client/cros/audio/sox_utils.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 # Copyright (c) 2013 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 import logging
 import re

 from autotest_lib.client.cros.audio import cmd_utils

 SOX_PATH = 'sox'

 def _raw_format_args(channels, bits, rate):
     args = ['-t', 'raw', '-e', 'signed']
     args += ['-c', str(channels)]
     args += ['-b', str(bits)]
     args += ['-r', str(rate)]
     return args

 def generate_sine_tone_cmd(
         filename, channels=2, bits=16, rate=48000, duration=None, frequence=440,
         gain=None):
     """Gets a command to generate sine tones at specified ferquencies.

     @param filename: The name of the file to store the sine wave in.
     @param channels: The number of channels.
     @param bits: The number of bits of each sample.
     @param rate: The sampling rate.
     @param duration: The length of the generated sine tone (in seconds).
     @param frequence: The frequence of the sine wave.
     @param gain: The gain (in db).
     """
     args = [SOX_PATH, '-n']
     args += _raw_format_args(channels, bits, rate)
     args.append(filename)
     args.append('synth')
     if duration is not None:
         args.append(str(duration))
     args += ['sine', str(frequence)]
     if gain is not None:
         args += ['gain', str(gain)]
     return args


 def noise_profile(*arg, **karg):
     """A helper function to execute the noise_profile_cmd."""
     return cmd_utils.execute(noise_profile_cmd(*arg, **karg))


 def noise_profile_cmd(input, output, channels=1, bits=16, rate=48000):
     """Gets the noise profile of the input audio.

     @param input: The input audio.
     @param output: The file where the output profile will be stored in.
     @param channels: The number of channels.
     @param bits: The number of bits of each sample.
     @param rate: The sampling rate.
     """
     args = [SOX_PATH]
     args += _raw_format_args(channels, bits, rate)
     args += [input, '-n', 'noiseprof', output]
     return args


 def noise_reduce(*args, **kargs):
     """A helper function to execute the noise_reduce_cmd."""
     return cmd_utils.execute(noise_reduce_cmd(*args, **kargs))


 def noise_reduce_cmd(
         input, output, noise_profile, channels=1, bits=16, rate=48000):
     """Reduce noise in the input audio by the given noise profile.

     @param input: The input audio file.
     @param ouput: The output file in which the noise reduced audio is stored.
     @param noise_profile: The noise profile.
     @param channels: The number of channels.
     @param bits: The number of bits of each sample.
     @param rate: The sampling rate.
     """
     args = [SOX_PATH]
     format_args = _raw_format_args(channels, bits, rate)
     args += format_args
     args.append(input)
     # Uses the same format for output.
     args += format_args
     args.append(output)
     args.append('noisered')
     args.append(noise_profile)
     return args


 def extract_channel_cmd(
         input, output, channel_index, channels=2, bits=16, rate=48000):
     """Extract the specified channel data from the given input audio file.

     @param input: The input audio file.
     @param output: The output file to which the extracted channel is stored
     @param channel_index: The index of the channel to be extracted.
                           Note: 1 for the first channel.
     @param channels: The number of channels.
     @param bits: The number of bits of each sample.
     @param rate: The sampling rate.
     """
     args = [SOX_PATH]
     args += _raw_format_args(channels, bits, rate)
     args.append(input)
     args += ['-t', 'raw', output]
     args += ['remix', str(channel_index)]
     return args


 def stat_cmd(input, channels=1, bits=16, rate=44100):
     """Get statistical information about the input audio data.

     The statistics will be output to standard error.

     @param input: The input audio file.
     @param channels: The number of channels.
     @param bits: The number of bits of each sample.
     @param rate: The sampling rate.
     """
     args = [SOX_PATH]
     args += _raw_format_args(channels, bits, rate)
     args += [input, '-n', 'stat']
     return args


 def get_stat(*args, **kargs):
     """A helper function to execute the stat_cmd.

     It returns the statistical information (in text) read from the standard
     error.
     """
     p = cmd_utils.popen(stat_cmd(*args, **kargs), stderr=cmd_utils.PIPE)

     #The output is read from the stderr instead of stdout
     stat_output = p.stderr.read()
     cmd_utils.wait_and_check_returncode(p)
     return parse_stat_output(stat_output)


 _SOX_STAT_ATTR_MAP = {
         'Samples read': ('sameple_count', int),
         'Length (seconds)': ('length', float),
         'RMS amplitude': ('rms', float),
         'Rough frequency': ('rough_frequency', float)}

 _RE_STAT_LINE = re.compile('(.*):(.*)')

 class _SOX_STAT:
     def __str__(self):
         return str(vars(self))


 def _remove_redundant_spaces(value):
     return ' '.join(value.split()).strip()


 def parse_stat_output(stat_output):
     """A helper function to parses the stat_cmd's output to get a python object
     for easy access to the statistics.

     It returns a python object with the following attributes:
       .sample_count: The number of the audio samples.
       .length: The length of the audio (in seconds).
       .rms: The RMS value of the audio.
       .rough_frequency: The rough frequency of the audio (in Hz).

     @param stat_output: The statistics ouput to be parsed.
     """
     stat = _SOX_STAT()

     for line in stat_output.splitlines():
         match = _RE_STAT_LINE.match(line)
         if not match:
             continue
         key, value = (_remove_redundant_spaces(x) for x in match.groups())
         attr, convfun = _SOX_STAT_ATTR_MAP.get(key, (None, None))
         if attr:
             setattr(stat, attr, convfun(value))

     if not all(hasattr(stat, x[0]) for x in _SOX_STAT_ATTR_MAP.values()):
         logging.error('stat_output: %s', stat_output)
         raise RuntimeError('missing entries: ' + str(stat))

     return stat
	# Copyright (c) 2013 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	import logging
	import re

	from autotest_lib.client.cros.audio import cmd_utils

	SOX_PATH = 'sox'

	def _raw_format_args(channels, bits, rate):
	args = ['-t', 'raw', '-e', 'signed']
	args += ['-c', str(channels)]
	args += ['-b', str(bits)]
	args += ['-r', str(rate)]
	return args

	def generate_sine_tone_cmd(
	filename, channels=2, bits=16, rate=48000, duration=None, frequence=440,
	gain=None):
	"""Gets a command to generate sine tones at specified ferquencies.

	@param filename: The name of the file to store the sine wave in.
	@param channels: The number of channels.
	@param bits: The number of bits of each sample.
	@param rate: The sampling rate.
	@param duration: The length of the generated sine tone (in seconds).
	@param frequence: The frequence of the sine wave.
	@param gain: The gain (in db).
	"""
	args = [SOX_PATH, '-n']
	args += _raw_format_args(channels, bits, rate)
	args.append(filename)
	args.append('synth')
	if duration is not None:
	args.append(str(duration))
	args += ['sine', str(frequence)]
	if gain is not None:
	args += ['gain', str(gain)]
	return args


	def noise_profile(arg, *karg):
	"""A helper function to execute the noise_profile_cmd."""
	return cmd_utils.execute(noise_profile_cmd(arg, *karg))


	def noise_profile_cmd(input, output, channels=1, bits=16, rate=48000):
	"""Gets the noise profile of the input audio.

	@param input: The input audio.
	@param output: The file where the output profile will be stored in.
	@param channels: The number of channels.
	@param bits: The number of bits of each sample.
	@param rate: The sampling rate.
	"""
	args = [SOX_PATH]
	args += _raw_format_args(channels, bits, rate)
	args += [input, '-n', 'noiseprof', output]
	return args


	def noise_reduce(args, *kargs):
	"""A helper function to execute the noise_reduce_cmd."""
	return cmd_utils.execute(noise_reduce_cmd(args, *kargs))


	def noise_reduce_cmd(
	input, output, noise_profile, channels=1, bits=16, rate=48000):
	"""Reduce noise in the input audio by the given noise profile.

	@param input: The input audio file.
	@param ouput: The output file in which the noise reduced audio is stored.
	@param noise_profile: The noise profile.
	@param channels: The number of channels.
	@param bits: The number of bits of each sample.
	@param rate: The sampling rate.
	"""
	args = [SOX_PATH]
	format_args = _raw_format_args(channels, bits, rate)
	args += format_args
	args.append(input)
	# Uses the same format for output.
	args += format_args
	args.append(output)
	args.append('noisered')
	args.append(noise_profile)
	return args


	def extract_channel_cmd(
	input, output, channel_index, channels=2, bits=16, rate=48000):
	"""Extract the specified channel data from the given input audio file.

	@param input: The input audio file.
	@param output: The output file to which the extracted channel is stored
	@param channel_index: The index of the channel to be extracted.
	Note: 1 for the first channel.
	@param channels: The number of channels.
	@param bits: The number of bits of each sample.
	@param rate: The sampling rate.
	"""
	args = [SOX_PATH]
	args += _raw_format_args(channels, bits, rate)
	args.append(input)
	args += ['-t', 'raw', output]
	args += ['remix', str(channel_index)]
	return args


	def stat_cmd(input, channels=1, bits=16, rate=44100):
	"""Get statistical information about the input audio data.

	The statistics will be output to standard error.

	@param input: The input audio file.
	@param channels: The number of channels.
	@param bits: The number of bits of each sample.
	@param rate: The sampling rate.
	"""
	args = [SOX_PATH]
	args += _raw_format_args(channels, bits, rate)
	args += [input, '-n', 'stat']
	return args


	def get_stat(args, *kargs):
	"""A helper function to execute the stat_cmd.

	It returns the statistical information (in text) read from the standard
	error.
	"""
	p = cmd_utils.popen(stat_cmd(args, *kargs), stderr=cmd_utils.PIPE)

	#The output is read from the stderr instead of stdout
	stat_output = p.stderr.read()
	cmd_utils.wait_and_check_returncode(p)
	return parse_stat_output(stat_output)


	_SOX_STAT_ATTR_MAP = {
	'Samples read': ('sameple_count', int),
	'Length (seconds)': ('length', float),
	'RMS amplitude': ('rms', float),
	'Rough frequency': ('rough_frequency', float)}

	_RE_STAT_LINE = re.compile('(.):(.)')

	class _SOX_STAT:
	def __str__(self):
	return str(vars(self))


	def _remove_redundant_spaces(value):
	return ' '.join(value.split()).strip()


	def parse_stat_output(stat_output):
	"""A helper function to parses the stat_cmd's output to get a python object
	for easy access to the statistics.

	It returns a python object with the following attributes:
	.sample_count: The number of the audio samples.
	.length: The length of the audio (in seconds).
	.rms: The RMS value of the audio.
	.rough_frequency: The rough frequency of the audio (in Hz).

	@param stat_output: The statistics ouput to be parsed.
	"""
	stat = _SOX_STAT()

	for line in stat_output.splitlines():
	match = _RE_STAT_LINE.match(line)
	if not match:
	continue
	key, value = (_remove_redundant_spaces(x) for x in match.groups())
	attr, convfun = _SOX_STAT_ATTR_MAP.get(key, (None, None))
	if attr:
	setattr(stat, attr, convfun(value))

	if not all(hasattr(stat, x[0]) for x in _SOX_STAT_ATTR_MAP.values()):
	logging.error('stat_output: %s', stat_output)
	raise RuntimeError('missing entries: ' + str(stat))

	return stat