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bi_v100-f5-tts/F5-TTS/src/f5_tts/model/utils.py
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bi_v100-f5-tts/F5-TTS/src/f5_tts/model/utils.py
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from __future__ import annotations
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import os
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import random
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from collections import defaultdict
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from importlib.resources import files
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import jieba
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import torch
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from pypinyin import Style, lazy_pinyin
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from torch.nn.utils.rnn import pad_sequence
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# seed everything
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def seed_everything(seed=0):
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random.seed(seed)
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os.environ["PYTHONHASHSEED"] = str(seed)
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torch.manual_seed(seed)
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torch.cuda.manual_seed(seed)
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torch.cuda.manual_seed_all(seed)
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torch.backends.cudnn.deterministic = True
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torch.backends.cudnn.benchmark = False
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# helpers
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def exists(v):
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return v is not None
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def default(v, d):
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return v if exists(v) else d
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def is_package_available(package_name: str) -> bool:
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try:
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import importlib
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package_exists = importlib.util.find_spec(package_name) is not None
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return package_exists
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except Exception:
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return False
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# tensor helpers
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def lens_to_mask(t: int["b"], length: int | None = None) -> bool["b n"]: # noqa: F722 F821
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if not exists(length):
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length = t.amax()
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seq = torch.arange(length, device=t.device)
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return seq[None, :] < t[:, None]
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def mask_from_start_end_indices(seq_len: int["b"], start: int["b"], end: int["b"]): # noqa: F722 F821
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max_seq_len = seq_len.max().item()
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seq = torch.arange(max_seq_len, device=start.device).long()
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start_mask = seq[None, :] >= start[:, None]
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end_mask = seq[None, :] < end[:, None]
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return start_mask & end_mask
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def mask_from_frac_lengths(seq_len: int["b"], frac_lengths: float["b"]): # noqa: F722 F821
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lengths = (frac_lengths * seq_len).long()
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max_start = seq_len - lengths
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rand = torch.rand_like(frac_lengths)
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start = (max_start * rand).long().clamp(min=0)
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end = start + lengths
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return mask_from_start_end_indices(seq_len, start, end)
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def maybe_masked_mean(t: float["b n d"], mask: bool["b n"] = None) -> float["b d"]: # noqa: F722
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if not exists(mask):
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return t.mean(dim=1)
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t = torch.where(mask[:, :, None], t, torch.tensor(0.0, device=t.device))
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num = t.sum(dim=1)
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den = mask.float().sum(dim=1)
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return num / den.clamp(min=1.0)
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# simple utf-8 tokenizer, since paper went character based
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def list_str_to_tensor(text: list[str], padding_value=-1) -> int["b nt"]: # noqa: F722
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list_tensors = [torch.tensor([*bytes(t, "UTF-8")]) for t in text] # ByT5 style
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text = pad_sequence(list_tensors, padding_value=padding_value, batch_first=True)
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return text
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# char tokenizer, based on custom dataset's extracted .txt file
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def list_str_to_idx(
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text: list[str] | list[list[str]],
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vocab_char_map: dict[str, int], # {char: idx}
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padding_value=-1,
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) -> int["b nt"]: # noqa: F722
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list_idx_tensors = [torch.tensor([vocab_char_map.get(c, 0) for c in t]) for t in text] # pinyin or char style
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text = pad_sequence(list_idx_tensors, padding_value=padding_value, batch_first=True)
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return text
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# Get tokenizer
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def get_tokenizer(dataset_name, tokenizer: str = "pinyin"):
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"""
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tokenizer - "pinyin" do g2p for only chinese characters, need .txt vocab_file
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- "char" for char-wise tokenizer, need .txt vocab_file
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- "byte" for utf-8 tokenizer
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- "custom" if you're directly passing in a path to the vocab.txt you want to use
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vocab_size - if use "pinyin", all available pinyin types, common alphabets (also those with accent) and symbols
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- if use "char", derived from unfiltered character & symbol counts of custom dataset
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- if use "byte", set to 256 (unicode byte range)
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"""
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if tokenizer in ["pinyin", "char"]:
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tokenizer_path = os.path.join(files("f5_tts").joinpath("../../data"), f"{dataset_name}_{tokenizer}/vocab.txt")
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with open(tokenizer_path, "r", encoding="utf-8") as f:
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vocab_char_map = {}
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for i, char in enumerate(f):
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vocab_char_map[char[:-1]] = i
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vocab_size = len(vocab_char_map)
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assert vocab_char_map[" "] == 0, "make sure space is of idx 0 in vocab.txt, cuz 0 is used for unknown char"
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elif tokenizer == "byte":
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vocab_char_map = None
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vocab_size = 256
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elif tokenizer == "custom":
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with open(dataset_name, "r", encoding="utf-8") as f:
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vocab_char_map = {}
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for i, char in enumerate(f):
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vocab_char_map[char[:-1]] = i
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vocab_size = len(vocab_char_map)
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return vocab_char_map, vocab_size
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# convert char to pinyin
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def convert_char_to_pinyin(text_list, polyphone=True):
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if jieba.dt.initialized is False:
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jieba.default_logger.setLevel(50) # CRITICAL
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jieba.initialize()
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final_text_list = []
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custom_trans = str.maketrans(
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{";": ",", "“": '"', "”": '"', "‘": "'", "’": "'"}
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) # add custom trans here, to address oov
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def is_chinese(c):
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return (
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"\u3100" <= c <= "\u9fff" # common chinese characters
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)
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for text in text_list:
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char_list = []
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text = text.translate(custom_trans)
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for seg in jieba.cut(text):
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seg_byte_len = len(bytes(seg, "UTF-8"))
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if seg_byte_len == len(seg): # if pure alphabets and symbols
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if char_list and seg_byte_len > 1 and char_list[-1] not in " :'\"":
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char_list.append(" ")
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char_list.extend(seg)
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elif polyphone and seg_byte_len == 3 * len(seg): # if pure east asian characters
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seg_ = lazy_pinyin(seg, style=Style.TONE3, tone_sandhi=True)
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for i, c in enumerate(seg):
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if is_chinese(c):
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char_list.append(" ")
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char_list.append(seg_[i])
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else: # if mixed characters, alphabets and symbols
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for c in seg:
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if ord(c) < 256:
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char_list.extend(c)
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elif is_chinese(c):
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char_list.append(" ")
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char_list.extend(lazy_pinyin(c, style=Style.TONE3, tone_sandhi=True))
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else:
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char_list.append(c)
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final_text_list.append(char_list)
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return final_text_list
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# filter func for dirty data with many repetitions
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def repetition_found(text, length=2, tolerance=10):
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pattern_count = defaultdict(int)
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for i in range(len(text) - length + 1):
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pattern = text[i : i + length]
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pattern_count[pattern] += 1
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for pattern, count in pattern_count.items():
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if count > tolerance:
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return True
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return False
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# get the empirically pruned step for sampling
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def get_epss_timesteps(n, device, dtype):
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dt = 1 / 32
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predefined_timesteps = {
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5: [0, 2, 4, 8, 16, 32],
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6: [0, 2, 4, 6, 8, 16, 32],
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7: [0, 2, 4, 6, 8, 16, 24, 32],
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10: [0, 2, 4, 6, 8, 12, 16, 20, 24, 28, 32],
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12: [0, 2, 4, 6, 8, 10, 12, 14, 16, 20, 24, 28, 32],
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16: [0, 1, 2, 3, 4, 5, 6, 7, 8, 10, 12, 14, 16, 20, 24, 28, 32],
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}
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t = predefined_timesteps.get(n, [])
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if not t:
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return torch.linspace(0, 1, n + 1, device=device, dtype=dtype)
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return dt * torch.tensor(t, device=device, dtype=dtype)
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