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| """A simple web interactive chat demo based on gradio.""" | |
| import os | |
| import time | |
| import gradio as gr | |
| import numpy as np | |
| import spaces | |
| import torch | |
| import os | |
| import lightning as L | |
| import torch | |
| import time | |
| from snac import SNAC | |
| from litgpt import Tokenizer | |
| from litgpt.utils import ( | |
| num_parameters, | |
| ) | |
| from litgpt.generate.base import ( | |
| generate_AA, | |
| generate_ASR, | |
| generate_TA, | |
| generate_TT, | |
| generate_AT, | |
| generate_TA_BATCH, | |
| ) | |
| from typing import Any, Literal, Optional | |
| import soundfile as sf | |
| from litgpt.model import GPT, Config | |
| from lightning.fabric.utilities.load import _lazy_load as lazy_load | |
| from utils.snac_utils import layershift, reconscruct_snac, reconstruct_tensors, get_time_str | |
| from utils.snac_utils import get_snac | |
| import whisper | |
| from tqdm import tqdm | |
| from huggingface_hub import snapshot_download | |
| from litgpt.generate.base import sample | |
| device = "cuda" if torch.cuda.is_available() else "cpu" | |
| ckpt_dir = "./checkpoint" | |
| streaming_output = True | |
| OUT_CHUNK = 4096 | |
| OUT_RATE = 24000 | |
| OUT_CHANNELS = 1 | |
| # TODO | |
| text_vocabsize = 151936 | |
| text_specialtokens = 64 | |
| audio_vocabsize = 4096 | |
| audio_specialtokens = 64 | |
| padded_text_vocabsize = text_vocabsize + text_specialtokens | |
| padded_audio_vocabsize = audio_vocabsize + audio_specialtokens | |
| _eot = text_vocabsize | |
| _pad_t = text_vocabsize + 1 | |
| _input_t = text_vocabsize + 2 | |
| _answer_t = text_vocabsize + 3 | |
| _asr = text_vocabsize + 4 | |
| _eoa = audio_vocabsize | |
| _pad_a = audio_vocabsize + 1 | |
| _input_a = audio_vocabsize + 2 | |
| _answer_a = audio_vocabsize + 3 | |
| _split = audio_vocabsize + 4 | |
| def download_model(ckpt_dir): | |
| repo_id = "gpt-omni/mini-omni" | |
| snapshot_download(repo_id, local_dir=ckpt_dir, revision="main") | |
| if not os.path.exists(ckpt_dir): | |
| print(f"checkpoint directory {ckpt_dir} not found, downloading from huggingface") | |
| download_model(ckpt_dir) | |
| snacmodel = SNAC.from_pretrained("hubertsiuzdak/snac_24khz").eval().to(device) | |
| whispermodel = whisper.load_model("small").to(device) | |
| whispermodel.eval() | |
| text_tokenizer = Tokenizer(ckpt_dir) | |
| # fabric = L.Fabric(devices=1, strategy="auto") | |
| config = Config.from_file(ckpt_dir + "/model_config.yaml") | |
| config.post_adapter = False | |
| model = GPT(config, device=device) | |
| state_dict = lazy_load(ckpt_dir + "/lit_model.pth") | |
| model.load_state_dict(state_dict, strict=True) | |
| model = model.to(device) | |
| model.eval() | |
| def get_input_ids_whisper_ATBatch(mel, leng, whispermodel, device): | |
| # with torch.no_grad(): | |
| mel = mel.unsqueeze(0).to(device) | |
| # audio_feature = whisper.decode(whispermodel,mel, options).audio_features | |
| audio_feature = whispermodel.embed_audio(mel)[0][:leng] | |
| T = audio_feature.size(0) | |
| input_ids_AA = [] | |
| for i in range(7): | |
| input_ids_item = [] | |
| input_ids_item.append(layershift(_input_a, i)) | |
| input_ids_item += [layershift(_pad_a, i)] * T | |
| input_ids_item += [(layershift(_eoa, i)), layershift(_answer_a, i)] | |
| input_ids_AA.append(torch.tensor(input_ids_item)) | |
| input_id_T = torch.tensor([_input_t] + [_pad_t] * T + [_eot, _answer_t]) | |
| input_ids_AA.append(input_id_T) | |
| input_ids_AT = [] | |
| for i in range(7): | |
| input_ids_item = [] | |
| input_ids_item.append(layershift(_input_a, i)) | |
| input_ids_item += [layershift(_pad_a, i)] * T | |
| input_ids_item += [(layershift(_eoa, i)), layershift(_pad_a, i)] | |
| input_ids_AT.append(torch.tensor(input_ids_item)) | |
| input_id_T = torch.tensor([_input_t] + [_pad_t] * T + [_eot, _answer_t]) | |
| input_ids_AT.append(input_id_T) | |
| input_ids = [input_ids_AA, input_ids_AT] | |
| stacked_inputids = [[] for _ in range(8)] | |
| for i in range(2): | |
| for j in range(8): | |
| stacked_inputids[j].append(input_ids[i][j]) | |
| stacked_inputids = [torch.stack(tensors) for tensors in stacked_inputids] | |
| return torch.stack([audio_feature, audio_feature]), stacked_inputids | |
| def next_token_batch( | |
| model: GPT, | |
| audio_features: torch.tensor, | |
| input_ids: list, | |
| whisper_lens: int, | |
| task: list, | |
| input_pos: torch.Tensor, | |
| **kwargs: Any, | |
| ) -> torch.Tensor: | |
| input_pos = input_pos.to(model.device) | |
| input_ids = [input_id.to(model.device) for input_id in input_ids] | |
| logits_a, logit_t = model( | |
| audio_features, input_ids, input_pos, whisper_lens=whisper_lens, task=task | |
| ) | |
| for i in range(7): | |
| logits_a[i] = logits_a[i][0].unsqueeze(0) | |
| logit_t = logit_t[1].unsqueeze(0) | |
| next_audio_tokens = [] | |
| for logit_a in logits_a: | |
| next_a = sample(logit_a, **kwargs).to(dtype=input_ids[0].dtype) | |
| next_audio_tokens.append(next_a) | |
| next_t = sample(logit_t, **kwargs).to(dtype=input_ids[0].dtype) | |
| return next_audio_tokens, next_t | |
| def load_audio(path): | |
| audio = whisper.load_audio(path) | |
| duration_ms = (len(audio) / 16000) * 1000 | |
| audio = whisper.pad_or_trim(audio) | |
| mel = whisper.log_mel_spectrogram(audio) | |
| return mel, int(duration_ms / 20) + 1 | |
| def generate_audio_data(snac_tokens, snacmodel, device=None): | |
| audio = reconstruct_tensors(snac_tokens, device) | |
| with torch.inference_mode(): | |
| audio_hat = snacmodel.decode(audio) | |
| audio_data = audio_hat.cpu().numpy().astype(np.float64) * 32768.0 | |
| audio_data = audio_data.astype(np.int16) | |
| audio_data = audio_data.tobytes() | |
| return audio_data | |
| def run_AT_batch_stream( | |
| audio_path, | |
| stream_stride=4, | |
| max_returned_tokens=2048, | |
| temperature=0.9, | |
| top_k=1, | |
| top_p=1.0, | |
| eos_id_a=_eoa, | |
| eos_id_t=_eot, | |
| ): | |
| assert os.path.exists(audio_path), f"audio file {audio_path} not found" | |
| model.set_kv_cache(batch_size=2, device=device) | |
| mel, leng = load_audio(audio_path) | |
| audio_feature, input_ids = get_input_ids_whisper_ATBatch(mel, leng, whispermodel, device) | |
| T = input_ids[0].size(1) | |
| # device = input_ids[0].device | |
| assert max_returned_tokens > T, f"max_returned_tokens {max_returned_tokens} should be greater than audio length {T}" | |
| if model.max_seq_length < max_returned_tokens - 1: | |
| raise NotImplementedError( | |
| f"max_seq_length {model.max_seq_length} needs to be >= {max_returned_tokens - 1}" | |
| ) | |
| input_pos = torch.tensor([T], device=device) | |
| list_output = [[] for i in range(8)] | |
| tokens_A, token_T = next_token_batch( | |
| model, | |
| audio_feature.to(torch.float32).to(model.device), | |
| input_ids, | |
| [T - 3, T - 3], | |
| ["A1T2", "A1T2"], | |
| input_pos=torch.arange(0, T, device=device), | |
| temperature=temperature, | |
| top_k=top_k, | |
| top_p=top_p, | |
| ) | |
| for i in range(7): | |
| list_output[i].append(tokens_A[i].tolist()[0]) | |
| list_output[7].append(token_T.tolist()[0]) | |
| model_input_ids = [[] for i in range(8)] | |
| for i in range(7): | |
| tokens_A[i] = tokens_A[i].clone() + padded_text_vocabsize + i * padded_audio_vocabsize | |
| model_input_ids[i].append(tokens_A[i].clone().to(device).to(torch.int32)) | |
| model_input_ids[i].append(torch.tensor([layershift(4097, i)], device=device)) | |
| model_input_ids[i] = torch.stack(model_input_ids[i]) | |
| model_input_ids[-1].append(token_T.clone().to(torch.int32)) | |
| model_input_ids[-1].append(token_T.clone().to(torch.int32)) | |
| model_input_ids[-1] = torch.stack(model_input_ids[-1]) | |
| text_end = False | |
| index = 1 | |
| nums_generate = stream_stride | |
| begin_generate = False | |
| current_index = 0 | |
| total_num = 0 | |
| for _ in tqdm(range(2, max_returned_tokens - T + 1)): | |
| tokens_A, token_T = next_token_batch( | |
| model, | |
| None, | |
| model_input_ids, | |
| None, | |
| None, | |
| input_pos=input_pos, | |
| temperature=temperature, | |
| top_k=top_k, | |
| top_p=top_p, | |
| ) | |
| if text_end: | |
| token_T = torch.tensor([_pad_t], device=device) | |
| if tokens_A[-1] == eos_id_a: | |
| break | |
| if token_T == eos_id_t: | |
| text_end = True | |
| for i in range(7): | |
| list_output[i].append(tokens_A[i].tolist()[0]) | |
| list_output[7].append(token_T.tolist()[0]) | |
| model_input_ids = [[] for i in range(8)] | |
| for i in range(7): | |
| tokens_A[i] = tokens_A[i].clone() +padded_text_vocabsize + i * padded_audio_vocabsize | |
| model_input_ids[i].append(tokens_A[i].clone().to(device).to(torch.int32)) | |
| model_input_ids[i].append( | |
| torch.tensor([layershift(4097, i)], device=device) | |
| ) | |
| model_input_ids[i] = torch.stack(model_input_ids[i]) | |
| model_input_ids[-1].append(token_T.clone().to(torch.int32)) | |
| model_input_ids[-1].append(token_T.clone().to(torch.int32)) | |
| model_input_ids[-1] = torch.stack(model_input_ids[-1]) | |
| if index == 7: | |
| begin_generate = True | |
| if begin_generate and streaming_output: | |
| current_index += 1 | |
| if current_index == nums_generate: | |
| current_index = 0 | |
| snac = get_snac(list_output, index, nums_generate) | |
| audio_stream = generate_audio_data(snac, snacmodel, device) | |
| yield audio_stream | |
| input_pos = input_pos.add_(1) | |
| index += 1 | |
| total_num += 1 | |
| text = text_tokenizer.decode(torch.tensor(list_output[-1])) | |
| print(f"text output: {text}") | |
| model.clear_kv_cache() | |
| if not streaming_output: | |
| snac = get_snac(list_output, 7, total_num-7) | |
| audio_stream = generate_audio_data(snac, snacmodel, device) | |
| return audio_stream | |
| # return list_output | |
| # for chunk in run_AT_batch_stream('./data/samples/output1.wav'): | |
| # audio_data = np.frombuffer(chunk, dtype=np.int16) | |
| def process_audio(audio): | |
| filepath = audio | |
| print(f"filepath: {filepath}") | |
| if filepath is None: | |
| return OUT_RATE, np.zeros((100, OUT_CHANNELS), dtype=np.int16) | |
| if not streaming_output: | |
| chunk = run_AT_batch_stream(filepath) | |
| audio_data = np.frombuffer(chunk, dtype=np.int16) | |
| audio_data = audio_data.reshape(-1, OUT_CHANNELS) | |
| return OUT_RATE, audio_data.astype(np.int16) | |
| cnt = 0 | |
| tik = time.time() | |
| for chunk in run_AT_batch_stream(filepath): | |
| # Convert chunk to numpy array | |
| if cnt == 0: | |
| print(f"first chunk time cost: {time.time() - tik:.3f}") | |
| cnt += 1 | |
| audio_data = np.frombuffer(chunk, dtype=np.int16) | |
| audio_data = audio_data.reshape(-1, OUT_CHANNELS) | |
| if streaming_output: | |
| yield OUT_RATE, audio_data.astype(np.int16) | |
| else: | |
| return OUT_RATE, audio_data.astype(np.int16) | |
| # # Create the Gradio interface | |
| # with gr.Blocks() as demo: | |
| # # Input component: allows users to record or upload audio | |
| # audio_input = gr.Audio(type="filepath", label="Record or Upload Audio") | |
| # # Output component: audio output that will automatically play | |
| # audio_output = gr.Audio(label="Processed Audio", streaming=streaming_output, autoplay=True) | |
| # # Button to trigger processing after recording/uploading | |
| # submit_btn = gr.Button("Submit") | |
| # # Functionality: When the button is clicked, process the audio and output it | |
| # submit_btn.click(fn=process_audio, inputs=audio_input, outputs=audio_output) | |
| if __name__ == '__main__': | |
| demo = gr.Interface( | |
| process_audio, | |
| inputs=gr.Audio(type="filepath", label="Microphone"), | |
| outputs=[gr.Audio(label="Response", streaming=streaming_output, autoplay=True)], | |
| title="Chat Mini-Omni Demo", | |
| live=True, | |
| ) | |
| demo.queue() | |
| demo.launch() | |