def compose(self, score, **optional):
params= bind_params(self.params, optional)
piano= score.instruments[0]
interval_size= measure_interval_size(score, params['n_measures'])
# XXX ver si hay algun problema con no copiar score
#chords_notes_alg= ScoreHarmonicContext(score)
chords_notes_alg= ChordHarmonicContext(score)
rythm_alg= RythmHMM(interval_size, multipart=False, instrument=piano.patch, channel=piano.channel)
melody_alg= MelodyHMM(instrument=piano.patch, channel=piano.channel)
rythm_alg.train(score)
chords_notes_alg.train(score)
melody_alg.train(score)
applier= AlgorithmsApplier(chords_notes_alg, rythm_alg, melody_alg)
notes= applier.create_melody(score.duration, params['print_info'])
instrument= Instrument()
instrument.patch= params['melody_instrument']
res= score.copy()
for n in res.get_notes(skip_silences=True):
n.volume= 70
res.notes_per_instrument[instrument]= notes
return res
def compose(self, score, **optional):
params= bind_params(self.params, optional)
melody_instrument= None
rythm_instrument= None
for instrument in score.instruments:
if self.matches_description(instrument, params['melody_patch'], params['melody_channel']):
melody_instrument= instrument
if self.matches_description(instrument, params['rythm_patch'], params['rythm_channel']):
rythm_instrument= instrument
if (melody_instrument is None or rythm_instrument is None) and len(score.instruments) > 1: raise Exception("Que instrument?")
else:
rythm_instrument= melody_instrument= score.instruments[0]
interval_size= measure_interval_size(score, params['n_measures'])
#harmonic_context_alg= YamlHarmonicContext('/home/prakuso/tesis/src/electrozart/electrozart/composers/base2.yaml', score.divisions)
harmonic_context_alg= ChordHarmonicContext(score)
harmonic_context_alg= PhraseRepetitions(harmonic_context_alg, alpha=7)
rythm_alg= RythmHMM(interval_size, instrument=rythm_instrument.patch, channel=rythm_instrument.channel)
phrase_rythm_alg= rythm_alg
phrase_rythm_alg= ListRythm(rythm_alg)
phrase_rythm_alg= RythmCacheAlgorithm(ListRythm(rythm_alg), 'phrase_id')
melody_alg= NarmourHMM(instrument=melody_instrument.patch, channel=melody_instrument.channel)
phrase_melody_alg= melody_alg
phrase_melody_alg= ListMelody(melody_alg)
phrase_melody_alg= CacheAlgorithm(ListMelody(melody_alg), 'phrase_id')
#rythm_score= score.copy()
#rythm_score.notes_per_instrument.pop(piano)
print "todos los intrsumentos"
for instrument in score.instruments:
if not instrument.is_drums:
melody_alg.obsSeqBuilder.builder.patch= instrument.patch
melody_alg.train(score)
rythm_alg.obsSeqBuilder.builder.patch= instrument.patch
rythm_alg.train(score)
harmonic_context_alg.train(score)
applier= AlgorithmsApplier(harmonic_context_alg, phrase_rythm_alg, phrase_melody_alg)
self.applier= applier
applier.start_creation()
rythm_alg.draw_model('rythm.png', score.divisions)
melody_alg.model.draw('melody.png', str)
duration= score.duration
#duration= harmonic_context_alg.harmonic_context_alg.chordlist[-1].end
#duration= harmonic_context_alg.chordlist[-1].end
# octave range
score_notes= score.get_notes(skip_silences=True)
mean_pitch= sum(float(n.pitch) for n in score_notes)/len(score_notes)
std_dev= sqrt(sum((n.pitch-mean_pitch)**2 for n in score_notes)/len(score_notes))
#import ipdb;ipdb.set_trace()
octave= int(mean_pitch/12) #+ 1
min_pitch= octave*12
max_pitch= (octave+2)*12 + 6
offset= 0
min_pitch= int(mean_pitch - std_dev+offset)
max_pitch= int(mean_pitch + std_dev+offset)
print "MIN PITCH", min_pitch
print "MAX PITCH", max_pitch
general_input= AcumulatedInput()
general_input.min_pitch= min_pitch
general_input.max_pitch= max_pitch
notes= applier.create_melody(duration, params['print_info'], general_input=general_input)
#seed(time())
#chord_notes= []
#for c in harmonic_context_alg.chordlist:
# for n in c.notes:
# chord_notes.append(PlayedNote(n.pitch+3*12, c.start, c.duration, 80))
#duration= chord_notes[-1].end
res= score.copy()
rythm_alg.model.calculate_metrical_accents()
#rythm_alg.model.draw_accents('accents.png', score.divisions)
import random
cache= {}
def random_accent(note):
moment= (note.start%rythm_alg.model.interval_size)/rythm_alg.model.global_gcd
res= cache.get(moment)
if res is None:
res= randint(1, 6)
cache[moment]= res
return res
def dec_accent(note):
moment= (note.start%rythm_alg.model.interval_size)/rythm_alg.model.global_gcd
res= cache.get(moment)
if res is None:
res= 7-moment
cache[moment]= res
return res
def inc_accent(note):
moment= (note.start%rythm_alg.model.interval_size)/rythm_alg.model.global_gcd
res= cache.get(moment)
if res is None:
res= moment + 1
cache[moment]= res
return res
accent_func= rythm_alg.model.get_metrical_accent
accent_func= inc_accent
accent_func= dec_accent
accent_func= random_accent
#seed(time())
#max_accent= max(rythm_alg.model.metrical_accents.itervalues())
#min_accent= max(rythm_alg.model.metrical_accents.itervalues())
max_accent= 6
for i, n in enumerate(notes):
accent= accent_func(n)
n.volume= min(100, max(60, (100 * accent)/max_accent))
if not n.is_silence: n.pitch+=12
#if rythm_alg.model.get_metrical_accent(n)== min_accent and random.random() > 0.5:
# pass
# #notes[i]= Silence(n.start, n.duration)
print "min volume:", min(n.volume for n in notes if not n.is_silence)
print "max volume:", max(n.volume for n in notes if not n.is_silence)
print "accent mapping"
for moment, accent in sorted(cache.items(), key=lambda x:x[0]):
print moment, accent
for n in res.get_notes(skip_silences=True):
n.volume= 50
#piano= res.notes_per_instrument.keys()[0]
#piano= Instrument()
instrument= Instrument()
instrument.patch= params['melody_patch_to_dump']
instrument.patch= 26
instrument.patch= 73
instrument.patch= 21
instrument.patch= 74
res.notes_per_instrument[instrument]= notes
#res.notes_per_instrument= {instrument: notes, melody_instrument:res.notes_per_instrument[melody_instrument]}
#res.notes_per_instrument= {instrument: notes}
#res.notes_per_instrument[piano]= chord_notes
#rythm_alg.draw_model('rythm.png')
import electrozart
from electrozart import base
from electrozart.algorithms import ExecutionContext
#from pycana import CodeAnalyzer
#analyzer= CodeAnalyzer(electrozart)
#relations= analyzer.analyze(exceptions= [ExecutionContext])
#analyzer.draw_relations(relations, 'relations.png')
return res
def compose(self, score, **optional):
params= bind_params(self.params, optional)
piano= score.instruments[0]
interval_size= measure_interval_size(score, params['n_measures'])
harmonic_context_alg= YamlHarmonicContext('/home/prakuso/tesis/src/electrozart/electrozart/composers/base34.yaml', score.divisions)
harmonic_context_alg= PhraseRepetitions(harmonic_context_alg)
rythm_alg= RythmHMM(interval_size, multipart=False, instrument=piano.patch, channel=piano.channel)
phrase_rythm_alg= RythmCacheAlgorithm(ListRythm(rythm_alg), 'part_id')
#phrase_rythm_alg= rythm_alg
melody_alg= NarmourHMM(instrument=piano.patch, channel=piano.channel)
#phrase_melody_alg= ListMelody(melody_alg)
phrase_melody_alg= CacheAlgorithm(ListMelody(melody_alg), 'part_id')
#phrase_melody_alg= melody_alg
rythm_alg.train(score)
harmonic_context_alg.train(score)
melody_alg.train(score)
applier= AlgorithmsApplier(harmonic_context_alg, phrase_rythm_alg, phrase_melody_alg)
duration= harmonic_context_alg.harmonic_context_alg.chordlist[-1].end
notes= applier.create_melody(duration, params['print_info'])
chord_notes= []
for c in harmonic_context_alg.harmonic_context_alg.chordlist:
for n in c.notes:
chord_notes.append(PlayedNote(n.pitch+3*12, c.start, c.duration, 80))
duration= chord_notes[-1].end
instrument= Instrument()
instrument.patch= params['melody_instrument']
res= score.copy()
rythm_alg.model.calculate_metrical_accents()
rythm_alg.model.draw_accents('accents.png', score.divisions)
max_accent= max(rythm_alg.model.metrical_accents.itervalues())
import random
for i, n in enumerate(notes):
accent= rythm_alg.model.get_metrical_accent(n)
n.volume= max(62, (100 * accent)/max_accent)
if not n.is_silence: n.pitch+=24
if accent == 1: # and random.random() > 0.5:
pass
#notes[i]= Silence(n.start, n.duration)
for n in res.get_notes(skip_silences=True):
n.volume= 70
piano= res.notes_per_instrument.keys()[0]
piano= Instrument()
instrument.patch= 74
instrument.patch= 73
res.notes_per_instrument= {}
res.notes_per_instrument[instrument]= notes
res.notes_per_instrument[piano]= chord_notes
#rythm_alg.draw_model('rythm.png')
return res
def train2(options, args):
partition_algorithm= options.partition_algorithm
patch= options.patch
channel= options.channel
level= options.level
infname= args[0]
outfname= args[1]
parser= parserclass()
score= parser.parse(infname)
#score= quantize(score)
orig_score= score.copy()
if not score: import ipdb;ipdb.set_trace() # por que podria devolver None?
#########
# BOCHA DE AJUSTES DE PARSING
instr= score.notes_per_instrument.keys()[0]
patch= instr.patch
channel= instr.channel
#########
#########
if options.partition_algorithm == 'MGRID':
interval_size= metrical_grid_interval_size(score, notes, level)
elif options.partition_algorithm == 'MEASURE':
interval_size= measure_interval_size(score, options.n_measures)
nintervals= 16
nintervals= orig_score.get_notes()[-1].end/interval_size
nphrases= 5
composition_length= interval_size*nintervals
alpha= nphrases/log(nintervals,2)
# para que la copie del tema original
chords_notes_alg= ScoreHarmonicContext(orig_score)
rythm_alg= RythmHMM(interval_size, multipart=False, instrument=patch, channel=channel)
melody_alg= HarmonyHMM(instrument=patch, channel=channel)
algorithm= StackAlgorithm(rythm_alg, chords_notes_alg, melody_alg)
# para que arme la base
#chords_notes_alg= HMMHarmonicContext(3)
#chords_rythm_alg= RythmHMM(interval_size, multipart=True, instrument=patch, channel=channel)
#chord_maker= StackAlgorithm(chords_rythm_alg, chords_notes_alg)
#phrase_maker= PhraseAlgorithm(orig_score.divisions, alpha, chord_maker)
#rythm_alg= RythmHMM(interval_size, multipart=True, instrument=patch, channel=channel)
#melody_alg= HarmonyHMM(instrument=patch, channel=channel)
#algorithm= StackAlgorithm(phrase_maker, rythm_alg, phrase_maker, melody_alg)
algorithm.train(score)
applier= AlgorithmsApplier(algorithm)
notes= applier.create_melody(composition_length, print_info=True)
#for c1, c2 in zip(phrase_maker.ec.chords, phrase_maker.ec.chords[1:]):
# if c1.end != c2.start: import ipdb;ipdb.set_trace()
if options.print_model: print algorithm.model
drums= Instrument(is_drums=True)
#drums.patch= int('0x12', 16)
instrument= Instrument()
instrument2= Instrument()
instrument3= Instrument()
instrument.patch= 33
instrument2.patch= 21
instrument3.patch= 0
for i, ns in orig_score.notes_per_instrument.iteritems():
for n in ns: n.volume= 75
full_new= False
if full_new:
chords= []
duration= 0
metro= []
for i in xrange(0, nintervals*interval_size, score.divisions):
metro.append(PlayedNote(31, i, i+1, 65))
for chord in phrase_maker.ec.chords:
for note in chord.notes:
chords.append(PlayedNote(note.pitch, chord.start, chord.duration, chord.volume))
orig_score.notes_per_instrument= {instrument3:chords, instrument:notes}#, drums:metro}
#orig_score.notes_per_instrument= {drums:metro}
#orig_score.notes_per_instrument= {instrument:notes}
orig_score.notes_per_instrument= {instrument3:chords}#, drums:metro}
else:
orig_score.notes_per_instrument[instrument]= notes
writer= writerclass()
writer.dump(orig_score, outfname)
print 'done!'