#!/usr/bin/env python3 # # Copyright 2022 Xiaomi Corp. (authors: Fangjun Kuang) # 2023 Nvidia. (authors: Yuekai Zhang) # # See LICENSE for clarification regarding multiple authors # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # References: # https://gradio.app/docs/#dropdown # https://huggingface.co/spaces/k2-fsa/automatic-speech-recognition import logging import os import tempfile import time from datetime import datetime import gradio as gr import numpy as np import urllib.request import tritonclient import tritonclient.grpc as grpcclient from tritonclient.utils import np_to_triton_dtype import soundfile from examples import examples def convert_to_wav(in_filename: str) -> str: """Convert the input audio file to a wave file""" out_filename = in_filename + ".wav" if '.mp3' in in_filename: _ = os.system(f"ffmpeg -y -i '{in_filename}' -acodec pcm_s16le -ac 1 -ar 16000 '{out_filename}' || exit 1") else: _ = os.system(f"ffmpeg -hide_banner -y -i '{in_filename}' -ar 16000 '{out_filename}' || exit 1") return out_filename def build_html_output(s: str, style: str = "result_item_success"): return f"""
{s}
""" def process_url( language: str, repo_id: str, decoding_method: str, whisper_prompt_textbox: str, url: str, server_url_textbox: str, ): logging.info(f"Processing URL: {url}") with tempfile.NamedTemporaryFile() as f: try: urllib.request.urlretrieve(url, f.name) return process( in_filename=f.name, language=language, repo_id=repo_id, decoding_method=decoding_method, whisper_prompt_textbox=whisper_prompt_textbox, server_url=server_url_textbox, ) except Exception as e: logging.info(str(e)) return "", build_html_output(str(e), "result_item_error") def process_uploaded_file( language: str, repo_id: str, decoding_method: str, whisper_prompt_textbox: int, in_filename: str, server_url_textbox: str, ): if in_filename is None or in_filename == "": return "", build_html_output( "Please first upload a file and then click " 'the button "submit for recognition"', "result_item_error", ) logging.info(f"Processing uploaded file: {in_filename}") try: return process( in_filename=in_filename, language=language, repo_id=repo_id, decoding_method=decoding_method, whisper_prompt_textbox=whisper_prompt_textbox, server_url=server_url_textbox, ) except Exception as e: logging.info(str(e)) return "", build_html_output(str(e), "result_item_error") def process_microphone( language: str, repo_id: str, decoding_method: str, whisper_prompt_textbox: str, in_filename: str, server_url_textbox: str, ): if in_filename is None or in_filename == "": return "", build_html_output( "Please first click 'Record from microphone', speak, " "click 'Stop recording', and then " "click the button 'submit for recognition'", "result_item_error", ) logging.info(f"Processing microphone: {in_filename}") try: return process( in_filename=in_filename, language=language, repo_id=repo_id, decoding_method=decoding_method, whisper_prompt_textbox=whisper_prompt_textbox, server_url=server_url_textbox, ) except Exception as e: logging.info(str(e)) return "", build_html_output(str(e), "result_item_error") def send_whisper(whisper_prompt, wav_path, model_name, triton_client, protocol_client, padding_duration=10): waveform, sample_rate = soundfile.read(wav_path) assert sample_rate == 16000, f"Only support 16k sample rate, but got {sample_rate}" duration = int(len(waveform) / sample_rate) # padding to nearset 10 seconds samples = np.zeros( ( 1, padding_duration * sample_rate * ((duration // padding_duration) + 1), ), dtype=np.float32, ) samples[0, : len(waveform)] = waveform lengths = np.array([[len(waveform)]], dtype=np.int32) inputs = [ protocol_client.InferInput( "WAV", samples.shape, np_to_triton_dtype(samples.dtype) ), protocol_client.InferInput( "TEXT_PREFIX", [1, 1], "BYTES" ), ] inputs[0].set_data_from_numpy(samples) input_data_numpy = np.array([whisper_prompt], dtype=object) input_data_numpy = input_data_numpy.reshape((1, 1)) inputs[1].set_data_from_numpy(input_data_numpy) outputs = [protocol_client.InferRequestedOutput("TRANSCRIPTS")] # generate a random sequence id sequence_id = np.random.randint(0, 1000000) response = triton_client.infer( model_name, inputs, request_id=str(sequence_id), outputs=outputs ) decoding_results = response.as_numpy("TRANSCRIPTS")[0] if type(decoding_results) == np.ndarray: decoding_results = b" ".join(decoding_results).decode("utf-8") else: # For wenet decoding_results = decoding_results.decode("utf-8") return decoding_results, duration def process( language: str, repo_id: str, decoding_method: str, whisper_prompt_textbox: str, in_filename: str, server_url: str, ): logging.info(f"language: {language}") logging.info(f"repo_id: {repo_id}") logging.info(f"decoding_method: {decoding_method}") logging.info(f"whisper_prompt_textbox: {whisper_prompt_textbox}") logging.info(f"in_filename: {in_filename}") model_name = "whisper" triton_client = grpcclient.InferenceServerClient(url=server_url, verbose=False) protocol_client = grpcclient filename = convert_to_wav(in_filename) now = datetime.now() date_time = now.strftime("%Y-%m-%d %H:%M:%S.%f") logging.info(f"Started at {date_time}") start = time.time() text, duration = send_whisper(whisper_prompt_textbox, filename, model_name, triton_client, protocol_client) date_time = now.strftime("%Y-%m-%d %H:%M:%S.%f") end = time.time() #metadata = torchaudio.info(filename) #duration = metadata.num_frames / sample_rate rtf = (end - start) / duration logging.info(f"Finished at {date_time} s. Elapsed: {end - start: .3f} s") info = f""" Wave duration : {duration: .3f} s
Processing time: {end - start: .3f} s
RTF: {end - start: .3f}/{duration: .3f} = {rtf:.3f}
""" if rtf > 1: info += ( "
We are loading the model for the first run. " "Please run again to measure the real RTF.
" ) logging.info(info) logging.info(f"\nrepo_id: {repo_id}\nhyp: {text}") return text, build_html_output(info) title = "# Speech Recognition and Translation with Whisper" description = """ This space shows how to do speech recognition and translation with Nvidia **Triton**. Please visit for triton speech recognition. The service is running on a GPU based on triton server. See more information by visiting the following links: - - - - - """ # css style is copied from # https://huggingface.co/spaces/alphacep/asr/blob/main/app.py#L113 css = """ .result {display:flex;flex-direction:column} .result_item {padding:15px;margin-bottom:8px;border-radius:15px;width:100%} .result_item_success {background-color:mediumaquamarine;color:white;align-self:start} .result_item_error {background-color:#ff7070;color:white;align-self:start} """ # def update_model_dropdown(language: str): # if language in language_to_models: # choices = language_to_models[language] # return gr.Dropdown.update(choices=choices, value=choices[0]) # raise ValueError(f"Unsupported language: {language}") demo = gr.Blocks(css=css) with demo: gr.Markdown(title) language_choices = ["Chinese", "English", "Chinese+English", "Korean", "Japanese", "Arabic", "German", "French", "Russian"] server_url_textbox = gr.Textbox( label='Triton Inference Server URL', value='10.19.203.82:8001', placeholder='e.g. localhost:8001', max_lines=1, ) whisper_prompt_textbox = gr.Textbox( label='Whisper prompt', placeholder='Whisper prompt e.g. <|startoftranscript|>', max_lines=1, ) language_radio = gr.Radio( label="Language", choices=language_choices, value=language_choices[0], ) model_dropdown = gr.Dropdown( choices=["whisper-large-v2"], label="Select a model", value="whisper-large-v2", ) # language_radio.change( # update_model_dropdown, # inputs=language_radio, # outputs=model_dropdown, # ) decoding_method_radio = gr.Radio( label="Decoding method", choices=["greedy_search"], value="greedy_search", ) # whisper_prompt_textbox_slider = gr.Slider( # minimum=1, # value=4, # step=1, # label="Number of active paths for modified_beam_search", # ) with gr.Tabs(): with gr.TabItem("Upload from disk"): uploaded_file = gr.Audio( source="upload", # Choose between "microphone", "upload" type="filepath", optional=False, label="Upload from disk", ) upload_button = gr.Button("Submit for recognition") uploaded_output = gr.Textbox(label="Recognized speech from uploaded file") uploaded_html_info = gr.HTML(label="Info") gr.Examples( examples=examples, inputs=[ language_radio, model_dropdown, decoding_method_radio, whisper_prompt_textbox, uploaded_file, ], outputs=[uploaded_output, uploaded_html_info], fn=process_uploaded_file, cache_examples=False, ) with gr.TabItem("Record from microphone"): microphone = gr.Audio( source="microphone", # Choose between "microphone", "upload" type="filepath", optional=False, label="Record from microphone", ) record_button = gr.Button("Submit for recognition") recorded_output = gr.Textbox(label="Recognized speech from recordings") recorded_html_info = gr.HTML(label="Info") gr.Examples( examples=examples, inputs=[ language_radio, model_dropdown, decoding_method_radio, whisper_prompt_textbox, microphone, ], outputs=[recorded_output, recorded_html_info], fn=process_microphone, cache_examples=False, ) with gr.TabItem("From URL"): url_textbox = gr.Textbox( max_lines=1, placeholder="URL to an audio file", label="URL", interactive=True, ) url_button = gr.Button("Submit for recognition") url_output = gr.Textbox(label="Recognized speech from URL") url_html_info = gr.HTML(label="Info") upload_button.click( process_uploaded_file, inputs=[ language_radio, model_dropdown, decoding_method_radio, whisper_prompt_textbox, uploaded_file, server_url_textbox, ], outputs=[uploaded_output, uploaded_html_info], ) record_button.click( process_microphone, inputs=[ language_radio, model_dropdown, decoding_method_radio, whisper_prompt_textbox, microphone, server_url_textbox, ], outputs=[recorded_output, recorded_html_info], ) url_button.click( process_url, inputs=[ language_radio, model_dropdown, decoding_method_radio, whisper_prompt_textbox, url_textbox, server_url_textbox, ], outputs=[url_output, url_html_info], ) gr.Markdown(description) if __name__ == "__main__": formatter = "%(asctime)s %(levelname)s [%(filename)s:%(lineno)d] %(message)s" logging.basicConfig(format=formatter, level=logging.INFO) demo.launch(share=True)