CosyVoice-300M

Runtime error

CosyVoice-300M / third_party /Matcha-TTS /matcha /onnx /infer.py

ljy266987

add lfs

12bfd03 5 months ago

6.29 kB

	import argparse
	import os
	import warnings
	from pathlib import Path
	from time import perf_counter

	import numpy as np
	import onnxruntime as ort
	import soundfile as sf
	import torch

	from matcha.cli import plot_spectrogram_to_numpy, process_text


	def validate_args(args):
	assert (
	args.text or args.file
	), "Either text or file must be provided Matcha-T(ea)TTS need sometext to whisk the waveforms."
	assert args.temperature >= 0, "Sampling temperature cannot be negative"
	assert args.speaking_rate >= 0, "Speaking rate must be greater than 0"
	return args


	def write_wavs(model, inputs, output_dir, external_vocoder=None):
	if external_vocoder is None:
	print("The provided model has the vocoder embedded in the graph.\nGenerating waveform directly")
	t0 = perf_counter()
	wavs, wav_lengths = model.run(None, inputs)
	infer_secs = perf_counter() - t0
	mel_infer_secs = vocoder_infer_secs = None
	else:
	print("[🍵] Generating mel using Matcha")
	mel_t0 = perf_counter()
	mels, mel_lengths = model.run(None, inputs)
	mel_infer_secs = perf_counter() - mel_t0
	print("Generating waveform from mel using external vocoder")
	vocoder_inputs = {external_vocoder.get_inputs()[0].name: mels}
	vocoder_t0 = perf_counter()
	wavs = external_vocoder.run(None, vocoder_inputs)[0]
	vocoder_infer_secs = perf_counter() - vocoder_t0
	wavs = wavs.squeeze(1)
	wav_lengths = mel_lengths * 256
	infer_secs = mel_infer_secs + vocoder_infer_secs

	output_dir = Path(output_dir)
	output_dir.mkdir(parents=True, exist_ok=True)
	for i, (wav, wav_length) in enumerate(zip(wavs, wav_lengths)):
	output_filename = output_dir.joinpath(f"output_{i + 1}.wav")
	audio = wav[:wav_length]
	print(f"Writing audio to {output_filename}")
	sf.write(output_filename, audio, 22050, "PCM_24")

	wav_secs = wav_lengths.sum() / 22050
	print(f"Inference seconds: {infer_secs}")
	print(f"Generated wav seconds: {wav_secs}")
	rtf = infer_secs / wav_secs
	if mel_infer_secs is not None:
	mel_rtf = mel_infer_secs / wav_secs
	print(f"Matcha RTF: {mel_rtf}")
	if vocoder_infer_secs is not None:
	vocoder_rtf = vocoder_infer_secs / wav_secs
	print(f"Vocoder RTF: {vocoder_rtf}")
	print(f"Overall RTF: {rtf}")


	def write_mels(model, inputs, output_dir):
	t0 = perf_counter()
	mels, mel_lengths = model.run(None, inputs)
	infer_secs = perf_counter() - t0

	output_dir = Path(output_dir)
	output_dir.mkdir(parents=True, exist_ok=True)
	for i, mel in enumerate(mels):
	output_stem = output_dir.joinpath(f"output_{i + 1}")
	plot_spectrogram_to_numpy(mel.squeeze(), output_stem.with_suffix(".png"))
	np.save(output_stem.with_suffix(".numpy"), mel)

	wav_secs = (mel_lengths * 256).sum() / 22050
	print(f"Inference seconds: {infer_secs}")
	print(f"Generated wav seconds: {wav_secs}")
	rtf = infer_secs / wav_secs
	print(f"RTF: {rtf}")


	def main():
	parser = argparse.ArgumentParser(
	description=" 🍵 Matcha-TTS: A fast TTS architecture with conditional flow matching"
	)
	parser.add_argument(
	"model",
	type=str,
	help="ONNX model to use",
	)
	parser.add_argument("--vocoder", type=str, default=None, help="Vocoder to use (defaults to None)")
	parser.add_argument("--text", type=str, default=None, help="Text to synthesize")
	parser.add_argument("--file", type=str, default=None, help="Text file to synthesize")
	parser.add_argument("--spk", type=int, default=None, help="Speaker ID")
	parser.add_argument(
	"--temperature",
	type=float,
	default=0.667,
	help="Variance of the x0 noise (default: 0.667)",
	)
	parser.add_argument(
	"--speaking-rate",
	type=float,
	default=1.0,
	help="change the speaking rate, a higher value means slower speaking rate (default: 1.0)",
	)
	parser.add_argument("--gpu", action="store_true", help="Use CPU for inference (default: use GPU if available)")
	parser.add_argument(
	"--output-dir",
	type=str,
	default=os.getcwd(),
	help="Output folder to save results (default: current dir)",
	)

	args = parser.parse_args()
	args = validate_args(args)

	if args.gpu:
	providers = ["GPUExecutionProvider"]
	else:
	providers = ["CPUExecutionProvider"]
	model = ort.InferenceSession(args.model, providers=providers)

	model_inputs = model.get_inputs()
	model_outputs = list(model.get_outputs())

	if args.text:
	text_lines = args.text.splitlines()
	else:
	with open(args.file, encoding="utf-8") as file:
	text_lines = file.read().splitlines()

	processed_lines = [process_text(0, line, "cpu") for line in text_lines]
	x = [line["x"].squeeze() for line in processed_lines]
	# Pad
	x = torch.nn.utils.rnn.pad_sequence(x, batch_first=True)
	x = x.detach().cpu().numpy()
	x_lengths = np.array([line["x_lengths"].item() for line in processed_lines], dtype=np.int64)
	inputs = {
	"x": x,
	"x_lengths": x_lengths,
	"scales": np.array([args.temperature, args.speaking_rate], dtype=np.float32),
	}
	is_multi_speaker = len(model_inputs) == 4
	if is_multi_speaker:
	if args.spk is None:
	args.spk = 0
	warn = "[!] Speaker ID not provided! Using speaker ID 0"
	warnings.warn(warn, UserWarning)
	inputs["spks"] = np.repeat(args.spk, x.shape[0]).astype(np.int64)

	has_vocoder_embedded = model_outputs[0].name == "wav"
	if has_vocoder_embedded:
	write_wavs(model, inputs, args.output_dir)
	elif args.vocoder:
	external_vocoder = ort.InferenceSession(args.vocoder, providers=providers)
	write_wavs(model, inputs, args.output_dir, external_vocoder=external_vocoder)
	else:
	warn = "[!] A vocoder is not embedded in the graph nor an external vocoder is provided. The mel output will be written as numpy arrays to `*.npy` files in the output directory"
	warnings.warn(warn, UserWarning)
	write_mels(model, inputs, args.output_dir)


	if __name__ == "__main__":
	main()