import streamlit as st import requests import Levenshtein from io import BytesIO import librosa import torch from transformers import Wav2Vec2ForCTC, Wav2Vec2Processor from audio_recorder_streamlit import audio_recorder @st.cache_resource def load_model(): MODEL_ID = "jonatasgrosman/wav2vec2-large-xlsr-53-arabic" processor = Wav2Vec2Processor.from_pretrained(MODEL_ID) model = Wav2Vec2ForCTC.from_pretrained(MODEL_ID) return processor, model processor, model = load_model() def transcribe_audio_hf(audio_bytes): """ Transcribes speech from an audio file using a pretrained Wav2Vec2 model. Args: audio_bytes (bytes): Audio data in bytes. Returns: str: The transcription of the speech in the audio file. """ speech_array, sampling_rate = librosa.load(BytesIO(audio_bytes), sr=16000) input_values = processor(speech_array, sampling_rate=sampling_rate, return_tensors="pt", padding=True).input_values with torch.no_grad(): logits = model(input_values).logits predicted_ids = torch.argmax(logits, dim=-1) transcription = processor.batch_decode(predicted_ids)[0].strip() return transcription def levenshtein_similarity(transcription1, transcription2): """ Calculate the Levenshtein similarity between two transcriptions. Args: transcription1 (str): The first transcription. transcription2 (str): The second transcription. Returns: float: A normalized similarity score between 0 and 1, where 1 indicates identical transcriptions. """ distance = Levenshtein.distance(transcription1, transcription2) max_len = max(len(transcription1), len(transcription2)) return 1 - distance / max_len # Normalize to get similarity score def evaluate_audio_similarity(original_audio_bytes, user_audio_bytes): """ Compares the similarity between the transcription of an original audio file and a user's audio file. Args: original_audio_bytes (bytes): Bytes of the original audio file. user_audio_bytes (bytes): Bytes of the user's audio file. Returns: tuple: Transcriptions and Levenshtein similarity score. """ transcription_original = transcribe_audio_hf(original_audio_bytes) transcription_user = transcribe_audio_hf(user_audio_bytes) similarity_score_levenshtein = levenshtein_similarity(transcription_original, transcription_user) return transcription_original, transcription_user, similarity_score_levenshtein st.title("Audio Transcription and Similarity Checker") # Choose between upload or record st.sidebar.header("Input Method") input_method = st.sidebar.selectbox("Choose Input Method", ["Upload", "Record"]) original_audio_bytes = None user_audio_bytes = None if input_method == "Upload": # Upload original audio file original_audio = st.file_uploader("Upload Original Audio", type=["wav", "mp3"]) # Upload user audio file user_audio = st.file_uploader("Upload User Audio", type=["wav", "mp3"]) if original_audio: original_audio_bytes = original_audio.read() st.audio(original_audio_bytes, format="audio/wav") if user_audio: user_audio_bytes = user_audio.read() st.audio(user_audio_bytes, format="audio/wav") # Add a button to perform the test if original_audio_bytes and user_audio_bytes: if st.button("Perform Testing"): with st.spinner("Performing transcription and similarity testing..."): transcription_original, transcription_user, similarity_score = evaluate_audio_similarity(original_audio_bytes, user_audio_bytes) # Display results st.markdown("---") st.subheader("Transcriptions and Similarity Score") st.write(f"**Original Transcription:** {transcription_original}") st.write(f"**User Transcription:** {transcription_user}") st.write(f"**Levenshtein Similarity Score:** {similarity_score:.2f}") if similarity_score > 0.8: # Adjust the threshold as needed st.success("The pronunciation is likely correct based on transcription similarity.") else: st.error("The pronunciation may be incorrect based on transcription similarity.") elif input_method == "Record": st.write("Record or Upload Original Audio") original_audio_bytes = audio_recorder(key="original_audio_recorder", pause_threshold=30, icon_size='4x') if not original_audio_bytes: original_audio = st.file_uploader("Or Upload Original Audio", type=["wav", "mp3"]) if original_audio: original_audio_bytes = original_audio.read() if original_audio_bytes: with st.spinner("Processing original audio..."): st.audio(original_audio_bytes, format="audio/wav") st.write("Record or Upload User Audio") user_audio_bytes = audio_recorder(key="user_audio_recorder", pause_threshold=30, icon_size='4x') if not user_audio_bytes: user_audio = st.file_uploader("Or Upload User Audio", type=["wav", "mp3"]) if user_audio: user_audio_bytes = user_audio.read() if user_audio_bytes: with st.spinner("Processing user audio..."): st.audio(user_audio_bytes, format="audio/wav") # Add a button to perform the test if original_audio_bytes and user_audio_bytes: if st.button("Perform Testing"): with st.spinner("Performing transcription and similarity testing..."): transcription_original, transcription_user, similarity_score = evaluate_audio_similarity(original_audio_bytes, user_audio_bytes) # Display results st.markdown("---") st.subheader("Transcriptions and Similarity Score") st.write(f"**Original Transcription:** {transcription_original}") st.write(f"**User Transcription:** {transcription_user}") st.write(f"**Levenshtein Similarity Score:** {similarity_score:.2f}") if similarity_score > 0.8: # Adjust the threshold as needed st.success("The pronunciation is likely correct based on transcription similarity.") else: st.error("The pronunciation may be incorrect based on transcription similarity.")