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# -*- coding: utf-8 -*-
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from contextlib import contextmanager
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import logging
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import io
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import subprocess
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import sys
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from datetime import timedelta
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import ffmpeg
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import numpy as np
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from .sklearn_shim import TransformerMixin
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from .sklearn_shim import Pipeline
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import tqdm
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from .constants import *
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from .ffmpeg_utils import ffmpeg_bin_path, subprocess_args
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from .subtitle_parser import make_subtitle_parser
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from .subtitle_transformers import SubtitleScaler
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logging.basicConfig(level=logging.INFO)
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logger = logging.getLogger(__name__)
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def make_subtitle_speech_pipeline(
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fmt='srt',
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encoding=DEFAULT_ENCODING,
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caching=False,
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max_subtitle_seconds=DEFAULT_MAX_SUBTITLE_SECONDS,
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start_seconds=DEFAULT_START_SECONDS,
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scale_factor=DEFAULT_SCALE_FACTOR,
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parser=None,
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**kwargs
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):
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if parser is None:
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parser = make_subtitle_parser(
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fmt,
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encoding=encoding,
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caching=caching,
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max_subtitle_seconds=max_subtitle_seconds,
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start_seconds=start_seconds
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)
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assert parser.encoding == encoding
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assert parser.max_subtitle_seconds == max_subtitle_seconds
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assert parser.start_seconds == start_seconds
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return Pipeline([
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('parse', parser),
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('scale', SubtitleScaler(scale_factor)),
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('speech_extract', SubtitleSpeechTransformer(
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sample_rate=SAMPLE_RATE,
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start_seconds=start_seconds,
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framerate_ratio=scale_factor,
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))
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])
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def _make_auditok_detector(sample_rate, frame_rate):
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try:
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from auditok import \
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BufferAudioSource, ADSFactory, AudioEnergyValidator, StreamTokenizer
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except ImportError as e:
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logger.error("""Error: auditok not installed!
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Consider installing it with `pip install auditok`. Note that auditok
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is GPLv3 licensed, which means that successfully importing it at
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runtime creates a derivative work that is GPLv3 licensed. For personal
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use this is fine, but note that any commercial use that relies on
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auditok must be open source as per the GPLv3!*
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*Not legal advice. Consult with a lawyer.
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""")
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raise e
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bytes_per_frame = 2
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frames_per_window = frame_rate // sample_rate
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validator = AudioEnergyValidator(
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sample_width=bytes_per_frame, energy_threshold=50)
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tokenizer = StreamTokenizer(
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validator=validator, min_length=0.2*sample_rate,
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max_length=int(5*sample_rate),
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max_continuous_silence=0.25*sample_rate)
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def _detect(asegment):
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asource = BufferAudioSource(data_buffer=asegment,
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sampling_rate=frame_rate,
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sample_width=bytes_per_frame,
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channels=1)
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ads = ADSFactory.ads(audio_source=asource, block_dur=1./sample_rate)
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ads.open()
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tokens = tokenizer.tokenize(ads)
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length = (len(asegment)//bytes_per_frame
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+ frames_per_window - 1)//frames_per_window
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media_bstring = np.zeros(length+1, dtype=int)
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for token in tokens:
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media_bstring[token[1]] += 1
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media_bstring[token[2]+1] -= 1
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return (np.cumsum(media_bstring)[:-1] > 0).astype(float)
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return _detect
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def _make_webrtcvad_detector(sample_rate, frame_rate):
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import webrtcvad
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vad = webrtcvad.Vad()
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vad.set_mode(3) # set non-speech pruning aggressiveness from 0 to 3
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window_duration = 1. / sample_rate # duration in seconds
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frames_per_window = int(window_duration * frame_rate + 0.5)
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bytes_per_frame = 2
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def _detect(asegment):
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media_bstring = []
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failures = 0
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for start in range(0, len(asegment) // bytes_per_frame,
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frames_per_window):
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stop = min(start + frames_per_window,
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len(asegment) // bytes_per_frame)
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try:
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is_speech = vad.is_speech(
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asegment[start * bytes_per_frame: stop * bytes_per_frame],
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sample_rate=frame_rate)
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except:
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is_speech = False
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failures += 1
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# webrtcvad has low recall on mode 3, so treat non-speech as "not sure"
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media_bstring.append(1. if is_speech else 0.5)
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return np.array(media_bstring)
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return _detect
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class VideoSpeechTransformer(TransformerMixin):
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def __init__(self, vad, sample_rate, frame_rate, start_seconds=0, ffmpeg_path=None, ref_stream=None, vlc_mode=False, gui_mode=False):
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self.vad = vad
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self.sample_rate = sample_rate
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self.frame_rate = frame_rate
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self.start_seconds = start_seconds
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self.ffmpeg_path = ffmpeg_path
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self.ref_stream = ref_stream
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self.vlc_mode = vlc_mode
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self.gui_mode = gui_mode
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self.video_speech_results_ = None
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def try_fit_using_embedded_subs(self, fname):
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embedded_subs = []
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embedded_subs_times = []
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if self.ref_stream is None:
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# check first 5; should cover 99% of movies
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streams_to_try = map('0:s:{}'.format, range(5))
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else:
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streams_to_try = [self.ref_stream]
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for stream in streams_to_try:
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ffmpeg_args = [ffmpeg_bin_path('ffmpeg', self.gui_mode, ffmpeg_resources_path=self.ffmpeg_path)]
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ffmpeg_args.extend([
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'-loglevel', 'fatal',
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'-nostdin',
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'-i', fname,
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'-map', '{}'.format(stream),
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'-f', 'srt',
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'-'
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])
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process = subprocess.Popen(ffmpeg_args, **subprocess_args(include_stdout=True))
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output = io.BytesIO(process.communicate()[0])
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if process.returncode != 0:
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break
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pipe = make_subtitle_speech_pipeline(start_seconds=self.start_seconds).fit(output)
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speech_step = pipe.steps[-1][1]
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embedded_subs.append(speech_step.subtitle_speech_results_)
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embedded_subs_times.append(speech_step.max_time_)
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if len(embedded_subs) == 0:
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raise ValueError('Video file appears to lack subtitle stream')
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# use longest set of embedded subs
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self.video_speech_results_ = embedded_subs[int(np.argmax(embedded_subs_times))]
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def fit(self, fname, *_):
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if 'subs' in self.vad and (self.ref_stream is None or self.ref_stream.startswith('0:s:')):
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try:
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logger.info('Checking video for subtitles stream...')
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self.try_fit_using_embedded_subs(fname)
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logger.info('...success!')
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return self
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except Exception as e:
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logger.info(e)
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try:
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total_duration = float(ffmpeg.probe(
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fname, cmd=ffmpeg_bin_path('ffprobe', self.gui_mode, ffmpeg_resources_path=self.ffmpeg_path)
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)['format']['duration']) - self.start_seconds
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except Exception as e:
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logger.warning(e)
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total_duration = None
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if 'webrtc' in self.vad:
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detector = _make_webrtcvad_detector(self.sample_rate, self.frame_rate)
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elif 'auditok' in self.vad:
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detector = _make_auditok_detector(self.sample_rate, self.frame_rate)
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else:
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raise ValueError('unknown vad: %s' % self.vad)
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media_bstring = []
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ffmpeg_args = [ffmpeg_bin_path('ffmpeg', self.gui_mode, ffmpeg_resources_path=self.ffmpeg_path)]
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if self.start_seconds > 0:
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ffmpeg_args.extend([
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'-ss', str(timedelta(seconds=self.start_seconds)),
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])
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ffmpeg_args.extend([
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'-loglevel', 'fatal',
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'-nostdin',
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'-i', fname
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])
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if self.ref_stream is not None and self.ref_stream.startswith('0:a:'):
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ffmpeg_args.extend(['-map', self.ref_stream])
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ffmpeg_args.extend([
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'-f', 's16le',
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'-ac', '1',
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'-acodec', 'pcm_s16le',
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'-ar', str(self.frame_rate),
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'-'
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])
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process = subprocess.Popen(ffmpeg_args, **subprocess_args(include_stdout=True))
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bytes_per_frame = 2
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frames_per_window = bytes_per_frame * self.frame_rate // self.sample_rate
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windows_per_buffer = 10000
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simple_progress = 0.
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@contextmanager
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def redirect_stderr(enter_result=None):
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yield enter_result
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tqdm_extra_args = {}
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should_print_redirected_stderr = self.gui_mode
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if self.gui_mode:
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try:
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from contextlib import redirect_stderr
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tqdm_extra_args['file'] = sys.stdout
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except ImportError:
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should_print_redirected_stderr = False
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pbar_output = io.StringIO()
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with redirect_stderr(pbar_output):
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with tqdm.tqdm(total=total_duration, disable=self.vlc_mode, **tqdm_extra_args) as pbar:
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while True:
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in_bytes = process.stdout.read(frames_per_window * windows_per_buffer)
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if not in_bytes:
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break
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newstuff = len(in_bytes) / float(bytes_per_frame) / self.frame_rate
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if total_duration is not None and simple_progress + newstuff > total_duration:
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newstuff = total_duration - simple_progress
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simple_progress += newstuff
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pbar.update(newstuff)
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if self.vlc_mode and total_duration is not None:
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print("%d" % int(simple_progress * 100. / total_duration))
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sys.stdout.flush()
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if should_print_redirected_stderr:
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assert self.gui_mode
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# no need to flush since we pass -u to do unbuffered output for gui mode
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print(pbar_output.read())
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in_bytes = np.frombuffer(in_bytes, np.uint8)
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media_bstring.append(detector(in_bytes))
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if len(media_bstring) == 0:
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raise ValueError(
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'Unable to detect speech. Perhaps try specifying a different stream / track, or a different vad.'
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)
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self.video_speech_results_ = np.concatenate(media_bstring)
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return self
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def transform(self, *_):
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return self.video_speech_results_
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class SubtitleSpeechTransformer(TransformerMixin):
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def __init__(self, sample_rate, start_seconds=0, framerate_ratio=1.):
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self.sample_rate = sample_rate
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self.start_seconds = start_seconds
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self.framerate_ratio = framerate_ratio
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self.subtitle_speech_results_ = None
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self.max_time_ = None
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def fit(self, subs, *_):
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max_time = 0
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for sub in subs:
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max_time = max(max_time, sub.end.total_seconds())
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self.max_time_ = max_time - self.start_seconds
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samples = np.zeros(int(max_time * self.sample_rate) + 2, dtype=float)
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for sub in subs:
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start = int(round((sub.start.total_seconds() - self.start_seconds) * self.sample_rate))
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duration = sub.end.total_seconds() - sub.start.total_seconds()
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end = start + int(round(duration * self.sample_rate))
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samples[start:end] = min(1. / self.framerate_ratio, 1.)
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self.subtitle_speech_results_ = samples
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return self
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def transform(self, *_):
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return self.subtitle_speech_results_
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class DeserializeSpeechTransformer(TransformerMixin):
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def __init__(self):
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self.deserialized_speech_results_ = None
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def fit(self, fname, *_):
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speech = np.load(fname)
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if hasattr(speech, 'files'):
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if 'speech' in speech.files:
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speech = speech['speech']
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else:
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raise ValueError('could not find "speech" array in '
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'serialized file; only contains: %s' % speech.files)
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self.deserialized_speech_results_ = speech
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return self
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def transform(self, *_):
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return self.deserialized_speech_results_
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