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inference.py
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inference.py
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import os
import copy
import json
import time
import torch
import argparse
import soundfile as sf
import wandb
from tqdm import tqdm
from diffusers import DDPMScheduler
from audioldm_eval import EvaluationHelper
from models import build_pretrained_models, AudioDiffusion
from transformers import AutoProcessor, ClapModel
import torchaudio
from tango import Tango
class dotdict(dict):
"""dot.notation access to dictionary attributes"""
__getattr__ = dict.get
__setattr__ = dict.__setitem__
__delattr__ = dict.__delitem__
def chunks(lst, n):
"""Yield successive n-sized chunks from lst."""
for i in range(0, len(lst), n):
yield lst[i:i + n]
def parse_args():
parser = argparse.ArgumentParser(description="Inference for text to audio generation task.")
parser.add_argument(
"--original_args", type=str, default=None,
help="Path for summary jsonl file saved during training."
)
parser.add_argument(
"--model", type=str, default=None,
help="Path for saved model bin file."
)
parser.add_argument(
"--test_file", type=str, default="data/test_audiocaps_subset.json",
help="json file containing the test prompts for generation."
)
parser.add_argument(
"--text_key", type=str, default="captions",
help="Key containing the text in the json file."
)
parser.add_argument(
"--test_references", type=str, default="data/audiocaps_test_references/subset",
help="Folder containing the test reference wav files."
)
parser.add_argument(
"--num_steps", type=int, default=200,
help="How many denoising steps for generation.",
)
parser.add_argument(
"--guidance", type=float, default=3,
help="Guidance scale for classifier free guidance."
)
parser.add_argument(
"--batch_size", type=int, default=8,
help="Batch size for generation.",
)
parser.add_argument(
"--num_samples", type=int, default=1,
help="How many samples per prompt.",
)
args = parser.parse_args()
return args
def main():
args = parse_args()
train_args = dotdict(json.loads(open(args.original_args).readlines()[0]))
if "hf_model" not in train_args:
train_args["hf_model"] = None
# Load Models #
if train_args.hf_model:
tango = Tango(train_args.hf_model, "cpu")
vae, stft, model = tango.vae.cuda(), tango.stft.cuda(), tango.model.cuda()
else:
name = "audioldm-s-full"
vae, stft = build_pretrained_models(name)
vae, stft = vae.cuda(), stft.cuda()
model = AudioDiffusion(
train_args.text_encoder_name, train_args.scheduler_name, train_args.unet_model_name, train_args.unet_model_config, train_args.snr_gamma
).cuda()
model.eval()
# Load Trained Weight #
device = vae.device()
model.load_state_dict(torch.load(args.model))
scheduler = DDPMScheduler.from_pretrained(train_args.scheduler_name, subfolder="scheduler")
evaluator = EvaluationHelper(16000, "cuda:0")
if args.num_samples > 1:
clap = ClapModel.from_pretrained("laion/clap-htsat-unfused").to(device)
clap.eval()
clap_processor = AutoProcessor.from_pretrained("laion/clap-htsat-unfused")
wandb.init(project="Text to Audio Diffusion Evaluation")
def audio_text_matching(waveforms, text, sample_freq=16000, max_len_in_seconds=10):
new_freq = 48000
resampled = []
for wav in waveforms:
x = torchaudio.functional.resample(torch.tensor(wav, dtype=torch.float).reshape(1, -1), orig_freq=sample_freq, new_freq=new_freq)[0].numpy()
resampled.append(x[:new_freq*max_len_in_seconds])
inputs = clap_processor(text=text, audios=resampled, return_tensors="pt", padding=True, sampling_rate=48000)
inputs = {k: v.to(device) for k, v in inputs.items()}
with torch.no_grad():
outputs = clap(**inputs)
logits_per_audio = outputs.logits_per_audio
ranks = torch.argsort(logits_per_audio.flatten(), descending=True).cpu().numpy()
return ranks
# Load Data #
if train_args.prefix:
prefix = train_args.prefix
else:
prefix = ""
text_prompts = [json.loads(line)[args.text_key] for line in open(args.test_file).readlines()]
text_prompts = [prefix + inp for inp in text_prompts]
# Generate #
num_steps, guidance, batch_size, num_samples = args.num_steps, args.guidance, args.batch_size, args.num_samples
all_outputs = []
for k in tqdm(range(0, len(text_prompts), batch_size)):
text = text_prompts[k: k+batch_size]
with torch.no_grad():
latents = model.inference(text, scheduler, num_steps, guidance, num_samples, disable_progress=True)
mel = vae.decode_first_stage(latents)
wave = vae.decode_to_waveform(mel)
all_outputs += [item for item in wave]
# Save #
exp_id = str(int(time.time()))
if not os.path.exists("outputs"):
os.makedirs("outputs")
if num_samples == 1:
output_dir = "outputs/{}_{}_steps_{}_guidance_{}".format(exp_id, "_".join(args.model.split("/")[1:-1]), num_steps, guidance)
os.makedirs(output_dir, exist_ok=True)
for j, wav in enumerate(all_outputs):
sf.write("{}/output_{}.wav".format(output_dir, j), wav, samplerate=16000)
result = evaluator.main(output_dir, args.test_references)
result["Steps"] = num_steps
result["Guidance Scale"] = guidance
result["Test Instances"] = len(text_prompts)
wandb.log(result)
result["scheduler_config"] = dict(scheduler.config)
result["args"] = dict(vars(args))
result["output_dir"] = output_dir
with open("outputs/summary.jsonl", "a") as f:
f.write(json.dumps(result) + "\n\n")
else:
for i in range(num_samples):
output_dir = "outputs/{}_{}_steps_{}_guidance_{}/rank_{}".format(exp_id, "_".join(args.model.split("/")[1:-1]), num_steps, guidance, i+1)
os.makedirs(output_dir, exist_ok=True)
groups = list(chunks(all_outputs, num_samples))
for k in tqdm(range(len(groups))):
wavs_for_text = groups[k]
rank = audio_text_matching(wavs_for_text, text_prompts[k])
ranked_wavs_for_text = [wavs_for_text[r] for r in rank]
for i, wav in enumerate(ranked_wavs_for_text):
output_dir = "outputs/{}_{}_steps_{}_guidance_{}/rank_{}".format(exp_id, "_".join(args.model.split("/")[1:-1]), num_steps, guidance, i+1)
sf.write("{}/output_{}.wav".format(output_dir, k), wav, samplerate=16000)
# Compute results for each rank #
for i in range(num_samples):
output_dir = "outputs/{}_{}_steps_{}_guidance_{}/rank_{}".format(exp_id, "_".join(args.model.split("/")[1:-1]), num_steps, guidance, i+1)
result = evaluator.main(output_dir, args.test_references)
result["Steps"] = num_steps
result["Guidance Scale"] = guidance
result["Instances"] = len(text_prompts)
result["clap_rank"] = i+1
wb_result = copy.deepcopy(result)
wb_result = {"{}_rank{}".format(k, i+1): v for k, v in wb_result.items()}
wandb.log(wb_result)
result["scheduler_config"] = dict(scheduler.config)
result["args"] = dict(vars(args))
result["output_dir"] = output_dir
with open("outputs/summary.jsonl", "a") as f:
f.write(json.dumps(result) + "\n\n")
if __name__ == "__main__":
main()