add midi api

This commit is contained in:
josc146 2023-07-25 16:11:17 +08:00
parent 34095a6c36
commit 29c5b1d804
6 changed files with 1071 additions and 12 deletions

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@ -12,7 +12,7 @@ from utils.rwkv import *
from utils.torch import *
from utils.ngrok import *
from utils.log import log_middleware
from routes import completion, config, state_cache
from routes import completion, config, state_cache, midi
import global_var
app = FastAPI(dependencies=[Depends(log_middleware)])
@ -27,6 +27,7 @@ app.add_middleware(
app.include_router(completion.router)
app.include_router(config.router)
app.include_router(midi.router)
app.include_router(state_cache.router)
@ -55,20 +56,9 @@ def exit():
parent.kill()
def debug():
model = RWKV(
model="../models/RWKV-4-Raven-7B-v11-Eng49%-Chn49%-Jpn1%-Other1%-20230430-ctx8192.pth",
strategy="cuda fp16",
tokens_path="20B_tokenizer.json",
)
d = model.pipeline.decode([])
print(d)
if __name__ == "__main__":
uvicorn.run(
"main:app",
port=8000 if len(sys.argv) < 2 else int(sys.argv[1]),
host="127.0.0.1" if len(sys.argv) < 3 else sys.argv[2],
)
# debug()

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@ -0,0 +1,92 @@
from fastapi import APIRouter, HTTPException, status
from pydantic import BaseModel
from utils.midi import *
from midi2audio import FluidSynth
router = APIRouter()
class TxtToMidiBody(BaseModel):
txt_path: str
midi_path: str
class Config:
schema_extra = {
"example": {
"txt_path": "midi/sample.txt",
"midi_path": "midi/sample.mid",
}
}
@router.post("/txt-to-midi")
def txt_to_midi(body: TxtToMidiBody):
if not body.midi_path.startswith("midi/"):
raise HTTPException(status.HTTP_400_BAD_REQUEST, "bad output path")
vocab_config = "backend-python/utils/midi_vocab_config.json"
cfg = VocabConfig.from_json(vocab_config)
with open(body.txt_path, "r") as f:
text = f.read()
text = text.strip()
mid = convert_str_to_midi(cfg, text)
mid.save(body.midi_path)
class MidiToWavBody(BaseModel):
midi_path: str
wav_path: str
sound_font_path: str = "assets/default_sound_font.sf2"
class Config:
schema_extra = {
"example": {
"midi_path": "midi/sample.mid",
"wav_path": "midi/sample.wav",
"sound_font_path": "assets/default_sound_font.sf2",
}
}
@router.post("/midi-to-wav")
def midi_to_wav(body: MidiToWavBody):
if not body.wav_path.startswith("midi/"):
raise HTTPException(status.HTTP_400_BAD_REQUEST, "bad output path")
fs = FluidSynth(body.sound_font_path)
fs.midi_to_audio(body.midi_path, body.wav_path)
class TextToWavBody(BaseModel):
text: str
wav_name: str
sound_font_path: str = "assets/default_sound_font.sf2"
class Config:
schema_extra = {
"example": {
"text": "p:24:a p:2a:a p:31:a p:39:a p:3b:a p:45:a b:26:a g:3e:a g:3e:a g:42:a g:42:a g:45:a g:45:a pi:3e:a pi:42:a pi:45:a t14 p:24:0 p:2a:0 p:31:0 p:39:0 p:3b:0 p:45:0 t2 p:2a:a p:3b:a p:45:a t14 p:2a:0 p:3b:0 p:45:0 b:26:0 g:3e:0 g:3e:0 g:42:0 g:42:0 g:45:0 g:45:0 pi:3e:0 pi:42:0 pi:45:0 t2 p:2e:a p:3b:a p:45:a b:26:a g:3e:a g:3e:a g:42:a g:42:a g:45:a g:45:a pi:3e:a pi:42:a pi:45:a t14 p:2e:0 p:3b:0 p:45:0 g:3e:0 g:3e:0 g:42:0 g:42:0 g:45:0 g:45:0 pi:3e:0 pi:42:0 pi:45:0 t2 p:2e:a p:3b:a p:45:a g:3e:a g:3e:a g:42:a g:42:a g:45:a g:45:a pi:3e:a pi:42:a pi:45:a t14 p:2e:0 p:3b:0 p:45:0 b:26:0 g:3e:0 g:3e:0 g:42:0 g:42:0 g:45:0 g:45:0 pi:3e:0 pi:42:0 pi:45:0 t2 p:26:a p:2a:a p:3b:a p:45:a t14 p:26:0 p:2a:0 p:3b:0 p:45:0 t2 p:2a:a p:3b:a p:45:a b:26:a g:3e:a g:3e:a g:42:a g:42:a g:45:a g:45:a pi:3e:a pi:42:a pi:45:a t14 p:2a:0 p:3b:0 p:45:0 b:26:0 t2 p:24:a p:2a:a p:3b:a p:45:a b:2d:a t14 p:24:0 p:2a:0 p:3b:0 p:45:0 b:2d:0 g:3e:0 g:3e:0 g:42:0 g:42:0 g:45:0 g:45:0 pi:3e:0 pi:42:0 pi:45:0 t2 p:24:a p:2a:a p:3b:a p:45:a b:21:a g:39:a g:39:a g:3d:a g:3d:a g:40:a g:40:a pi:39:a pi:3d:a pi:40:a t14 p:24:0 p:2a:0 p:3b:0 p:45:0 t2 p:2a:a p:3b:a p:45:a t14 p:2a:0 p:3b:0 p:45:0 b:21:0 g:39:0 g:39:0 g:3d:0 g:3d:0 g:40:0 g:40:0 pi:39:0 pi:3d:0 pi:40:0 t2 p:24:a p:2e:a p:3b:a p:45:a b:21:a g:39:a g:39:a g:3d:a g:3d:a g:40:a g:40:a pi:39:a pi:3d:a pi:40:a t14 p:24:0 p:2e:0 p:3b:0 p:45:0 b:21:0 g:39:0 g:39:0 g:3d:0 g:3d:0 g:40:0 g:40:0 pi:39:0 pi:3d:0 pi:40:0 t2 p:24:a p:2a:a p:3b:a p:45:a b:21:a g:39:a g:39:a g:3d:a g:3d:a g:40:a g:40:a pi:39:a pi:3d:a pi:40:a t14 p:24:0 p:2a:0 p:3b:0 p:45:0 t2 p:2a:a p:3b:a p:45:a t14 p:2a:0 p:3b:0 p:45:0 b:21:0 g:39:0 g:39:0 g:3d:0 g:3d:0 g:40:0 g:40:0 pi:39:0 pi:3d:0 pi:40:0 t2 p:26:a p:2a:a p:3b:a p:45:a b:21:a g:39:a g:39:a g:3d:a g:3d:a g:40:a g:40:a pi:39:a pi:3d:a pi:40:a t14 p:26:0 p:2a:0 p:3b:0 p:45:0 t2 p:2a:a p:3b:a p:45:a t14 p:2a:0 p:3b:0 p:45:0 b:21:0 g:39:0 g:39:0 g:3d:0 g:3d:0 g:40:0 g:40:0 pi:39:0 pi:3d:0 pi:40:0 t2 p:26:a p:2e:a p:31:a p:39:a p:3b:a p:45:a b:21:a g:39:a g:39:a g:3d:a g:3d:a g:40:a g:40:a pi:39:a pi:3d:a pi:40:a t14 p:26:0 p:2e:0 p:31:0 p:39:0 p:3b:0 p:45:0 b:21:0 t2 p:26:a p:2e:a p:31:a p:39:a p:3b:a p:45:a b:21:a t14 p:26:0 p:2e:0 p:31:0 p:39:0 p:3b:0 p:45:0 b:21:0 g:39:0 g:39:0 g:3d:0 g:3d:0 g:40:0 g:40:0 pi:39:0 pi:3d:0 pi:40:0 t2 p:24:a p:2a:a p:31:a p:39:a p:3b:a p:45:a b:1f:a g:3b:a g:3b:a g:3e:a g:3e:a g:43:a g:43:a pi:3b:a pi:3e:a pi:43:a t14 p:24:0 p:2a:0 p:31:0 p:39:0 p:3b:0 p:45:0 t2 p:2a:a p:3b:a p:45:a t14 p:2a:0 p:3b:0 p:45:0 b:1f:0 g:3b:0 g:3b:0 g:3e:0 g:3e:0 g:43:0 g:43:0 pi:3b:0 pi:3e:0 pi:43:0 t2 p:2e:a p:3b:a p:45:a b:1f:a g:3b:a g:3b:a g:3e:a g:3e:a g:43:a g:43:a pi:3b:a pi:3e:a pi:43:a t14 p:2e:0 p:3b:0 p:45:0 g:3b:0 g:3b:0 g:3e:0 g:3e:0 g:43:0 g:43:0 pi:3b:0 pi:3e:0 pi:43:0 t2 p:2e:a p:3b:a p:45:a g:3b:a g:3b:a g:3e:a g:3e:a g:43:a g:43:a pi:3b:a pi:3e:a pi:43:a t14 p:2e:0 p:3b:0 p:45:0 b:1f:0 g:3b:0 g:3b:0 g:3e:0 g:3e:0 g:43:0 g:43:0 pi:3b:0 pi:3e:0 pi:43:0 t2 p:26:a p:2a:a p:3b:a p:45:a t14 p:26:0 p:2a:0 p:3b:0 p:45:0 t2 p:2a:a p:3b:a p:45:a b:1f:a g:3b:a g:3b:a g:3e:a g:3e:a g:43:a g:43:a pi:3b:a pi:3e:a pi:43:a t14 p:2a:0 p:3b:0 p:45:0 b:1f:0 t2 p:24:a p:2a:a p:3b:a p:45:a b:1f:a t14 p:24:0 p:2a:0 p:3b:0 p:45:0 b:1f:0 g:3b:0 g:3b:0 g:3e:0 g:3e:0 g:43:0 g:43:0 pi:3b:0 pi:3e:0 pi:43:0 t2 p:24:a p:2e:a p:3b:a p:45:a b:26:a g:39:a g:39:a g:3e:a g:3e:a g:42:a g:42:a pi:39:a pi:3e:a pi:42:a t14 p:24:0 p:2e:0 p:3b:0 p:45:0 t2 p:2a:a p:3b:a p:45:a t14 p:2a:0 p:3b:0",
"wav_name": "sample",
"sound_font_path": "assets/default_sound_font.sf2",
}
}
@router.post("/text-to-wav")
def text_to_wav(body: TextToWavBody):
text = body.text.strip()
if not text.startswith("<start>"):
text = "<start> " + text
if not text.endswith("<end>"):
text = text + " <end>"
txt_path = f"midi/{body.wav_name}.txt"
midi_path = f"midi/{body.wav_name}.mid"
wav_path = f"midi/{body.wav_name}.wav"
with open(txt_path, "w") as f:
f.write(text)
txt_to_midi(TxtToMidiBody(txt_path=txt_path, midi_path=midi_path))
midi_to_wav(
MidiToWavBody(
midi_path=midi_path, wav_path=wav_path, sound_font_path=body.sound_font_path
)
)

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@ -0,0 +1,673 @@
import json
import random
from dataclasses import dataclass
from functools import lru_cache
from math import ceil, floor, log
from typing import Dict, Iterator, List, Optional, Tuple
import mido
@dataclass
class VocabConfig:
# Number of note events. Should be 128.
note_events: int
# Number of wait events. Configurable, must evenly divide max_wait_time.
wait_events: int
# Max wait time in milliseconds to be represented by a single token.
max_wait_time: int
# Number of velocity events. Should be 128 (or 100? need to check midi standard)
velocity_events: int
# Number of bins to quantize velocity into. Should evenly divide velocity_events.
velocity_bins: int
# Exponential scaling factor for velocity bin sizes. 1.0 = linear scaling.
velocity_exp: float
# Whether to sort tokens by instrument, note. This should improve data reducibility.
do_token_sorting: bool
# Whether tokens should be represented as combined instrument/note/velocity tokens, or separate tokens for each.
unrolled_tokens: bool
# If non-zero, notes held for this many seconds will be automatically released during str->midi decoding.
decode_end_held_note_delay: float
# If true, repeated notes will be automatically released before playing again during str->midi decoding.
decode_fix_repeated_notes: bool
# List of instrument names to use for binning. Must have at most 16 values.
bin_instrument_names: List[str]
# Indicates which bin name represents percussion instruments on MIDI channel 10.
ch10_instrument_bin_name: str
# Mapping from instrument name to bin name.
program_name_to_bin_name: Dict[str, str]
# Mapping from bin name to program name.
bin_name_to_program_name: Dict[str, str]
# Mapping from program number to instrument name.
instrument_names: Dict[str, str]
def __post_init__(self):
self.validate()
self._instrument_names_str_to_int = {
name: int(i) for i, name in self.instrument_names.items()
}
self._instrument_names_int_to_str = {
int(i): name for i, name in self.instrument_names.items()
}
self._bin_str_to_int = {
name: int(i) for i, name in enumerate(self.bin_instrument_names)
}
self._bin_int_to_instrument_int = [
self._instrument_names_str_to_int[self.bin_name_to_program_name[name]]
if name != self.ch10_instrument_bin_name
else 0
for name in self.bin_instrument_names
]
self._instrument_int_to_bin_int = [
self._bin_str_to_int[self.program_name_to_bin_name[instr]]
if self.program_name_to_bin_name[instr] != ""
else -1
for instr in self.program_name_to_bin_name.keys()
]
self._ch10_bin_int = (
self._bin_str_to_int[self.ch10_instrument_bin_name]
if self.ch10_instrument_bin_name
else -1
)
self.short_instr_bin_names = []
for instr in self.bin_instrument_names:
i = min(1, len(instr))
while instr[:i] in self.short_instr_bin_names:
i += 1
self.short_instr_bin_names.append(instr[:i])
self._short_instrument_names_str_to_int = {
name: int(i) for i, name in enumerate(self.short_instr_bin_names)
}
range_excluding_ch10 = [
(i if i < 9 else i + 1) for i in range(len(self.bin_instrument_names))
]
bins_excluding_ch10 = [
n for n in self.bin_instrument_names if n != self.ch10_instrument_bin_name
]
self.bin_channel_map = {
bin: channel
for channel, bin in zip(range_excluding_ch10, bins_excluding_ch10)
}
if self.ch10_instrument_bin_name:
self.bin_channel_map[self.ch10_instrument_bin_name] = 9
def validate(self):
if self.max_wait_time % self.wait_events != 0:
raise ValueError("max_wait_time must be exactly divisible by wait_events")
if self.velocity_bins < 2:
raise ValueError("velocity_bins must be at least 2")
if len(self.bin_instrument_names) > 16:
raise ValueError("bin_instruments must have at most 16 values")
if (
self.ch10_instrument_bin_name
and self.ch10_instrument_bin_name not in self.bin_instrument_names
):
raise ValueError("ch10_instrument_bin_name must be in bin_instruments")
if self.velocity_exp <= 0:
raise ValueError("velocity_exp must be greater than 0")
@classmethod
def from_json(cls, path: str):
with open(path, "r") as f:
config = json.load(f)
return cls(**config)
class VocabUtils:
def __init__(self, cfg: VocabConfig) -> None:
self.cfg = cfg
@lru_cache(maxsize=128)
def format_wait_token(self, wait: int) -> str:
return f"t{wait}"
@lru_cache(maxsize=128)
def format_note_token(
self, instrument_bin: int, note: int, velocity_bin: int
) -> str:
return f"{self.cfg.short_instr_bin_names[instrument_bin]}:{note:x}:{velocity_bin:x}"
def format_unrolled_note(self, note: int) -> str:
return f"n{note:x}"
def format_unrolled_velocity(self, velocity_bin: int) -> str:
return f"v{velocity_bin:x}"
def format_unrolled_instrument_bin(self, instrument_bin: int) -> str:
return f"i{self.cfg.short_instr_bin_names[instrument_bin]}"
def velocity_to_bin(self, velocity: float) -> int:
velocity = max(0, min(velocity, self.cfg.velocity_events - 1))
binsize = self.cfg.velocity_events / (self.cfg.velocity_bins - 1)
if self.cfg.velocity_exp == 1.0:
return ceil(velocity / binsize)
else:
return ceil(
(
self.cfg.velocity_events
* (
(
self.cfg.velocity_exp
** (velocity / self.cfg.velocity_events)
- 1.0
)
/ (self.cfg.velocity_exp - 1.0)
)
)
/ binsize
)
def bin_to_velocity(self, bin: int) -> int:
binsize = self.cfg.velocity_events / (self.cfg.velocity_bins - 1)
if self.cfg.velocity_exp == 1.0:
return max(0, ceil(bin * binsize - 1))
else:
return max(
0,
ceil(
self.cfg.velocity_events
* log(
((self.cfg.velocity_exp - 1) * binsize * bin)
/ self.cfg.velocity_events
+ 1,
self.cfg.velocity_exp,
)
- 1
),
)
def delta_to_wait_ids(self, delta_ms: float) -> Iterator[int]:
def roundi(f: float):
return ceil(f - 0.5)
max_wait_ms = self.cfg.max_wait_time
div = max_wait_ms / self.cfg.wait_events
# if delta_ms // max_wait_ms > 512: # arbitrary limit to avoid excessive time_shifts
# raise ValueError("delta_time is too large")
if delta_ms > max_wait_ms * 10:
delta_ms = max_wait_ms * 10 # truncate time
for _ in range(floor(delta_ms / max_wait_ms)):
yield roundi(max_wait_ms / div)
leftover_time_shift = roundi((delta_ms % max_wait_ms) / div)
if leftover_time_shift > 0:
yield leftover_time_shift
def prog_data_to_token_data(
self, program: int, channel: int, note: int, velocity: float
) -> Optional[Tuple[int, int, int]]:
if channel == 9:
if self.cfg._ch10_bin_int == -1:
return None
return self.cfg._ch10_bin_int, note, self.velocity_to_bin(velocity)
instrument_bin = self.cfg._instrument_int_to_bin_int[program]
if instrument_bin != -1:
return instrument_bin, note, self.velocity_to_bin(velocity)
return None
def prog_data_list_to_token_data_list(
self, data: List[Tuple[int, int, int, float]]
) -> Iterator[Tuple[int, int, int]]:
for d in data:
token_data = self.prog_data_to_token_data(*d)
if token_data is not None:
yield token_data
def sort_token_data(
self, data: List[Tuple[int, int, int]]
) -> List[Tuple[int, int, int]]:
# ensure order is preserved for tokens with the same instrument, note
data = [(i, n, v, x) for x, (i, n, v) in enumerate(data)]
data.sort(key=lambda x: (x[0] != self.cfg._ch10_bin_int, x[0], x[1], x[3]))
return [(i, n, v) for i, n, v, _ in data]
def data_to_wait_tokens(self, delta_ms: float) -> List[str]:
if delta_ms == 0.0:
return []
return [self.format_wait_token(i) for i in self.delta_to_wait_ids(delta_ms)]
def wait_token_to_delta(self, token: str) -> float:
return self.cfg.max_wait_time / self.cfg.wait_events * int(token[1:])
def note_token_to_data(self, token: str) -> Tuple[int, int, int]:
instr_str, note_str, velocity_str = token.strip().split(":")
instr_bin = self.cfg._short_instrument_names_str_to_int[instr_str]
note = int(note_str, base=16)
velocity = self.bin_to_velocity(int(velocity_str, base=16))
return instr_bin, note, velocity
@dataclass
class AugmentValues:
instrument_bin_remap: Dict[int, int]
velocity_mod_factor: float
transpose_semitones: int
time_stretch_factor: float
@classmethod
def default(cls) -> "AugmentValues":
return cls(
instrument_bin_remap={},
velocity_mod_factor=1.0,
transpose_semitones=0,
time_stretch_factor=1.0,
)
@dataclass
class AugmentConfig:
# The number of times to augment each MIDI file. The dataset size will be multiplied by this number.
augment_data_factor: int
# A list of instrument names to randomly swap with each other.
instrument_mixups: List[List[str]]
# A list of percentages to change the note velocity by. 0.0 = no change. 0 is included by default.
velocity_mod_pct: List[float]
# A list of semitones to transpose by. 0 is included by default.
transpose_semitones: List[int]
# A list of percentages to stretch the tempo by. 0.0 = no stretch. 0 is included by default.
time_stretch_pct: List[float]
# Random seed to use for reproducibility.
seed: int
cfg: VocabConfig
def __post_init__(self):
self.validate()
if len(self.velocity_mod_pct) == 0:
self.velocity_mod_pct = [0.0]
if len(self.transpose_semitones) == 0:
self.transpose_semitones = [0]
if len(self.time_stretch_pct) == 0:
self.time_stretch_pct = [0.0]
self._instrument_mixups_int = [
[self.cfg._bin_str_to_int[i] for i in l if i in self.cfg._bin_str_to_int]
for l in self.instrument_mixups
]
self._instrument_mixups_int = [
l for l in self._instrument_mixups_int if len(l) > 0
] # remove empty lists
self._instrument_pool_assignments = {}
self._mixup_pools = []
for pool_i, mixup_list in enumerate(self._instrument_mixups_int):
pool = set()
for i in mixup_list:
pool.add(i)
self._instrument_pool_assignments[i] = pool_i
self._mixup_pools.append(pool)
def validate(self):
if self.augment_data_factor < 1:
raise ValueError("augment_data_factor must be at least 1")
used_instruments = set()
for mixup_list in self.instrument_mixups:
for n in mixup_list:
if n in used_instruments:
raise ValueError(f"Duplicate instrument name: {n}")
used_instruments.add(n)
@classmethod
def from_json(cls, path: str, cfg: VocabConfig):
with open(path, "r") as f:
config = json.load(f)
config["cfg"] = cfg
if "seed" not in config:
config["seed"] = random.randint(0, 2**32 - 1)
return cls(**config)
def get_augment_values(self, filename: str) -> Iterator[AugmentValues]:
# first yield default values
yield AugmentValues.default()
rng = random.Random(self.seed + hash(filename))
for _ in range(int(self.augment_data_factor - 1)):
# randomize order for each pool
randomized_pools = [list(pool) for pool in self._mixup_pools]
for pool in randomized_pools:
rng.shuffle(pool)
# distribute reassignments
instrument_bin_remap = {}
for i, pool in enumerate(randomized_pools):
for j, instrument in enumerate(pool):
instrument_bin_remap[instrument] = randomized_pools[i - 1][j]
yield AugmentValues(
instrument_bin_remap=instrument_bin_remap,
velocity_mod_factor=1.0 + rng.choice(self.velocity_mod_pct),
transpose_semitones=rng.choice(self.transpose_semitones),
time_stretch_factor=1.0 + rng.choice(self.time_stretch_pct),
)
def mix_volume(velocity: int, volume: int, expression: int) -> float:
return velocity * (volume / 127.0) * (expression / 127.0)
def convert_midi_to_str(
cfg: VocabConfig, mid: mido.MidiFile, augment: AugmentValues = None
) -> str:
utils = VocabUtils(cfg)
if augment is None:
augment = AugmentValues.default()
# filter out unknown meta messages before merge (https://github.com/mido/mido/pull/286)
for i in range(len(mid.tracks)):
mid.tracks[i] = [msg for msg in mid.tracks[i] if msg.type != "unknown_meta"]
if len(mid.tracks) > 1:
mid.tracks = [mido.merge_tracks(mid.tracks)]
delta_time_ms = 0.0
tempo = 500000
channel_program = {i: 0 for i in range(16)}
channel_volume = {i: 127 for i in range(16)}
channel_expression = {
i: 127 for i in range(16)
} # unlikely to be useful. expression usually modifies an already played note.
channel_notes = {i: {} for i in range(16)}
channel_pedal_on = {i: False for i in range(16)}
channel_pedal_events = {
i: {} for i in range(16)
} # {channel: {(note, program) -> True}}
started_flag = False
output = ["<start>"]
token_data_buffer: List[
Tuple[int, int, int, float]
] = [] # need to sort notes between wait tokens
def flush_token_data_buffer():
nonlocal token_data_buffer, output, cfg, utils, augment
token_data = [
x for x in utils.prog_data_list_to_token_data_list(token_data_buffer)
]
if augment.instrument_bin_remap or augment.transpose_semitones:
# TODO put transpose in a real function
raw_transpose = (
lambda bin, n: n + augment.transpose_semitones
if bin != cfg._ch10_bin_int
else n
)
octave_shift_if_oob = (
lambda n: n + 12 if n < 0 else n - 12 if n >= cfg.note_events else n
)
# TODO handle ranges beyond 12
# octave_shift_if_oob = lambda n: 0 if n < 0 else (n - cfg.note_events) % 12 + cfg.note_events if n >= cfg.note_events else n
transpose = lambda bin, n: octave_shift_if_oob(raw_transpose(bin, n))
token_data = [
(augment.instrument_bin_remap.get(i, i), transpose(i, n), v)
for i, n, v in token_data
]
if cfg.do_token_sorting:
token_data = utils.sort_token_data(token_data)
if cfg.unrolled_tokens:
for t in token_data:
output += [
utils.format_unrolled_instrument_bin(t[0]),
utils.format_unrolled_note(t[1]),
utils.format_unrolled_velocity(t[2]),
]
else:
output += [utils.format_note_token(*t) for t in token_data]
token_data_buffer = []
def consume_note_program_data(prog: int, chan: int, note: int, vel: float):
nonlocal output, started_flag, delta_time_ms, cfg, utils, token_data_buffer
is_token_valid = (
utils.prog_data_to_token_data(prog, chan, note, vel) is not None
)
if not is_token_valid:
return
if started_flag:
wait_tokens = utils.data_to_wait_tokens(delta_time_ms)
if len(wait_tokens) > 0:
flush_token_data_buffer()
output += wait_tokens
delta_time_ms = 0.0
token_data_buffer.append((prog, chan, note, vel * augment.velocity_mod_factor))
started_flag = True
for msg in mid.tracks[0]:
time_ms = mido.tick2second(msg.time, mid.ticks_per_beat, tempo) * 1000.0
delta_time_ms += time_ms
t = msg.type
if msg.is_meta:
if t == "set_tempo":
tempo = msg.tempo * augment.time_stretch_factor
continue
def handle_note_off(ch, prog, n):
if channel_pedal_on[ch]:
channel_pedal_events[ch][(n, prog)] = True
else:
consume_note_program_data(prog, ch, n, 0)
if n in channel_notes[ch]:
del channel_notes[ch][n]
if t == "program_change":
channel_program[msg.channel] = msg.program
elif t == "note_on":
if msg.velocity == 0:
handle_note_off(msg.channel, channel_program[msg.channel], msg.note)
else:
if (msg.note, channel_program[msg.channel]) in channel_pedal_events[
msg.channel
]:
del channel_pedal_events[msg.channel][
(msg.note, channel_program[msg.channel])
]
consume_note_program_data(
channel_program[msg.channel],
msg.channel,
msg.note,
mix_volume(
msg.velocity,
channel_volume[msg.channel],
channel_expression[msg.channel],
),
)
channel_notes[msg.channel][msg.note] = True
elif t == "note_off":
handle_note_off(msg.channel, channel_program[msg.channel], msg.note)
elif t == "control_change":
if msg.control == 7 or msg.control == 39: # volume
channel_volume[msg.channel] = msg.value
elif msg.control == 11: # expression
channel_expression[msg.channel] = msg.value
elif msg.control == 64: # sustain pedal
channel_pedal_on[msg.channel] = msg.value >= 64
if not channel_pedal_on[msg.channel]:
for note, program in channel_pedal_events[msg.channel]:
handle_note_off(msg.channel, program, note)
channel_pedal_events[msg.channel] = {}
elif msg.control == 123: # all notes off
for channel in channel_notes.keys():
for note in list(channel_notes[channel]).copy():
handle_note_off(channel, channel_program[channel], note)
else:
pass
flush_token_data_buffer()
output.append("<end>")
return " ".join(output)
def generate_program_change_messages(cfg: VocabConfig):
for bin_name, channel in cfg.bin_channel_map.items():
if channel == 9:
continue
program = cfg._instrument_names_str_to_int[
cfg.bin_name_to_program_name[bin_name]
]
yield mido.Message("program_change", program=program, time=0, channel=channel)
yield mido.Message("program_change", program=0, time=0, channel=9)
@dataclass
class DecodeState:
total_time: float # milliseconds
delta_accum: float # milliseconds
current_bin: int
current_note: int
active_notes: Dict[Tuple[int, int], float] # { (channel, note): time started, ... }
def token_to_midi_message(
utils: VocabUtils, token: str, state: DecodeState, end_token_pause: float = 3.0
) -> Iterator[Tuple[Optional[mido.Message], DecodeState]]:
if state is None:
state = DecodeState(
total_time=0.0,
delta_accum=0.0,
current_bin=utils.cfg._short_instrument_names_str_to_int[
utils.cfg.short_instr_bin_names[0]
],
current_note=0,
active_notes={},
)
token = token.strip()
if not token:
yield None, state
return
if token == "<end>":
d = end_token_pause * 1000.0
state.delta_accum += d
state.total_time += d
if utils.cfg.decode_end_held_note_delay != 0.0:
# end held notes
for (channel, note), start_time in list(state.active_notes.items()).copy():
ticks = int(mido.second2tick(state.delta_accum / 1000.0, 480, 500000))
state.delta_accum = 0.0
del state.active_notes[(channel, note)]
yield mido.Message(
"note_off", note=note, time=ticks, channel=channel
), state
yield None, state
return
if token.startswith("<"):
yield None, state
return
if utils.cfg.unrolled_tokens:
if token[0] == "t":
d = utils.wait_token_to_delta(token)
state.delta_accum += d
state.total_time += d
elif token[0] == "n":
state.current_note = int(token[1:], base=16)
elif token[0] == "i":
state.current_bin = utils.cfg._short_instrument_names_str_to_int[token[1:]]
elif token[0] == "v":
current_velocity = utils.bin_to_velocity(int(token[1:], base=16))
channel = utils.cfg.bin_channel_map[
utils.cfg.bin_instrument_names[state.current_bin]
]
ticks = int(mido.second2tick(state.delta_accum / 1000.0, 480, 500000))
state.delta_accum = 0.0
if current_velocity > 0:
yield mido.Message(
"note_on",
note=state.current_note,
velocity=current_velocity,
time=ticks,
channel=channel,
), state
else:
yield mido.Message(
"note_off",
note=state.current_note,
velocity=0,
time=ticks,
channel=channel,
), state
else:
if token[0] == "t" and token[1].isdigit(): # wait token
d = utils.wait_token_to_delta(token)
state.delta_accum += d
state.total_time += d
if utils.cfg.decode_end_held_note_delay != 0.0:
# remove notes that have been held for too long
for (channel, note), start_time in list(
state.active_notes.items()
).copy():
if (
state.total_time - start_time
> utils.cfg.decode_end_held_note_delay * 1000.0
):
ticks = int(
mido.second2tick(state.delta_accum / 1000.0, 480, 500000)
)
state.delta_accum = 0.0
del state.active_notes[(channel, note)]
yield mido.Message(
"note_off", note=note, time=ticks, channel=channel
), state
return
else: # note token
bin, note, velocity = utils.note_token_to_data(token)
channel = utils.cfg.bin_channel_map[utils.cfg.bin_instrument_names[bin]]
ticks = int(mido.second2tick(state.delta_accum / 1000.0, 480, 500000))
state.delta_accum = 0.0
if velocity > 0:
if utils.cfg.decode_fix_repeated_notes:
if (channel, note) in state.active_notes:
del state.active_notes[(channel, note)]
yield mido.Message(
"note_off", note=note, time=ticks, channel=channel
), state
ticks = 0
state.active_notes[(channel, note)] = state.total_time
yield mido.Message(
"note_on", note=note, velocity=velocity, time=ticks, channel=channel
), state
return
else:
if (channel, note) in state.active_notes:
del state.active_notes[(channel, note)]
yield mido.Message(
"note_off", note=note, time=ticks, channel=channel
), state
return
yield None, state
def str_to_midi_messages(utils: VocabUtils, data: str) -> Iterator[mido.Message]:
state = None
for token in data.split(" "):
for msg, new_state in token_to_midi_message(utils, token, state):
state = new_state
if msg is not None:
yield msg
def convert_str_to_midi(
cfg: VocabConfig, data: str, meta_text: str = "Generated by MIDI-LLM-tokenizer"
) -> mido.MidiFile:
utils = VocabUtils(cfg)
mid = mido.MidiFile()
track = mido.MidiTrack()
mid.tracks.append(track)
tempo = 500000
if meta_text:
track.append(mido.MetaMessage("text", text=meta_text, time=0))
track.append(mido.MetaMessage("set_tempo", tempo=tempo, time=0))
for msg in generate_program_change_messages(cfg):
track.append(msg)
# data = data.replace("<start>", "").replace("<end>", "").replace("<pad>", "").strip()
for msg in str_to_midi_messages(utils, data):
track.append(msg)
track.append(mido.MetaMessage("end_of_track", time=0))
return mid

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{
"note_events": 128,
"wait_events": 125,
"max_wait_time": 1000,
"velocity_events": 128,
"velocity_bins": 12,
"velocity_exp": 0.5,
"do_token_sorting": true,
"unrolled_tokens": false,
"decode_end_held_note_delay": 5.0,
"decode_fix_repeated_notes": true,
"bin_instrument_names": [
"percussion",
"drum",
"tuba",
"marimba",
"bass",
"guitar",
"violin",
"trumpet",
"piano",
"sax",
"flute",
"lead",
"pad"
],
"ch10_instrument_bin_name": "percussion",
"program_name_to_bin_name": {
"Acoustic Grand Piano": "piano",
"Bright Acoustic Piano": "piano",
"Electric Grand Piano": "piano",
"Honky-tonk Piano": "piano",
"Electric Piano 1 (Rhodes Piano)": "piano",
"Electric Piano 2 (Chorused Piano)": "piano",
"Harpsichord": "piano",
"Clavinet": "piano",
"Celesta": "marimba",
"Glockenspiel": "marimba",
"Music Box": "marimba",
"Vibraphone": "marimba",
"Marimba": "marimba",
"Xylophone": "marimba",
"Tubular Bells": "marimba",
"Dulcimer (Santur)": "marimba",
"Drawbar Organ (Hammond)": "marimba",
"Percussive Organ": "piano",
"Rock Organ": "piano",
"Church Organ": "piano",
"Reed Organ": "piano",
"Accordion (French)": "piano",
"Harmonica": "piano",
"Tango Accordion (Band neon)": "piano",
"Acoustic Guitar (nylon)": "guitar",
"Acoustic Guitar (steel)": "guitar",
"Electric Guitar (jazz)": "guitar",
"Electric Guitar (clean)": "guitar",
"Electric Guitar (muted)": "guitar",
"Overdriven Guitar": "guitar",
"Distortion Guitar": "guitar",
"Guitar harmonics": "guitar",
"Acoustic Bass": "bass",
"Electric Bass (fingered)": "bass",
"Electric Bass (picked)": "bass",
"Fretless Bass": "bass",
"Slap Bass 1": "bass",
"Slap Bass 2": "bass",
"Synth Bass 1": "bass",
"Synth Bass 2": "bass",
"Violin": "violin",
"Viola": "violin",
"Cello": "bass",
"Contrabass": "bass",
"Tremolo Strings": "violin",
"Pizzicato Strings": "violin",
"Orchestral Harp": "violin",
"Timpani": "drum",
"String Ensemble 1 (strings)": "violin",
"String Ensemble 2 (slow strings)": "violin",
"SynthStrings 1": "violin",
"SynthStrings 2": "violin",
"Choir Aahs": "violin",
"Voice Oohs": "violin",
"Synth Voice": "violin",
"Orchestra Hit": "",
"Trumpet": "trumpet",
"Trombone": "tuba",
"Tuba": "tuba",
"Muted Trumpet": "trumpet",
"French Horn": "trumpet",
"Brass Section": "trumpet",
"SynthBrass 1": "trumpet",
"SynthBrass 2": "trumpet",
"Soprano Sax": "sax",
"Alto Sax": "sax",
"Tenor Sax": "sax",
"Baritone Sax": "sax",
"Oboe": "sax",
"English Horn": "trumpet",
"Bassoon": "sax",
"Clarinet": "sax",
"Piccolo": "flute",
"Flute": "flute",
"Recorder": "flute",
"Pan Flute": "flute",
"Blown Bottle": "flute",
"Shakuhachi": "flute",
"Whistle": "flute",
"Ocarina": "flute",
"Lead 1 (square wave)": "lead",
"Lead 2 (sawtooth wave)": "lead",
"Lead 3 (calliope)": "lead",
"Lead 4 (chiffer)": "lead",
"Lead 5 (charang)": "lead",
"Lead 6 (voice solo)": "violin",
"Lead 7 (fifths)": "lead",
"Lead 8 (bass + lead)": "lead",
"Pad 1 (new age Fantasia)": "pad",
"Pad 2 (warm)": "pad",
"Pad 3 (polysynth)": "pad",
"Pad 4 (choir space voice)": "violin",
"Pad 5 (bowed glass)": "pad",
"Pad 6 (metallic pro)": "pad",
"Pad 7 (halo)": "pad",
"Pad 8 (sweep)": "pad",
"FX 1 (rain)": "",
"FX 2 (soundtrack)": "",
"FX 3 (crystal)": "",
"FX 4 (atmosphere)": "",
"FX 5 (brightness)": "",
"FX 6 (goblins)": "",
"FX 7 (echoes, drops)": "",
"FX 8 (sci-fi, star theme)": "",
"Sitar": "guitar",
"Banjo": "guitar",
"Shamisen": "guitar",
"Koto": "guitar",
"Kalimba": "guitar",
"Bag pipe": "sax",
"Fiddle": "violin",
"Shanai": "sax",
"Tinkle Bell": "marimba",
"Agogo": "marimba",
"Steel Drums": "marimba",
"Woodblock": "marimba",
"Taiko Drum": "drum",
"Melodic Tom": "drum",
"Synth Drum": "drum",
"Reverse Cymbal": "",
"Guitar Fret Noise": "",
"Breath Noise": "",
"Seashore": "",
"Bird Tweet": "",
"Telephone Ring": "",
"Helicopter": "",
"Applause": "",
"Gunshot": ""
},
"bin_name_to_program_name": {
"piano": "Acoustic Grand Piano",
"marimba": "Marimba",
"drum": "Synth Drum",
"guitar": "Acoustic Guitar (steel)",
"bass": "Acoustic Bass",
"violin": "Violin",
"percussion": "",
"trumpet": "Trumpet",
"tuba": "Tuba",
"sax": "Tenor Sax",
"flute": "Flute",
"lead": "Lead 1 (square wave)",
"pad": "Pad 1 (new age Fantasia)"
},
"instrument_names": {
"0": "Acoustic Grand Piano",
"1": "Bright Acoustic Piano",
"2": "Electric Grand Piano",
"3": "Honky-tonk Piano",
"4": "Electric Piano 1 (Rhodes Piano)",
"5": "Electric Piano 2 (Chorused Piano)",
"6": "Harpsichord",
"7": "Clavinet",
"8": "Celesta",
"9": "Glockenspiel",
"10": "Music Box",
"11": "Vibraphone",
"12": "Marimba",
"13": "Xylophone",
"14": "Tubular Bells",
"15": "Dulcimer (Santur)",
"16": "Drawbar Organ (Hammond)",
"17": "Percussive Organ",
"18": "Rock Organ",
"19": "Church Organ",
"20": "Reed Organ",
"21": "Accordion (French)",
"22": "Harmonica",
"23": "Tango Accordion (Band neon)",
"24": "Acoustic Guitar (nylon)",
"25": "Acoustic Guitar (steel)",
"26": "Electric Guitar (jazz)",
"27": "Electric Guitar (clean)",
"28": "Electric Guitar (muted)",
"29": "Overdriven Guitar",
"30": "Distortion Guitar",
"31": "Guitar harmonics",
"32": "Acoustic Bass",
"33": "Electric Bass (fingered)",
"34": "Electric Bass (picked)",
"35": "Fretless Bass",
"36": "Slap Bass 1",
"37": "Slap Bass 2",
"38": "Synth Bass 1",
"39": "Synth Bass 2",
"40": "Violin",
"41": "Viola",
"42": "Cello",
"43": "Contrabass",
"44": "Tremolo Strings",
"45": "Pizzicato Strings",
"46": "Orchestral Harp",
"47": "Timpani",
"48": "String Ensemble 1 (strings)",
"49": "String Ensemble 2 (slow strings)",
"50": "SynthStrings 1",
"51": "SynthStrings 2",
"52": "Choir Aahs",
"53": "Voice Oohs",
"54": "Synth Voice",
"55": "Orchestra Hit",
"56": "Trumpet",
"57": "Trombone",
"58": "Tuba",
"59": "Muted Trumpet",
"60": "French Horn",
"61": "Brass Section",
"62": "SynthBrass 1",
"63": "SynthBrass 2",
"64": "Soprano Sax",
"65": "Alto Sax",
"66": "Tenor Sax",
"67": "Baritone Sax",
"68": "Oboe",
"69": "English Horn",
"70": "Bassoon",
"71": "Clarinet",
"72": "Piccolo",
"73": "Flute",
"74": "Recorder",
"75": "Pan Flute",
"76": "Blown Bottle",
"77": "Shakuhachi",
"78": "Whistle",
"79": "Ocarina",
"80": "Lead 1 (square wave)",
"81": "Lead 2 (sawtooth wave)",
"82": "Lead 3 (calliope)",
"83": "Lead 4 (chiffer)",
"84": "Lead 5 (charang)",
"85": "Lead 6 (voice solo)",
"86": "Lead 7 (fifths)",
"87": "Lead 8 (bass + lead)",
"88": "Pad 1 (new age Fantasia)",
"89": "Pad 2 (warm)",
"90": "Pad 3 (polysynth)",
"91": "Pad 4 (choir space voice)",
"92": "Pad 5 (bowed glass)",
"93": "Pad 6 (metallic pro)",
"94": "Pad 7 (halo)",
"95": "Pad 8 (sweep)",
"96": "FX 1 (rain)",
"97": "FX 2 (soundtrack)",
"98": "FX 3 (crystal)",
"99": "FX 4 (atmosphere)",
"100": "FX 5 (brightness)",
"101": "FX 6 (goblins)",
"102": "FX 7 (echoes, drops)",
"103": "FX 8 (sci-fi, star theme)",
"104": "Sitar",
"105": "Banjo",
"106": "Shamisen",
"107": "Koto",
"108": "Kalimba",
"109": "Bag pipe",
"110": "Fiddle",
"111": "Shanai",
"112": "Tinkle Bell",
"113": "Agogo",
"114": "Steel Drums",
"115": "Woodblock",
"116": "Taiko Drum",
"117": "Melodic Tom",
"118": "Synth Drum",
"119": "Reverse Cymbal",
"120": "Guitar Fret Noise",
"121": "Breath Noise",
"122": "Seashore",
"123": "Bird Tweet",
"124": "Telephone Ring",
"125": "Helicopter",
"126": "Applause",
"127": "Gunshot"
}
}

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midi/sample.txt Normal file
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