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