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import openai, os
import gradio as gr
import time
import boto3
import json
import numpy as np
import wave
import io
import os
from langchain import OpenAI
from langchain.chains import ConversationChain
from langchain.memory import ConversationSummaryBufferMemory
from langchain.chat_models import ChatOpenAI
from langchain.callbacks.streaming_stdout import StreamingStdOutCallbackHandler
from langchain.schema import HumanMessage
import subprocess
from contextlib import closing
import asyncio
# This example uses aiofile for asynchronous file reads.
# It's not a dependency of the project but can be installed
# with `pip install aiofile`.
import aiofile
from amazon_transcribe.client import TranscribeStreamingClient
from amazon_transcribe.handlers import TranscriptResultStreamHandler
from amazon_transcribe.model import TranscriptEvent
from amazon_transcribe.utils import apply_realtime_delay
def run_shell_cmd(command):
# Run a shell command
result = subprocess.run(command, shell=True, capture_output=True, text=True)
# Check the command output
if result.returncode == 0:
print("Command executed successfully")
print("Command output:")
print(result.stdout)
else:
print("Command failed")
print("Error message:")
print(result.stderr)
def wav_to_pcm(input_file, output_file):
cmd = "ffmpeg -i " + input_file + " -f s16le -ar 16000 -ac 1 -acodec pcm_s16le " + output_file
run_shell_cmd(cmd)
openai.api_key = os.environ["OPENAI_API_KEY"]
polly = boto3.client('polly', region_name='us-east-1')
s3 = boto3.client('s3')
transcribe = boto3.client('transcribe')
memory = ConversationSummaryBufferMemory(llm=ChatOpenAI(), max_token_limit=2048)
conversation = ConversationChain(
llm=OpenAI(streaming=True, callbacks=[StreamingStdOutCallbackHandler()], max_tokens=2048, temperature=0.5),
memory=memory,
)
SAMPLE_RATE = 16000
BYTES_PER_SAMPLE = 2
CHANNEL_NUMS = 1
AUDIO_PATH = ''
CHUNK_SIZE = 1024 * 8
REGION = "us-west-2"
transcript_text = ''
transcriptions = []
class MyEventHandler(TranscriptResultStreamHandler):
def __init__(self, transcript_result_stream):
super().__init__(transcript_result_stream)
self.transcriptions = []
async def handle_transcript_event(self, transcript_event: TranscriptEvent):
# This handler can be implemented to handle transcriptions as needed.
# Here's an example to get started.
results = transcript_event.transcript.results
for result in results:
for alt in result.alternatives:
print(alt.transcript)
transcriptions.append(alt.transcript)
async def basic_transcribe():
# Setup up our client with our chosen AWS region
client = TranscribeStreamingClient(region=REGION)
# Start transcription to generate our async stream
stream = await client.start_stream_transcription(
language_code="zh-CN",
media_sample_rate_hz=SAMPLE_RATE,
media_encoding="pcm",
)
async def write_chunks():
# NOTE: For pre-recorded files longer than 5 minutes, the sent audio
# chunks should be rate limited to match the realtime bitrate of the
# audio stream to avoid signing issues.
async with aiofile.AIOFile(AUDIO_PATH, "rb") as afp:
reader = aiofile.Reader(afp, chunk_size=CHUNK_SIZE)
await apply_realtime_delay(
stream, reader, BYTES_PER_SAMPLE, SAMPLE_RATE, CHANNEL_NUMS
)
await stream.input_stream.end_stream()
# Instantiate our handler and start processing events
handler = MyEventHandler(stream.output_stream)
await asyncio.gather(write_chunks(), handler.handle_events())
# Retrieve the transcriptions from the handler
#transcriptions = handler.transcriptions
def download_file(bucket_name, object_key, file_path):
try:
# Download the file from S3
s3.download_file(bucket_name, object_key, file_path)
print(f"File downloaded successfully: {file_path}")
except Exception as e:
print(f"Error downloading file: {str(e)}")
def play_s3_voice(text):
response = polly.start_speech_synthesis_task(
OutputS3BucketName='lingo-audio-materials', #this bucket is in us-east-1
OutputS3KeyPrefix='answers/',
OutputFormat='mp3',
Text=text,
VoiceId='Zhiyu',
LanguageCode='cmn-CN',
Engine='neural'
)
# Print the task ID and status
task_id = response['SynthesisTask']['TaskId']
print('Task ID:', task_id)
while True:
task = polly.get_speech_synthesis_task(TaskId=task_id)
task_status = task['SynthesisTask']['TaskStatus']
if task_status == 'completed':
break
elif task_status == 'failed':
# Task failed
print('Task failed:', task['SynthesisTask']['TaskStatusReason'])
break
else:
print("Polly synthesis task is still in progress...")
time.sleep(1)
output_uri = response['SynthesisTask']['OutputUri']
print("polly output_uri:"+output_uri)
output_uri = output_uri.replace("https://", "")
# Split the URI into bucket name and key
results = output_uri.split("/")
bucket_name = results[1]
key_name = results[2]+'/'+results[3]
print("bucket name:"+bucket_name)
print("key name:"+key_name)
mp3_pre_signed_url = s3.generate_presigned_url('get_object',Params={'Bucket': bucket_name,'Key': key_name},ExpiresIn=3600)
print("mp3_pre_signed_url:"+mp3_pre_signed_url)
output_file = "/tmp/from-s3.mp3"
current_dir = os.getcwd()
#file_absolute_path = current_dir+'/'+output_file
print("current dir:"+current_dir)
print("output_file_location: "+output_file)
download_file(bucket_name, key_name, output_file)
#encoded_path = file_absolute_path.encode("utf-8")
#tmp_aud_file_url = output_file
#htm_audio = f'<audio><source src={tmp_aud_file_url} type="audio/mp3" autoplay></audio>'
#audio_htm = gr.HTML(htm_audio)
return output_file
def predict(input, history=[]):
history.append(input)
response = conversation.predict(input=input)
print("GPT response: "+response)
history.append(response)
audio_file = play_s3_voice(response)
responses = [(u,b) for u,b in zip(history[::2], history[1::2])]
print("all historical responses: "+str(responses))
return responses, audio_file, history
def transcribe_func_new(audio):
audio_file = open(audio, "rb")
wav_file = audio_file.name
print("wav_file: "+wav_file)
#transcript = openai.Audio.transcribe("whisper-1", audio_file)
#return transcript['text']
pcm_file = os.path.splitext(wav_file)[0] + ".pcm"
wav_to_pcm(wav_file, pcm_file)
if os.path.exists(file_path):
print("pcm file exists")
else:
print("pcm file does not exist")
AUDIO_PATH=pcm_file
loop = asyncio.get_event_loop()
loop.run_until_complete(basic_transcribe())
loop.close()
transcript_text = transcriptions[-1]
print("final transcribe script: "+transcript_text)
return transcript_text
def transcribe_func_old(audio):
audio_file = open(audio, "rb")
file_name = audio_file.name
#file_directory = os.path.dirname(audio_file.name)
print("audio_file: "+file_name)
#transcript = openai.Audio.transcribe("whisper-1", audio_file)
#return transcript['text']
# Set up the job parameters
job_name = "lingo-demo"
text_output_bucket = 'lingo-text-material' #this bucket is in us-west-1
text_output_key = 'transcriptions/question.json'
text_output_key = 'transcriptions/'+job_name+'.json'
language_code = 'zh-CN'
# Upload the file to an S3 bucket
audio_input_bucket_name = "lingo-audio-material"
audio_input_s3_key = "questions/tmp-question-from-huggingface.wav"
s3.upload_file(file_name, audio_input_bucket_name, audio_input_s3_key)
# Construct the S3 bucket URI
s3_uri = f"s3://{audio_input_bucket_name}/{audio_input_s3_key}"
response = transcribe.list_transcription_jobs()
# Iterate through the jobs and print their names
for job in response['TranscriptionJobSummaries']:
print(job['TranscriptionJobName'])
if job['TranscriptionJobName'] == job_name:
response = transcribe.delete_transcription_job(TranscriptionJobName=job_name)
print("delete transcribe job response:"+str(response))
# Create the transcription job
response = transcribe.start_transcription_job(
TranscriptionJobName=job_name,
Media={'MediaFileUri': s3_uri},
MediaFormat='wav',
LanguageCode=language_code,
OutputBucketName=text_output_bucket,
OutputKey=text_output_key
)
print("start transcribe job response:"+str(response))
job_name = response["TranscriptionJob"]["TranscriptionJobName"]
# Wait for the transcription job to complete
while True:
status = transcribe.get_transcription_job(TranscriptionJobName=job_name)['TranscriptionJob']['TranscriptionJobStatus']
if status in ['COMPLETED', 'FAILED']:
break
print("Transcription job still in progress...")
time.sleep(1)
# Get the transcript
#transcript = transcribe.get_transcription_job(TranscriptionJobName=job_name)
transcript_uri = transcribe.get_transcription_job(TranscriptionJobName=job_name)['TranscriptionJob']['Transcript']['TranscriptFileUri']
print("transcript uri: " + str(transcript_uri))
transcript_file_content = s3.get_object(Bucket=text_output_bucket, Key=text_output_key)['Body'].read().decode('utf-8')
print(transcript_file_content)
json_data = json.loads(transcript_file_content)
# Extract the transcript value
transcript_text = json_data['results']['transcripts'][0]['transcript']
return transcript_text
def process_audio(audio, history=[]):
text = transcribe_func_new(audio)
return predict(text, history)
with gr.Blocks(css="#chatbot{height:350px} .overflow-y-auto{height:500px}") as demo:
chatbot = gr.Chatbot(elem_id="chatbot")
state = gr.State([])
with gr.Row():
txt = gr.Textbox(show_label=False, placeholder="Enter text and press enter").style(container=False)
with gr.Row():
audio_input = gr.Audio(source="microphone", type="filepath", label="Audio Input")
with gr.Row():
audio_output = gr.Audio(type="filepath", label="Audio Output", elem_id="speaker", interactive=False)
#audio_html = gr.HTML()
txt.submit(predict, [txt, state], [chatbot, audio_output, state])
audio_input.change(process_audio, [audio_input, state], [chatbot, audio_output, state])
demo.launch(debug=True)
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