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# @title Model helper
import os
from collections import Counter
import argparse
import torch
import torchaudio
import numpy as np
from model.init_train import initialize_trainer, update_config
from utils.task_manager import TaskManager
from config.vocabulary import drum_vocab_presets
from utils.utils import str2bool
from utils.utils import Timer
from utils.audio import slice_padded_array
from utils.note2event import mix_notes
from utils.event2note import merge_zipped_note_events_and_ties_to_notes
from utils.utils import write_model_output_as_midi, write_err_cnt_as_json
from model.ymt3 import YourMT3
# import spaces # for zero-GPU
# @spaces.GPU
def load_model_checkpoint(args=None):
parser = argparse.ArgumentParser(description="YourMT3")
# General
parser.add_argument('exp_id', type=str, help='A unique identifier for the experiment is used to resume training. The "@" symbol can be used to load a specific checkpoint.')
parser.add_argument('-p', '--project', type=str, default='ymt3', help='project name')
parser.add_argument('-ac', '--audio-codec', type=str, default=None, help='audio codec (default=None). {"spec", "melspec"}. If None, default value defined in config.py will be used.')
parser.add_argument('-hop', '--hop-length', type=int, default=None, help='hop length in frames (default=None). {128, 300} 128 for MT3, 300 for PerceiverTFIf None, default value defined in config.py will be used.')
parser.add_argument('-nmel', '--n-mels', type=int, default=None, help='number of mel bins (default=None). If None, default value defined in config.py will be used.')
parser.add_argument('-if', '--input-frames', type=int, default=None, help='number of audio frames for input segment (default=None). If None, default value defined in config.py will be used.')
# Model configurations
parser.add_argument('-sqr', '--sca-use-query-residual', type=str2bool, default=None, help='sca use query residual flag. Default follows config.py')
parser.add_argument('-enc', '--encoder-type', type=str, default=None, help="Encoder type. 't5' or 'perceiver-tf' or 'conformer'. Default is 't5', following config.py.")
parser.add_argument('-dec', '--decoder-type', type=str, default=None, help="Decoder type. 't5' or 'multi-t5'. Default is 't5', following config.py.")
parser.add_argument('-preenc', '--pre-encoder-type', type=str, default='default', help="Pre-encoder type. None or 'conv' or 'default'. By default, t5_enc:None, perceiver_tf_enc:conv, conformer:None")
parser.add_argument('-predec', '--pre-decoder-type', type=str, default='default', help="Pre-decoder type. {None, 'linear', 'conv1', 'mlp', 'group_linear'} or 'default'. Default is {'t5': None, 'perceiver-tf': 'linear', 'conformer': None}.")
parser.add_argument('-cout', '--conv-out-channels', type=int, default=None, help='Number of filters for pre-encoder conv layer. Default follows "model_cfg" of config.py.')
parser.add_argument('-tenc', '--task-cond-encoder', type=str2bool, default=True, help='task conditional encoder (default=True). True or False')
parser.add_argument('-tdec', '--task-cond-decoder', type=str2bool, default=True, help='task conditional decoder (default=True). True or False')
parser.add_argument('-df', '--d-feat', type=int, default=None, help='Audio feature will be projected to this dimension for Q,K,V of T5 or K,V of Perceiver (default=None). If None, default value defined in config.py will be used.')
parser.add_argument('-pt', '--pretrained', type=str2bool, default=False, help='pretrained T5(default=False). True or False')
parser.add_argument('-b', '--base-name', type=str, default="google/t5-v1_1-small", help='base model name (default="google/t5-v1_1-small")')
parser.add_argument('-epe', '--encoder-position-encoding-type', type=str, default='default', help="Positional encoding type of encoder. By default, pre-defined PE for T5 or Perceiver-TF encoder in config.py. For T5: {'sinusoidal', 'trainable'}, conformer: {'rotary', 'trainable'}, Perceiver-TF: {'trainable', 'rope', 'alibi', 'alibit', 'None', '0', 'none', 'tkd', 'td', 'tk', 'kdt'}.")
parser.add_argument('-dpe', '--decoder-position-encoding-type', type=str, default='default', help="Positional encoding type of decoder. By default, pre-defined PE for T5 in config.py. {'sinusoidal', 'trainable'}.")
parser.add_argument('-twe', '--tie-word-embedding', type=str2bool, default=None, help='tie word embedding (default=None). If None, default value defined in config.py will be used.')
parser.add_argument('-el', '--event-length', type=int, default=None, help='event length (default=None). If None, default value defined in model cfg of config.py will be used.')
# Perceiver-TF configurations
parser.add_argument('-dl', '--d-latent', type=int, default=None, help='Latent dimension of Perceiver. On T5, this will be ignored (default=None). If None, default value defined in config.py will be used.')
parser.add_argument('-nl', '--num-latents', type=int, default=None, help='Number of latents of Perceiver. On T5, this will be ignored (default=None). If None, default value defined in config.py will be used.')
parser.add_argument('-dpm', '--perceiver-tf-d-model', type=int, default=None, help='Perceiver-TF d_model (default=None). If None, default value defined in config.py will be used.')
parser.add_argument('-npb', '--num-perceiver-tf-blocks', type=int, default=None, help='Number of blocks of Perceiver-TF. On T5, this will be ignored (default=None). If None, default value defined in config.py.')
parser.add_argument('-npl', '--num-perceiver-tf-local-transformers-per-block', type=int, default=None, help='Number of local layers per block of Perceiver-TF. On T5, this will be ignored (default=None). If None, default value defined in config.py will be used.')
parser.add_argument('-npt', '--num-perceiver-tf-temporal-transformers-per-block', type=int, default=None, help='Number of temporal layers per block of Perceiver-TF. On T5, this will be ignored (default=None). If None, default value defined in config.py will be used.')
parser.add_argument('-atc', '--attention-to-channel', type=str2bool, default=None, help='Attention to channel flag of Perceiver-TF. On T5, this will be ignored (default=None). If None, default value defined in config.py will be used.')
parser.add_argument('-ln', '--layer-norm-type', type=str, default=None, help='Layer normalization type (default=None). {"layer_norm", "rms_norm"}. If None, default value defined in config.py will be used.')
parser.add_argument('-ff', '--ff-layer-type', type=str, default=None, help='Feed forward layer type (default=None). {"mlp", "moe", "gmlp"}. If None, default value defined in config.py will be used.')
parser.add_argument('-wf', '--ff-widening-factor', type=int, default=None, help='Feed forward layer widening factor for MLP/MoE/gMLP (default=None). If None, default value defined in config.py will be used.')
parser.add_argument('-nmoe', '--moe-num-experts', type=int, default=None, help='Number of experts for MoE (default=None). If None, default value defined in config.py will be used.')
parser.add_argument('-kmoe', '--moe-topk', type=int, default=None, help='Top-k for MoE (default=None). If None, default value defined in config.py will be used.')
parser.add_argument('-act', '--hidden-act', type=str, default=None, help='Hidden activation function (default=None). {"gelu", "silu", "relu", "tanh"}. If None, default value defined in config.py will be used.')
parser.add_argument('-rt', '--rotary-type', type=str, default=None, help='Rotary embedding type expressed in three letters. e.g. ppl: "pixel" for SCA and latents, "lang" for temporal transformer. If None, use config.')
parser.add_argument('-rk', '--rope-apply-to-keys', type=str2bool, default=None, help='Apply rope to keys (default=None). If None, use config.')
parser.add_argument('-rp', '--rope-partial-pe', type=str2bool, default=None, help='Whether to apply RoPE to partial positions (default=None). If None, use config.')
# Decoder configurations
parser.add_argument('-dff', '--decoder-ff-layer-type', type=str, default=None, help='Feed forward layer type of decoder (default=None). {"mlp", "moe", "gmlp"}. If None, default value defined in config.py will be used.')
parser.add_argument('-dwf', '--decoder-ff-widening-factor', type=int, default=None, help='Feed forward layer widening factor for decoder MLP/MoE/gMLP (default=None). If None, default value defined in config.py will be used.')
# Task and Evaluation configurations
parser.add_argument('-tk', '--task', type=str, default='mt3_full_plus', help='tokenizer type (default=mt3_full_plus). See config/task.py for more options.')
parser.add_argument('-epv', '--eval-program-vocab', type=str, default=None, help='evaluation vocabulary (default=None). If None, default vocabulary of the data preset will be used.')
parser.add_argument('-edv', '--eval-drum-vocab', type=str, default=None, help='evaluation vocabulary for drum (default=None). If None, default vocabulary of the data preset will be used.')
parser.add_argument('-etk', '--eval-subtask-key', type=str, default='default', help='evaluation subtask key (default=default). See config/task.py for more options.')
parser.add_argument('-t', '--onset-tolerance', type=float, default=0.05, help='onset tolerance (default=0.05).')
parser.add_argument('-os', '--test-octave-shift', type=str2bool, default=False, help='test optimal octave shift (default=False). True or False')
parser.add_argument('-w', '--write-model-output', type=str2bool, default=True, help='write model test output to file (default=False). True or False')
# Trainer configurations
parser.add_argument('-pr','--precision', type=str, default="bf16-mixed", help='precision (default="bf16-mixed") {32, 16, bf16, bf16-mixed}')
parser.add_argument('-st', '--strategy', type=str, default='auto', help='strategy (default=auto). auto or deepspeed or ddp')
parser.add_argument('-n', '--num-nodes', type=int, default=1, help='number of nodes (default=1)')
parser.add_argument('-g', '--num-gpus', type=str, default='auto', help='number of gpus (default="auto")')
parser.add_argument('-wb', '--wandb-mode', type=str, default="disabled", help='wandb mode for logging (default=None). "disabled" or "online" or "offline". If None, default value defined in config.py will be used.')
# Debug
parser.add_argument('-debug', '--debug-mode', type=str2bool, default=False, help='debug mode (default=False). True or False')
parser.add_argument('-tps', '--test-pitch-shift', type=int, default=None, help='use pitch shift when testing. debug-purpose only. (default=None). semitone in int.')
args = parser.parse_args(args)
# yapf: enable
if torch.__version__ >= "1.13":
torch.set_float32_matmul_precision("high")
args.epochs = None
# Initialize and update config
_, _, dir_info, shared_cfg = initialize_trainer(args, stage='test')
shared_cfg, audio_cfg, model_cfg = update_config(args, shared_cfg, stage='test')
if args.eval_drum_vocab != None: # override eval_drum_vocab
eval_drum_vocab = drum_vocab_presets[args.eval_drum_vocab]
# Initialize task manager
tm = TaskManager(task_name=args.task,
max_shift_steps=int(shared_cfg["TOKENIZER"]["max_shift_steps"]),
debug_mode=args.debug_mode)
print(f"Task: {tm.task_name}, Max Shift Steps: {tm.max_shift_steps}")
# Use GPU if available
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
# Model
model = YourMT3(
audio_cfg=audio_cfg,
model_cfg=model_cfg,
shared_cfg=shared_cfg,
optimizer=None,
task_manager=tm, # tokenizer is a member of task_manager
eval_subtask_key=args.eval_subtask_key,
write_output_dir=dir_info["lightning_dir"] if args.write_model_output or args.test_octave_shift else None
).to(device)
checkpoint = torch.load(dir_info["last_ckpt_path"], map_location=device)
state_dict = checkpoint['state_dict']
new_state_dict = {k: v for k, v in state_dict.items() if 'pitchshift' not in k}
model.load_state_dict(new_state_dict, strict=False)
return model.eval()
# @spaces.GPU
def transcribe(model, audio_info):
t = Timer()
# Converting Audio
t.start()
audio, sr = torchaudio.load(uri=audio_info['filepath'])
audio = torch.mean(audio, dim=0).unsqueeze(0)
audio = torchaudio.functional.resample(audio, sr, model.audio_cfg['sample_rate'])
audio_segments = slice_padded_array(audio, model.audio_cfg['input_frames'], model.audio_cfg['input_frames'])
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
audio_segments = torch.from_numpy(audio_segments.astype('float32')).to(device).unsqueeze(1) # (n_seg, 1, seg_sz)
t.stop(); t.print_elapsed_time("converting audio");
# Inference
t.start()
pred_token_arr, _ = model.inference_file(bsz=8, audio_segments=audio_segments)
t.stop(); t.print_elapsed_time("model inference");
# Post-processing
t.start()
num_channels = model.task_manager.num_decoding_channels
n_items = audio_segments.shape[0]
start_secs_file = [model.audio_cfg['input_frames'] * i / model.audio_cfg['sample_rate'] for i in range(n_items)]
pred_notes_in_file = []
n_err_cnt = Counter()
for ch in range(num_channels):
pred_token_arr_ch = [arr[:, ch, :] for arr in pred_token_arr] # (B, L)
zipped_note_events_and_tie, list_events, ne_err_cnt = model.task_manager.detokenize_list_batches(
pred_token_arr_ch, start_secs_file, return_events=True)
pred_notes_ch, n_err_cnt_ch = merge_zipped_note_events_and_ties_to_notes(zipped_note_events_and_tie)
pred_notes_in_file.append(pred_notes_ch)
n_err_cnt += n_err_cnt_ch
pred_notes = mix_notes(pred_notes_in_file) # This is the mixed notes from all channels
# Write MIDI
write_model_output_as_midi(pred_notes, './',
audio_info['track_name'], model.midi_output_inverse_vocab)
t.stop(); t.print_elapsed_time("post processing");
midifile = os.path.join('./model_output/', audio_info['track_name'] + '.mid')
assert os.path.exists(midifile)
return midifile
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