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# -*- coding: utf-8 -*- | |
"""基本方法 | |
创建中文数字系统 方法 | |
中文字符串 <=> 数字串 方法 | |
数字串 <=> 中文字符串 方法 | |
""" | |
__author__ = "Zhiyang Zhou <zyzhou@stu.xmu.edu.cn>" | |
__data__ = "2019-05-02" | |
from fish_speech.text.chn_text_norm.basic_class import * | |
from fish_speech.text.chn_text_norm.basic_constant import * | |
def create_system(numbering_type=NUMBERING_TYPES[1]): | |
""" | |
根据数字系统类型返回创建相应的数字系统,默认为 mid | |
NUMBERING_TYPES = ['low', 'mid', 'high']: 中文数字系统类型 | |
low: '兆' = '亿' * '十' = $10^{9}$, '京' = '兆' * '十', etc. | |
mid: '兆' = '亿' * '万' = $10^{12}$, '京' = '兆' * '万', etc. | |
high: '兆' = '亿' * '亿' = $10^{16}$, '京' = '兆' * '兆', etc. | |
返回对应的数字系统 | |
""" | |
# chinese number units of '亿' and larger | |
all_larger_units = zip( | |
LARGER_CHINESE_NUMERING_UNITS_SIMPLIFIED, | |
LARGER_CHINESE_NUMERING_UNITS_TRADITIONAL, | |
) | |
larger_units = [ | |
CNU.create(i, v, numbering_type, False) for i, v in enumerate(all_larger_units) | |
] | |
# chinese number units of '十, 百, 千, 万' | |
all_smaller_units = zip( | |
SMALLER_CHINESE_NUMERING_UNITS_SIMPLIFIED, | |
SMALLER_CHINESE_NUMERING_UNITS_TRADITIONAL, | |
) | |
smaller_units = [ | |
CNU.create(i, v, small_unit=True) for i, v in enumerate(all_smaller_units) | |
] | |
# digis | |
chinese_digis = zip( | |
CHINESE_DIGIS, | |
CHINESE_DIGIS, | |
BIG_CHINESE_DIGIS_SIMPLIFIED, | |
BIG_CHINESE_DIGIS_TRADITIONAL, | |
) | |
digits = [CND.create(i, v) for i, v in enumerate(chinese_digis)] | |
digits[0].alt_s, digits[0].alt_t = ZERO_ALT, ZERO_ALT | |
digits[1].alt_s, digits[1].alt_t = ONE_ALT, ONE_ALT | |
digits[2].alt_s, digits[2].alt_t = TWO_ALTS[0], TWO_ALTS[1] | |
# symbols | |
positive_cn = CM(POSITIVE[0], POSITIVE[1], "+", lambda x: x) | |
negative_cn = CM(NEGATIVE[0], NEGATIVE[1], "-", lambda x: -x) | |
point_cn = CM(POINT[0], POINT[1], ".", lambda x, y: float(str(x) + "." + str(y))) | |
# sil_cn = CM(SIL[0], SIL[1], '-', lambda x, y: float(str(x) + '-' + str(y))) | |
system = NumberSystem() | |
system.units = smaller_units + larger_units | |
system.digits = digits | |
system.math = MathSymbol(positive_cn, negative_cn, point_cn) | |
# system.symbols = OtherSymbol(sil_cn) | |
return system | |
def chn2num(chinese_string, numbering_type=NUMBERING_TYPES[1]): | |
def get_symbol(char, system): | |
for u in system.units: | |
if char in [u.traditional, u.simplified, u.big_s, u.big_t]: | |
return u | |
for d in system.digits: | |
if char in [ | |
d.traditional, | |
d.simplified, | |
d.big_s, | |
d.big_t, | |
d.alt_s, | |
d.alt_t, | |
]: | |
return d | |
for m in system.math: | |
if char in [m.traditional, m.simplified]: | |
return m | |
def string2symbols(chinese_string, system): | |
int_string, dec_string = chinese_string, "" | |
for p in [system.math.point.simplified, system.math.point.traditional]: | |
if p in chinese_string: | |
int_string, dec_string = chinese_string.split(p) | |
break | |
return [get_symbol(c, system) for c in int_string], [ | |
get_symbol(c, system) for c in dec_string | |
] | |
def correct_symbols(integer_symbols, system): | |
""" | |
一百八 to 一百八十 | |
一亿一千三百万 to 一亿 一千万 三百万 | |
""" | |
if integer_symbols and isinstance(integer_symbols[0], CNU): | |
if integer_symbols[0].power == 1: | |
integer_symbols = [system.digits[1]] + integer_symbols | |
if len(integer_symbols) > 1: | |
if isinstance(integer_symbols[-1], CND) and isinstance( | |
integer_symbols[-2], CNU | |
): | |
integer_symbols.append( | |
CNU(integer_symbols[-2].power - 1, None, None, None, None) | |
) | |
result = [] | |
unit_count = 0 | |
for s in integer_symbols: | |
if isinstance(s, CND): | |
result.append(s) | |
unit_count = 0 | |
elif isinstance(s, CNU): | |
current_unit = CNU(s.power, None, None, None, None) | |
unit_count += 1 | |
if unit_count == 1: | |
result.append(current_unit) | |
elif unit_count > 1: | |
for i in range(len(result)): | |
if ( | |
isinstance(result[-i - 1], CNU) | |
and result[-i - 1].power < current_unit.power | |
): | |
result[-i - 1] = CNU( | |
result[-i - 1].power + current_unit.power, | |
None, | |
None, | |
None, | |
None, | |
) | |
return result | |
def compute_value(integer_symbols): | |
""" | |
Compute the value. | |
When current unit is larger than previous unit, current unit * all previous units will be used as all previous units. | |
e.g. '两千万' = 2000 * 10000 not 2000 + 10000 | |
""" | |
value = [0] | |
last_power = 0 | |
for s in integer_symbols: | |
if isinstance(s, CND): | |
value[-1] = s.value | |
elif isinstance(s, CNU): | |
value[-1] *= pow(10, s.power) | |
if s.power > last_power: | |
value[:-1] = list(map(lambda v: v * pow(10, s.power), value[:-1])) | |
last_power = s.power | |
value.append(0) | |
return sum(value) | |
system = create_system(numbering_type) | |
int_part, dec_part = string2symbols(chinese_string, system) | |
int_part = correct_symbols(int_part, system) | |
int_str = str(compute_value(int_part)) | |
dec_str = "".join([str(d.value) for d in dec_part]) | |
if dec_part: | |
return "{0}.{1}".format(int_str, dec_str) | |
else: | |
return int_str | |
def num2chn( | |
number_string, | |
numbering_type=NUMBERING_TYPES[1], | |
big=False, | |
traditional=False, | |
alt_zero=False, | |
alt_one=False, | |
alt_two=True, | |
use_zeros=True, | |
use_units=True, | |
): | |
def get_value(value_string, use_zeros=True): | |
striped_string = value_string.lstrip("0") | |
# record nothing if all zeros | |
if not striped_string: | |
return [] | |
# record one digits | |
elif len(striped_string) == 1: | |
if use_zeros and len(value_string) != len(striped_string): | |
return [system.digits[0], system.digits[int(striped_string)]] | |
else: | |
return [system.digits[int(striped_string)]] | |
# recursively record multiple digits | |
else: | |
result_unit = next( | |
u for u in reversed(system.units) if u.power < len(striped_string) | |
) | |
result_string = value_string[: -result_unit.power] | |
return ( | |
get_value(result_string) | |
+ [result_unit] | |
+ get_value(striped_string[-result_unit.power :]) | |
) | |
system = create_system(numbering_type) | |
int_dec = number_string.split(".") | |
if len(int_dec) == 1: | |
int_string = int_dec[0] | |
dec_string = "" | |
elif len(int_dec) == 2: | |
int_string = int_dec[0] | |
dec_string = int_dec[1] | |
else: | |
raise ValueError( | |
"invalid input num string with more than one dot: {}".format(number_string) | |
) | |
if use_units and len(int_string) > 1: | |
result_symbols = get_value(int_string) | |
else: | |
result_symbols = [system.digits[int(c)] for c in int_string] | |
dec_symbols = [system.digits[int(c)] for c in dec_string] | |
if dec_string: | |
result_symbols += [system.math.point] + dec_symbols | |
if alt_two: | |
liang = CND( | |
2, | |
system.digits[2].alt_s, | |
system.digits[2].alt_t, | |
system.digits[2].big_s, | |
system.digits[2].big_t, | |
) | |
for i, v in enumerate(result_symbols): | |
if isinstance(v, CND) and v.value == 2: | |
next_symbol = ( | |
result_symbols[i + 1] if i < len(result_symbols) - 1 else None | |
) | |
previous_symbol = result_symbols[i - 1] if i > 0 else None | |
if isinstance(next_symbol, CNU) and isinstance( | |
previous_symbol, (CNU, type(None)) | |
): | |
if next_symbol.power != 1 and ( | |
(previous_symbol is None) or (previous_symbol.power != 1) | |
): | |
result_symbols[i] = liang | |
# if big is True, '两' will not be used and `alt_two` has no impact on output | |
if big: | |
attr_name = "big_" | |
if traditional: | |
attr_name += "t" | |
else: | |
attr_name += "s" | |
else: | |
if traditional: | |
attr_name = "traditional" | |
else: | |
attr_name = "simplified" | |
result = "".join([getattr(s, attr_name) for s in result_symbols]) | |
# if not use_zeros: | |
# result = result.strip(getattr(system.digits[0], attr_name)) | |
if alt_zero: | |
result = result.replace( | |
getattr(system.digits[0], attr_name), system.digits[0].alt_s | |
) | |
if alt_one: | |
result = result.replace( | |
getattr(system.digits[1], attr_name), system.digits[1].alt_s | |
) | |
for i, p in enumerate(POINT): | |
if result.startswith(p): | |
return CHINESE_DIGIS[0] + result | |
# ^10, 11, .., 19 | |
if ( | |
len(result) >= 2 | |
and result[1] | |
in [ | |
SMALLER_CHINESE_NUMERING_UNITS_SIMPLIFIED[0], | |
SMALLER_CHINESE_NUMERING_UNITS_TRADITIONAL[0], | |
] | |
and result[0] | |
in [ | |
CHINESE_DIGIS[1], | |
BIG_CHINESE_DIGIS_SIMPLIFIED[1], | |
BIG_CHINESE_DIGIS_TRADITIONAL[1], | |
] | |
): | |
result = result[1:] | |
return result | |
if __name__ == "__main__": | |
# 测试程序 | |
all_chinese_number_string = ( | |
CHINESE_DIGIS | |
+ BIG_CHINESE_DIGIS_SIMPLIFIED | |
+ BIG_CHINESE_DIGIS_TRADITIONAL | |
+ LARGER_CHINESE_NUMERING_UNITS_SIMPLIFIED | |
+ LARGER_CHINESE_NUMERING_UNITS_TRADITIONAL | |
+ SMALLER_CHINESE_NUMERING_UNITS_SIMPLIFIED | |
+ SMALLER_CHINESE_NUMERING_UNITS_TRADITIONAL | |
+ ZERO_ALT | |
+ ONE_ALT | |
+ "".join(TWO_ALTS + POSITIVE + NEGATIVE + POINT) | |
) | |
print("num:", chn2num("一万零四百零三点八零五")) | |
print("num:", chn2num("一亿六点三")) | |
print("num:", chn2num("一亿零六点三")) | |
print("num:", chn2num("两千零一亿六点三")) | |
# print('num:', chn2num('一零零八六')) | |
print("txt:", num2chn("10260.03", alt_zero=True)) | |
print("txt:", num2chn("20037.090", numbering_type="low", traditional=True)) | |
print("txt:", num2chn("100860001.77", numbering_type="high", big=True)) | |
print( | |
"txt:", | |
num2chn( | |
"059523810880", | |
alt_one=True, | |
alt_two=False, | |
use_lzeros=True, | |
use_rzeros=True, | |
use_units=False, | |
), | |
) | |
print(all_chinese_number_string) | |