mirror of
https://github.com/SickGear/SickGear.git
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e56303798c
Initial SickGear for Python 3.
483 lines
17 KiB
Python
483 lines
17 KiB
Python
# -*- coding: utf-8 -*-
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# enzyme - Video metadata parser
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# Copyright 2011-2012 Antoine Bertin <diaoulael@gmail.com>
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# Copyright 2003-2007 Thomas Schueppel <stain@acm.org>
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# Copyright 2003-2007 Dirk Meyer <dischi@freevo.org>
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#
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# This file is part of enzyme.
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#
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# enzyme is free software; you can redistribute it and/or modify it under
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# the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 3 of the License, or
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# (at your option) any later version.
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#
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# enzyme is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with enzyme. If not, see <http://www.gnu.org/licenses/>.
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__all__ = ['Parser']
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import zlib
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import logging
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import struct
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from .exceptions import ParseError
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from . import core
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from six import byte2int, indexbytes, StringIO
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from _23 import decode_str
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# get logging object
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log = logging.getLogger(__name__)
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# http://developer.apple.com/documentation/QuickTime/QTFF/index.html
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# http://developer.apple.com/documentation/QuickTime/QTFF/QTFFChap4/\
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# chapter_5_section_2.html#//apple_ref/doc/uid/TP40000939-CH206-BBCBIICE
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# Note: May need to define custom log level to work like ATOM_DEBUG did here
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QTUDTA = {
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'nam': 'title',
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'aut': 'artist',
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'cpy': 'copyright'
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}
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QTLANGUAGES = {
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0: "en",
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1: "fr",
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2: "de",
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3: "it",
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4: "nl",
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5: "sv",
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6: "es",
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7: "da",
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8: "pt",
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9: "no",
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10: "he",
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11: "ja",
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12: "ar",
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13: "fi",
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14: "el",
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15: "is",
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16: "mt",
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17: "tr",
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18: "hr",
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19: "Traditional Chinese",
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20: "ur",
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21: "hi",
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22: "th",
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23: "ko",
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24: "lt",
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25: "pl",
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26: "hu",
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27: "et",
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28: "lv",
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29: "Lappish",
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30: "fo",
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31: "Farsi",
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32: "ru",
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33: "Simplified Chinese",
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34: "Flemish",
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35: "ga",
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36: "sq",
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37: "ro",
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38: "cs",
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39: "sk",
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40: "sl",
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41: "yi",
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42: "sr",
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43: "mk",
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44: "bg",
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45: "uk",
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46: "be",
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47: "uz",
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48: "kk",
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49: "az",
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50: "AzerbaijanAr",
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51: "hy",
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52: "ka",
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53: "mo",
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54: "ky",
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55: "tg",
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56: "tk",
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57: "mn",
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58: "MongolianCyr",
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59: "ps",
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60: "ku",
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61: "ks",
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62: "sd",
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63: "bo",
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64: "ne",
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65: "sa",
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66: "mr",
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67: "bn",
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68: "as",
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69: "gu",
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70: "pa",
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71: "or",
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72: "ml",
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73: "kn",
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74: "ta",
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75: "te",
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76: "si",
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77: "my",
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78: "Khmer",
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79: "lo",
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80: "vi",
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81: "id",
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82: "tl",
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83: "MalayRoman",
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84: "MalayArabic",
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85: "am",
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86: "ti",
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87: "om",
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88: "so",
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89: "sw",
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90: "Ruanda",
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91: "Rundi",
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92: "Chewa",
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93: "mg",
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94: "eo",
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128: "cy",
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129: "eu",
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130: "ca",
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131: "la",
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132: "qu",
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133: "gn",
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134: "ay",
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135: "tt",
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136: "ug",
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137: "Dzongkha",
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138: "JavaneseRom",
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}
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class MPEG4(core.AVContainer):
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"""
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Parser for the MP4 container format. This format is mostly
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identical to Apple Quicktime and 3GP files. It maps to mp4, mov,
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qt and some other extensions.
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"""
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table_mapping = {'QTUDTA': QTUDTA}
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def __init__(self, file):
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core.AVContainer.__init__(self)
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self._references = []
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self.mime = 'video/quicktime'
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self.type = 'Quicktime Video'
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h = file.read(8)
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try:
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(size, t) = struct.unpack('>I4s', h)
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except struct.error:
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# EOF.
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raise ParseError()
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if t == 'ftyp':
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# file type information
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if size >= 12:
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# this should always happen
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if file.read(4) != 'qt ':
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# not a quicktime movie, it is a mpeg4 container
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self.mime = 'video/mp4'
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self.type = 'MPEG-4 Video'
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size -= 4
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file.seek(size - 8, 1)
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h = file.read(8)
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(size, t) = struct.unpack('>I4s', h)
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while t in ['mdat', 'skip']:
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# movie data at the beginning, skip
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file.seek(size - 8, 1)
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h = file.read(8)
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(size, t) = struct.unpack('>I4s', h)
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if t not in ['moov', 'wide', 'free']:
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log.debug(u'invalid header: %r' % t)
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raise ParseError()
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# Extended size
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if size == 1:
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size = struct.unpack('>Q', file.read(8))
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# Back over the atom header we just read, since _readatom expects the
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# file position to be at the start of an atom.
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file.seek(-8, 1)
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while self._readatom(file):
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pass
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if self._references:
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self._set('references', self._references)
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def _readatom(self, file):
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s = file.read(8)
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if len(s) < 8:
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return 0
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atomsize, atomtype = struct.unpack('>I4s', s)
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if not decode_str(atomtype, 'latin1').isalnum():
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# stop at nonsense data
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return 0
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log.debug(u'%r [%X]' % (atomtype, atomsize))
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if atomtype == 'udta':
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# Userdata (Metadata)
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pos = 0
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tabl = {}
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i18ntabl = {}
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atomdata = file.read(atomsize - 8)
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while pos < atomsize - 12:
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(datasize, datatype) = struct.unpack('>I4s', atomdata[pos:pos + 8])
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if byte2int(datatype) == 169:
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# i18n Metadata...
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mypos = 8 + pos
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while mypos + 4 < datasize + pos:
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# first 4 Bytes are i18n header
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(tlen, lang) = struct.unpack('>HH', atomdata[mypos:mypos + 4])
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i18ntabl[lang] = i18ntabl.get(lang, {})
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length = atomdata[mypos + 4:mypos + tlen + 4]
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i18ntabl[lang][datatype[1:]] = length
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mypos += tlen + 4
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elif datatype == 'WLOC':
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# Drop Window Location
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pass
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else:
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if byte2int(atomdata[pos + 8:pos + datasize]) > 1:
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tabl[datatype] = atomdata[pos + 8:pos + datasize]
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pos += datasize
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if len(i18ntabl.keys()) > 0:
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for k in i18ntabl.keys():
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if k in QTLANGUAGES and QTLANGUAGES[k] == 'en':
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self._appendtable('QTUDTA', i18ntabl[k])
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self._appendtable('QTUDTA', tabl)
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else:
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log.debug(u'NO i18')
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self._appendtable('QTUDTA', tabl)
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elif atomtype == 'trak':
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atomdata = file.read(atomsize - 8)
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pos = 0
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trackinfo = {}
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tracktype = None
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while pos < atomsize - 8:
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(datasize, datatype) = struct.unpack('>I4s', atomdata[pos:pos + 8])
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if datatype == 'tkhd':
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tkhd = struct.unpack('>6I8x4H36xII', atomdata[pos + 8:pos + datasize])
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trackinfo['width'] = tkhd[10] >> 16
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trackinfo['height'] = tkhd[11] >> 16
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trackinfo['id'] = tkhd[3]
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try:
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# XXX Timestamp of Seconds is since January 1st 1904!
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# XXX 2082844800 is the difference between Unix and
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# XXX Apple time. FIXME to work on Apple, too
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self.timestamp = int(tkhd[1]) - 2082844800
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except (BaseException, Exception):
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log.exception(u'There was trouble extracting timestamp')
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elif datatype == 'mdia':
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pos += 8
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datasize -= 8
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log.debug(u'--> mdia information')
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while datasize:
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mdia = struct.unpack('>I4s', atomdata[pos:pos + 8])
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if mdia[1] == 'mdhd':
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# Parse based on version of mdhd header. See
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# http://wiki.multimedia.cx/index.php?title=QuickTime_container#mdhd
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ver = indexbytes(atomdata, pos + 8)
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if ver == 0:
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mdhd = struct.unpack('>IIIIIhh', atomdata[pos + 8:pos + 8 + 24])
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elif ver == 1:
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mdhd = struct.unpack('>IQQIQhh', atomdata[pos + 8:pos + 8 + 36])
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else:
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mdhd = None
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if mdhd:
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# duration / time scale
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trackinfo['length'] = mdhd[4] / mdhd[3]
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if mdhd[5] in QTLANGUAGES:
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trackinfo['language'] = QTLANGUAGES[mdhd[5]]
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elif mdhd[5] == 0x7FF:
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trackinfo['language'] = 'und'
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elif mdhd[5] >= 0x400:
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# language code detected as explained in:
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# https://developer.apple.com/library/mac/documentation/QuickTime/qtff/QTFFChap4/qtff4.html#//apple_ref/doc/uid/TP40000939-CH206-35103
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language = bytearray(
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[((mdhd[5] & 0x7C00) >> 10) + 0x60, ((mdhd[5] & 0x3E0) >> 5) + 0x60,
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(mdhd[5] & 0x1F) + 0x60])
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trackinfo['language'] = str(language)
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# mdhd[6] == quality
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self.length = max(self.length, mdhd[4] / mdhd[3])
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elif mdia[1] == 'minf':
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# minf has only atoms inside
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pos -= (mdia[0] - 8)
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datasize += (mdia[0] - 8)
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elif mdia[1] == 'stbl':
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# stbl has only atoms inside
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pos -= (mdia[0] - 8)
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datasize += (mdia[0] - 8)
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elif mdia[1] == 'hdlr':
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hdlr = struct.unpack('>I4s4s', atomdata[pos + 8:pos + 8 + 12])
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if hdlr[1] == 'mhlr' or hdlr[1] == '\0\0\0\0':
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if hdlr[2] == 'vide':
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tracktype = 'video'
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if hdlr[2] == 'soun':
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tracktype = 'audio'
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if hdlr[2] == 'subt' or hdlr[2] == 'sbtl' or hdlr[2] == 'subp' or hdlr[2] == 'text':
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tracktype = 'subtitle'
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elif mdia[1] == 'stsd':
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stsd = struct.unpack('>2I', atomdata[pos + 8:pos + 8 + 8])
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if stsd[1] > 0:
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codec = atomdata[pos + 16:pos + 16 + 8]
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codec = struct.unpack('>I4s', codec)
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trackinfo['codec'] = codec[1]
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if codec[1] == 'jpeg':
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tracktype = 'image'
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elif mdia[1] == 'dinf':
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dref = struct.unpack('>I4s', atomdata[pos + 8:pos + 8 + 8])
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log.debug(u' --> %r, %r (useless)' % mdia)
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if dref[1] == 'dref':
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num = struct.unpack('>I', atomdata[pos + 20:pos + 20 + 4])[0]
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rpos = pos + 20 + 4
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for ref in range(num):
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# FIXME: do somthing if this references
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ref = struct.unpack('>I3s', atomdata[rpos:rpos + 7])
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data = atomdata[rpos + 7:rpos + ref[0]]
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rpos += ref[0]
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else:
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if mdia[1].startswith('st'):
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log.debug(u' --> %r, %r (sample)' % mdia)
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elif mdia[1] == 'vmhd' and not tracktype:
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# indicates that this track is video
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tracktype = 'video'
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elif mdia[1] in ['vmhd', 'smhd'] and not tracktype:
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# indicates that this track is audio
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tracktype = 'audio'
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else:
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log.debug(u' --> %r, %r (unknown)' % mdia)
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pos += mdia[0]
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datasize -= mdia[0]
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elif datatype == 'udta':
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log.debug(u'udta: %r' % struct.unpack('>I4s', atomdata[:8]))
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else:
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if datatype == 'edts':
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log.debug(u'--> %r [%d] (edit list)' % (datatype, datasize))
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else:
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log.debug(u'--> %r [%d] (unknown)' % (datatype, datasize))
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pos += datasize
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info = None
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if tracktype == 'video':
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info = core.VideoStream()
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self.video.append(info)
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if tracktype == 'audio':
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info = core.AudioStream()
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self.audio.append(info)
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if tracktype == 'subtitle':
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info = core.Subtitle()
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self.subtitles.append(info)
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if info:
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for key, value in trackinfo.items():
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setattr(info, key, value)
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elif atomtype == 'mvhd':
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# movie header
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mvhd = struct.unpack('>6I2h', file.read(28))
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self.length = max(self.length, mvhd[4] / mvhd[3])
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self.volume = mvhd[6]
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file.seek(atomsize - 8 - 28, 1)
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elif atomtype == 'cmov':
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# compressed movie
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datasize, atomtype = struct.unpack('>I4s', file.read(8))
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if not atomtype == 'dcom':
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return atomsize
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method = struct.unpack('>4s', file.read(datasize - 8))[0]
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datasize, atomtype = struct.unpack('>I4s', file.read(8))
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if not atomtype == 'cmvd':
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return atomsize
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if method == 'zlib':
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data = file.read(datasize - 8)
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try:
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decompressed = zlib.decompress(data)
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except Exception:
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try:
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decompressed = zlib.decompress(data[4:])
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except Exception:
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log.exception(u'There was a proble decompressiong atom')
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return atomsize
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decompressedIO = StringIO.StringIO(decompressed)
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while self._readatom(decompressedIO):
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pass
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else:
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log.info(u'unknown compression %r' % method)
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# unknown compression method
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file.seek(datasize - 8, 1)
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elif atomtype == 'moov':
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# decompressed movie info
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while self._readatom(file):
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pass
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elif atomtype == 'mdat':
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pos = file.tell() + atomsize - 8
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# maybe there is data inside the mdat
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log.info(u'parsing mdat')
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while self._readatom(file):
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pass
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log.info(u'end of mdat')
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file.seek(pos, 0)
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elif atomtype == 'rmra':
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# reference list
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while self._readatom(file):
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pass
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elif atomtype == 'rmda':
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# reference
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atomdata = file.read(atomsize - 8)
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pos = 0
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url = ''
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quality = 0
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datarate = 0
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while pos < atomsize - 8:
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(datasize, datatype) = struct.unpack('>I4s', atomdata[pos:pos + 8])
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if datatype == 'rdrf':
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rflags, rtype, rlen = struct.unpack('>I4sI', atomdata[pos + 8:pos + 20])
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if rtype == 'url ':
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url = atomdata[pos + 20:pos + 20 + rlen]
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if url.find('\0') > 0:
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url = url[:url.find('\0')]
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elif datatype == 'rmqu':
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quality = struct.unpack('>I', atomdata[pos + 8:pos + 12])[0]
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elif datatype == 'rmdr':
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datarate = struct.unpack('>I', atomdata[pos + 12:pos + 16])[0]
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pos += datasize
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if url:
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self._references.append((url, quality, datarate))
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if atomtype not in ['wide', 'free']:
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log.info(u'unhandled base atom %r' % atomtype)
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# Skip unknown atoms
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try:
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file.seek(atomsize - 8, 1)
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except IOError:
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return 0
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return atomsize
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Parser = MPEG4
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