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YuE-music-generator-demo-zero / app.py
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import gradio as gr
import subprocess
import os
import shutil
import tempfile
import spaces
import torch
import sys
import uuid
import re
print("Installing flash-attn...")
# Install flash attention
subprocess.run(
"pip install flash-attn --no-build-isolation",
env={"FLASH_ATTENTION_SKIP_CUDA_BUILD": "TRUE"},
shell=True
)
from huggingface_hub import snapshot_download
# Create xcodec_mini_infer folder
folder_path = './xcodec_mini_infer'
# Create the folder if it doesn't exist
if not os.path.exists(folder_path):
os.mkdir(folder_path)
print(f"Folder created at: {folder_path}")
else:
print(f"Folder already exists at: {folder_path}")
snapshot_download(
repo_id="m-a-p/xcodec_mini_infer",
local_dir="./xcodec_mini_infer"
)
# Change to the "inference" directory
inference_dir = "."
try:
os.chdir(inference_dir)
print(f"Changed working directory to: {os.getcwd()}")
except FileNotFoundError:
print(f"Directory not found: {inference_dir}")
exit(1)
sys.path.append(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'xcodec_mini_infer'))
sys.path.append(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'xcodec_mini_infer', 'descriptaudiocodec'))
# don't change above code
import argparse
import numpy as np
import json
from omegaconf import OmegaConf
import torchaudio
from torchaudio.transforms import Resample
import soundfile as sf
from tqdm import tqdm
from einops import rearrange
from codecmanipulator import CodecManipulator
from mmtokenizer import _MMSentencePieceTokenizer
from transformers import AutoTokenizer, AutoModelForCausalLM, LogitsProcessor, LogitsProcessorList
import glob
import time
import copy
from collections import Counter
from models.soundstream_hubert_new import SoundStream
device = "cuda:0"
# Load model and tokenizer outside the generation function (load once)
print("Loading model...")
model = AutoModelForCausalLM.from_pretrained(
"m-a-p/YuE-s1-7B-anneal-en-icl", # "m-a-p/YuE-s1-7B-anneal-en-cot",
torch_dtype=torch.float16,
attn_implementation="flash_attention_2",
).to(device)
model.eval()
print("Model loaded.")
basic_model_config = './xcodec_mini_infer/final_ckpt/config.yaml'
resume_path = './xcodec_mini_infer/final_ckpt/ckpt_00360000.pth'
mmtokenizer = _MMSentencePieceTokenizer("./mm_tokenizer_v0.2_hf/tokenizer.model")
codectool = CodecManipulator("xcodec", 0, 1)
model_config = OmegaConf.load(basic_model_config)
# Load codec model
codec_model = eval(model_config.generator.name)(**model_config.generator.config).to(device)
parameter_dict = torch.load(resume_path, map_location='cpu')
codec_model.load_state_dict(parameter_dict['codec_model'])
codec_model.eval()
print("Codec model loaded.")
class BlockTokenRangeProcessor(LogitsProcessor):
def __init__(self, start_id, end_id):
self.blocked_token_ids = list(range(start_id, end_id))
def __call__(self, input_ids, scores):
scores[:, self.blocked_token_ids] = -float("inf")
return scores
def load_audio_mono(filepath, sampling_rate=16000):
audio, sr = torchaudio.load(filepath)
# Convert to mono
audio = torch.mean(audio, dim=0, keepdim=True)
# Resample if needed
if sr != sampling_rate:
resampler = Resample(orig_freq=sr, new_freq=sampling_rate)
audio = resampler(audio)
return audio
def split_lyrics(lyrics: str):
pattern = r"\[(\w+)\](.*?)\n(?=\[|\Z)"
segments = re.findall(pattern, lyrics, re.DOTALL)
structured_lyrics = [f"[{seg[0]}]\n{seg[1].strip()}\n\n" for seg in segments]
return structured_lyrics
@spaces.GPU(duration=175)
def generate_music(
genre_txt=None,
lyrics_txt=None,
run_n_segments=2,
max_new_tokens=22,
use_audio_prompt=False,
audio_prompt_path="",
prompt_start_time=0.0,
prompt_end_time=30.0,
cuda_idx=0,
rescale=False,
):
"""
Generates music based on given genre and lyrics, optionally using an audio prompt.
This function orchestrates the music generation process, including prompt formatting,
model inference, and audio post-processing.
"""
if use_audio_prompt and not audio_prompt_path:
raise FileNotFoundError("Please provide an audio prompt file when 'Use Audio Prompt' is enabled!")
cuda_idx = cuda_idx
max_new_tokens = max_new_tokens * 100
with tempfile.TemporaryDirectory() as output_dir:
stage1_output_dir = os.path.join(output_dir, f"stage1")
os.makedirs(stage1_output_dir, exist_ok=True)
stage1_output_set = []
genres = genre_txt.strip()
lyrics = split_lyrics(lyrics_txt + "\n")
# instruction
full_lyrics = "\n".join(lyrics)
prompt_texts = [f"Generate music from the given lyrics segment by segment.\n[Genre] {genres}\n{full_lyrics}"]
prompt_texts += lyrics
random_id = uuid.uuid4()
raw_output = None
# Decoding config
top_p = 0.93
temperature = 1.0
repetition_penalty = 1.2
start_of_segment = mmtokenizer.tokenize('[start_of_segment]')
end_of_segment = mmtokenizer.tokenize('[end_of_segment]')
# Format text prompt
run_n_segments = min(run_n_segments + 1, len(lyrics))
print(list(enumerate(tqdm(prompt_texts[:run_n_segments]))))
for i, p in enumerate(tqdm(prompt_texts[:run_n_segments])):
section_text = p.replace('[start_of_segment]', '').replace('[end_of_segment]', '')
guidance_scale = 1.5 if i <= 1 else 1.2 # Guidance scale adjusted based on segment index
if i == 0:
continue
if i == 1:
if use_audio_prompt:
audio_prompt = load_audio_mono(audio_prompt_path)
audio_prompt.unsqueeze_(0)
with torch.no_grad():
raw_codes = codec_model.encode(audio_prompt.to(device), target_bw=0.5)
raw_codes = raw_codes.transpose(0, 1)
raw_codes = raw_codes.cpu().numpy().astype(np.int16)
# Format audio prompt
code_ids = codectool.npy2ids(raw_codes[0])
audio_prompt_codec = code_ids[int(prompt_start_time * 50): int(prompt_end_time * 50)] # 50 is tps of xcodec
audio_prompt_codec_ids = [mmtokenizer.soa] + codectool.sep_ids + audio_prompt_codec + [
mmtokenizer.eoa]
sentence_ids = mmtokenizer.tokenize("[start_of_reference]") + audio_prompt_codec_ids + mmtokenizer.tokenize(
"[end_of_reference]")
head_id = mmtokenizer.tokenize(prompt_texts[0]) + sentence_ids
else:
head_id = mmtokenizer.tokenize(prompt_texts[0])
prompt_ids = head_id + start_of_segment + mmtokenizer.tokenize(section_text) + [mmtokenizer.soa] + codectool.sep_ids
else:
prompt_ids = end_of_segment + start_of_segment + mmtokenizer.tokenize(section_text) + [mmtokenizer.soa] + codectool.sep_ids
prompt_ids = torch.as_tensor(prompt_ids).unsqueeze(0).to(device)
input_ids = torch.cat([raw_output, prompt_ids], dim=1) if i > 1 else prompt_ids
# Use window slicing in case output sequence exceeds the context of model
max_context = 16384 - max_new_tokens - 1
if input_ids.shape[-1] > max_context:
print(
f'Section {i}: output length {input_ids.shape[-1]} exceeding context length {max_context}, now using the last {max_context} tokens.')
input_ids = input_ids[:, -(max_context):]
with torch.inference_mode(), torch.autocast(device_type='cuda', dtype=torch.float16):
output_seq = model.generate(
input_ids=input_ids,
max_new_tokens=max_new_tokens,
min_new_tokens=100, # Keep min_new_tokens to avoid short generations
do_sample=True,
top_p=top_p,
temperature=temperature,
repetition_penalty=repetition_penalty,
eos_token_id=mmtokenizer.eoa,
pad_token_id=mmtokenizer.eoa,
logits_processor=LogitsProcessorList([BlockTokenRangeProcessor(0, 32002), BlockTokenRangeProcessor(32016, 32016)]),
guidance_scale=guidance_scale,
use_cache=True,
num_beams=3
)
if output_seq[0][-1].item() != mmtokenizer.eoa:
tensor_eoa = torch.as_tensor([[mmtokenizer.eoa]]).to(model.device)
output_seq = torch.cat((output_seq, tensor_eoa), dim=1)
if i > 1:
raw_output = torch.cat([raw_output, prompt_ids, output_seq[:, input_ids.shape[-1]:]], dim=1)
else:
raw_output = output_seq
print(len(raw_output))
# save raw output and check sanity
ids = raw_output[0].cpu().numpy()
soa_idx = np.where(ids == mmtokenizer.soa)[0].tolist()
eoa_idx = np.where(ids == mmtokenizer.eoa)[0].tolist()
if len(soa_idx) != len(eoa_idx):
raise ValueError(f'invalid pairs of soa and eoa, Num of soa: {len(soa_idx)}, Num of eoa: {len(eoa_idx)}')
vocals = []
instrumentals = []
range_begin = 1 if use_audio_prompt else 0
for i in range(range_begin, len(soa_idx)):
codec_ids = ids[soa_idx[i] + 1:eoa_idx[i]]
if codec_ids[0] == 32016:
codec_ids = codec_ids[1:]
codec_ids = codec_ids[:2 * (len(codec_ids) // 2)] # Ensure even length for reshape
vocals_ids = codectool.ids2npy(rearrange(codec_ids, "(n b) -> b n", b=2)[0])
vocals.append(vocals_ids)
instrumentals_ids = codectool.ids2npy(rearrange(codec_ids, "(n b) -> b n", b=2)[1])
instrumentals.append(instrumentals_ids)
vocals = np.concatenate(vocals, axis=1)
instrumentals = np.concatenate(instrumentals, axis=1)
vocal_save_path = os.path.join(stage1_output_dir, f"vocal_{random_id}".replace('.', '@') + '.npy')
inst_save_path = os.path.join(stage1_output_dir, f"instrumental_{random_id}".replace('.', '@') + '.npy')
np.save(vocal_save_path, vocals)
np.save(inst_save_path, instrumentals)
stage1_output_set.append(vocal_save_path)
stage1_output_set.append(inst_save_path)
print("Converting to Audio...")
# convert audio tokens to audio
def save_audio(wav: torch.Tensor, path, sample_rate: int, rescale: bool = False):
folder_path = os.path.dirname(path)
if not os.path.exists(folder_path):
os.makedirs(folder_path)
limit = 0.99
max_val = wav.abs().max()
wav = wav * min(limit / max_val, 1) if rescale else wav.clamp(-limit, limit)
torchaudio.save(str(path), wav, sample_rate=sample_rate, encoding='PCM_S', bits_per_sample=16)
# reconstruct tracks
recons_output_dir = os.path.join(output_dir, "recons")
recons_mix_dir = os.path.join(recons_output_dir, 'mix')
os.makedirs(recons_mix_dir, exist_ok=True)
tracks = []
for npy in stage1_output_set:
codec_result = np.load(npy)
decodec_rlt = []
with torch.no_grad():
decoded_waveform = codec_model.decode(
torch.as_tensor(codec_result.astype(np.int16), dtype=torch.long).unsqueeze(0).permute(1, 0, 2).to(device))
decoded_waveform = decoded_waveform.cpu().squeeze(0)
decodec_rlt.append(torch.as_tensor(decoded_waveform))
decodec_rlt = torch.cat(decodec_rlt, dim=-1)
save_path = os.path.join(recons_output_dir, os.path.splitext(os.path.basename(npy))[0] + ".mp3") # Save as mp3 for gradio
tracks.append(save_path)
save_audio(decodec_rlt, save_path, 16000)
# mix tracks
for inst_path in tracks:
try:
if (inst_path.endswith('.wav') or inst_path.endswith('.mp3')) and 'instrumental' in inst_path:
# find pair
vocal_path = inst_path.replace('instrumental', 'vocal')
if not os.path.exists(vocal_path):
continue
# mix
recons_mix = os.path.join(recons_mix_dir, os.path.basename(inst_path).replace('instrumental', 'mixed'))
vocal_stem, sr = sf.read(vocal_path)
instrumental_stem, _ = sf.read(inst_path)
mix_stem = (vocal_stem + instrumental_stem) / 1
return (sr, (mix_stem * 32767).astype(np.int16)), (sr, (vocal_stem * 32767).astype(np.int16)), (sr, (instrumental_stem * 32767).astype(np.int16))
except Exception as e:
print(e)
return None, None, None
# Gradio Interface
with gr.Blocks() as demo:
with gr.Column():
gr.Markdown("# YuE: Open Music Foundation Models for Full-Song Generation")
gr.HTML("""
<div style="display:flex;column-gap:4px;">
<a href="https://github.com/multimodal-art-projection/YuE">
<img src='https://img.shields.io/badge/GitHub-Repo-blue'>
</a>
<a href="https://map-yue.github.io">
<img src='https://img.shields.io/badge/Project-Page-green'>
</a>
<a href="https://huggingface.co./spaces/innova-ai/YuE-music-generator-demo?duplicate=true">
<img src="https://huggingface.co./datasets/huggingface/badges/resolve/main/duplicate-this-space-sm.svg" alt="Duplicate this Space">
</a>
</div>
""")
with gr.Row():
with gr.Column():
genre_txt = gr.Textbox(label="Genre")
lyrics_txt = gr.Textbox(label="Lyrics")
use_audio_prompt = gr.Checkbox(label="Use Audio Prompt?", value=False)
audio_prompt_input = gr.Audio(type="filepath", label="Audio Prompt (Optional)")
with gr.Column():
num_segments = gr.Number(label="Number of Segments", value=2, interactive=True)
max_new_tokens = gr.Slider(label="Duration of song", minimum=1, maximum=30, step=1, value=15, interactive=True)
submit_btn = gr.Button("Submit")
music_out = gr.Audio(label="Mixed Audio Result")
with gr.Accordion(label="Vocal and Instrumental Result", open=False):
vocal_out = gr.Audio(label="Vocal Audio")
instrumental_out = gr.Audio(label="Instrumental Audio")
gr.Markdown("## Call for Contributions\nIf you find this space interesting please feel free to contribute.")
# When the "Submit" button is clicked, pass the additional audio-related inputs to the function.
submit_btn.click(
fn=generate_music,
inputs=[
genre_txt,
lyrics_txt,
num_segments,
max_new_tokens,
use_audio_prompt,
audio_prompt_input,
],
outputs=[music_out, vocal_out, instrumental_out]
)
# Examples updated to only include text inputs
gr.Examples(
examples=[
[
"rap piano street tough piercing vocal hip-hop synthesizer clear vocal male",
"""[verse]
Woke up in the morning, sun is shining bright
Chasing all my dreams, gotta get my mind right
City lights are fading, but my vision's clear
Got my team beside me, no room for fear
[chorus]
Walking through the streets, beats inside my head
Every step I take, closer to the bread
People passing by, they don't understand
Building up my future with my own two hands
"""
],
[
"Bass Metalcore Thrash Metal Furious bright vocal male Angry aggressive vocal Guitar",
"""[verse]
Step back cause I'll ignite
Won't quit without a fight
No escape, gear up, it's a fierce fight
Brace up, raise your hands up and light
Fear the might. Step back cause I'll ignite
Won't back down without a fight
It keeps going and going, the heat is on.
[chorus]
Hot flame. Hot flame.
Still here, still holding aim
I don't care if I'm bright or dim: nah.
I've made it clear, I'll make it again
All I want is my crew and my gain.
I'm feeling wild, got a bit of rebel style.
Locked inside my mind, hot flame.
"""
]
],
inputs=[genre_txt, lyrics_txt],
outputs=[music_out, vocal_out, instrumental_out],
cache_examples=True,
cache_mode="eager",
fn=generate_music
)
demo.queue().launch(show_error=True)