Lib/whatsound.py - platform/external/python/cpython3 - Gitiles

 # This module contains several routines that help recognizing sound
 # files.
 #
 # Function whathdr() recognizes various types of sound file headers.
 # It understands almost all headers that SOX can decode.
 #
 # The return tuple contains the following items, in this order:
 # - file type (as SOX understands it)
 # - sampling rate (0 if unknown or hard to decode)
 # - number of channels (0 if unknown or hard to decode)
 # - number of frames in the file (-1 if unknown or hard to decode)
 # - number of bits/sample, or 'U' for U-LAW, or 'A' for A-LAW
 #
 # If the file doesn't have a recognizable type, it returns None.
 # If the file can't be opened, IOError is raised.
 #
 # To compute the total time, divide the number of frames by the
 # sampling rate (a frame contains a sample for each channel).
 #
 # Function whatraw() calls the "whatsound" program and interprets its
 # output.  You'll have to guess the sampling rate by listening though!
 #
 # Function what() calls whathdr() and if it doesn't recognize the file
 # then calls whatraw().
 #
 # Finally, the function test() is a simple main program that calls
 # what() for all files mentioned on the argument list.  For directory
 # arguments it calls what() for all files in that directory.  Default
 # argument is "." (testing all files in the current directory).  The
 # option -r tells it to recurse down directories found inside
 # explicitly given directories.
 #
 # The file structure is top-down except that the test program and its
 # subroutine come last.


 #------------------------------------------------------#
 # Guess the type of any sound file, raw or with header #
 #------------------------------------------------------#

 def what(filename):
 	res = whathdr(filename)
 	if not res:
 		res = whatraw(filename)
 	return res


 #-----------------------------#
 # Guess the type of raw sound #
 #-----------------------------#

 def whatraw(filename):
 	# Assume it's always 1 channel, byte-sized samples
 	# Don't assume anything about the rate
 	import os
 	from stat import ST_SIZE
 	# XXX "whatsound" should be part of the distribution somehow...
 	cmd = 'whatsound ' + filename + ' 2>/dev/null'
 	cmd = 'PATH=$PATH:/ufs/guido/bin/sgi\n' + cmd
 	pipe = os.popen(cmd, 'r')
 	data = pipe.read()
 	sts = pipe.close()
 	if sts:
 		return None
 	if data[:13] == '-t raw -b -s ':
 		type = 'sb'
 		sample_size = 8
 	elif data[:13] == '-t raw -b -u ':
 		type = 'ub'
 		sample_size = 8
 	elif data[:13] == '-t raw -b -U ':
 		type = 'ul'
 		sample_size = 'U'
 	else:
 		return None
 	try:
 		frame_count = os.stat(filename)[ST_SIZE]
 	except IOError:
 		frame_count = -1
 	return type, 0, 1, frame_count, sample_size


 #-------------------------#
 # Recognize sound headers #
 #-------------------------#

 def whathdr(filename):
 	f = open(filename, 'r')
 	h = f.read(512)
 	for tf in tests:
 		res = tf(h, f)
 		if res:
 			return res
 	return None


 #-----------------------------------#
 # Subroutines per sound header type #
 #-----------------------------------#

 tests = []

 def test_aifc(h, f):
 	import aifc
 	if h[:4] <> 'FORM':
 		return None
 	if h[8:12] == 'AIFC':
 		fmt = 'aifc'
 	elif h[8:12] == 'AIFF':
 		fmt = 'aiff'
 	else:
 		return None
 	f.seek(0)
 	try:
 		a = aifc.openfp(f, 'r')
 	except (EOFError, aifc.Error):
 		return None
 	return (fmt, a.getframerate(), a.getnchannels(), \
 		a.getnframes(), 8*a.getsampwidth())

 tests.append(test_aifc)


 def test_au(h, f):
 	if h[:4] == '.snd':
 		f = get_long_be
 	elif h[:4] in ('\0ds.', 'dns.'):
 		f = get_long_le
 	else:
 		return None
 	type = 'au'
 	hdr_size = f(h[4:8])
 	data_size = f(h[8:12])
 	encoding = f(h[12:16])
 	rate = f(h[16:20])
 	nchannels = f(h[20:24])
 	sample_size = 1 # default
 	if encoding == 1:
 		sample_bits = 'U'
 	elif encoding == 2:
 		sample_bits = 8
 	elif encoding == 3:
 		sample_bits = 16
 		sample_size = 2
 	else:
 		sample_bits = '?'
 	frame_size = sample_size * nchannels
 	return type, rate, nchannels, data_size/frame_size, sample_bits

 tests.append(test_au)


 def test_hcom(h, f):
 	if h[65:69] <> 'FSSD' or h[128:132] <> 'HCOM':
 		return None
 	divisor = get_long_be(h[128+16:128+20])
 	return 'hcom', 22050/divisor, 1, -1, 8

 tests.append(test_hcom)


 def test_voc(h, f):
 	if h[:20] <> 'Creative Voice File\032':
 		return None
 	sbseek = get_short_le(h[20:22])
 	rate = 0
 	if 0 <= sbseek < 500 and h[sbseek] == '\1':
 		ratecode = ord(h[sbseek+4])
 		rate = int(1000000.0 / (256 - ratecode))
 	return 'voc', rate, 1, -1, 8

 tests.append(test_voc)


 def test_wav(h, f):
 	# 'RIFF' <len> 'WAVE' 'fmt ' <len>
 	if h[:4] <> 'RIFF' or h[8:12] <> 'WAVE' or h[12:16] <> 'fmt ':
 		return None
 	style = get_short_le(h[20:22])
 	nchannels = get_short_le(h[22:24])
 	rate = get_long_le(h[24:28])
 	sample_bits = get_short_le(h[34:36])
 	return 'wav', rate, nchannels, -1, sample_bits

 tests.append(test_wav)


 def test_8svx(h, f):
 	if h[:4] <> 'FORM' or h[8:12] <> '8SVX':
 		return None
 	# Should decode it to get #channels -- assume always 1
 	return '8svx', 0, 1, 0, 8

 tests.append(test_8svx)


 def test_sndt(h, f):
 	if h[:5] == 'SOUND':
 		nsamples = get_long_le(h[8:12])
 		rate = get_short_le(h[20:22])
 		return 'sndt', rate, 1, nsamples, 8

 tests.append(test_sndt)


 def test_sndr(h, f):
 	if h[:2] == '\0\0':
 		rate = get_short_le(h[2:4])
 		if 4000 <= rate <= 25000:
 			return 'sndr', rate, 1, -1, 8

 tests.append(test_sndr)


 #---------------------------------------------#
 # Subroutines to extract numbers from strings #
 #---------------------------------------------#

 def get_long_be(s):
 	return (ord(s[0])<<24) | (ord(s[1])<<16) | (ord(s[2])<<8) | ord(s[3])

 def get_long_le(s):
 	return (ord(s[3])<<24) | (ord(s[2])<<16) | (ord(s[1])<<8) | ord(s[0])

 def get_short_be(s):
 	return (ord(s[0])<<8) | ord(s[1])

 def get_short_le(s):
 	return (ord(s[1])<<8) | ord(s[0])


 #--------------------#
 # Small test program #
 #--------------------#

 def test():
 	import sys
 	recursive = 0
 	if sys.argv[1:] and sys.argv[1] == '-r':
 		del sys.argv[1:2]
 		recursive = 1
 	try:
 		if sys.argv[1:]:
 			testall(sys.argv[1:], recursive, 1)
 		else:
 			testall(['.'], recursive, 1)
 	except KeyboardInterrupt:
 		sys.stderr.write('\n[Interrupted]\n')
 		sys.exit(1)

 def testall(list, recursive, toplevel):
 	import sys
 	import os
 	for filename in list:
 		if os.path.isdir(filename):
 			print filename + '/:',
 			if recursive or toplevel:
 				print 'recursing down:'
 				import glob
 				names = glob.glob(os.path.join(filename, '*'))
 				testall(names, recursive, 0)
 			else:
 				print '*** directory (use -r) ***'
 		else:
 			print filename + ':',
 			sys.stdout.flush()
 			try:
 				print what(filename)
 			except IOError:
 				print '*** not found ***'
	# This module contains several routines that help recognizing sound
	# files.
	#
	# Function whathdr() recognizes various types of sound file headers.
	# It understands almost all headers that SOX can decode.
	#
	# The return tuple contains the following items, in this order:
	# - file type (as SOX understands it)
	# - sampling rate (0 if unknown or hard to decode)
	# - number of channels (0 if unknown or hard to decode)
	# - number of frames in the file (-1 if unknown or hard to decode)
	# - number of bits/sample, or 'U' for U-LAW, or 'A' for A-LAW
	#
	# If the file doesn't have a recognizable type, it returns None.
	# If the file can't be opened, IOError is raised.
	#
	# To compute the total time, divide the number of frames by the
	# sampling rate (a frame contains a sample for each channel).
	#
	# Function whatraw() calls the "whatsound" program and interprets its
	# output. You'll have to guess the sampling rate by listening though!
	#
	# Function what() calls whathdr() and if it doesn't recognize the file
	# then calls whatraw().
	#
	# Finally, the function test() is a simple main program that calls
	# what() for all files mentioned on the argument list. For directory
	# arguments it calls what() for all files in that directory. Default
	# argument is "." (testing all files in the current directory). The
	# option -r tells it to recurse down directories found inside
	# explicitly given directories.
	#
	# The file structure is top-down except that the test program and its
	# subroutine come last.


	#------------------------------------------------------#
	# Guess the type of any sound file, raw or with header #
	#------------------------------------------------------#

	def what(filename):
	res = whathdr(filename)
	if not res:
	res = whatraw(filename)
	return res


	#-----------------------------#
	# Guess the type of raw sound #
	#-----------------------------#

	def whatraw(filename):
	# Assume it's always 1 channel, byte-sized samples
	# Don't assume anything about the rate
	import os
	from stat import ST_SIZE
	# XXX "whatsound" should be part of the distribution somehow...
	cmd = 'whatsound ' + filename + ' 2>/dev/null'
	cmd = 'PATH=$PATH:/ufs/guido/bin/sgi\n' + cmd
	pipe = os.popen(cmd, 'r')
	data = pipe.read()
	sts = pipe.close()
	if sts:
	return None
	if data[:13] == '-t raw -b -s ':
	type = 'sb'
	sample_size = 8
	elif data[:13] == '-t raw -b -u ':
	type = 'ub'
	sample_size = 8
	elif data[:13] == '-t raw -b -U ':
	type = 'ul'
	sample_size = 'U'
	else:
	return None
	try:
	frame_count = os.stat(filename)[ST_SIZE]
	except IOError:
	frame_count = -1
	return type, 0, 1, frame_count, sample_size


	#-------------------------#
	# Recognize sound headers #
	#-------------------------#

	def whathdr(filename):
	f = open(filename, 'r')
	h = f.read(512)
	for tf in tests:
	res = tf(h, f)
	if res:
	return res
	return None


	#-----------------------------------#
	# Subroutines per sound header type #
	#-----------------------------------#

	tests = []

	def test_aifc(h, f):
	import aifc
	if h[:4] <> 'FORM':
	return None
	if h[8:12] == 'AIFC':
	fmt = 'aifc'
	elif h[8:12] == 'AIFF':
	fmt = 'aiff'
	else:
	return None
	f.seek(0)
	try:
	a = aifc.openfp(f, 'r')
	except (EOFError, aifc.Error):
	return None
	return (fmt, a.getframerate(), a.getnchannels(), \
	a.getnframes(), 8*a.getsampwidth())

	tests.append(test_aifc)


	def test_au(h, f):
	if h[:4] == '.snd':
	f = get_long_be
	elif h[:4] in ('\0ds.', 'dns.'):
	f = get_long_le
	else:
	return None
	type = 'au'
	hdr_size = f(h[4:8])
	data_size = f(h[8:12])
	encoding = f(h[12:16])
	rate = f(h[16:20])
	nchannels = f(h[20:24])
	sample_size = 1 # default
	if encoding == 1:
	sample_bits = 'U'
	elif encoding == 2:
	sample_bits = 8
	elif encoding == 3:
	sample_bits = 16
	sample_size = 2
	else:
	sample_bits = '?'
	frame_size = sample_size * nchannels
	return type, rate, nchannels, data_size/frame_size, sample_bits

	tests.append(test_au)


	def test_hcom(h, f):
	if h[65:69] <> 'FSSD' or h[128:132] <> 'HCOM':
	return None
	divisor = get_long_be(h[128+16:128+20])
	return 'hcom', 22050/divisor, 1, -1, 8

	tests.append(test_hcom)


	def test_voc(h, f):
	if h[:20] <> 'Creative Voice File\032':
	return None
	sbseek = get_short_le(h[20:22])
	rate = 0
	if 0 <= sbseek < 500 and h[sbseek] == '\1':
	ratecode = ord(h[sbseek+4])
	rate = int(1000000.0 / (256 - ratecode))
	return 'voc', rate, 1, -1, 8

	tests.append(test_voc)


	def test_wav(h, f):
	# 'RIFF' <len> 'WAVE' 'fmt ' <len>
	if h[:4] <> 'RIFF' or h[8:12] <> 'WAVE' or h[12:16] <> 'fmt ':
	return None
	style = get_short_le(h[20:22])
	nchannels = get_short_le(h[22:24])
	rate = get_long_le(h[24:28])
	sample_bits = get_short_le(h[34:36])
	return 'wav', rate, nchannels, -1, sample_bits

	tests.append(test_wav)


	def test_8svx(h, f):
	if h[:4] <> 'FORM' or h[8:12] <> '8SVX':
	return None
	# Should decode it to get #channels -- assume always 1
	return '8svx', 0, 1, 0, 8

	tests.append(test_8svx)


	def test_sndt(h, f):
	if h[:5] == 'SOUND':
	nsamples = get_long_le(h[8:12])
	rate = get_short_le(h[20:22])
	return 'sndt', rate, 1, nsamples, 8

	tests.append(test_sndt)


	def test_sndr(h, f):
	if h[:2] == '\0\0':
	rate = get_short_le(h[2:4])
	if 4000 <= rate <= 25000:
	return 'sndr', rate, 1, -1, 8

	tests.append(test_sndr)


	#---------------------------------------------#
	# Subroutines to extract numbers from strings #
	#---------------------------------------------#

	def get_long_be(s):
	return (ord(s[0])<<24) \| (ord(s[1])<<16) \| (ord(s[2])<<8) \| ord(s[3])

	def get_long_le(s):
	return (ord(s[3])<<24) \| (ord(s[2])<<16) \| (ord(s[1])<<8) \| ord(s[0])

	def get_short_be(s):
	return (ord(s[0])<<8) \| ord(s[1])

	def get_short_le(s):
	return (ord(s[1])<<8) \| ord(s[0])


	#--------------------#
	# Small test program #
	#--------------------#

	def test():
	import sys
	recursive = 0
	if sys.argv[1:] and sys.argv[1] == '-r':
	del sys.argv[1:2]
	recursive = 1
	try:
	if sys.argv[1:]:
	testall(sys.argv[1:], recursive, 1)
	else:
	testall(['.'], recursive, 1)
	except KeyboardInterrupt:
	sys.stderr.write('\n[Interrupted]\n')
	sys.exit(1)

	def testall(list, recursive, toplevel):
	import sys
	import os
	for filename in list:
	if os.path.isdir(filename):
	print filename + '/:',
	if recursive or toplevel:
	print 'recursing down:'
	import glob
	names = glob.glob(os.path.join(filename, '*'))
	testall(names, recursive, 0)
	else:
	print '* directory (use -r) *'
	else:
	print filename + ':',
	sys.stdout.flush()
	try:
	print what(filename)
	except IOError:
	print '* not found *'