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00001 '''
Basic support for manipulating OEB 1.x/2.0 content and metadata.
from __future__ import with_statement

__license__   = 'GPL v3'
__copyright__ = '2008, Marshall T. Vandegrift <llasram@gmail.com>'
__docformat__ = 'restructuredtext en'

import os, re, uuid, logging
from mimetypes import types_map
from collections import defaultdict
from itertools import count
from urlparse import urldefrag, urlparse, urlunparse
from urllib import unquote as urlunquote
from urlparse import urljoin

from lxml import etree, html
from cssutils import CSSParser

import calibre
from calibre.constants import filesystem_encoding
from calibre.translations.dynamic import translate
from calibre.ebooks.chardet import xml_to_unicode
from calibre.ebooks.oeb.entitydefs import ENTITYDEFS
from calibre.ebooks.conversion.preprocess import CSSPreProcessor

XML_NS       = 'http://www.w3.org/XML/1998/namespace'
XHTML_NS     = 'http://www.w3.org/1999/xhtml'
OEB_DOC_NS   = 'http://openebook.org/namespaces/oeb-document/1.0/'
OPF1_NS      = 'http://openebook.org/namespaces/oeb-package/1.0/'
OPF2_NS      = 'http://www.idpf.org/2007/opf'
OPF_NSES     = set([OPF1_NS, OPF2_NS])
DC09_NS      = 'http://purl.org/metadata/dublin_core'
DC10_NS      = 'http://purl.org/dc/elements/1.0/'
DC11_NS      = 'http://purl.org/dc/elements/1.1/'
DC_NSES      = set([DC09_NS, DC10_NS, DC11_NS])
XSI_NS       = 'http://www.w3.org/2001/XMLSchema-instance'
DCTERMS_NS   = 'http://purl.org/dc/terms/'
NCX_NS       = 'http://www.daisy.org/z3986/2005/ncx/'
SVG_NS       = 'http://www.w3.org/2000/svg'
XLINK_NS     = 'http://www.w3.org/1999/xlink'
CALIBRE_NS   = 'http://calibre.kovidgoyal.net/2009/metadata'
RE_NS        = 'http://exslt.org/regular-expressions'
MBP_NS       = 'http://www.mobipocket.com'

XPNSMAP      = {'h'  : XHTML_NS, 'o1' : OPF1_NS,    'o2' : OPF2_NS,
                'd09': DC09_NS,  'd10': DC10_NS,    'd11': DC11_NS,
                'xsi': XSI_NS,   'dt' : DCTERMS_NS, 'ncx': NCX_NS,
                'svg': SVG_NS,   'xl' : XLINK_NS,   're': RE_NS,
                'mbp': MBP_NS, 'calibre': CALIBRE_NS }

OPF1_NSMAP   = {'dc': DC11_NS, 'oebpackage': OPF1_NS}
OPF2_NSMAP   = {'opf': OPF2_NS, 'dc': DC11_NS, 'dcterms': DCTERMS_NS,
                'xsi': XSI_NS, 'calibre': CALIBRE_NS}

def XML(name):
    return '{%s}%s' % (XML_NS, name)

def XHTML(name):
    return '{%s}%s' % (XHTML_NS, name)

def OPF(name):
    return '{%s}%s' % (OPF2_NS, name)

def DC(name):
    return '{%s}%s' % (DC11_NS, name)

def XSI(name):
    return '{%s}%s' % (XSI_NS, name)

def DCTERMS(name):
    return '{%s}%s' % (DCTERMS_NS, name)

def NCX(name):
    return '{%s}%s' % (NCX_NS, name)

def SVG(name):
    return '{%s}%s' % (SVG_NS, name)

def XLINK(name):
    return '{%s}%s' % (XLINK_NS, name)

def CALIBRE(name):
    return '{%s}%s' % (CALIBRE_NS, name)

_css_url_re = re.compile(r'url\((.*?)\)', re.I)
_css_import_re = re.compile(r'@import "(.*?)"')
_archive_re = re.compile(r'[^ ]+')

00091 def iterlinks(root):
    Iterate over all links in a OEB Document.

    :param root: A valid lxml.etree element.
    assert etree.iselement(root)
    link_attrs = set(html.defs.link_attrs)

    for el in root.iter():
        attribs = el.attrib
            tag = el.tag
        except UnicodeDecodeError:

        if tag == XHTML('object'):
            codebase = None
            ## <object> tags have attributes that are relative to
            ## codebase
            if 'codebase' in attribs:
                codebase = el.get('codebase')
                yield (el, 'codebase', codebase, 0)
            for attrib in 'classid', 'data':
                if attrib in attribs:
                    value = el.get(attrib)
                    if codebase is not None:
                        value = urljoin(codebase, value)
                    yield (el, attrib, value, 0)
            if 'archive' in attribs:
                for match in _archive_re.finditer(el.get('archive')):
                    value = match.group(0)
                    if codebase is not None:
                        value = urljoin(codebase, value)
                    yield (el, 'archive', value, match.start())
            for attr in attribs:
                if attr in link_attrs:
                    yield (el, attr, attribs[attr], 0)

        if tag == XHTML('style') and el.text:
            for match in _css_url_re.finditer(el.text):
                yield (el, None, match.group(1), match.start(1))
            for match in _css_import_re.finditer(el.text):
                yield (el, None, match.group(1), match.start(1))
        if 'style' in attribs:
            for match in _css_url_re.finditer(attribs['style']):
                yield (el, 'style', match.group(1), match.start(1))

00142 def make_links_absolute(root, base_url):
    Make all links in the document absolute, given the
    ``base_url`` for the document (the full URL where the document
    came from)
    def link_repl(href):
        return urljoin(base_url, href)
    rewrite_links(root, link_repl)

def resolve_base_href(root):
    base_href = None
    basetags = root.xpath('//base[@href]|//h:base[@href]',
    for b in basetags:
        base_href = b.get('href')
    if not base_href:
    make_links_absolute(root, base_href, resolve_base_href=False)

00163 def rewrite_links(root, link_repl_func, resolve_base_href=False):
    Rewrite all the links in the document.  For each link
    ``link_repl_func(link)`` will be called, and the return value
    will replace the old link.

    Note that links may not be absolute (unless you first called
    ``make_links_absolute()``), and may be internal (e.g.,
    ``'#anchor'``).  They can also be values like
    ``'mailto:email'`` or ``'javascript:expr'``.

    If the ``link_repl_func`` returns None, the attribute or
    tag text will be removed completely.
    if resolve_base_href:
    for el, attrib, link, pos in iterlinks(root):
        new_link = link_repl_func(link.strip())
        if new_link == link:
        if new_link is None:
            # Remove the attribute or element content
            if attrib is None:
                el.text = ''
                del el.attrib[attrib]
        if attrib is None:
            new = el.text[:pos] + new_link + el.text[pos+len(link):]
            el.text = new
            cur = el.attrib[attrib]
            if not pos and len(cur) == len(link):
                # Most common case
                el.attrib[attrib] = new_link
                new = cur[:pos] + new_link + cur[pos+len(link):]
                el.attrib[attrib] = new

EPUB_MIME      = types_map['.epub']
XHTML_MIME     = types_map['.xhtml']
CSS_MIME       = types_map['.css']
NCX_MIME       = types_map['.ncx']
OPF_MIME       = types_map['.opf']
PAGE_MAP_MIME  = 'application/oebps-page-map+xml'
OEB_DOC_MIME   = 'text/x-oeb1-document'
OEB_CSS_MIME   = 'text/x-oeb1-css'
OPENTYPE_MIME  = 'application/x-font-opentype'
GIF_MIME       = types_map['.gif']
JPEG_MIME      = types_map['.jpeg']
PNG_MIME       = types_map['.png']
SVG_MIME       = types_map['.svg']
BINARY_MIME    = 'application/octet-stream'

XHTML_CSS_NAMESPACE = u'@namespace "%s";\n' % XHTML_NS

OEB_STYLES        = set([CSS_MIME, OEB_CSS_MIME, 'text/x-oeb-css'])
OEB_DOCS          = set([XHTML_MIME, 'text/html', OEB_DOC_MIME,

MS_COVER_TYPE = 'other.ms-coverimage-standard'

ENTITY_RE     = re.compile(r'&([a-zA-Z_:][a-zA-Z0-9.-_:]+);')
COLLAPSE_RE   = re.compile(r'[ \t\r\n\v]+')
QNAME_RE      = re.compile(r'^[{][^{}]+[}][^{}]+$')
PREFIXNAME_RE = re.compile(r'^[^:]+[:][^:]+')
XMLDECL_RE    = re.compile(r'^\s*<[?]xml.*?[?]>')
CSSURL_RE     = re.compile(r'''url[(](?P<q>["']?)(?P<url>[^)]+)(?P=q)[)]''')

RECOVER_PARSER = etree.XMLParser(recover=True)

def element(parent, *args, **kwargs):
    if parent is not None:
        return etree.SubElement(parent, *args, **kwargs)
    return etree.Element(*args, **kwargs)

def namespace(name):
    if '}' in name:
        return name.split('}', 1)[0][1:]
    return ''

def barename(name):
    if '}' in name:
        return name.split('}', 1)[1]
    return name

def prefixname(name, nsrmap):
    if not isqname(name):
        return name
    ns = namespace(name)
    if ns not in nsrmap:
        return name
    prefix = nsrmap[ns]
    if not prefix:
        return barename(name)
    return ':'.join((prefix, barename(name)))

def isprefixname(name):
    return name and PREFIXNAME_RE.match(name) is not None

def qname(name, nsmap):
    if not isprefixname(name):
        return name
    prefix, local = name.split(':', 1)
    if prefix not in nsmap:
        return name
    return '{%s}%s' % (nsmap[prefix], local)

def isqname(name):
    return name and QNAME_RE.match(name) is not None

def XPath(expr):
    return etree.XPath(expr, namespaces=XPNSMAP)

def xpath(elem, expr):
    return elem.xpath(expr, namespaces=XPNSMAP)

def xml2str(root, pretty_print=False, strip_comments=False):
    ans = etree.tostring(root, encoding='utf-8', xml_declaration=True,

    if strip_comments:
        ans = re.compile(r'<!--.*?-->', re.DOTALL).sub('', ans)

    return ans

def xml2unicode(root, pretty_print=False):
    return etree.tostring(root, pretty_print=pretty_print)

def xml2text(elem):
    return etree.tostring(elem, method='text', encoding=unicode, with_tail=False)

ASCII_CHARS   = set(chr(x) for x in xrange(128))
UNIBYTE_CHARS = set(chr(x) for x in xrange(256))
                    '0123456789' '_.-/~')

def urlquote(href):
    """Quote URL-unsafe characters, allowing IRI-safe characters."""
    result = []
    unsafe = 0 if isinstance(href, unicode) else 1
    unsafe = URL_UNSAFE[unsafe]
    for char in href:
        if char in unsafe:
            char = "%%%02x" % ord(char)
    return ''.join(result)

def urlnormalize(href):
    """Convert a URL into normalized form, with all and only URL-unsafe
    characters URL quoted.
    parts = urlparse(href)
    if not parts.scheme or parts.scheme == 'file':
        path, frag = urldefrag(href)
        parts = ('', '', path, '', '', frag)
    parts = (part.replace('\\', '/') for part in parts)
    parts = (urlunquote(part) for part in parts)
    parts = (urlquote(part) for part in parts)
    return urlunparse(parts)

def merge_multiple_html_heads_and_bodies(root, log=None):
    heads, bodies = xpath(root, '//h:head'), xpath(root, '//h:body')
    if not (len(heads) > 1 or len(bodies) > 1): return root
    for child in root: root.remove(child)
    head = root.makeelement(XHTML('head'))
    body = root.makeelement(XHTML('body'))
    for h in heads:
        for x in h:
    for b in bodies:
        for x in b:
    map(root.append, (head, body))
    if log is not None:
        log.warn('Merging multiple <head> and <body> sections')
    return root

class DummyHandler(logging.Handler):

    def __init__(self):
        logging.Handler.__init__(self, logging.WARNING)
        self.log = None

    def emit(self, record):
        if self.log is not None:
            msg = self.format(record)
            f = self.log.error if record.levelno >= logging.ERROR \
                    else self.log.warn

_css_logger = logging.getLogger('calibre.css')
_css_log_handler = DummyHandler()

class OEBError(Exception):
    """Generic OEB-processing error."""

class NotHTML(OEBError):
    '''Raised when a file that should be HTML (as per manifest) is not'''

class NullContainer(object):
    """An empty container.

    For use with book formats which do not support container-like access.

    def __init__(self, log):
        self.log = log

    def read(self, path):
        raise OEBError('Attempt to read from NullContainer')

    def write(self, path):
        raise OEBError('Attempt to write to NullContainer')

    def exists(self, path):
        return False

    def namelist(self):
        return []

class DirContainer(object):
    """Filesystem directory container."""

    def __init__(self, path, log):
        self.log = log
        path = unicode(path)
        ext = os.path.splitext(path)[1].lower()
        if ext == '.opf':
            self.opfname = os.path.basename(path)
            self.rootdir = os.path.dirname(path)
        self.rootdir = path
        for path in self.namelist():
            ext = os.path.splitext(path)[1].lower()
            if ext == '.opf':
                self.opfname = path
        self.opfname = None

    def read(self, path):
        if path is None:
            path = self.opfname
        path = os.path.join(self.rootdir, path)
        with open(urlunquote(path), 'rb') as f:
            return f.read()

    def write(self, path, data):
        path = os.path.join(self.rootdir, urlunquote(path))
        dir = os.path.dirname(path)
        if not os.path.isdir(dir):
        with open(path, 'wb') as f:
            return f.write(data)

    def exists(self, path):
            path = os.path.join(self.rootdir, urlunquote(path))
        except ValueError: #Happens if path contains quoted special chars
            return False
        return os.path.isfile(path)

    def namelist(self):
        names = []
        base = self.rootdir
        if isinstance(base, unicode):
            base = base.encode(filesystem_encoding)
        for root, dirs, files in os.walk(base):
            for fname in files:
                fname = os.path.join(root, fname)
                fname = fname.replace('\\', '/')
                if not isinstance(fname, unicode):
                        fname = fname.decode(filesystem_encoding)
        return names

class Metadata(object):
    """A collection of OEB data model metadata.

    Provides access to the list of items associated with a particular metadata
    term via the term's local name using either Python container or attribute
    syntax.  Return an empty list for any terms with no currently associated
    metadata items.

    DC_TERMS      = set(['contributor', 'coverage', 'creator', 'date',
                         'description', 'format', 'identifier', 'language',
                         'publisher', 'relation', 'rights', 'source',
                         'subject', 'title', 'type'])
    CALIBRE_TERMS = set(['series', 'series_index', 'rating', 'timestamp',
    OPF_ATTRS     = {'role': OPF('role'), 'file-as': OPF('file-as'),
                     'scheme': OPF('scheme'), 'event': OPF('event'),
                     'type': XSI('type'), 'lang': XML('lang'), 'id': 'id'}
    OPF1_NSMAP    = {'dc': DC11_NS, 'oebpackage': OPF1_NS}
    OPF2_NSMAP    = {'opf': OPF2_NS, 'dc': DC11_NS, 'dcterms': DCTERMS_NS,
                     'xsi': XSI_NS, 'calibre': CALIBRE_NS}

    class Item(object):
        """An item of OEB data model metadata.

        The metadata term or name may be accessed via the :attr:`term` or
        :attr:`name` attributes.  The metadata value or content may be accessed
        via the :attr:`value` or :attr:`content` attributes, or via Unicode or
        string representations of the object.

        OEB data model metadata attributes may be accessed either via their
        fully-qualified names using the Python container access syntax, or via
        their local names using Python attribute syntax.  Only attributes
        allowed by the OPF 2.0 specification are supported.
        class Attribute(object):
            """Smart accessor for allowed OEB metadata item attributes."""

            def __init__(self, attr, allowed=None):
                if not callable(attr):
                    attr_, attr = attr, lambda term: attr_
                self.attr = attr
                self.allowed = allowed

            def term_attr(self, obj):
                term = obj.term
                if namespace(term) != DC11_NS:
                    term = OPF('meta')
                allowed = self.allowed
                if allowed is not None and term not in allowed:
                    raise AttributeError(
                        'attribute %r not valid for metadata term %r' \
                            % (self.attr(term), barename(obj.term)))
                return self.attr(term)

            def __get__(self, obj, cls):
                if obj is None: return None
                return obj.attrib.get(self.term_attr(obj), '')

            def __set__(self, obj, value):
                obj.attrib[self.term_attr(obj)] = value

        def __init__(self, term, value, attrib={}, nsmap={}, **kwargs):
            self.attrib = attrib = dict(attrib)
            self.nsmap = nsmap = dict(nsmap)
            if namespace(term) == OPF2_NS:
                term = barename(term)
            ns = namespace(term)
            local = barename(term).lower()
            if local in Metadata.DC_TERMS and (not ns or ns in DC_NSES):
                # Anything looking like Dublin Core is coerced
                term = DC(local)
            elif local in Metadata.CALIBRE_TERMS and ns in (CALIBRE_NS, ''):
                # Ditto for Calibre-specific metadata
                term = CALIBRE(local)
            self.term = term
            self.value = value
            for attr, value in attrib.items():
                if isprefixname(value):
                    attrib[attr] = qname(value, nsmap)
                nsattr = Metadata.OPF_ATTRS.get(attr, attr)
                if nsattr == OPF('scheme') and namespace(term) != DC11_NS:
                    # The opf:meta element takes @scheme, not @opf:scheme
                    nsattr = 'scheme'
                if attr != nsattr:
                    attrib[nsattr] = attrib.pop(attr)

        def name(self):
            def fget(self):
                return self.term
            return property(fget=fget)

        def content(self):
            def fget(self):
                return self.value
            def fset(self, value):
                self.value = value
            return property(fget=fget, fset=fset)

        scheme  = Attribute(lambda term: 'scheme' if \
                                term == OPF('meta') else OPF('scheme'),
                            [DC('identifier'), OPF('meta')])
        file_as = Attribute(OPF('file-as'), [DC('creator'), DC('contributor'),
        role    = Attribute(OPF('role'), [DC('creator'), DC('contributor')])
        event   = Attribute(OPF('event'), [DC('date')])
        id      = Attribute('id')
        type    = Attribute(XSI('type'), [DC('date'), DC('format'),
        lang    = Attribute(XML('lang'), [DC('contributor'), DC('coverage'),
                                          DC('creator'), DC('publisher'),
                                          DC('relation'), DC('rights'),
                                          DC('source'), DC('subject'),

        def __getitem__(self, key):
            return self.attrib[key]

        def __setitem__(self, key, value):
            self.attrib[key] = value

        def __contains__(self, key):
            return key in self.attrib

        def get(self, key, default=None):
            return self.attrib.get(key, default)

        def __repr__(self):
            return 'Item(term=%r, value=%r, attrib=%r)' \
                % (barename(self.term), self.value, self.attrib)

        def __str__(self):
            return unicode(self.value).encode('ascii', 'xmlcharrefreplace')

        def __unicode__(self):
            return unicode(self.value)

        def to_opf1(self, dcmeta=None, xmeta=None, nsrmap={}):
            attrib = {}
            for key, value in self.attrib.items():
                if namespace(key) == OPF2_NS:
                    key = barename(key)
                attrib[key] = prefixname(value, nsrmap)
            if namespace(self.term) == DC11_NS:
                name = DC(barename(self.term).title())
                elem = element(dcmeta, name, attrib=attrib)
                elem.text = self.value
                elem = element(xmeta, 'meta', attrib=attrib)
                elem.attrib['name'] = prefixname(self.term, nsrmap)
                elem.attrib['content'] = prefixname(self.value, nsrmap)
            return elem

        def to_opf2(self, parent=None, nsrmap={}):
            attrib = {}
            for key, value in self.attrib.items():
                attrib[key] = prefixname(value, nsrmap)
            if namespace(self.term) == DC11_NS:
                elem = element(parent, self.term, attrib=attrib)
                elem.text = self.value
                elem = element(parent, OPF('meta'), attrib=attrib)
                elem.attrib['name'] = prefixname(self.term, nsrmap)
                elem.attrib['content'] = prefixname(self.value, nsrmap)
            return elem

    def __init__(self, oeb):
        self.oeb = oeb
        self.items = defaultdict(list)

    def add(self, term, value, attrib={}, nsmap={}, **kwargs):
        """Add a new metadata item."""
        item = self.Item(term, value, attrib, nsmap, **kwargs)
        items = self.items[barename(item.term)]
        return item

    def iterkeys(self):
        for key in self.items:
            yield key
    __iter__ = iterkeys

    def clear(self, key):
        l = self.items[key]
        for x in list(l):

    def filter(self, key, predicate):
        l = self.items[key]
        for x in list(l):
            if predicate(x):

    def __getitem__(self, key):
        return self.items[key]

    def __contains__(self, key):
        return key in self.items

    def __getattr__(self, term):
        return self.items[term]

    def _nsmap(self):
        def fget(self):
            nsmap = {}
            for term in self.items:
                for item in self.items[term]:
            return nsmap
        return property(fget=fget)

    def _opf1_nsmap(self):
        def fget(self):
            nsmap = self._nsmap
            for key, value in nsmap.items():
                if value in OPF_NSES or value in DC_NSES:
                    del nsmap[key]
            return nsmap
        return property(fget=fget)

    def _opf2_nsmap(self):
        def fget(self):
            nsmap = self._nsmap
            return nsmap
        return property(fget=fget)

    def to_opf1(self, parent=None):
        nsmap = self._opf1_nsmap
        nsrmap = dict((value, key) for key, value in nsmap.items())
        elem = element(parent, 'metadata', nsmap=nsmap)
        dcmeta = element(elem, 'dc-metadata', nsmap=OPF1_NSMAP)
        xmeta = element(elem, 'x-metadata')
        for term in self.items:
            for item in self.items[term]:
                item.to_opf1(dcmeta, xmeta, nsrmap=nsrmap)
        if 'ms-chaptertour' not in self.items:
            chaptertour = self.Item('ms-chaptertour', 'chaptertour')
            chaptertour.to_opf1(dcmeta, xmeta, nsrmap=nsrmap)
        return elem

    def to_opf2(self, parent=None):
        nsmap = self._opf2_nsmap
        nsrmap = dict((value, key) for key, value in nsmap.items())
        elem = element(parent, OPF('metadata'), nsmap=nsmap)
        for term in self.items:
            for item in self.items[term]:
                item.to_opf2(elem, nsrmap=nsrmap)
        return elem

class Manifest(object):
    """Collection of files composing an OEB data model book.

    Provides access to the content of the files composing the book and
    attributes associated with those files, including their internal paths,
    unique identifiers, and MIME types.

    Itself acts as a :class:`set` of manifest items, and provides the following
    instance data member for dictionary-like access:

    :attr:`ids`: A dictionary in which the keys are the unique identifiers of
        the manifest items and the values are the items themselves.
    :attr:`hrefs`: A dictionary in which the keys are the internal paths of the
        manifest items and the values are the items themselves.

    class Item(object):
        """An OEB data model book content file.

        Provides the following data members for accessing the file content and
        metadata associated with this particular file.

        :attr:`id`: Unique identifier.
        :attr:`href`: Book-internal path.
        :attr:`media_type`: MIME type of the file content.
        :attr:`fallback`: Unique id of any fallback manifest item associated
            with this manifest item.
        :attr:`spine_position`: Display/reading order index for book textual
            content.  `None` for manifest items which are not part of the
            book's textual content.
        :attr:`linear`: `True` for textual content items which are part of the
            primary linear reading order and `False` for textual content items
            which are not (such as footnotes).  Meaningless for items which
            have a :attr:`spine_position` of `None`.

        NUM_RE = re.compile('^(.*)([0-9][0-9.]*)(?=[.]|$)')
        META_XP = XPath('/h:html/h:head/h:meta[@http-equiv="Content-Type"]')

        def __init__(self, oeb, id, href, media_type,
                     fallback=None, loader=str, data=None):
            self.oeb = oeb
            self.id = id
            self.href = self.path = urlnormalize(href)
            self.media_type = media_type
            self.fallback = fallback
            self.spine_position = None
            self.linear = True
            if loader is None and data is None:
                loader = oeb.container.read
            self._loader = loader
            self._data = data

        def __repr__(self):
            return u'Item(id=%r, href=%r, media_type=%r)' \
                % (self.id, self.href, self.media_type)

        def _parse_xml(self, data):
            data = xml_to_unicode(data, strip_encoding_pats=True,
                    assume_utf8=True, resolve_entities=True)[0]
            if not data:
                return None
            parser = etree.XMLParser(recover=True)
            return etree.fromstring(data, parser=parser)

        def _parse_xhtml(self, data):
            self.oeb.log.debug('Parsing', self.href, '...')
            # Convert to Unicode and normalize line endings
            data = self.oeb.decode(data)
            data = self.oeb.html_preprocessor(data)

            # Remove DOCTYPE declaration as it messes up parsing
            # In particular, it causes tostring to insert xmlns
            # declarations, which messes up the coercing logic
            idx = data.find('<html')
            if idx == -1:
                idx = data.find('<HTML')
            if idx > -1:
                pre = data[:idx]
                data = data[idx:]
                if '<!DOCTYPE' in pre:
                    user_entities = {}
                    for match in re.finditer(r'<!ENTITY\s+(\S+)\s+([^>]+)', pre):
                        val = match.group(2)
                        if val.startswith('"') and val.endswith('"'):
                            val = val[1:-1]
                        user_entities[match.group(1)] = val
                    if user_entities:
                        pat = re.compile(r'&(%s);'%('|'.join(user_entities.keys())))
                        data = pat.sub(lambda m:user_entities[m.group(1)], data)

            # Try with more & more drastic measures to parse
            def first_pass(data):
                    data = etree.fromstring(data)
                except etree.XMLSyntaxError, err:
                    self.oeb.log.exception('Initial parse failed:')
                    repl = lambda m: ENTITYDEFS.get(m.group(1), m.group(0))
                    data = ENTITY_RE.sub(repl, data)
                        data = etree.fromstring(data)
                    except etree.XMLSyntaxError, err:
                        self.oeb.logger.warn('Parsing file %r as HTML' % self.href)
                        if err.args and err.args[0].startswith('Excessive depth'):
                            from lxml.html import soupparser
                            data = soupparser.fromstring(data)
                            data = html.fromstring(data)
                        data.attrib.pop('xmlns', None)
                        for elem in data.iter(tag=etree.Comment):
                            if elem.text:
                                elem.text = elem.text.strip('-')
                        data = etree.tostring(data, encoding=unicode)
                            data = etree.fromstring(data)
                        except etree.XMLSyntaxError:
                            data = etree.fromstring(data, parser=RECOVER_PARSER)
                return data
            data = first_pass(data)

            # Handle weird (non-HTML/fragment) files
            if barename(data.tag) != 'html':
                self.oeb.log.warn('File %r does not appear to be (X)HTML'%self.href)
                nroot = etree.fromstring('<html></html>')
                has_body = False
                for child in list(data):
                    if barename(child.tag) == 'body':
                        has_body = True
                parent = nroot
                if not has_body:
                    self.oeb.log.warn('File %r appears to be a HTML fragment'%self.href)
                    nroot = etree.fromstring('<html><body/></html>')
                    parent = nroot[0]
                for child in list(data.iter()):
                    oparent = child.getparent()
                    if oparent is not None:
                data = nroot

            # Force into the XHTML namespace
            if not namespace(data.tag):
                self.oeb.log.warn('Forcing', self.href, 'into XHTML namespace')
                data.attrib['xmlns'] = XHTML_NS
                data = etree.tostring(data, encoding=unicode)

                    data = etree.fromstring(data)
                    data = data.replace(':=', '=').replace(':>', '>')
                    data = data.replace('<http:/>', '')
                        data = etree.fromstring(data)
                    except etree.XMLSyntaxError:
                        self.oeb.logger.warn('Stripping comments and meta tags from %s'%
                        data = re.compile(r'<!--.*?-->', re.DOTALL).sub('',
                        data = re.sub(r'<meta\s+[^>]+?>', '', data)
                        data = data.replace(
                                "<?xml version='1.0' encoding='utf-8'?><o:p></o:p>",
                        data = data.replace("<?xml version='1.0' encoding='utf-8'??>", '')
                        data = etree.fromstring(data)
            elif namespace(data.tag) != XHTML_NS:
                # OEB_DOC_NS, but possibly others
                ns = namespace(data.tag)
                attrib = dict(data.attrib)
                nroot = etree.Element(XHTML('html'),
                    nsmap={None: XHTML_NS}, attrib=attrib)
                for elem in data.iterdescendants():
                    if isinstance(elem.tag, basestring) and \
                       namespace(elem.tag) == ns:
                        elem.tag = XHTML(barename(elem.tag))
                for elem in data:
                data = nroot

            data = merge_multiple_html_heads_and_bodies(data, self.oeb.logger)
            # Ensure has a <head/>
            head = xpath(data, '/h:html/h:head')
            head = head[0] if head else None
            if head is None:
                    'File %r missing <head/> element' % self.href)
                head = etree.Element(XHTML('head'))
                data.insert(0, head)
                title = etree.SubElement(head, XHTML('title'))
                title.text = self.oeb.translate(__('Unknown'))
            elif not xpath(data, '/h:html/h:head/h:title'):
                    'File %r missing <title/> element' % self.href)
                title = etree.SubElement(head, XHTML('title'))
                title.text = self.oeb.translate(__('Unknown'))
            # Remove any encoding-specifying <meta/> elements
            for meta in self.META_XP(data):
            etree.SubElement(head, XHTML('meta'),
                attrib={'http-equiv': 'Content-Type',
                        'content': '%s; charset=utf-8' % XHTML_NS})
            # Ensure has a <body/>
            if not xpath(data, '/h:html/h:body'):
                body = xpath(data, '//h:body')
                if body:
                    body = body[0]
                        'File %r missing <body/> element' % self.href)
                    etree.SubElement(data, XHTML('body'))

            # Remove microsoft office markup
            r = [x for x in data.iterdescendants(etree.Element) if 'microsoft-com' in x.tag]
            for x in r:
                x.tag = XHTML('span')

            # Remove lang redefinition inserted by the amazing Microsoft Word!
            body = xpath(data, '/h:html/h:body')[0]
            for key in list(body.attrib.keys()):
                if key == 'lang' or key.endswith('}lang'):

            def remove_elem(a):
                p = a.getparent()
                idx = p.index(a) -1
                if a.tail:
                    if idx <= 0:
                        if p.text is None:
                            p.text = ''
                        p.text += a.tail
                        if p[idx].tail is None:
                            p[idx].tail = ''
                        p[idx].tail += a.tail

            # Remove hyperlinks with no content as they cause rendering
            # artifacts in browser based renderers
            # Also remove empty <b> and <i> tags
            for a in xpath(data, '//h:a[@href]|//h:i|//h:b'):
                if a.get('id', None) is None and a.get('name', None) is None \
                        and len(a) == 0 and not a.text:

            return data

        def _parse_txt(self, data):
            if '<html>' in data:
                return self._parse_xhtml(data)

            self.oeb.log.debug('Converting', self.href, '...')

            from calibre.ebooks.txt.processor import convert_markdown

            title = self.oeb.metadata.title
            if title:
                title = unicode(title[0])
                title = _('Unknown')

            return self._parse_xhtml(convert_markdown(data, title=title))

        def _parse_css(self, data):
            self.oeb.log.debug('Parsing', self.href, '...')
            data = self.oeb.decode(data)
            data = self.oeb.css_preprocessor(data)
            data = XHTML_CSS_NAMESPACE + data
            parser = CSSParser(loglevel=logging.WARNING,
            data = parser.parseString(data, href=self.href)
            data.namespaces['h'] = XHTML_NS
            return data

        def _fetch_css(self, path):
            hrefs = self.oeb.manifest.hrefs
            if path not in hrefs:
                self.oeb.logger.warn('CSS import of missing file %r' % path)
                return (None, None)
            item = hrefs[path]
            if item.media_type not in OEB_STYLES:
                self.oeb.logger.warn('CSS import of non-CSS file %r' % path)
                return (None, None)
            data = item.data.cssText
            return ('utf-8', data)

        def data(self):
            doc = """Provides MIME type sensitive access to the manifest
            entry's associated content.

            - XHTML, HTML, and variant content is parsed as necessary to
              convert and and return as an lxml.etree element in the XHTML
            - XML content is parsed and returned as an lxml.etree element.
            - CSS and CSS-variant content is parsed and returned as a cssutils
              CSS DOM stylesheet.
            - All other content is returned as a :class:`str` object with no
              special parsing.
            def fget(self):
                data = self._data
                if data is None:
                    if self._loader is None:
                        return None
                    data = self._loader(getattr(self, 'html_input_href',
                if not isinstance(data, basestring):
                    pass # already parsed
                elif self.media_type.lower() in OEB_DOCS:
                    data = self._parse_xhtml(data)
                elif self.media_type.lower()[-4:] in ('+xml', '/xml'):
                    data = self._parse_xml(data)
                elif self.media_type.lower() in OEB_STYLES:
                    data = self._parse_css(data)
                elif 'text' in self.media_type.lower():
                    self.oeb.log.warn('%s contains data in TXT format'%self.href,
                            'converting to HTML')
                    data = self._parse_txt(data)
                    self.media_type = XHTML_MIME
                self._data = data
                return data
            def fset(self, value):
                self._data = value
            def fdel(self):
                self._data = None
            return property(fget, fset, fdel, doc=doc)

        def unload_data_from_memory(self, memory=None):
            if isinstance(self._data, (str, bytes)):
                if memory is None:
                    from calibre.ptempfile import PersistentTemporaryFile
                    pt = PersistentTemporaryFile(suffix='_oeb_base_mem_unloader.img')
                    def loader(*args):
                        with open(pt.name, 'rb') as f:
                            ans = f.read()
                        return ans
                    self._loader = loader
                    def loader2(*args):
                        with open(memory, 'rb') as f:
                            ans = f.read()
                        return ans
                    self._loader = loader2
                self._data = None

        def __str__(self):
            data = self.data
            if isinstance(data, etree._Element):
                ans = xml2str(data, pretty_print=self.oeb.pretty_print)
                if self.media_type in OEB_DOCS:
                    ans = re.sub(r'<(div|a|span)([^>]*)/>', r'<\1\2></\1>', ans)
                return ans
            if isinstance(data, unicode):
                return data.encode('utf-8')
            if hasattr(data, 'cssText'):
                data = data.cssText
                if isinstance(data, unicode):
                    data = data.encode('utf-8')
                return data
            return str(data)

        def __unicode__(self):
            data = self.data
            if isinstance(data, etree._Element):
                return xml2unicode(data, pretty_print=self.oeb.pretty_print)
            if isinstance(data, unicode):
                return data
            if hasattr(data, 'cssText'):
                return data.cssText
            return unicode(data)

        def __eq__(self, other):
            return id(self) == id(other)

        def __ne__(self, other):
            return not self.__eq__(other)

        def __cmp__(self, other):
            result = cmp(self.spine_position, other.spine_position)
            if result != 0:
                return result
            smatch = self.NUM_RE.search(self.href)
            sref = smatch.group(1) if smatch else self.href
            snum = float(smatch.group(2)) if smatch else 0.0
            skey = (sref, snum, self.id)
            omatch = self.NUM_RE.search(other.href)
            oref = omatch.group(1) if omatch else other.href
            onum = float(omatch.group(2)) if omatch else 0.0
            okey = (oref, onum, other.id)
            return cmp(skey, okey)

        def relhref(self, href):
            """Convert the URL provided in :param:`href` from a book-absolute
            reference to a reference relative to this manifest item.
            if urlparse(href).scheme:
                return href
            if '/' not in self.href:
                return href
            base = os.path.dirname(self.href).split('/')
            target, frag = urldefrag(href)
            target = target.split('/')
            for index in xrange(min(len(base), len(target))):
                if base[index] != target[index]: break
                index += 1
            relhref = (['..'] * (len(base) - index)) + target[index:]
            relhref = '/'.join(relhref)
            if frag:
                relhref = '#'.join((relhref, frag))
            return relhref

        def abshref(self, href):
            """Convert the URL provided in :param:`href` from a reference
            relative to this manifest item to a book-absolute reference.
            purl = urlparse(href)
            scheme = purl.scheme
            if scheme and scheme != 'file':
                return href
            purl = list(purl)
            purl[0] = ''
            href = urlunparse(purl)
            path, frag = urldefrag(href)
            if not path:
                if frag:
                    return '#'.join((self.href, frag))
                    return self.href
            if '/' not in self.href:
                return href
            dirname = os.path.dirname(self.href)
            href = os.path.join(dirname, href)
            href = os.path.normpath(href).replace('\\', '/')
            return href

    def __init__(self, oeb):
        self.oeb = oeb
        self.items = set()
        self.ids = {}
        self.hrefs = {}

    def add(self, id, href, media_type, fallback=None, loader=None, data=None):
        """Add a new item to the book manifest.

        The item's :param:`id`, :param:`href`, and :param:`media_type` are all
        required.  A :param:`fallback` item-id is required for any items with a
        MIME type which is not one of the OPS core media types.  Either the
        item's data itself may be provided with :param:`data`, or a loader
        function for the data may be provided with :param:`loader`, or the
        item's data may later be set manually via the :attr:`data` attribute.
        item = self.Item(
            self.oeb, id, href, media_type, fallback, loader, data)
        self.ids[item.id] = item
        self.hrefs[item.href] = item
        return item

    def remove(self, item):
        """Removes :param:`item` from the manifest."""
        if item in self.ids:
            item = self.ids[item]
        del self.ids[item.id]
        if item.href in self.hrefs:
            del self.hrefs[item.href]
        if item in self.oeb.spine:

    def generate(self, id=None, href=None):
        """Generate a new unique identifier and/or internal path for use in
        creating a new manifest item, using the provided :param:`id` and/or
        :param:`href` as bases.

        Returns an two-tuple of the new id and path.  If either :param:`id` or
        :param:`href` are `None` then the corresponding item in the return
        tuple will also be `None`.
        if id is not None:
            base = id
            index = 1
            while id in self.ids:
                id = base + str(index)
                index += 1
        if href is not None:
            href = urlnormalize(href)
            base, ext = os.path.splitext(href)
            index = 1
            lhrefs = set([x.lower() for x in self.hrefs])
            while href.lower() in lhrefs:
                href = base + str(index) + ext
                index += 1
        return id, href

    def __iter__(self):
        for item in self.items:
            yield item

    def __len__(self):
        return len(self.items)

    def values(self):
        return list(self.items)

    def __contains__(self, item):
        return item in self.items

    def to_opf1(self, parent=None):
        elem = element(parent, 'manifest')
        for item in self.items:
            media_type = item.media_type
            if media_type in OEB_DOCS:
                media_type = OEB_DOC_MIME
            elif media_type in OEB_STYLES:
                media_type = OEB_CSS_MIME
            attrib = {'id': item.id, 'href': urlunquote(item.href),
                      'media-type': media_type}
            if item.fallback:
                attrib['fallback'] = item.fallback
            element(elem, 'item', attrib=attrib)
        return elem

    def to_opf2(self, parent=None):

        def sort(x, y):
            return cmp(x.href, y.href)

        elem = element(parent, OPF('manifest'))
        for item in sorted(self.items, cmp=sort):
            media_type = item.media_type
            if media_type in OEB_DOCS:
                media_type = XHTML_MIME
            elif media_type in OEB_STYLES:
                media_type = CSS_MIME
            attrib = {'id': item.id, 'href': urlunquote(item.href),
                      'media-type': media_type}
            if item.fallback:
                attrib['fallback'] = item.fallback
            element(elem, OPF('item'), attrib=attrib)
        return elem

class Spine(object):
    """Collection of manifest items composing an OEB data model book's main
    textual content.

    The spine manages which manifest items compose the book's main textual
    content and the sequence in which they appear.  Provides Python container
    access as a list-like object.
    def __init__(self, oeb):
        self.oeb = oeb
        self.items = []

    def _linear(self, linear):
        if isinstance(linear, basestring):
            linear = linear.lower()
        if linear is None or linear in ('yes', 'true'):
            linear = True
        elif linear in ('no', 'false'):
            linear = False
        return linear

    def add(self, item, linear=None):
        """Append :param:`item` to the end of the `Spine`."""
        item.linear = self._linear(linear)
        item.spine_position = len(self.items)
        return item

    def insert(self, index, item, linear):
        """Insert :param:`item` at position :param:`index` in the `Spine`."""
        item.linear = self._linear(linear)
        item.spine_position = index
        self.items.insert(index, item)
        for i in xrange(index, len(self.items)):
            self.items[i].spine_position = i
        return item

    def remove(self, item):
        """Remove :param:`item` from the `Spine`."""
        index = item.spine_position
        for i in xrange(index, len(self.items)):
            self.items[i].spine_position = i
        item.spine_position = None

    def index(self, item):
        for i, x in enumerate(self):
            if item == x:
                return i
        return -1

    def __iter__(self):
        for item in self.items:
            yield item

    def __getitem__(self, index):
        return self.items[index]

    def __len__(self):
        return len(self.items)

    def __contains__(self, item):
        return (item in self.items)

    def to_opf1(self, parent=None):
        elem = element(parent, 'spine')
        for item in self.items:
            if item.linear:
                element(elem, 'itemref', attrib={'idref': item.id})
        return elem

    def to_opf2(self, parent=None):
        elem = element(parent, OPF('spine'))
        for item in self.items:
            attrib = {'idref': item.id}
            if not item.linear:
                attrib['linear'] = 'no'
            element(elem, OPF('itemref'), attrib=attrib)
        return elem

class Guide(object):
    """Collection of references to standard frequently-occurring sections
    within an OEB data model book.

    Provides dictionary-like access, in which the keys are the OEB reference
    type identifiers and the values are `Reference` objects.

    class Reference(object):
        """Reference to a standard book section.

        Provides the following instance data members:

        :attr:`type`: Reference type identifier, as chosen from the list
            allowed in the OPF 2.0 specification.
        :attr:`title`: Human-readable section title.
        :attr:`href`: Book-internal URL of the referenced section.  May include
            a fragment identifier.
        _TYPES_TITLES = [('cover', __('Cover')),
                         ('title-page', __('Title Page')),
                         ('toc', __('Table of Contents')),
                         ('index', __('Index')),
                         ('glossary', __('Glossary')),
                         ('acknowledgements', __('Acknowledgements')),
                         ('bibliography', __('Bibliography')),
                         ('colophon', __('Colophon')),
                         ('copyright-page', __('Copyright')),
                         ('dedication', __('Dedication')),
                         ('epigraph', __('Epigraph')),
                         ('foreword', __('Foreword')),
                         ('loi', __('List of Illustrations')),
                         ('lot', __('List of Tables')),
                         ('notes', __('Notes')),
                         ('preface', __('Preface')),
                         ('text', __('Main Text'))]
        TYPES = set(t for t, _ in _TYPES_TITLES)
        TITLES = dict(_TYPES_TITLES)
        ORDER = dict((t, i) for i, (t, _) in enumerate(_TYPES_TITLES))

        def __init__(self, oeb, type, title, href):
            self.oeb = oeb
            if type.lower() in self.TYPES:
                type = type.lower()
            elif type not in self.TYPES and \
                 not type.startswith('other.'):
                type = 'other.' + type
            if not title and type in self.TITLES:
                title = oeb.translate(self.TITLES[type])
            self.type = type
            self.title = title
            self.href = urlnormalize(href)

        def __repr__(self):
            return 'Reference(type=%r, title=%r, href=%r)' \
                % (self.type, self.title, self.href)

        def _order(self):
            def fget(self):
                return self.ORDER.get(self.type, self.type)
            return property(fget=fget)

        def __cmp__(self, other):
            if not isinstance(other, Guide.Reference):
                return NotImplemented
            return cmp(self._order, other._order)

        def item(self):
            doc = """The manifest item associated with this reference."""
            def fget(self):
                path = urldefrag(self.href)[0]
                hrefs = self.oeb.manifest.hrefs
                return hrefs.get(path, None)
            return property(fget=fget, doc=doc)

    def __init__(self, oeb):
        self.oeb = oeb
        self.refs = {}

    def add(self, type, title, href):
        """Add a new reference to the `Guide`."""
        ref = self.Reference(self.oeb, type, title, href)
        self.refs[type] = ref
        return ref

    def remove(self, type):
        return self.refs.pop(type, None)

    def iterkeys(self):
        for type in self.refs:
            yield type
    __iter__ = iterkeys

    def values(self):
        return sorted(self.refs.values())

    def items(self):
        for type, ref in self.refs.items():
            yield type, ref

    def __getitem__(self, key):
        return self.refs[key]

    def __delitem__(self, key):
        del self.refs[key]

    def __contains__(self, key):
        return key in self.refs

    def __len__(self):
        return len(self.refs)

    def to_opf1(self, parent=None):
        elem = element(parent, 'guide')
        for ref in self.refs.values():
            attrib = {'type': ref.type, 'href': urlunquote(ref.href)}
            if ref.title:
                attrib['title'] = ref.title
            element(elem, 'reference', attrib=attrib)
        return elem

    def to_opf2(self, parent=None):
        elem = element(parent, OPF('guide'))
        for ref in self.refs.values():
            attrib = {'type': ref.type, 'href': urlunquote(ref.href)}
            if ref.title:
                attrib['title'] = ref.title
            element(elem, OPF('reference'), attrib=attrib)
        return elem

class TOC(object):
    """Represents a hierarchical table of contents or navigation tree for
    accessing arbitrary semantic sections within an OEB data model book.

    Acts as a node within the navigation tree.  Provides list-like access to
    sub-nodes.  Provides the follow node instance data attributes:

    :attr:`title`: The title of this navigation node.
    :attr:`href`: Book-internal URL referenced by this node.
    :attr:`klass`: Optional semantic class referenced by this node.
    :attr:`id`: Option unique identifier for this node.
    :attr:`author`: Optional author attribution for periodicals <mbp:>
    :attr:`description`: Optional description attribute for periodicals <mbp:>
    def __init__(self, title=None, href=None, klass=None, id=None,
            play_order=None, author=None, description=None):
        self.title = title
        self.href = urlnormalize(href) if href else href
        self.klass = klass
        self.id = id
        self.nodes = []
        self.play_order = 0
        if play_order is None:
            play_order = self.next_play_order()
        self.play_order = play_order
        self.author = author
        self.description = description

    def add(self, title, href, klass=None, id=None, play_order=0, author=None, description=None):
        """Create and return a new sub-node of this node."""
        node = TOC(title, href, klass, id, play_order, author, description)
        return node

    def remove(self, node):
        for child in self.nodes:
            if child is node:
                return True
                if child.remove(node):
                    return True
        return False

    def iter(self):
        """Iterate over this node and all descendants in depth-first order."""
        yield self
        for child in self.nodes:
            for node in child.iter():
                yield node

    def count(self):
        return len(list(self.iter())) - 1

    def next_play_order(self):
        entries = [x.play_order for x in self.iter()]
        base = max(entries) if entries else 0
        return base+1

    def has_href(self, href):
        for x in self.iter():
            if x.href == href:
                return True
        return False

    def has_text(self, text):
        for x in self.iter():
            if x.title and x.title.lower() == text.lower():
                return True
        return False

    def iterdescendants(self):
        """Iterate over all descendant nodes in depth-first order."""
        for child in self.nodes:
            for node in child.iter():
                yield node

    def __iter__(self):
        """Iterate over all immediate child nodes."""
        for node in self.nodes:
            yield node

    def __getitem__(self, index):
        return self.nodes[index]

    def autolayer(self):
        """Make sequences of children pointing to the same content file into
        children of the first node referencing that file.
        prev = None
        for node in list(self.nodes):
            if prev and urldefrag(prev.href)[0] == urldefrag(node.href)[0]:
                prev = node

    def depth(self):
        """The maximum depth of the navigation tree rooted at this node."""
            return max(node.depth() for node in self.nodes) + 1
        except ValueError:
            return 1

    def __str__(self):
        return 'TOC: %s --> %s'%(self.title, self.href)

    def to_opf1(self, tour):
        for node in self.nodes:
            element(tour, 'site', attrib={
                'title': node.title, 'href': urlunquote(node.href)})
        return tour

    def to_ncx(self, parent=None):
        if parent is None:
            parent = etree.Element(NCX('navMap'))
        for node in self.nodes:
            id = node.id or unicode(uuid.uuid4())
            po = node.play_order
            if po == 0:
                po = 1
            attrib = {'id': id, 'playOrder': str(po)}
            if node.klass:
                attrib['class'] = node.klass
            point = element(parent, NCX('navPoint'), attrib=attrib)
            label = etree.SubElement(point, NCX('navLabel'))
            title = node.title
            if title:
                title = re.sub(r'\s+', ' ', title)
            element(label, NCX('text')).text = title
            element(point, NCX('content'), src=urlunquote(node.href))
        return parent

    def rationalize_play_orders(self):
        Ensure that all nodes with the same play_order have the same href and
        with different play_orders have different hrefs.
        def po_node(n):
            for x in self.iter():
                if x is n:
                if x.play_order == n.play_order:
                    return x

        def href_node(n):
            for x in self.iter():
                if x is n:
                if x.href == n.href:
                    return x

        for x in self.iter():
            y = po_node(x)
            if y is not None:
                if x.href != y.href:
                    x.play_order = getattr(href_node(x), 'play_order',
            y = href_node(x)
            if y is not None:
                x.play_order = y.play_order

class PageList(object):
    """Collection of named "pages" to mapped positions within an OEB data model
    book's textual content.

    Provides list-like access to the pages.

    class Page(object):
        """Represents a mapping between a page name and a position within
        the book content.

        Provides the following instance data attributes:

        :attr:`name`: The name of this page.  Generally a number.
        :attr:`href`: Book-internal URL at which point this page begins.
        :attr:`type`: Must be one of 'front' (for prefatory pages, as commonly
            labeled in print with small-case Roman numerals), 'normal' (for
            standard pages, as commonly labeled in print with Arabic numerals),
            or 'special' (for other pages, as commonly not labeled in any
            fashion in print, such as the cover and title pages).
        :attr:`klass`: Optional semantic class of this page.
        :attr:`id`: Optional unique identifier for this page.
        TYPES = set(['front', 'normal', 'special'])

        def __init__(self, name, href, type='normal', klass=None, id=None):
            self.name = unicode(name)
            self.href = urlnormalize(href)
            self.type = type if type in self.TYPES else 'normal'
            self.id = id
            self.klass = klass

    def __init__(self):
        self.pages = []

    def add(self, name, href, type='normal', klass=None, id=None):
        """Create a new page and add it to the `PageList`."""
        page = self.Page(name, href, type, klass, id)
        return page

    def __len__(self):
        return len(self.pages)

    def __iter__(self):
        for page in self.pages:
            yield page

    def __getitem__(self, index):
        return self.pages[index]

    def pop(self, index=-1):
        return self.pages.pop(index)

    def remove(self, page):
        return self.pages.remove(page)

    def to_ncx(self, parent=None):
        plist = element(parent, NCX('pageList'), id=str(uuid.uuid4()))
        values = dict((t, count(1)) for t in ('front', 'normal', 'special'))
        for page in self.pages:
            id = page.id or unicode(uuid.uuid4())
            type = page.type
            value = str(values[type].next())
            attrib = {'id': id, 'value': value, 'type': type, 'playOrder': '0'}
            if page.klass:
                attrib['class'] = page.klass
            ptarget = element(plist, NCX('pageTarget'), attrib=attrib)
            label = element(ptarget, NCX('navLabel'))
            element(label, NCX('text')).text = page.name
            element(ptarget, NCX('content'), src=page.href)
        return plist

    def to_page_map(self):
        pmap = etree.Element(OPF('page-map'), nsmap={None: OPF2_NS})
        for page in self.pages:
            element(pmap, OPF('page'), name=page.name, href=page.href)
        return pmap

class OEBBook(object):
    """Representation of a book in the IDPF OEB data model."""

    COVER_SVG_XP    = XPath('h:body//svg:svg[position() = 1]')
    COVER_OBJECT_XP = XPath('h:body//h:object[@data][position() = 1]')

    def __init__(self, logger,
            encoding='utf-8', pretty_print=False,
        """Create empty book.  Arguments:

        :param:`encoding`: Default encoding for textual content read
            from an external container.
        :param:`pretty_print`: Whether or not the canonical string form
            of XML markup is pretty-printed.
        :param html_preprocessor: A callable that takes a unicode object
            and returns a unicode object. Will be called on all html files
            before they are parsed.
        :param css_preprocessor: A callable that takes a unicode object
            and returns a unicode object. Will be called on all CSS files
            before they are parsed.
        :param:`logger`: A Log object to use for logging all messages
            related to the processing of this book.  It is accessible
            via the instance data members :attr:`logger,log`.

        It provides the following public instance data members for
        accessing various parts of the OEB data model:

        :attr:`metadata`: Metadata such as title, author name(s), etc.
        :attr:`manifest`: Manifest of all files included in the book,
            including MIME types and fallback information.
        :attr:`spine`: In-order list of manifest items which compose
            the textual content of the book.
        :attr:`guide`: Collection of references to standard positions
            within the text, such as the cover, preface, etc.
        :attr:`toc`: Hierarchical table of contents.
        :attr:`pages`: List of "pages," such as indexed to a print edition of
            the same text.
        _css_log_handler.log = logger
        self.encoding = encoding
        self.input_encoding = input_encoding
        self.html_preprocessor = html_preprocessor
        self.css_preprocessor = css_preprocessor
        self.pretty_print = pretty_print
        self.logger = self.log = logger
        self.version = '2.0'
        self.container = NullContainer(self.log)
        self.metadata = Metadata(self)
        self.uid = None
        self.manifest = Manifest(self)
        self.spine = Spine(self)
        self.guide = Guide(self)
        self.toc = TOC()
        self.pages = PageList()
        self.auto_generated_toc = True

    def generate(cls, opts):
        """Generate an OEBBook instance from command-line options."""
        encoding = opts.encoding
        pretty_print = opts.pretty_print
        return cls(encoding=encoding, pretty_print=pretty_print)

    def translate(self, text):
        """Translate :param:`text` into the book's primary language."""
        lang = str(self.metadata.language[0])
        lang = lang.split('-', 1)[0].lower()
        return translate(lang, text)

    def decode(self, data):
        """Automatically decode :param:`data` into a `unicode` object."""
        def fix_data(d):
            return d.replace('\r\n', '\n').replace('\r', '\n')
        if isinstance(data, unicode):
            return fix_data(data)
        bom_enc = None
        if data[:4] in ('\0\0\xfe\xff', '\xff\xfe\0\0'):
            bom_enc = {'\0\0\xfe\xff':'utf-32-be',
            data = data[4:]
        elif data[:2] in ('\xff\xfe', '\xfe\xff'):
            bom_enc = {'\xff\xfe':'utf-16-le', '\xfe\xff':'utf-16-be'}[data[:2]]
            data = data[2:]
        elif data[:3] == '\xef\xbb\xbf':
            bom_enc = 'utf-8'
            data = data[3:]
        if bom_enc is not None:
                return fix_data(data.decode(bom_enc))
            except UnicodeDecodeError:
        if self.input_encoding is not None:
                return fix_data(data.decode(self.input_encoding, 'replace'))
            except UnicodeDecodeError:
            return fix_data(data.decode('utf-8'))
        except UnicodeDecodeError:
        data, _ = xml_to_unicode(data)
        return fix_data(data)

    def to_opf1(self):
        """Produce OPF 1.2 representing the book's metadata and structure.

        Returns a dictionary in which the keys are MIME types and the values
        are tuples of (default) filenames and lxml.etree element structures.
        package = etree.Element('package',
            attrib={'unique-identifier': self.uid.id})
        tours = element(package, 'tours')
        tour = element(tours, 'tour',
            attrib={'id': 'chaptertour', 'title': 'Chapter Tour'})
        return {OPF_MIME: ('content.opf', package)}

    def _update_playorder(self, ncx):
        hrefs = set(map(urlnormalize, xpath(ncx, '//ncx:content/@src')))
        playorder = {}
        next = 1
        selector = XPath('h:body//*[@id or @name]')
        for item in self.spine:
            base = item.href
            if base in hrefs:
                playorder[base] = next
                next += 1
            for elem in selector(item.data):
                added = False
                for attr in ('id', 'name'):
                    id = elem.get(attr)
                    if not id:
                    href = '#'.join([base, id])
                    if href in hrefs:
                        playorder[href] = next
                        added = True
                if added:
                    next += 1
        selector = XPath('ncx:content/@src')
        for i, elem in enumerate(xpath(ncx, '//*[@playOrder and ./ncx:content[@src]]')):
            href = urlnormalize(selector(elem)[0])
            order = playorder.get(href, i)
            elem.attrib['playOrder'] = str(order)

    def _to_ncx(self):
        lang = unicode(self.metadata.language[0])
        ncx = etree.Element(NCX('ncx'),
            attrib={'version': '2005-1', XML('lang'): lang},
            nsmap={None: NCX_NS})
        head = etree.SubElement(ncx, NCX('head'))
        etree.SubElement(head, NCX('meta'),
            name='dtb:uid', content=unicode(self.uid))
        etree.SubElement(head, NCX('meta'),
            name='dtb:depth', content=str(self.toc.depth()))
        generator = ''.join(['calibre (', calibre.__version__, ')'])
        etree.SubElement(head, NCX('meta'),
            name='dtb:generator', content=generator)
        etree.SubElement(head, NCX('meta'),
            name='dtb:totalPageCount', content=str(len(self.pages)))
        maxpnum = etree.SubElement(head, NCX('meta'),
            name='dtb:maxPageNumber', content='0')
        title = etree.SubElement(ncx, NCX('docTitle'))
        text = etree.SubElement(title, NCX('text'))
        text.text = unicode(self.metadata.title[0])
        navmap = etree.SubElement(ncx, NCX('navMap'))
        if len(self.pages) > 0:
            plist = self.pages.to_ncx(ncx)
            value = max(int(x) for x in xpath(plist, '//@value'))
            maxpnum.attrib['content'] = str(value)
        return ncx

    def to_opf2(self, page_map=False):
        """Produce OPF 2.0 representing the book's metadata and structure.

        Returns a dictionary in which the keys are MIME types and the values
        are tuples of (default) filenames and lxml.etree element structures.
        results = {}
        package = etree.Element(OPF('package'),
            attrib={'version': '2.0', 'unique-identifier': self.uid.id},
            nsmap={None: OPF2_NS})
        manifest = self.manifest.to_opf2(package)
        spine = self.spine.to_opf2(package)
        results[OPF_MIME] = ('content.opf', package)
        id, href = self.manifest.generate('ncx', 'toc.ncx')
        etree.SubElement(manifest, OPF('item'), id=id, href=href,
                         attrib={'media-type': NCX_MIME})
        spine.attrib['toc'] = id
        results[NCX_MIME] = (href, self._to_ncx())
        if page_map and len(self.pages) > 0:
            id, href = self.manifest.generate('page-map', 'page-map.xml')
            etree.SubElement(manifest, OPF('item'), id=id, href=href,
                             attrib={'media-type': PAGE_MAP_MIME})
            spine.attrib['page-map'] = id
            results[PAGE_MAP_MIME] = (href, self.pages.to_page_map())
        return results

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