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from functools import lru_cache |
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from modules.utils.zh_normalization.text_normlization import * |
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import emojiswitch |
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from modules.utils.markdown import markdown_to_text |
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from modules import models |
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import re |
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@lru_cache(maxsize=64) |
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def is_chinese(text): |
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chinese_pattern = re.compile(r"[\u4e00-\u9fff]") |
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return bool(chinese_pattern.search(text)) |
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@lru_cache(maxsize=64) |
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def is_eng(text): |
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eng_pattern = re.compile(r"[a-zA-Z]") |
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return bool(eng_pattern.search(text)) |
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@lru_cache(maxsize=64) |
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def guess_lang(text): |
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if is_chinese(text): |
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return "zh" |
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if is_eng(text): |
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return "en" |
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return "zh" |
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post_normalize_pipeline = [] |
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pre_normalize_pipeline = [] |
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def post_normalize(): |
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def decorator(func): |
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post_normalize_pipeline.append(func) |
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return func |
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return decorator |
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def pre_normalize(): |
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def decorator(func): |
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pre_normalize_pipeline.append(func) |
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return func |
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return decorator |
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def apply_pre_normalize(text): |
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for func in pre_normalize_pipeline: |
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text = func(text) |
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return text |
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def apply_post_normalize(text): |
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for func in post_normalize_pipeline: |
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text = func(text) |
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return text |
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def is_markdown(text): |
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markdown_patterns = [ |
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r"(^|\s)#[^#]", |
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r"\*\*.*?\*\*", |
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r"\*.*?\*", |
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r"!\[.*?\]\(.*?\)", |
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r"\[.*?\]\(.*?\)", |
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r"`[^`]+`", |
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r"```[\s\S]*?```", |
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r"(^|\s)\* ", |
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r"(^|\s)\d+\. ", |
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r"(^|\s)> ", |
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r"(^|\s)---", |
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] |
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for pattern in markdown_patterns: |
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if re.search(pattern, text, re.MULTILINE): |
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return True |
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return False |
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character_map = { |
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":": ",", |
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";": ",", |
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"!": "。", |
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"(": ",", |
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")": ",", |
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"【": ",", |
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"】": ",", |
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"『": ",", |
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"』": ",", |
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"「": ",", |
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"」": ",", |
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"《": ",", |
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"》": ",", |
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"-": ",", |
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"‘": " ", |
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"“": " ", |
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"’": " ", |
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"”": " ", |
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'"': " ", |
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"'": " ", |
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":": ",", |
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";": ",", |
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"!": ".", |
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"(": ",", |
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")": ",", |
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"[": ",", |
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"]": ",", |
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">": ",", |
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"<": ",", |
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"-": ",", |
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"~": " ", |
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"~": " ", |
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"/": " ", |
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} |
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character_to_word = { |
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" & ": " and ", |
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} |
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@post_normalize() |
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def apply_character_to_word(text): |
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for k, v in character_to_word.items(): |
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text = text.replace(k, v) |
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return text |
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@post_normalize() |
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def apply_character_map(text): |
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translation_table = str.maketrans(character_map) |
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return text.translate(translation_table) |
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@post_normalize() |
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def apply_emoji_map(text): |
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lang = guess_lang(text) |
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return emojiswitch.demojize(text, delimiters=("", ""), lang=lang) |
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@post_normalize() |
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def insert_spaces_between_uppercase(s): |
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return re.sub( |
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r"(?<=[A-Z])(?=[A-Z])|(?<=[a-z])(?=[A-Z])|(?<=[\u4e00-\u9fa5])(?=[A-Z])|(?<=[A-Z])(?=[\u4e00-\u9fa5])", |
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" ", |
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s, |
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) |
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@post_normalize() |
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def replace_unk_tokens(text): |
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""" |
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把不在字典里的字符替换为 " , " |
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""" |
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chat_tts = models.load_chat_tts() |
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if "tokenizer" not in chat_tts.pretrain_models: |
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return text |
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tokenizer = chat_tts.pretrain_models["tokenizer"] |
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vocab = tokenizer.get_vocab() |
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vocab_set = set(vocab.keys()) |
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vocab_set.update(set("abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ")) |
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vocab_set.update(set(" \n\r\t")) |
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replaced_chars = [char if char in vocab_set else " , " for char in text] |
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output_text = "".join(replaced_chars) |
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return output_text |
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@pre_normalize() |
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def apply_markdown_to_text(text): |
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if is_markdown(text): |
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text = markdown_to_text(text) |
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return text |
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@pre_normalize() |
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def replace_quotes(text): |
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repl = r"\n\1\n" |
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patterns = [ |
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['"', '"'], |
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["'", "'"], |
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["“", "”"], |
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["‘", "’"], |
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] |
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for p in patterns: |
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text = re.sub(rf"({p[0]}[^{p[0]}{p[1]}]+?{p[1]})", repl, text) |
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return text |
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def ensure_suffix(a: str, b: str, c: str): |
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a = a.strip() |
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if not a.endswith(b): |
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a += c |
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return a |
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email_domain_map = { |
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"outlook.com": "Out look", |
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"hotmail.com": "Hot mail", |
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"yahoo.com": "雅虎", |
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} |
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def email_detect(text): |
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email_pattern = re.compile(r"([a-zA-Z0-9._%+-]+@[a-zA-Z0-9.-]+\.[a-zA-Z]{2,})") |
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def replace(match): |
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email = match.group(1) |
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name, domain = email.split("@") |
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name = " ".join(name) |
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if domain in email_domain_map: |
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domain = email_domain_map[domain] |
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domain = domain.replace(".", " dot ") |
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return f"{name} at {domain}" |
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return email_pattern.sub(replace, text) |
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def sentence_normalize(sentence_text: str): |
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tx = TextNormalizer() |
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pattern = re.compile(r"(\[.+?\])|([^[]+)") |
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def normalize_part(part): |
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sentences = tx.normalize(part) if guess_lang(part) == "zh" else [part] |
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dest_text = "" |
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for sentence in sentences: |
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sentence = apply_post_normalize(sentence) |
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dest_text += sentence |
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return dest_text |
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def replace(match): |
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if match.group(1): |
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return f" {match.group(1)} " |
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else: |
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return normalize_part(match.group(2)) |
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result = pattern.sub(replace, sentence_text) |
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return result |
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def text_normalize(text, is_end=False): |
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text = apply_pre_normalize(text) |
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lines = text.split("\n") |
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lines = [line.strip() for line in lines] |
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lines = [line for line in lines if line] |
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lines = [sentence_normalize(line) for line in lines] |
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content = "\n".join(lines) |
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return content |
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if __name__ == "__main__": |
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test_cases = [ |
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"ChatTTS是专门为对话场景设计的文本转语音模型,例如LLM助手对话任务。它支持英文和中文两种语言。最大的模型使用了10万小时以上的中英文数据进行训练。在HuggingFace中开源的版本为4万小时训练且未SFT的版本.", |
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" [oral_9] [laugh_0] [break_0] 电 [speed_0] 影 [speed_0] 中 梁朝伟 [speed_9] 扮演的陈永仁的编号27149", |
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" 明天有62%的概率降雨", |
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"大🍌,一条大🍌,嘿,你的感觉真的很奇妙 [lbreak]", |
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""" |
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# 你好,世界 |
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```js |
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console.log('1') |
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``` |
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**加粗** |
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*一条文本* |
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""", |
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""" |
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在沙漠、岩石、雪地上行走了很长的时间以后,小王子终于发现了一条大路。所有的大路都是通往人住的地方的。 |
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“你们好。”小王子说。 |
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这是一个玫瑰盛开的花园。 |
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“你好。”玫瑰花说道。 |
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小王子瞅着这些花,它们全都和他的那朵花一样。 |
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“你们是什么花?”小王子惊奇地问。 |
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“我们是玫瑰花。”花儿们说道。 |
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“啊!”小王子说……。 |
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""", |
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""" |
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State-of-the-art Machine Learning for PyTorch, TensorFlow, and JAX. |
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🤗 Transformers provides APIs and tools to easily download and train state-of-the-art pretrained models. Using pretrained models can reduce your compute costs, carbon footprint, and save you the time and resources required to train a model from scratch. These models support common tasks in different modalities, such as: |
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📝 Natural Language Processing: text classification, named entity recognition, question answering, language modeling, summarization, translation, multiple choice, and text generation. |
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🖼️ Computer Vision: image classification, object detection, and segmentation. |
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🗣️ Audio: automatic speech recognition and audio classification. |
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🐙 Multimodal: table question answering, optical character recognition, information extraction from scanned documents, video classification, and visual question answering. |
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""", |
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] |
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for i, test_case in enumerate(test_cases): |
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print(f"case {i}:\n", {"x": text_normalize(test_case, is_end=True)}) |
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