mathtext-fastapi / modules /text2int.py
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import spacy # noqa
# import os
# os.environ['KMP_DUPLICATE_LIB_OK']='True'
# import spacy
# Change this according to what words should be corrected to
SPELL_CORRECT_MIN_CHAR_DIFF = 2
TOKENS2INT_ERROR_INT = 32202
ONES = [
"zero", "one", "two", "three", "four", "five", "six", "seven", "eight",
"nine", "ten", "eleven", "twelve", "thirteen", "fourteen", "fifteen",
"sixteen", "seventeen", "eighteen", "nineteen",
]
CHAR_MAPPING = {
"-": " ",
"_": " ",
"and": " ",
}
# CHAR_MAPPING.update((str(i), word) for i, word in enumerate([" " + s + " " for s in ONES]))
TOKEN_MAPPING = {
"and": " ",
"oh": "0",
}
def find_char_diff(a, b):
# Finds the character difference between two str objects by counting the occurences of every character. Not edit distance.
char_counts_a = {}
char_counts_b = {}
for char in a:
if char in char_counts_a.keys():
char_counts_a[char] += 1
else:
char_counts_a[char] = 1
for char in b:
if char in char_counts_b.keys():
char_counts_b[char] += 1
else:
char_counts_b[char] = 1
char_diff = 0
for i in char_counts_a:
if i in char_counts_b.keys():
char_diff += abs(char_counts_a[i] - char_counts_b[i])
else:
char_diff += char_counts_a[i]
return char_diff
def tokenize(text):
text = text.lower()
# print(text)
text = replace_tokens(''.join(i for i in replace_chars(text)).split())
# print(text)
text = [i for i in text if i != ' ']
# print(text)
output = []
for word in text:
# print(word)
output.append(convert_word_to_int(word))
output = [i for i in output if i != ' ']
# print(output)
return output
def detokenize(tokens):
return ' '.join(tokens)
def replace_tokens(tokens, token_mapping=TOKEN_MAPPING):
return [token_mapping.get(tok, tok) for tok in tokens]
def replace_chars(text, char_mapping=CHAR_MAPPING):
return [char_mapping.get(c, c) for c in text]
def convert_word_to_int(in_word, numwords={}):
# Converts a single word/str into a single int
tens = ["", "", "twenty", "thirty", "forty", "fifty", "sixty", "seventy", "eighty", "ninety"]
scales = ["hundred", "thousand", "million", "billion", "trillion"]
if not numwords:
for idx, word in enumerate(ONES):
numwords[word] = idx
for idx, word in enumerate(tens):
numwords[word] = idx * 10
for idx, word in enumerate(scales):
numwords[word] = 10 ** (idx * 3 or 2)
if in_word in numwords:
# print(in_word)
# print(numwords[in_word])
return numwords[in_word]
try:
int(in_word)
return int(in_word)
except ValueError:
pass
# Spell correction using find_char_diff
char_diffs = [find_char_diff(in_word, i) for i in ONES + tens + scales]
min_char_diff = min(char_diffs)
if min_char_diff <= SPELL_CORRECT_MIN_CHAR_DIFF:
return char_diffs.index(min_char_diff)
def tokens2int(tokens):
# Takes a list of tokens and returns a int representation of them
types = []
for i in tokens:
if i <= 9:
types.append(1)
elif i <= 90:
types.append(2)
else:
types.append(3)
# print(tokens)
if len(tokens) <= 3:
current = 0
for i, number in enumerate(tokens):
if i != 0 and types[i] < types[i - 1] and current != tokens[i - 1] and types[i - 1] != 3:
current += tokens[i] + tokens[i - 1]
elif current <= tokens[i] and current != 0:
current *= tokens[i]
elif 3 not in types and 1 not in types:
current = int(''.join(str(i) for i in tokens))
break
elif '111' in ''.join(str(i) for i in types) and 2 not in types and 3 not in types:
current = int(''.join(str(i) for i in tokens))
break
else:
current += number
elif 3 not in types and 2 not in types:
current = int(''.join(str(i) for i in tokens))
else:
"""
double_list = []
current_double = []
double_type_list = []
for i in tokens:
if len(current_double) < 2:
current_double.append(i)
else:
double_list.append(current_double)
current_double = []
current_double = []
for i in types:
if len(current_double) < 2:
current_double.append(i)
else:
double_type_list.append(current_double)
current_double = []
print(double_type_list)
print(double_list)
current = 0
for i, type_double in enumerate(double_type_list):
if len(type_double) == 1:
current += double_list[i][0]
elif type_double[0] == type_double[1]:
current += int(str(double_list[i][0]) + str(double_list[i][1]))
elif type_double[0] > type_double[1]:
current += sum(double_list[i])
elif type_double[0] < type_double[1]:
current += double_list[i][0] * double_list[i][1]
#print(current)
"""
count = 0
current = 0
for i, token in enumerate(tokens):
count += 1
if count == 2:
if types[i - 1] == types[i]:
current += int(str(token) + str(tokens[i - 1]))
elif types[i - 1] > types[i]:
current += tokens[i - 1] + token
else:
current += tokens[i - 1] * token
count = 0
elif i == len(tokens) - 1:
current += token
return current
def text2int(text):
# Wraps all of the functions up into one
return tokens2int(tokenize(text))