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import gradio as gr | |
import librosa | |
import numpy as np | |
import torch | |
import string | |
import httpx | |
import inflect | |
import re | |
from transformers import SpeechT5Processor, SpeechT5ForTextToSpeech, SpeechT5HifiGan | |
checkpoint = "microsoft/speecht5_tts" | |
processor = SpeechT5Processor.from_pretrained(checkpoint) | |
model = SpeechT5ForTextToSpeech.from_pretrained("Edmon02/speecht5_finetuned_hy") | |
vocoder = SpeechT5HifiGan.from_pretrained("microsoft/speecht5_hifigan") | |
speaker_embeddings = { | |
"BDL": "cmu_us_bdl_arctic-wav-arctic_a0009.npy", | |
} | |
def convert_number_to_words(number: float) -> str: | |
p = inflect.engine() | |
words = p.number_to_words(number) | |
# Translate using httpx | |
async def translate_text(text, source_lang, target_lang): | |
async with httpx.AsyncClient() as client: | |
response = await client.get( | |
f'https://api.mymemory.translated.net/get?q={text}&langpair={source_lang}|{target_lang}' | |
) | |
translation = response.json() | |
return translation['responseData']['translatedText'] | |
# You can change 'en' to the appropriate source language code | |
source_lang = 'en' | |
# You can change 'hy' to the appropriate target language code | |
target_lang = 'hy' | |
# Use asyncio.run even if an event loop is already running (nested asyncio) | |
translated_words = asyncio.run(translate_text(words, source_lang, target_lang)) | |
return translated_words | |
def process_text(text: str) -> str: | |
# Convert numbers to words | |
words = [] | |
text = str(text) if str(text) else '' | |
for word in text.split(): | |
# Check if the word is a number | |
if re.search(r'\d', word): | |
words.append(convert_number_to_words(int(''.join(filter(str.isdigit, word))))) | |
else: | |
words.append(word) | |
# Join the words back into a sentence | |
processed_text = ' '.join(words) | |
return processed_text | |
replacements = [ | |
("՚", "?"), | |
('՛', ""), | |
('՝', ""), | |
("«", "\""), | |
("»", "\""), | |
("՞", "?"), | |
("ա", "a"), | |
("բ", "b"), | |
("գ", "g"), | |
("դ", "d"), | |
("զ", "z"), | |
("է", "e"), | |
("ը", "e'"), | |
("թ", "t'"), | |
("ժ", "jh"), | |
("ի", "i"), | |
("լ", "l"), | |
("խ", "kh"), | |
("ծ", "ts"), | |
("կ", "k"), | |
("հ", "h"), | |
("ձ", "dz"), | |
("ղ", "gh"), | |
("ճ", "ch"), | |
("մ", "m"), | |
("յ", "y"), | |
("ն", "n"), | |
("շ", "sh"), | |
("չ", "ch'"), | |
("պ", "p"), | |
("ջ", "j"), | |
("ռ", "r"), | |
("ս", "s"), | |
("վ", "v"), | |
("տ", "t"), | |
("ր", "r"), | |
("ց", "ts'"), | |
("ւ", ""), | |
("փ", "p'"), | |
("ք", "k'"), | |
("և", "yev"), | |
("օ", "o"), | |
("ֆ", "f"), | |
('։', "."), | |
('–', "-"), | |
('†', "e'"), | |
] | |
def cleanup_text(text): | |
translator = str.maketrans("", "", string.punctuation) | |
text = text.translate(translator).lower() | |
text = text.lower() | |
normalized_text = text | |
normalized_text = normalized_text.replace("ու", "u") | |
normalized_text = normalized_text.replace("եւ", "yev") | |
normalized_text = normalized_text.replace("եվ", "yev") | |
# Handle 'ո' at the beginning of a word | |
normalized_text = normalized_text.replace(" ո", " vo") | |
# Handle 'ո' in the middle of a word | |
normalized_text = normalized_text.replace("ո", "o") | |
# Handle 'ե' at the beginning of a word | |
normalized_text = normalized_text.replace(" ե", " ye") | |
# Handle 'ե' in the middle of a word | |
normalized_text = normalized_text.replace("ե", "e") | |
# Apply other replacements | |
for src, dst in replacements: | |
normalized_text = normalized_text.replace(src, dst) | |
inputs = normalized_text | |
return inputs | |
def predict(text, speaker): | |
if len(text.strip()) == 0: | |
return (16000, np.zeros(0).astype(np.int16)) | |
text = process_text(text) | |
text = cleanup_text(text) | |
inputs = processor(text=text, return_tensors="pt") | |
# limit input length | |
input_ids = inputs["input_ids"] | |
input_ids = input_ids[..., :model.config.max_text_positions] | |
speaker_embedding = np.load(speaker_embeddings[speaker[:3]]).astype(np.float32) | |
speaker_embedding = torch.tensor(speaker_embedding).unsqueeze(0) | |
speech = model.generate_speech(input_ids, speaker_embedding, vocoder=vocoder) | |
speech = (speech.numpy() * 32767).astype(np.int16) | |
return (16000, speech) | |
title = "SpeechT5_hy: Speech Synthesis" | |
description = """ | |
The <b>SpeechT5</b> model is pre-trained on text as well as speech inputs, with targets that are also a mix of text and speech. | |
By pre-training on text and speech at the same time, it learns unified representations for both, resulting in improved modeling capabilities. | |
SpeechT5 can be fine-tuned for different speech tasks. This space demonstrates the <b>text-to-speech</b> (TTS) checkpoint for the English language. | |
See also the <a href="https://huggingface.co./spaces/Matthijs/speecht5-asr-demo">speech recognition (ASR) demo</a> | |
and the <a href="https://huggingface.co./spaces/Matthijs/speecht5-vc-demo">voice conversion demo</a>. | |
Refer to <a href="https://colab.research.google.com/drive/1i7I5pzBcU3WDFarDnzweIj4-sVVoIUFJ">this Colab notebook</a> to learn how to fine-tune the SpeechT5 TTS model on your own dataset or language. | |
<b>How to use:</b> Enter some English text and choose a speaker. The output is a mel spectrogram, which is converted to a mono 16 kHz waveform by the | |
HiFi-GAN vocoder. Because the model always applies random dropout, each attempt will give slightly different results. | |
The <em>Surprise Me!</em> option creates a completely randomized speaker. | |
""" | |
examples = [ | |
["It is not in the stars to hold our destiny but in ourselves.", "BDL (male)"], | |
["The octopus and Oliver went to the opera in October.", "CLB (female)"], | |
["She sells seashells by the seashore. I saw a kitten eating chicken in the kitchen.", "RMS (male)"], | |
["Brisk brave brigadiers brandished broad bright blades, blunderbusses, and bludgeons—balancing them badly.", "SLT (female)"], | |
["A synonym for cinnamon is a cinnamon synonym.", "BDL (male)"], | |
["How much wood would a woodchuck chuck if a woodchuck could chuck wood? He would chuck, he would, as much as he could, and chuck as much wood as a woodchuck would if a woodchuck could chuck wood.", "CLB (female)"], | |
] | |
gr.Interface( | |
fn=predict, | |
inputs=[ | |
gr.Text(label="Input Text"), | |
gr.Radio(label="Speaker", choices=[ | |
"BDL (female)" | |
], | |
value="BDL (female)"), | |
], | |
outputs=[ | |
gr.Audio(label="Generated Speech", type="numpy"), | |
], | |
title=title, | |
description=description, | |
).launch() | |