#!/usr/bin/python import sys import os.path if len (sys.argv) != 4: print >>sys.stderr, "usage: ./gen-arabic-table.py ArabicShaping.txt UnicodeData.txt Blocks.txt" sys.exit (1) files = [file (x) 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 = {} 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 u == 0x200C or u == 0x200D: continue if fields[3] in ["ALAPH", "DALATH RISH"]: value = "JOINING_GROUP_" + fields[3].replace(' ', '_') else: value = "JOINING_TYPE_" + fields[2] values[u] = value short_value = {} for value in set([v for v in values.values()] + ['JOINING_TYPE_X']): short = ''.join(x[0] for x in value.split('_')[2:]) assert short not in short_value.values() short_value[value] = short print for value,short in short_value.items(): print "#define %s %s" % (short, value) keys = values.keys() min_u = min(keys) max_u = max(keys) num = len(values) print print "static const uint8_t joining_table[] =" print "{" last_block = None for u in range(min_u, max_u+1): value = values.get(u, "JOINING_TYPE_X") block = blocks.get(u, last_block) if block != last_block: print "\n\n /* %s */" % block last_block = block if u % 32 != 0: print print " /* %04X */" % u, " " * (u % 32), if u % 32 == 0: print print " /* %04X */ " % u, sys.stdout.write("%s," % short_value[value]) print print "};" print print "#define JOINING_TABLE_FIRST 0x%04X" % min_u print "#define JOINING_TABLE_LAST 0x%04X" % max_u print occupancy = num * 100 / (max_u - min_u + 1) # Maintain at least 40% occupancy in the table */ if occupancy < 40: raise Exception ("Table too sparse, please investigate: ", occupancy) for value,short in short_value.items(): print "#undef %s" % (short) print def print_shaping_table(f): shapes = {} ligatures = {} names = {} for line in f: 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:]) if not shape in ['initial', 'medial', 'isolated', 'final']: continue c = int (fields[0], 16) if len (items) != 1: # We only care about lam-alef ligatures if len (items) != 2 or items[0] != 0x0644 or items[1] not in [0x0622, 0x0623, 0x0625, 0x0627]: continue # Save ligature names[c] = fields[1] if items not in ligatures: ligatures[items] = {} ligatures[items][shape] = c pass 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%04X" % 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%04X" % min_u print "#define SHAPING_TABLE_LAST 0x%04X" % max_u print ligas = {} for pair in ligatures.keys (): for shape in ligatures[pair]: c = ligatures[pair][shape] if shape == 'isolated': liga = (shapes[pair[0]]['initial'], shapes[pair[1]]['final']) elif shape == 'final': liga = (shapes[pair[0]]['medial'], shapes[pair[1]]['final']) else: raise Exception ("Unexpected shape", shape) if liga[0] not in ligas: ligas[liga[0]] = [] ligas[liga[0]].append ((liga[1], c)) max_i = max (len (ligas[l]) for l in ligas) print print "static const struct ligature_set_t {" print " uint16_t first;" print " struct ligature_pairs_t {" print " uint16_t second;" print " uint16_t ligature;" print " } ligatures[%d];" % max_i print "} ligature_table[] =" print "{" keys = ligas.keys () keys.sort () for first in keys: print " { 0x%04X, {" % (first) for liga in ligas[first]: print " { 0x%04X, 0x%04X }, /* %s */" % (liga[0], liga[1], names[liga[1]]) print " }}," print "};" print print "/* == Start of generated table == */" print "/*" print " * The following table is generated by running:" print " *" print " * ./gen-arabic-table.py ArabicShaping.txt UnicodeData.txt Blocks.txt" print " *" print " * on files with these headers:" print " *" for h in headers: for l in h: print " * %s" % (l.strip()) print " */" print print "#ifndef HB_OT_SHAPE_COMPLEX_ARABIC_TABLE_HH" print "#define HB_OT_SHAPE_COMPLEX_ARABIC_TABLE_HH" print read_blocks (files[2]) print_joining_table (files[0]) print_shaping_table (files[1]) print print "#endif /* HB_OT_SHAPE_COMPLEX_ARABIC_TABLE_HH */" print print "/* == End of generated table == */"