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import os | |
import re | |
import json | |
import shutil | |
import logging | |
import numpy as np | |
from PIL import Image | |
SKIP_PATTERNS = [r'\{', r'\}', r'[\[\]]', r'\\begin\{.*?\}', r'\\end\{.*?\}', r'\^', r'\_', r'\\.*rule.*', r'\\.*line.*', r'\[[\-.0-9]+[epm][xtm]\]'] | |
SKIP_Tokens = ['\\', '\\\\', '\\index', '\\a', '&', '$', '\\multirow', '\\def', '\\raggedright', '\\url', '\\cr', '\\ensuremath', '\\left', '\\right', | |
'\\mathchoice', '\\scriptstyle', '\\displaystyle', '\\qquad', '\\quad', '\\,', '\\!', '~', '\\boldmath'] | |
PHANTOM_Tokens = ['\\fontfamily', '\\vphantom', '\\phantom', '\\rowcolor', '\\ref'] | |
TWO_Tail_Tokens = ['\\frac', '\\binom'] | |
AB_Tail_Tokens = ['\\xrightarrow', '\\xleftarrow', '\\sqrt'] # special token \xxx [] {} | |
TWO_Tail_Invisb_Tokens = ['\\overset', '\\underset', '\\stackrel'] | |
ONE_Tail_Tokens = ['\\widetilde', '\\overline', '\\hat', '\\widehat', '\\tilde', '\\Tilde', '\\dot', '\\bar', '\\vec', '\\underline', '\\underbrace', '\\check', | |
'\\breve', '\\Bar', '\\Vec', '\\mathring', '\\ddot'] | |
ONE_Tail_Invisb_Tokens = ['\\boldsymbol', '\\pmb', '\\textbf', '\\mathrm', '\\mathbf', '\\mathbb', '\\mathcal', '\\textmd', '\\texttt', '\\textnormal', | |
'\\text', '\\textit', '\\textup', '\\mathop', '\\mathbin', '\\smash', '\\operatorname', '\\textrm', '\\mathfrak', '\\emph', | |
'\\textsf', '\\textsc'] | |
def flatten_multiline(latex): | |
brace_map = { | |
"\\left(": "\\right)", | |
"\\left[": "\\right]", | |
"\\left{": "\\right}", | |
} | |
l_split = latex.split(' ') | |
if l_split[0] == "\\begin{array}": | |
if l_split[-1] == "\\end{array}": | |
l_split = l_split[2:-1] | |
else: | |
l_split = l_split[2:] | |
idx = 0 | |
while idx < len(l_split): | |
token = l_split[idx] | |
if token.startswith("\\left") and token in brace_map.keys(): | |
end_idx = find_matching_brace(l_split, idx, brace=[token, brace_map[token]]) | |
if end_idx != -1: | |
idx = end_idx | |
elif token in ["\\\\", "~", "\\qquad"]: | |
l_split = l_split[0:idx] + l_split[idx+1:] | |
idx -= 1 | |
idx += 1 | |
latex = ' '.join(l_split) | |
return "$ "+latex+" $" | |
def clean_latex(text): | |
# TODO 让GPT写的去空格函数, 初步测了是没问题的, 不确定是否完全没有bug | |
cleaned_text = re.sub(r'(?<=[^\\])\s+(?=[^\\])', '', text) | |
# TODO 有一些不能去掉的空格给补充回来 | |
for item in ["\\hline", "\\midrule", "\\times", "\\bf", "\\footnotesize", "\\cr", '\\log']: | |
cleaned_text = cleaned_text.replace(item, item+" ") | |
cleaned_text = cleaned_text.replace(" \\mathcolor{black}", "\\mathcolor{black}") | |
return cleaned_text | |
def remove_trailing_latex(formula): | |
pattern = r'(\\(hspace\*?\{[^{}]*?\}|vspace\*?\{[^{}]*?\}|smallskip|medskip|quad|qquad|bigskip|[;,])|\~|\.)*$' | |
# Replace the matched pattern with an empty string | |
cleaned_formula = re.sub(pattern, '', formula, count=1) | |
return cleaned_formula | |
def find_matching_brace(sequence, start_index, brace=['{', '}']): | |
# Finds the index of the matching brace for the one at start_index | |
left_brace, right_brace = brace | |
depth = 0 | |
for i, char in enumerate(sequence[start_index:], start=start_index): | |
if char == left_brace: | |
depth += 1 | |
elif char == right_brace: | |
depth -= 1 | |
if depth == 0: | |
return i | |
if depth > 0: | |
error_info = "Warning! found no matching brace in sequence !" | |
raise ValueError(error_info) | |
return -1 | |
def normalize_latex(l, rm_trail=False): | |
if "tabular" in l: | |
latex_type = "tabular" | |
else: | |
latex_type = "formula" | |
if rm_trail: | |
l = remove_trailing_latex(l) | |
l = l.strip().replace(r'\pmatrix', r'\mypmatrix').replace(r'\matrix', r'\mymatrix') | |
# TODO \raggedright \arraybackslash, these align method, difficult to handle, remove it. | |
for item in ['\\raggedright', '\\arraybackslash']: | |
l = l.replace(item, "") | |
for item in ['\\lowercase', '\\uppercase']: | |
l = l.replace(item, "") | |
# TODO \hspace {1 . 5 cm}, for formula, change to \hspace{1.5cm}, for table, remove it. | |
pattern = r'\\[hv]space { [.0-9a-z ]+ }' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
if latex_type == "tabular": | |
new_token = ["" for item in old_token] | |
else: | |
new_token = [item.replace(" ", "") for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, aft) | |
# TODO take \begin {tabular} {} as one token | |
# TODO there are \begin{array} in table too,so the process should run in both formula and table. | |
if latex_type == "tabular": | |
l = l.replace("\\begin {tabular}", "\\begin{tabular}") | |
l = l.replace("\\end {tabular}", "\\end{tabular}") | |
l = l.replace("\\begin {array}", "\\begin{array}") | |
l = l.replace("\\end {array}", "\\end{array}") | |
l_split = l.split(' ') | |
idx = 0 | |
while idx < len(l_split): | |
token = l_split[idx] | |
if token == "\\begin{tabular}": | |
sub_idx = idx + 1 | |
end_idx = find_matching_brace(l_split, sub_idx) | |
new_token = "".join(l_split[idx: end_idx+1]) | |
l_split = l_split[0:idx] + [new_token] + l_split[end_idx+1:] | |
break | |
idx += 1 | |
l = ' '.join(l_split) | |
# TODO some complex format, hart to deal with re.match, so using brace match, such as:\cmidrule ( l { 3 p t } r { 3 p t } ) { 1 - 1 } | |
l_split = l.split(' ') | |
idx = 0 | |
while idx < len(l_split): | |
token = l_split[idx] | |
if token in ["\\cmidrule", "\\cline"]: | |
sub_idx = idx + 1 | |
if l_split[sub_idx] == "(": | |
mid_end = find_matching_brace(l_split, sub_idx, brace=['(', ')']) | |
end_idx = find_matching_brace(l_split, mid_end+1) | |
else: | |
end_idx = find_matching_brace(l_split, sub_idx) | |
new_token = "".join(l_split[idx: end_idx+1]) | |
l_split = l_split[0:idx] + [new_token] + l_split[end_idx+1:] | |
idx += 1 | |
l = ' '.join(l_split) | |
pattern = r'\\begin{array} { [lrc ]+ }' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
new_token = [item.replace("\\begin{array} ", "<s>").replace(" ", "").replace("<s>", "\\begin{array} ") for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, aft) | |
# TODO token such \not= should be one token | |
pattern = r'\\not [<>+=\-]' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
new_token = [item.replace(" ", "") for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, aft) | |
# TODO tokens such as \dots \exp \sinh, split them to parts, so the bbox match will be easier. | |
l = " "+l+" " | |
l = l.replace(" \\ldots ", " . . . ") | |
l = l.replace(" \\cdots ", " . . . ") | |
l = l.replace(" \\dots ", " . . . ") | |
l = l.replace(" \\dotsb ", " . . . ") | |
l = l.replace(" \\log ", " \\mathrm { l o g } ") | |
l = l.replace(" \\exp ", " \\mathrm { e x p } ") | |
l = l.replace(" \\sin ", " \\mathrm { s i n } ") | |
l = l.replace(" \\cos ", " \\mathrm { c o s } ") | |
l = l.replace(" \\tan ", " \\mathrm { t a n } ") | |
l = l.replace(" \\tanh ", " \\mathrm { t a n h } ") | |
l = l.replace(" \\cosh ", " \\mathrm { c o s h } ") | |
l = l.replace(" \\sinh ", " \\mathrm { s i n h } ") | |
# ** token such as \big( should be one token | |
pattern = r'\\[Bb]ig[g]?[glrm]? [(){}|\[\]] ' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
new_token = [item.replace(" ", "") for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, aft+" ") | |
pattern = r'\\[Bb]ig[g]?[glrm]? \\.*? ' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
new_token = [item.replace(" ", "") for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, aft+" ") | |
# TODO when \operatorname * meets mathcolor it comes error, yet the * is useless, so we simply remove it bynow. | |
pattern = r'\\operatorname \*' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
new_token = ["\\operatorname" for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, aft) | |
# TODO \lefteqn will lead to letter overlap, it's harmfull for render, so simply remove it. | |
l = l.replace("\\lefteqn", "") | |
# TODO \footnote can not seem as ONE_Tail_Invisb_Tokens(usually this type token add color by \mathrm {\color(x)}, yet \footnode should be \color{\footnote{x}}), so we simple change it to "^". | |
l = l.replace("\\footnote ", "^ ") | |
# TODO \' can not be rendered separately(cause to different visulize performence), so we take these tokens as one token such as \' e -> \'e, on the other hand, if { after \' then render them separately. | |
pattern = r'\\\' [^{] ' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
new_token = [item.replace(" ", "") for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, aft+" ") | |
# TODO [ -1.5ex ] [ 1.5pt ] [ 3 mm ] some layout adjustment, no need to render. combine them as one token. | |
if latex_type == "tabular": | |
pattern = r'\[ [\-.0-9 ]+[exptcm ]+ \]' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
new_token = [item.replace(" ", "") for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, aft) | |
# ** \parbox { 3cm } {} shoudle be combined as one token | |
pattern = r'\\parbox {[^{]+}' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
new_token = [item.replace(" ", "") for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, aft) | |
# ** \raisebox{<lift>}[<height>][<depth>] {} shoudle be combined as one token, \raisebox{-1.5ex}[0pt] | |
pattern = r'\\raisebox {[^{]+} [\[\]0-9 exptcm]+{' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
new_token = [item.replace(" ", "") for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, aft[0:-1]+" {") | |
# ** \char shoudle be combined as one token | |
pattern = r'{ \\char[0-9\' ]+}' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
new_token = [item.replace(" ", "") for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, "{ "+aft[1:-1]+" }") | |
# ** \not xx shoudle be combined as one token | |
pattern = r'\\not [\\=\<\>][^ ]+ ' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
new_token = [item.replace(" ", "") for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, aft+" ") | |
# ** \specialrule{1pt}{2pt}{2pt}, special lines, shoudle be combined as one token | |
pattern = r'\\specialrule {[ .0-9a-z]+} {[ .0-9a-z]+} {[ .0-9a-z]+}' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
new_token = [item.replace(" ", "") for item in old_token] | |
for bef, aft in zip(old_token, new_token): | |
l = l.replace(bef, aft) | |
# ** for easier add color, the original color should be removed, there are two type of color for now: \color[rgb]{0, 1, 0} and \color{red} | |
pattern = r'\\colorbox[ \[\]RGBrgb]+{ [A-Za-z 0-9,!]+ } |\\color[ \[\]RGBrgb]+{ [A-Za-z 0-9,!]+ } |\\textcolor[ \[\]RGBrgb]+{ [A-Za-z 0-9,!]+ } |\\cellcolor[ \[\]RGBrgb]+{ [A-Za-z 0-9,!]+ } ' | |
old_token = re.findall(pattern, l, re.DOTALL) | |
for bef in old_token: | |
l = l.replace(bef, "") | |
# ** filling the missing brace [] and {} according to token. | |
l_split = l.split(' ') | |
idx = 0 | |
while idx < len(l_split): | |
token = l_split[idx] | |
if token in ONE_Tail_Tokens + ONE_Tail_Invisb_Tokens: | |
# ** normalize tokens such as \hat, fill missing the {}, such as \hat \lambda -> \hat {\lambda} | |
sub_idx = idx + 1 | |
while sub_idx < len(l_split) and l_split[sub_idx] in ONE_Tail_Tokens+ONE_Tail_Invisb_Tokens: | |
sub_idx += 1 | |
new_split = l_split[0:idx] | |
for ii in range(idx, sub_idx): | |
new_split = new_split + [l_split[ii], "{"] | |
if l_split[sub_idx] != "{": | |
new_split = new_split + [l_split[sub_idx]] + ["}"]*(sub_idx-idx) | |
l_split = new_split + l_split[sub_idx+1:] | |
else: | |
end_idx = find_matching_brace(l_split, sub_idx) | |
new_split = new_split + l_split[sub_idx+1:end_idx] + ["}"]*(sub_idx-idx) | |
l_split = new_split + l_split[end_idx+1:] | |
elif token in AB_Tail_Tokens: | |
# ** normalize special tokens such as \sqrt, fill the missing [] {} in \sqrt [] {}, yet the [] is optional, for example: \sqrt A B -> \sqrt {A} B and \sqrt [A] B -> \sqrt [A] {B} | |
if l_split[idx + 1] != "[" and l_split[idx + 1] != "{": | |
l_split = l_split[0:idx+1] + ["{"] + [l_split[idx+1]] + ["}"] + l_split[idx+2:] | |
else: | |
if l_split[idx + 1] == "[": | |
end1 = find_matching_brace(l_split, idx+1, brace=['[', ']']) | |
else: | |
end1 = idx | |
if l_split[end1 + 1] != "{": | |
l_split = l_split[0:end1+1] + ["{"] + [l_split[end1+1]] + ["}"] + l_split[end1+2:] | |
elif token in TWO_Tail_Tokens + TWO_Tail_Invisb_Tokens: | |
# ** normalize special tokens such as \frac, add missing brace in \frac {A} {B} for example: \frac {\lambda} 2 -> \frac {\lambda} {2} | |
if l_split[idx + 1] != "{": | |
l_split = l_split[0:idx+1] + ["{"] + [l_split[idx+1]] + ["}"] + l_split[idx+2:] | |
end1 = find_matching_brace(l_split, idx+1) | |
if l_split[end1 + 1] != "{": | |
l_split = l_split[0:end1+1] + ["{"] + [l_split[end1+1]] + ["}"] + l_split[end1+2:] | |
idx += 1 | |
l = ' '.join(l_split) | |
return l | |
def token_add_color(l_split, idx, render_dict): | |
token = l_split[idx] | |
if token in PHANTOM_Tokens: | |
# ** special tokens that do not need render, skip it | |
if l_split[idx + 1] == '{': | |
brace_end = find_matching_brace(l_split, idx + 1) | |
else: | |
brace_end = idx + 1 | |
next_idx = brace_end + 1 | |
elif token in TWO_Tail_Tokens: | |
# ** tokens such as \frac A B, and the token needs render too. | |
num_start = idx + 1 | |
num_end = find_matching_brace(l_split, num_start) | |
den_start = num_end + 1 | |
den_end = find_matching_brace(l_split, den_start) | |
l_split_copy = l_split[:idx] + [r'\mathcolor{black}{'+token+'{'] + \ | |
[r'\mathcolor{gray}{'] + l_split[num_start + 1:num_end] + \ | |
['}'] + [r'}{'] + [r'\mathcolor{gray}{'] + l_split[den_start + 1:den_end] + \ | |
['}'] + ['}'] + ['}'] + l_split[den_end + 1:] | |
l_new = ' '.join(l_split_copy) | |
l_new = r'\mathcolor{gray}{ ' + l_new + ' }' | |
render_dict[str(idx)] = l_new, token | |
next_idx = idx + 1 | |
elif token in ONE_Tail_Tokens: | |
# ** tokens such as \hat A, and the token needs render too. | |
num_start = idx + 1 | |
num_end = find_matching_brace(l_split, num_start) | |
l_split_copy = l_split[:idx] + [r'\mathcolor{black}{'] + l_split[idx: num_start+1] + \ | |
[r'\mathcolor{gray}{'] + l_split[num_start+1: num_end] + \ | |
['}'] + l_split[num_end: num_end+1] + ['}'] + l_split[num_end+1:] | |
l_new = ' '.join(l_split_copy) | |
l_new = r'\mathcolor{gray}{ ' + l_new + ' }' | |
render_dict[str(idx)] = l_new, token | |
next_idx = idx + 1 | |
elif token in ONE_Tail_Invisb_Tokens: | |
# ** tokens such as \text A B, and the token does not need render. | |
num_start = idx + 1 | |
num_end = find_matching_brace(l_split, num_start) | |
sub_idx = num_start+1 | |
if num_end-num_start == 2: | |
l_split_copy = l_split.copy() | |
l_split_copy[sub_idx] = r'{\mathcolor{black}{' + l_split_copy[sub_idx] + '}}' | |
l_new = ' '.join(l_split_copy) | |
l_new = r'\mathcolor{gray}{ ' + l_new + ' }' | |
render_dict[str(idx)] = l_new, l_split[sub_idx] | |
next_idx = num_end | |
else: | |
while sub_idx < num_end: | |
l_split, sub_idx, render_dict = token_add_color(l_split, sub_idx, render_dict) | |
next_idx = num_end + 1 | |
elif token in AB_Tail_Tokens: | |
# ** special token \xrightarrow, could be \xrightarrow [] {} or \xrightarrow {}, process method are different. | |
if l_split[idx+1] == '{': | |
num_start = idx + 1 | |
num_end = find_matching_brace(l_split, num_start) | |
l_split_copy = l_split[:idx] + [r'\mathcolor{black}{'] + l_split[idx: idx+2] \ | |
+ [r'\mathcolor{gray}{'] + l_split[num_start+1: num_end] + ['}}'] + l_split[num_end:] | |
l_new = ' '.join(l_split_copy) | |
l_new = r'\mathcolor{gray}{ ' + l_new + ' }' | |
render_dict[str(idx)] = l_new, token | |
sub_idx = num_start+1 | |
while sub_idx < num_end: | |
l_split, sub_idx, render_dict = token_add_color(l_split, sub_idx, render_dict) | |
next_idx = num_end + 1 | |
elif l_split[idx+1] == '[': | |
num_start = idx + 1 | |
num_end = find_matching_brace(l_split, num_start, brace=['[', ']']) | |
den_start = num_end + 1 | |
den_end = find_matching_brace(l_split, den_start) | |
l_split_copy = l_split[:idx] + [r'{\mathcolor{black}{'] + l_split[idx: idx+2] \ | |
+ [r'\mathcolor{gray}{'] + l_split[idx+2: num_end] + ['}'] + l_split[num_end:den_start+1] \ | |
+ [r'\mathcolor{gray}{'] + l_split[den_start+1: den_end] + ['}'] + l_split[den_end: den_end+1] \ | |
+ ['}}'] + l_split[den_end+1:] | |
l_new = ' '.join(l_split_copy) | |
l_new = r'\mathcolor{gray}{ ' + l_new + ' }' | |
render_dict[str(idx)] = l_new, token | |
sub_idx = num_start + 1 | |
while sub_idx < num_end: | |
l_split, sub_idx, render_dict = token_add_color(l_split, sub_idx, render_dict) | |
sub_idx = den_start + 1 | |
while sub_idx < den_end: | |
l_split, sub_idx, render_dict = token_add_color(l_split, sub_idx, render_dict) | |
next_idx = den_end + 1 | |
elif token in ["\\multicolumn", "\\multirow"]: | |
# ** tokens with three {}, such as \multicolumn {} {} {}, the text in third {} need be rendered. | |
first_start = idx + 1 | |
first_end = find_matching_brace(l_split, first_start) | |
second_start = first_end + 1 | |
second_end = find_matching_brace(l_split, second_start) | |
third_start = second_end + 1 | |
third_end = find_matching_brace(l_split, third_start) | |
sub_idx = third_start+1 | |
while sub_idx < third_end: | |
l_split, sub_idx, render_dict = token_add_color(l_split, sub_idx, render_dict) | |
next_idx = third_end + 1 | |
elif token in SKIP_Tokens+TWO_Tail_Invisb_Tokens or any(re.match(pattern, token) for pattern in SKIP_PATTERNS): | |
# ** tokens no need render, just skip | |
# print('skip', idx, token) | |
# TODO special case :[], could be single, or in \sqrt[]{}. | |
if (token == "[" and l_split[idx-1]!="\\sqrt") or (token == "]" and idx>=3 and l_split[idx-3]!="\\sqrt"): | |
l_split_copy = l_split.copy() | |
l_split_copy[idx] = r'\mathcolor{black}{ ' + l_split_copy[idx] + ' }' | |
l_new = ' '.join(l_split_copy) | |
l_new = r'\mathcolor{gray}{ ' + l_new + ' }' | |
render_dict[str(idx)] = l_new, token | |
next_idx = idx + 1 | |
else: | |
next_idx = idx + 1 | |
else: | |
# ** nomal token | |
l_split_copy = l_split.copy() | |
# TODO sometimes there is translation after add color, the exp prove that \mathcolor{black}{ A } is better than \mathcolor{black}{A} | |
l_split_copy[idx] = r'\mathcolor{black}{ ' + l_split_copy[idx] + ' }' | |
l_new = ' '.join(l_split_copy) | |
l_new = r'\mathcolor{gray}{ ' + l_new + ' }' | |
render_dict[str(idx)] = l_new, token | |
next_idx = idx + 1 | |
return l_split, next_idx, render_dict | |
def token_add_color_RGB(l_split, idx, token_list, brace_color=False): | |
"""using \mathcolor[RGB]{r,g,b} to render latex. | |
""" | |
token = l_split[idx] | |
if not token: | |
next_idx = idx + 1 | |
elif token in PHANTOM_Tokens: | |
# ** special tokens that do not need render, skip it | |
if l_split[idx + 1] == '{': | |
brace_end = find_matching_brace(l_split, idx + 1) | |
else: | |
brace_end = idx + 1 | |
next_idx = brace_end + 1 | |
elif token in TWO_Tail_Tokens: | |
# ** tokens such as \frac A B, and the token needs render too. | |
num_start = idx + 1 | |
num_end = find_matching_brace(l_split, num_start) | |
den_start = num_end + 1 | |
den_end = find_matching_brace(l_split, den_start) | |
color_token = "\\mathcolor[RGB]{<color_<idx>>}{".replace("<idx>", str(len(token_list))) | |
l_split = l_split[:idx] + [color_token+token] + l_split[idx+1: den_end+1] + ["}"] + l_split[den_end+1:] | |
token_list.append(token) | |
next_idx = idx + 1 | |
elif token in ONE_Tail_Tokens: | |
# ** tokens such as \hat A, and the token needs render too. | |
num_start = idx + 1 | |
num_end = find_matching_brace(l_split, num_start) | |
color_token = "\\mathcolor[RGB]{<color_<idx>>}{".replace("<idx>", str(len(token_list))) | |
if token != "\\underbrace" and num_end+1 < len(l_split) and l_split[num_end+1] == "_": | |
l_split = l_split[:idx] + ["{"+color_token+token] + l_split[idx+1: num_end+1] + ["}}"] + l_split[num_end+1:] | |
else: | |
l_split = l_split[:idx] + [color_token+token] + l_split[idx+1: num_end+1] + ["}"] + l_split[num_end+1:] | |
token_list.append(token) | |
next_idx = idx + 1 | |
elif token in ONE_Tail_Invisb_Tokens: | |
# ** tokens such as \text A B, and the token does not need render. | |
num_start = idx + 1 | |
num_end = find_matching_brace(l_split, num_start) | |
sub_idx = num_start+1 | |
if num_end-num_start == 2: | |
color_token = "\\mathcolor[RGB]{<color_<idx>>}{".replace("<idx>", str(len(token_list))) | |
token_list.append(l_split[num_start+1]) | |
l_split = l_split[:num_start+1] + [color_token+l_split[num_start+1]+"}"] + l_split[num_end:] | |
else: | |
while sub_idx < num_end: | |
l_split, sub_idx, token_list = token_add_color_RGB(l_split, sub_idx, token_list) | |
next_idx = num_end + 1 | |
elif token in AB_Tail_Tokens: | |
# ** special token \xrightarrow, could be \xrightarrow [] {} or \xrightarrow {}, process method are different. | |
if l_split[idx+1] == '{': | |
num_start = idx + 1 | |
num_end = find_matching_brace(l_split, num_start) | |
color_token = "\\mathcolor[RGB]{<color_<idx>>}{".replace("<idx>", str(len(token_list))) | |
l_split = l_split[:idx] + [color_token+token] + l_split[idx+1: num_end+1] + ["}"] + l_split[num_end+1:] | |
token_list.append(token) | |
sub_idx = num_start+1 | |
while sub_idx < num_end: | |
l_split, sub_idx, token_list = token_add_color_RGB(l_split, sub_idx, token_list) | |
next_idx = num_end + 1 | |
elif l_split[idx+1] == '[': | |
num_start = idx + 1 | |
num_end = find_matching_brace(l_split, num_start, brace=['[', ']']) | |
den_start = num_end + 1 | |
den_end = find_matching_brace(l_split, den_start) | |
color_token = "\\mathcolor[RGB]{<color_<idx>>}{".replace("<idx>", str(len(token_list))) | |
l_split = l_split[:idx] + [color_token+token] + l_split[idx+1: den_end+1] + ["}"] + l_split[den_end+1:] | |
token_list.append(token) | |
sub_idx = num_start + 1 | |
while sub_idx < num_end: | |
l_split, sub_idx, token_list = token_add_color_RGB(l_split, sub_idx, token_list, brace_color=True) | |
sub_idx = den_start + 1 | |
while sub_idx < den_end: | |
l_split, sub_idx, token_list = token_add_color_RGB(l_split, sub_idx, token_list) | |
next_idx = den_end + 1 | |
elif token in ["\\multicolumn", "\\multirow"]: | |
# ** tokens with three {}, such as \multicolumn {} {} {}, the text in third {} need be rendered. | |
first_start = idx + 1 | |
first_end = find_matching_brace(l_split, first_start) | |
second_start = first_end + 1 | |
second_end = find_matching_brace(l_split, second_start) | |
third_start = second_end + 1 | |
third_end = find_matching_brace(l_split, third_start) | |
sub_idx = third_start+1 | |
while sub_idx < third_end: | |
l_split, sub_idx, token_list = token_add_color_RGB(l_split, sub_idx, token_list) | |
next_idx = third_end + 1 | |
elif token in SKIP_Tokens+TWO_Tail_Invisb_Tokens or any(re.match(pattern, token) for pattern in SKIP_PATTERNS): | |
# ** tokens no need render, just skip | |
# print('skip', idx, token) | |
# TODO special case :[], could be single, or in \sqrt[]{}. | |
if (token == "[" and l_split[idx-1]!="\\sqrt") or (token == "]" and idx>=3 and l_split[idx-3]!="\\sqrt"): | |
color_token = "\\mathcolor[RGB]{<color_<idx>>}{".replace("<idx>", str(len(token_list))) | |
l_split = l_split[:idx] + [color_token + l_split[idx] + "}"] + l_split[idx+1:] | |
token_list.append(token) | |
next_idx = idx + 1 | |
else: | |
next_idx = idx + 1 | |
else: | |
# ** nomal token | |
if brace_color or (idx > 1 and l_split[idx-1] == "_"): | |
color_token = "\\mathcolor[RGB]{<color_<idx>>}{".replace("<idx>", str(len(token_list))) | |
l_split = l_split[:idx] + ["{" + color_token + l_split[idx] + "}}"] + l_split[idx+1:] | |
token_list.append(token) | |
next_idx = idx + 1 | |
else: | |
color_token = "\\mathcolor[RGB]{<color_<idx>>}{".replace("<idx>", str(len(token_list))) | |
l_split = l_split[:idx] + [color_token + l_split[idx] + "}"] + l_split[idx+1:] | |
token_list.append(token) | |
next_idx = idx + 1 | |
return l_split, next_idx, token_list |