audioldm-text-to-audio-generation

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audioldm-text-to-audio-generation / audioldm /pipeline.py

deeplearning

Duplicate from AIFILMS/audioldm-text-to-audio-generation

ddc593e over 1 year ago

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	import os

	import argparse
	import yaml
	import torch

	from audioldm import LatentDiffusion, seed_everything
	from audioldm.utils import default_audioldm_config


	import time

	def make_batch_for_text_to_audio(text, batchsize=1):
	text = [text] * batchsize
	if batchsize < 1:
	print("Warning: Batchsize must be at least 1. Batchsize is set to .")
	fbank = torch.zeros((batchsize, 1024, 64)) # Not used, here to keep the code format
	stft = torch.zeros((batchsize, 1024, 512)) # Not used
	waveform = torch.zeros((batchsize, 160000)) # Not used
	fname = [""] * batchsize # Not used
	batch = (
	fbank,
	stft,
	None,
	fname,
	waveform,
	text,
	)
	return batch

	def build_model(config=None):
	if(torch.cuda.is_available()):
	device = torch.device("cuda:0")
	else:
	device = torch.device("cpu")

	if(config is not None):
	assert type(config) is str
	config = yaml.load(open(config, "r"), Loader=yaml.FullLoader)
	else:
	config = default_audioldm_config()

	# Use text as condition instead of using waveform during training
	config["model"]["params"]["device"] = device
	config["model"]["params"]["cond_stage_key"] = "text"

	# No normalization here
	latent_diffusion = LatentDiffusion(**config["model"]["params"])

	resume_from_checkpoint = "./ckpt/ldm_trimmed.ckpt"

	checkpoint = torch.load(resume_from_checkpoint, map_location=device)
	latent_diffusion.load_state_dict(checkpoint["state_dict"])

	latent_diffusion.eval()
	latent_diffusion = latent_diffusion.to(device)

	latent_diffusion.cond_stage_model.embed_mode = "text"
	return latent_diffusion

	def duration_to_latent_t_size(duration):
	return int(duration * 25.6)

	def text_to_audio(latent_diffusion, text, seed=42, duration=10, batchsize=1, guidance_scale=2.5, n_candidate_gen_per_text=3, config=None):
	seed_everything(int(seed))
	batch = make_batch_for_text_to_audio(text, batchsize=batchsize)

	latent_diffusion.latent_t_size = duration_to_latent_t_size(duration)
	with torch.no_grad():
	waveform = latent_diffusion.generate_sample(
	[batch],
	unconditional_guidance_scale=guidance_scale,
	n_candidate_gen_per_text=n_candidate_gen_per_text,
	duration=duration
	)
	return waveform