Exemplo n.º 1
0
def main():
    init()
    tonic_progressions = [
        p for p in rules.all_progressions if p[0] == "I" and p[-1] == "I"
    ]
    i = 0
    while i < minRepeat or random() > 0.5:
        progression = choice(tonic_progressions)
        print " ".join(progression)
        progression = progression[:-1]
        chords = progressions.to_chords(progression, key)
        play_progression(chords)
        i = i + 1
    play_basic_chord(ch.I(key))
Exemplo n.º 2
0
def get_chord(prev_chord=None, key='A'):
    if prev_chord is None:
        return chords.tonic(key)

    hfunc = progressions.determine(prev_chord, key, True)[0]

    if hfunc == 'I':
        return choice([
            chords.ii(key),
            chords.iii(key),
            chords.IV(key),
            chords.IV7(key),
            chords.V(key),
            chords.V7(key)
        ])
    elif hfunc == 'ii':
        return choice([chords.iii(key), chords.V(key)])
    elif hfunc == 'iii':
        return choice(
            [chords.ii(key),
             chords.IV(key),
             chords.IV7(key),
             chords.vi(key)])
    elif hfunc == 'IV':
        return choice([
            chords.I(key),
            chords.ii(key),
            chords.iii(key),
            chords.V(key),
            chords.V7(key)
        ])
    elif hfunc == 'V':
        return choice([chords.I(key), chords.vi(key)])
    elif hfunc == 'vi':
        return choice([chords.ii(key), chords.IV(key)])
    else:
        return chords.I(key)
Exemplo n.º 3
0
def ending(first_track, second_track, subject, key=r""):

    if not bool(key):
        key = 'C'

    canon_subject = shift(subject, 2)

    cadence = [chord.I(key), chord.IV(key), chord.V(key), chord.I(key)]

    notes = []

    for note in canon_subject[-1]:
        if note[-1][0].name not in notes:
            notes.append(note[-1][0].name)

    bar = Bar(key=key)

    # Hitta om det finns ett ackord med de sista noterna i subjektet i, i så fall, komplettera det ackordet
    if len(notes) <= 2 or len(chord.determine(notes, True)) == 0:
        chord_notes = [intervals.fourth(notes[0], key)]
    else:
        subject_chord = chord.determine(notes, True)[0]
        chord_notes = chord.from_shorthand(subject_chord)
        if len(chord_notes) != len(notes):
            for note in notes:
                chord_notes.remove(note)
        else:
            chord_notes = chord_notes[0]

    bar.place_notes(chord_notes[random.randint(0, len(chord_notes) - 1)], 2)

    first_track.add_bar(
        bar)  #Sätt något som passar med andra hälften av subjektet

    while second_track[
            -1].current_beat < 1:  #Placing fitting notes in second to last bar

        #print('test1')
        duration = 2**random.randint(1, 3)
        pitch = cadence[0][random.randint(1, len(cadence[0]) - 1)]

        # If the randomized duration doesn't fit in the bar, make it fit
        if 1 / duration > 1 - second_track[-1].current_beat:
            duration = 1 / (1 - second_track[-1].current_beat)

        # Place the new note in the bar
        second_track[-1].place_notes(pitch, duration)

    first_track[-1].place_notes(cadence[0][0], 2)

    bar = Bar(key=key)
    bar.place_notes(cadence[1][0], 2)
    bar.place_notes(cadence[2][0], 2)
    first_track.add_bar(bar)

    bar = Bar(key=key)
    bar.place_notes(cadence[3][0], 1)
    first_track.add_bar(bar)

    bar = Bar(key=key)
    while bar.current_beat < 0.5:
        #print('test2')
        # Randomize pitch and duration of each note.
        duration = 2**random.randint(1, 3)
        pitch = cadence[1][random.randint(1, len(cadence[1]) - 1)]

        # If the randomized duration doesn't fit in the bar, make it fit
        if 1 / duration > 1 - bar.current_beat:
            duration = 1 / (1 - bar.current_beat)

        # Place the new note in the bar
        bar.place_notes(pitch, duration)
    while bar.current_beat < 1:

        #print('test3')
        duration = 2**random.randint(1, 3)
        pitch = cadence[2][random.randint(1, len(cadence[2]) - 1)]

        # If the randomized duration doesn't fit in the bar, make it fit
        if 1 / duration > 1 - bar.current_beat:
            duration = 1 / (1 - bar.current_beat)

        # Place the new note in the bar
        bar.place_notes(pitch, duration)
    second_track.add_bar(bar)

    bar = Bar(key=key)
    bar.place_notes(cadence[3][2], 1)
    second_track.add_bar(bar)
Exemplo n.º 4
0
'''
Created on Jan 6, 2017

@author: stephenkoh
'''

import mingus.core.chords as chords

key = input('Please enter a key: ')
song = [lambda x: chords.I(x), lambda x: chords.IV(x), 
        lambda x: chords.V(x), lambda x: chords.I(x)]
for i in range(len(song)):
    print(chords.determine(song[i](key), True)[0])