def change_octave(
nth_event: int,
n_octaves: int,
novent_line: lily.NOventLine,
change_main_pitches: bool = True,
change_acciaccatura_pitches: bool = True,
) -> None:
if change_main_pitches:
novent_line[nth_event].pitch = [
p + ji.JIPitch([n_octaves]) for p in novent_line[nth_event].pitch
]
if novent_line[nth_event].acciaccatura and change_acciaccatura_pitches:
novent_line[nth_event].acciaccatura.mu_pitches = tuple(
p + ji.JIPitch([n_octaves])
for p in novent_line[nth_event].acciaccatura.mu_pitches)
previous_abjad_note = novent_line[nth_event].acciaccatura.abjad
novent_line[nth_event].acciaccatura.abjad = abjad.Note(
abjad.NamedPitch(
name=previous_abjad_note.written_pitch.pitch_class.name,
octave=previous_abjad_note.written_pitch.octave.number +
n_octaves,
),
abjad.Duration(previous_abjad_note.written_duration),
)
def add_glissando(
nth_event: int,
scale_degrees: tuple,
novent_line: lily.NOventLine,
durations: tuple = tuple([]),
verse_maker: mus.SegmentMaker = None,
adapt_by_changed_structure: bool = False,
):
n_scale_degrees = len(scale_degrees)
assert verse_maker or durations or n_scale_degrees in (1, 2)
if not durations:
if n_scale_degrees == 2:
durations = (novent_line[nth_event].duration, )
elif n_scale_degrees > 2:
durations = tuple(
fractions.Fraction(nv.delay) for nv in split_by_structure(
nth_event,
n_scale_degrees - 1,
novent_line,
verse_maker=verse_maker,
change_novent_line=False,
adapt_by_changed_structure=adapt_by_changed_structure,
))
assert len(durations) == len(scale_degrees) - 1
novent = novent_line[nth_event].copy()
normalized_pitch = novent.pitch[0].normalize()
instrument = globals_.PITCH2INSTRUMENT[normalized_pitch]
octave = novent.pitch[0].octave
pitch_zone = tuple(
p.register(octave) for p in sorted(
tuple(
p.copy() for p in globals_.SCALE_PER_INSTRUMENT[instrument])))
pitch_zone = functools.reduce(
operator.add,
(tuple(p + ji.JIPitch([n - 1]) for p in pitch_zone) for n in range(3)),
)
pitch_null_idx = pitch_zone.index(novent.pitch[0])
durations += (0, )
interpolation_line = []
for relative_pitch_class, duration in zip(scale_degrees, durations):
pc = relative_pitch_class % 7
octave = relative_pitch_class // 7
pitch = pitch_zone[pc + pitch_null_idx] + ji.JIPitch(
[octave]) - novent.pitch[0]
interpolation_line.append(old.PitchInterpolation(duration, pitch))
novent_line[nth_event].glissando = old.GlissandoLine(
interpolations.InterpolationLine(interpolation_line))
def harmonic_synthesis(poly_per_interlocking: tuple):
import pyteq
for poly_idx, poly in enumerate(poly_per_interlocking):
for melody_idx, voice in enumerate(poly):
voice = old.Melody(voice[:280])
melody = [
pyteq.PyteqTone(
ji.JIPitch(t.pitch, multiply=250),
t.delay,
t.duration,
volume=t.volume,
impedance=2,
q_factor=0.2,
string_length=9.9,
sustain_pedal=1,
) if t.pitch != mel.TheEmptyPitch else pyteq.PyteqTone(
t.pitch, t.delay, t.duration) for t in voice
]
instr_range = tuple(n for n in range(10, 125))
f = pyteq.Pianoteq(melody, available_midi_notes=instr_range)
f.export2wav(
"pianoteq_output/glitter_{0}_{1}".format(poly_idx, melody_idx),
# preset='"Kalimba Spacey"',
preset='"Celtic Harp Bright"',
)
def mk_empty_attack(
duration: float,
volume: float,
frequency: float = 35,
hammer_noise: float = 3,
impedance: float = 0.3,
cutoff: float = 0.3,
q_factor: float = 5,
string_length: float = 0.8,
strike_point: float = 1 / 2,
hammer_hard_piano: float = 1,
hammer_hard_mezzo: float = 1.5,
hammer_hard_forte: float = 2,
blooming_energy: float = 0,
) -> midiplug.PyteqTone:
"""Helps making percussive sounds with Pianoteq."""
return midiplug.PyteqTone(
ji.JIPitch(ji.r(1, 1), multiply=frequency),
duration,
duration,
volume=volume,
hammer_noise=hammer_noise,
impedance=impedance,
cutoff=cutoff,
q_factor=q_factor,
string_length=string_length,
strike_point=strike_point,
hammer_hard_piano=hammer_hard_piano,
hammer_hard_mezzo=hammer_hard_mezzo,
hammer_hard_forte=hammer_hard_forte,
blooming_energy=blooming_energy,
)
def render(self, name: str, cadence: old.Cadence) -> subprocess.Popen:
seq = []
for chord in cadence:
dur = float(chord.delay)
if chord.pitch != mel.TheEmptyPitch and bool(chord.pitch):
size = len(chord.pitch)
for idx, pi in enumerate(chord.pitch):
if idx + 1 == size:
de = float(dur)
else:
de = 0
if pi != mel.TheEmptyPitch:
if chord.volume:
volume = chord.volume
else:
volume = self.volume
tone = midiplug.PyteqTone(
ji.JIPitch(pi, multiply=self.CONCERT_PITCH),
de,
dur,
volume=volume,
)
else:
tone = midiplug.PyteqTone(
mel.TheEmptyPitch, de, dur, volume=self.volume
)
seq.append(tone)
else:
seq.append(old.Rest(dur))
pt = midiplug.Pianoteq(tuple(seq), self.available_midi_notes)
return pt.export2wav(name, 1, self.preset, self.fxp)
def simple_synthesis(melodies: tuple, make_diva=True):
import random
random.seed(10)
import pyteq
for idx, voice in enumerate(melodies):
# voice = old.Melody(voice[:120]).tie()
voice = old.Melody(voice[:200])
if make_diva:
melody_diva = [
pyteq.DivaTone(
ji.JIPitch(t.pitch, multiply=250),
t.delay,
t.duration,
glissando=t.glissando,
volume=t.volume,
) if t.pitch != mel.TheEmptyPitch else pyteq.PyteqTone(
t.pitch, t.delay, t.duration) for t in voice
]
pyteq.Diva(melody_diva).export(
"pianoteq_output/test_diva{0}.mid".format(idx))
melody_pteq = [
pyteq.PyteqTone(
ji.JIPitch(t.pitch, multiply=250),
t.delay,
t.duration,
volume=t.volume,
glissando=t.glissando,
# impedance=random.uniform(2.801, 2.98),
q_factor=random.uniform(0.201, 0.28),
string_length=random.uniform(8.9, 9.8),
sustain_pedal=1,
) if t.pitch != mel.TheEmptyPitch else pyteq.PyteqTone(
t.pitch, t.delay, t.duration) for t in voice
]
f = pyteq.Pianoteq(melody_pteq,
available_midi_notes=tuple(n
for n in range(20, 125)))
f.export2wav("pianoteq_output/test{0}".format(idx),
preset='"Concert Harp Daily"')
def __init__(
self,
tempo_factor: float,
pitches: tuple,
rhythm: binr.Compound,
discard_rests: bool = True,
):
self.__tempo_factor = tempo_factor
self.__pitches = pitches
self.__rhythm = rhythm
melody = old.Melody(
old.Tone(ji.JIPitch(p, multiply=globals.CONCERT_PITCH), r *
tempo_factor) if not p.is_empty else old.
Rest(r * tempo_factor) for p, r in zip(pitches, rhythm))
if discard_rests:
melody = melody.discard_rests()
super().__init__(melody, attack=0.08, decay=0.05, release=0.25)
def make_data(self) -> tuple:
"""set orc and sco attributes."""
start_per_attack, duration_per_attack, volume_per_attack = (
self.find_start_and_duration_and_volume())
orc_lines = []
sco_lines = []
for instr_idx, start, duration, volume in zip(
range(len(start_per_attack)),
start_per_attack,
duration_per_attack,
volume_per_attack,
):
valid_pitches = functools.reduce(
operator.add,
tuple(
tuple(
ji.JIPitch(p, multiply=globals.CONCERT_PITCH).register(
octave).freq for octave in self._octaves)
for p in next(self._chord)[0](
*globals.MALE_SOIL.harmonic_primes_per_bar[
self.segment._bar_number])),
)
orc_data, sco_data = next(self._sample_maker)(
instrument_idx=instr_idx + 1,
start=start,
duration=duration,
volume=volume,
pitch=valid_pitches,
)
orc_lines.extend(orc_data + ("", ))
sco_lines.extend(sco_data)
self._orc = "\n".join(orc_lines)
self._sco = "\n".join(sco_lines)
def __call__(self, name: str, cadence: old.JICadence) -> None:
seq = []
for chord in cadence:
dur = float(chord.delay)
if chord.pitch != mel.TheEmptyPitch and bool(chord.pitch):
size = len(chord.pitch)
for idx, pi in enumerate(chord.pitch):
if idx + 1 == size:
de = float(dur)
else:
de = 0
tone = pyteq.PyteqTone(
ji.JIPitch(pi, multiply=self.CONCERT_PITCH),
de,
dur,
volume=self.volume,
)
seq.append(tone)
else:
seq.append(old.Rest(dur))
pt = pyteq.Pianoteq(tuple(seq), self.available_midi_notes)
pt.export2wav(name, 1, self.preset, self.fxp)
def make_diva_sequence(self, voice: tuple, tempo_factor: float) -> tuple:
diva_sequence = []
for tone in voice:
delay = tone.delay * tempo_factor
if tone.pitch.is_empty:
dt = old.Rest(delay)
else:
div_synth_args = {
arg: next(self.init_arguments[arg])
for arg in self.init_arguments
}
dt = midiplug.DivaTone(ji.JIPitch(
tone.pitch, multiply=globals.CONCERT_PITCH),
delay,
delay,
volume=tone.volume,
**div_synth_args)
diva_sequence.append(dt)
return tuple(diva_sequence)
p0 += ji.r(2, 1)
p1 += ji.r(2, 1)
p2 = p1 + ji.r(4, 1)
p3 = p0 + ji.r(4, 1)
PITCHES_POSITIVE.append(p0)
PITCHES_POSITIVE.append(p2)
PITCHES_NEGATIVE.append(p1)
PITCHES_NEGATIVE.append(p3)
if __name__ == "__main__":
import pyteqNew as pyteq
for idx, pitches in enumerate([PITCHES_POSITIVE, PITCHES_NEGATIVE]):
if idx < 1:
name = "Positive"
else:
name = "Negative"
for p_idx, pitch in enumerate(sorted(pitches)):
local_name = name + str(p_idx)
melody = [
pyteq.MidiTone(ji.JIPitch(pitch, multiply=CONCERT_PITCH),
4,
4,
volume=1)
]
harp_range = tuple(n for n in range(20, 125))
f = pyteq.Pianoteq(melody, available_midi_notes=harp_range)
f.export2wav(local_name, preset='"Erard Player"')
def render(self, path: str) -> subprocess.Popen:
adapted_rhythms = [
rhythm * self.__tempo_factor for rhythm in self.__rhythm
]
adapted_rhythms[-1] += self.__overlaying_time
melody = old.Melody(
tuple(
old.Tone(p, r, r, volume=v) for p, r, v in zip(
self.__pitches, adapted_rhythms, self.__dynamics)))
is_consonant_pitch_per_tone = tuple(
self.__is_not_dissonant_pitch_per_tone)
spectrum_profile_per_tone = tuple(self.__spectrum_profile_per_tone)
if self.convert_dissonant_tones2glissandi:
melody = self._convert_dissonant_tones2glissandi(melody)
if self.__tremolo is not None:
info = self.__tremolo(melody, is_consonant_pitch_per_tone,
spectrum_profile_per_tone)
melody, is_consonant_pitch_per_tone, spectrum_profile_per_tone = info
for modulator in self.modulator:
melody = modulator(melody)
sequence = []
for tone, is_not_dissonant_pitch, spectrum_profile in zip(
melody, is_consonant_pitch_per_tone,
spectrum_profile_per_tone):
pitch, rhythm, volume, glissando = (
tone.pitch,
tone.delay,
tone.volume,
tone.glissando,
)
if pitch.is_empty:
tone = pteqer.mk_empty_attack(
rhythm, next(self.empty_attack_dynamic_maker))
else:
if is_not_dissonant_pitch:
parameters = dict(self.parameter_non_dissonant_pitches)
else:
parameters = dict(self.parameter_dissonant_pitches)
for par in parameters:
value = parameters[par]
if isinstance(value, infit.InfIt):
parameters[par] = next(value)
elif (isinstance(value, float) or isinstance(value, int)
or value is None):
parameters[par] = value
else:
msg = "Unknown value type: {}.".format(type(value))
raise TypeError(msg)
if parameters["pinch_harmonic_pedal"] == 1:
if parameters["pinch_harmonic_pedal"]:
pitch -= ji.r(2, 1)
tone = midiplug.PyteqTone(
ji.JIPitch(pitch, multiply=globals.CONCERT_PITCH),
rhythm,
rhythm,
volume=volume,
glissando=glissando,
spectrum_profile_3=spectrum_profile[0],
spectrum_profile_5=spectrum_profile[1],
spectrum_profile_6=spectrum_profile[0],
spectrum_profile_7=spectrum_profile[2],
**parameters,
)
sequence.append(tone)
pteq = midiplug.Pianoteq(tuple(sequence))
return pteq.export2wav(path, preset=self.preset, fxp=self.fxp)
def _notate(name: str, instrument: str, scale: tuple) -> None:
for add_harmonics in (False, True):
if add_harmonics:
harmonics_dict = {
key: value[0]
for key, value in globals_.RATIO2ARTIFICAL_HARMONIC_PITCHCLASS_AND_ARTIFICIAL_HARMONIC_OCTAVE.items()
}
if instrument == "violin":
clef = abjad.Clef("treble")
header_distance = -0.4
elif instrument == "viola":
clef = abjad.Clef("alto")
header_distance = -1
elif instrument == "cello":
clef = abjad.Clef("bass")
header_distance = -1
else:
raise NotImplementedError(instrument)
staff = abjad.Staff([])
for idx, pitch in enumerate(scale):
abjad_pitch = lily.convert2abjad_pitch(pitch, globals_.RATIO2PITCHCLASS)
if add_harmonics:
(
_,
octave,
) = globals_.RATIO2ARTIFICAL_HARMONIC_PITCHCLASS_AND_ARTIFICIAL_HARMONIC_OCTAVE[
pitch.register(0)
]
harmonic_pitch = lily.convert2abjad_pitch(
pitch + ji.JIPitch([octave]), harmonics_dict
)
chord = abjad.Chord(
sorted([abjad_pitch, harmonic_pitch]), abjad.Duration(1)
)
abjad.tweak(chord.note_heads[1]).style = "harmonic"
staff.append(chord)
else:
staff.append(abjad.Note(abjad_pitch, abjad.Duration(1)))
abjad.attach(lily.mk_no_time_signature(), staff[0])
abjad.attach(abjad.TimeSignature((len(staff), 1)), staff[0])
abjad.attach(clef, staff[0])
abjad.attach(
abjad.LilyPondLiteral(
"\\override Score.SpacingSpanner.strict-note-spacing = ##t",
format_slot="before",
),
staff[0],
)
abjad.attach(
abjad.LilyPondLiteral("\\newSpacingSection", format_slot="before"), staff[0]
)
abjad.attach(
abjad.LilyPondLiteral(
"\\override Score.SpacingSpanner.base-shortest-duration ="
" #(ly:make-moment"
+ " 1/8)",
format_slot="before",
),
staff[0],
)
abjad.attach(
abjad.LilyPondLiteral("\\accidentalStyle dodecaphonic", "before"), staff[0],
)
sco = abjad.Score([staff])
if add_harmonics:
descr = "scale for {} with artificial harmonics".format(instrument)
else:
descr = "scale for {}".format(instrument)
header_block = abjad.Block("header")
header_block.piece = abjad.Markup(
abjad.MarkupCommand(
"center-column",
[
abjad.MarkupCommand("fontsize", -1.5),
abjad.MarkupCommand("smallCaps"),
descr,
abjad.MarkupCommand("vspace", header_distance),
],
)
)
final_file_name = "{}/pictures/scale_{}".format(name, instrument)
if add_harmonics:
final_file_name = "{}_artificial_harmonics".format(final_file_name)
lily.make_small_example(sco, final_file_name, header_block=header_block)
