ddnet/scripts/generate_unicode_confusables_data.py

136 lines
3.8 KiB
Python

# Needs UnicodeData.txt and confusables.txt in the current directory.
#
# Those can be obtained from unicode.org:
# - http://www.unicode.org/Public/security/<VERSION>/confusables.txt
# - http://www.unicode.org/Public/<VERSION>/ucd/UnicodeData.txt
#
# If executed as a script, it will generate the contents of the files
# python3 scripts/generate_unicode_confusables_data.py header > `src/base/unicode/confusables.h`,
# python3 scripts/generate_unicode_confusables_data.py data > `src/base/unicode/confusables_data.h`.
import sys
import unicode
def generate_decompositions():
ud = unicode.data()
con = unicode.confusables()
def category(x):
return {unicode.unhex(u["Value"]) for u in ud if u["General_Category"].startswith(x)}
# TODO: Is this correct? They changed the decompositioning format
nfd = {unicode.unhex(u["Value"]): unicode.unhex_sequence(u["Decomposition_Type"]) for u in ud}
nfd = {k: v for k, v in nfd.items() if v}
con = {unicode.unhex(c["Value"]): unicode.unhex_sequence(c["Target"]) for c in con}
# C: Control
# M: Combining
# Z: Space
ignore = category("C") | category("M") | category("Z")
con[0x006C] = [0x0069] # LATIN SMALL LETTER L -> LATIN SMALL LETTER I
con[0x00A1] = [0x0069] # INVERTED EXCLAMATION MARK -> LATIN SMALL LETTER I
con[0x2800] = [] # BRAILLE PATTERN BLANK
con[0xFFFC] = [] # OBJECT REPLACEMENT CHARACTER
interesting = ignore | set(nfd) | set(con)
def apply(l, replacements):
return [d for c in l for d in replacements.get(c, [c])]
def gen(c):
result = [c]
while True:
first = apply(result, nfd)
second = apply(first, con)
# Apply substitutions until convergence.
if result == first and result == second:
break
result = second
return [c for c in result if c not in ignore]
return {c: gen(c) for c in interesting}
def gen_header(decompositions, len_set):
print("""\
#include <cstdint>
struct DECOMP_SLICE
{
\tuint16_t offset : 13;
\tuint16_t length : 3;
};
""")
print("enum")
print("{")
print(f"\tNUM_DECOMP_LENGTHS = {len(len_set)},")
print(f"\tNUM_DECOMPS = {len(decompositions)},")
print("};")
print()
print("extern const uint8_t decomp_lengths[NUM_DECOMP_LENGTHS];")
print("extern const int32_t decomp_chars[NUM_DECOMPS];")
print("extern const struct DECOMP_SLICE decomp_slices[NUM_DECOMPS];")
print("extern const int32_t decomp_data[];")
def gen_data(decompositions, decomposition_set, decomposition_offsets, len_set):
print("""\
#ifndef CONFUSABLES_DATA
#error "This file should only be included in `confusables.cpp`"
#endif
""")
print("const uint8_t decomp_lengths[NUM_DECOMP_LENGTHS] = {")
for l in len_set:
print(f"\t{l},")
print("};")
print()
print("const int32_t decomp_chars[NUM_DECOMPS] = {")
for k in sorted(decompositions):
print(f"\t0x{k:x},")
print("};")
print()
print("const struct DECOMP_SLICE decomp_slices[NUM_DECOMPS] = {")
for k in sorted(decompositions):
d = decompositions[k]
i = decomposition_set.index(tuple(d))
l = len_set.index(len(d))
print(f"\t{{{decomposition_offsets[i]}, {l}}},")
print("};")
print()
print("const int32_t decomp_data[] = {")
for d in decomposition_set:
for c in d:
print(f"\t0x{c:x},")
print("};")
def main():
decompositions = generate_decompositions()
# Deduplicate
decomposition_set = sorted(set(tuple(x) for x in decompositions.values()))
len_set = sorted(set(len(x) for x in decomposition_set))
if len(len_set) > 8:
raise ValueError("Can't pack offset (13 bit) together with len (>3bit)")
cur_offset = 0
decomposition_offsets = []
for d in decomposition_set:
decomposition_offsets.append(cur_offset)
cur_offset += len(d)
header = "header" in sys.argv
data = "data" in sys.argv
if header:
gen_header(decompositions, len_set)
elif data:
gen_data(decompositions, decomposition_set, decomposition_offsets, len_set)
if __name__ == '__main__':
main()