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import os
import sys
from random import randint
from typing import List, Optional, Set, Union
from tortoise.utils.audio import get_voices, load_audio, load_voices
from tortoise.utils.text import split_and_recombine_text
def get_all_voices(extra_voice_dirs_str: str = ""):
extra_voice_dirs = extra_voice_dirs_str.split(",") if extra_voice_dirs_str else []
return sorted(get_voices(extra_voice_dirs)), extra_voice_dirs
def parse_voice_str(voice_str: str, all_voices: List[str]):
selected_voices = all_voices if voice_str == "all" else voice_str.split(",")
selected_voices = [v.split("&") if "&" in v else [v] for v in selected_voices]
for voices in selected_voices:
for v in voices:
if v != "random" and v not in all_voices:
raise ValueError(
f"voice {v} not available, use --list-voices to see available voices."
)
return selected_voices
def voice_loader(selected_voices: list, extra_voice_dirs: List[str]):
for voices in selected_voices:
yield voices, *load_voices(voices, extra_voice_dirs)
def parse_multiarg_text(text: List[str]):
return (" ".join(text) if text else "".join(line for line in sys.stdin)).strip()
def split_text(text: str, text_split: str):
if text_split:
desired_length, max_length = map(int, text_split.split(","))
if desired_length > max_length:
raise ValueError(
f"--text-split: desired_length ({desired_length}) must be <= max_length ({max_length})"
)
texts = split_and_recombine_text(text, desired_length, max_length)
else:
texts = split_and_recombine_text(text)
#
if not texts:
raise ValueError("no text provided")
return texts
def validate_output_dir(output_dir: str, selected_voices: list, candidates: int):
if output_dir:
os.makedirs(output_dir, exist_ok=True)
else:
if len(selected_voices) > 1:
raise ValueError('cannot have multiple voices without --output-dir"')
if candidates > 1:
raise ValueError('cannot have multiple candidates without --output-dir"')
return output_dir
def check_pydub(play: bool):
if play:
try:
import pydub
import pydub.playback
return pydub
except ImportError:
raise RuntimeError(
'--play requires pydub to be installed, which can be done with "pip install pydub"'
)
def get_seed(seed: Optional[int]):
return randint(0, 2**32 - 1) if seed is None else seed
from pathlib import Path
from typing import Any, Callable
import torch
import torchaudio
def run_and_save_tts(
call_tts,
text,
output_dir: Path,
return_deterministic_state,
return_filepaths=False,
voicefixer=True,
):
output_dir.mkdir(exist_ok=True)
if return_deterministic_state:
gen, dbg = call_tts(text)
torch.save(dbg, output_dir / "dbg.pt")
else:
gen = call_tts(text)
#
if not isinstance(gen, list):
gen = [gen]
gen = [g.squeeze(0).cpu() for g in gen]
fps = []
for i, g in enumerate(gen):
fps.append(output_dir / f"{i}.wav")
save_gen_with_voicefix(g, fps[-1], squeeze=False, voicefixer=voicefixer)
# torchaudio.save(output_dir/f'{i}.wav', g, 24000)
return fps if return_filepaths else gen
def infer_on_texts(
call_tts: Callable[[str], Any],
texts: List[str],
output_dir: Union[str, Path],
return_deterministic_state: bool,
lines_to_regen: Set[int],
logger=print,
return_filepaths=False,
voicefixer=True,
):
audio_chunks = []
base_p = Path(output_dir)
base_p.mkdir(exist_ok=True)
for text_idx, text in enumerate(texts):
line_p = base_p / f"{text_idx}"
line_p.mkdir(exist_ok=True)
#
if text_idx not in lines_to_regen:
files = list(line_p.glob("*.wav"))
if files:
logger(f"loading existing audio fragments for [{text_idx}]")
audio_chunks.append([load_audio(str(f), 24000) for f in files])
continue
else:
logger(f"no existing audio fragment for [{text_idx}]")
#
logger(f"generating audio for text {text_idx}: {text}")
audio_chunks.append(
run_and_save_tts(
call_tts,
text,
line_p,
return_deterministic_state,
voicefixer=voicefixer,
)
)
fnames = []
results = []
for i in range(len(audio_chunks[0])):
resultant = torch.cat([c[i] for c in audio_chunks], dim=-1)
fnames.append(base_p / f"combined-{i}.wav")
save_gen_with_voicefix(
resultant, fnames[-1], squeeze=False, voicefixer=False
) # do not run fix on combined!!
results.append(resultant)
# torchaudio.save(base_p/'combined.wav', resultant, 24000)
return fnames if return_filepaths else results
from voicefixer import VoiceFixer
vfixer = VoiceFixer()
def save_gen_with_voicefix(g, fpath, squeeze=True, voicefixer=True):
torchaudio.save(fpath, g.squeeze(0).cpu() if squeeze else g, 24000, format="wav")
if voicefixer:
vfixer.restore(
input=fpath,
output=fpath,
cuda=True,
mode=0,
# your_vocoder_func = convert_mel_to_wav # TODO test if integration with unvinet improves things
)
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