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mirror of https://github.com/moparisthebest/SickRage synced 2024-11-18 07:15:13 -05:00
SickRage/lib/hachoir_metadata/audio.py

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from lib.hachoir_metadata.metadata import (registerExtractor,
Metadata, RootMetadata, MultipleMetadata)
from lib.hachoir_parser.audio import AuFile, MpegAudioFile, RealAudioFile, AiffFile, FlacParser
from lib.hachoir_parser.container import OggFile, RealMediaFile
from lib.hachoir_core.i18n import _
from lib.hachoir_core.tools import makePrintable, timedelta2seconds, humanBitRate
from datetime import timedelta
from lib.hachoir_metadata.metadata_item import QUALITY_FAST, QUALITY_NORMAL, QUALITY_BEST
from lib.hachoir_metadata.safe import fault_tolerant, getValue
def computeComprRate(meta, size):
if not meta.has("duration") \
or not meta.has("sample_rate") \
or not meta.has("bits_per_sample") \
or not meta.has("nb_channel") \
or not size:
return
orig_size = timedelta2seconds(meta.get("duration")) * meta.get('sample_rate') * meta.get('bits_per_sample') * meta.get('nb_channel')
meta.compr_rate = float(orig_size) / size
def computeBitRate(meta):
if not meta.has("bits_per_sample") \
or not meta.has("nb_channel") \
or not meta.has("sample_rate"):
return
meta.bit_rate = meta.get('bits_per_sample') * meta.get('nb_channel') * meta.get('sample_rate')
VORBIS_KEY_TO_ATTR = {
"ARTIST": "artist",
"ALBUM": "album",
"TRACKNUMBER": "track_number",
"TRACKTOTAL": "track_total",
"ENCODER": "producer",
"TITLE": "title",
"LOCATION": "location",
"DATE": "creation_date",
"ORGANIZATION": "organization",
"GENRE": "music_genre",
"": "comment",
"COMPOSER": "music_composer",
"DESCRIPTION": "comment",
"COMMENT": "comment",
"WWW": "url",
"WOAF": "url",
"LICENSE": "copyright",
}
@fault_tolerant
def readVorbisComment(metadata, comment):
metadata.producer = getValue(comment, "vendor")
for item in comment.array("metadata"):
if "=" in item.value:
key, value = item.value.split("=", 1)
key = key.upper()
if key in VORBIS_KEY_TO_ATTR:
key = VORBIS_KEY_TO_ATTR[key]
setattr(metadata, key, value)
elif value:
metadata.warning("Skip Vorbis comment %s: %s" % (key, value))
class OggMetadata(MultipleMetadata):
def extract(self, ogg):
granule_quotient = None
for index, page in enumerate(ogg.array("page")):
if "segments" not in page:
continue
page = page["segments"]
if "vorbis_hdr" in page:
meta = Metadata(self)
self.vorbisHeader(page["vorbis_hdr"], meta)
self.addGroup("audio[]", meta, "Audio")
if not granule_quotient and meta.has("sample_rate"):
granule_quotient = meta.get('sample_rate')
if "theora_hdr" in page:
meta = Metadata(self)
self.theoraHeader(page["theora_hdr"], meta)
self.addGroup("video[]", meta, "Video")
if "video_hdr" in page:
meta = Metadata(self)
self.videoHeader(page["video_hdr"], meta)
self.addGroup("video[]", meta, "Video")
if not granule_quotient and meta.has("frame_rate"):
granule_quotient = meta.get('frame_rate')
if "comment" in page:
readVorbisComment(self, page["comment"])
if 3 <= index:
# Only process pages 0..3
break
# Compute duration
if granule_quotient and QUALITY_NORMAL <= self.quality:
page = ogg.createLastPage()
if page and "abs_granule_pos" in page:
try:
self.duration = timedelta(seconds=float(page["abs_granule_pos"].value) / granule_quotient)
except OverflowError:
pass
def videoHeader(self, header, meta):
meta.compression = header["fourcc"].display
meta.width = header["width"].value
meta.height = header["height"].value
meta.bits_per_pixel = header["bits_per_sample"].value
if header["time_unit"].value:
meta.frame_rate = 10000000.0 / header["time_unit"].value
def theoraHeader(self, header, meta):
meta.compression = "Theora"
meta.format_version = "Theora version %u.%u (revision %u)" % (\
header["version_major"].value,
header["version_minor"].value,
header["version_revision"].value)
meta.width = header["frame_width"].value
meta.height = header["frame_height"].value
if header["fps_den"].value:
meta.frame_rate = float(header["fps_num"].value) / header["fps_den"].value
if header["aspect_ratio_den"].value:
meta.aspect_ratio = float(header["aspect_ratio_num"].value) / header["aspect_ratio_den"].value
meta.pixel_format = header["pixel_format"].display
meta.comment = "Quality: %s" % header["quality"].value
def vorbisHeader(self, header, meta):
meta.compression = u"Vorbis"
meta.sample_rate = header["audio_sample_rate"].value
meta.nb_channel = header["audio_channels"].value
meta.format_version = u"Vorbis version %s" % header["vorbis_version"].value
meta.bit_rate = header["bitrate_nominal"].value
class AuMetadata(RootMetadata):
def extract(self, audio):
self.sample_rate = audio["sample_rate"].value
self.nb_channel = audio["channels"].value
self.compression = audio["codec"].display
if "info" in audio:
self.comment = audio["info"].value
self.bits_per_sample = audio.getBitsPerSample()
computeBitRate(self)
if "audio_data" in audio:
if self.has("bit_rate"):
self.duration = timedelta(seconds=float(audio["audio_data"].size) / self.get('bit_rate'))
computeComprRate(self, audio["audio_data"].size)
class RealAudioMetadata(RootMetadata):
FOURCC_TO_BITRATE = {
u"28_8": 15200, # 28.8 kbit/sec (audio bit rate: 15.2 kbit/s)
u"14_4": 8000, # 14.4 kbit/sec
u"lpcJ": 8000, # 14.4 kbit/sec
}
def extract(self, real):
version = real["version"].value
if "metadata" in real:
self.useMetadata(real["metadata"])
self.useRoot(real)
self.format_version = "Real audio version %s" % version
if version == 3:
size = getValue(real, "data_size")
elif "filesize" in real and "headersize" in real:
size = (real["filesize"].value + 40) - (real["headersize"].value + 16)
else:
size = None
if size:
size *= 8
if self.has("bit_rate"):
sec = float(size) / self.get('bit_rate')
self.duration = timedelta(seconds=sec)
computeComprRate(self, size)
@fault_tolerant
def useMetadata(self, info):
self.title = info["title"].value
self.author = info["author"].value
self.copyright = info["copyright"].value
self.comment = info["comment"].value
@fault_tolerant
def useRoot(self, real):
self.bits_per_sample = 16 # FIXME: Is that correct?
if real["version"].value != 3:
self.sample_rate = real["sample_rate"].value
self.nb_channel = real["channels"].value
else:
self.sample_rate = 8000
self.nb_channel = 1
fourcc = getValue(real, "FourCC")
if fourcc:
self.compression = fourcc
try:
self.bit_rate = self.FOURCC_TO_BITRATE[fourcc]
except LookupError:
pass
class RealMediaMetadata(MultipleMetadata):
KEY_TO_ATTR = {
"generated by": "producer",
"creation date": "creation_date",
"modification date": "last_modification",
"description": "comment",
}
def extract(self, media):
if "file_prop" in media:
self.useFileProp(media["file_prop"])
if "content_desc" in media:
self.useContentDesc(media["content_desc"])
for index, stream in enumerate(media.array("stream_prop")):
self.useStreamProp(stream, index)
@fault_tolerant
def useFileInfoProp(self, prop):
key = prop["name"].value.lower()
value = prop["value"].value
if key in self.KEY_TO_ATTR:
setattr(self, self.KEY_TO_ATTR[key], value)
elif value:
self.warning("Skip %s: %s" % (prop["name"].value, value))
@fault_tolerant
def useFileProp(self, prop):
self.bit_rate = prop["avg_bit_rate"].value
self.duration = timedelta(milliseconds=prop["duration"].value)
@fault_tolerant
def useContentDesc(self, content):
self.title = content["title"].value
self.author = content["author"].value
self.copyright = content["copyright"].value
self.comment = content["comment"].value
@fault_tolerant
def useStreamProp(self, stream, index):
meta = Metadata(self)
meta.comment = "Start: %s" % stream["stream_start"].value
if getValue(stream, "mime_type") == "logical-fileinfo":
for prop in stream.array("file_info/prop"):
self.useFileInfoProp(prop)
else:
meta.bit_rate = stream["avg_bit_rate"].value
meta.duration = timedelta(milliseconds=stream["duration"].value)
meta.mime_type = getValue(stream, "mime_type")
meta.title = getValue(stream, "desc")
self.addGroup("stream[%u]" % index, meta, "Stream #%u" % (1+index))
class MpegAudioMetadata(RootMetadata):
TAG_TO_KEY = {
# ID3 version 2.2
"TP1": "author",
"COM": "comment",
"TEN": "producer",
"TRK": "track_number",
"TAL": "album",
"TT2": "title",
"TYE": "creation_date",
"TCO": "music_genre",
# ID3 version 2.3+
"TPE1": "author",
"COMM": "comment",
"TENC": "producer",
"TRCK": "track_number",
"TALB": "album",
"TIT2": "title",
"TYER": "creation_date",
"WXXX": "url",
"TCON": "music_genre",
"TLAN": "language",
"TCOP": "copyright",
"TDAT": "creation_date",
"TRDA": "creation_date",
"TORY": "creation_date",
"TIT1": "title",
}
def processID3v2(self, field):
# Read value
if "content" not in field:
return
content = field["content"]
if "text" not in content:
return
if "title" in content and content["title"].value:
value = "%s: %s" % (content["title"].value, content["text"].value)
else:
value = content["text"].value
# Known tag?
tag = field["tag"].value
if tag not in self.TAG_TO_KEY:
if tag:
if isinstance(tag, str):
tag = makePrintable(tag, "ISO-8859-1", to_unicode=True)
self.warning("Skip ID3v2 tag %s: %s" % (tag, value))
return
key = self.TAG_TO_KEY[tag]
setattr(self, key, value)
def readID3v2(self, id3):
for field in id3:
if field.is_field_set and "tag" in field:
self.processID3v2(field)
def extract(self, mp3):
if "/frames/frame[0]" in mp3:
frame = mp3["/frames/frame[0]"]
self.nb_channel = (frame.getNbChannel(), frame["channel_mode"].display)
self.format_version = u"MPEG version %s layer %s" % \
(frame["version"].display, frame["layer"].display)
self.sample_rate = frame.getSampleRate()
self.bits_per_sample = 16
if mp3["frames"].looksConstantBitRate():
self.computeBitrate(frame)
else:
self.computeVariableBitrate(mp3)
if "id3v1" in mp3:
id3 = mp3["id3v1"]
self.comment = id3["comment"].value
self.author = id3["author"].value
self.title = id3["song"].value
self.album = id3["album"].value
if id3["year"].value != "0":
self.creation_date = id3["year"].value
if "track_nb" in id3:
self.track_number = id3["track_nb"].value
if "id3v2" in mp3:
self.readID3v2(mp3["id3v2"])
if "frames" in mp3:
computeComprRate(self, mp3["frames"].size)
def computeBitrate(self, frame):
bit_rate = frame.getBitRate() # may returns None on error
if not bit_rate:
return
self.bit_rate = (bit_rate, _("%s (constant)") % humanBitRate(bit_rate))
self.duration = timedelta(seconds=float(frame["/frames"].size) / bit_rate)
def computeVariableBitrate(self, mp3):
if self.quality <= QUALITY_FAST:
return
count = 0
if QUALITY_BEST <= self.quality:
self.warning("Process all MPEG audio frames to compute exact duration")
max_count = None
else:
max_count = 500 * self.quality
total_bit_rate = 0.0
for index, frame in enumerate(mp3.array("frames/frame")):
if index < 3:
continue
bit_rate = frame.getBitRate()
if bit_rate:
total_bit_rate += float(bit_rate)
count += 1
if max_count and max_count <= count:
break
if not count:
return
bit_rate = total_bit_rate / count
self.bit_rate = (bit_rate,
_("%s (Variable bit rate)") % humanBitRate(bit_rate))
duration = timedelta(seconds=float(mp3["frames"].size) / bit_rate)
self.duration = duration
class AiffMetadata(RootMetadata):
def extract(self, aiff):
if "common" in aiff:
self.useCommon(aiff["common"])
computeBitRate(self)
@fault_tolerant
def useCommon(self, info):
self.nb_channel = info["nb_channel"].value
self.bits_per_sample = info["sample_size"].value
self.sample_rate = getValue(info, "sample_rate")
if self.has("sample_rate"):
rate = self.get("sample_rate")
if rate:
sec = float(info["nb_sample"].value) / rate
self.duration = timedelta(seconds=sec)
if "codec" in info:
self.compression = info["codec"].display
class FlacMetadata(RootMetadata):
def extract(self, flac):
if "metadata/stream_info/content" in flac:
self.useStreamInfo(flac["metadata/stream_info/content"])
if "metadata/comment/content" in flac:
readVorbisComment(self, flac["metadata/comment/content"])
@fault_tolerant
def useStreamInfo(self, info):
self.nb_channel = info["nb_channel"].value + 1
self.bits_per_sample = info["bits_per_sample"].value + 1
self.sample_rate = info["sample_hertz"].value
sec = info["total_samples"].value
if sec:
sec = float(sec) / info["sample_hertz"].value
self.duration = timedelta(seconds=sec)
registerExtractor(AuFile, AuMetadata)
registerExtractor(MpegAudioFile, MpegAudioMetadata)
registerExtractor(OggFile, OggMetadata)
registerExtractor(RealMediaFile, RealMediaMetadata)
registerExtractor(RealAudioFile, RealAudioMetadata)
registerExtractor(AiffFile, AiffMetadata)
registerExtractor(FlacParser, FlacMetadata)