from __future__ import division import json import os import re import sys from subprocess import Popen, PIPE from math import log, ceil from tempfile import TemporaryFile from warnings import warn from functools import wraps try: import audioop except ImportError: import pyaudioop as audioop if sys.version_info >= (3, 0): basestring = str FRAME_WIDTHS = { 8: 1, 16: 2, 32: 4, } ARRAY_TYPES = { 8: "b", 16: "h", 32: "i", } ARRAY_RANGES = { 8: (-0x80, 0x7f), 16: (-0x8000, 0x7fff), 32: (-0x80000000, 0x7fffffff), } def get_frame_width(bit_depth): return FRAME_WIDTHS[bit_depth] def get_array_type(bit_depth, signed=True): t = ARRAY_TYPES[bit_depth] if not signed: t = t.upper() return t def get_min_max_value(bit_depth): return ARRAY_RANGES[bit_depth] def _fd_or_path_or_tempfile(fd, mode='w+b', tempfile=True): close_fd = False if fd is None and tempfile: fd = TemporaryFile(mode=mode) close_fd = True if isinstance(fd, basestring): fd = open(fd, mode=mode) close_fd = True try: if isinstance(fd, os.PathLike): fd = open(fd, mode=mode) close_fd = True except AttributeError: # module os has no attribute PathLike, so we're on python < 3.6. # The protocol we're trying to support doesn't exist, so just pass. pass return fd, close_fd def db_to_float(db, using_amplitude=True): """ Converts the input db to a float, which represents the equivalent ratio in power. """ db = float(db) if using_amplitude: return 10 ** (db / 20) else: # using power return 10 ** (db / 10) def ratio_to_db(ratio, val2=None, using_amplitude=True): """ Converts the input float to db, which represents the equivalent to the ratio in power represented by the multiplier passed in. """ ratio = float(ratio) # accept 2 values and use the ratio of val1 to val2 if val2 is not None: ratio = ratio / val2 # special case for multiply-by-zero (convert to silence) if ratio == 0: return -float('inf') if using_amplitude: return 20 * log(ratio, 10) else: # using power return 10 * log(ratio, 10) def register_pydub_effect(fn, name=None): """ decorator for adding pydub effects to the AudioSegment objects. example use: @register_pydub_effect def normalize(audio_segment): ... or you can specify a name: @register_pydub_effect("normalize") def normalize_audio_segment(audio_segment): ... """ if isinstance(fn, basestring): name = fn return lambda fn: register_pydub_effect(fn, name) if name is None: name = fn.__name__ from .audio_segment import AudioSegment setattr(AudioSegment, name, fn) return fn def make_chunks(audio_segment, chunk_length): """ Breaks an AudioSegment into chunks that are milliseconds long. if chunk_length is 50 then you'll get a list of 50 millisecond long audio segments back (except the last one, which can be shorter) """ number_of_chunks = ceil(len(audio_segment) / float(chunk_length)) return [audio_segment[i * chunk_length:(i + 1) * chunk_length] for i in range(int(number_of_chunks))] def which(program): """ Mimics behavior of UNIX which command. """ # Add .exe program extension for windows support if os.name == "nt" and not program.endswith(".exe"): program += ".exe" envdir_list = [os.curdir] + os.environ["PATH"].split(os.pathsep) for envdir in envdir_list: program_path = os.path.join(envdir, program) if os.path.isfile(program_path) and os.access(program_path, os.X_OK): return program_path def get_encoder_name(): """ Return enconder default application for system, either avconv or ffmpeg """ if which("avconv"): return "avconv" elif which("ffmpeg"): return "ffmpeg" else: # should raise exception warn("Couldn't find ffmpeg or avconv - defaulting to ffmpeg, but may not work", RuntimeWarning) return "ffmpeg" def get_player_name(): """ Return enconder default application for system, either avconv or ffmpeg """ if which("avplay"): return "avplay" elif which("ffplay"): return "ffplay" else: # should raise exception warn("Couldn't find ffplay or avplay - defaulting to ffplay, but may not work", RuntimeWarning) return "ffplay" def get_prober_name(): """ Return probe application, either avconv or ffmpeg """ if which("avprobe"): return "avprobe" elif which("ffprobe"): return "ffprobe" else: # should raise exception warn("Couldn't find ffprobe or avprobe - defaulting to ffprobe, but may not work", RuntimeWarning) return "ffprobe" def fsdecode(filename): """Wrapper for os.fsdecode which was introduced in python 3.2 .""" if sys.version_info >= (3, 2): PathLikeTypes = (basestring, bytes) if sys.version_info >= (3, 6): PathLikeTypes += (os.PathLike,) if isinstance(filename, PathLikeTypes): return os.fsdecode(filename) else: if isinstance(filename, bytes): return filename.decode(sys.getfilesystemencoding()) if isinstance(filename, basestring): return filename raise TypeError("type {0} not accepted by fsdecode".format(type(filename))) def get_extra_info(stderr): """ avprobe sometimes gives more information on stderr than on the json output. The information has to be extracted from stderr of the format of: ' Stream #0:0: Audio: flac, 88200 Hz, stereo, s32 (24 bit)' or (macOS version): ' Stream #0:0: Audio: vorbis' ' 44100 Hz, stereo, fltp, 320 kb/s' :type stderr: str :rtype: list of dict """ extra_info = {} re_stream = r'(?P +)Stream #0[:\.](?P([0-9]+))(?P.+)\n?(?! *Stream)((?P +)(?P.+))?' for i in re.finditer(re_stream, stderr): if i.group('space_end') is not None and len(i.group('space_start')) <= len( i.group('space_end')): content_line = ','.join([i.group('content_0'), i.group('content_1')]) else: content_line = i.group('content_0') tokens = [x.strip() for x in re.split('[:,]', content_line) if x] extra_info[int(i.group('stream_id'))] = tokens return extra_info def mediainfo_json(filepath, read_ahead_limit=-1): """Return json dictionary with media info(codec, duration, size, bitrate...) from filepath """ prober = get_prober_name() command_args = [ "-v", "info", "-show_format", "-show_streams", ] try: command_args += [fsdecode(filepath)] stdin_parameter = None stdin_data = None except TypeError: if prober == 'ffprobe': command_args += ["-read_ahead_limit", str(read_ahead_limit), "cache:pipe:0"] else: command_args += ["-"] stdin_parameter = PIPE file, close_file = _fd_or_path_or_tempfile(filepath, 'rb', tempfile=False) file.seek(0) stdin_data = file.read() if close_file: file.close() command = [prober, '-of', 'json'] + command_args res = Popen(command, stdin=stdin_parameter, stdout=PIPE, stderr=PIPE) output, stderr = res.communicate(input=stdin_data) output = output.decode("utf-8", 'ignore') stderr = stderr.decode("utf-8", 'ignore') info = json.loads(output) if not info: # If ffprobe didn't give any information, just return it # (for example, because the file doesn't exist) return info extra_info = get_extra_info(stderr) audio_streams = [x for x in info['streams'] if x['codec_type'] == 'audio'] if len(audio_streams) == 0: return info # We just operate on the first audio stream in case there are more stream = audio_streams[0] def set_property(stream, prop, value): if prop not in stream or stream[prop] == 0: stream[prop] = value for token in extra_info[stream['index']]: m = re.match('([su]([0-9]{1,2})p?) \(([0-9]{1,2}) bit\)$', token) m2 = re.match('([su]([0-9]{1,2})p?)( \(default\))?$', token) if m: set_property(stream, 'sample_fmt', m.group(1)) set_property(stream, 'bits_per_sample', int(m.group(2))) set_property(stream, 'bits_per_raw_sample', int(m.group(3))) elif m2: set_property(stream, 'sample_fmt', m2.group(1)) set_property(stream, 'bits_per_sample', int(m2.group(2))) set_property(stream, 'bits_per_raw_sample', int(m2.group(2))) elif re.match('(flt)p?( \(default\))?$', token): set_property(stream, 'sample_fmt', token) set_property(stream, 'bits_per_sample', 32) set_property(stream, 'bits_per_raw_sample', 32) elif re.match('(dbl)p?( \(default\))?$', token): set_property(stream, 'sample_fmt', token) set_property(stream, 'bits_per_sample', 64) set_property(stream, 'bits_per_raw_sample', 64) return info def mediainfo(filepath): """Return dictionary with media info(codec, duration, size, bitrate...) from filepath """ prober = get_prober_name() command_args = [ "-v", "quiet", "-show_format", "-show_streams", filepath ] command = [prober, '-of', 'old'] + command_args res = Popen(command, stdout=PIPE) output = res.communicate()[0].decode("utf-8") if res.returncode != 0: command = [prober] + command_args output = Popen(command, stdout=PIPE).communicate()[0].decode("utf-8") rgx = re.compile(r"(?:(?P.*?):)?(?P.*?)\=(?P.*?)$") info = {} if sys.platform == 'win32': output = output.replace("\r", "") for line in output.split("\n"): # print(line) mobj = rgx.match(line) if mobj: # print(mobj.groups()) inner_dict, key, value = mobj.groups() if inner_dict: try: info[inner_dict] except KeyError: info[inner_dict] = {} info[inner_dict][key] = value else: info[key] = value return info def cache_codecs(function): cache = {} @wraps(function) def wrapper(): try: return cache[0] except: cache[0] = function() return cache[0] return wrapper @cache_codecs def get_supported_codecs(): encoder = get_encoder_name() command = [encoder, "-codecs"] res = Popen(command, stdout=PIPE, stderr=PIPE) output = res.communicate()[0].decode("utf-8") if res.returncode != 0: return [] if sys.platform == 'win32': output = output.replace("\r", "") rgx = re.compile(r"^([D.][E.][AVS.][I.][L.][S.]) (\w*) +(.*)") decoders = set() encoders = set() for line in output.split('\n'): match = rgx.match(line.strip()) if not match: continue flags, codec, name = match.groups() if flags[0] == 'D': decoders.add(codec) if flags[1] == 'E': encoders.add(codec) return (decoders, encoders) def get_supported_decoders(): return get_supported_codecs()[0] def get_supported_encoders(): return get_supported_codecs()[1] def stereo_to_ms(audio_segment): ''' Left-Right -> Mid-Side ''' channel = audio_segment.split_to_mono() channel = [channel[0].overlay(channel[1]), channel[0].overlay(channel[1].invert_phase())] return AudioSegment.from_mono_audiosegments(channel[0], channel[1]) def ms_to_stereo(audio_segment): ''' Mid-Side -> Left-Right ''' channel = audio_segment.split_to_mono() channel = [channel[0].overlay(channel[1]) - 3, channel[0].overlay(channel[1].invert_phase()) - 3] return AudioSegment.from_mono_audiosegments(channel[0], channel[1])