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# coding=utf-8

import os
import librosa
import base64
import io
import gradio as gr
import re

import numpy as np
import torch
import torchaudio

import spaces

from funasr import AutoModel

model = "FunAudioLLM/SenseVoiceSmall"
model = AutoModel(model=model,
				  vad_model="iic/speech_fsmn_vad_zh-cn-16k-common-pytorch",
				  vad_kwargs={"max_single_segment_time": 30000},
                  hub="hf",
                  device="cuda"
				  )

import re

emo_dict = {
	"<|HAPPY|>": "๐Ÿ˜Š",
	"<|SAD|>": "๐Ÿ˜”",
	"<|ANGRY|>": "๐Ÿ˜ก",
	"<|NEUTRAL|>": "",
	"<|FEARFUL|>": "๐Ÿ˜ฐ",
	"<|DISGUSTED|>": "๐Ÿคข",
	"<|SURPRISED|>": "๐Ÿ˜ฎ",
}

event_dict = {
	"<|BGM|>": "๐ŸŽผ",
	"<|Speech|>": "",
	"<|Applause|>": "๐Ÿ‘",
	"<|Laughter|>": "๐Ÿ˜€",
	"<|Cry|>": "๐Ÿ˜ญ",
	"<|Sneeze|>": "๐Ÿคง",
	"<|Breath|>": "",
	"<|Cough|>": "๐Ÿคง",
}

emoji_dict = {
	"<|nospeech|><|Event_UNK|>": "โ“",
	"<|zh|>": "",
	"<|en|>": "",
	"<|yue|>": "",
	"<|ja|>": "",
	"<|ko|>": "",
	"<|nospeech|>": "",
	"<|HAPPY|>": "๐Ÿ˜Š",
	"<|SAD|>": "๐Ÿ˜”",
	"<|ANGRY|>": "๐Ÿ˜ก",
	"<|NEUTRAL|>": "",
	"<|BGM|>": "๐ŸŽผ",
	"<|Speech|>": "",
	"<|Applause|>": "๐Ÿ‘",
	"<|Laughter|>": "๐Ÿ˜€",
	"<|FEARFUL|>": "๐Ÿ˜ฐ",
	"<|DISGUSTED|>": "๐Ÿคข",
	"<|SURPRISED|>": "๐Ÿ˜ฎ",
	"<|Cry|>": "๐Ÿ˜ญ",
	"<|EMO_UNKNOWN|>": "",
	"<|Sneeze|>": "๐Ÿคง",
	"<|Breath|>": "",
	"<|Cough|>": "๐Ÿ˜ท",
	"<|Sing|>": "",
	"<|Speech_Noise|>": "",
	"<|withitn|>": "",
	"<|woitn|>": "",
	"<|GBG|>": "",
	"<|Event_UNK|>": "",
}

lang_dict =  {
    "<|zh|>": "<|lang|>",
    "<|en|>": "<|lang|>",
    "<|yue|>": "<|lang|>",
    "<|ja|>": "<|lang|>",
    "<|ko|>": "<|lang|>",
    "<|nospeech|>": "<|lang|>",
}

emo_set = {"๐Ÿ˜Š", "๐Ÿ˜”", "๐Ÿ˜ก", "๐Ÿ˜ฐ", "๐Ÿคข", "๐Ÿ˜ฎ"}
event_set = {"๐ŸŽผ", "๐Ÿ‘", "๐Ÿ˜€", "๐Ÿ˜ญ", "๐Ÿคง", "๐Ÿ˜ท",}

def format_str(s):
	for sptk in emoji_dict:
		s = s.replace(sptk, emoji_dict[sptk])
	return s


def format_str_v2(s):
	sptk_dict = {}
	for sptk in emoji_dict:
		sptk_dict[sptk] = s.count(sptk)
		s = s.replace(sptk, "")
	emo = "<|NEUTRAL|>"
	for e in emo_dict:
		if sptk_dict[e] > sptk_dict[emo]:
			emo = e
	for e in event_dict:
		if sptk_dict[e] > 0:
			s = event_dict[e] + s
	s = s + emo_dict[emo]

	for emoji in emo_set.union(event_set):
		s = s.replace(" " + emoji, emoji)
		s = s.replace(emoji + " ", emoji)
	return s.strip()

def format_str_v3(s):
	def get_emo(s):
		return s[-1] if s[-1] in emo_set else None
	def get_event(s):
		return s[0] if s[0] in event_set else None

	s = s.replace("<|nospeech|><|Event_UNK|>", "โ“")
	for lang in lang_dict:
		s = s.replace(lang, "<|lang|>")
	s_list = [format_str_v2(s_i).strip(" ") for s_i in s.split("<|lang|>")]
	new_s = " " + s_list[0]
	cur_ent_event = get_event(new_s)
	for i in range(1, len(s_list)):
		if len(s_list[i]) == 0:
			continue
		if get_event(s_list[i]) == cur_ent_event and get_event(s_list[i]) != None:
			s_list[i] = s_list[i][1:]
		#else:
		cur_ent_event = get_event(s_list[i])
		if get_emo(s_list[i]) != None and get_emo(s_list[i]) == get_emo(new_s):
			new_s = new_s[:-1]
		new_s += s_list[i].strip().lstrip()
	new_s = new_s.replace("The.", " ")
	return new_s.strip()

@spaces.GPU
def model_inference(input_wav, language, fs=16000):
	# task_abbr = {"Speech Recognition": "ASR", "Rich Text Transcription": ("ASR", "AED", "SER")}
	language_abbr = {"auto": "auto", "zh": "zh", "en": "en", "yue": "yue", "ja": "ja", "ko": "ko",
					 "nospeech": "nospeech"}
	
	# task = "Speech Recognition" if task is None else task
	language = "auto" if len(language) < 1 else language
	selected_language = language_abbr[language]
	# selected_task = task_abbr.get(task)
	
	# print(f"input_wav: {type(input_wav)}, {input_wav[1].shape}, {input_wav}")
	
	if isinstance(input_wav, tuple):
		fs, input_wav = input_wav
		input_wav = input_wav.astype(np.float32) / np.iinfo(np.int16).max
		if len(input_wav.shape) > 1:
			input_wav = input_wav.mean(-1)
		if fs != 16000:
			print(f"audio_fs: {fs}")
			resampler = torchaudio.transforms.Resample(fs, 16000)
			input_wav_t = torch.from_numpy(input_wav).to(torch.float32)
			input_wav = resampler(input_wav_t[None, :])[0, :].numpy()
	
	
	merge_vad = True #False if selected_task == "ASR" else True
	print(f"language: {language}, merge_vad: {merge_vad}")
	text = model.generate(input=input_wav,
						  cache={},
						  language=language,
						  use_itn=True,
						  batch_size_s=500, merge_vad=merge_vad)
	
	print(text)
	text = text[0]["text"]
	text = format_str_v3(text)
	
	print(text)
	
	return text


audio_examples = [
    ["example/zh.mp3", "zh"],
    ["example/yue.mp3", "yue"],
    ["example/en.mp3", "en"],
    ["example/ja.mp3", "ja"],
    ["example/ko.mp3", "ko"],
    ["example/emo_1.wav", "auto"],
    ["example/emo_2.wav", "auto"],
    ["example/emo_3.wav", "auto"],
    ["example/rich_1.wav", "auto"],
    ["example/rich_2.wav", "auto"],
    ["example/longwav_1.wav", "auto"],
    ["example/longwav_2.wav", "auto"],
    ["example/longwav_3.wav", "auto"],
]



html_content = """
<div>
    <h2 style="font-size: 22px;margin-left: 0px;">Voice Understanding Model: SenseVoice-Small</h2>
    <p style="font-size: 18px;margin-left: 20px;">SenseVoice-Small is an encoder-only speech foundation model designed for rapid voice understanding. It encompasses a variety of features including automatic speech recognition (ASR), spoken language identification (LID), speech emotion recognition (SER), and acoustic event detection (AED). SenseVoice-Small supports multilingual recognition for Chinese, English, Cantonese, Japanese, and Korean. Additionally, it offers exceptionally low inference latency, performing 7 times faster than Whisper-small and 17 times faster than Whisper-large.</p>
    <h2 style="font-size: 22px;margin-left: 0px;">Usage</h2> <p style="font-size: 18px;margin-left: 20px;">Upload an audio file or input through a microphone, then select the task and language. the audio is transcribed into corresponding text along with associated emotions (๐Ÿ˜Š happy, ๐Ÿ˜ก angry/exicting, ๐Ÿ˜” sad) and types of sound events (๐Ÿ˜€ laughter, ๐ŸŽผ music, ๐Ÿ‘ applause, ๐Ÿคง cough&sneeze, ๐Ÿ˜ญ cry). The event labels are placed in the front of the text and the emotion are in the back of the text.</p>
	<p style="font-size: 18px;margin-left: 20px;">Recommended audio input duration is below 30 seconds. For audio longer than 30 seconds, local deployment is recommended.</p>
	<h2 style="font-size: 22px;margin-left: 0px;">Repo</h2>
	<p style="font-size: 18px;margin-left: 20px;"><a href="https://github.com/FunAudioLLM/SenseVoice" target="_blank">SenseVoice</a>: multilingual speech understanding model</p>
	<p style="font-size: 18px;margin-left: 20px;"><a href="https://github.com/modelscope/FunASR" target="_blank">FunASR</a>: fundamental speech recognition toolkit</p>
	<p style="font-size: 18px;margin-left: 20px;"><a href="https://github.com/FunAudioLLM/CosyVoice" target="_blank">CosyVoice</a>: high-quality multilingual TTS model</p>
</div>
"""


def launch():
	with gr.Blocks(theme=gr.themes.Soft()) as demo:
		# gr.Markdown(description)
		gr.HTML(html_content)
		with gr.Row():
			with gr.Column():
				audio_inputs = gr.Audio(label="Upload audio or use the microphone")
				
				with gr.Accordion("Configuration"):
					language_inputs = gr.Dropdown(choices=["auto", "zh", "en", "yue", "ja", "ko", "nospeech"],
												  value="auto",
												  label="Language")
				fn_button = gr.Button("Start", variant="primary")
				text_outputs = gr.Textbox(label="Results")
			gr.Examples(examples=audio_examples, inputs=[audio_inputs, language_inputs], examples_per_page=20)
		
		fn_button.click(model_inference, inputs=[audio_inputs, language_inputs], outputs=text_outputs)

	demo.launch()


if __name__ == "__main__":
	# iface.launch()
	launch()