import gradio as gr import torch import python_multipart import os from transformers import SpeechT5Processor, SpeechT5ForTextToSpeech, SpeechT5HifiGan from datasets import load_dataset, Audio import numpy as np from speechbrain.inference import EncoderClassifier # Load models and processor processor = SpeechT5Processor.from_pretrained("microsoft/speecht5_tts") model = SpeechT5ForTextToSpeech.from_pretrained("Tejasva-Maurya/Hindi_SpeechT5_finetuned") vocoder = SpeechT5HifiGan.from_pretrained("microsoft/speecht5_hifigan") # Load speaker encoder device = "cuda" if torch.cuda.is_available() else "cpu" speaker_model = EncoderClassifier.from_hparams( source="speechbrain/spkrec-xvect-voxceleb", run_opts={"device": device}, savedir=os.path.join("/tmp", "speechbrain/spkrec-xvect-voxceleb") ) def create_speaker_embedding(waveform): with torch.no_grad(): speaker_embeddings = speaker_model.encode_batch(torch.tensor(waveform)) speaker_embeddings = torch.nn.functional.normalize(speaker_embeddings, dim=2) speaker_embeddings = speaker_embeddings.squeeze().cpu().numpy() return speaker_embeddings def prepare_dataset(example): audio = example["audio"] example["speaker_embeddings"] = create_speaker_embedding(audio["array"]) return example # Load a sample from the dataset for speaker embedding try: dataset = load_dataset("mozilla-foundation/common_voice_17_0", "hi", split="validated", trust_remote_code=True) dataset = dataset.cast_column("audio", Audio(sampling_rate=16000)) spk_model_name = "speechbrain/spkrec-xvect-voxceleb" device = "cuda" if torch.cuda.is_available() else "cpu" speaker_model = EncoderClassifier.from_hparams( source=spk_model_name, run_opts={"device": device}, savedir=os.path.join("/tmp", spk_model_name), ) # Calculate the number of rows for a part of the dataset part = len(dataset) //800 # Select the part of the dataset dataset = dataset.select(range(part)) # Prepare the dataset dataset = dataset.map(prepare_dataset, remove_columns=dataset.column_names) example = dataset[5] speaker_embeddings = torch.tensor(example["speaker_embeddings"]).unsqueeze(0) except Exception as e: print(f"Error loading dataset: {e}") # Use a random speaker embedding as fallback speaker_embedding = torch.randn(1, 512) def text_preprocessing(text): replacements = [ # Vowels and vowel matras ("अ", "a"), ("आ", "aa"), ("इ", "i"), ("ई", "ee"), ("उ", "u"), ("ऊ", "oo"), ("ऋ", "ri"), ("ए", "e"), ("ऐ", "ai"), ("ऑ", "o"), # More accurate than 'au' for ऑ ("ओ", "o"), ("औ", "au"), # Consonants ("क", "k"), ("ख", "kh"), ("ग", "g"), ("घ", "gh"), ("ङ", "ng"), # nasal sound ("च", "ch"), ("छ", "chh"), ("ज", "j"), ("झ", "jh"), ("ञ", "ny"), # 'ny' closer to the actual sound ("ट", "t"), ("ठ", "th"), ("ड", "d"), ("ढ", "dh"), ("ण", "n"), # Slight improvement for easier pronunciation ("त", "t"), ("थ", "th"), ("द", "d"), ("ध", "dh"), ("न", "n"), ("प", "p"), ("फ", "ph"), ("ब", "b"), ("भ", "bh"), ("म", "m"), ("य", "y"), ("र", "r"), ("ल", "l"), ("व", "v"), # 'v' is closer to the Hindi 'व' ("श", "sh"), ("ष", "sh"), # Same sound in modern pronunciation ("स", "s"), ("ह", "h"), # Consonant clusters and special consonants ("क्ष", "ksh"), ("त्र", "tr"), ("ज्ञ", "gya"), ("श्र", "shra"), # Special characters ("़", ""), # Ignore nukta; can vary with regional pronunciation ("्", ""), # Halant - schwa dropping (handled contextually) ("ऽ", ""), # Avagraha - no direct pronunciation, often ignored ("ं", "n"), # Anusvara - nasalization ("ः", "h"), # Visarga - adds an 'h' sound ("ँ", "n"), # Chandrabindu - nasalization # Vowel matras (diacritic marks) ("ा", "a"), ("ि", "i"), ("ी", "ee"), ("ु", "u"), ("ू", "oo"), ("े", "e"), ("ै", "ai"), ("ो", "o"), ("ौ", "au"), ("ृ", "ri"), # Vowel-matra equivalent of ऋ # Nasalization and other marks ("ॅ", "e"), # Short 'e' sound (very rare) ("ॉ", "o"), # Short 'o' sound (very rare) # Loanwords and aspirated consonants ("क़", "q"), ("ख़", "kh"), ("ग़", "gh"), ("ज़", "z"), ("ड़", "r"), ("ढ़", "rh"), ("फ़", "f"), # Punctuation ("।", "."), # Hindi sentence-ending marker -> period ] # Remove extra whitespace text = ' '.join(text.split()) for src, dst in replacements: text = text.replace(src, dst) inputs = processor(text=text, return_tensors="pt") speech = model.generate_speech(inputs["input_ids"], speaker_embedding, vocoder=vocoder) return (16000, speech.numpy()) iface = gr.Interface( fn=text_to_speech, inputs="text", outputs="audio", title="SpeechT5 finetuned Hindi Text-to-Speech", description="Enter Hindi text to convert it into an Audio" ) iface.launch(share=True)