openmedialibrary_platform_d.../lib/python3.5/site-packages/lxml/html/soupparser.py

"""External interface to the BeautifulSoup HTML parser.
"""

__all__ = ["fromstring", "parse", "convert_tree"]

import re
from lxml import etree, html

try:
    from bs4 import (
        BeautifulSoup, Tag, Comment, ProcessingInstruction, NavigableString,
        Declaration, CData, Doctype)
    _DECLARATION_OR_DOCTYPE = (Declaration, Doctype)
except ImportError:
    from BeautifulSoup import (
        BeautifulSoup, Tag, Comment, ProcessingInstruction, NavigableString,
        Declaration, CData)
    _DECLARATION_OR_DOCTYPE = Declaration


def fromstring(data, beautifulsoup=None, makeelement=None, **bsargs):
    """Parse a string of HTML data into an Element tree using the
    BeautifulSoup parser.

    Returns the root ``<html>`` Element of the tree.

    You can pass a different BeautifulSoup parser through the
    `beautifulsoup` keyword, and a diffent Element factory function
    through the `makeelement` keyword.  By default, the standard
    ``BeautifulSoup`` class and the default factory of `lxml.html` are
    used.
    """
    return _parse(data, beautifulsoup, makeelement, **bsargs)


def parse(file, beautifulsoup=None, makeelement=None, **bsargs):
    """Parse a file into an ElemenTree using the BeautifulSoup parser.

    You can pass a different BeautifulSoup parser through the
    `beautifulsoup` keyword, and a diffent Element factory function
    through the `makeelement` keyword.  By default, the standard
    ``BeautifulSoup`` class and the default factory of `lxml.html` are
    used.
    """
    if not hasattr(file, 'read'):
        file = open(file)
    root = _parse(file, beautifulsoup, makeelement, **bsargs)
    return etree.ElementTree(root)


def convert_tree(beautiful_soup_tree, makeelement=None):
    """Convert a BeautifulSoup tree to a list of Element trees.

    Returns a list instead of a single root Element to support
    HTML-like soup with more than one root element.

    You can pass a different Element factory through the `makeelement`
    keyword.
    """
    root = _convert_tree(beautiful_soup_tree, makeelement)
    children = root.getchildren()
    for child in children:
        root.remove(child)
    return children


# helpers

def _parse(source, beautifulsoup, makeelement, **bsargs):
    if beautifulsoup is None:
        beautifulsoup = BeautifulSoup
    if hasattr(beautifulsoup, "HTML_ENTITIES"):  # bs3
        if 'convertEntities' not in bsargs:
            bsargs['convertEntities'] = 'html'
    if hasattr(beautifulsoup, "DEFAULT_BUILDER_FEATURES"):  # bs4
        if 'features' not in bsargs:
            bsargs['features'] = ['html.parser']  # use Python html parser
    tree = beautifulsoup(source, **bsargs)
    root = _convert_tree(tree, makeelement)
    # from ET: wrap the document in a html root element, if necessary
    if len(root) == 1 and root[0].tag == "html":
        return root[0]
    root.tag = "html"
    return root


_parse_doctype_declaration = re.compile(
    r'(?:\s|[<!])*DOCTYPE\s*HTML'
    r'(?:\s+PUBLIC)?(?:\s+(\'[^\']*\'|"[^"]*"))?'
    r'(?:\s+(\'[^\']*\'|"[^"]*"))?',
    re.IGNORECASE).match


class _PseudoTag:
    # Minimal imitation of BeautifulSoup.Tag
    def __init__(self, contents):
        self.name = 'html'
        self.attrs = []
        self.contents = contents

    def __iter__(self):
        return self.contents.__iter__()


def _convert_tree(beautiful_soup_tree, makeelement):
    if makeelement is None:
        makeelement = html.html_parser.makeelement

    # Split the tree into three parts:
    # i) everything before the root element: document type
    # declaration, comments, processing instructions, whitespace
    # ii) the root(s),
    # iii) everything after the root: comments, processing
    # instructions, whitespace
    first_element_idx = last_element_idx = None
    html_root = declaration = None
    for i, e in enumerate(beautiful_soup_tree):
        if isinstance(e, Tag):
            if first_element_idx is None:
                first_element_idx = i
            last_element_idx = i
            if html_root is None and e.name and e.name.lower() == 'html':
                html_root = e
        elif declaration is None and isinstance(e, _DECLARATION_OR_DOCTYPE):
            declaration = e

    # For a nice, well-formatted document, the variable roots below is
    # a list consisting of a single <html> element. However, the document
    # may be a soup like '<meta><head><title>Hello</head><body>Hi
    # all<\p>'. In this example roots is a list containing meta, head
    # and body elements.
    pre_root = beautiful_soup_tree.contents[:first_element_idx]
    roots = beautiful_soup_tree.contents[first_element_idx:last_element_idx+1]
    post_root = beautiful_soup_tree.contents[last_element_idx+1:]

    # Reorganize so that there is one <html> root...
    if html_root is not None:
        # ... use existing one if possible, ...
        i = roots.index(html_root)
        html_root.contents = roots[:i] + html_root.contents + roots[i+1:]
    else:
        # ... otherwise create a new one.
        html_root = _PseudoTag(roots)

    convert_node = _init_node_converters(makeelement)

    # Process pre_root
    res_root = convert_node(html_root)
    prev = res_root
    for e in reversed(pre_root):
        converted = convert_node(e)
        if converted is not None:
            prev.addprevious(converted)
            prev = converted

    # ditto for post_root
    prev = res_root
    for e in post_root:
        converted = convert_node(e)
        if converted is not None:
            prev.addnext(converted)
            prev = converted

    if declaration is not None:
        try:
            # bs4 provides full Doctype string
            doctype_string = declaration.output_ready()
        except AttributeError:
            doctype_string = declaration.string

        match = _parse_doctype_declaration(doctype_string)
        if not match:
            # Something is wrong if we end up in here. Since soupparser should
            # tolerate errors, do not raise Exception, just let it pass.
            pass
        else:
            external_id, sys_uri = match.groups()
            docinfo = res_root.getroottree().docinfo
            # strip quotes and update DOCTYPE values (any of None, '', '...')
            docinfo.public_id = external_id and external_id[1:-1]
            docinfo.system_url = sys_uri and sys_uri[1:-1]

    return res_root


def _init_node_converters(makeelement):
    converters = {}
    ordered_node_types = []

    def converter(*types):
        def add(handler):
            for t in types:
                converters[t] = handler
                ordered_node_types.append(t)
            return handler
        return add

    def find_best_converter(node):
        for t in ordered_node_types:
            if isinstance(node, t):
                return converters[t]
        return None

    def convert_node(bs_node, parent=None):
        # duplicated in convert_tag() below
        try:
            handler = converters[type(bs_node)]
        except KeyError:
            handler = converters[type(bs_node)] = find_best_converter(bs_node)
        if handler is None:
            return None
        return handler(bs_node, parent)

    def map_attrs(bs_attrs):
        if isinstance(bs_attrs, dict):  # bs4
            attribs = {}
            for k, v in bs_attrs.items():
                if isinstance(v, list):
                    v = " ".join(v)
                attribs[k] = unescape(v)
        else:
            attribs = dict((k, unescape(v)) for k, v in bs_attrs)
        return attribs

    def append_text(parent, text):
        if len(parent) == 0:
            parent.text = (parent.text or '') + text
        else:
            parent[-1].tail = (parent[-1].tail or '') + text

    # converters are tried in order of their definition

    @converter(Tag, _PseudoTag)
    def convert_tag(bs_node, parent):
        attrs = bs_node.attrs
        if parent is not None:
            attribs = map_attrs(attrs) if attrs else None
            res = etree.SubElement(parent, bs_node.name, attrib=attribs)
        else:
            attribs = map_attrs(attrs) if attrs else {}
            res = makeelement(bs_node.name, attrib=attribs)

        for child in bs_node:
            # avoid double recursion by inlining convert_node(), see above
            try:
                handler = converters[type(child)]
            except KeyError:
                pass
            else:
                if handler is not None:
                    handler(child, res)
                continue
            convert_node(child, res)
        return res

    @converter(Comment)
    def convert_comment(bs_node, parent):
        res = etree.Comment(bs_node)
        if parent is not None:
            parent.append(res)
        return res

    @converter(ProcessingInstruction)
    def convert_pi(bs_node, parent):
        if bs_node.endswith('?'):
            # The PI is of XML style (<?as df?>) but BeautifulSoup
            # interpreted it as being SGML style (<?as df>). Fix.
            bs_node = bs_node[:-1]
        res = etree.ProcessingInstruction(*bs_node.split(' ', 1))
        if parent is not None:
            parent.append(res)
        return res

    @converter(NavigableString)
    def convert_text(bs_node, parent):
        if parent is not None:
            append_text(parent, unescape(bs_node))
        return None

    return convert_node


# copied from ET's ElementSoup

try:
    from html.entities import name2codepoint  # Python 3
except ImportError:
    from htmlentitydefs import name2codepoint


handle_entities = re.compile("&(\w+);").sub


def unescape(string):
    if not string:
        return ''
    # work around oddities in BeautifulSoup's entity handling
    def unescape_entity(m):
        try:
            return unichr(name2codepoint[m.group(1)])
        except KeyError:
            return m.group(0)  # use as is
    return handle_entities(unescape_entity, string)
split platform 2016-02-06 09:36:57 +00:00			`"""External interface to the BeautifulSoup HTML parser.`
			`"""`

			`__all__ = ["fromstring", "parse", "convert_tree"]`

			`import re`
			`from lxml import etree, html`

			`try:`
			`from bs4 import (`
			`BeautifulSoup, Tag, Comment, ProcessingInstruction, NavigableString,`
			`Declaration, CData, Doctype)`
			`_DECLARATION_OR_DOCTYPE = (Declaration, Doctype)`
			`except ImportError:`
			`from BeautifulSoup import (`
			`BeautifulSoup, Tag, Comment, ProcessingInstruction, NavigableString,`
			`Declaration, CData)`
			`_DECLARATION_OR_DOCTYPE = Declaration`


			`def fromstring(data, beautifulsoup=None, makeelement=None, **bsargs):`
			`"""Parse a string of HTML data into an Element tree using the`
			`BeautifulSoup parser.`

			Returns the root ``<html>`` Element of the tree.

			`You can pass a different BeautifulSoup parser through the`
			`beautifulsoup` keyword, and a diffent Element factory function
			through the `makeelement` keyword. By default, the standard
			``BeautifulSoup`` class and the default factory of `lxml.html` are
			`used.`
			`"""`
			`return _parse(data, beautifulsoup, makeelement, **bsargs)`


			`def parse(file, beautifulsoup=None, makeelement=None, **bsargs):`
			`"""Parse a file into an ElemenTree using the BeautifulSoup parser.`

			`You can pass a different BeautifulSoup parser through the`
			`beautifulsoup` keyword, and a diffent Element factory function
			through the `makeelement` keyword. By default, the standard
			``BeautifulSoup`` class and the default factory of `lxml.html` are
			`used.`
			`"""`
			`if not hasattr(file, 'read'):`
			`file = open(file)`
			`root = _parse(file, beautifulsoup, makeelement, **bsargs)`
			`return etree.ElementTree(root)`


			`def convert_tree(beautiful_soup_tree, makeelement=None):`
			`"""Convert a BeautifulSoup tree to a list of Element trees.`

			`Returns a list instead of a single root Element to support`
			`HTML-like soup with more than one root element.`

			You can pass a different Element factory through the `makeelement`
			`keyword.`
			`"""`
			`root = _convert_tree(beautiful_soup_tree, makeelement)`
			`children = root.getchildren()`
			`for child in children:`
			`root.remove(child)`
			`return children`


			`# helpers`

			`def _parse(source, beautifulsoup, makeelement, **bsargs):`
			`if beautifulsoup is None:`
			`beautifulsoup = BeautifulSoup`
			`if hasattr(beautifulsoup, "HTML_ENTITIES"): # bs3`
			`if 'convertEntities' not in bsargs:`
			`bsargs['convertEntities'] = 'html'`
			`if hasattr(beautifulsoup, "DEFAULT_BUILDER_FEATURES"): # bs4`
			`if 'features' not in bsargs:`
			`bsargs['features'] = ['html.parser'] # use Python html parser`
			`tree = beautifulsoup(source, **bsargs)`
			`root = _convert_tree(tree, makeelement)`
			`# from ET: wrap the document in a html root element, if necessary`
			`if len(root) == 1 and root[0].tag == "html":`
			`return root[0]`
			`root.tag = "html"`
			`return root`


			`_parse_doctype_declaration = re.compile(`
			`r'(?:\s\|[<!])DOCTYPE\sHTML'`
			`r'(?:\s+PUBLIC)?(?:\s+(\'[^\']\'\|"[^"]"))?'`
			`r'(?:\s+(\'[^\']\'\|"[^"]"))?',`
			`re.IGNORECASE).match`


			`class _PseudoTag:`
			`# Minimal imitation of BeautifulSoup.Tag`
			`def __init__(self, contents):`
			`self.name = 'html'`
			`self.attrs = []`
			`self.contents = contents`

			`def __iter__(self):`
			`return self.contents.__iter__()`


			`def _convert_tree(beautiful_soup_tree, makeelement):`
			`if makeelement is None:`
			`makeelement = html.html_parser.makeelement`

			`# Split the tree into three parts:`
			`# i) everything before the root element: document type`
			`# declaration, comments, processing instructions, whitespace`
			`# ii) the root(s),`
			`# iii) everything after the root: comments, processing`
			`# instructions, whitespace`
			`first_element_idx = last_element_idx = None`
			`html_root = declaration = None`
			`for i, e in enumerate(beautiful_soup_tree):`
			`if isinstance(e, Tag):`
			`if first_element_idx is None:`
			`first_element_idx = i`
			`last_element_idx = i`
			`if html_root is None and e.name and e.name.lower() == 'html':`
			`html_root = e`
			`elif declaration is None and isinstance(e, _DECLARATION_OR_DOCTYPE):`
			`declaration = e`

			`# For a nice, well-formatted document, the variable roots below is`
			`# a list consisting of a single <html> element. However, the document`
			`# may be a soup like '<meta><head><title>Hello</head><body>Hi`
			`# all<\p>'. In this example roots is a list containing meta, head`
			`# and body elements.`
			`pre_root = beautiful_soup_tree.contents[:first_element_idx]`
			`roots = beautiful_soup_tree.contents[first_element_idx:last_element_idx+1]`
			`post_root = beautiful_soup_tree.contents[last_element_idx+1:]`

			`# Reorganize so that there is one <html> root...`
			`if html_root is not None:`
			`# ... use existing one if possible, ...`
			`i = roots.index(html_root)`
			`html_root.contents = roots[:i] + html_root.contents + roots[i+1:]`
			`else:`
			`# ... otherwise create a new one.`
			`html_root = _PseudoTag(roots)`

			`convert_node = _init_node_converters(makeelement)`

			`# Process pre_root`
			`res_root = convert_node(html_root)`
			`prev = res_root`
			`for e in reversed(pre_root):`
			`converted = convert_node(e)`
			`if converted is not None:`
			`prev.addprevious(converted)`
			`prev = converted`

			`# ditto for post_root`
			`prev = res_root`
			`for e in post_root:`
			`converted = convert_node(e)`
			`if converted is not None:`
			`prev.addnext(converted)`
			`prev = converted`

			`if declaration is not None:`
			`try:`
			`# bs4 provides full Doctype string`
			`doctype_string = declaration.output_ready()`
			`except AttributeError:`
			`doctype_string = declaration.string`

			`match = _parse_doctype_declaration(doctype_string)`
			`if not match:`
			`# Something is wrong if we end up in here. Since soupparser should`
			`# tolerate errors, do not raise Exception, just let it pass.`
			`pass`
			`else:`
			`external_id, sys_uri = match.groups()`
			`docinfo = res_root.getroottree().docinfo`
			`# strip quotes and update DOCTYPE values (any of None, '', '...')`
			`docinfo.public_id = external_id and external_id[1:-1]`
			`docinfo.system_url = sys_uri and sys_uri[1:-1]`

			`return res_root`


			`def _init_node_converters(makeelement):`
			`converters = {}`
			`ordered_node_types = []`

			`def converter(*types):`
			`def add(handler):`
			`for t in types:`
			`converters[t] = handler`
			`ordered_node_types.append(t)`
			`return handler`
			`return add`

			`def find_best_converter(node):`
			`for t in ordered_node_types:`
			`if isinstance(node, t):`
			`return converters[t]`
			`return None`

			`def convert_node(bs_node, parent=None):`
			`# duplicated in convert_tag() below`
			`try:`
			`handler = converters[type(bs_node)]`
			`except KeyError:`
			`handler = converters[type(bs_node)] = find_best_converter(bs_node)`
			`if handler is None:`
			`return None`
			`return handler(bs_node, parent)`

			`def map_attrs(bs_attrs):`
			`if isinstance(bs_attrs, dict): # bs4`
			`attribs = {}`
			`for k, v in bs_attrs.items():`
			`if isinstance(v, list):`
			`v = " ".join(v)`
			`attribs[k] = unescape(v)`
			`else:`
			`attribs = dict((k, unescape(v)) for k, v in bs_attrs)`
			`return attribs`

			`def append_text(parent, text):`
			`if len(parent) == 0:`
			`parent.text = (parent.text or '') + text`
			`else:`
			`parent[-1].tail = (parent[-1].tail or '') + text`

			`# converters are tried in order of their definition`

			`@converter(Tag, _PseudoTag)`
			`def convert_tag(bs_node, parent):`
			`attrs = bs_node.attrs`
			`if parent is not None:`
			`attribs = map_attrs(attrs) if attrs else None`
			`res = etree.SubElement(parent, bs_node.name, attrib=attribs)`
			`else:`
			`attribs = map_attrs(attrs) if attrs else {}`
			`res = makeelement(bs_node.name, attrib=attribs)`

			`for child in bs_node:`
			`# avoid double recursion by inlining convert_node(), see above`
			`try:`
			`handler = converters[type(child)]`
			`except KeyError:`
			`pass`
			`else:`
			`if handler is not None:`
			`handler(child, res)`
			`continue`
			`convert_node(child, res)`
			`return res`

			`@converter(Comment)`
			`def convert_comment(bs_node, parent):`
			`res = etree.Comment(bs_node)`
			`if parent is not None:`
			`parent.append(res)`
			`return res`

			`@converter(ProcessingInstruction)`
			`def convert_pi(bs_node, parent):`
			`if bs_node.endswith('?'):`
			`# The PI is of XML style (<?as df?>) but BeautifulSoup`
			`# interpreted it as being SGML style (<?as df>). Fix.`
			`bs_node = bs_node[:-1]`
			`res = etree.ProcessingInstruction(*bs_node.split(' ', 1))`
			`if parent is not None:`
			`parent.append(res)`
			`return res`

			`@converter(NavigableString)`
			`def convert_text(bs_node, parent):`
			`if parent is not None:`
			`append_text(parent, unescape(bs_node))`
			`return None`

			`return convert_node`


			`# copied from ET's ElementSoup`

			`try:`
			`from html.entities import name2codepoint # Python 3`
			`except ImportError:`
			`from htmlentitydefs import name2codepoint`


			`handle_entities = re.compile("&(\w+);").sub`


			`def unescape(string):`
			`if not string:`
			`return ''`
			`# work around oddities in BeautifulSoup's entity handling`
			`def unescape_entity(m):`
			`try:`
			`return unichr(name2codepoint[m.group(1)])`
			`except KeyError:`
			`return m.group(0) # use as is`
			`return handle_entities(unescape_entity, string)`