#!/usr/bin/python # -*- coding: utf-8 -*- # # This script builds unaccent.rules on standard output when given the # contents of UnicodeData.txt [1] and Latin-ASCII.xml [2] given as # arguments. Optionally includes ligature expansion and Unicode CLDR # Latin-ASCII transliterator, enabled by default, this can be disabled # with "--no-ligatures-expansion" command line option. # # The approach is to use the Unicode decomposition data to identify # precomposed codepoints that are equivalent to a ligature of several # letters, or a base letter with any number of diacritical marks. # # This approach handles most letters with diacritical marks and some # ligatures. However, several characters (notably a majority of # ligatures) don't have decomposition. To handle all these cases, one can # use a standard Unicode transliterator available in Common Locale Data # Repository (CLDR): Latin-ASCII. This transliterator associates Unicode # characters to ASCII-range equivalent. Unless "--no-ligatures-expansion" # option is enabled, the XML file of this transliterator [2] -- given as a # command line argument -- will be parsed and used. # # Ideally you should use the latest release for each data set. This # script is compatible with at least CLDR release 29. # # [1] https://www.unicode.org/Public/${UNICODE_VERSION}/ucd/UnicodeData.txt # [2] https://raw.githubusercontent.com/unicode-org/cldr/${TAG}/common/transforms/Latin-ASCII.xml import argparse import codecs import re import sys import xml.etree.ElementTree as ET sys.stdout = codecs.getwriter('utf8')(sys.stdout.buffer) # The ranges of Unicode characters that we consider to be "plain letters". # For now we are being conservative by including only Latin and Greek. This # could be extended in future based on feedback from people with relevant # language knowledge. PLAIN_LETTER_RANGES = ((ord('a'), ord('z')), # Latin lower case (ord('A'), ord('Z')), # Latin upper case (0x03b1, 0x03c9), # GREEK SMALL LETTER ALPHA, GREEK SMALL LETTER OMEGA (0x0391, 0x03a9)) # GREEK CAPITAL LETTER ALPHA, GREEK CAPITAL LETTER OMEGA # Combining marks follow a "base" character, and result in a composite # character. Example: "U&'A\0300'"produces "À".There are three types of # combining marks: enclosing (Me), non-spacing combining (Mn), spacing # combining (Mc). We identify the ranges of marks we feel safe removing. # References: # https://en.wikipedia.org/wiki/Combining_character # https://www.unicode.org/charts/PDF/U0300.pdf # https://www.unicode.org/charts/PDF/U20D0.pdf COMBINING_MARK_RANGES = ((0x0300, 0x0362), # Mn: Accents, IPA (0x20dd, 0x20E0), # Me: Symbols (0x20e2, 0x20e4),) # Me: Screen, keycap, triangle def print_record(codepoint, letter): if letter: # If the letter has whitespace or double quotes, escape double # quotes and apply more quotes around it. if (' ' in letter) or ('"' in letter): letter = '"' + letter.replace('"', '""') + '"' output = chr(codepoint) + "\t" + letter else: output = chr(codepoint) print(output) class Codepoint: def __init__(self, id, general_category, combining_ids): self.id = id self.general_category = general_category self.combining_ids = combining_ids def is_mark_to_remove(codepoint): """Return true if this is a combining mark to remove.""" if not is_mark(codepoint): return False for begin, end in COMBINING_MARK_RANGES: if codepoint.id >= begin and codepoint.id <= end: return True return False def is_plain_letter(codepoint): """Return true if codepoint represents a "plain letter".""" for begin, end in PLAIN_LETTER_RANGES: if codepoint.id >= begin and codepoint.id <= end: return True return False def is_mark(codepoint): """Returns true for diacritical marks (combining codepoints).""" return codepoint.general_category in ("Mn", "Me", "Mc") def is_letter_with_marks(codepoint, table): """Returns true for letters combined with one or more marks.""" # See https://www.unicode.org/reports/tr44/tr44-14.html#General_Category_Values # Letter may have no combining characters, in which case it has # no marks. if len(codepoint.combining_ids) == 1: return False # A letter without diacritical marks has none of them. if any(is_mark(table[i]) for i in codepoint.combining_ids[1:]) is False: return False # Check if the base letter of this letter has marks. codepoint_base = codepoint.combining_ids[0] if is_plain_letter(table[codepoint_base]) is False and \ is_letter_with_marks(table[codepoint_base], table) is False: return False return True def is_letter(codepoint, table): """Return true for letter with or without diacritical marks.""" return is_plain_letter(codepoint) or is_letter_with_marks(codepoint, table) def get_plain_letter(codepoint, table): """Return the base codepoint without marks. If this codepoint has more than one combining character, do a recursive lookup on the table to find out its plain base letter.""" if is_letter_with_marks(codepoint, table): if len(table[codepoint.combining_ids[0]].combining_ids) > 1: return get_plain_letter(table[codepoint.combining_ids[0]], table) elif is_plain_letter(table[codepoint.combining_ids[0]]): return table[codepoint.combining_ids[0]] # Should not come here assert False, 'Codepoint U+%0.2X' % codepoint.id elif is_plain_letter(codepoint): return codepoint # Should not come here assert False, 'Codepoint U+%0.2X' % codepoint.id def is_ligature(codepoint, table): """Return true for letters combined with letters.""" return all(is_letter(table[i], table) for i in codepoint.combining_ids) def get_plain_letters(codepoint, table): """Return a list of plain letters from a ligature.""" assert(is_ligature(codepoint, table)) return [get_plain_letter(table[id], table) for id in codepoint.combining_ids] def parse_cldr_latin_ascii_transliterator(latinAsciiFilePath): """Parse the XML file and return a set of tuples (src, trg), where "src" is the original character and "trg" the substitute.""" charactersSet = set() # RegEx to parse rules rulePattern = re.compile(r'^(?:(.)|(\\u[0-9a-fA-F]{4})) \u2192 (?:\'(.+)\'|(.+)) ;') # construct tree from XML transliterationTree = ET.parse(latinAsciiFilePath) transliterationTreeRoot = transliterationTree.getroot() # Fetch all the transliteration rules. Since release 29 of Latin-ASCII.xml # all the transliteration rules are located in a single tRule block with # all rules separated into separate lines. blockRules = transliterationTreeRoot.findall("./transforms/transform/tRule") assert(len(blockRules) == 1) # Split the block of rules into one element per line. rules = blockRules[0].text.splitlines() # And finish the processing of each individual rule. for rule in rules: matches = rulePattern.search(rule) # The regular expression capture four groups corresponding # to the characters. # # Group 1: plain "src" char. Empty if group 2 is not. # Group 2: unicode-escaped "src" char (e.g. "\u0110"). Empty if group 1 is not. # # Group 3: plain "trg" char. Empty if group 4 is not. # Group 4: plain "trg" char between quotes. Empty if group 3 is not. if matches is not None: src = matches.group(1) if matches.group(1) is not None else bytes(matches.group(2), 'UTF-8').decode('unicode-escape') trg = matches.group(3) if matches.group(3) is not None else matches.group(4) # "'" and """ are escaped trg = trg.replace("\\'", "'").replace('\\"', '"') # the parser of unaccent only accepts non-whitespace characters # for "src" and "trg" (see unaccent.c) if not src.isspace() and not trg.isspace(): charactersSet.add((ord(src), trg)) return charactersSet def special_cases(): """Returns the special cases which are not handled by other methods""" charactersSet = set() # Cyrillic charactersSet.add((0x0401, "\u0415")) # CYRILLIC CAPITAL LETTER IO charactersSet.add((0x0451, "\u0435")) # CYRILLIC SMALL LETTER IO # Symbols of "Letterlike Symbols" Unicode Block (U+2100 to U+214F) charactersSet.add((0x2103, "\xb0C")) # DEGREE CELSIUS charactersSet.add((0x2109, "\xb0F")) # DEGREE FAHRENHEIT return charactersSet def main(args): # https://www.unicode.org/reports/tr44/tr44-14.html#Character_Decomposition_Mappings decomposition_type_pattern = re.compile(" *<[^>]*> *") table = {} all = [] # unordered set for ensure uniqueness charactersSet = set() # read file UnicodeData.txt with codecs.open( args.unicodeDataFilePath, mode='r', encoding='UTF-8', ) as unicodeDataFile: # read everything we need into memory for line in unicodeDataFile: fields = line.split(";") if len(fields) > 5: # https://www.unicode.org/reports/tr44/tr44-14.html#UnicodeData.txt general_category = fields[2] decomposition = fields[5] decomposition = re.sub(decomposition_type_pattern, ' ', decomposition) id = int(fields[0], 16) combining_ids = [int(s, 16) for s in decomposition.split(" ") if s != ""] codepoint = Codepoint(id, general_category, combining_ids) table[id] = codepoint all.append(codepoint) # walk through all the codepoints looking for interesting mappings for codepoint in all: if codepoint.general_category.startswith('L') and \ len(codepoint.combining_ids) > 1: if is_letter_with_marks(codepoint, table): charactersSet.add((codepoint.id, chr(get_plain_letter(codepoint, table).id))) elif args.noLigaturesExpansion is False and is_ligature(codepoint, table): charactersSet.add((codepoint.id, "".join(chr(combining_codepoint.id) for combining_codepoint in get_plain_letters(codepoint, table)))) elif is_mark_to_remove(codepoint): charactersSet.add((codepoint.id, None)) # add CLDR Latin-ASCII characters if not args.noLigaturesExpansion: charactersSet |= parse_cldr_latin_ascii_transliterator(args.latinAsciiFilePath) charactersSet |= special_cases() # sort for more convenient display charactersList = sorted(charactersSet, key=lambda characterPair: characterPair[0]) for characterPair in charactersList: print_record(characterPair[0], characterPair[1]) if __name__ == "__main__": parser = argparse.ArgumentParser(description='This script builds unaccent.rules on standard output when given the contents of UnicodeData.txt and Latin-ASCII.xml given as arguments.') parser.add_argument("--unicode-data-file", help="Path to formatted text file corresponding to UnicodeData.txt.", type=str, required=True, dest='unicodeDataFilePath') parser.add_argument("--latin-ascii-file", help="Path to XML file from Unicode Common Locale Data Repository (CLDR) corresponding to Latin-ASCII transliterator (Latin-ASCII.xml).", type=str, dest='latinAsciiFilePath') parser.add_argument("--no-ligatures-expansion", help="Do not expand ligatures and do not use Unicode CLDR Latin-ASCII transliterator. By default, this option is not enabled and \"--latin-ascii-file\" argument is required. If this option is enabled, \"--latin-ascii-file\" argument is optional and ignored.", action="store_true", dest='noLigaturesExpansion') args = parser.parse_args() if args.noLigaturesExpansion is False and args.latinAsciiFilePath is None: sys.stderr.write('You must specify the path to Latin-ASCII transliterator file with \"--latin-ascii-file\" option or use \"--no-ligatures-expansion\" option. Use \"-h\" option for help.') sys.exit(1) main(args)