#!/usr/bin/env python3 # -*- coding: utf-8 -*- # Licensed under WTFPL or the Unlicense or CC0. # This uses Python 3, but it's easy to port to Python 2 by changing # strings to u'xx'. import re import itertools def _num2chinese(num :str, big=False, simp=True, o=False, twoalt=False) -> str: """Convert numerical arabic numbers (0->9) to chinese hanzi numbers (〇 -> 九) Args: num (str): arabic number to convert big (bool, optional): use financial characters. Defaults to False. simp (bool, optional): use simplified characters instead of tradictional characters. Defaults to True. o (bool, optional): use 〇 for 'zero'. Defaults to False. twoalt (bool, optional): use 两/兩 for 'two' when appropriate. Defaults to False. Raises: ValueError: if number is more than 1e48 ValueError: if 'e' exposent in number Returns: str: converted number as hanzi characters """ # check num first nd = str(num) if abs(float(nd)) >= 1e48: raise ValueError('number out of range') elif 'e' in nd: raise ValueError('scientific notation is not supported') c_symbol = '正负点' if simp else '正負點' if o: # formal twoalt = False if big: c_basic = '零壹贰叁肆伍陆柒捌玖' if simp else '零壹貳參肆伍陸柒捌玖' c_unit1 = '拾佰仟' c_twoalt = '贰' if simp else '貳' else: c_basic = '〇一二三四五六七八九' if o else '零一二三四五六七八九' c_unit1 = '十百千' if twoalt: c_twoalt = '两' if simp else '兩' else: c_twoalt = '二' c_unit2 = '万亿兆京垓秭穰沟涧正载' if simp else '萬億兆京垓秭穰溝澗正載' revuniq = lambda l: ''.join(k for k, g in itertools.groupby(reversed(l))) nd = str(num) result = [] if nd[0] == '+': result.append(c_symbol[0]) elif nd[0] == '-': result.append(c_symbol[1]) if '.' in nd: integer, remainder = nd.lstrip('+-').split('.') else: integer, remainder = nd.lstrip('+-'), None if int(integer): splitted = [integer[max(i - 4, 0):i] for i in range(len(integer), 0, -4)] intresult = [] for nu, unit in enumerate(splitted): # special cases if int(unit) == 0: # 0000 intresult.append(c_basic[0]) continue elif nu > 0 and int(unit) == 2: # 0002 intresult.append(c_twoalt + c_unit2[nu - 1]) continue ulist = [] unit = unit.zfill(4) for nc, ch in enumerate(reversed(unit)): if ch == '0': if ulist: # ???0 ulist.append(c_basic[0]) elif nc == 0: ulist.append(c_basic[int(ch)]) elif nc == 1 and ch == '1' and unit[1] == '0': # special case for tens # edit the 'elif' if you don't like # 十四, 三千零十四, 三千三百一十四 ulist.append(c_unit1[0]) elif nc > 1 and ch == '2': ulist.append(c_twoalt + c_unit1[nc - 1]) else: ulist.append(c_basic[int(ch)] + c_unit1[nc - 1]) ustr = revuniq(ulist) if nu == 0: intresult.append(ustr) else: intresult.append(ustr + c_unit2[nu - 1]) result.append(revuniq(intresult).strip(c_basic[0])) else: result.append(c_basic[0]) if remainder: result.append(c_symbol[2]) result.append(''.join(c_basic[int(ch)] for ch in remainder)) return ''.join(result) def _number_replace(match: re.Match) -> str: """function to apply in a match, transform all numbers in a match by chinese characters Args: match (re.Match): numbers regex matches Returns: str: replaced characters for the numbers """ match_str: str = match.group() return _num2chinese(match_str) def replace_numbers_to_characters_in_text(text: str) -> str: """Replace all arabic numbers in a text by their equivalent in chinese characters (simplified) Args: text (str): input text to transform Returns: str: output text """ text = re.sub(r'[0-9]+', _number_replace, text) return text