#!/usr/bin/env python3 """usage: ./gen-arabic-table.py [--rust] ArabicShaping.txt UnicodeData.txt Blocks.txt Input files: * https://unicode.org/Public/UCD/latest/ucd/ArabicShaping.txt * https://unicode.org/Public/UCD/latest/ucd/UnicodeData.txt * https://unicode.org/Public/UCD/latest/ucd/Blocks.txt """ import os.path, sys import packTab if len(sys.argv) > 1 and sys.argv[1] == "--rust": del sys.argv[1] language = packTab.languages["rust"] else: language = packTab.languages["c"] if len (sys.argv) != 4: sys.exit (__doc__) files = [open (x, encoding='utf-8') for x in sys.argv[1:]] headers = [[files[0].readline (), files[0].readline ()], [files[2].readline (), files[2].readline ()]] headers.append (["UnicodeData.txt does not have a header."]) while files[0].readline ().find ('##################') < 0: pass blocks = {} # Keep this in sync with hb_arabic_joiner_type_t in hb-ot-shaper-arabic.cc. JOINING_CODE = { "JOINING_TYPE_U": 0, "JOINING_TYPE_L": 1, "JOINING_TYPE_R": 2, "JOINING_TYPE_D": 3, "JOINING_TYPE_C": 3, "JOINING_GROUP_ALAPH": 4, "JOINING_GROUP_DALATH_RISH": 5, "JOINING_TYPE_T": 6, "JOINING_TYPE_X": 7, } def read_blocks(f): global blocks for line in f: j = line.find ('#') if j >= 0: line = line[:j] fields = [x.strip () for x in line.split (';')] if len (fields) == 1: continue uu = fields[0].split ('..') start = int (uu[0], 16) if len (uu) == 1: end = start else: end = int (uu[1], 16) t = fields[1] for u in range (start, end + 1): blocks[u] = t def print_joining_table(f): values = {} for line in f: if line[0] == '#': continue fields = [x.strip () for x in line.split (';')] if len (fields) == 1: continue u = int (fields[0], 16) if fields[3] in ["ALAPH", "DALATH RISH"]: value = "JOINING_GROUP_" + fields[3].replace(' ', '_') else: value = "JOINING_TYPE_" + fields[2] values[u] = value code = packTab.Code ('_hb_arabic_joining') data = {u: JOINING_CODE[v] for u, v in values.items ()} sol = packTab.pack_table (data, default=JOINING_CODE['JOINING_TYPE_X'], compression=9) if language.name == "c": sol.genCode (code, 'joining_type', language=language, private=True) print ("#include \"hb.hh\"") print () code.print_code (file=sys.stdout, language=language, private=True) print () print ("static unsigned int") print ("joining_type (hb_codepoint_t u)") print ("{") print (" return _hb_arabic_joining_joining_type (u);") print ("}") print () elif language.name == "rust": sol.genCode (code, 'joining_type_u8', language=language, private=False) print ("#![allow(unused_parens)]") print ("#![allow(clippy::unnecessary_cast, clippy::unreadable_literal, clippy::double_parens)]") print () print ("use crate::hb::unicode::Codepoint;") print () print ( "use super::ot_shaper_arabic::hb_arabic_joining_type_t::{" "self, D, GroupAlaph, GroupDalathRish, L, R, T, U, X};" ) print () code.print_code (file=sys.stdout, language=language, private=False) print () print ("#[inline]") print ("pub(crate) fn joining_type (u: Codepoint) -> hb_arabic_joining_type_t") print ("{") print (" match _hb_arabic_joining_joining_type_u8 (u as usize) {") print (" 0 => U,") print (" 1 => L,") print (" 2 => R,") print (" 3 => D,") print (" 4 => GroupAlaph,") print (" 5 => GroupDalathRish,") print (" 6 => T,") print (" 7 => X,") print (" _ => unreachable! (),") print (" }") print ("}") print () else: assert False, "Unknown language: %s" % language.name LIGATURES = ( 0xF2EE, 0xFC08, 0xFC0E, 0xFC12, 0xFC32, 0xFC3F, 0xFC40, 0xFC41, 0xFC42, 0xFC44, 0xFC4E, 0xFC5E, 0xFC60, 0xFC61, 0xFC62, 0xFC6A, 0xFC6D, 0xFC6F, 0xFC70, 0xFC73, 0xFC75, 0xFC86, 0xFC8F, 0xFC91, 0xFC94, 0xFC9C, 0xFC9D, 0xFC9E, 0xFC9F, 0xFCA1, 0xFCA2, 0xFCA3, 0xFCA4, 0xFCA8, 0xFCAA, 0xFCAC, 0xFCB0, 0xFCC9, 0xFCCA, 0xFCCB, 0xFCCC, 0xFCCD, 0xFCCE, 0xFCCF, 0xFCD0, 0xFCD1, 0xFCD2, 0xFCD3, 0xFCD5, 0xFCDA, 0xFCDB, 0xFCDC, 0xFCDD, 0xFD30, 0xFD88, 0xFEF5, 0xFEF6, 0xFEF7, 0xFEF8, 0xFEF9, 0xFEFA, 0xFEFB, 0xFEFC, 0xF201, 0xF211, 0xF2EE, ) def print_shaping_table(f): shapes = {} ligatures = {} names = {} lines = f.readlines() lines += [ "F201;PUA ARABIC LIGATURE LELLAH ISOLATED FORM;Lo;0;AL; 0644 0644 0647;;;;N;;;;;", "F211;PUA ARABIC LIGATURE LAM WITH MEEM WITH JEEM INITIAL FORM;Lo;0;AL; 0644 0645 062C;;;;N;;;;;", "F2EE;PUA ARABIC LIGATURE SHADDA WITH FATHATAN ISOLATED FORM;Lo;0;AL; 0020 064B 0651;;;;N;;;;;", ] for line in lines: fields = [x.strip () for x in line.split (';')] if fields[5][0:1] != '<': continue items = fields[5].split (' ') shape, items = items[0][1:-1], tuple (int (x, 16) for x in items[1:]) c = int (fields[0], 16) if not shape in ['initial', 'medial', 'isolated', 'final']: continue if len (items) != 1: # Mark ligatures start with space and are in visual order, so we # remove the space and reverse the items. if items[0] == 0x0020: items = items[:0:-1] shape = None # We only care about a subset of ligatures if c not in LIGATURES: continue # Save ligature names[c] = fields[1] if items not in ligatures: ligatures[items] = {} ligatures[items][shape] = c else: # Save shape if items[0] not in names: names[items[0]] = fields[1] else: names[items[0]] = os.path.commonprefix ([names[items[0]], fields[1]]).strip () if items[0] not in shapes: shapes[items[0]] = {} shapes[items[0]][shape] = c print () print ("static const uint16_t shaping_table[][4] =") print ("{") keys = shapes.keys () min_u, max_u = min (keys), max (keys) for u in range (min_u, max_u + 1): s = [shapes[u][shape] if u in shapes and shape in shapes[u] else 0 for shape in ['initial', 'medial', 'final', 'isolated']] value = ', '.join ("0x%04Xu" % c for c in s) print (" {%s}, /* U+%04X %s */" % (value, u, names[u] if u in names else "")) print ("};") print () print ("#define SHAPING_TABLE_FIRST 0x%04Xu" % min_u) print ("#define SHAPING_TABLE_LAST 0x%04Xu" % max_u) print () ligas_2 = {} ligas_3 = {} ligas_mark_2 = {} for key in ligatures.keys (): for shape in ligatures[key]: c = ligatures[key][shape] if len(key) == 3: if shape == 'isolated': liga = (shapes[key[0]]['initial'], shapes[key[1]]['medial'], shapes[key[2]]['final']) elif shape == 'final': liga = (shapes[key[0]]['medial'], shapes[key[1]]['medial'], shapes[key[2]]['final']) elif shape == 'initial': liga = (shapes[key[0]]['initial'], shapes[key[1]]['medial'], shapes[key[2]]['medial']) else: raise Exception ("Unexpected shape", shape) if liga[0] not in ligas_3: ligas_3[liga[0]] = [] ligas_3[liga[0]].append ((liga[1], liga[2], c)) elif len(key) == 2: if shape is None: liga = key if liga[0] not in ligas_mark_2: ligas_mark_2[liga[0]] = [] ligas_mark_2[liga[0]].append ((liga[1], c)) continue elif shape == 'isolated': liga = (shapes[key[0]]['initial'], shapes[key[1]]['final']) elif shape == 'final': liga = (shapes[key[0]]['medial'], shapes[key[1]]['final']) elif shape == 'initial': liga = (shapes[key[0]]['initial'], shapes[key[1]]['medial']) else: raise Exception ("Unexpected shape", shape) if liga[0] not in ligas_2: ligas_2[liga[0]] = [] ligas_2[liga[0]].append ((liga[1], c)) else: raise Exception ("Unexpected number of ligature components", key) max_i = max (len (ligas_2[l]) for l in ligas_2) print () print ("static const struct ligature_set_t {") print (" uint16_t first;") print (" struct ligature_pairs_t {") print (" uint16_t components[1];") print (" uint16_t ligature;") print (" } ligatures[%d];" % max_i) print ("} ligature_table[] =") print ("{") for first in sorted (ligas_2.keys ()): print (" { 0x%04Xu, {" % (first)) for liga in ligas_2[first]: print (" { {0x%04Xu}, 0x%04Xu }, /* %s */" % (liga[0], liga[1], names[liga[1]])) print (" }},") print ("};") print () max_i = max (len (ligas_mark_2[l]) for l in ligas_mark_2) print () print ("static const struct ligature_mark_set_t {") print (" uint16_t first;") print (" struct ligature_pairs_t {") print (" uint16_t components[1];") print (" uint16_t ligature;") print (" } ligatures[%d];" % max_i) print ("} ligature_mark_table[] =") print ("{") for first in sorted (ligas_mark_2.keys ()): print (" { 0x%04Xu, {" % (first)) for liga in ligas_mark_2[first]: print (" { {0x%04Xu}, 0x%04Xu }, /* %s */" % (liga[0], liga[1], names[liga[1]])) print (" }},") print ("};") print () max_i = max (len (ligas_3[l]) for l in ligas_3) print () print ("static const struct ligature_3_set_t {") print (" uint16_t first;") print (" struct ligature_triplets_t {") print (" uint16_t components[2];") print (" uint16_t ligature;") print (" } ligatures[%d];" % max_i) print ("} ligature_3_table[] =") print ("{") for first in sorted (ligas_3.keys ()): print (" { 0x%04Xu, {" % (first)) for liga in ligas_3[first]: print (" { {0x%04Xu, 0x%04Xu}, 0x%04Xu}, /* %s */" % (liga[0], liga[1], liga[2], names[liga[2]])) print (" }},") print ("};") print () print ("/* == Start of generated table == */") print ("/*") print (" * The following table is generated by running:") print (" *") print (" * ./gen-arabic-table.py %sArabicShaping.txt UnicodeData.txt Blocks.txt" % ("--rust " if language.name == "rust" else "")) print (" *") print (" * on files with these headers:") print (" *") for h in headers: for l in h: print (" * %s" % (l.strip())) print (" */") print () read_blocks (files[2]) if language.name == "c": print ("#ifndef HB_OT_SHAPER_ARABIC_TABLE_HH") print ("#define HB_OT_SHAPER_ARABIC_TABLE_HH") print () print_joining_table (files[0]) print_shaping_table (files[1]) print () print ("#endif /* HB_OT_SHAPER_ARABIC_TABLE_HH */") elif language.name == "rust": print_joining_table (files[0]) else: assert False, "Unknown language: %s" % language.name print () print ("/* == End of generated table == */")