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midi_manipulation.py
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midi_manipulation.py
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import midi
import numpy as np
lowerBound = 24
upperBound = 102
span = upperBound-lowerBound
def midiToNoteStateMatrix(midifile, squash=True, span=span):
pattern = midi.read_midifile(midifile)
timeleft = [track[0].tick for track in pattern]
posns = [0 for track in pattern]
statematrix = []
time = 0
state = [[0,0] for x in range(span)]
statematrix.append(state)
condition = True
while condition:
if time % (pattern.resolution / 4) == (pattern.resolution / 8):
# Crossed a note boundary. Create a new state, defaulting to holding notes
oldstate = state
state = [[oldstate[x][0],0] for x in range(span)]
statematrix.append(state)
for i in range(len(timeleft)): #For each track
if not condition:
break
while timeleft[i] == 0:
track = pattern[i]
pos = posns[i]
evt = track[pos]
if isinstance(evt, midi.NoteEvent):
if (evt.pitch < lowerBound) or (evt.pitch >= upperBound):
pass
# print "Note {} at time {} out of bounds (ignoring)".format(evt.pitch, time)
else:
if isinstance(evt, midi.NoteOffEvent) or evt.velocity == 0:
state[evt.pitch-lowerBound] = [0, 0]
else:
state[evt.pitch-lowerBound] = [1, 1]
elif isinstance(evt, midi.TimeSignatureEvent):
if evt.numerator not in (2, 4):
# We don't want to worry about non-4 time signatures. Bail early!
# print "Found time signature event {}. Bailing!".format(evt)
out = statematrix
condition = False
break
try:
timeleft[i] = track[pos + 1].tick
posns[i] += 1
except IndexError:
timeleft[i] = None
if timeleft[i] is not None:
timeleft[i] -= 1
if all(t is None for t in timeleft):
break
time += 1
S = np.array(statematrix)
statematrix = np.hstack((S[:, :, 0], S[:, :, 1]))
statematrix = np.asarray(statematrix).tolist()
return statematrix
def noteStateMatrixToMidi(statematrix, name="example", span=span):
statematrix = np.array(statematrix)
if not len(statematrix.shape) == 3:
statematrix = np.dstack((statematrix[:, :span], statematrix[:, span:]))
statematrix = np.asarray(statematrix)
pattern = midi.Pattern()
track = midi.Track()
pattern.append(track)
span = upperBound-lowerBound
tickscale = 55
lastcmdtime = 0
prevstate = [[0,0] for x in range(span)]
for time, state in enumerate(statematrix + [prevstate[:]]):
offNotes = []
onNotes = []
for i in range(span):
n = state[i]
p = prevstate[i]
if p[0] == 1:
if n[0] == 0:
offNotes.append(i)
elif n[1] == 1:
offNotes.append(i)
onNotes.append(i)
elif n[0] == 1:
onNotes.append(i)
for note in offNotes:
track.append(midi.NoteOffEvent(tick=(time-lastcmdtime)*tickscale, pitch=note+lowerBound))
lastcmdtime = time
for note in onNotes:
track.append(midi.NoteOnEvent(tick=(time-lastcmdtime)*tickscale, velocity=40, pitch=note+lowerBound))
lastcmdtime = time
prevstate = state
eot = midi.EndOfTrackEvent(tick=1)
track.append(eot)
midi.write_midifile("{}.mid".format(name), pattern)