示例#1
0
def main():
    parser = get_cmd_line_parser(description=__doc__)
    parser = ParserArguments.filename(parser)
    parser = ParserArguments.plot(parser)
    parser = ParserArguments.framerate(parser)
    parser = ParserArguments.set_defaults(parser)
    args = parser.parse_args()
    defaults.framerate = args.framerate

    sig_gen = Generator(verbose=args.debug)

    print('0.2 second waveform at 1000Hz and 0.2 seconds at 440Hz '
          '(starting 0.1 second in)')
    signal = Waveform([])
    signal = signal.insert(0, sig_gen.sin_constant(1000, length=0.2))
    signal = signal.insert(seconds_to_frame(0.1),
                           sig_gen.sin_constant(440, length=0.2))

    if args.plot:
        plot.plot_waveform(signal.frames, 1, 0, 4000)
    else:
        with wav_file_context('signal.wav') as fout:
            fout.write_frames(signal.frames)

    spectrum = analyze_whole_waveform(signal)
    print("Frequency Powers found by STFT: ")
    timeslices = [(time, spec) for time, spec in spectrum.items()]
    timeslices.sort(key=lambda x: x[0])
    for timeslice in timeslices:
        print(timeslice)

    return 0
示例#2
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def main():
    parser = get_cmd_line_parser(description=__doc__)
    parser = ParserArguments.filename(parser)
    parser = ParserArguments.plot(parser)
    parser = ParserArguments.framerate(parser)
    parser = ParserArguments.set_defaults(parser)
    args = parser.parse_args()
    defaults.framerate = args.framerate

    sig_gen = Generator(verbose=args.debug)

    print('1 second waveform at 1000Hz')
    frequency_powers = analyze_window(
        sig_gen.sin_constant(1000))
    print("Frequency Powers found by FFT: ", frequency_powers)

    print('\n0.5 second waveform at 880Hz')
    frequency_powers = analyze_window(
        sig_gen.sin_constant(880, length=0.5))
    print("Frequency Powers found by FFT: ", frequency_powers)

    print('\n0.75 second waveform at 1234Hz')
    frequency_powers = analyze_window(
        sig_gen.sin_constant(1234, length=0.75))
    tmp = list(frequency_powers.items())
    tmp.sort(key=lambda x: x[1], reverse=True)
    print('{} present non-zero frequencies in signal. The most '
          'powerfull frequencies are:\n{}'.format(
              len(frequency_powers), '\n'.join([str(t) for t in tmp[:10]])))

    return 0
示例#3
0
def main():
    parser = get_cmd_line_parser(description=__doc__)
    parser = ParserArguments.filename(parser)
    parser = ParserArguments.plot(parser)
    parser = ParserArguments.framerate(parser)
    parser = ParserArguments.set_defaults(parser)
    args = parser.parse_args()
    defaults.framerate = args.framerate

    sig_gen = Generator(verbose=args.debug)

    print('0.2 second waveform at 1000Hz and 0.2 seconds at 440Hz '
          '(starting 0.1 second in)')
    signal = Waveform([])
    signal = signal.insert(0, sig_gen.sin_constant(1000, length=0.2))
    signal = signal.insert(seconds_to_frame(0.1),
                           sig_gen.sin_constant(440, length=0.2))

    if args.plot:
        plot.plot_waveform(signal.frames, 1, 0, 4000)
    else:
        with wav_file_context('signal.wav') as fout:
            fout.write_frames(signal.frames)

    spectrum = analyze_whole_waveform(signal)
    print("Frequency Powers found by STFT: ")
    timeslices = [(time, spec) for time, spec in spectrum.items()]
    timeslices.sort(key=lambda x: x[0])
    for timeslice in timeslices:
        print(timeslice)

    return 0
示例#4
0
def main():
    parser = get_cmd_line_parser(description=__doc__)
    parser = ParserArguments.filename(parser)
    parser = ParserArguments.plot(parser)
    parser = ParserArguments.framerate(parser)
    parser = ParserArguments.set_defaults(parser)
    args = parser.parse_args()
    defaults.framerate = args.framerate

    sig_gen = Generator(verbose=args.debug)

    print('1 second waveform at 1000Hz')
    frequency_powers = analyze_window(sig_gen.sin_constant(1000))
    print("Frequency Powers found by FFT: ", frequency_powers)

    print('\n0.5 second waveform at 880Hz')
    frequency_powers = analyze_window(sig_gen.sin_constant(880, length=0.5))
    print("Frequency Powers found by FFT: ", frequency_powers)

    print('\n0.75 second waveform at 1234Hz')
    frequency_powers = analyze_window(sig_gen.sin_constant(1234, length=0.75))
    tmp = list(frequency_powers.items())
    tmp.sort(key=lambda x: x[1], reverse=True)
    print('{} present non-zero frequencies in signal. The most '
          'powerfull frequencies are:\n{}'.format(
              len(frequency_powers), '\n'.join([str(t) for t in tmp[:10]])))

    return 0
示例#5
0
def main():
    parser = get_cmd_line_parser(description=__doc__)
    ParserArguments.filename(parser)
    ParserArguments.tempo(parser)
    ParserArguments.framerate(parser)
    ParserArguments.set_defaults(parser)
    ParserArguments.best(parser)
    args = parser.parse_args()
    defaults.framerate = args.framerate

    song = Stream()

    roots = 'ABCDEFG'
    scales = [scale.MajorScale, scale.MinorScale,
              scale.WholeToneScale, scale.ChromaticScale]

    print('Choosing a random scale from Major, Minor, Whole Tone, Chromatic.')
    rscale = random.choice(scales)(Pitch(random.choice(roots)))
    print('Using: %s' % rscale.name)

    print('Generating a score...')
    random_note_count = 50
    random_note_speeds = [0.5, 1]
    print('100 Random 1/8th and 1/4th notes in rapid succession...')
    for i in range(random_note_count):
        note = Note(random.choice(rscale.pitches))
        note.duration.quarterLength = random.choice(random_note_speeds)
        song.append(note)

    scale_practice_count = 4
    print('Do the scale up and down a few times... maybe %s' %
          scale_practice_count)
    rev = rscale.pitches[:]
    rev.reverse()
    updown_scale = rscale.pitches[:]
    updown_scale.extend(rev[1:-1])
    print('updown scale: %s' % updown_scale)
    for count, pitch in enumerate(cycle(updown_scale)):
        print(' note %s, %s' % (count, pitch))
        song.append(Note(pitch))
        if count >= scale_practice_count * len(updown_scale):
            break

    print('Composition finished:')
    song.show('txt')

    if args.best:
        print('Audifying the song to file "{}"...')
        wave = audify_to_file(song, args.tempo, args.filename, verbose=True)
    else:
        wave = audify_basic(song, args.tempo, verbose=True)
        print('Writing Song to file "{}"...'.format(args.filename))
        with wav_file_context(args.filename) as fout:
            fout.write_frames(wave.frames)

    return 0
示例#6
0
def main():
    parser = get_cmd_line_parser(description=__doc__)
    ParserArguments.filename(parser)
    ParserArguments.tempo(parser)
    ParserArguments.framerate(parser)
    ParserArguments.set_defaults(parser)
    ParserArguments.best(parser)
    args = parser.parse_args()
    defaults.framerate = args.framerate

    print('Generating Signal:')
    sig_gen = Generator()
    song = Waveform([])
    qnl = quarter_note_length(args.tempo)

    # work = corpus.parse(numpy.random.choice(corpus.getComposer('bach')))
    work = corpus.parse(numpy.random.choice(corpus.getCorePaths()))
    notes = work.flat.notes
    if args.best:
        audify_to_file(notes, args.tempo, args.filename, args.verbose)
        return 0

    note_count = len(notes)
    try:
        for count, note in enumerate(notes):
            print('{}/{}: {} [{}]: {} {}'.format(count, note_count,
                                                 note.offset,
                                                 note.duration.quarterLength,
                                                 note.pitch,
                                                 note.pitch.frequency))
            note_length = qnl * note.quarterLength
            start = seconds_to_frame(qnl * note.offset)
            print('  inserting {} seconds into frame {}'.format(
                note_length, start))
            song = song.insert(
                start,
                sig_gen.sin_constant(note.pitch.frequency, length=note_length))
    except KeyboardInterrupt:
        print('Stopping song generating here...')

    print('Writing Song {} to file {}...'.format(work.corpusFilepath,
                                                 args.filename))
    with wav_file_context(args.filename) as fout:
        fout.write_frames(song.frames)

    return 0
def main():
    parser = get_cmd_line_parser(description=__doc__)
    parser = ParserArguments.filename(parser)
    parser = ParserArguments.plot(parser)
    parser = ParserArguments.framerate(parser)
    parser = ParserArguments.set_defaults(parser)
    parser.add_argument('--phase',
                        help="Run the experiment with a given phase value.",
                        type=float,
                        default=0.0)
    args = parser.parse_args()
    defaults.framerate = args.framerate

    sig_gen = Generator(verbose=args.debug)

    phase = 0 if not hasattr(args, 'phase') else args.phase
    signal = sig_gen.sin_constant(440, length=0.05, phase=phase % (2 * pi))

    freq, power_domain, freq_domain = do_fft(signal)

    try:
        _, subplots = pyplot.subplots(1, 2)
        subplots[0].plot(power_domain)
        subplots[0].set_title('Power Domain')
        subplots[1].plot(freq_domain)
        subplots[1].set_title('Freq Domain')
        pyplot.show()

        _, subplots = pyplot.subplots(1, 2)
        subplots[0].plot(real(freq_domain))
        subplots[0].set_title('Real Freq. Domain')
        subplots[1].plot(imag(freq_domain))
        subplots[1].set_title('Imaginary Freq. Domain')
        pyplot.show()
    finally:
        pyplot.close()

    return 0
def main():
    parser = get_cmd_line_parser(description=__doc__)
    parser = ParserArguments.filename(parser)
    parser = ParserArguments.plot(parser)
    parser = ParserArguments.framerate(parser)
    parser = ParserArguments.set_defaults(parser)
    parser.add_argument(
        '--phase', help="Run the experiment with a given phase value.",
        type=float, default=0.0)
    args = parser.parse_args()
    defaults.framerate = args.framerate

    sig_gen = Generator(verbose=args.debug)

    phase = 0 if not hasattr(args, 'phase') else args.phase
    signal = sig_gen.sin_constant(440, length=0.05, phase=phase % (2 * pi))

    freq, power_domain, freq_domain = do_fft(signal)

    try:
        _, subplots = pyplot.subplots(1, 2)
        subplots[0].plot(power_domain)
        subplots[0].set_title('Power Domain')
        subplots[1].plot(freq_domain)
        subplots[1].set_title('Freq Domain')
        pyplot.show()

        _, subplots = pyplot.subplots(1, 2)
        subplots[0].plot(real(freq_domain))
        subplots[0].set_title('Real Freq. Domain')
        subplots[1].plot(imag(freq_domain))
        subplots[1].set_title('Imaginary Freq. Domain')
        pyplot.show()
    finally:
        pyplot.close()

    return 0
def main():
    parser = get_cmd_line_parser(description=__doc__)
    ParserArguments.filename(parser)
    ParserArguments.tempo(parser)
    ParserArguments.framerate(parser)
    parser.add_argument('-r', '--repo', help='The git repository to use.')
    ParserArguments.set_defaults(parser)
    args = parser.parse_args()
    defaults.framerate = args.framerate

    repo_data = scrape_repository_data(args.repo)
    song = compose_repository_song(repo_data)

    notes = song.flat.notes
    waveform = audify(notes, args.tempo, args.verbose)
    with wav_file_context(args.filename) as fout:
        fout.write_frames(waveform.frames)
    return 0
def main():
    parser = get_cmd_line_parser(description=__doc__)
    ParserArguments.filename(parser)
    ParserArguments.length(parser)
    ParserArguments.modify_argument(parser, 'length', 'help',
                                    'Length per pitch clip.')
    ParserArguments.set_defaults(parser, length=0.75)
    args = parser.parse_args()

    sg = Generator(length=args.length / 2.0, verbose=args.debug)

    with wav_file_context(args.filename) as fout:
        for tone, temperament in itertools.product(
                range(Interval.max() + 1), Temperament.iter()):
            key = Key(temperament=temperament)
            waveform = sg.sin_constant(key.interval(tone))
            fout.write_frames(waveform.frames)

    return 0
def main():
    parser = get_cmd_line_parser(description=__doc__)
    ParserArguments.filename(parser)
    ParserArguments.length(parser)
    ParserArguments.modify_argument(parser, 'length', 'help',
                                    'Length per pitch clip.')
    ParserArguments.set_defaults(parser, length=0.75)
    args = parser.parse_args()

    sg = Generator(length=args.length / 2.0, verbose=args.debug)

    with wav_file_context(args.filename) as fout:
        for tone, temperament in itertools.product(range(Interval.max() + 1),
                                                   Temperament.iter()):
            key = Key(temperament=temperament)
            waveform = sg.sin_constant(key.interval(tone))
            fout.write_frames(waveform.frames)

    return 0
示例#12
0
def main():
    parser = get_cmd_line_parser(description=__doc__)
    ParserArguments.filename(parser)
    ParserArguments.tempo(parser)
    ParserArguments.framerate(parser)
    ParserArguments.set_defaults(parser)
    args = parser.parse_args()
    defaults.framerate = args.framerate

    print('Generating Signal:')
    work = corpus.parse(numpy.random.choice(corpus.getCorePaths()))
    notes = work.flat.notes
    waveform = audify(notes, args.tempo, args.verbose)

    print('Writing Song {} to file {}...'.format(work.corpusFilepath,
                                                 args.filename))
    with wav_file_context(args.filename) as fout:
        fout.write_frames(waveform.frames)

    return 0
示例#13
0
def main():
    parser = get_cmd_line_parser(description=__doc__)
    ParserArguments.filename(parser)
    ParserArguments.tempo(parser)
    ParserArguments.framerate(parser)
    ParserArguments.set_defaults(parser)
    args = parser.parse_args()
    defaults.framerate = args.framerate

    print('Generating Signal:')
    work = corpus.parse(numpy.random.choice(corpus.getCorePaths()))
    notes = work.flat.notes
    waveform = audify(notes, args.tempo, args.verbose)

    print('Writing Song {} to file {}...'.format(
        work.corpusFilepath, args.filename))
    with wav_file_context(args.filename) as fout:
        fout.write_frames(waveform.frames)

    return 0