Пример #1
0
def demo_song():
    synth = WaveSynth()
    notes = {note: key_freq(49+i) for i, note in enumerate(['A', 'A#', 'B', 'C', 'C#', 'D', 'D#', 'E', 'F', 'F#', 'G', 'G#'])}
    tempo = 0.3

    def synth_sample(freq, duration):
        harmonics = [(1, 1), (2, 1/2), (4, 1/4), (6, 1/6)]
        a = synth.harmonics(freq, duration, harmonics)
        return a.envelope(0.05, 0.2, 0.8, 0.5)

    silence = Sample.from_array([0]*int(synth.samplerate*tempo*2), synth.samplerate, numchannels=1)
    song = "A A B. A D. C#.. ;  A A B. A E. D.. ;  A A A. F#.. D C#.. B ;  G G F#.. D E D ; ; "\
        "A A B. A D C#.. ; A A B. A E D. ; A A A. F#.. D C#.. B ; G G F#.. D E D ; ; "
    with Output(synth.samplerate, synth.samplewidth, 1, mixing="sequential", queue_size=50) as out:
        for note in song.split():
            if note == ";":
                print()
                out.play_sample(silence)
                continue
            print(note, end="  ", flush=True)
            if note.endswith(".."):
                sample = synth_sample(notes[note[:-2]], tempo*4)
            elif note.endswith("."):
                sample = synth_sample(notes[note[:-1]], tempo*2)
            else:
                sample = synth_sample(notes[note], tempo)
            out.play_sample(sample)
        print()
        out.wait_all_played()
Пример #2
0
 def generate_sample(self, oscillator, duration, use_fade=False):
     scale = 2**(8*self.synth.samplewidth-1)
     try:
         frames = [int(v*scale) for v in itertools.islice(oscillator, int(self.synth.samplerate*duration))]
     except StopIteration:
         return None
     else:
         sample = Sample.from_array(frames, self.synth.samplerate, 1)
         if use_fade:
             sample.fadein(0.05).fadeout(0.1)
         return sample
Пример #3
0
 def chunked_frame_data(self, chunksize, repeat=False, stopcondition=lambda: False):
     played_duration = 0.0
     num_frames = chunksize // self.samplewidth // self.nchannels
     scale = 2 ** (8 * self.samplewidth - 1)
     while played_duration < self.max_play_duration:
         try:
             frames = [int(v * scale) for v in itertools.islice(self.oscillator, num_frames)]
         except StopIteration:
             break
         else:
             sample = Sample.from_array(frames, self.samplerate, 1)
             yield sample.view_frame_data()
         played_duration += num_frames / self.samplerate
Пример #4
0
 def generate_sample(self, oscillator: Oscillator, duration: float, use_fade: bool = False) -> Optional[Sample]:
     scale = 2**(8*self.synth.samplewidth-1)
     blocks = oscillator.blocks()
     try:
         sample_blocks = list(next(blocks) for _ in range(int(self.synth.samplerate*duration/params.norm_osc_blocksize)))
         float_frames = sum(sample_blocks, [])
         frames = [int(v*scale) for v in float_frames]
     except StopIteration:
         return None
     else:
         sample = Sample.from_array(frames, self.synth.samplerate, 1)
         if use_fade:
             sample.fadein(0.05).fadeout(0.1)
         return sample
Пример #5
0
def echo_lfo():
    synth = WaveSynth(22050)
    s = Sine(440, amplitude=25000, samplerate=synth.samplerate)
    s = EnvelopeFilter(s, .2, .2, 0, 0, 1.5, stop_at_end=True)
    s = EchoFilter(s, .15, 5, 0.3, 0.6)
    s = ClipFilter(s, -32000, 32000)
    frames = [int(v) for v in s]
    import matplotlib.pyplot as plot
    plot.plot(frames)
    plot.show()
    samp = Sample.from_array(frames, synth.samplerate, 1)
    with Output.for_sample(samp) as out:
        out.play_sample(samp)
        out.wait_all_played()
Пример #6
0
 def chunked_frame_data(self, chunksize, repeat=False, stopcondition=lambda: False):
     num_frames = chunksize // self.samplewidth // self.nchannels
     if num_frames != params.norm_osc_blocksize:
         raise ValueError("streaming osc num_frames must be equal to the oscillator blocksize")
     played_duration = 0.0
     scale = 2 ** (8 * self.samplewidth - 1)
     while played_duration < self.max_play_duration:
         try:
             frames = [int(v * scale) for v in next(self.blocks)]
         except StopIteration:
             break
         else:
             sample = Sample.from_array(frames, self.samplerate, 1)
             yield sample.view_frame_data()
         played_duration += num_frames / self.samplerate
Пример #7
0
def demo_song(profiling=False):
    synth = WaveSynth()
    notes = {note: key_freq(49+i) for i, note in enumerate(['A', 'A#', 'B', 'C', 'C#', 'D', 'D#', 'E', 'F', 'F#', 'G', 'G#'])}
    tempo = 0.3

    def instrument(freq, duration):
        harmonics = [(1, 1), (2, 1/2), (4, 1/4), (6, 1/6)]
        a = synth.harmonics(freq, duration, harmonics)
        return a.envelope(0.05, 0.2, 0.8, 0.5)

    print("Synthesizing tones...")
    perf_c = time.perf_counter()
    quarter_notes = {note: instrument(notes[note], tempo) for note in notes}
    half_notes = {note: instrument(notes[note], tempo*2) for note in notes}
    full_notes = {note: instrument(notes[note], tempo*4) for note in notes}
    silence = Sample.from_array([0]*int(synth.samplerate*tempo*2), synth.samplerate, numchannels=1)
    if profiling:
        print(time.perf_counter()-perf_c)
    else:
        song = "A A B. A D. C#.. ;  A A B. A E. D.. ;  A A A. F#.. D C#.. B ;  G G F#.. D E D ; ; "\
            "A A B. A D C#.. ; A A B. A E D. ; A A A. F#.. D C#.. B ; G G F#.. D E D ; ; "
        with Output(synth.samplerate, synth.samplewidth, 1, mixing="sequential") as out:
            for note in song.split():
                if note == ";":
                    print()
                    out.play_sample(silence)
                    continue
                print(note, end="  ", flush=True)
                if note.endswith(".."):
                    sample = full_notes[note[:-2]]
                elif note.endswith("."):
                    sample = half_notes[note[:-1]]
                else:
                    sample = quarter_notes[note]
                out.play_sample(sample)
            print()
            out.wait_all_played()