E2-F5-TTSII / speech_edit.py
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import os
import torch
import torch.nn.functional as F
import torchaudio
from einops import rearrange
from vocos import Vocos
from model import CFM, UNetT, DiT, MMDiT
from model.utils import (
load_checkpoint,
get_tokenizer,
convert_char_to_pinyin,
save_spectrogram,
)
device = "cuda" if torch.cuda.is_available() else "mps" if torch.backends.mps.is_available() else "cpu"
# --------------------- Dataset Settings -------------------- #
target_sample_rate = 24000
n_mel_channels = 100
hop_length = 256
target_rms = 0.1
tokenizer = "pinyin"
dataset_name = "Emilia_ZH_EN"
# ---------------------- infer setting ---------------------- #
seed = None # int | None
exp_name = "F5TTS_Base" # F5TTS_Base | E2TTS_Base
ckpt_step = 1200000
nfe_step = 32 # 16, 32
cfg_strength = 2.
ode_method = 'euler' # euler | midpoint
sway_sampling_coef = -1.
speed = 1.
if exp_name == "F5TTS_Base":
model_cls = DiT
model_cfg = dict(dim = 1024, depth = 22, heads = 16, ff_mult = 2, text_dim = 512, conv_layers = 4)
elif exp_name == "E2TTS_Base":
model_cls = UNetT
model_cfg = dict(dim = 1024, depth = 24, heads = 16, ff_mult = 4)
ckpt_path = f"ckpts/{exp_name}/model_{ckpt_step}.pt"
output_dir = "tests"
# [leverage https://github.com/MahmoudAshraf97/ctc-forced-aligner to get char level alignment]
# pip install git+https://github.com/MahmoudAshraf97/ctc-forced-aligner.git
# [write the origin_text into a file, e.g. tests/test_edit.txt]
# ctc-forced-aligner --audio_path "tests/ref_audio/test_en_1_ref_short.wav" --text_path "tests/test_edit.txt" --language "zho" --romanize --split_size "char"
# [result will be saved at same path of audio file]
# [--language "zho" for Chinese, "eng" for English]
# [if local ckpt, set --alignment_model "../checkpoints/mms-300m-1130-forced-aligner"]
audio_to_edit = "tests/ref_audio/test_en_1_ref_short.wav"
origin_text = "Some call me nature, others call me mother nature."
target_text = "Some call me optimist, others call me realist."
parts_to_edit = [[1.42, 2.44], [4.04, 4.9], ] # stard_ends of "nature" & "mother nature", in seconds
fix_duration = [1.2, 1, ] # fix duration for "optimist" & "realist", in seconds
# audio_to_edit = "tests/ref_audio/test_zh_1_ref_short.wav"
# origin_text = "对,这就是我,万人敬仰的太乙真人。"
# target_text = "对,那就是你,万人敬仰的太白金星。"
# parts_to_edit = [[0.84, 1.4], [1.92, 2.4], [4.26, 6.26], ]
# fix_duration = None # use origin text duration
# -------------------------------------------------#
use_ema = True
if not os.path.exists(output_dir):
os.makedirs(output_dir)
# Vocoder model
local = False
if local:
vocos_local_path = "../checkpoints/charactr/vocos-mel-24khz"
vocos = Vocos.from_hparams(f"{vocos_local_path}/config.yaml")
state_dict = torch.load(f"{vocos_local_path}/pytorch_model.bin", map_location=device)
vocos.load_state_dict(state_dict)
vocos.eval()
else:
vocos = Vocos.from_pretrained("charactr/vocos-mel-24khz")
# Tokenizer
vocab_char_map, vocab_size = get_tokenizer(dataset_name, tokenizer)
# Model
model = CFM(
transformer = model_cls(
**model_cfg,
text_num_embeds = vocab_size,
mel_dim = n_mel_channels
),
mel_spec_kwargs = dict(
target_sample_rate = target_sample_rate,
n_mel_channels = n_mel_channels,
hop_length = hop_length,
),
odeint_kwargs = dict(
method = ode_method,
),
vocab_char_map = vocab_char_map,
).to(device)
model = load_checkpoint(model, ckpt_path, device, use_ema = use_ema)
# Audio
audio, sr = torchaudio.load(audio_to_edit)
if audio.shape[0] > 1:
audio = torch.mean(audio, dim=0, keepdim=True)
rms = torch.sqrt(torch.mean(torch.square(audio)))
if rms < target_rms:
audio = audio * target_rms / rms
if sr != target_sample_rate:
resampler = torchaudio.transforms.Resample(sr, target_sample_rate)
audio = resampler(audio)
offset = 0
audio_ = torch.zeros(1, 0)
edit_mask = torch.zeros(1, 0, dtype=torch.bool)
for part in parts_to_edit:
start, end = part
part_dur = end - start if fix_duration is None else fix_duration.pop(0)
part_dur = part_dur * target_sample_rate
start = start * target_sample_rate
audio_ = torch.cat((audio_, audio[:, round(offset):round(start)], torch.zeros(1, round(part_dur))), dim = -1)
edit_mask = torch.cat((edit_mask,
torch.ones(1, round((start - offset) / hop_length), dtype = torch.bool),
torch.zeros(1, round(part_dur / hop_length), dtype = torch.bool)
), dim = -1)
offset = end * target_sample_rate
# audio = torch.cat((audio_, audio[:, round(offset):]), dim = -1)
edit_mask = F.pad(edit_mask, (0, audio.shape[-1] // hop_length - edit_mask.shape[-1] + 1), value = True)
audio = audio.to(device)
edit_mask = edit_mask.to(device)
# Text
text_list = [target_text]
if tokenizer == "pinyin":
final_text_list = convert_char_to_pinyin(text_list)
else:
final_text_list = [text_list]
print(f"text : {text_list}")
print(f"pinyin: {final_text_list}")
# Duration
ref_audio_len = 0
duration = audio.shape[-1] // hop_length
# Inference
with torch.inference_mode():
generated, trajectory = model.sample(
cond = audio,
text = final_text_list,
duration = duration,
steps = nfe_step,
cfg_strength = cfg_strength,
sway_sampling_coef = sway_sampling_coef,
seed = seed,
edit_mask = edit_mask,
)
print(f"Generated mel: {generated.shape}")
# Final result
generated = generated[:, ref_audio_len:, :]
generated_mel_spec = rearrange(generated, '1 n d -> 1 d n')
generated_wave = vocos.decode(generated_mel_spec.cpu())
if rms < target_rms:
generated_wave = generated_wave * rms / target_rms
save_spectrogram(generated_mel_spec[0].cpu().numpy(), f"{output_dir}/test_single_edit.png")
torchaudio.save(f"{output_dir}/test_single_edit.wav", generated_wave, target_sample_rate)
print(f"Generated wav: {generated_wave.shape}")