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2023-05-17 8706e767affc6bdc8cb7a67ca3a20a62779ff048 
 funasr/runtime/python/websocket/ws_client.py


@@ -84,9 +84,9 @@


                    rate=RATE,


                    input=True,


                    frames_per_buffer=CHUNK)


    message = json.dumps({"chunk_size": args.chunk_size, "chunk_interval": args.chunk_interval, "wav_name": wav_name,"is_speaking": True})




    message = json.dumps({"chunk_size": args.chunk_size, "chunk_interval": args.chunk_interval, "wav_name": "microphone", "is_speaking": True})


    voices.put(message)


    is_speaking = True


    while True:




        data = stream.read(CHUNK)


@@ -96,7 +96,7 @@




        await asyncio.sleep(0.005)




async def record_from_scp():


async def record_from_scp(chunk_begin,chunk_size):


    import wave


    global voices


    is_finished = False


@@ -105,6 +105,8 @@


        wavs = f_scp.readlines()


    else:


        wavs = [args.audio_in]


    if chunk_size>0:


        wavs=wavs[chunk_begin:chunk_begin+chunk_size]


    for wav in wavs:


        wav_splits = wav.strip().split()


        wav_name = wav_splits[0] if len(wav_splits) > 1 else "demo"


@@ -143,9 +145,6 @@


            sleep_duration = 0.001 if args.send_without_sleep else 60*args.chunk_size[1]/args.chunk_interval/1000


            await asyncio.sleep(sleep_duration)




    is_finished = True


    message = json.dumps({"is_finished": is_finished})


    voices.put(message)




async def ws_send():


    global voices


@@ -220,33 +219,61 @@


            traceback.print_exc()


            exit(0)




async def ws_client(id):


async def ws_client(id,chunk_begin,chunk_size):


    global websocket


    uri = "ws://{}:{}".format(args.host, args.port)


    async for websocket in websockets.connect(uri, subprotocols=["binary"], ping_interval=None):


        if args.audio_in is not None:


            task = asyncio.create_task(record_from_scp())


            task = asyncio.create_task(record_from_scp(chunk_begin,chunk_size))


        else:


            task = asyncio.create_task(record_microphone())


        task2 = asyncio.create_task(ws_send())


        task3 = asyncio.create_task(message(id))


        await asyncio.gather(task, task2, task3)




def one_thread(id):


   asyncio.get_event_loop().run_until_complete(ws_client(id))


def one_thread(id,chunk_begin,chunk_size):


   asyncio.get_event_loop().run_until_complete(ws_client(id,chunk_begin,chunk_size))


   asyncio.get_event_loop().run_forever()






if __name__ == '__main__':


    process_list = []


    for i in range(args.test_thread_num):   


        p = Process(target=one_thread,args=(i,))


        p.start()


        process_list.append(p)


   # for microphone 


   if  args.audio_in is  None:


     p = Process(target=one_thread,args=(0, 0, 0))


     p.start()


     p.join()


     print('end')


   else:


     # calculate the number of wavs for each preocess


     if args.audio_in.endswith(".scp"):


         f_scp = open(args.audio_in)


         wavs = f_scp.readlines()


     else:


         wavs = [args.audio_in]


     total_len=len(wavs)


     if total_len>=args.test_thread_num:


          chunk_size=int((total_len)/args.test_thread_num)


          remain_wavs=total_len-chunk_size*args.test_thread_num


     else:


          chunk_size=1


          remain_wavs=0




    for i in process_list:


        p.join()


     process_list = []


     chunk_begin=0


     for i in range(args.test_thread_num):


         now_chunk_size= chunk_size


         if remain_wavs>0:


             now_chunk_size=chunk_size+1


             remain_wavs=remain_wavs-1


         # process i handle wavs at chunk_begin and size of now_chunk_size


         p = Process(target=one_thread,args=(i,chunk_begin,now_chunk_size))


         chunk_begin=chunk_begin+now_chunk_size


         p.start()


         process_list.append(p)




    print('end')


 


     for i in process_list:


         p.join()




     print('end')