mirror of
https://github.com/SickGear/SickGear.git
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567 lines
20 KiB
Python
567 lines
20 KiB
Python
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# -*- 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 2003-2006 Thomas Schueppel <stain@acm.org>
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# Copyright 2003-2006 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 os
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import struct
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import string
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import logging
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import time
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from exceptions import ParseError
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import core
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# get logging object
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log = logging.getLogger(__name__)
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# List of tags
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# http://kibus1.narod.ru/frames_eng.htm?sof/abcavi/infotags.htm
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# http://www.divx-digest.com/software/avitags_dll.html
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# File Format: google for odmlff2.pdf
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AVIINFO = {
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'INAM': 'title',
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'IART': 'artist',
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'IPRD': 'product',
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'ISFT': 'software',
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'ICMT': 'comment',
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'ILNG': 'language',
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'IKEY': 'keywords',
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'IPRT': 'trackno',
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'IFRM': 'trackof',
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'IPRO': 'producer',
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'IWRI': 'writer',
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'IGNR': 'genre',
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'ICOP': 'copyright'
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}
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# Taken from libavcodec/mpeg4data.h (pixel_aspect struct)
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PIXEL_ASPECT = {
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1: (1, 1),
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2: (12, 11),
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3: (10, 11),
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4: (16, 11),
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5: (40, 33)
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}
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class Riff(core.AVContainer):
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"""
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AVI parser also parsing metadata like title, languages, etc.
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"""
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table_mapping = { 'AVIINFO' : AVIINFO }
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def __init__(self, file):
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core.AVContainer.__init__(self)
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# read the header
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h = file.read(12)
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if h[:4] != "RIFF" and h[:4] != 'SDSS':
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raise ParseError()
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self.has_idx = False
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self.header = {}
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self.junkStart = None
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self.infoStart = None
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self.type = h[8:12]
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if self.type == 'AVI ':
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self.mime = 'video/avi'
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elif self.type == 'WAVE':
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self.mime = 'audio/wav'
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try:
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while self._parseRIFFChunk(file):
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pass
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except IOError:
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log.exception(u'error in file, stop parsing')
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self._find_subtitles(file.name)
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if not self.has_idx and isinstance(self, core.AVContainer):
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log.debug(u'WARNING: avi has no index')
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self._set('corrupt', True)
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def _find_subtitles(self, filename):
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"""
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Search for subtitle files. Right now only VobSub is supported
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"""
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base = os.path.splitext(filename)[0]
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if os.path.isfile(base + '.idx') and \
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(os.path.isfile(base + '.sub') or os.path.isfile(base + '.rar')):
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file = open(base + '.idx')
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if file.readline().find('VobSub index file') > 0:
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for line in file.readlines():
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if line.find('id') == 0:
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sub = core.Subtitle()
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sub.language = line[4:6]
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sub.trackno = base + '.idx' # Maybe not?
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self.subtitles.append(sub)
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file.close()
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def _parseAVIH(self, t):
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retval = {}
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v = struct.unpack('<IIIIIIIIIIIIII', t[0:56])
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(retval['dwMicroSecPerFrame'],
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retval['dwMaxBytesPerSec'],
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retval['dwPaddingGranularity'],
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retval['dwFlags'],
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retval['dwTotalFrames'],
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retval['dwInitialFrames'],
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retval['dwStreams'],
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retval['dwSuggestedBufferSize'],
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retval['dwWidth'],
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retval['dwHeight'],
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retval['dwScale'],
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retval['dwRate'],
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retval['dwStart'],
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retval['dwLength']) = v
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if retval['dwMicroSecPerFrame'] == 0:
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log.warning(u'ERROR: Corrupt AVI')
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raise ParseError()
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return retval
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def _parseSTRH(self, t):
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retval = {}
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retval['fccType'] = t[0:4]
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log.debug(u'_parseSTRH(%r) : %d bytes' % (retval['fccType'], len(t)))
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if retval['fccType'] != 'auds':
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retval['fccHandler'] = t[4:8]
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v = struct.unpack('<IHHIIIIIIIII', t[8:52])
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(retval['dwFlags'],
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retval['wPriority'],
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retval['wLanguage'],
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retval['dwInitialFrames'],
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retval['dwScale'],
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retval['dwRate'],
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retval['dwStart'],
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retval['dwLength'],
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retval['dwSuggestedBufferSize'],
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retval['dwQuality'],
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retval['dwSampleSize'],
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retval['rcFrame']) = v
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else:
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try:
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v = struct.unpack('<IHHIIIIIIIII', t[8:52])
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(retval['dwFlags'],
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retval['wPriority'],
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retval['wLanguage'],
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retval['dwInitialFrames'],
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retval['dwScale'],
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retval['dwRate'],
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retval['dwStart'],
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retval['dwLength'],
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retval['dwSuggestedBufferSize'],
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retval['dwQuality'],
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retval['dwSampleSize'],
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retval['rcFrame']) = v
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self.delay = float(retval['dwStart']) / \
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(float(retval['dwRate']) / retval['dwScale'])
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except (KeyError, IndexError, ValueError, ZeroDivisionError):
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pass
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return retval
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def _parseSTRF(self, t, strh):
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fccType = strh['fccType']
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retval = {}
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if fccType == 'auds':
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v = struct.unpack('<HHHHHH', t[0:12])
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(retval['wFormatTag'],
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retval['nChannels'],
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retval['nSamplesPerSec'],
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retval['nAvgBytesPerSec'],
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retval['nBlockAlign'],
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retval['nBitsPerSample'],
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) = v
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ai = core.AudioStream()
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ai.samplerate = retval['nSamplesPerSec']
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ai.channels = retval['nChannels']
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# FIXME: Bitrate calculation is completely wrong.
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#ai.samplebits = retval['nBitsPerSample']
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#ai.bitrate = retval['nAvgBytesPerSec'] * 8
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# TODO: set code if possible
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# http://www.stats.uwa.edu.au/Internal/Specs/DXALL/FileSpec/\
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# Languages
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# ai.language = strh['wLanguage']
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ai.codec = retval['wFormatTag']
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self.audio.append(ai)
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elif fccType == 'vids':
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v = struct.unpack('<IIIHH', t[0:16])
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(retval['biSize'],
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retval['biWidth'],
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retval['biHeight'],
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retval['biPlanes'],
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retval['biBitCount']) = v
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v = struct.unpack('IIIII', t[20:40])
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(retval['biSizeImage'],
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retval['biXPelsPerMeter'],
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retval['biYPelsPerMeter'],
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retval['biClrUsed'],
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retval['biClrImportant']) = v
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vi = core.VideoStream()
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vi.codec = t[16:20]
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vi.width = retval['biWidth']
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vi.height = retval['biHeight']
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# FIXME: Bitrate calculation is completely wrong.
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#vi.bitrate = strh['dwRate']
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vi.fps = float(strh['dwRate']) / strh['dwScale']
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vi.length = strh['dwLength'] / vi.fps
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self.video.append(vi)
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return retval
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def _parseSTRL(self, t):
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retval = {}
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size = len(t)
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i = 0
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while i < len(t) - 8:
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key = t[i:i + 4]
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sz = struct.unpack('<I', t[i + 4:i + 8])[0]
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i += 8
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value = t[i:]
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if key == 'strh':
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retval[key] = self._parseSTRH(value)
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elif key == 'strf':
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retval[key] = self._parseSTRF(value, retval['strh'])
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else:
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log.debug(u'_parseSTRL: unsupported stream tag %r', key)
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i += sz
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return retval, i
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def _parseODML(self, t):
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retval = {}
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size = len(t)
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i = 0
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key = t[i:i + 4]
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sz = struct.unpack('<I', t[i + 4:i + 8])[0]
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i += 8
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value = t[i:]
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if key != 'dmlh':
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log.debug(u'_parseODML: Error')
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i += sz - 8
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return (retval, i)
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def _parseVPRP(self, t):
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retval = {}
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v = struct.unpack('<IIIIIIIIII', t[:4 * 10])
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(retval['VideoFormat'],
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retval['VideoStandard'],
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retval['RefreshRate'],
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retval['HTotalIn'],
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retval['VTotalIn'],
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retval['FrameAspectRatio'],
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retval['wPixel'],
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retval['hPixel']) = v[1:-1]
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# I need an avi with more informations
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# enum {FORMAT_UNKNOWN, FORMAT_PAL_SQUARE, FORMAT_PAL_CCIR_601,
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# FORMAT_NTSC_SQUARE, FORMAT_NTSC_CCIR_601,...} VIDEO_FORMAT;
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# enum {STANDARD_UNKNOWN, STANDARD_PAL, STANDARD_NTSC, STANDARD_SECAM}
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# VIDEO_STANDARD;
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#
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r = retval['FrameAspectRatio']
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r = float(r >> 16) / (r & 0xFFFF)
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retval['FrameAspectRatio'] = r
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if self.video:
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map(lambda v: setattr(v, 'aspect', r), self.video)
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return (retval, v[0])
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def _parseLISTmovi(self, size, file):
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"""
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Digs into movi list, looking for a Video Object Layer header in an
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mpeg4 stream in order to determine aspect ratio.
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"""
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i = 0
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n_dc = 0
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done = False
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# If the VOL header doesn't appear within 5MB or 5 video chunks,
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# give up. The 5MB limit is not likely to apply except in
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# pathological cases.
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while i < min(1024 * 1024 * 5, size - 8) and n_dc < 5:
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data = file.read(8)
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if ord(data[0]) == 0:
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# Eat leading nulls.
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data = data[1:] + file.read(1)
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i += 1
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key, sz = struct.unpack('<4sI', data)
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if key[2:] != 'dc' or sz > 1024 * 500:
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# This chunk is not video or is unusually big (> 500KB);
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# skip it.
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file.seek(sz, 1)
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i += 8 + sz
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continue
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n_dc += 1
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# Read video chunk into memory
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data = file.read(sz)
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#for p in range(0,min(80, sz)):
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# print "%02x " % ord(data[p]),
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#print "\n\n"
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# Look through the picture header for VOL startcode. The basic
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# logic for this is taken from libavcodec, h263.c
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pos = 0
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startcode = 0xff
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def bits(v, o, n):
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# Returns n bits in v, offset o bits.
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return (v & 2 ** n - 1 << (64 - n - o)) >> 64 - n - o
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while pos < sz:
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startcode = ((startcode << 8) | ord(data[pos])) & 0xffffffff
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pos += 1
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if startcode & 0xFFFFFF00 != 0x100:
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# No startcode found yet
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continue
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if startcode >= 0x120 and startcode <= 0x12F:
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# We have the VOL startcode. Pull 64 bits of it and treat
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# as a bitstream
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v = struct.unpack(">Q", data[pos : pos + 8])[0]
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offset = 10
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if bits(v, 9, 1):
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# is_ol_id, skip over vo_ver_id and vo_priority
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offset += 7
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ar_info = bits(v, offset, 4)
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if ar_info == 15:
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# Extended aspect
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num = bits(v, offset + 4, 8)
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den = bits(v, offset + 12, 8)
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else:
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# A standard pixel aspect
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num, den = PIXEL_ASPECT.get(ar_info, (0, 0))
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# num/den indicates pixel aspect; convert to video aspect,
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# so we need frame width and height.
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if 0 not in [num, den]:
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width, height = self.video[-1].width, self.video[-1].height
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self.video[-1].aspect = num / float(den) * width / height
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done = True
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break
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startcode = 0xff
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i += 8 + len(data)
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if done:
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# We have the aspect, no need to continue parsing the movi
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# list, so break out of the loop.
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break
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if i < size:
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# Seek past whatever might be remaining of the movi list.
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file.seek(size - i, 1)
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def _parseLIST(self, t):
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retval = {}
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i = 0
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size = len(t)
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while i < size - 8:
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# skip zero
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if ord(t[i]) == 0: i += 1
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key = t[i:i + 4]
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sz = 0
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if key == 'LIST':
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sz = struct.unpack('<I', t[i + 4:i + 8])[0]
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i += 8
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key = "LIST:" + t[i:i + 4]
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value = self._parseLIST(t[i:i + sz])
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if key == 'strl':
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for k in value.keys():
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retval[k] = value[k]
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else:
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retval[key] = value
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i += sz
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elif key == 'avih':
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sz = struct.unpack('<I', t[i + 4:i + 8])[0]
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i += 8
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value = self._parseAVIH(t[i:i + sz])
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i += sz
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retval[key] = value
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elif key == 'strl':
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i += 4
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(value, sz) = self._parseSTRL(t[i:])
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key = value['strh']['fccType']
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i += sz
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retval[key] = value
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elif key == 'odml':
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i += 4
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(value, sz) = self._parseODML(t[i:])
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i += sz
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elif key == 'vprp':
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i += 4
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(value, sz) = self._parseVPRP(t[i:])
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retval[key] = value
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i += sz
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elif key == 'JUNK':
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sz = struct.unpack('<I', t[i + 4:i + 8])[0]
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i += sz + 8
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else:
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sz = struct.unpack('<I', t[i + 4:i + 8])[0]
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i += 8
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# in most cases this is some info stuff
|
||
|
if not key in AVIINFO.keys() and key != 'IDIT':
|
||
|
log.debug(u'Unknown Key: %r, len: %d' % (key, sz))
|
||
|
value = t[i:i + sz]
|
||
|
if key == 'ISFT':
|
||
|
# product information
|
||
|
if value.find('\0') > 0:
|
||
|
# works for Casio S500 camera videos
|
||
|
value = value[:value.find('\0')]
|
||
|
value = value.replace('\0', '').lstrip().rstrip()
|
||
|
value = value.replace('\0', '').lstrip().rstrip()
|
||
|
if value:
|
||
|
retval[key] = value
|
||
|
if key in ['IDIT', 'ICRD']:
|
||
|
# Timestamp the video was created. Spec says it
|
||
|
# should be a format like "Wed Jan 02 02:03:55 1990"
|
||
|
# Casio S500 uses "2005/12/24/ 14:11", but I've
|
||
|
# also seen "December 24, 2005"
|
||
|
specs = ('%a %b %d %H:%M:%S %Y', '%Y/%m/%d/ %H:%M', '%B %d, %Y')
|
||
|
for tmspec in specs:
|
||
|
try:
|
||
|
tm = time.strptime(value, tmspec)
|
||
|
# save timestamp as int
|
||
|
self.timestamp = int(time.mktime(tm))
|
||
|
break
|
||
|
except ValueError:
|
||
|
pass
|
||
|
else:
|
||
|
log.debug(u'no support for time format %r', value)
|
||
|
i += sz
|
||
|
return retval
|
||
|
|
||
|
|
||
|
def _parseRIFFChunk(self, file):
|
||
|
h = file.read(8)
|
||
|
if len(h) < 8:
|
||
|
return False
|
||
|
name = h[:4]
|
||
|
size = struct.unpack('<I', h[4:8])[0]
|
||
|
|
||
|
if name == 'LIST':
|
||
|
pos = file.tell() - 8
|
||
|
key = file.read(4)
|
||
|
if key == 'movi' and self.video and not self.video[-1].aspect and \
|
||
|
self.video[-1].width and self.video[-1].height and \
|
||
|
self.video[-1].format in ['DIVX', 'XVID', 'FMP4']: # any others?
|
||
|
# If we don't have the aspect (i.e. it isn't in odml vprp
|
||
|
# header), but we do know the video's dimensions, and
|
||
|
# we're dealing with an mpeg4 stream, try to get the aspect
|
||
|
# from the VOL header in the mpeg4 stream.
|
||
|
self._parseLISTmovi(size - 4, file)
|
||
|
return True
|
||
|
elif size > 80000:
|
||
|
log.debug(u'RIFF LIST %r too long to parse: %r bytes' % (key, size))
|
||
|
t = file.seek(size - 4, 1)
|
||
|
return True
|
||
|
elif size < 5:
|
||
|
log.debug(u'RIFF LIST %r too short: %r bytes' % (key, size))
|
||
|
return True
|
||
|
|
||
|
t = file.read(size - 4)
|
||
|
log.debug(u'parse RIFF LIST %r: %d bytes' % (key, size))
|
||
|
value = self._parseLIST(t)
|
||
|
self.header[key] = value
|
||
|
if key == 'INFO':
|
||
|
self.infoStart = pos
|
||
|
self._appendtable('AVIINFO', value)
|
||
|
elif key == 'MID ':
|
||
|
self._appendtable('AVIMID', value)
|
||
|
elif key == 'hdrl':
|
||
|
# no need to add this info to a table
|
||
|
pass
|
||
|
else:
|
||
|
log.debug(u'Skipping table info %r' % key)
|
||
|
|
||
|
elif name == 'JUNK':
|
||
|
self.junkStart = file.tell() - 8
|
||
|
self.junkSize = size
|
||
|
file.seek(size, 1)
|
||
|
elif name == 'idx1':
|
||
|
self.has_idx = True
|
||
|
log.debug(u'idx1: %r bytes' % size)
|
||
|
# no need to parse this
|
||
|
t = file.seek(size, 1)
|
||
|
elif name == 'RIFF':
|
||
|
log.debug(u'New RIFF chunk, extended avi [%i]' % size)
|
||
|
type = file.read(4)
|
||
|
if type != 'AVIX':
|
||
|
log.debug(u'Second RIFF chunk is %r, not AVIX, skipping', type)
|
||
|
file.seek(size - 4, 1)
|
||
|
# that's it, no new informations should be in AVIX
|
||
|
return False
|
||
|
elif name == 'fmt ' and size <= 50:
|
||
|
# This is a wav file.
|
||
|
data = file.read(size)
|
||
|
fmt = struct.unpack("<HHLLHH", data[:16])
|
||
|
self._set('codec', hex(fmt[0]))
|
||
|
self._set('samplerate', fmt[2])
|
||
|
# fmt[3] is average bytes per second, so we must divide it
|
||
|
# by 125 to get kbits per second
|
||
|
self._set('bitrate', fmt[3] / 125)
|
||
|
# ugly hack: remember original rate in bytes per second
|
||
|
# so that the length can be calculated in next elif block
|
||
|
self._set('byterate', fmt[3])
|
||
|
# Set a dummy fourcc so codec will be resolved in finalize.
|
||
|
self._set('fourcc', 'dummy')
|
||
|
elif name == 'data':
|
||
|
# XXX: this is naive and may not be right. For example if the
|
||
|
# stream is something that supports VBR like mp3, the value
|
||
|
# will be off. The only way to properly deal with this issue
|
||
|
# is to decode part of the stream based on its codec, but
|
||
|
# kaa.metadata doesn't have this capability (yet?)
|
||
|
# ugly hack: use original rate in bytes per second
|
||
|
self._set('length', size / float(self.byterate))
|
||
|
file.seek(size, 1)
|
||
|
elif not name.strip(string.printable + string.whitespace):
|
||
|
# check if name is something usefull at all, maybe it is no
|
||
|
# avi or broken
|
||
|
t = file.seek(size, 1)
|
||
|
log.debug(u'Skipping %r [%i]' % (name, size))
|
||
|
else:
|
||
|
# bad avi
|
||
|
log.debug(u'Bad or broken avi')
|
||
|
return False
|
||
|
return True
|
||
|
|
||
|
|
||
|
Parser = Riff
|