fish-diffusion_demo / inference.py
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import argparse
import json
import os
from functools import partial
from typing import Union
import gradio as gr
import librosa
import numpy as np
import soundfile as sf
import torch
from fish_audio_preprocess.utils import loudness_norm, separate_audio
from loguru import logger
from mmengine import Config
from fish_diffusion.feature_extractors import FEATURE_EXTRACTORS, PITCH_EXTRACTORS
from fish_diffusion.utils.audio import get_mel_from_audio, slice_audio
from fish_diffusion.utils.inference import load_checkpoint
from fish_diffusion.utils.tensor import repeat_expand
@torch.no_grad()
def inference(
config,
checkpoint,
input_path,
output_path,
speaker_id=0,
pitch_adjust=0,
silence_threshold=30,
max_slice_duration=5,
extract_vocals=True,
merge_non_vocals=True,
vocals_loudness_gain=0.0,
sampler_interval=None,
sampler_progress=False,
device="cuda",
gradio_progress=None,
):
"""Inference
Args:
config: config
checkpoint: checkpoint path
input_path: input path
output_path: output path
speaker_id: speaker id
pitch_adjust: pitch adjust
silence_threshold: silence threshold of librosa.effects.split
max_slice_duration: maximum duration of each slice
extract_vocals: extract vocals
merge_non_vocals: merge non-vocals, only works when extract_vocals is True
vocals_loudness_gain: loudness gain of vocals (dB)
sampler_interval: sampler interval, lower value means higher quality
sampler_progress: show sampler progress
device: device
gradio_progress: gradio progress callback
"""
if sampler_interval is not None:
config.model.diffusion.sampler_interval = sampler_interval
if os.path.isdir(checkpoint):
# Find the latest checkpoint
checkpoints = sorted(os.listdir(checkpoint))
logger.info(f"Found {len(checkpoints)} checkpoints, using {checkpoints[-1]}")
checkpoint = os.path.join(checkpoint, checkpoints[-1])
audio, sr = librosa.load(input_path, sr=config.sampling_rate, mono=True)
# Extract vocals
if extract_vocals:
logger.info("Extracting vocals...")
if gradio_progress is not None:
gradio_progress(0, "Extracting vocals...")
model = separate_audio.init_model("htdemucs", device=device)
audio = librosa.resample(audio, orig_sr=sr, target_sr=model.samplerate)[None]
# To two channels
audio = np.concatenate([audio, audio], axis=0)
audio = torch.from_numpy(audio).to(device)
tracks = separate_audio.separate_audio(
model, audio, shifts=1, num_workers=0, progress=True
)
audio = separate_audio.merge_tracks(tracks, filter=["vocals"]).cpu().numpy()
non_vocals = (
separate_audio.merge_tracks(tracks, filter=["drums", "bass", "other"])
.cpu()
.numpy()
)
audio = librosa.resample(audio[0], orig_sr=model.samplerate, target_sr=sr)
non_vocals = librosa.resample(
non_vocals[0], orig_sr=model.samplerate, target_sr=sr
)
# Normalize loudness
non_vocals = loudness_norm.loudness_norm(non_vocals, sr)
# Normalize loudness
audio = loudness_norm.loudness_norm(audio, sr)
# Slice into segments
segments = list(
slice_audio(
audio, sr, max_duration=max_slice_duration, top_db=silence_threshold
)
)
logger.info(f"Sliced into {len(segments)} segments")
# Load models
text_features_extractor = FEATURE_EXTRACTORS.build(
config.preprocessing.text_features_extractor
).to(device)
text_features_extractor.eval()
model = load_checkpoint(config, checkpoint, device=device)
pitch_extractor = PITCH_EXTRACTORS.build(config.preprocessing.pitch_extractor)
assert pitch_extractor is not None, "Pitch extractor not found"
generated_audio = np.zeros_like(audio)
audio_torch = torch.from_numpy(audio).to(device)[None]
for idx, (start, end) in enumerate(segments):
if gradio_progress is not None:
gradio_progress(idx / len(segments), "Generating audio...")
segment = audio_torch[:, start:end]
logger.info(
f"Processing segment {idx + 1}/{len(segments)}, duration: {segment.shape[-1] / sr:.2f}s"
)
# Extract mel
mel = get_mel_from_audio(segment, sr)
# Extract pitch (f0)
pitch = pitch_extractor(segment, sr, pad_to=mel.shape[-1]).float()
pitch *= 2 ** (pitch_adjust / 12)
# Extract text features
text_features = text_features_extractor(segment, sr)[0]
text_features = repeat_expand(text_features, mel.shape[-1]).T
# Predict
src_lens = torch.tensor([mel.shape[-1]]).to(device)
features = model.model.forward_features(
speakers=torch.tensor([speaker_id]).long().to(device),
contents=text_features[None].to(device),
src_lens=src_lens,
max_src_len=max(src_lens),
mel_lens=src_lens,
max_mel_len=max(src_lens),
pitches=pitch[None].to(device),
)
result = model.model.diffusion(features["features"], progress=sampler_progress)
wav = model.vocoder.spec2wav(result[0].T, f0=pitch).cpu().numpy()
max_wav_len = generated_audio.shape[-1] - start
generated_audio[start : start + wav.shape[-1]] = wav[:max_wav_len]
# Loudness normalization
generated_audio = loudness_norm.loudness_norm(generated_audio, sr)
# Loudness gain
loudness_float = 10 ** (vocals_loudness_gain / 20)
generated_audio = generated_audio * loudness_float
# Merge non-vocals
if extract_vocals and merge_non_vocals:
generated_audio = (generated_audio + non_vocals) / 2
logger.info("Done")
if output_path is not None:
sf.write(output_path, generated_audio, sr)
return generated_audio, sr
def parse_args():
parser = argparse.ArgumentParser()
parser.add_argument(
"--config",
type=str,
required=True,
help="Path to the config file",
)
parser.add_argument(
"--checkpoint",
type=str,
required=True,
help="Path to the checkpoint file",
)
parser.add_argument(
"--gradio",
action="store_true",
help="Run in gradio mode",
)
parser.add_argument(
"--gradio_share",
action="store_true",
help="Share gradio app",
)
parser.add_argument(
"--input",
type=str,
required=False,
help="Path to the input audio file",
)
parser.add_argument(
"--output",
type=str,
required=False,
help="Path to the output audio file",
)
parser.add_argument(
"--speaker_id",
type=int,
default=0,
help="Speaker id",
)
parser.add_argument(
"--speaker_mapping",
type=str,
default=None,
help="Speaker mapping file (gradio mode only)",
)
parser.add_argument(
"--pitch_adjust",
type=int,
default=0,
help="Pitch adjustment in semitones",
)
parser.add_argument(
"--extract_vocals",
action="store_true",
help="Extract vocals",
)
parser.add_argument(
"--merge_non_vocals",
action="store_true",
help="Merge non-vocals",
)
parser.add_argument(
"--vocals_loudness_gain",
type=float,
default=0,
help="Loudness gain for vocals",
)
parser.add_argument(
"--sampler_interval",
type=int,
default=None,
required=False,
help="Sampler interval, if not specified, will be taken from config",
)
parser.add_argument(
"--sampler_progress",
action="store_true",
help="Show sampler progress",
)
parser.add_argument(
"--device",
type=str,
default=None,
required=False,
help="Device to use",
)
return parser.parse_args()
def run_inference(
config_path: str,
model_path: str,
input_path: str,
speaker: Union[int, str],
pitch_adjust: int,
sampler_interval: int,
extract_vocals: bool,
device: str,
progress=gr.Progress(),
speaker_mapping: dict = None,
):
if speaker_mapping is not None and isinstance(speaker, str):
speaker = speaker_mapping[speaker]
audio, sr = inference(
Config.fromfile(config_path),
model_path,
input_path=input_path,
output_path=None,
speaker_id=speaker,
pitch_adjust=pitch_adjust,
sampler_interval=round(sampler_interval),
extract_vocals=extract_vocals,
merge_non_vocals=False,
device=device,
gradio_progress=progress,
)
return (sr, audio)
def launch_gradio(args):
with gr.Blocks(title="Fish Diffusion") as app:
gr.Markdown("# Fish Diffusion SVC Inference")
with gr.Row():
with gr.Column():
input_audio = gr.Audio(
label="Input Audio",
type="filepath",
value=args.input,
)
output_audio = gr.Audio(label="Output Audio")
with gr.Column():
if args.speaker_mapping is not None:
speaker_mapping = json.load(open(args.speaker_mapping))
speaker = gr.Dropdown(
label="Speaker Name (Used for Multi-Speaker Models)",
choices=list(speaker_mapping.keys()),
value=list(speaker_mapping.keys())[0],
)
else:
speaker_mapping = None
speaker = gr.Number(
label="Speaker ID (Used for Multi-Speaker Models)",
value=args.speaker_id,
)
pitch_adjust = gr.Number(
label="Pitch Adjust (Semitones)", value=args.pitch_adjust
)
sampler_interval = gr.Slider(
label="Sampler Interval (⬆️ Faster Generation, ⬇️ Better Quality)",
value=args.sampler_interval or 10,
minimum=1,
maximum=100,
)
extract_vocals = gr.Checkbox(
label="Extract Vocals (For low quality audio)",
value=args.extract_vocals,
)
device = gr.Radio(
label="Device", choices=["cuda", "cpu"], value=args.device or "cuda"
)
run_btn = gr.Button(label="Run")
run_btn.click(
partial(
run_inference,
args.config,
args.checkpoint,
speaker_mapping=speaker_mapping,
),
[
input_audio,
speaker,
pitch_adjust,
sampler_interval,
extract_vocals,
device,
],
output_audio,
)
app.queue(concurrency_count=2).launch(share=args.gradio_share)
if __name__ == "__main__":
args = parse_args()
assert args.gradio or (
args.input is not None and args.output is not None
), "Either --gradio or --input and --output should be specified"
if args.device is None:
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
else:
device = torch.device(args.device)
if args.gradio:
args.device = device
launch_gradio(args)
else:
inference(
Config.fromfile(args.config),
args.checkpoint,
args.input,
args.output,
speaker_id=args.speaker_id,
pitch_adjust=args.pitch_adjust,
extract_vocals=args.extract_vocals,
merge_non_vocals=args.merge_non_vocals,
vocals_loudness_gain=args.vocals_loudness_gain,
sampler_interval=args.sampler_interval,
sampler_progress=args.sampler_progress,
device=device,
)