/usr/share/pyshared/kaa/metadata/audio/ac3.py is in python-kaa-metadata 0.7.7+svn4596-4.
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# -----------------------------------------------------------------------------
# ac3.py - AC3 file parser
# -----------------------------------------------------------------------------
# $Id: ac3.py 3217 2008-03-23 17:22:49Z tack $
#
# -----------------------------------------------------------------------------
# kaa-Metadata - Media Metadata for Python
# Copyright (C) 2003-2006 Thomas Schueppel, Dirk Meyer
#
# First Edition: Thomas Schueppel <stain@acm.org>
# Maintainer: Dirk Meyer <dischi@freevo.org>
#
# Please see the file AUTHORS for a complete list of authors.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of MER-
# CHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
# Public License for more details.
#
# You should have received a copy of the GNU General Public License along
# with this program; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# -----------------------------------------------------------------------------
__all__ = ['Parser']
# python imports
import struct
# import kaa.metadata.audio core
import core
# http://www.atsc.org/standards/a_52a.pdf
# fscod: Sample rate code, 2 bits
# 00 48
# 01 44.1
# 10 32
# 11 reserved
FSCOD = [ 48000, 44100, 32000, 0 ]
# bsmod: Bit stream mode, 3 bits
# bsmod acmod Type of Service
# 000 any main audio service: complete main (CM)
# 001 any main audio service: music and effects (ME)
# 010 any associated service: visually impaired (VI)
# 011 any associated service: hearing impaired (HI)
# 100 any associated service: dialogue (D)
# 101 any associated service: commentary (C)
# 110 any associated service: emergency (E)
# 111 001 associated service: voice over (VO)
# 111 010 - 111 main audio service: karaoke
#
# acmod: Audio coding mode, 3 bits
# 000 1+1 2 Ch1, Ch2
# 001 1/0 1 C
# 010 2/0 2 L, R
# 011 3/0 3 L, C, R
# 100 2/1 3 L, R, S
# 101 3/1 4 L, C, R, S
# 110 2/2 4 L, R, SL, SR
# 111 3/2 5 L, C, R, SL, SR
ACMOD = [ ( '1+1', 2, 'Ch1, Ch2' ),
( '1/0', 1, 'C' ),
( '2/0', 2, 'L, R' ),
( '3/0', 3, 'L, C, R' ),
( '2/1', 3, 'L, R, S' ),
( '3/1', 4, 'L, C, R, S' ),
( '2/2', 4, 'L, R, SL, SR' ),
( '3/2', 5, 'L, C, R, SL, SR' ) ]
# dsurmod: Dolby surround mode, 2 bits
# 00 not indicated
# 01 Not Dolby Surround encoded
# 10 Dolby Surround encoded
# 11 reserved
#
# lfeon: Low frequency effects channel on, 1 bit
# This bit has a value of 1 if the lfe (sub woofer) channel is on, and a
# value of 0 if the lfe channel is off.
#
# frmsizcod:
# byte&0x3e = 0x00 \b, 32 kbit/s
# byte&0x3e = 0x02 \b, 40 kbit/s
# byte&0x3e = 0x04 \b, 48 kbit/s
# byte&0x3e = 0x06 \b, 56 kbit/s
# byte&0x3e = 0x08 \b, 64 kbit/s
# byte&0x3e = 0x0a \b, 80 kbit/s
# byte&0x3e = 0x0c \b, 96 kbit/s
# byte&0x3e = 0x0e \b, 112 kbit/s
# byte&0x3e = 0x10 \b, 128 kbit/s
# byte&0x3e = 0x12 \b, 160 kbit/s
# byte&0x3e = 0x14 \b, 192 kbit/s
# byte&0x3e = 0x16 \b, 224 kbit/s
# byte&0x3e = 0x18 \b, 256 kbit/s
# byte&0x3e = 0x1a \b, 320 kbit/s
# byte&0x3e = 0x1c \b, 384 kbit/s
# byte&0x3e = 0x1e \b, 448 kbit/s
# byte&0x3e = 0x20 \b, 512 kbit/s
# byte&0x3e = 0x22 \b, 576 kbit/s
# byte&0x3e = 0x24 \b, 640 kbit/s
FRMSIZCOD = [ 32, 40, 48, 56, 64, 80, 96, 112, 128, 160, 192,
224, 256, 320, 384, 448, 512, 576, 640 ]
class AC3(core.Music):
def __init__(self,file):
core.Music.__init__(self)
if file.name.endswith('.ac3'):
# when the ending is ac3, force the detection. It may not be
# necessary the the header is at the beginning but in the first
# 2000 bytes
check_length = 1000
else:
check_length = 1
for i in range(check_length):
if file.read(2) == '\x0b\x77':
break
else:
raise core.ParseError()
info = struct.unpack('<HBBBB',file.read(6))
self.samplerate = FSCOD[info[1] >> 6]
self.bitrate = FRMSIZCOD[(info[1] & 0x3F) >> 1] * 1000
bsmod = info[2] & 0x7
channels = ACMOD[info[3] >> 5]
acmod = info[3] >> 5
self.channels = ACMOD[acmod][1]
bits = 0
if acmod & 0x01 and not acmod == 0x01:
bits += 2
if acmod & 0x04:
bits += 2
if acmod == 0x02:
bits += 2
# info is now 5 bits of info[3] and all bits of info[4] ( == 13 bits)
# 'bits' bits (0-6) bits are information we don't need, after that,
# the bit we need is lfeon.
info = (((info[3] & 0x1F) << 8) + info[4])
# now we create the mask we need (based on 'bits')
# the bit number 13 - 'bits' is what we want to read
for i in range(13 - bits - 1):
info = info >> 1
if info & 1:
# LFE channel
self.channels += 1
file.seek(-1, 2)
size = file.tell()
self.length = size * 8.0 / self.bitrate
self.codec = 0x2000 # fourcc code of ac3
self.mime = 'audio/ac3'
Parser = AC3
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