Exemplo n.º 1
0
 def __init__(self, app, trackframes):
     self.app = app
     self.trackframes = trackframes
     self.app.after(self.update_rate, self.tick)
     self.stopping = False
     self.mixer = StreamMixer([], endless=True)
     self.output = Output(self.mixer.samplerate, self.mixer.samplewidth, self.mixer.nchannels, mixing="sequential", queue_size=2)
     self.mixed_samples = iter(self.mixer)
     self.levelmeter = LevelMeter(rms_mode=False, lowest=self.levelmeter_lowest)
     self.output.register_notify_played(self.levelmeter.update)
     for tf in self.trackframes:
         tf.player = self
     player_thread = Thread(target=self._play_sample_in_thread, name="jukebox_sampleplayer")
     player_thread.daemon = True
     player_thread.start()
Exemplo n.º 2
0
    def _audio_playback(self, pcm_stream):
        # thread 3: audio playback
        levelmeter = LevelMeter()

        def played(sample):
            if self.client.stream_title != self.stream_title:
                self.stream_title = self.client.stream_title
                if self.song_title_callback:
                    self.song_title_callback(self.stream_title)
                else:
                    print("\n\nNew Song:", self.stream_title, "\n")
            levelmeter.update(sample)
            if self.update_ui:
                self.update_ui(levelmeter, None)
            else:
                levelmeter.print(60, True)

        with Output(mixing="sequential", frames_per_chunk=44100//4) as output:
            output.register_notify_played(played)
            while not self._stop_playback:
                try:
                    audio = pcm_stream.read(44100 * 2 * 2 // 20)
                    if not audio:
                        break
                except (IOError, ValueError):
                    break
                else:
                    if not self._stop_playback:
                        sample = Sample.from_raw_frames(audio, 2, 44100, 2)
                        output.play_sample(sample)
Exemplo n.º 3
0
def main(args):
    if len(args) < 1:
        raise SystemExit(
            "Mixes one or more audio files. Arguments: inputfile...")
    hqresample = AudiofileToWavStream.supports_hq_resample()
    if not hqresample:
        print(
            "WARNING: ffmpeg isn't compiled with libsoxr, so hq resampling is not supported."
        )
    wav_streams = [
        AudiofileToWavStream(filename, hqresample=False) for filename in args
    ]
    with StreamMixer(wav_streams, endless=False) as mixer:
        mixed_samples = iter(mixer)
        with Output(mixer.samplerate,
                    mixer.samplewidth,
                    mixer.nchannels,
                    mixing="sequential",
                    queue_size=50) as output:
            if not output.supports_streaming:
                raise RuntimeError("need api that supports streaming")
            levelmeter = LevelMeter(rms_mode=False, lowest=-50)

            def update_and_print_meter(sample):
                levelmeter.update(sample)
                levelmeter.print(bar_width=60)

            output.register_notify_played(update_and_print_meter)
            for timestamp, sample in mixed_samples:
                output.play_sample(sample)
            output.wait_all_played()
    print("\ndone.")
Exemplo n.º 4
0
def play_console(filename_or_stream):
    with wave.open(filename_or_stream, 'r') as wav:
        samplewidth = wav.getsampwidth()
        samplerate = wav.getframerate()
        nchannels = wav.getnchannels()
        bar_width = 60
        levelmeter = LevelMeter(rms_mode=False, lowest=-50.0)
        with Output(samplerate, samplewidth, nchannels, mixing="sequential") as out:
            print("Audio API used:", out.audio_api)
            if not out.supports_streaming:
                raise RuntimeError("need api that supports streaming")
            out.register_notify_played(levelmeter.update)
            while True:
                frames = wav.readframes(samplerate//update_rate)
                if not frames:
                    break
                sample = Sample.from_raw_frames(frames, wav.getsampwidth(), wav.getframerate(), wav.getnchannels())
                out.play_sample(sample)
                levelmeter.print(bar_width)
            while out.still_playing():
                time.sleep(1/update_rate)
                levelmeter.print(bar_width)
            out.wait_all_played()
    print("\nDone. Enter to exit:")
    input()
Exemplo n.º 5
0
 def open_audio_file(self, filename_or_stream):
     wav = wave.open(filename_or_stream, 'r')
     self.samplewidth = wav.getsampwidth()
     self.samplerate = wav.getframerate()
     self.nchannels = wav.getnchannels()
     self.samplestream = iter(SampleStream(wav, self.samplerate // 10))
     self.levelmeter = LevelMeter(rms_mode=False, lowest=self.lowest_level)
     self.audio_out = Output(self.samplerate, self.samplewidth, self.nchannels, mixing="sequential", queue_size=3)
     print("Audio API used:", self.audio_out.audio_api)
     if not self.audio_out.supports_streaming:
         raise RuntimeError("need api that supports streaming")
     self.audio_out.register_notify_played(self.levelmeter.update)
     filename = filename_or_stream if isinstance(filename_or_stream, str) else "<stream>"
     info = "Source:\n{}\n\nRate: {:g} Khz\nBits: {}\nChannels: {}"\
         .format(filename, self.samplerate/1000, 8*self.samplewidth, self.nchannels)
     self.info.configure(text=info)
Exemplo n.º 6
0
class Player:
    update_rate = 50    # 50 ms = 20 updates/sec
    levelmeter_lowest = -40  # dB
    xfade_duration = 7

    def __init__(self, app, trackframes):
        self.app = app
        self.trackframes = trackframes
        self.app.after(self.update_rate, self.tick)
        self.stopping = False
        self.mixer = StreamMixer([], endless=True)
        self.output = Output(self.mixer.samplerate, self.mixer.samplewidth, self.mixer.nchannels, mixing="sequential", queue_size=2)
        self.mixed_samples = iter(self.mixer)
        self.levelmeter = LevelMeter(rms_mode=False, lowest=self.levelmeter_lowest)
        self.output.register_notify_played(self.levelmeter.update)
        for tf in self.trackframes:
            tf.player = self
        player_thread = Thread(target=self._play_sample_in_thread, name="jukebox_sampleplayer")
        player_thread.daemon = True
        player_thread.start()

    def skip(self, trackframe):
        if trackframe.state != TrackFrame.state_needtrack and trackframe.stream:
            trackframe.stream.close()
            trackframe.stream = None
        trackframe.display_track(None, None, None, "(next track...)")
        trackframe.state = TrackFrame.state_switching

    def stop(self):
        self.stopping = True
        for tf in self.trackframes:
            if tf.stream:
                tf.stream.close()
                tf.stream = None
            tf.state = TrackFrame.state_needtrack
        self.mixer.close()
        self.output.close()

    def tick(self):
        # the actual decoding and sound playing is done in a background thread
        self._levelmeter()
        self._load_song()
        self._play_song()
        self._crossfade()
        if not self.stopping:
            self.app.after(self.update_rate, self.tick)

    def _play_sample_in_thread(self):
        """
        This is run in a background thread to avoid GUI interactions interfering with audio output.
        """
        while True:
            if self.stopping:
                break
            _, sample = next(self.mixed_samples)
            if sample and sample.duration > 0:
                self.output.play_sample(sample)
            else:
                self.levelmeter.reset()
                time.sleep(self.update_rate/1000*2)   # avoid hogging the cpu while no samples are played

    def _levelmeter(self):
        self.app.update_levels(self.levelmeter.level_left, self.levelmeter.level_right)

    def _load_song(self):
        if self.stopping:
            return   # make sure we don't load new songs when the player is shutting down
        for tf in self.trackframes:
            if tf.state == TrackFrame.state_needtrack:
                track = self.app.pop_playlist_track()
                if track:
                    tf.track = track
                    tf.state = TrackFrame.state_idle

    def _play_song(self):
        def start_stream(tf, filename, volume):
            def _start_from_thread():
                # start loading the track from a thread to avoid gui stutters when loading takes a bit of time
                tf.stream = AudiofileToWavStream(filename, hqresample=hqresample)
                self.mixer.add_stream(tf.stream, [tf.volumefilter])
                tf.playback_started = datetime.datetime.now()
                tf.state = TrackFrame.state_playing
                tf.volume = volume
            tf.state = TrackFrame.state_loading
            Thread(target=_start_from_thread, name="stream_loader").start()
        for tf in self.trackframes:
            if tf.state == TrackFrame.state_playing:
                remaining = tf.track_duration - (datetime.datetime.now() - tf.playback_started)
                remaining = remaining.total_seconds()
                tf.time = datetime.timedelta(seconds=math.ceil(remaining))
                if tf.stream.closed and tf.time.total_seconds() <= 0:
                    self.skip(tf)  # stream ended!
            elif tf.state == TrackFrame.state_idle:
                if tf.xfade_state == TrackFrame.state_xfade_fadingin:
                    # if we're set to fading in, regardless of other tracks, we start playing as well
                    start_stream(tf, tf.track["location"], 0)
                elif not any(tf for tf in self.trackframes if tf.state in (TrackFrame.state_playing, TrackFrame.state_loading)):
                    # if there is no other track currently playing (or loading), it's our turn!
                    start_stream(tf, tf.track["location"], 100)
            elif tf.state == TrackFrame.state_switching:
                tf.state = TrackFrame.state_needtrack

    def _crossfade(self):
        for tf in self.trackframes:
            # nearing the end of the track? then start a fade out
            if tf.state == TrackFrame.state_playing \
                    and tf.xfade_state == TrackFrame.state_xfade_nofade \
                    and tf.time.total_seconds() <= self.xfade_duration:
                tf.xfade_state = TrackFrame.state_xfade_fadingout
                tf.xfade_started = datetime.datetime.now()
                tf.xfade_start_volume = tf.volume
                # fade in the first other track that is currently idle
                for other_tf in self.trackframes:
                    if tf is not other_tf and other_tf.state == TrackFrame.state_idle:
                        other_tf.xfade_state = TrackFrame.state_xfade_fadingin
                        other_tf.xfade_started = datetime.datetime.now()
                        other_tf.xfade_start_volume = 0
                        other_tf.volume = 0
                        break
        for tf in self.trackframes:
            if tf.xfade_state == TrackFrame.state_xfade_fadingin:
                # fading in, slide volume up from 0 to 100%
                volume = 100 * (datetime.datetime.now() - tf.xfade_started).total_seconds() / self.xfade_duration
                tf.volume = min(volume, 100)
                if volume >= 100:
                    tf.xfade_state = TrackFrame.state_xfade_nofade  # fade reached the end
            elif tf.xfade_state == TrackFrame.state_xfade_fadingout:
                # fading out, slide volume down from what it was at to 0%
                fade_progress = (datetime.datetime.now() - tf.xfade_started)
                fade_progress = (self.xfade_duration - fade_progress.total_seconds()) / self.xfade_duration
                volume = max(0, tf.xfade_start_volume * fade_progress)
                tf.volume = max(volume, 0)
                if volume <= 0:
                    tf.xfade_state = TrackFrame.state_xfade_nofade   # fade reached the end

    def play_sample(self, sample):
        def unmute(trf, vol):
            if trf:
                trf.volume = vol
        if sample and sample.duration > 0:
            for tf in self.trackframes:
                if tf.state == TrackFrame.state_playing:
                    old_volume = tf.mute_volume(40)
                    self.mixer.add_sample(sample, lambda mtf=tf, vol=old_volume: unmute(mtf, vol))
                    break
            else:
                self.mixer.add_sample(sample)