コード例 #1
0
def wrapping_chord(chord_events, beats_sec, to_chroma=False):
    chord_symbols = []
    chord_track = pretty_midi.Instrument(program=0)

    init_chord = (root_heigest_note // 12) * 12
    for chord in chord_events:
        if chord is None:
            continue
        # voicing
        chord = voicing(chord)

        # compress to chormagram
        comp = to_chromagram(
            chord['composition']) if to_chroma else chord['composition']

        # shift to lowest root location (from 0)
        re_arr = chord['bass'] // 12
        comp = comp - re_arr * 12
        bass = chord['bass'] - re_arr * 12

        # event_on/off
        start = chord['event_on'] * beats_sec
        end = chord['event_off'] * beats_sec

        # determine the initial location
        loc = init_chord + bass
        init_chord_ = (init_chord -
                       12) if loc > root_heigest_note else init_chord

        symbol = chord['symbol']
        chord_symbols.append(pretty_midi.Lyric(symbol, start))

        for note in comp:
            note_number = note + init_chord_
            note = pretty_midi.Note(velocity=100,
                                    pitch=int(note_number),
                                    start=start,
                                    end=end)
            chord_track.notes.append(note)

    return chord_track, chord_symbols
コード例 #2
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def test_get_end_time():
    pm = pretty_midi.PrettyMIDI()
    inst = pretty_midi.Instrument(0)
    pm.instruments.append(inst)
    # When no events, end time should be 0
    assert pm.get_end_time() == 0
    # End time should be sensitive to inst notes, pitch bends, control changes
    inst.notes.append(
        pretty_midi.Note(start=0.5, end=1.7, pitch=30, velocity=100))
    assert np.allclose(pm.get_end_time(), 1.7)
    inst.pitch_bends.append(pretty_midi.PitchBend(pitch=100, time=1.9))
    assert np.allclose(pm.get_end_time(), 1.9)
    inst.control_changes.append(
        pretty_midi.ControlChange(number=0, value=10, time=2.1))
    assert np.allclose(pm.get_end_time(), 2.1)
    # End time should be sensitive to meta events
    pm.time_signature_changes.append(
        pretty_midi.TimeSignature(numerator=4, denominator=4, time=2.3))
    assert np.allclose(pm.get_end_time(), 2.3)
    pm.time_signature_changes.append(
        pretty_midi.KeySignature(key_number=10, time=2.5))
    assert np.allclose(pm.get_end_time(), 2.5)
    pm.time_signature_changes.append(pretty_midi.Lyric(text='hey', time=2.7))
    assert np.allclose(pm.get_end_time(), 2.7)
コード例 #3
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def test_df_to_midi():
    df = pd.DataFrame({
        "onset": 0,
        "track": [0, 0, 1],
        "pitch": [10, 20, 30],
        "dur": 1000
    })

    # Test basic writing
    fileio.df_to_midi(df, "test.mid")
    assert fileio.midi_to_df("test.mid").equals(
        df), "Writing df to MIDI and reading changes df."

    # Test that writing should overwrite existing notes
    df.pitch += 10
    fileio.df_to_midi(df, "test2.mid", existing_midi_path="test.mid")
    assert fileio.midi_to_df("test2.mid").equals(
        df), "Writing df to MIDI with existing MIDI does not overwrite notes."

    # Test that writing skips non-overwritten notes
    fileio.df_to_midi(df,
                      "test2.mid",
                      existing_midi_path="test.mid",
                      excerpt_start=1000)
    expected = pd.DataFrame({
        "onset": [0, 0, 0, 1000, 1000, 1000],
        "track": [0, 0, 1, 0, 0, 1],
        "pitch": [10, 20, 30, 20, 30, 40],
        "dur": 1000,
    })
    assert fileio.midi_to_df("test2.mid").equals(
        expected), "Writing to MIDI doesn't copy notes before excerpt_start"

    # Test that writing skips non-overwritten notes past end
    fileio.df_to_midi(df,
                      "test.mid",
                      existing_midi_path="test2.mid",
                      excerpt_length=1000)
    expected = pd.DataFrame({
        "onset": [0, 0, 0, 1000, 1000, 1000],
        "track": [0, 0, 1, 0, 0, 1],
        "pitch": [20, 30, 40, 20, 30, 40],
        "dur": 1000,
    })
    assert fileio.midi_to_df("test.mid").equals(
        expected), "Writing to MIDI doesn't copy notes after excerpt_length"

    df.track = 2
    fileio.df_to_midi(df,
                      "test.mid",
                      existing_midi_path="test2.mid",
                      excerpt_length=1000)
    expected = pd.DataFrame({
        "onset": [0, 0, 0, 1000, 1000, 1000],
        "track": [2, 2, 2, 0, 0, 1],
        "pitch": [20, 30, 40, 20, 30, 40],
        "dur": 1000,
    })
    assert fileio.midi_to_df("test.mid").equals(
        expected), "Writing to MIDI with extra track breaks"

    # Check all non-note events
    midi_obj = pretty_midi.PrettyMIDI("test.mid")
    midi_obj.instruments[0].name = "test"
    midi_obj.instruments[0].program = 100
    midi_obj.instruments[0].is_drum = True
    midi_obj.instruments[0].pitch_bends.append(pretty_midi.PitchBend(10, 0))
    midi_obj.instruments[0].control_changes.append(
        pretty_midi.ControlChange(10, 10, 0))
    midi_obj.lyrics.append(pretty_midi.Lyric("test", 0))
    midi_obj.time_signature_changes.append(pretty_midi.TimeSignature(2, 4, 1))
    midi_obj.key_signature_changes.append(pretty_midi.KeySignature(5, 1))
    midi_obj.write("test.mid")

    fileio.df_to_midi(expected, "test2.mid", existing_midi_path="test.mid")
    assert fileio.midi_to_df("test2.mid").equals(expected)

    # Check non-note events and data here
    new_midi = pretty_midi.PrettyMIDI("test2.mid")

    for instrument, new_instrument in zip(midi_obj.instruments,
                                          new_midi.instruments):
        assert instrument.name == new_instrument.name
        assert instrument.program == new_instrument.program
        assert instrument.is_drum == new_instrument.is_drum
        for pb, new_pb in zip(instrument.pitch_bends,
                              new_instrument.pitch_bends):
            assert pb.pitch == new_pb.pitch
            assert pb.time == new_pb.time
        for cc, new_cc in zip(instrument.control_changes,
                              new_instrument.control_changes):
            assert cc.number == new_cc.number
            assert cc.value == new_cc.value
            assert cc.time == new_cc.time

    for ks, new_ks in zip(midi_obj.key_signature_changes,
                          new_midi.key_signature_changes):
        assert ks.key_number == new_ks.key_number
        assert ks.time == new_ks.time

    for lyric, new_lyric in zip(midi_obj.lyrics, new_midi.lyrics):
        assert lyric.text == new_lyric.text
        assert lyric.time == new_lyric.time

    for ts, new_ts in zip(midi_obj.time_signature_changes,
                          new_midi.time_signature_changes):
        assert ts.numerator == new_ts.numerator
        assert ts.denominator == new_ts.denominator
        assert ts.time == new_ts.time

    for filename in ["test.mid", "test2.mid"]:
        try:
            os.remove(filename)
        except Exception:
            pass
コード例 #4
0
ファイル: midi_io.py プロジェクト: neal-ztwu/magenta
def note_sequence_to_pretty_midi(sequence,
                                 drop_events_n_seconds_after_last_note=None):
    """Convert NoteSequence to a PrettyMIDI.

  Time is stored in the NoteSequence in absolute values (seconds) as opposed to
  relative values (MIDI ticks). When the NoteSequence is translated back to
  PrettyMIDI the absolute time is retained. The tempo map is also recreated.

  Args:
    sequence: A NoteSequence.
    drop_events_n_seconds_after_last_note: Events (e.g., time signature changes)
        that occur this many seconds after the last note will be dropped. If
        None, then no events will be dropped.

  Returns:
    A pretty_midi.PrettyMIDI object or None if sequence could not be decoded.
  """
    ticks_per_quarter = sequence.ticks_per_quarter or constants.STANDARD_PPQ

    max_event_time = None
    if drop_events_n_seconds_after_last_note is not None:
        max_event_time = (max([n.end_time for n in sequence.notes] or [0]) +
                          drop_events_n_seconds_after_last_note)

    # Try to find a tempo at time zero. The list is not guaranteed to be in order.
    initial_seq_tempo = None
    for seq_tempo in sequence.tempos:
        if seq_tempo.time == 0:
            initial_seq_tempo = seq_tempo
            break

    kwargs = {}
    if initial_seq_tempo:
        kwargs['initial_tempo'] = initial_seq_tempo.qpm
    else:
        kwargs['initial_tempo'] = constants.DEFAULT_QUARTERS_PER_MINUTE

    pm = pretty_midi.PrettyMIDI(resolution=ticks_per_quarter, **kwargs)

    # Create an empty instrument to contain time and key signatures.
    instrument = pretty_midi.Instrument(0)
    pm.instruments.append(instrument)

    # Populate time signatures.
    for seq_ts in sequence.time_signatures:
        if max_event_time and seq_ts.time > max_event_time:
            continue
        time_signature = pretty_midi.containers.TimeSignature(
            seq_ts.numerator, seq_ts.denominator, seq_ts.time)
        pm.time_signature_changes.append(time_signature)

    # Populate key signatures.
    for seq_key in sequence.key_signatures:
        if max_event_time and seq_key.time > max_event_time:
            continue
        key_number = seq_key.key
        if seq_key.mode == seq_key.MINOR:
            key_number += _PRETTY_MIDI_MAJOR_TO_MINOR_OFFSET
        key_signature = pretty_midi.containers.KeySignature(
            key_number, seq_key.time)
        pm.key_signature_changes.append(key_signature)

    # Populate tempos.
    # TODO(douglaseck): Update this code if pretty_midi adds the ability to
    # write tempo.
    for seq_tempo in sequence.tempos:
        # Skip if this tempo was added in the PrettyMIDI constructor.
        if seq_tempo == initial_seq_tempo:
            continue
        if max_event_time and seq_tempo.time > max_event_time:
            continue
        tick_scale = 60.0 / (pm.resolution * seq_tempo.qpm)
        tick = pm.time_to_tick(seq_tempo.time)
        # pylint: disable=protected-access
        pm._tick_scales.append((tick, tick_scale))
        pm._update_tick_to_time(0)
        # pylint: enable=protected-access

    # Populate instrument names by first creating an instrument map between
    # instrument index and name.
    # Then, going over this map in the instrument event for loop
    inst_infos = {}
    for inst_info in sequence.instrument_infos:
        inst_infos[inst_info.instrument] = inst_info.name

    # Populate instrument events by first gathering notes and other event types
    # in lists then write them sorted to the PrettyMidi object.
    instrument_events = collections.defaultdict(
        lambda: collections.defaultdict(list))
    for seq_note in sequence.notes:
        instrument_events[(seq_note.instrument, seq_note.program,
                           seq_note.is_drum)]['notes'].append(
                               pretty_midi.Note(seq_note.velocity,
                                                seq_note.pitch,
                                                seq_note.start_time,
                                                seq_note.end_time))
    for seq_bend in sequence.pitch_bends:
        if max_event_time and seq_bend.time > max_event_time:
            continue
        instrument_events[(seq_bend.instrument, seq_bend.program,
                           seq_bend.is_drum)]['bends'].append(
                               pretty_midi.PitchBend(seq_bend.bend,
                                                     seq_bend.time))
    for seq_cc in sequence.control_changes:
        if max_event_time and seq_cc.time > max_event_time:
            continue
        instrument_events[(seq_cc.instrument, seq_cc.program,
                           seq_cc.is_drum)]['controls'].append(
                               pretty_midi.ControlChange(
                                   seq_cc.control_number, seq_cc.control_value,
                                   seq_cc.time))
    for ta in sequence.text_annotations:
        from magenta.music.chords_lib import CHORD_SYMBOL
        if ta.annotation_type == CHORD_SYMBOL and ta.text != constants.NO_CHORD:
            pm.lyrics.append(pretty_midi.Lyric(ta.text, ta.time))
        # timing_track.append(mido.MetaMessage(
        #   'end_of_track', time=timing_track[-1].time + 1))

    for (instr_id, prog_id, is_drum) in sorted(instrument_events.keys()):
        # For instr_id 0 append to the instrument created above.
        if instr_id > 0:
            instrument = pretty_midi.Instrument(prog_id, is_drum)
            pm.instruments.append(instrument)
        else:
            instrument.is_drum = is_drum
        # propagate instrument name to the midi file
        instrument.program = prog_id
        if instr_id in inst_infos:
            instrument.name = inst_infos[instr_id]
        instrument.notes = instrument_events[(instr_id, prog_id,
                                              is_drum)]['notes']
        instrument.pitch_bends = instrument_events[(instr_id, prog_id,
                                                    is_drum)]['bends']
        instrument.control_changes = instrument_events[(instr_id, prog_id,
                                                        is_drum)]['controls']

    return pm
コード例 #5
0
ファイル: run.py プロジェクト: zhangchiboy1990/pyalgomuse
                                 start=note['on'] / 1000,
                                 end=note['off'] / 1000)

        melody_track.notes.append(_note)

    # chord track
    chord_track = pretty_midi.Instrument(program=0)
    chord_start = (
        start_measure +
        1) * measure_sec if incomplete_start else start_measure * measure_sec

    for i, chord in enumerate(chords):
        start = chord_start + i * measure_sec
        end = start + measure_sec

        lyric = pretty_midi.Lyric(text=chord, time=start)
        midi.lyrics.append(lyric)

        previous = -1
        _chords = Chord(chord).components()
        _chords = [NOTE_VAL_DICT.get(c) for c in _chords]
        for c in _chords:
            if c < previous:
                c += 12
            note = pretty_midi.Note(velocity=CHORD_VELOCITY,
                                    pitch=int(CHORD_INIT_NOTE + c),
                                    start=start,
                                    end=end)
            previous = c
            chord_track.notes.append(note)