamingRequest: function NetworkManager_isStreamingRequest(xhrId) {
return !!(this.pendingRequests[xhrId].onProgressiveData);
},
isPendingRequest: function NetworkManager_isPendingRequest(xhrId) {
return xhrId in this.pendingRequests;
},
isLoadedRequest: function NetworkManager_isLoadedRequest(xhrId) {
return xhrId in this.loadedRequests;
},
abortAllRequests: function NetworkManager_abortAllRequests() {
for (var xhrId in this.pendingRequests) {
this.abortRequest(xhrId | 0);
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}
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},
abortRequest: function NetworkManager_abortRequest(xhrId) {
var xhr = this.pendingRequests[xhrId].xhr;
delete this.pendingRequests[xhrId];
xhr.abort();
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}
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};
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return NetworkManager;
})();
(function (root, factory) {
{
factory((root.pdfjsCoreNetwork = {}), root.pdfjsSharedUtil,
root.pdfjsCoreWorker);
}
}(this, function (exports, sharedUtil, coreWorker) {
var assert = sharedUtil.assert;
var createPromiseCapability = sharedUtil.createPromiseCapability;
var isInt = sharedUtil.isInt;
var MissingPDFException = sharedUtil.MissingPDFException;
var UnexpectedResponseException = sharedUtil.UnexpectedResponseException;
/** @implements {IPDFStream} */
function PDFNetworkStream(options) {
this._options = options;
var source = options.source;
this._manager = new NetworkManager(source.url, {
httpHeaders: source.httpHeaders,
withCredentials: source.withCredentials
});
this._rangeChunkSize = source.rangeChunkSize;
this._fullRequestReader = null;
this._rangeRequestReaders = [];
}
PDFNetworkStream.prototype = {
_onRangeRequestReaderClosed:
function PDFNetworkStream_onRangeRequestReaderClosed(reader) {
var i = this._rangeRequestReaders.indexOf(reader);
if (i >= 0) {
this._rangeRequestReaders.splice(i, 1);
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}
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},
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getFullReader: function PDFNetworkStream_getFullReader() {
assert(!this._fullRequestReader);
this._fullRequestReader =
new PDFNetworkStreamFullRequestReader(this._manager, this._options);
return this._fullRequestReader;
},
getRangeReader: function PDFNetworkStream_getRangeReader(begin, end) {
var reader = new PDFNetworkStreamRangeRequestReader(this._manager,
begin, end);
reader.onClosed = this._onRangeRequestReaderClosed.bind(this);
this._rangeRequestReaders.push(reader);
return reader;
},
cancelAllRequests: function PDFNetworkStream_cancelAllRequests(reason) {
if (this._fullRequestReader) {
this._fullRequestReader.cancel(reason);
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}
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var readers = this._rangeRequestReaders.slice(0);
readers.forEach(function (reader) {
reader.cancel(reason);
});
}
};
/** @implements {IPDFStreamReader} */
function PDFNetworkStreamFullRequestReader(manager, options) {
this._manager = manager;
var source = options.source;
var args = {
onHeadersReceived: this._onHeadersReceived.bind(this),
onProgressiveData: source.disableStream ? null :
this._onProgressiveData.bind(this),
onDone: this._onDone.bind(this),
onError: this._onError.bind(this),
onProgress: this._onProgress.bind(this)
};
this._url = source.url;
this._fullRequestId = manager.requestFull(args);
this._headersReceivedCapability = createPromiseCapability();
this._disableRange = options.disableRange || false;
this._contentLength = source.length; // optional
this._rangeChunkSize = source.rangeChunkSize;
if (!this._rangeChunkSize && !this._disableRange) {
this._disableRange = true;
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}
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this._isStreamingSupported = false;
this._isRangeSupported = false;
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this._cachedChunks = [];
this._requests = [];
this._done = false;
this._storedError = undefined;
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this.onProgress = null;
}
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PDFNetworkStreamFullRequestReader.prototype = {
_validateRangeRequestCapabilities: function
PDFNetworkStreamFullRequestReader_validateRangeRequestCapabilities() {
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if (this._disableRange) {
return false;
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}
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var networkManager = this._manager;
var fullRequestXhrId = this._fullRequestId;
var fullRequestXhr = networkManager.getRequestXhr(fullRequestXhrId);
if (fullRequestXhr.getResponseHeader('Accept-Ranges') !== 'bytes') {
return false;
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}
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var contentEncoding =
fullRequestXhr.getResponseHeader('Content-Encoding') || 'identity';
if (contentEncoding !== 'identity') {
return false;
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}
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var length = fullRequestXhr.getResponseHeader('Content-Length');
length = parseInt(length, 10);
if (!isInt(length)) {
return false;
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}
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this._contentLength = length; // setting right content length
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if (length <= 2 * this._rangeChunkSize) {
// The file size is smaller than the size of two chunks, so it does
// not make any sense to abort the request and retry with a range
// request.
return false;
}
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return true;
},
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_onHeadersReceived:
function PDFNetworkStreamFullRequestReader_onHeadersReceived() {
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if (this._validateRangeRequestCapabilities()) {
this._isRangeSupported = true;
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}
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var networkManager = this._manager;
var fullRequestXhrId = this._fullRequestId;
if (networkManager.isStreamingRequest(fullRequestXhrId)) {
// We can continue fetching when progressive loading is enabled,
// and we don't need the autoFetch feature.
this._isStreamingSupported = true;
} else if (this._isRangeSupported) {
// NOTE: by cancelling the full request, and then issuing range
// requests, there will be an issue for sites where you can only
// request the pdf once. However, if this is the case, then the
// server should not be returning that it can support range
// requests.
networkManager.abortRequest(fullRequestXhrId);
}
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this._headersReceivedCapability.resolve();
},
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_onProgressiveData:
function PDFNetworkStreamFullRequestReader_onProgressiveData(chunk) {
if (this._requests.length > 0) {
var requestCapability = this._requests.shift();
requestCapability.resolve({value: chunk, done: false});
} else {
this._cachedChunks.push(chunk);
}
},
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_onDone: function PDFNetworkStreamFullRequestReader_onDone(args) {
if (args) {
this._onProgressiveData(args.chunk);
}
this._done = true;
if (this._cachedChunks.length > 0) {
return;
}
this._requests.forEach(function (requestCapability) {
requestCapability.resolve({value: undefined, done: true});
});
this._requests = [];
},
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_onError: function PDFNetworkStreamFullRequestReader_onError(status) {
var url = this._url;
var exception;
if (status === 404 || status === 0 && /^file:/.test(url)) {
exception = new MissingPDFException('Missing PDF "' + url + '".');
} else {
exception = new UnexpectedResponseException(
'Unexpected server response (' + status +
') while retrieving PDF "' + url + '".', status);
}
this._storedError = exception;
this._headersReceivedCapability.reject(exception);
this._requests.forEach(function (requestCapability) {
requestCapability.reject(exception);
});
this._requests = [];
this._cachedChunks = [];
},
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_onProgress: function PDFNetworkStreamFullRequestReader_onProgress(data) {
if (this.onProgress) {
this.onProgress({
loaded: data.loaded,
total: data.lengthComputable ? data.total : this._contentLength
});
}
},
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get isRangeSupported() {
return this._isRangeSupported;
},
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get isStreamingSupported() {
return this._isStreamingSupported;
},
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get contentLength() {
return this._contentLength;
},
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get headersReady() {
return this._headersReceivedCapability.promise;
},
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read: function PDFNetworkStreamFullRequestReader_read() {
if (this._storedError) {
return Promise.reject(this._storedError);
}
if (this._cachedChunks.length > 0) {
var chunk = this._cachedChunks.shift();
return Promise.resolve(chunk);
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}
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if (this._done) {
return Promise.resolve({value: undefined, done: true});
}
var requestCapability = createPromiseCapability();
this._requests.push(requestCapability);
return requestCapability.promise;
},
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cancel: function PDFNetworkStreamFullRequestReader_cancel(reason) {
this._done = true;
this._headersReceivedCapability.reject(reason);
this._requests.forEach(function (requestCapability) {
requestCapability.resolve({value: undefined, done: true});
});
this._requests = [];
if (this._manager.isPendingRequest(this._fullRequestId)) {
this._manager.abortRequest(this._fullRequestId);
}
this._fullRequestReader = null;
}
};
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/** @implements {IPDFStreamRangeReader} */
function PDFNetworkStreamRangeRequestReader(manager, begin, end) {
this._manager = manager;
var args = {
onDone: this._onDone.bind(this),
onProgress: this._onProgress.bind(this)
};
this._requestId = manager.requestRange(begin, end, args);
this._requests = [];
this._queuedChunk = null;
this._done = false;
this.onProgress = null;
this.onClosed = null;
}
PDFNetworkStreamRangeRequestReader.prototype = {
_close: function PDFNetworkStreamRangeRequestReader_close() {
if (this.onClosed) {
this.onClosed(this);
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}
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},
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_onDone: function PDFNetworkStreamRangeRequestReader_onDone(data) {
var chunk = data.chunk;
if (this._requests.length > 0) {
var requestCapability = this._requests.shift();
requestCapability.resolve({value: chunk, done: false});
} else {
this._queuedChunk = chunk;
}
this._done = true;
this._requests.forEach(function (requestCapability) {
requestCapability.resolve({value: undefined, done: true});
});
this._requests = [];
this._close();
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},
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_onProgress: function PDFNetworkStreamRangeRequestReader_onProgress(evt) {
if (!this.isStreamingSupported && this.onProgress) {
this.onProgress({
loaded: evt.loaded
});
}
},
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get isStreamingSupported() {
return false; // TODO allow progressive range bytes loading
},
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read: function PDFNetworkStreamRangeRequestReader_read() {
if (this._queuedChunk !== null) {
var chunk = this._queuedChunk;
this._queuedChunk = null;
return Promise.resolve({value: chunk, done: false});
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}
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if (this._done) {
return Promise.resolve({value: undefined, done: true});
}
var requestCapability = createPromiseCapability();
this._requests.push(requestCapability);
return requestCapability.promise;
},
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cancel: function PDFNetworkStreamRangeRequestReader_cancel(reason) {
this._done = true;
this._requests.forEach(function (requestCapability) {
requestCapability.resolve({value: undefined, done: true});
});
this._requests = [];
if (this._manager.isPendingRequest(this._requestId)) {
this._manager.abortRequest(this._requestId);
}
this._close();
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}
};
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coreWorker.setPDFNetworkStreamClass(PDFNetworkStream);
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exports.PDFNetworkStream = PDFNetworkStream;
exports.NetworkManager = NetworkManager;
}));
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}).call(pdfjsLibs);
exports.WorkerMessageHandler = pdfjsLibs.pdfjsCoreWorker.WorkerMessageHandler;
}));
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