from hachoir_core.field import MissingField from hachoir_metadata.metadata import (registerExtractor, Metadata, RootMetadata, MultipleMetadata) from hachoir_metadata.metadata_item import QUALITY_GOOD from hachoir_metadata.safe import fault_tolerant from hachoir_parser.video import MovFile, AsfFile, FlvFile from hachoir_parser.video.asf import Descriptor as ASF_Descriptor from hachoir_parser.container import MkvFile from hachoir_parser.container.mkv import dateToDatetime from hachoir_core.i18n import _ from hachoir_core.tools import makeUnicode, makePrintable, timedelta2seconds from datetime import timedelta class MkvMetadata(MultipleMetadata): tag_key = { "TITLE": "title", "URL": "url", "COPYRIGHT": "copyright", # TODO: use maybe another name? # Its value may be different than (...)/Info/DateUTC/date "DATE_RECORDED": "creation_date", # TODO: Extract subtitle metadata "SUBTITLE": "subtitle_author", } def extract(self, mkv): for segment in mkv.array("Segment"): self.processSegment(segment) def processSegment(self, segment): for field in segment: if field.name.startswith("Info["): self.processInfo(field) elif field.name.startswith("Tags["): for tag in field.array("Tag"): self.processTag(tag) elif field.name.startswith("Tracks["): self.processTracks(field) elif field.name.startswith("Cluster["): if self.quality < QUALITY_GOOD: return def processTracks(self, tracks): for entry in tracks.array("TrackEntry"): self.processTrack(entry) def processTrack(self, track): if "TrackType/enum" not in track: return if track["TrackType/enum"].display == "video": self.processVideo(track) elif track["TrackType/enum"].display == "audio": self.processAudio(track) elif track["TrackType/enum"].display == "subtitle": self.processSubtitle(track) def trackCommon(self, track, meta): if "Name/unicode" in track: meta.title = track["Name/unicode"].value if "Language/string" in track: meta.language = track["Language/string"].value else: meta.language = "eng" def processVideo(self, track): video = Metadata(self) self.trackCommon(track, video) try: video.compression = track["CodecID/string"].value if "Video" in track: video.width = track["Video/PixelWidth/unsigned"].value video.height = track["Video/PixelHeight/unsigned"].value except MissingField: pass self.addGroup("video[]", video, "Video stream") def getDouble(self, field, parent): float_key = '%s/float' % parent if float_key in field: return field[float_key].value double_key = '%s/double' % parent if double_key in field: return field[double_key].value return None def processAudio(self, track): audio = Metadata(self) self.trackCommon(track, audio) if "Audio" in track: frequency = self.getDouble(track, "Audio/SamplingFrequency") if frequency is not None: audio.sample_rate = frequency if "Audio/Channels/unsigned" in track: audio.nb_channel = track["Audio/Channels/unsigned"].value if "Audio/BitDepth/unsigned" in track: audio.bits_per_sample = track["Audio/BitDepth/unsigned"].value if "CodecID/string" in track: audio.compression = track["CodecID/string"].value self.addGroup("audio[]", audio, "Audio stream") def processSubtitle(self, track): sub = Metadata(self) self.trackCommon(track, sub) try: sub.compression = track["CodecID/string"].value except MissingField: pass self.addGroup("subtitle[]", sub, "Subtitle") def processTag(self, tag): for field in tag.array("SimpleTag"): self.processSimpleTag(field) def processSimpleTag(self, tag): if "TagName/unicode" not in tag \ or "TagString/unicode" not in tag: return name = tag["TagName/unicode"].value if name not in self.tag_key: return key = self.tag_key[name] value = tag["TagString/unicode"].value setattr(self, key, value) def processInfo(self, info): if "TimecodeScale/unsigned" in info: duration = self.getDouble(info, "Duration") if duration is not None: try: seconds = duration * info["TimecodeScale/unsigned"].value * 1e-9 self.duration = timedelta(seconds=seconds) except OverflowError: # Catch OverflowError for timedelta (long int too large # to be converted to an int) pass if "DateUTC/date" in info: try: self.creation_date = dateToDatetime(info["DateUTC/date"].value) except OverflowError: pass if "WritingApp/unicode" in info: self.producer = info["WritingApp/unicode"].value if "MuxingApp/unicode" in info: self.producer = info["MuxingApp/unicode"].value if "Title/unicode" in info: self.title = info["Title/unicode"].value class FlvMetadata(MultipleMetadata): def extract(self, flv): if "video[0]" in flv: meta = Metadata(self) self.extractVideo(flv["video[0]"], meta) self.addGroup("video", meta, "Video stream") if "audio[0]" in flv: meta = Metadata(self) self.extractAudio(flv["audio[0]"], meta) self.addGroup("audio", meta, "Audio stream") # TODO: Computer duration # One technic: use last video/audio chunk and use timestamp # But this is very slow self.format_version = flv.description if "metadata/entry[1]" in flv: self.extractAMF(flv["metadata/entry[1]"]) if self.has('duration'): self.bit_rate = flv.size / timedelta2seconds(self.get('duration')) @fault_tolerant def extractAudio(self, audio, meta): if audio["codec"].display == "MP3" and "music_data" in audio: meta.compression = audio["music_data"].description else: meta.compression = audio["codec"].display meta.sample_rate = audio.getSampleRate() if audio["is_16bit"].value: meta.bits_per_sample = 16 else: meta.bits_per_sample = 8 if audio["is_stereo"].value: meta.nb_channel = 2 else: meta.nb_channel = 1 @fault_tolerant def extractVideo(self, video, meta): meta.compression = video["codec"].display def extractAMF(self, amf): for entry in amf.array("item"): self.useAmfEntry(entry) @fault_tolerant def useAmfEntry(self, entry): key = entry["key"].value if key == "duration": self.duration = timedelta(seconds=entry["value"].value) elif key == "creator": self.producer = entry["value"].value elif key == "audiosamplerate": self.sample_rate = entry["value"].value elif key == "framerate": self.frame_rate = entry["value"].value elif key == "metadatacreator": self.producer = entry["value"].value elif key == "metadatadate": self.creation_date = entry.value elif key == "width": self.width = int(entry["value"].value) elif key == "height": self.height = int(entry["value"].value) class MovMetadata(RootMetadata): def extract(self, mov): for atom in mov: if "movie" in atom: self.processMovie(atom["movie"]) @fault_tolerant def processMovieHeader(self, hdr): self.creation_date = hdr["creation_date"].value self.last_modification = hdr["lastmod_date"].value self.duration = timedelta(seconds=float(hdr["duration"].value) / hdr["time_scale"].value) self.comment = _("Play speed: %.1f%%") % (hdr["play_speed"].value*100) self.comment = _("User volume: %.1f%%") % (float(hdr["volume"].value)*100) @fault_tolerant def processTrackHeader(self, hdr): width = int(hdr["frame_size_width"].value) height = int(hdr["frame_size_height"].value) if width and height: self.width = width self.height = height def processTrack(self, atom): for field in atom: if "track_hdr" in field: self.processTrackHeader(field["track_hdr"]) def processMovie(self, atom): for field in atom: if "track" in field: self.processTrack(field["track"]) if "movie_hdr" in field: self.processMovieHeader(field["movie_hdr"]) class AsfMetadata(MultipleMetadata): EXT_DESC_TO_ATTR = { "Encoder": "producer", "ToolName": "producer", "AlbumTitle": "album", "Track": "track_number", "TrackNumber": "track_total", "Year": "creation_date", "AlbumArtist": "author", } SKIP_EXT_DESC = set(( # Useless informations "WMFSDKNeeded", "WMFSDKVersion", "Buffer Average", "VBR Peak", "EncodingTime", "MediaPrimaryClassID", "UniqueFileIdentifier", )) def extract(self, asf): if "header/content" in asf: self.processHeader(asf["header/content"]) def processHeader(self, header): compression = [] is_vbr = None if "ext_desc/content" in header: # Extract all data from ext_desc data = {} for desc in header.array("ext_desc/content/descriptor"): self.useExtDescItem(desc, data) # Have ToolName and ToolVersion? If yes, group them to producer key if "ToolName" in data and "ToolVersion" in data: self.producer = "%s (version %s)" % (data["ToolName"], data["ToolVersion"]) del data["ToolName"] del data["ToolVersion"] # "IsVBR" key if "IsVBR" in data: is_vbr = (data["IsVBR"] == 1) del data["IsVBR"] # Store data for key, value in data.iteritems(): if key in self.EXT_DESC_TO_ATTR: key = self.EXT_DESC_TO_ATTR[key] else: if isinstance(key, str): key = makePrintable(key, "ISO-8859-1", to_unicode=True) value = "%s=%s" % (key, value) key = "comment" setattr(self, key, value) if "file_prop/content" in header: self.useFileProp(header["file_prop/content"], is_vbr) if "codec_list/content" in header: for codec in header.array("codec_list/content/codec"): if "name" in codec: text = codec["name"].value if "desc" in codec and codec["desc"].value: text = "%s (%s)" % (text, codec["desc"].value) compression.append(text) audio_index = 1 video_index = 1 for index, stream_prop in enumerate(header.array("stream_prop")): if "content/audio_header" in stream_prop: meta = Metadata(self) self.streamProperty(header, index, meta) self.streamAudioHeader(stream_prop["content/audio_header"], meta) if self.addGroup("audio[%u]" % audio_index, meta, "Audio stream #%u" % audio_index): audio_index += 1 elif "content/video_header" in stream_prop: meta = Metadata(self) self.streamProperty(header, index, meta) self.streamVideoHeader(stream_prop["content/video_header"], meta) if self.addGroup("video[%u]" % video_index, meta, "Video stream #%u" % video_index): video_index += 1 if "metadata/content" in header: info = header["metadata/content"] try: self.title = info["title"].value self.author = info["author"].value self.copyright = info["copyright"].value except MissingField: pass @fault_tolerant def streamAudioHeader(self, audio, meta): if not meta.has("compression"): meta.compression = audio["twocc"].display meta.nb_channel = audio["channels"].value meta.sample_rate = audio["sample_rate"].value meta.bits_per_sample = audio["bits_per_sample"].value @fault_tolerant def streamVideoHeader(self, video, meta): meta.width = video["width"].value meta.height = video["height"].value if "bmp_info" in video: bmp_info = video["bmp_info"] if not meta.has("compression"): meta.compression = bmp_info["codec"].display meta.bits_per_pixel = bmp_info["bpp"].value @fault_tolerant def useExtDescItem(self, desc, data): if desc["type"].value == ASF_Descriptor.TYPE_BYTE_ARRAY: # Skip binary data return key = desc["name"].value if "/" in key: # Replace "WM/ToolName" with "ToolName" key = key.split("/", 1)[1] if key in self.SKIP_EXT_DESC: # Skip some keys return value = desc["value"].value if not value: return value = makeUnicode(value) data[key] = value @fault_tolerant def useFileProp(self, prop, is_vbr): self.creation_date = prop["creation_date"].value self.duration = prop["play_duration"].value if prop["seekable"].value: self.comment = u"Is seekable" value = prop["max_bitrate"].value text = prop["max_bitrate"].display if is_vbr is True: text = "VBR (%s max)" % text elif is_vbr is False: text = "%s (CBR)" % text else: text = "%s (max)" % text self.bit_rate = (value, text) def streamProperty(self, header, index, meta): key = "bit_rates/content/bit_rate[%u]/avg_bitrate" % index if key in header: meta.bit_rate = header[key].value # TODO: Use codec list # It doesn't work when the video uses /header/content/bitrate_mutex # since the codec list are shared between streams but... how is it # shared? # key = "codec_list/content/codec[%u]" % index # if key in header: # codec = header[key] # if "name" in codec: # text = codec["name"].value # if "desc" in codec and codec["desc"].value: # meta.compression = "%s (%s)" % (text, codec["desc"].value) # else: # meta.compression = text registerExtractor(MovFile, MovMetadata) registerExtractor(AsfFile, AsfMetadata) registerExtractor(FlvFile, FlvMetadata) registerExtractor(MkvFile, MkvMetadata)