evBackend / coqui.py
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import sys
import io, os, stat
import torch
import subprocess
import random
from zipfile import ZipFile
import uuid
import time
import torchaudio
import numpy as np
# update gradio to faster streaming
# download for mecab
print("install unidic")
os.system('python -m unidic download')
# By using XTTS you agree to CPML license https://coqui.ai/cpml
os.environ["COQUI_TOS_AGREED"] = "1"
# langid is used to detect language for longer text
# Most users expect text to be their own language, there is checkbox to disable it
import langid
import base64
import csv
from io import StringIO
import datetime
import re
from scipy.io.wavfile import write
from pydub import AudioSegment
from TTS.api import TTS
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 huggingface_hub import HfApi
# Use never ffmpeg binary for Ubuntu20 to use denoising for microphone input
print("Export newer ffmpeg binary for denoise filter")
ZipFile("ffmpeg.zip").extractall()
print("Make ffmpeg binary executable")
st = os.stat("ffmpeg")
os.chmod("ffmpeg", st.st_mode | stat.S_IEXEC)
HF_TOKEN = os.environ.get("HF_TOKEN")
if not HF_TOKEN:
raise ValueError("HF_TOKEN environment variable is not set")
# will use api to restart space on a unrecoverable error
api = HfApi(token=HF_TOKEN)
repo_id = "coqui/xtts"
# This will trigger downloading model
print("Downloading if not downloaded Coqui XTTS V2")
from TTS.utils.manage import ModelManager
model_name = "tts_models/multilingual/multi-dataset/xtts_v2"
ModelManager().download_model(model_name)
model_path = os.path.join(get_user_data_dir("tts"), model_name.replace("/", "--"))
print("XTTS downloaded")
# Ensure the model path and its contents are accessible
os.system(f'chown -R appuser:appgroup {model_path}')
os.system(f'chmod -R 755 {model_path}')
# Ensure the model directory and files have the correct permissions
if not os.access(model_path, os.W_OK):
raise PermissionError(f"Write permission denied for model directory: {model_path}")
config = XttsConfig()
config.load_json(os.path.join(model_path, "config.json"))
model = Xtts.init_from_config(config)
checkpoint_path = os.path.join(model_path, "model.pth")
vocab_path = os.path.join(model_path, "vocab.json")
if not os.path.exists(checkpoint_path):
raise FileNotFoundError(f"Checkpoint file not found at {checkpoint_path}")
if not os.path.exists(vocab_path):
raise FileNotFoundError(f"Vocab file not found at {vocab_path}")
if not os.environ.get('CUDA_HOME'):
print(f"ENV var CUDA_HOME is not set, defaulting to: '/usr/local/cuda'")
os.environ['CUDA_HOME'] = f"/usr/local/cuda"
model.load_checkpoint(
config,
checkpoint_dir=model_path,
vocab_path=vocab_path,
eval=True,
use_deepspeed=True,
)
model.cuda()
# This is for debugging purposes only
DEVICE_ASSERT_DETECTED = 0
DEVICE_ASSERT_PROMPT = None
DEVICE_ASSERT_LANG = None
supported_languages = config.languages
def numpy_to_mp3(audio_array, sampling_rate):
# Normalize audio_array if it's floating-point
if np.issubdtype(audio_array.dtype, np.floating):
max_val = np.max(np.abs(audio_array))
audio_array = (audio_array / max_val) * 32767 # Normalize to 16-bit range
audio_array = audio_array.astype(np.int16)
# Create an audio segment from the numpy array
audio_segment = AudioSegment(
audio_array.tobytes(),
frame_rate=sampling_rate,
sample_width=audio_array.dtype.itemsize,
channels=1
)
# Export the audio segment to MP3 bytes - use a high bitrate to maximise quality
mp3_io = io.BytesIO()
audio_segment.export(mp3_io, format="mp3", bitrate="320k")
# Get the MP3 bytes
mp3_bytes = mp3_io.getvalue()
mp3_io.close()
return mp3_bytes
def predict(
prompt,
language,
audio_file_pth,
mic_file_path,
use_mic,
voice_cleanup,
no_lang_auto_detect,
agree,
):
print("####################################### Predict Called ##############################")
print("promp:",prompt)
print("language:",language)
print("audio_file_pth:",audio_file_pth)
print("mic_file_path:",mic_file_path)
print("use_mic:",use_mic)
print("voice_cleanup:",voice_cleanup)
print("no_lang_auto_detect:",no_lang_auto_detect)
print("agree:",agree)
if agree == True:
if language not in supported_languages:
print(
f"Language you put {language} in is not in is not in our Supported Languages, please choose from dropdown"
)
return (
None,
)
language_predicted = langid.classify(prompt)[
0
].strip() # strip need as there is space at end!
# tts expects chinese as zh-cn
if language_predicted == "zh":
# we use zh-cn
language_predicted = "zh-cn"
print(f"Detected language:{language_predicted}, Chosen language:{language}")
# After text character length 15 trigger language detection
if len(prompt) > 15:
# allow any language for short text as some may be common
# If user unchecks language autodetection it will not trigger
# You may remove this completely for own use
if language_predicted != language and not no_lang_auto_detect:
# Please duplicate and remove this check if you really want this
# Or auto-detector fails to identify language (which it can on pretty short text or mixed text)
print(
f"It looks like your text isn’t the language you chose , if you’re sure the text is the same language you chose, please check disable language auto-detection checkbox"
)
return (
None,
)
if use_mic == True:
if mic_file_path is not None:
speaker_wav = mic_file_path
else:
print(
"Please record your voice with Microphone, or uncheck Use Microphone to use reference audios"
)
return (
None,
)
else:
speaker_wav = audio_file_pth
# Filtering for microphone input, as it has BG noise, maybe silence in beginning and end
# This is fast filtering not perfect
# Apply all on demand
lowpassfilter = denoise = trim = loudness = True
if lowpassfilter:
lowpass_highpass = "lowpass=8000,highpass=75,"
else:
lowpass_highpass = ""
if trim:
# better to remove silence in beginning and end for microphone
trim_silence = "areverse,silenceremove=start_periods=1:start_silence=0:start_threshold=0.02,areverse,silenceremove=start_periods=1:start_silence=0:start_threshold=0.02,"
else:
trim_silence = ""
if voice_cleanup:
try:
out_filename = (
speaker_wav + str(uuid.uuid4()) + ".wav"
) # ffmpeg to know output format
# we will use newer ffmpeg as that has afftn denoise filter
shell_command = f"./ffmpeg -y -i {speaker_wav} -af {lowpass_highpass}{trim_silence} {out_filename}".split(
" "
)
command_result = subprocess.run(
[item for item in shell_command],
capture_output=False,
text=True,
check=True,
)
speaker_wav = out_filename
print("Filtered microphone input")
except subprocess.CalledProcessError:
# There was an error - command exited with non-zero code
print("Error: failed filtering, use original microphone input")
else:
speaker_wav = speaker_wav
if len(prompt) < 2:
print("Please give a longer prompt text")
return (
None,
)
if len(prompt) > 1000:
print(
"Text length limited to 200 characters for this demo, please try shorter text. You can clone this space and edit code for your own usage"
)
return (
None,
)
global DEVICE_ASSERT_DETECTED
if DEVICE_ASSERT_DETECTED:
global DEVICE_ASSERT_PROMPT
global DEVICE_ASSERT_LANG
# It will likely never come here as we restart space on first unrecoverable error now
print(
f"Unrecoverable exception caused by language:{DEVICE_ASSERT_LANG} prompt:{DEVICE_ASSERT_PROMPT}"
)
# HF Space specific.. This error is unrecoverable need to restart space
space = api.get_space_runtime(repo_id=repo_id)
if space.stage != "BUILDING":
api.restart_space(repo_id=repo_id)
else:
print("TRIED TO RESTART but space is building")
try:
metrics_text = ""
t_latent = time.time()
# note diffusion_conditioning not used on hifigan (default mode), it will be empty but need to pass it to model.inference
try:
(
gpt_cond_latent,
speaker_embedding,
) = model.get_conditioning_latents(audio_path=speaker_wav, gpt_cond_len=30, gpt_cond_chunk_len=4, max_ref_length=60)
except Exception as e:
print("Speaker encoding error", str(e))
print(
"It appears something wrong with reference, did you unmute your microphone?"
)
return (
None,
)
latent_calculation_time = time.time() - t_latent
# metrics_text=f"Embedding calculation time: {latent_calculation_time:.2f} seconds\n"
# temporary comma fix
prompt = re.sub("([^\x00-\x7F]|\w)(\.|\。|\?)", r"\1 \2\2", prompt)
wav_chunks = []
## Direct mode
"""
print("I: Generating new audio...")
t0 = time.time()
out = model.inference(
prompt,
language,
gpt_cond_latent,
speaker_embedding,
repetition_penalty=5.0,
temperature=0.75,
)
inference_time = time.time() - t0
print(f"I: Time to generate audio: {round(inference_time*1000)} milliseconds")
metrics_text+=f"Time to generate audio: {round(inference_time*1000)} milliseconds\n"
real_time_factor= (time.time() - t0) / out['wav'].shape[-1] * 24000
print(f"Real-time factor (RTF): {real_time_factor}")
metrics_text+=f"Real-time factor (RTF): {real_time_factor:.2f}\n"
torchaudio.save("output.wav", torch.tensor(out["wav"]).unsqueeze(0), 24000)
"""
print("I: Generating new audio in streaming mode...")
t0 = time.time()
chunks = model.inference_stream(
prompt,
language,
gpt_cond_latent,
speaker_embedding,
repetition_penalty=7.0,
temperature=0.85,
)
first_chunk = True
for i, chunk in enumerate(chunks):
if first_chunk:
first_chunk_time = time.time() - t0
metrics_text += f"Latency to first audio chunk: {round(first_chunk_time*1000)} milliseconds\n"
first_chunk = False
# Convert chunk to numpy array and return it
chunk_np = chunk.cpu().numpy()
print('chunk',i)
yield numpy_to_mp3(chunk_np,24000)
wav_chunks.append(chunk)
print(f"Received chunk {i} of audio length {chunk.shape[-1]}")
inference_time = time.time() - t0
print(
f"I: Time to generate audio: {round(inference_time*1000)} milliseconds"
)
# metrics_text += (
# f"Time to generate audio: {round(inference_time*1000)} milliseconds\n"
#)
except RuntimeError as e:
if "device-side assert" in str(e):
# cannot do anything on cuda device side error, need tor estart
print(
f"Exit due to: Unrecoverable exception caused by language:{language} prompt:{prompt}",
flush=True,
)
print("Unhandled Exception encounter, please retry in a minute")
print("Cuda device-assert Runtime encountered need restart")
if not DEVICE_ASSERT_DETECTED:
DEVICE_ASSERT_DETECTED = 1
DEVICE_ASSERT_PROMPT = prompt
DEVICE_ASSERT_LANG = language
# just before restarting save what caused the issue so we can handle it in future
# Uploading Error data only happens for unrecovarable error
error_time = datetime.datetime.now().strftime("%d-%m-%Y-%H:%M:%S")
error_data = [
error_time,
prompt,
language,
audio_file_pth,
mic_file_path,
use_mic,
voice_cleanup,
no_lang_auto_detect,
agree,
]
error_data = [str(e) if type(e) != str else e for e in error_data]
print(error_data)
print(speaker_wav)
write_io = StringIO()
csv.writer(write_io).writerows([error_data])
csv_upload = write_io.getvalue().encode()
filename = error_time + "_" + str(uuid.uuid4()) + ".csv"
print("Writing error csv")
error_api = HfApi()
error_api.upload_file(
path_or_fileobj=csv_upload,
path_in_repo=filename,
repo_id="coqui/xtts-flagged-dataset",
repo_type="dataset",
)
# speaker_wav
print("Writing error reference audio")
speaker_filename = (
error_time + "_reference_" + str(uuid.uuid4()) + ".wav"
)
error_api = HfApi()
error_api.upload_file(
path_or_fileobj=speaker_wav,
path_in_repo=speaker_filename,
repo_id="coqui/xtts-flagged-dataset",
repo_type="dataset",
)
# HF Space specific.. This error is unrecoverable need to restart space
space = api.get_space_runtime(repo_id=repo_id)
if space.stage != "BUILDING":
api.restart_space(repo_id=repo_id)
else:
print("TRIED TO RESTART but space is building")
else:
if "Failed to decode" in str(e):
print("Speaker encoding error", str(e))
print(
"It appears something wrong with reference, did you unmute your microphone?"
)
else:
print("RuntimeError: non device-side assert error:", str(e))
print("Something unexpected happened please retry again.")
return (
None,
)
else:
print("Please accept the Terms & Condition!")
return (
None,
)