openmedialibrary_platform_d.../lib/python3.5/site-packages/PIL/FpxImagePlugin.py

#
# THIS IS WORK IN PROGRESS
#
# The Python Imaging Library.
# $Id$
#
# FlashPix support for PIL
#
# History:
# 97-01-25 fl   Created (reads uncompressed RGB images only)
#
# Copyright (c) Secret Labs AB 1997.
# Copyright (c) Fredrik Lundh 1997.
#
# See the README file for information on usage and redistribution.
#


from PIL import Image, ImageFile
from PIL.OleFileIO import i8, i32, MAGIC, OleFileIO

__version__ = "0.1"


# we map from colour field tuples to (mode, rawmode) descriptors
MODES = {
    # opacity
    (0x00007ffe): ("A", "L"),
    # monochrome
    (0x00010000,): ("L", "L"),
    (0x00018000, 0x00017ffe): ("RGBA", "LA"),
    # photo YCC
    (0x00020000, 0x00020001, 0x00020002): ("RGB", "YCC;P"),
    (0x00028000, 0x00028001, 0x00028002, 0x00027ffe): ("RGBA", "YCCA;P"),
    # standard RGB (NIFRGB)
    (0x00030000, 0x00030001, 0x00030002): ("RGB", "RGB"),
    (0x00038000, 0x00038001, 0x00038002, 0x00037ffe): ("RGBA", "RGBA"),
}


#
# --------------------------------------------------------------------

def _accept(prefix):
    return prefix[:8] == MAGIC


##
# Image plugin for the FlashPix images.

class FpxImageFile(ImageFile.ImageFile):

    format = "FPX"
    format_description = "FlashPix"

    def _open(self):
        #
        # read the OLE directory and see if this is a likely
        # to be a FlashPix file

        try:
            self.ole = OleFileIO(self.fp)
        except IOError:
            raise SyntaxError("not an FPX file; invalid OLE file")

        if self.ole.root.clsid != "56616700-C154-11CE-8553-00AA00A1F95B":
            raise SyntaxError("not an FPX file; bad root CLSID")

        self._open_index(1)

    def _open_index(self, index=1):
        #
        # get the Image Contents Property Set

        prop = self.ole.getproperties([
            "Data Object Store %06d" % index,
            "\005Image Contents"
        ])

        # size (highest resolution)

        self.size = prop[0x1000002], prop[0x1000003]

        size = max(self.size)
        i = 1
        while size > 64:
            size = size / 2
            i += 1
        self.maxid = i - 1

        # mode.  instead of using a single field for this, flashpix
        # requires you to specify the mode for each channel in each
        # resolution subimage, and leaves it to the decoder to make
        # sure that they all match.  for now, we'll cheat and assume
        # that this is always the case.

        id = self.maxid << 16

        s = prop[0x2000002 | id]

        colors = []
        for i in range(i32(s, 4)):
            # note: for now, we ignore the "uncalibrated" flag
            colors.append(i32(s, 8+i*4) & 0x7fffffff)

        self.mode, self.rawmode = MODES[tuple(colors)]

        # load JPEG tables, if any
        self.jpeg = {}
        for i in range(256):
            id = 0x3000001 | (i << 16)
            if id in prop:
                self.jpeg[i] = prop[id]

        # print len(self.jpeg), "tables loaded"

        self._open_subimage(1, self.maxid)

    def _open_subimage(self, index=1, subimage=0):
        #
        # setup tile descriptors for a given subimage

        stream = [
            "Data Object Store %06d" % index,
            "Resolution %04d" % subimage,
            "Subimage 0000 Header"
        ]

        fp = self.ole.openstream(stream)

        # skip prefix
        fp.read(28)

        # header stream
        s = fp.read(36)

        size = i32(s, 4), i32(s, 8)
        # tilecount = i32(s, 12)
        tilesize = i32(s, 16), i32(s, 20)
        # channels = i32(s, 24)
        offset = i32(s, 28)
        length = i32(s, 32)

        # print size, self.mode, self.rawmode

        if size != self.size:
            raise IOError("subimage mismatch")

        # get tile descriptors
        fp.seek(28 + offset)
        s = fp.read(i32(s, 12) * length)

        x = y = 0
        xsize, ysize = size
        xtile, ytile = tilesize
        self.tile = []

        for i in range(0, len(s), length):

            compression = i32(s, i+8)

            if compression == 0:
                self.tile.append(("raw", (x, y, x+xtile, y+ytile),
                                 i32(s, i) + 28, (self.rawmode)))

            elif compression == 1:

                # FIXME: the fill decoder is not implemented
                self.tile.append(("fill", (x, y, x+xtile, y+ytile),
                                 i32(s, i) + 28, (self.rawmode, s[12:16])))

            elif compression == 2:

                internal_color_conversion = i8(s[14])
                jpeg_tables = i8(s[15])
                rawmode = self.rawmode

                if internal_color_conversion:
                    # The image is stored as usual (usually YCbCr).
                    if rawmode == "RGBA":
                        # For "RGBA", data is stored as YCbCrA based on
                        # negative RGB. The following trick works around
                        # this problem :
                        jpegmode, rawmode = "YCbCrK", "CMYK"
                    else:
                        jpegmode = None  # let the decoder decide

                else:
                    # The image is stored as defined by rawmode
                    jpegmode = rawmode

                self.tile.append(("jpeg", (x, y, x+xtile, y+ytile),
                                 i32(s, i) + 28, (rawmode, jpegmode)))

                # FIXME: jpeg tables are tile dependent; the prefix
                # data must be placed in the tile descriptor itself!

                if jpeg_tables:
                    self.tile_prefix = self.jpeg[jpeg_tables]

            else:
                raise IOError("unknown/invalid compression")

            x = x + xtile
            if x >= xsize:
                x, y = 0, y + ytile
                if y >= ysize:
                    break  # isn't really required

        self.stream = stream
        self.fp = None

    def load(self):

        if not self.fp:
            self.fp = self.ole.openstream(self.stream[:2] +
                                          ["Subimage 0000 Data"])

        ImageFile.ImageFile.load(self)

#
# --------------------------------------------------------------------

Image.register_open("FPX", FpxImageFile, _accept)

Image.register_extension("FPX", ".fpx")
split platform 2016-02-06 09:36:57 +00:00			`#`
			`# THIS IS WORK IN PROGRESS`
			`#`
			`# The Python Imaging Library.`
			`# $Id$`
			`#`
			`# FlashPix support for PIL`
			`#`
			`# History:`
			`# 97-01-25 fl Created (reads uncompressed RGB images only)`
			`#`
			`# Copyright (c) Secret Labs AB 1997.`
			`# Copyright (c) Fredrik Lundh 1997.`
			`#`
			`# See the README file for information on usage and redistribution.`
			`#`


			`from PIL import Image, ImageFile`
			`from PIL.OleFileIO import i8, i32, MAGIC, OleFileIO`

			`__version__ = "0.1"`


			`# we map from colour field tuples to (mode, rawmode) descriptors`
			`MODES = {`
			`# opacity`
			`(0x00007ffe): ("A", "L"),`
			`# monochrome`
			`(0x00010000,): ("L", "L"),`
			`(0x00018000, 0x00017ffe): ("RGBA", "LA"),`
			`# photo YCC`
			`(0x00020000, 0x00020001, 0x00020002): ("RGB", "YCC;P"),`
			`(0x00028000, 0x00028001, 0x00028002, 0x00027ffe): ("RGBA", "YCCA;P"),`
			`# standard RGB (NIFRGB)`
			`(0x00030000, 0x00030001, 0x00030002): ("RGB", "RGB"),`
			`(0x00038000, 0x00038001, 0x00038002, 0x00037ffe): ("RGBA", "RGBA"),`
			`}`


			`#`
			`# --------------------------------------------------------------------`

			`def _accept(prefix):`
			`return prefix[:8] == MAGIC`


			`##`
			`# Image plugin for the FlashPix images.`

			`class FpxImageFile(ImageFile.ImageFile):`

			`format = "FPX"`
			`format_description = "FlashPix"`

			`def _open(self):`
			`#`
			`# read the OLE directory and see if this is a likely`
			`# to be a FlashPix file`

			`try:`
			`self.ole = OleFileIO(self.fp)`
			`except IOError:`
			`raise SyntaxError("not an FPX file; invalid OLE file")`

			`if self.ole.root.clsid != "56616700-C154-11CE-8553-00AA00A1F95B":`
			`raise SyntaxError("not an FPX file; bad root CLSID")`

			`self._open_index(1)`

			`def _open_index(self, index=1):`
			`#`
			`# get the Image Contents Property Set`

			`prop = self.ole.getproperties([`
			`"Data Object Store %06d" % index,`
			`"\005Image Contents"`
			`])`

			`# size (highest resolution)`

			`self.size = prop[0x1000002], prop[0x1000003]`

			`size = max(self.size)`
			`i = 1`
			`while size > 64:`
			`size = size / 2`
			`i += 1`
			`self.maxid = i - 1`

			`# mode. instead of using a single field for this, flashpix`
			`# requires you to specify the mode for each channel in each`
			`# resolution subimage, and leaves it to the decoder to make`
			`# sure that they all match. for now, we'll cheat and assume`
			`# that this is always the case.`

			`id = self.maxid << 16`

			`s = prop[0x2000002 \| id]`

			`colors = []`
			`for i in range(i32(s, 4)):`
			`# note: for now, we ignore the "uncalibrated" flag`
			`colors.append(i32(s, 8+i*4) & 0x7fffffff)`

			`self.mode, self.rawmode = MODES[tuple(colors)]`

			`# load JPEG tables, if any`
			`self.jpeg = {}`
			`for i in range(256):`
			`id = 0x3000001 \| (i << 16)`
			`if id in prop:`
			`self.jpeg[i] = prop[id]`

			`# print len(self.jpeg), "tables loaded"`

			`self._open_subimage(1, self.maxid)`

			`def _open_subimage(self, index=1, subimage=0):`
			`#`
			`# setup tile descriptors for a given subimage`

			`stream = [`
			`"Data Object Store %06d" % index,`
			`"Resolution %04d" % subimage,`
			`"Subimage 0000 Header"`
			`]`

			`fp = self.ole.openstream(stream)`

			`# skip prefix`
			`fp.read(28)`

			`# header stream`
			`s = fp.read(36)`

			`size = i32(s, 4), i32(s, 8)`
			`# tilecount = i32(s, 12)`
			`tilesize = i32(s, 16), i32(s, 20)`
			`# channels = i32(s, 24)`
			`offset = i32(s, 28)`
			`length = i32(s, 32)`

			`# print size, self.mode, self.rawmode`

			`if size != self.size:`
			`raise IOError("subimage mismatch")`

			`# get tile descriptors`
			`fp.seek(28 + offset)`
			`s = fp.read(i32(s, 12) * length)`

			`x = y = 0`
			`xsize, ysize = size`
			`xtile, ytile = tilesize`
			`self.tile = []`

			`for i in range(0, len(s), length):`

			`compression = i32(s, i+8)`

			`if compression == 0:`
			`self.tile.append(("raw", (x, y, x+xtile, y+ytile),`
			`i32(s, i) + 28, (self.rawmode)))`

			`elif compression == 1:`

			`# FIXME: the fill decoder is not implemented`
			`self.tile.append(("fill", (x, y, x+xtile, y+ytile),`
			`i32(s, i) + 28, (self.rawmode, s[12:16])))`

			`elif compression == 2:`

			`internal_color_conversion = i8(s[14])`
			`jpeg_tables = i8(s[15])`
			`rawmode = self.rawmode`

			`if internal_color_conversion:`
			`# The image is stored as usual (usually YCbCr).`
			`if rawmode == "RGBA":`
			`# For "RGBA", data is stored as YCbCrA based on`
			`# negative RGB. The following trick works around`
			`# this problem :`
			`jpegmode, rawmode = "YCbCrK", "CMYK"`
			`else:`
			`jpegmode = None # let the decoder decide`

			`else:`
			`# The image is stored as defined by rawmode`
			`jpegmode = rawmode`

			`self.tile.append(("jpeg", (x, y, x+xtile, y+ytile),`
			`i32(s, i) + 28, (rawmode, jpegmode)))`

			`# FIXME: jpeg tables are tile dependent; the prefix`
			`# data must be placed in the tile descriptor itself!`

			`if jpeg_tables:`
			`self.tile_prefix = self.jpeg[jpeg_tables]`

			`else:`
			`raise IOError("unknown/invalid compression")`

			`x = x + xtile`
			`if x >= xsize:`
			`x, y = 0, y + ytile`
			`if y >= ysize:`
			`break # isn't really required`

			`self.stream = stream`
			`self.fp = None`

			`def load(self):`

			`if not self.fp:`
			`self.fp = self.ole.openstream(self.stream[:2] +`
			`["Subimage 0000 Data"])`

			`ImageFile.ImageFile.load(self)`

			`#`
			`# --------------------------------------------------------------------`

			`Image.register_open("FPX", FpxImageFile, _accept)`

			`Image.register_extension("FPX", ".fpx")`