AronaTTS / text /korean.py
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import re
from jamo import h2j, j2hcj
import ko_pron
from g2pk2 import G2p
g2pk = G2p()
# This is a list of Korean classifiers preceded by pure Korean numerals.
_korean_classifiers = 'ꡰ데 ꢌ 개 그루 λ‹’ λŒ€ 두 마리 λͺ¨ λͺ¨κΈˆ λ­‡ 발 발짝 λ°© 번 벌 보루 μ‚΄ 수 술 μ‹œ 쌈 움큼 μ • 짝 채 μ²™ 첩 μΆ• 케레 톨 톡'
# List of (hangul, hangul divided) pairs:
_hangul_divided = [(re.compile('%s' % x[0]), x[1]) for x in [
('γ„³', 'γ„±γ……'),
('γ„΅', 'γ„΄γ…ˆ'),
('γ„Ά', 'γ„΄γ…Ž'),
('γ„Ί', 'γ„Ήγ„±'),
('γ„»', 'ㄹㅁ'),
('γ„Ό', 'γ„Ήγ…‚'),
('γ„½', 'γ„Ήγ……'),
('γ„Ύ', 'γ„Ήγ…Œ'),
('γ„Ώ', 'ㄹㅍ'),
('γ…€', 'γ„Ήγ…Ž'),
('γ…„', 'γ…‚γ……'),
('γ…˜', 'ㅗㅏ'),
('γ…™', 'ㅗㅐ'),
('γ…š', 'γ…—γ…£'),
('ㅝ', 'γ…œγ…“'),
('γ…ž', 'γ…œγ…”'),
('γ…Ÿ', 'γ…œγ…£'),
('γ…’', 'γ…‘γ…£'),
('γ…‘', 'ㅣㅏ'),
('γ…’', 'ㅣㅐ'),
('γ…•', 'γ…£γ…“'),
('γ…–', 'γ…£γ…”'),
('γ…›', 'γ…£γ…—'),
('γ… ', 'γ…£γ…œ')
]]
# List of (Latin alphabet, hangul) pairs:
_latin_to_hangul = [(re.compile('%s' % x[0], re.IGNORECASE), x[1]) for x in [
('a', '에이'),
('b', 'λΉ„'),
('c', 'μ‹œ'),
('d', 'λ””'),
('e', '이'),
('f', '에프'),
('g', '지'),
('h', 'μ—μ΄μΉ˜'),
('i', '아이'),
('j', '제이'),
('k', '케이'),
('l', 'μ—˜'),
('m', 'μ— '),
('n', 'μ—”'),
('o', '였'),
('p', 'ν”Ό'),
('q', '큐'),
('r', 'μ•„λ₯΄'),
('s', 'μ—μŠ€'),
('t', 'ν‹°'),
('u', '유'),
('v', '브이'),
('w', 'λ”λΈ”μœ '),
('x', 'μ—‘μŠ€'),
('y', '와이'),
('z', '제트')
]]
# List of (ipa, lazy ipa) pairs:
_ipa_to_lazy_ipa = [(re.compile('%s' % x[0], re.IGNORECASE), x[1]) for x in [
('tΝ‘Ι•','Κ§'),
('dΝ‘Κ‘','Κ₯'),
('Ι²','n^'),
('Ι•','Κƒ'),
('Κ·','w'),
('Ι­','l`'),
('ʎ','ɾ'),
('Ι£','Ε‹'),
('Ι°','Ι―'),
('ʝ','j'),
('ʌ','Ι™'),
('Ι‘','g'),
('\u031a','#'),
('\u0348','='),
('\u031e',''),
('\u0320',''),
('\u0339','')
]]
def latin_to_hangul(text):
for regex, replacement in _latin_to_hangul:
text = re.sub(regex, replacement, text)
return text
def divide_hangul(text):
text = j2hcj(h2j(text))
for regex, replacement in _hangul_divided:
text = re.sub(regex, replacement, text)
return text
def hangul_number(num, sino=True):
'''Reference https://github.com/Kyubyong/g2pK'''
num = re.sub(',', '', num)
if num == '0':
return '영'
if not sino and num == '20':
return '슀무'
digits = '123456789'
names = 'μΌμ΄μ‚Όμ‚¬μ˜€μœ‘μΉ νŒ”κ΅¬'
digit2name = {d: n for d, n in zip(digits, names)}
modifiers = 'ν•œ 두 μ„Έ λ„€ λ‹€μ„― μ—¬μ„― 일곱 μ—¬λŸ 아홉'
decimals = 'μ—΄ 슀물 μ„œλ₯Έ λ§ˆν” μ‰° 예순 일흔 μ—¬λ“  아흔'
digit2mod = {d: mod for d, mod in zip(digits, modifiers.split())}
digit2dec = {d: dec for d, dec in zip(digits, decimals.split())}
spelledout = []
for i, digit in enumerate(num):
i = len(num) - i - 1
if sino:
if i == 0:
name = digit2name.get(digit, '')
elif i == 1:
name = digit2name.get(digit, '') + 'μ‹­'
name = name.replace('일십', 'μ‹­')
else:
if i == 0:
name = digit2mod.get(digit, '')
elif i == 1:
name = digit2dec.get(digit, '')
if digit == '0':
if i % 4 == 0:
last_three = spelledout[-min(3, len(spelledout)):]
if ''.join(last_three) == '':
spelledout.append('')
continue
else:
spelledout.append('')
continue
if i == 2:
name = digit2name.get(digit, '') + 'λ°±'
name = name.replace('일백', '백')
elif i == 3:
name = digit2name.get(digit, '') + '천'
name = name.replace('일천', '천')
elif i == 4:
name = digit2name.get(digit, '') + '만'
name = name.replace('일만', '만')
elif i == 5:
name = digit2name.get(digit, '') + 'μ‹­'
name = name.replace('일십', 'μ‹­')
elif i == 6:
name = digit2name.get(digit, '') + 'λ°±'
name = name.replace('일백', '백')
elif i == 7:
name = digit2name.get(digit, '') + '천'
name = name.replace('일천', '천')
elif i == 8:
name = digit2name.get(digit, '') + 'μ–΅'
elif i == 9:
name = digit2name.get(digit, '') + 'μ‹­'
elif i == 10:
name = digit2name.get(digit, '') + 'λ°±'
elif i == 11:
name = digit2name.get(digit, '') + '천'
elif i == 12:
name = digit2name.get(digit, '') + 'μ‘°'
elif i == 13:
name = digit2name.get(digit, '') + 'μ‹­'
elif i == 14:
name = digit2name.get(digit, '') + 'λ°±'
elif i == 15:
name = digit2name.get(digit, '') + '천'
spelledout.append(name)
return ''.join(elem for elem in spelledout)
def number_to_hangul(text):
'''Reference https://github.com/Kyubyong/g2pK'''
tokens = set(re.findall(r'(\d[\d,]*)([\uac00-\ud71f]+)', text))
for token in tokens:
num, classifier = token
if classifier[:2] in _korean_classifiers or classifier[0] in _korean_classifiers:
spelledout = hangul_number(num, sino=False)
else:
spelledout = hangul_number(num, sino=True)
text = text.replace(f'{num}{classifier}', f'{spelledout}{classifier}')
# digit by digit for remaining digits
digits = '0123456789'
names = 'μ˜μΌμ΄μ‚Όμ‚¬μ˜€μœ‘μΉ νŒ”κ΅¬'
for d, n in zip(digits, names):
text = text.replace(d, n)
return text
def korean_to_lazy_ipa(text):
text = latin_to_hangul(text)
text = number_to_hangul(text)
text=re.sub('[\uac00-\ud7af]+',lambda x:ko_pron.romanise(x.group(0),'ipa').split('] ~ [')[0],text)
for regex, replacement in _ipa_to_lazy_ipa:
text = re.sub(regex, replacement, text)
return text
def korean_to_ipa(text):
text = korean_to_lazy_ipa(text)
return text.replace('Κ§','tΚƒ').replace('Κ₯','dΚ‘')
def korean_to_ipa2(text):
text = latin_to_hangul(text)
text = number_to_hangul(text)
text = g2pk(text)
text=re.sub('[\uac00-\ud7af]+',lambda x:ko_pron.romanise(x.group(0),'ipa').split('] ~ [')[0],text)
for regex, replacement in _ipa_to_lazy_ipa:
text = re.sub(regex, replacement, text)
text = text.replace('Κ§','tΚƒ').replace('Κ₯','dΚ‘')
return text
import itertools
INITIAL = 0x001
MEDIAL = 0x010
FINAL = 0x100
CHAR_LISTS = {
INITIAL: list(map(chr, [
0x3131, 0x3132, 0x3134, 0x3137, 0x3138, 0x3139,
0x3141, 0x3142, 0x3143, 0x3145, 0x3146, 0x3147,
0x3148, 0x3149, 0x314a, 0x314b, 0x314c, 0x314d,
0x314e
])),
MEDIAL: list(map(chr, [
0x314f, 0x3150, 0x3151, 0x3152, 0x3153, 0x3154,
0x3155, 0x3156, 0x3157, 0x3158, 0x3159, 0x315a,
0x315b, 0x315c, 0x315d, 0x315e, 0x315f, 0x3160,
0x3161, 0x3162, 0x3163
])),
FINAL: list(map(chr, [
0x3131, 0x3132, 0x3133, 0x3134, 0x3135, 0x3136,
0x3137, 0x3139, 0x313a, 0x313b, 0x313c, 0x313d,
0x313e, 0x313f, 0x3140, 0x3141, 0x3142, 0x3144,
0x3145, 0x3146, 0x3147, 0x3148, 0x314a, 0x314b,
0x314c, 0x314d, 0x314e
]))
}
CHAR_INITIALS = CHAR_LISTS[INITIAL]
CHAR_MEDIALS = CHAR_LISTS[MEDIAL]
CHAR_FINALS = CHAR_LISTS[FINAL]
CHAR_SETS = {k: set(v) for k, v in CHAR_LISTS.items()}
CHARSET = set(itertools.chain(*CHAR_SETS.values()))
CHAR_INDICES = {k: {c: i for i, c in enumerate(v)}
for k, v in CHAR_LISTS.items()}
def is_hangul_syllable(c):
return 0xac00 <= ord(c) <= 0xd7a3 # Hangul Syllables
def is_hangul_jamo(c):
return 0x1100 <= ord(c) <= 0x11ff # Hangul Jamo
def is_hangul_compat_jamo(c):
return 0x3130 <= ord(c) <= 0x318f # Hangul Compatibility Jamo
def is_hangul_jamo_exta(c):
return 0xa960 <= ord(c) <= 0xa97f # Hangul Jamo Extended-A
def is_hangul_jamo_extb(c):
return 0xd7b0 <= ord(c) <= 0xd7ff # Hangul Jamo Extended-B
def is_hangul(c):
return (is_hangul_syllable(c) or
is_hangul_jamo(c) or
is_hangul_compat_jamo(c) or
is_hangul_jamo_exta(c) or
is_hangul_jamo_extb(c))
def is_supported_hangul(c):
return is_hangul_syllable(c) or is_hangul_compat_jamo(c)
def check_hangul(c, jamo_only=False):
if not ((jamo_only or is_hangul_compat_jamo(c)) or is_supported_hangul(c)):
raise ValueError(f"'{c}' is not a supported hangul character. "
f"'Hangul Syllables' (0xac00 ~ 0xd7a3) and "
f"'Hangul Compatibility Jamos' (0x3130 ~ 0x318f) are "
f"supported at the moment.")
def get_jamo_type(c):
check_hangul(c)
assert is_hangul_compat_jamo(c), f"not a jamo: {ord(c):x}"
return sum(t for t, s in CHAR_SETS.items() if c in s)
def split_syllable_char(c):
"""
Splits a given korean syllable into its components. Each component is
represented by Unicode in 'Hangul Compatibility Jamo' range.
Arguments:
c: A Korean character.
Returns:
A triple (initial, medial, final) of Hangul Compatibility Jamos.
If no jamo corresponds to a position, `None` is returned there.
Example:
>>> split_syllable_char("μ•ˆ")
("γ…‡", "ㅏ", "γ„΄")
>>> split_syllable_char("κ³ ")
("γ„±", "γ…—", None)
>>> split_syllable_char("γ…—")
(None, "γ…—", None)
>>> split_syllable_char("γ…‡")
("γ…‡", None, None)
"""
check_hangul(c)
if len(c) != 1:
raise ValueError("Input string must have exactly one character.")
init, med, final = None, None, None
if is_hangul_syllable(c):
offset = ord(c) - 0xac00
x = (offset - offset % 28) // 28
init, med, final = x // 21, x % 21, offset % 28
if not final:
final = None
else:
final -= 1
else:
pos = get_jamo_type(c)
if pos & INITIAL == INITIAL:
pos = INITIAL
elif pos & MEDIAL == MEDIAL:
pos = MEDIAL
elif pos & FINAL == FINAL:
pos = FINAL
idx = CHAR_INDICES[pos][c]
if pos == INITIAL:
init = idx
elif pos == MEDIAL:
med = idx
else:
final = idx
return tuple(CHAR_LISTS[pos][idx] if idx is not None else None
for pos, idx in
zip([INITIAL, MEDIAL, FINAL], [init, med, final]))
def split_syllables(s, ignore_err=True, pad=None):
"""
Performs syllable-split on a string.
Arguments:
s (str): A string (possibly mixed with non-Hangul characters).
ignore_err (bool): If set False, it ensures that all characters in
the string are Hangul-splittable and throws a ValueError otherwise.
(default: True)
pad (str): Pad empty jamo positions (initial, medial, or final) with
`pad` character. This is useful for cases where fixed-length
strings are needed. (default: None)
Returns:
Hangul-split string
Example:
>>> split_syllables("μ•ˆλ…•ν•˜μ„Έμš”")
"γ…‡γ…γ„΄γ„΄γ…•γ…‡γ…Žγ…γ……γ…”γ…‡γ…›"
>>> split_syllables("μ•ˆλ…•ν•˜μ„Έμš”~~", ignore_err=False)
ValueError: encountered an unsupported character: ~ (0x7e)
>>> split_syllables("μ•ˆλ…•ν•˜μ„Έμš”γ…›", pad="x")
'γ…‡γ…γ„΄γ„΄γ…•γ…‡γ…Žγ…xγ……γ…”xγ…‡γ…›xxγ…›x'
"""
def try_split(c):
try:
return split_syllable_char(c)
except ValueError:
if ignore_err:
return (c,)
raise ValueError(f"encountered an unsupported character: "
f"{c} (0x{ord(c):x})")
s = map(try_split, s)
if pad is not None:
tuples = map(lambda x: tuple(pad if y is None else y for y in x), s)
else:
tuples = map(lambda x: filter(None, x), s)
return "".join(itertools.chain(*tuples))
def join_jamos_char(init, med, final=None):
"""
Combines jamos into a single syllable.
Arguments:
init (str): Initial jao.
med (str): Medial jamo.
final (str): Final jamo. If not supplied, the final syllable is made
without the final. (default: None)
Returns:
A Korean syllable.
"""
chars = (init, med, final)
for c in filter(None, chars):
check_hangul(c, jamo_only=True)
idx = tuple(CHAR_INDICES[pos][c] if c is not None else c
for pos, c in zip((INITIAL, MEDIAL, FINAL), chars))
init_idx, med_idx, final_idx = idx
# final index must be shifted once as
# final index with 0 points to syllables without final
final_idx = 0 if final_idx is None else final_idx + 1
return chr(0xac00 + 28 * 21 * init_idx + 28 * med_idx + final_idx)
def join_jamos(s, ignore_err=True):
"""
Combines a sequence of jamos to produce a sequence of syllables.
Arguments:
s (str): A string (possible mixed with non-jamo characters).
ignore_err (bool): If set False, it will ensure that all characters
will be consumed for the making of syllables. It will throw a
ValueError when it fails to do so. (default: True)
Returns:
A string
Example:
>>> join_jamos("γ…‡γ…γ„΄γ„΄γ…•γ…‡γ…Žγ…γ……γ…”γ…‡γ…›")
"μ•ˆλ…•ν•˜μ„Έμš”"
>>> join_jamos("γ…‡γ…γ„΄γ„΄γ„΄γ…•γ…‡γ…Žγ…γ……γ…”γ…‡γ…›")
"μ•ˆγ„΄λ…•ν•˜μ„Έμš”"
>>> join_jamos()
"""
last_t = 0
queue = []
new_string = ""
def flush(n=0):
new_queue = []
while len(queue) > n:
new_queue.append(queue.pop())
if len(new_queue) == 1:
if not ignore_err:
raise ValueError(f"invalid jamo character: {new_queue[0]}")
result = new_queue[0]
elif len(new_queue) >= 2:
try:
result = join_jamos_char(*new_queue)
except (ValueError, KeyError):
# Invalid jamo combination
if not ignore_err:
raise ValueError(f"invalid jamo characters: {new_queue}")
result = "".join(new_queue)
else:
result = None
return result
for c in s:
if c not in CHARSET:
if queue:
new_c = flush() + c
else:
new_c = c
last_t = 0
else:
t = get_jamo_type(c)
new_c = None
if t & FINAL == FINAL:
if not (last_t == MEDIAL):
new_c = flush()
elif t == INITIAL:
new_c = flush()
elif t == MEDIAL:
if last_t & INITIAL == INITIAL:
new_c = flush(1)
else:
new_c = flush()
last_t = t
queue.insert(0, c)
if new_c:
new_string += new_c
if queue:
new_string += flush()
return new_string