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xtts / xtts.py
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import base64
import io
import os
import tempfile
import wave
import torch
import numpy as np
from typing import List
from pydantic import BaseModel
import spaces
from TTS.tts.configs.xtts_config import XttsConfig
from TTS.tts.models.xtts import Xtts
from TTS.utils.generic_utils import get_user_data_dir
from TTS.utils.manage import ModelManager
os.environ["COQUI_TOS_AGREED"] = "1"
torch.set_num_threads(int(os.environ.get("NUM_THREADS", os.cpu_count())))
device = torch.device("cuda" if os.environ.get("USE_CPU", "0") == "0" else "cpu")
if not torch.cuda.is_available() and device == "cuda":
raise RuntimeError("CUDA device unavailable, please use Dockerfile.cpu instead.")
custom_model_path = os.environ.get("CUSTOM_MODEL_PATH", "/app/tts_models")
if os.path.exists(custom_model_path) and os.path.isfile(custom_model_path + "/config.json"):
model_path = custom_model_path
print("Loading custom model from", model_path, flush=True)
else:
print("Loading default model", flush=True)
model_name = "tts_models/multilingual/multi-dataset/xtts_v2"
print("Downloading XTTS Model:", model_name, flush=True)
ModelManager().download_model(model_name)
model_path = os.path.join(get_user_data_dir("tts"), model_name.replace("/", "--"))
print("XTTS Model downloaded", flush=True)
print("Loading XTTS", flush=True)
config = XttsConfig()
config.load_json(os.path.join(model_path, "config.json"))
model = Xtts.init_from_config(config)
model.load_checkpoint(config, checkpoint_dir=model_path, eval=True, use_deepspeed=True if device == "cuda" else False)
model.to(device)
print("XTTS Loaded.", flush=True)
print("Running XTTS Server ...", flush=True)
# @app.post("/clone_speaker")
def predict_speaker(wav_file):
"""Compute conditioning inputs from reference audio file."""
temp_audio_name = next(tempfile._get_candidate_names())
with open(temp_audio_name, "wb") as temp, torch.inference_mode():
temp.write(io.BytesIO(wav_file.read()).getbuffer())
gpt_cond_latent, speaker_embedding = model.get_conditioning_latents(
temp_audio_name
)
return {
"gpt_cond_latent": gpt_cond_latent.cpu().squeeze().half().tolist(),
"speaker_embedding": speaker_embedding.cpu().squeeze().half().tolist(),
}
def postprocess(wav):
"""Post process the output waveform"""
if isinstance(wav, list):
wav = torch.cat(wav, dim=0)
wav = wav.clone().detach().cpu().numpy()
wav = wav[None, : int(wav.shape[0])]
wav = np.clip(wav, -1, 1)
wav = (wav * 32767).astype(np.int16)
return wav
def encode_audio_common(
frame_input, encode_base64=True, sample_rate=24000, sample_width=2, channels=1
):
"""Return base64 encoded audio"""
wav_buf = io.BytesIO()
with wave.open(wav_buf, "wb") as vfout:
vfout.setnchannels(channels)
vfout.setsampwidth(sample_width)
vfout.setframerate(sample_rate)
vfout.writeframes(frame_input)
wav_buf.seek(0)
if encode_base64:
b64_encoded = base64.b64encode(wav_buf.getbuffer()).decode("utf-8")
return b64_encoded
else:
return wav_buf.read()
class StreamingInputs(BaseModel):
speaker_embedding: List[float]
gpt_cond_latent: List[List[float]]
text: str
language: str
add_wav_header: bool = True
stream_chunk_size: str = "20"
#
#def predict_streaming_generator(parsed_input: dict = Body(...)):
# speaker_embedding = torch.tensor(parsed_input.speaker_embedding).unsqueeze(0).unsqueeze(-1)
# gpt_cond_latent = torch.tensor(parsed_input.gpt_cond_latent).reshape((-1, 1024)).unsqueeze(0)
# text = parsed_input.text
# language = parsed_input.language
#
# stream_chunk_size = int(parsed_input.stream_chunk_size)
# add_wav_header = parsed_input.add_wav_header
#
#
# chunks = model.inference_stream(
# text,
# language,
# gpt_cond_latent,
# speaker_embedding,
# stream_chunk_size=stream_chunk_size,
# enable_text_splitting=True
# )
#
# for i, chunk in enumerate(chunks):
# chunk = postprocess(chunk)
# if i == 0 and add_wav_header:
# yield encode_audio_common(b"", encode_base64=False)
# yield chunk.tobytes()
# else:
# yield chunk.tobytes()
#
#
## @app.post("/tts_stream")
#def predict_streaming_endpoint(parsed_input: StreamingInputs):
# return StreamingResponse(
# predict_streaming_generator(parsed_input),
# media_type="audio/wav",
# )
class TTSInputs(BaseModel):
speaker_embedding: List[float]
gpt_cond_latent: List[List[float]]
text: str
language: str
temperature: float
speed: float
top_k: int
top_p: float
# @app.post("/tts")
@spaces.GPU
def predict_speech(parsed_input: TTSInputs):
speaker_embedding = torch.tensor(parsed_input.speaker_embedding).unsqueeze(0).unsqueeze(-1)
gpt_cond_latent = torch.tensor(parsed_input.gpt_cond_latent).reshape((-1, 1024)).unsqueeze(0)
print("speaker embedding")
print(speaker_embedding)
print("latent")
print(gpt_cond_latent)
text = parsed_input.text
language = parsed_input.language
temperature = parsed_input.temperature
speed = parsed_input.speed
top_k = parsed_input.top_k
top_p = parsed_input.top_p
length_penalty = 1.0
repetition_penalty= 2.0
out = model.inference(
text,
language,
gpt_cond_latent,
speaker_embedding,
temperature,
length_penalty,
repetition_penalty,
top_k,
top_p,
speed,
)
wav = postprocess(torch.tensor(out["wav"]))
return encode_audio_common(wav.tobytes())
# @app.get("/studio_speakers")
def get_speakers():
if hasattr(model, "speaker_manager") and hasattr(model.speaker_manager, "speakers"):
return {
speaker: {
"speaker_embedding": model.speaker_manager.speakers[speaker]["speaker_embedding"].cpu().squeeze().half().tolist(),
"gpt_cond_latent": model.speaker_manager.speakers[speaker]["gpt_cond_latent"].cpu().squeeze().half().tolist(),
}
for speaker in model.speaker_manager.speakers.keys()
}
else:
return {}
# @app.get("/languages")
def get_languages():
return config.languages