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import spaces
import logging
import os
import pickle
from concurrent.futures import ProcessPoolExecutor
from pathlib import Path
from tempfile import NamedTemporaryFile
import time
import typing as tp
import subprocess as sp
import torch
import gradio as gr
from audiocraft.data.audio_utils import f32_pcm, normalize_audio
from audiocraft.data.audio import audio_write
from audiocraft.models import JASCO
import os
from huggingface_hub import login

hf_token = os.environ.get('HFTOKEN')
if hf_token:
    login(token=hf_token)

MODEL = None
MAX_BATCH_SIZE = 12
INTERRUPTING = False

os.makedirs(os.path.join(os.path.dirname(__file__), "models"), exist_ok=True)

def generate_chord_mappings():
    # Define basic chord mappings
    basic_chords = ['N', 'C', 'Dm7', 'Am', 'F', 'D', 'Ab', 'Bb'] + ['UNK']
    chord_to_index = {chord: idx for idx, chord in enumerate(basic_chords)}
    
    # Save the mapping
    mapping_path = os.path.join(os.path.dirname(__file__), "models", "chord_to_index_mapping.pkl")
    os.makedirs(os.path.dirname(mapping_path), exist_ok=True)
    
    with open(mapping_path, "wb") as f:
        pickle.dump(chord_to_index, f)
    
    return mapping_path

def create_default_chord_mapping():
    """Create a basic chord-to-index mapping with common chords"""
    basic_chords = [
        'N', 'C', 'Cm', 'C7', 'Cmaj7', 'Cm7',
        'D', 'Dm', 'D7', 'Dmaj7', 'Dm7',
        'E', 'Em', 'E7', 'Emaj7', 'Em7',
        'F', 'Fm', 'F7', 'Fmaj7', 'Fm7',
        'G', 'Gm', 'G7', 'Gmaj7', 'Gm7',
        'A', 'Am', 'A7', 'Amaj7', 'Am7',
        'B', 'Bm', 'B7', 'Bmaj7', 'Bm7',
        'Ab', 'Abm', 'Ab7', 'Abmaj7', 'Abm7',
        'Bb', 'Bbm', 'Bb7', 'Bbmaj7', 'Bbm7',
        'UNK'
    ]
    return {chord: idx for idx, chord in enumerate(basic_chords)}

def initialize_chord_mapping():
    """Initialize chord mapping file if it doesn't exist"""
    mapping_dir = os.path.join(os.path.dirname(__file__), "models")
    os.makedirs(mapping_dir, exist_ok=True)
    
    mapping_file = os.path.join(mapping_dir, "chord_to_index_mapping.pkl")
    
    if not os.path.exists(mapping_file):
        chord_to_index = create_default_chord_mapping()
        with open(mapping_file, "wb") as f:
            pickle.dump(chord_to_index, f)
    
    return mapping_file

def validate_chord(chord, chord_mapping):
    if chord not in chord_mapping:
        return 'UNK'
    return chord

mapping_file = initialize_chord_mapping()
os.environ['AUDIOCRAFT_CHORD_MAPPING'] = mapping_file

def chords_string_to_list(chords: str):
    if chords == '':
        return []
    chords = chords.replace('[', '').replace(']', '').replace(' ', '')
    chrd_times = [x.split(',') for x in chords[1:-1].split('),(')]
    
    # Load chord mapping
    mapping_path = os.path.join(os.path.dirname(__file__), "models", "chord_to_index_mapping.pkl")
    with open(mapping_path, 'rb') as f:
        chord_mapping = pickle.load(f)
    
    return [(validate_chord(x[0], chord_mapping), float(x[1])) for x in chrd_times]

# Wrap subprocess call to clean logs
_old_call = sp.call

def _call_nostderr(*args, **kwargs):
    kwargs['stderr'] = sp.DEVNULL
    kwargs['stdout'] = sp.DEVNULL
    _old_call(*args, **kwargs)

sp.call = _call_nostderr

# Preallocate process pool
pool = ProcessPoolExecutor(4)
pool.__enter__()

def interrupt():
    global INTERRUPTING
    INTERRUPTING = True

class FileCleaner:
    def __init__(self, file_lifetime: float = 3600):
        self.file_lifetime = file_lifetime
        self.files = []

    def add(self, path: tp.Union[str, Path]):
        self._cleanup()
        self.files.append((time.time(), Path(path)))

    def _cleanup(self):
        now = time.time()
        for time_added, path in list(self.files):
            if now - time_added > self.file_lifetime:
                if path.exists():
                    path.unlink()
                self.files.pop(0)
            else:
                break

file_cleaner = FileCleaner()

def chords_string_to_list(chords: str):
    if chords == '':
        return []
    chords = chords.replace('[', '').replace(']', '').replace(' ', '')
    chrd_times = [x.split(',') for x in chords[1:-1].split('),(')]
    return [(x[0], float(x[1])) for x in chrd_times]

# Create necessary directories
os.makedirs("models", exist_ok=True)

@spaces.GPU
def load_model(version='facebook/jasco-chords-drums-400M'):
    global MODEL
    print("Loading model", version)
    if MODEL is None or MODEL.name != version:
        MODEL = None
        
        # Setup model directory
        model_dir = os.path.join(os.path.dirname(__file__), "models")
        os.makedirs(model_dir, exist_ok=True)
        
        # Generate and save chord mappings
        chord_mapping_path = os.path.join(model_dir, "chord_to_index_mapping.pkl")
        if not os.path.exists(chord_mapping_path):
            chord_mapping_path = generate_chord_mappings()
        
        try:
            # Initialize JASCO with the chord mapping path
            MODEL = JASCO.get_pretrained(
                version,
                device='cuda',
                chords_mapping_path=chord_mapping_path
            )
            MODEL.name = version
        except Exception as e:
            raise gr.Error(f"Error loading model: {str(e)}")
        
        if MODEL is None:
            raise gr.Error("Failed to load model")
    
    return MODEL

@spaces.GPU
def _do_predictions(texts, chords, melody_matrix, drum_prompt, progress=False, gradio_progress=None, **gen_kwargs):
    MODEL.set_generation_params(**gen_kwargs)
    be = time.time()

    chords = chords_string_to_list(chords)

    if melody_matrix is not None:
        melody_matrix = torch.load(melody_matrix.name, weights_only=True)
        if len(melody_matrix.shape) != 2:
            raise gr.Error(f"Melody matrix should be a torch tensor of shape [n_melody_bins, T]; got: {melody_matrix.shape}")
        if melody_matrix.shape[0] > melody_matrix.shape[1]:
            melody_matrix = melody_matrix.permute(1, 0)

    if drum_prompt is None:
        preprocessed_drums_wav = None
        drums_sr = 32000
    else:
        drums_sr, drums = drum_prompt[0], f32_pcm(torch.from_numpy(drum_prompt[1])).t()
        if drums.dim() == 1:
            drums = drums[None]
        drums = normalize_audio(drums, strategy="loudness", loudness_headroom_db=16, sample_rate=drums_sr)
        preprocessed_drums_wav = drums

    try:
        outputs = MODEL.generate_music(descriptions=texts, chords=chords,
                                     drums_wav=preprocessed_drums_wav,
                                     melody_salience_matrix=melody_matrix,
                                     drums_sample_rate=drums_sr, progress=progress)
    except RuntimeError as e:
        raise gr.Error("Error while generating " + e.args[0])

    outputs = outputs.detach().cpu().float()
    out_wavs = []
    for output in outputs:
        with NamedTemporaryFile("wb", suffix=".wav", delete=False) as file:
            audio_write(
                file.name, output, MODEL.sample_rate, strategy="loudness",
                loudness_headroom_db=16, loudness_compressor=True, add_suffix=False)
            out_wavs.append(file.name)
            file_cleaner.add(file.name)
    return out_wavs

@spaces.GPU
def predict_full(model, text, chords_sym, melody_file,
                drums_file, drums_mic, drum_input_src,
                cfg_coef_all, cfg_coef_txt,
                ode_rtol, ode_atol,
                ode_solver, ode_steps,
                progress=gr.Progress()):
    global INTERRUPTING
    INTERRUPTING = False
    progress(0, desc="Loading model...")
    load_model(model)

    max_generated = 0

    def _progress(generated, to_generate):
        nonlocal max_generated
        max_generated = max(generated, max_generated)
        progress((min(max_generated, to_generate), to_generate))
        if INTERRUPTING:
            raise gr.Error("Interrupted.")
    
    MODEL.set_custom_progress_callback(_progress)

    drums = drums_mic if drum_input_src == "mic" else drums_file
    wavs = _do_predictions(
        texts=[text] * 2,
        chords=chords_sym,
        drum_prompt=drums,
        melody_matrix=melody_file,
        progress=True,
        gradio_progress=progress,
        cfg_coef_all=cfg_coef_all,
        cfg_coef_txt=cfg_coef_txt,
        ode_rtol=ode_rtol,
        ode_atol=ode_atol,
        euler=ode_solver == 'euler',
        euler_steps=ode_steps)

    return wavs

with gr.Blocks() as demo:
    gr.Markdown("""
    # JASCO - Text-to-Music Generation with Temporal Control
    Generate 10-second music clips using text descriptions and temporal controls (chords, drums, melody).
    """)

    with gr.Row():
        with gr.Column():
            submit = gr.Button("Generate")
            interrupt_btn = gr.Button("Interrupt")

        with gr.Column():
            audio_output_0 = gr.Audio(label="Generated Audio 1", type='filepath')
            audio_output_1 = gr.Audio(label="Generated Audio 2", type='filepath')

    with gr.Row():
        with gr.Column():
            text = gr.Text(label="Input Text",
                          value="Strings, woodwind, orchestral, symphony.",
                          interactive=True)
        with gr.Column():
            model = gr.Radio([
                'facebook/jasco-chords-drums-400M',
                'facebook/jasco-chords-drums-1B',
                'facebook/jasco-chords-drums-melody-400M',
                'facebook/jasco-chords-drums-melody-1B'
            ], label="Model", value='facebook/jasco-chords-drums-melody-400M')

    gr.Markdown("### Chords Conditions")
    chords_sym = gr.Text(
        label="Chord Progression",
        value="(C, 0.0), (D, 2.0), (F, 4.0), (Ab, 6.0), (Bb, 7.0), (C, 8.0)",
        interactive=True
    )

    gr.Markdown("### Drums Conditions")
    with gr.Row():
        drum_input_src = gr.Radio(["file", "mic"], value="file", label="Drums Input Source")
        drums_file = gr.Audio(sources=["upload"], type="numpy", label="Drums File")
        drums_mic = gr.Audio(sources=["microphone"], type="numpy", label="Drums Mic")

    gr.Markdown("### Melody Conditions")
    melody_file = gr.File(label="Melody File")

    with gr.Row():
        cfg_coef_all = gr.Number(label="CFG ALL", value=1.25, step=0.25)
        cfg_coef_txt = gr.Number(label="CFG TEXT", value=2.5, step=0.25)
        ode_tol = gr.Number(label="ODE Tolerance", value=1e-4, step=1e-5)
        ode_solver = gr.Radio(['euler', 'dopri5'], label="ODE Solver", value='euler')
        ode_steps = gr.Number(label="Euler Steps", value=10, step=1)

    submit.click(
        fn=predict_full,
        inputs=[
            model, text, chords_sym, melody_file,
            drums_file, drums_mic, drum_input_src,
            cfg_coef_all, cfg_coef_txt,
            ode_tol, ode_tol, ode_solver, ode_steps
        ],
        outputs=[audio_output_0, audio_output_1]
    )
    
    interrupt_btn.click(fn=interrupt, queue=False)

    gr.Examples(
        examples=[
            [
                "80s pop with groovy synth bass and electric piano",
                "(N, 0.0), (C, 0.32), (Dm7, 3.456), (Am, 4.608), (F, 8.32), (C, 9.216)",
                None,
                None,
            ],
            [
                "Strings, woodwind, orchestral, symphony.",
                "(C, 0.0), (D, 2.0), (F, 4.0), (Ab, 6.0), (Bb, 7.0), (C, 8.0)",
                None,
                None,
            ],
        ],
        inputs=[text, chords_sym, melody_file, drums_file],
        outputs=[audio_output_0, audio_output_1]
    )

demo.queue().launch(ssr_mode=False)