Amh-Transcribe / app.py
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import soundfile as sf
import datetime
from pyctcdecode import BeamSearchDecoderCTC
import torch
import json
import os
import time
import gc
import gradio as gr
import librosa
from transformers import Wav2Vec2ForCTC, Wav2Vec2ProcessorWithLM, AutoModelForSeq2SeqLM, AutoTokenizer, AutoProcessor
from huggingface_hub import hf_hub_download
from torchaudio.models.decoder import ctc_decoder
from numba import cuda
# load pretrained model
model = Wav2Vec2ForCTC.from_pretrained("facebook/mms-1b-all")
processor = AutoProcessor.from_pretrained("facebook/mms-1b-all")
lm_decoding_config = {}
lm_decoding_configfile = hf_hub_download(
repo_id="facebook/mms-cclms",
filename="decoding_config.json",
subfolder="mms-1b-all",
)
with open(lm_decoding_configfile) as f:
lm_decoding_config = json.loads(f.read())
# allow language model decoding for "eng"
decoding_config = lm_decoding_config["amh"]
lm_file = hf_hub_download(
repo_id="facebook/mms-cclms",
filename=decoding_config["lmfile"].rsplit("/", 1)[1],
subfolder=decoding_config["lmfile"].rsplit("/", 1)[0],
)
token_file = hf_hub_download(
repo_id="facebook/mms-cclms",
filename=decoding_config["tokensfile"].rsplit("/", 1)[1],
subfolder=decoding_config["tokensfile"].rsplit("/", 1)[0],
)
lexicon_file = None
if decoding_config["lexiconfile"] is not None:
lexicon_file = hf_hub_download(
repo_id="facebook/mms-cclms",
filename=decoding_config["lexiconfile"].rsplit("/", 1)[1],
subfolder=decoding_config["lexiconfile"].rsplit("/", 1)[0],
)
beam_search_decoder = ctc_decoder(
lexicon="./vocab_correct_cleaned.txt",
tokens=token_file,
lm=lm_file,
nbest=1,
beam_size=500,
beam_size_token=50,
lm_weight=float(decoding_config["lmweight"]),
word_score=float(decoding_config["wordscore"]),
sil_score=float(decoding_config["silweight"]),
blank_token="<s>",
)
#Define Functions
#convert time into .sbv format
def format_time(seconds):
# Convert seconds to hh:mm:ss,ms format
return str(datetime.timedelta(seconds=seconds)).replace('.', ',')
#Convert Video/Audio into 16K wav file
def preprocessAudio(audioFile):
os.system(f"ffmpeg -y -i {audioFile.name} -ar 16000 ./audioToConvert.wav")
#Transcribe!!!
def Transcribe(file):
device = "cuda:0" if torch.cuda.is_available() else "cpu"
start_time = time.time()
model.load_adapter("amh")
processor.tokenizer.set_target_lang("amh")
preprocessAudio(file)
block_size = 30
batch_size = 8 # or whatever number you choose
transcripts = []
speech_segments = []
stream = librosa.stream(
"./audioToConvert.wav",
block_length=block_size,
frame_length=16000,
hop_length=16000
)
model.to(device)
print(f"Model loaded to {device}: Entering transcription phase")
#Code for timestamping
encoding_start = 0
encoding_end = 0
sbv_file = open("subtitle.sbv", "w")
# Define batch size
batch_size = 11
# Create an empty list to hold batches
batch = []
for speech_segment in stream:
if len(speech_segment.shape) > 1:
speech_segment = speech_segment[:,0] + speech_segment[:,1]
# Add the current speech segment to the batch
batch.append(speech_segment)
# If the batch is full, process it
if len(batch) == batch_size:
# Concatenate all segments in the batch along the time axis
input_values = processor(batch, sampling_rate=16_000, return_tensors="pt")
input_values = input_values.to(device)
with torch.no_grad():
logits = model(**input_values).logits
if len(logits.shape) == 1:
logits = logits.unsqueeze(0)
beam_search_result = beam_search_decoder(logits.to("cpu"))
# Transcribe each segment in the batch
for i in range(batch_size):
transcription = " ".join(beam_search_result[i][0].words).strip()
print(transcription)
transcripts.append(transcription)
encoding_end = encoding_start + block_size
formatted_start = format_time(encoding_start)
formatted_end = format_time(encoding_end)
sbv_file.write(f"{formatted_start},{formatted_end}\n")
sbv_file.write(f"{transcription}\n\n")
encoding_start = encoding_end
# Freeing up memory
del input_values
del logits
del transcription
torch.cuda.empty_cache()
gc.collect()
# Clear the batch
batch = []
if batch:
# Concatenate all segments in the batch along the time axis
input_values = processor(batch, sampling_rate=16_000, return_tensors="pt")
input_values = input_values.to(device)
with torch.no_grad():
logits = model(**input_values).logits
if len(logits.shape) == 1:
logits = logits.unsqueeze(0)
beam_search_result = beam_search_decoder(logits.to("cpu"))
# Transcribe each segment in the batch
for i in range(len(batch)):
transcription = " ".join(beam_search_result[i][0].words).strip()
print(transcription)
transcripts.append(transcription)
encoding_end = encoding_start + block_size
formatted_start = format_time(encoding_start)
formatted_end = format_time(encoding_end)
sbv_file.write(f"{formatted_start},{formatted_end}\n")
sbv_file.write(f"{transcription}\n\n")
encoding_start = encoding_end
# Freeing up memory
del input_values
del logits
del transcription
torch.cuda.empty_cache()
gc.collect()
# Join all transcripts into a single transcript
transcript = ' '.join(transcripts)
sbv_file.close()
end_time = time.time()
print(f"The script ran for {end_time - start_time} seconds.")
return("./subtitle.sbv")
demo = gr.Interface(fn=Transcribe, inputs=gr.File(label="Upload an audio file of Amharic content"), outputs=gr.File(label="Download .sbv transcription"),
title="Amharic Audio Transcription",
description="This application uses Meta MMS and a custom kenLM model to transcribe Amharic Audio files of arbitrary length into .sbv files. Upload an Amharic audio file and get your transcription! \n(Note: This is only a rough implementation of Meta's MMS for audio transcription, you should manually edit files after transcription has completed.)"
)
demo.launch()