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201 lines
6 KiB
Python
201 lines
6 KiB
Python
#!/usr/bin/env python3
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# This script is based on
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# https://github.com/rust-lang/rust/blob/master/library/core/src/unicode/printable.py
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# distributed under https://github.com/rust-lang/rust/blob/master/LICENSE-MIT.
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# This script uses the following Unicode tables:
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# - UnicodeData.txt
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from collections import namedtuple
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import csv
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import os
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import subprocess
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NUM_CODEPOINTS=0x110000
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def to_ranges(iter):
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current = None
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for i in iter:
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if current is None or i != current[1] or i in (0x10000, 0x20000):
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if current is not None:
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yield tuple(current)
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current = [i, i + 1]
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else:
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current[1] += 1
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if current is not None:
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yield tuple(current)
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def get_escaped(codepoints):
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for c in codepoints:
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if (c.class_ or "Cn") in "Cc Cf Cs Co Cn Zl Zp Zs".split() and c.value != ord(' '):
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yield c.value
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def get_file(f):
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try:
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return open(os.path.basename(f))
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except FileNotFoundError:
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subprocess.run(["curl", "-O", f], check=True)
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return open(os.path.basename(f))
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Codepoint = namedtuple('Codepoint', 'value class_')
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def get_codepoints(f):
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r = csv.reader(f, delimiter=";")
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prev_codepoint = 0
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class_first = None
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for row in r:
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codepoint = int(row[0], 16)
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name = row[1]
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class_ = row[2]
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if class_first is not None:
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if not name.endswith("Last>"):
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raise ValueError("Missing Last after First")
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for c in range(prev_codepoint + 1, codepoint):
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yield Codepoint(c, class_first)
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class_first = None
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if name.endswith("First>"):
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class_first = class_
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yield Codepoint(codepoint, class_)
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prev_codepoint = codepoint
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if class_first is not None:
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raise ValueError("Missing Last after First")
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for c in range(prev_codepoint + 1, NUM_CODEPOINTS):
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yield Codepoint(c, None)
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def compress_singletons(singletons):
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uppers = [] # (upper, # items in lowers)
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lowers = []
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for i in singletons:
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upper = i >> 8
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lower = i & 0xff
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if len(uppers) == 0 or uppers[-1][0] != upper:
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uppers.append((upper, 1))
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else:
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upper, count = uppers[-1]
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uppers[-1] = upper, count + 1
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lowers.append(lower)
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return uppers, lowers
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def compress_normal(normal):
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# lengths 0x00..0x7f are encoded as 00, 01, ..., 7e, 7f
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# lengths 0x80..0x7fff are encoded as 80 80, 80 81, ..., ff fe, ff ff
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compressed = [] # [truelen, (truelenaux), falselen, (falselenaux)]
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prev_start = 0
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for start, count in normal:
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truelen = start - prev_start
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falselen = count
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prev_start = start + count
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assert truelen < 0x8000 and falselen < 0x8000
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entry = []
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if truelen > 0x7f:
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entry.append(0x80 | (truelen >> 8))
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entry.append(truelen & 0xff)
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else:
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entry.append(truelen & 0x7f)
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if falselen > 0x7f:
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entry.append(0x80 | (falselen >> 8))
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entry.append(falselen & 0xff)
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else:
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entry.append(falselen & 0x7f)
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compressed.append(entry)
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return compressed
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def print_singletons(uppers, lowers, uppersname, lowersname):
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print(" static constexpr singleton {}[] = {{".format(uppersname))
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for u, c in uppers:
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print(" {{{:#04x}, {}}},".format(u, c))
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print(" };")
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print(" static constexpr unsigned char {}[] = {{".format(lowersname))
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for i in range(0, len(lowers), 8):
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print(" {}".format(" ".join("{:#04x},".format(l) for l in lowers[i:i+8])))
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print(" };")
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def print_normal(normal, normalname):
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print(" static constexpr unsigned char {}[] = {{".format(normalname))
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for v in normal:
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print(" {}".format(" ".join("{:#04x},".format(i) for i in v)))
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print(" };")
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def main():
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file = get_file("https://www.unicode.org/Public/UNIDATA/UnicodeData.txt")
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codepoints = get_codepoints(file)
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CUTOFF=0x10000
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singletons0 = []
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singletons1 = []
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normal0 = []
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normal1 = []
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extra = []
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for a, b in to_ranges(get_escaped(codepoints)):
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if a > 2 * CUTOFF:
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extra.append((a, b - a))
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elif a == b - 1:
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if a & CUTOFF:
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singletons1.append(a & ~CUTOFF)
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else:
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singletons0.append(a)
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elif a == b - 2:
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if a & CUTOFF:
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singletons1.append(a & ~CUTOFF)
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singletons1.append((a + 1) & ~CUTOFF)
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else:
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singletons0.append(a)
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singletons0.append(a + 1)
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else:
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if a >= 2 * CUTOFF:
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extra.append((a, b - a))
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elif a & CUTOFF:
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normal1.append((a & ~CUTOFF, b - a))
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else:
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normal0.append((a, b - a))
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singletons0u, singletons0l = compress_singletons(singletons0)
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singletons1u, singletons1l = compress_singletons(singletons1)
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normal0 = compress_normal(normal0)
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normal1 = compress_normal(normal1)
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print("""\
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inline auto is_printable(uint32_t cp) -> bool {\
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""")
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print_singletons(singletons0u, singletons0l, 'singletons0', 'singletons0_lower')
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print_singletons(singletons1u, singletons1l, 'singletons1', 'singletons1_lower')
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print_normal(normal0, 'normal0')
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print_normal(normal1, 'normal1')
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print("""\
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auto lower = static_cast<uint16_t>(cp);
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if (cp < 0x10000) {
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return is_printable(lower, singletons0,
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sizeof(singletons0) / sizeof(*singletons0),
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singletons0_lower, normal0, sizeof(normal0));
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}
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if (cp < 0x20000) {
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return is_printable(lower, singletons1,
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sizeof(singletons1) / sizeof(*singletons1),
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singletons1_lower, normal1, sizeof(normal1));
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}\
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""")
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for a, b in extra:
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print(" if (0x{:x} <= cp && cp < 0x{:x}) return false;".format(a, a + b))
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print("""\
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return cp < 0x{:x};
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}}\
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""".format(NUM_CODEPOINTS))
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if __name__ == '__main__':
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main()
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