#!/usr/bin/env python3 # vim:fileencoding=utf-8 # License: GPL v3 Copyright: 2017, Kovid Goyal import os import re import sys from collections import defaultdict from contextlib import contextmanager from datetime import date from functools import partial from html.entities import html5 from itertools import groupby from operator import itemgetter from typing import ( Callable, DefaultDict, Dict, FrozenSet, Generator, Iterable, List, Optional, Set, Tuple, Union ) from urllib.request import urlopen os.chdir(os.path.dirname(os.path.abspath(__file__))) non_characters = frozenset(range(0xfffe, 0x10ffff, 0x10000)) non_characters |= frozenset(range(0xffff, 0x10ffff + 1, 0x10000)) non_characters |= frozenset(range(0xfdd0, 0xfdf0)) if len(non_characters) != 66: raise SystemExit('non_characters table incorrect') emoji_skin_tone_modifiers = frozenset(range(0x1f3fb, 0x1F3FF + 1)) def get_data(fname: str, folder: str = 'UCD') -> Iterable[str]: url = f'https://www.unicode.org/Public/{folder}/latest/{fname}' bn = os.path.basename(url) local = os.path.join('/tmp', bn) if os.path.exists(local): with open(local, 'rb') as f: data = f.read() else: data = urlopen(url).read() with open(local, 'wb') as f: f.write(data) for line in data.decode('utf-8').splitlines(): line = line.strip() if line and not line.startswith('#'): yield line # Map of class names to set of codepoints in class class_maps: Dict[str, Set[int]] = {} all_symbols: Set[int] = set() name_map: Dict[int, str] = {} word_search_map: DefaultDict[str, Set[int]] = defaultdict(set) zwj = 0x200d flag_codepoints = frozenset(range(0x1F1E6, 0x1F1E6 + 26)) marks = set(emoji_skin_tone_modifiers) | {zwj} | flag_codepoints not_assigned = set(range(0, sys.maxunicode)) def parse_ucd() -> None: def add_word(w: str, c: int) -> None: if c <= 32 or c == 127 or 128 <= c <= 159: return if len(w) > 1: word_search_map[w.lower()].add(c) first: Optional[int] = None for word, c in html5.items(): if len(c) == 1: add_word(word.rstrip(';'), ord(c)) word_search_map['nnbsp'].add(0x202f) for line in get_data('ucd/UnicodeData.txt'): parts = [x.strip() for x in line.split(';')] codepoint = int(parts[0], 16) name = parts[1] or parts[10] if name == '': name = parts[10] if name: name_map[codepoint] = name for word in name.lower().split(): add_word(word, codepoint) category = parts[2] s = class_maps.setdefault(category, set()) desc = parts[1] codepoints: Union[Tuple[int, ...], Iterable[int]] = (codepoint,) if first is None: if desc.endswith(', First>'): first = codepoint continue else: codepoints = range(first, codepoint + 1) first = None for codepoint in codepoints: s.add(codepoint) not_assigned.discard(codepoint) if category.startswith('M'): marks.add(codepoint) elif category.startswith('S'): all_symbols.add(codepoint) with open('nerd-fonts-glyphs.txt') as f: for line in f: line = line.strip() if not line or line.startswith('#'): continue code, category, name = line.split(' ', 2) codepoint = int(code, 16) if name and codepoint not in name_map: name_map[codepoint] = name.upper() for word in name.lower().split(): add_word(word, codepoint) # Some common synonyms word_search_map['bee'] |= word_search_map['honeybee'] word_search_map['lambda'] |= word_search_map['lamda'] word_search_map['lamda'] |= word_search_map['lambda'] word_search_map['diamond'] |= word_search_map['gem'] def parse_range_spec(spec: str) -> Set[int]: spec = spec.strip() if '..' in spec: chars_ = tuple(map(lambda x: int(x, 16), filter(None, spec.split('.')))) chars = set(range(chars_[0], chars_[1] + 1)) else: chars = {int(spec, 16)} return chars def split_two(line: str) -> Tuple[Set[int], str]: spec, rest = line.split(';', 1) spec, rest = spec.strip(), rest.strip().split(' ', 1)[0].strip() return parse_range_spec(spec), rest all_emoji: Set[int] = set() emoji_presentation_bases: Set[int] = set() narrow_emoji: Set[int] = set() wide_emoji: Set[int] = set() flags: Dict[int, List[int]] = {} def parse_basic_emoji(spec: str) -> None: parts = list(filter(None, spec.split())) has_emoji_presentation = len(parts) < 2 chars = parse_range_spec(parts[0]) all_emoji.update(chars) emoji_presentation_bases.update(chars) (wide_emoji if has_emoji_presentation else narrow_emoji).update(chars) def parse_keycap_sequence(spec: str) -> None: base, fe0f, cc = list(filter(None, spec.split())) chars = parse_range_spec(base) all_emoji.update(chars) emoji_presentation_bases.update(chars) narrow_emoji.update(chars) def parse_flag_emoji_sequence(spec: str) -> None: a, b = list(filter(None, spec.split())) left, right = int(a, 16), int(b, 16) chars = {left, right} all_emoji.update(chars) wide_emoji.update(chars) emoji_presentation_bases.update(chars) flags.setdefault(left, []).append(right) def parse_emoji_tag_sequence(spec: str) -> None: a = int(spec.split()[0], 16) all_emoji.add(a) wide_emoji.add(a) emoji_presentation_bases.add(a) def parse_emoji_modifier_sequence(spec: str) -> None: a, b = list(filter(None, spec.split())) char, mod = int(a, 16), int(b, 16) mod all_emoji.add(char) wide_emoji.add(char) emoji_presentation_bases.add(char) def parse_emoji() -> None: for line in get_data('emoji-sequences.txt', 'emoji'): parts = [x.strip() for x in line.split(';')] if len(parts) < 2: continue data, etype = parts[:2] if etype == 'Basic_Emoji': parse_basic_emoji(data) elif etype == 'Emoji_Keycap_Sequence': parse_keycap_sequence(data) elif etype == 'RGI_Emoji_Flag_Sequence': parse_flag_emoji_sequence(data) elif etype == 'RGI_Emoji_Tag_Sequence': parse_emoji_tag_sequence(data) elif etype == 'RGI_Emoji_Modifier_Sequence': parse_emoji_modifier_sequence(data) doublewidth: Set[int] = set() ambiguous: Set[int] = set() def parse_eaw() -> None: global doublewidth, ambiguous seen: Set[int] = set() for line in get_data('ucd/EastAsianWidth.txt'): chars, eaw = split_two(line) if eaw == 'A': ambiguous |= chars seen |= chars elif eaw == 'W' or eaw == 'F': doublewidth |= chars seen |= chars doublewidth |= set(range(0x3400, 0x4DBF + 1)) - seen doublewidth |= set(range(0x4E00, 0x9FFF + 1)) - seen doublewidth |= set(range(0xF900, 0xFAFF + 1)) - seen doublewidth |= set(range(0x20000, 0x2FFFD + 1)) - seen doublewidth |= set(range(0x30000, 0x3FFFD + 1)) - seen def get_ranges(items: List[int]) -> Generator[Union[int, Tuple[int, int]], None, None]: items.sort() for k, g in groupby(enumerate(items), lambda m: m[0]-m[1]): group = tuple(map(itemgetter(1), g)) a, b = group[0], group[-1] if a == b: yield a else: yield a, b def write_case(spec: Union[Tuple, int], p: Callable) -> None: if isinstance(spec, tuple): p('\t\tcase 0x{:x} ... 0x{:x}:'.format(*spec)) else: p('\t\tcase 0x{:x}:'.format(spec)) @contextmanager def create_header(path: str, include_data_types: bool = True) -> Generator[Callable, None, None]: with open(path, 'w') as f: p = partial(print, file=f) p('// unicode data, built from the unicode standard on:', date.today()) p('// see gen-wcwidth.py') if path.endswith('.h'): p('#pragma once') if include_data_types: p('#include "data-types.h"\n') p('START_ALLOW_CASE_RANGE') p() yield p p() if include_data_types: p('END_ALLOW_CASE_RANGE') def gen_emoji() -> None: with create_header('kitty/emoji.h') as p: p('static inline bool\nis_emoji(char_type code) {') p('\tswitch(code) {') for spec in get_ranges(list(all_emoji)): write_case(spec, p) p('\t\t\treturn true;') p('\t\tdefault: return false;') p('\t}') p('\treturn false;\n}') p('static inline bool\nis_symbol(char_type code) {') p('\tswitch(code) {') for spec in get_ranges(list(all_symbols)): write_case(spec, p) p('\t\t\treturn true;') p('\t\tdefault: return false;') p('\t}') p('\treturn false;\n}') def category_test( name: str, p: Callable, classes: Iterable[str], comment: str, use_static: bool = False, extra_chars: Union[FrozenSet[int], Set[int]] = frozenset(), exclude: Union[Set[int], FrozenSet[int]] = frozenset(), least_check_return: Optional[str] = None, ascii_range: Optional[str] = None ) -> None: static = 'static inline ' if use_static else '' chars: Set[int] = set() for c in classes: chars |= class_maps[c] chars |= extra_chars chars -= exclude p(f'{static}bool\n{name}(char_type code) {{') p(f'\t// {comment} ({len(chars)} codepoints)' + ' {{' '{') if least_check_return is not None: least = min(chars) p(f'\tif (LIKELY(code < {least})) return {least_check_return};') if ascii_range is not None: p(f'\tif (LIKELY(0x20 <= code && code <= 0x7e)) return {ascii_range};') p('\tswitch(code) {') for spec in get_ranges(list(chars)): write_case(spec, p) p('\t\t\treturn true;') p('\t} // }}}\n') p('\treturn false;\n}\n') def codepoint_to_mark_map(p: Callable, mark_map: List[int]) -> Dict[int, int]: p('\tswitch(c) { // {{{') rmap = {c: m for m, c in enumerate(mark_map)} for spec in get_ranges(mark_map): if isinstance(spec, tuple): s = rmap[spec[0]] cases = ' '.join(f'case {i}:' for i in range(spec[0], spec[1]+1)) p(f'\t\t{cases} return {s} + c - {spec[0]};') else: p(f'\t\tcase {spec}: return {rmap[spec]};') p('default: return 0;') p('\t} // }}}') return rmap def classes_to_regex(classes: Iterable[str], exclude: str = '') -> Iterable[str]: chars: Set[int] = set() for c in classes: chars |= class_maps[c] for x in map(ord, exclude): chars.discard(x) def as_string(codepoint: int) -> str: if codepoint < 256: return r'\x{:02x}'.format(codepoint) if codepoint <= 0xffff: return r'\u{:04x}'.format(codepoint) return r'\U{:08x}'.format(codepoint) for spec in get_ranges(list(chars)): if isinstance(spec, tuple): yield '{}-{}'.format(*map(as_string, (spec[0], spec[1]))) else: yield as_string(spec) def gen_ucd() -> None: cz = {c for c in class_maps if c[0] in 'CZ'} with create_header('kitty/unicode-data.c') as p: p('#include "unicode-data.h"') category_test( 'is_combining_char', p, {c for c in class_maps if c.startswith('M')}, 'M category (marks)', # See https://github.com/harfbuzz/harfbuzz/issues/169 extra_chars=emoji_skin_tone_modifiers | {zwj}, least_check_return='false' ) category_test( 'is_ignored_char', p, 'Cc Cf Cs'.split(), 'Control characters and non-characters', extra_chars=non_characters, exclude={zwj}, ascii_range='false' ) category_test('is_word_char', p, {c for c in class_maps if c[0] in 'LN'}, 'L and N categories') category_test('is_CZ_category', p, cz, 'C and Z categories') category_test('is_P_category', p, {c for c in class_maps if c[0] == 'P'}, 'P category (punctuation)') mark_map = [0] + list(sorted(marks)) p('char_type codepoint_for_mark(combining_type m) {') p(f'\tstatic char_type map[{len(mark_map)}] =', '{', ', '.join(map(str, mark_map)), '}; // {{{ mapping }}}') p('\tif (m < arraysz(map)) return map[m];') p('\treturn 0;') p('}\n') p('combining_type mark_for_codepoint(char_type c) {') rmap = codepoint_to_mark_map(p, mark_map) p('}\n') with open('kitty/unicode-data.h') as f: unicode_data = f.read() m = re.search(r'^#define VS15 (\d+)', unicode_data, re.M) if m is not None: expected = int(m.group(1)) if rmap[0xfe0e] != expected: raise ValueError('The mark for 0xfe0e has changed, you have to update VS15 to {} and VS16 to {} in unicode-data.h'.format( rmap[0xfe0e], rmap[0xfe0f] )) with open('kittens/hints/url_regex.py', 'w') as f: f.write("url_delimiters = '{}' # noqa".format(''.join(classes_to_regex(cz, exclude='\n')))) def gen_names() -> None: with create_header('kittens/unicode_input/names.h') as p: mark_to_cp = list(sorted(name_map)) cp_to_mark = {cp: m for m, cp in enumerate(mark_to_cp)} # Mapping of mark to codepoint name p(f'static const char* name_map[{len(mark_to_cp)}] = {{' ' // {{{') for cp in mark_to_cp: w = name_map[cp].replace('"', '\\"') p(f'\t"{w}",') p("}; // }}}\n") # Mapping of mark to codepoint p(f'static const char_type mark_to_cp[{len(mark_to_cp)}] = {{' ' // {{{') p(', '.join(map(str, mark_to_cp))) p('}; // }}}\n') # Function to get mark number for codepoint p('static char_type mark_for_codepoint(char_type c) {') codepoint_to_mark_map(p, mark_to_cp) p('}\n') p('static inline const char* name_for_codepoint(char_type cp) {') p('\tchar_type m = mark_for_codepoint(cp); if (m == 0) return NULL;') p('\treturn name_map[m];') p('}\n') # Array of all words word_map = tuple(sorted(word_search_map)) word_rmap = {w: i for i, w in enumerate(word_map)} p(f'static const char* all_words_map[{len(word_map)}] = {{' ' // {{{') cwords = (w.replace('"', '\\"') for w in word_map) p(', '.join(f'"{w}"' for w in cwords)) p('}; // }}}\n') # Array of sets of marks for each word word_to_marks = {word_rmap[w]: frozenset(map(cp_to_mark.__getitem__, cps)) for w, cps in word_search_map.items()} all_mark_groups = frozenset(word_to_marks.values()) array = [0] mg_to_offset = {} for mg in all_mark_groups: mg_to_offset[mg] = len(array) array.append(len(mg)) array.extend(sorted(mg)) p(f'static const char_type mark_groups[{len(array)}] = {{' ' // {{{') p(', '.join(map(str, array))) p('}; // }}}\n') offsets_array = [] for wi, w in enumerate(word_map): mg = word_to_marks[wi] offsets_array.append(mg_to_offset[mg]) p(f'static const char_type mark_to_offset[{len(offsets_array)}] = {{' ' // {{{') p(', '.join(map(str, offsets_array))) p('}; // }}}\n') # The trie p('typedef struct { uint32_t children_offset; uint32_t match_offset; } word_trie;\n') all_trie_nodes: List['TrieNode'] = [] # noqa class TrieNode: def __init__(self) -> None: self.match_offset = 0 self.children_offset = 0 self.children: Dict[int, int] = {} def add_letter(self, letter: int) -> int: if letter not in self.children: self.children[letter] = len(all_trie_nodes) all_trie_nodes.append(TrieNode()) return self.children[letter] def __str__(self) -> str: return f'{{ .children_offset={self.children_offset}, .match_offset={self.match_offset} }}' root = TrieNode() all_trie_nodes.append(root) def add_word(word_idx: int, word: str) -> None: parent = root for letter in map(ord, word): idx = parent.add_letter(letter) parent = all_trie_nodes[idx] parent.match_offset = offsets_array[word_idx] for i, word in enumerate(word_map): add_word(i, word) children_array = [0] for node in all_trie_nodes: if node.children: node.children_offset = len(children_array) children_array.append(len(node.children)) for letter, child_offset in node.children.items(): children_array.append((child_offset << 8) | (letter & 0xff)) p(f'static const word_trie all_trie_nodes[{len(all_trie_nodes)}] = {{' ' // {{{') p(',\n'.join(map(str, all_trie_nodes))) p('\n}; // }}}\n') p(f'static const uint32_t children_array[{len(children_array)}] = {{' ' // {{{') p(', '.join(map(str, children_array))) p('}; // }}}\n') def gen_wcwidth() -> None: seen: Set[int] = set() def add(p: Callable, comment: str, chars_: Union[Set[int], FrozenSet[int]], ret: int) -> None: chars = chars_ - seen seen.update(chars) p(f'\t\t// {comment} ({len(chars)} codepoints)' + ' {{' '{') for spec in get_ranges(list(chars)): write_case(spec, p) p(f'\t\t\treturn {ret};') p('\t\t// }}}\n') with create_header('kitty/wcwidth-std.h') as p: p('static inline int\nwcwidth_std(int32_t code) {') p('\tif (LIKELY(0x20 <= code && code <= 0x7e)) return 1;') p('\tswitch(code) {') non_printing = class_maps['Cc'] | class_maps['Cf'] | class_maps['Cs'] add(p, 'Flags', flag_codepoints, 2) add(p, 'Marks', marks | {0}, 0) add(p, 'Non-printing characters', non_printing, -1) add(p, 'Private use', class_maps['Co'], -3) add(p, 'Text Presentation', narrow_emoji, 1) add(p, 'East Asian ambiguous width', ambiguous, -2) add(p, 'East Asian double width', doublewidth, 2) add(p, 'Emoji Presentation', wide_emoji, 2) add(p, 'Not assigned in the unicode character database', not_assigned, -4) p('\t\tdefault: return 1;') p('\t}') p('\treturn 1;\n}') p('static inline bool\nis_emoji_presentation_base(uint32_t code) {') p('\tswitch(code) {') for spec in get_ranges(list(emoji_presentation_bases)): write_case(spec, p) p('\t\t\treturn true;') p('\t\tdefault: return false;') p('\t}') p('\treturn 1;\n}') parse_ucd() parse_emoji() parse_eaw() gen_ucd() gen_wcwidth() gen_emoji() gen_names()