# -*- encoding: utf-8 -*- import functools import logging from pathlib import Path from typing import Any, Dict, Iterable, List, NamedTuple, Set, Tuple, Union import re import numpy as np import yaml import jieba import warnings root_dir = Path(__file__).resolve().parent logger_initialized = {} def pad_list(xs, pad_value, max_len=None): n_batch = len(xs) if max_len is None: max_len = max(x.size(0) for x in xs) # pad = xs[0].new(n_batch, max_len, *xs[0].size()[1:]).fill_(pad_value) # numpy format pad = (np.zeros((n_batch, max_len)) + pad_value).astype(np.int32) for i in range(n_batch): pad[i, : xs[i].shape[0]] = xs[i] return pad """ def make_pad_mask(lengths, xs=None, length_dim=-1, maxlen=None): if length_dim == 0: raise ValueError("length_dim cannot be 0: {}".format(length_dim)) if not isinstance(lengths, list): lengths = lengths.tolist() bs = int(len(lengths)) if maxlen is None: if xs is None: maxlen = int(max(lengths)) else: maxlen = xs.size(length_dim) else: assert xs is None assert maxlen >= int(max(lengths)) seq_range = torch.arange(0, maxlen, dtype=torch.int64) seq_range_expand = seq_range.unsqueeze(0).expand(bs, maxlen) seq_length_expand = seq_range_expand.new(lengths).unsqueeze(-1) mask = seq_range_expand >= seq_length_expand if xs is not None: assert xs.size(0) == bs, (xs.size(0), bs) if length_dim < 0: length_dim = xs.dim() + length_dim # ind = (:, None, ..., None, :, , None, ..., None) ind = tuple( slice(None) if i in (0, length_dim) else None for i in range(xs.dim()) ) mask = mask[ind].expand_as(xs).to(xs.device) return mask """ class TokenIDConverter: def __init__( self, token_list: Union[List, str], ): self.token_list = token_list self.unk_symbol = token_list[-1] self.token2id = {v: i for i, v in enumerate(self.token_list)} self.unk_id = self.token2id[self.unk_symbol] def get_num_vocabulary_size(self) -> int: return len(self.token_list) def ids2tokens(self, integers: Union[np.ndarray, Iterable[int]]) -> List[str]: if isinstance(integers, np.ndarray) and integers.ndim != 1: raise TokenIDConverterError(f"Must be 1 dim ndarray, but got {integers.ndim}") return [self.token_list[i] for i in integers] def tokens2ids(self, tokens: Iterable[str]) -> List[int]: return [self.token2id.get(i, self.unk_id) for i in tokens] class CharTokenizer: def __init__( self, symbol_value: Union[Path, str, Iterable[str]] = None, space_symbol: str = "", remove_non_linguistic_symbols: bool = False, ): self.space_symbol = space_symbol self.non_linguistic_symbols = self.load_symbols(symbol_value) self.remove_non_linguistic_symbols = remove_non_linguistic_symbols @staticmethod def load_symbols(value: Union[Path, str, Iterable[str]] = None) -> Set: if value is None: return set() if isinstance(value, Iterable[str]): return set(value) file_path = Path(value) if not file_path.exists(): logging.warning("%s doesn't exist.", file_path) return set() with file_path.open("r", encoding="utf-8") as f: return set(line.rstrip() for line in f) def text2tokens(self, line: Union[str, list]) -> List[str]: tokens = [] while len(line) != 0: for w in self.non_linguistic_symbols: if line.startswith(w): if not self.remove_non_linguistic_symbols: tokens.append(line[: len(w)]) line = line[len(w) :] break else: t = line[0] if t == " ": t = "" tokens.append(t) line = line[1:] return tokens def tokens2text(self, tokens: Iterable[str]) -> str: tokens = [t if t != self.space_symbol else " " for t in tokens] return "".join(tokens) def __repr__(self): return ( f"{self.__class__.__name__}(" f'space_symbol="{self.space_symbol}"' f'non_linguistic_symbols="{self.non_linguistic_symbols}"' f")" ) class Hypothesis(NamedTuple): """Hypothesis data type.""" yseq: np.ndarray score: Union[float, np.ndarray] = 0 scores: Dict[str, Union[float, np.ndarray]] = dict() states: Dict[str, Any] = dict() def asdict(self) -> dict: """Convert data to JSON-friendly dict.""" return self._replace( yseq=self.yseq.tolist(), score=float(self.score), scores={k: float(v) for k, v in self.scores.items()}, )._asdict() class TokenIDConverterError(Exception): pass class ONNXRuntimeError(Exception): pass def split_to_mini_sentence(words: list, word_limit: int = 20): assert word_limit > 1 if len(words) <= word_limit: return [words] sentences = [] length = len(words) sentence_len = length // word_limit for i in range(sentence_len): sentences.append(words[i * word_limit : (i + 1) * word_limit]) if length % word_limit > 0: sentences.append(words[sentence_len * word_limit :]) return sentences def code_mix_split_words(text: str): words = [] segs = text.split() for seg in segs: # There is no space in seg. current_word = "" for c in seg: if len(c.encode()) == 1: # This is an ASCII char. current_word += c else: # This is a Chinese char. if len(current_word) > 0: words.append(current_word) current_word = "" words.append(c) if len(current_word) > 0: words.append(current_word) return words def isEnglish(text: str): if re.search("^[a-zA-Z']+$", text): return True else: return False def join_chinese_and_english(input_list): line = "" for token in input_list: if isEnglish(token): line = line + " " + token else: line = line + token line = line.strip() return line def code_mix_split_words_jieba(seg_dict_file: str): jieba.load_userdict(seg_dict_file) def _fn(text: str): input_list = text.split() token_list_all = [] langauge_list = [] token_list_tmp = [] language_flag = None for token in input_list: if isEnglish(token) and language_flag == "Chinese": token_list_all.append(token_list_tmp) langauge_list.append("Chinese") token_list_tmp = [] elif not isEnglish(token) and language_flag == "English": token_list_all.append(token_list_tmp) langauge_list.append("English") token_list_tmp = [] token_list_tmp.append(token) if isEnglish(token): language_flag = "English" else: language_flag = "Chinese" if token_list_tmp: token_list_all.append(token_list_tmp) langauge_list.append(language_flag) result_list = [] for token_list_tmp, language_flag in zip(token_list_all, langauge_list): if language_flag == "English": result_list.extend(token_list_tmp) else: seg_list = jieba.cut(join_chinese_and_english(token_list_tmp), HMM=False) result_list.extend(seg_list) return result_list return _fn def read_yaml(yaml_path: Union[str, Path]) -> Dict: if not Path(yaml_path).exists(): raise FileExistsError(f"The {yaml_path} does not exist.") with open(str(yaml_path), "rb") as f: data = yaml.load(f, Loader=yaml.Loader) return data @functools.lru_cache() def get_logger(name="funasr_onnx"): """Initialize and get a logger by name. If the logger has not been initialized, this method will initialize the logger by adding one or two handlers, otherwise the initialized logger will be directly returned. During initialization, a StreamHandler will always be added. Args: name (str): Logger name. Returns: logging.Logger: The expected logger. """ logger = logging.getLogger(name) if name in logger_initialized: return logger for logger_name in logger_initialized: if name.startswith(logger_name): return logger formatter = logging.Formatter( "[%(asctime)s] %(name)s %(levelname)s: %(message)s", datefmt="%Y/%m/%d %H:%M:%S" ) sh = logging.StreamHandler() sh.setFormatter(formatter) logger.addHandler(sh) logger_initialized[name] = True logger.propagate = False logging.basicConfig(level=logging.ERROR) return logger