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diva-audio / demo.py

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	import copy
	import os
	import random
	import sys

	import gradio as gr
	import librosa
	import numpy as np
	import soundfile as sf
	import torch
	import torch.nn.functional as F
	from accelerate import infer_auto_device_map
	from datasets import Audio
	from models.salmonn import SALMONN
	from safetensors.torch import load, load_model
	from tinydb import TinyDB
	from torch import nn
	from transformers import (
	AutoModelForCausalLM,
	AutoProcessor,
	AutoModel,
	AutoTokenizer,
	LlamaForCausalLM,
	TextIteratorStreamer,
	WhisperForConditionalGeneration,
	)
	from transformers.generation import GenerationConfig

	tokenizer = AutoTokenizer.from_pretrained("WillHeld/via-llama")
	prefix = torch.tensor([128000, 128006, 882, 128007, 271]).to("cuda:0")
	pre_user_suffix = torch.tensor([271]).to("cuda:0")
	final_header = torch.tensor([128009, 128006, 78191, 128007, 271]).to("cuda:0")
	cache = None
	anonymous = False

	resampler = Audio(sampling_rate=16_000)


	qwen_tokenizer = AutoTokenizer.from_pretrained(
	"Qwen/Qwen-Audio-Chat", trust_remote_code=True
	)
	qwen_model = AutoModelForCausalLM.from_pretrained(
	"Qwen/Qwen-Audio-Chat",
	device_map="auto",
	trust_remote_code=True,
	torch_dtype=torch.float16,
	).eval()

	qwen_model.generation_config = GenerationConfig.from_pretrained(
	"Qwen/Qwen-Audio-Chat",
	trust_remote_code=True,
	do_sample=False,
	top_k=50,
	top_p=1.0,
	)


	salmonn_model = SALMONN(
	ckpt="./SALMONN_PATHS/salmonn_v1.pth",
	whisper_path="./SALMONN_PATHS/whisper-large-v2",
	beats_path="./SALMONN_PATHS/BEATs_iter3_plus_AS2M_finetuned_on_AS2M_cpt2.pt",
	vicuna_path="./SALMONN_PATHS/vicuna-13b-v1.1",
	low_resource=False,
	device="cuda:0",
	)
	salmonn_tokenizer = salmonn_model.llama_tokenizer


	diva = AutoModel.from_pretrained("WillHeld/DiVA-llama-3-v0-8b", trust_remote_code=True)


	@torch.no_grad
	def salmonn_fwd(audio_input, prompt, do_sample=False, temperature=0.001):
	if audio_input == None:
	return ""
	sr, y = audio_input
	y = y.astype(np.float32)
	y /= np.max(np.abs(y))
	a = resampler.decode_example(
	resampler.encode_example({"array": y, "sampling_rate": sr})
	)
	sf.write("tmp.wav", a["array"], a["sampling_rate"], format="wav")
	streamer = TextIteratorStreamer(salmonn_tokenizer)
	with torch.cuda.amp.autocast(dtype=torch.float16):
	llm_message = salmonn_model.generate(
	wav_path="tmp.wav",
	prompt=prompt,
	do_sample=False,
	top_p=1.0,
	temperature=0.0,
	device="cuda:0",
	streamer=streamer,
	)

	response = ""
	for new_tokens in streamer:
	response += new_tokens
	yield response.replace("</s>", "")


	@torch.no_grad
	def qwen_audio(audio_input, prompt, do_sample=False, temperature=0.001):
	if audio_input == None:
	return ""
	sr, y = audio_input
	y = y.astype(np.float32)
	y /= np.max(np.abs(y))
	a = resampler.decode_example(
	resampler.encode_example({"array": y, "sampling_rate": sr})
	)
	sf.write("tmp.wav", a["array"], a["sampling_rate"], format="wav")
	query = qwen_tokenizer.from_list_format([{"audio": "tmp.wav"}, {"text": prompt}])

	response, history = qwen_model.chat(
	qwen_tokenizer,
	query=query,
	system="You are a helpful assistant.",
	history=None,
	)
	return response


	@torch.no_grad
	def via(audio_input, prompt, do_sample=False, temperature=0.001):
	if audio_input == None:
	return ""
	sr, y = audio_input
	y = y.astype(np.float32)
	y /= np.max(np.abs(y))
	a = resampler.decode_example(
	resampler.encode_example({"array": y, "sampling_rate": sr})
	)

	audio = a["array"]

	yield from diva.generate_stream(audio, prompt)


	def transcribe(audio_input, text_prompt, state, model_order):
	yield (
	gr.Button(
	value="Waiting in queue for GPU time...",
	interactive=False,
	variant="primary",
	),
	"",
	"",
	"",
	gr.Button(visible=False),
	gr.Button(visible=False),
	gr.Button(visible=False),
	state,
	)
	if audio_input == None:
	return (
	"",
	"",
	"",
	gr.Button(visible=False),
	gr.Button(visible=False),
	gr.Button(visible=False),
	state,
	)

	def gen_from_via():
	via_resp = via(audio_input, text_prompt)
	for resp in via_resp:
	v_resp = gr.Textbox(
	value=resp,
	visible=True,
	label=model_names[0] if not anonymous else f"Model {order}",
	)
	yield (v_resp, s_resp, q_resp)

	def gen_from_salmonn():
	salmonn_resp = salmonn_fwd(audio_input, text_prompt)
	for resp in salmonn_resp:
	s_resp = gr.Textbox(
	value=resp,
	visible=True,
	label=model_names[1] if not anonymous else f"Model {order}",
	)
	yield (v_resp, s_resp, q_resp)

	def gen_from_qwen():
	qwen_resp = qwen_audio(audio_input, text_prompt)
	q_resp = gr.Textbox(
	value=qwen_resp,
	visible=True,
	label=model_names[2] if not anonymous else f"Model {order}",
	)
	yield (v_resp, s_resp, q_resp)

	spinner_id = 0
	spinners = ["◐ ", "◓ ", "◑", "◒"]
	initial_responses = [("", "", "")]
	resp_generators = [
	gen_from_via(),
	gen_from_salmonn(),
	gen_from_qwen(),
	]
	order = -1
	resp_generators = [
	resp_generators[model_order[0]],
	resp_generators[model_order[1]],
	resp_generators[model_order[2]],
	]
	for generator in [initial_responses, *resp_generators]:
	order += 1
	for resps in generator:
	v_resp, s_resp, q_resp = resps
	resp_1 = resps[model_order[0]]
	resp_2 = resps[model_order[1]]
	resp_3 = resps[model_order[2]]
	spinner = spinners[spinner_id]
	spinner_id = (spinner_id + 1) % 4
	yield (
	gr.Button(
	value=spinner + " Generating Responses " + spinner,
	interactive=False,
	variant="primary",
	),
	resp_1,
	resp_2,
	resp_3,
	gr.Button(visible=False),
	gr.Button(visible=False),
	gr.Button(visible=False),
	state,
	)
	yield (
	gr.Button(
	value="Click to compare models!", interactive=True, variant="primary"
	),
	resp_1,
	resp_2,
	resp_3,
	gr.Button(visible=True),
	gr.Button(visible=True),
	gr.Button(visible=True),
	responses_complete(state),
	)


	def on_page_load(state, model_order):
	if state == 0:
	gr.Info(
	"Record what you want to say to your AI Assistant! All Audio recordings are stored only temporarily and will be erased as soon as you exit this page."
	)
	state = 1
	if anonymous:
	random.shuffle(model_order)
	return state, model_order


	def recording_complete(state):
	if state == 1:
	gr.Info(
	"Submit your recording to get responses from all three models! You can also influence the model responses with an optional prompt."
	)
	state = 2
	return (
	gr.Button(
	value="Click to compare models!", interactive=True, variant="primary"
	),
	state,
	)


	def responses_complete(state):
	if state == 2:
	gr.Info(
	"Give us your feedback! Mark which model gave you the best response so we can understand the quality of these different voice assistant models."
	)
	state = 3
	return state


	def clear_factory(button_id):
	def clear(audio_input, text_prompt, model_order):
	if button_id != None:
	sr, y = audio_input
	db.insert(
	{
	"audio_hash": hash(str(y)),
	"text_prompt": text_prompt,
	"best": model_shorthand[model_order[button_id]],
	}
	)
	if anonymous:
	random.shuffle(model_order)
	return (
	model_order,
	gr.Button(
	value="Record Audio to Submit!",
	interactive=False,
	),
	gr.Button(visible=False),
	gr.Button(visible=False),
	gr.Button(visible=False),
	None,
	gr.Textbox(visible=False),
	gr.Textbox(visible=False),
	gr.Textbox(visible=False),
	)

	return clear


	theme = gr.themes.Soft(
	primary_hue=gr.themes.Color(
	c100="#82000019",
	c200="#82000033",
	c300="#8200004c",
	c400="#82000066",
	c50="#8200007f",
	c500="#8200007f",
	c600="#82000099",
	c700="#820000b2",
	c800="#820000cc",
	c900="#820000e5",
	c950="#820000f2",
	),
	secondary_hue="rose",
	neutral_hue="stone",
	)

	db = TinyDB("user_study.json")

	model_names = ["Llama 3 DiVA", "SALMONN", "Qwen Audio"]
	model_shorthand = ["via", "salmonn", "qwen"]
	with gr.Blocks(theme=theme) as demo:
	state = gr.State(0)
	model_order = gr.State([0, 1, 2])
	with gr.Row():
	audio_input = gr.Audio(
	sources=["microphone"], streaming=False, label="Audio Input"
	)
	with gr.Row():
	prompt = gr.Textbox(
	value="",
	label="Text Prompt",
	placeholder="Optional: Additional text prompt to influence how the model responds to your speech. e.g. 'Respond in a Haiku style.'",
	)

	with gr.Row():
	btn = gr.Button(value="Record Audio to Submit!", interactive=False)

	with gr.Row():
	with gr.Column(scale=1):
	out1 = gr.Textbox(visible=False)
	best1 = gr.Button(value="This response is best", visible=False)
	with gr.Column(scale=1):
	out2 = gr.Textbox(visible=False)
	best2 = gr.Button(value="This response is best", visible=False)
	with gr.Column(scale=1):
	out3 = gr.Textbox(visible=False)
	best3 = gr.Button(value="This response is best", visible=False)

	audio_input.stop_recording(
	recording_complete,
	[state],
	[btn, state],
	)
	audio_input.start_recording(
	lambda: gr.Button(
	value="Uploading Audio to Cloud", interactive=False, variant="primary"
	),
	None,
	btn,
	)
	btn.click(
	fn=transcribe,
	inputs=[audio_input, prompt, state, model_order],
	outputs=[btn, out1, out2, out3, best1, best2, best3, state],
	)
	best1.click(
	fn=clear_factory(0),
	inputs=[audio_input, prompt, model_order],
	outputs=[model_order, btn, best1, best2, best3, audio_input, out1, out2, out3],
	)
	best2.click(
	fn=clear_factory(1),
	inputs=[audio_input, prompt, model_order],
	outputs=[model_order, btn, best1, best2, best3, audio_input, out1, out2, out3],
	)
	best3.click(
	fn=clear_factory(2),
	inputs=[audio_input, prompt, model_order],
	outputs=[model_order, btn, best1, best2, best3, audio_input, out1, out2, out3],
	)
	audio_input.clear(
	clear_factory(None),
	[audio_input, prompt, model_order],
	[model_order, btn, best1, best2, best3, audio_input, out1, out2, out3],
	)
	demo.load(
	fn=on_page_load, inputs=[state, model_order], outputs=[state, model_order]
	)

	demo.launch(share=True)