Apply chromatic and diatonic transformations to music notes
Project description
Music Melodic-Device
Apply chromatic and diatonic transformations to music notes
DESCRIPTION
This class provides methods to do chromatic and diatonic transformations to music notes.
The three major categories are transpositions, inversions, and five types of ornamentation.
Accidental notes are returned as "sharps" by default. To get "flats" back, set the flat attribute to True. Also, please note that the music21 library uses the hyphen (-) to indicate the flat accidental, not 'b'. Sharp is a '#', though.
SYNOPSIS
from music_melodicdevice import Device
device = Device( # defaults:
scale_note='C'
scale_name='chromatic'
notes=[] # notes set and used by devices
flat=False # return notes with accidentals as flats instead of sharps
pattern=[0,1,2], # the arpeggiation pattern (up)
repeats=1, # how many times to repeat the arpeggiation pattern
verbose=False
)
# default scale: chromatic
device = Device(notes=['C4', 'E4', 'D4', 'G4', 'C5'])
notes = device.transpose(2) # ['D4', 'F#4', 'E4', 'A4', 'D5']
notes = device.invert('C4') # ['C4', 'G#3', 'A#3', 'F3', 'C3']
# diatonic transformation:
device = Device(scale_name='major', verbose=True)
device.notes = ['C4', 'E4', 'D4', 'G4', 'C5']
notes = device.transpose(2) # ['E4', 'G4', 'F4', 'B4', 'E5']
notes = device.invert('C4') # ['C4', 'A3', 'B3', 'F3', 'C3']
# unknown note:
device = Device()
device.build_scale('major')
notes = device.transpose(2, ['C4', 'E4', 'D#4', 'G4', 'C5'])
# ['E4', 'G4', None, 'B4', 'E5']
notes = device.invert('C4', ['C4', 'E4', 'D#4', 'G4', 'C5'])
# ['C4', 'A3', None, 'F3', 'C3']
# accidental notes:
device = Device(scale_note='G', scale_name='major')
device.notes = ['C4', 'E4', 'D4', 'F#4', 'C5']
notes = device.transpose(2) # ['E4', 'G4', 'F#4', 'A4', 'E5'])
device = Device(scale_note='G', scale_name='major', flat=True)
device.notes = ['C4', 'E4', 'D4', 'F#4', 'C5']
notes = device.transpose(2) # ['E4', 'G4', 'G-4', 'A4', 'E5'])
# Ornamentation:
# chromatic
device = Device()
notes = device.grace_note(1, 'D5') # [[1/16, 'D5'], [1 - 1/16, 'D5']])
notes = device.grace_note(1, 'D5', offset=1) # [[1/16, 'D#5'], [1 - 1/16, 'D5']])
notes = device.grace_note(1, 'D5', offset=-1) # [[1/16, 'C#5'], [1 - 1/16, 'D5']])
notes = device.turn(1, 'D5') # [[1/4,'D#5'], [1/4,'D5'], [1/4,'C#5'], [1/4,'D5']])
notes = device.turn(1, 'D5', offset=-1) # [[1/4,'C#5'], [1/4,'D5'], [1/4,'D#5'], [1/4,'D5']])
notes = device.trill(1, 'D5', number=2, offset=1)
# [[1/4,'D5'], [1/4,'D#5'], [1/4,'D5'], [1/4,'D#5']])
notes = device.trill(1, 'D5', number=2, offset=-1)
# [[1/4,'D5'], [1/4,'C#5'], [1/4,'D5'], [1/4,'C#5']])
notes = device.mordent(1, 'D5', offset=1) # [[1/4,'D5'], [1/4,'D#5'], [1/2,'D5']])
notes = device.mordent(1, 'D5', offset=-1) # [[1/4,'D5'], [1/4,'C#5'], [1/2,'D5']])
notes = device.slide(1, 'D5', 'F5') # [[1/4,'D5'], [1/4,'D#5'], [1/4,'E5'], [1/4,'F5']])
notes = device.slide(1, 'D5', 'B4') # [[1/4,'D5'], [1/4,'C#5'], [1/4,'C5'], [1/4,'B4']])
# diatonic
device = Device(scale_name='major')
notes = device.grace_note(1, 'D5') # [[1/16, 'D5'], [1 - 1/16, 'D5']])
notes = device.grace_note(1, 'D5', offset=1) # [[1/16, 'E5'], [1 - 1/16, 'D5']])
notes = device.grace_note(1, 'D5', offset=-1) # [[1/16, 'C5'], [1 - 1/16, 'D5']])
notes = device.turn(1, 'D5', offset=1) # [[1/4,'E5'], [1/4,'D5'], [1/4,'C5'], [1/4,'D5']])
notes = device.turn(1, 'D5', offset=-1) # [[1/4,'C5'], [1/4,'D5'], [1/4,'E5'], [1/4,'D5']])
notes = device.trill(1, 'D5', number=2, offset=1) # [[1/4,'D5'], [1/4,'E5'], [1/4,'D5'], [1/4,'E5']])
notes = device.trill(1, 'D5', number=2, offset=-1) # [[1/4,'D5'], [1/4,'C5'], [1/4,'D5'], [1/4,'C5']])
notes = device.mordent(1, 'D5', offset=1) # [[1/4,'D5'], [1/4,'E5'], [1/2,'D5']])
notes = device.mordent(1, 'D5', offset=-1) # [[1/4,'D5'], [1/4,'C5'], [1/2,'D5']])
# arpeggiation
device = Device()
notes = device.arp(['C4','E4','G4']) # [ [1/3, 'C4'], [1/3, 'E4'], [1/3, 'G4'] ]
device.pattern = [2,1,0]
notes = device.arp(['C4','E4','G4']) # [ [1/3, 'G4'], [1/3, 'E4'], [1/3, 'C4'] ]
METHODS
transpose
notes = device.transpose(amount)
Transpose a note by an integer amount.
invert
notes = device.invert(axis_note, note_list)
Invert the note_list of named notes, around the named axis_note.
grace_note
notes = device.grace_note(duration, pitch, offset=offset)
Return a list with a 64th-note grace-note and the original named pitch with octave. The grace-note is offset semi-tone steps from the given pitch. The duration is the total, original length of the pitch.
turn
notes = device.turn(duration, pitch, offset=offset)
Return a list of four notes, having an up-down pattern, in place of the given pitch and duration.
trill
notes = device.trill(duration, pitch, number=number, offset=offset)
Return a list of pairs of notes, given the number, in place of the given pitch and duration.
The first of the pair is part of the original note, and the second is the note plus the given offset.
mordent
notes = device.mordent(duration, pitch, offset=offset)
Return a list of three notes in place of the given pitch and duration.
slide
notes = device.slide(duration, from_pitch, to_pitch)
Return a list of chromatic notes inclusively between the from_pitch and to_pitch, in place of the given duration.
arp
notes = device.arp() # use defaults
notes = device.arp(notes)
notes = device.arp(notes, duration=duration)
notes = device.arp(notes, arp_type=arp_type)
notes = device.arp(notes, repeats=repeats)
Return a list of the number of notes, selected by the arpeggiated pattern, and distributed across the duration.
MUSICAL EXAMPLES
from music21 import duration, note, stream
from music_melodicdevice import Device
device = Device(notes=['C4', 'E4', 'D4', 'G4'])
notes = device.invert('C5')
s = stream.Stream()
p = stream.Part()
for i in device.notes + notes:
n = note.Note(i)
n.duration = duration.Duration(1)
p.append(n)
s.append(p)
s.show()
notes = ['C4', 'E4', 'D4', 'G4']
device = Device(scale_name='major')
device.notes = notes
device.notes = device.invert('C5')
device.notes = device.transpose(-5)
s = stream.Stream()
p = stream.Part()
for i,j in enumerate(notes + device.notes):
if (i + 1) % 4 == 0:
turn = device.turn(1, j)
for t in turn:
m = note.Note(t[1])
m.duration = duration.Duration(t[0])
p.append(m)
else:
n = note.Note(j)
n.duration = duration.Duration(1)
p.append(n)
s.append(p)
s.show()
SEE ALSO
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