#!/usr/bin/env perl # # This file is part of the LibreOffice project. # # This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at http://mozilla.org/MPL/2.0/. # # This file incorporates work covered by the following license notice: # # Licensed to the Apache Software Foundation (ASF) under one or more # contributor license agreements. See the NOTICE file distributed # with this work for additional information regarding copyright # ownership. The ASF licenses this file to you under the Apache # License, Version 2.0 (the "License"); you may not use this file # except in compliance with the License. You may obtain a copy of # the License at http://www.apache.org/licenses/LICENSE-2.0 . # # The following files must be available in a ./input subdir: # # : # "Unicode version: 1.1 Table version: 0.0d3 Date: 11 February 1994" # Only used to track Unicode characters that are mapped from both Big5 and # HKSCS. # : # "Unicode version: 2.0 Table version: 2.01 Date: 1/7/2000" # Only used to track Unicode characters that are mapped from both CP950 and # HKSCS. $surrogates = 0; # set to 1 to allow mappings to Unicode beyond Plane 0 $id = "Big5Hkscs2001"; sub isValidUtf32 { my $utf32 = $_[0]; return $utf32 >= 0 && $utf32 <= 0x10FFFF && !($utf32 >= 0xD800 && $utf32 <= 0xDFFF) && !($utf32 >= 0xFDD0 && $utf32 <= 0xFDEF) && ($utf32 & 0xFFFF) < 0xFFFE; } sub printUtf32 { my $utf32 = $_[0]; return sprintf("U+%04X", $utf32); } sub isValidBig5 { my $big5 = $_[0]; my $big5_row = $big5 >> 8; my $big5_column = $big5 & 0xFF; return $big5_row >= 0x81 && $big5_row <= 0xFE && ($big5_column >= 0x40 && $big5_column <= 0x7E || $big5_column >= 0xA1 && $big5_column <= 0xFE); } sub printBig5 { my $big5 = $_[0]; return sprintf("%04X", $big5); } sub printStats { my $used = $_[0]; my $space = $_[1]; return sprintf("%d/%d bytes (%.1f%%)", $used, $space, $used * 100 / $space); } sub printSpaces { my $column_width = $_[0]; my $columns_per_line = $_[1]; my $end = $_[2]; $output = ""; for ($i = int($end / $columns_per_line) * $columns_per_line; $i < $end; ++$i) { for ($j = 0; $j < $column_width; ++$j) { $output = $output . " "; } } return $output; } sub addMapping { my $utf32 = $_[0]; my $big5 = $_[1]; my $comp = $_[2]; $uni_plane = $utf32 >> 16; $uni_page = ($utf32 >> 8) & 0xFF; $uni_index = $utf32 & 0xFF; if (!defined($uni_plane_used[$uni_plane]) || !defined($uni_page_used[$uni_plane][$uni_page]) || !defined($uni_map[$uni_plane][$uni_page][$uni_index])) { $uni_map[$uni_plane][$uni_page][$uni_index] = $big5; $uni_plane_used[$uni_plane] = 1; $uni_page_used[$uni_plane][$uni_page] = 1; if ($comp != -1) { ++$compat[$comp]; } } else { $big5_1 = $uni_map[$uni_plane][$uni_page][$uni_index]; print "WARNING! Mapping ", printUtf32($utf32), " to ", printBig5($big5_1), ", NOT ", ($comp ? "compat " : ""), printBig5($big5), "\n"; } } # Build mappings to track Unicode characters that are mapped from both Big5/ # CP950 and HKSCS: { $filename = "BIG5.TXT"; open IN, ("input/" . $filename) or die "Cannot read " . $filename; while () { if (/(0x[0-9A-F][0-9A-F][0-9A-F][0-9A-F])[ \t]+(0x[0-9A-F]+)[ \t]+\#.*$/) { $big5 = oct($1); $utf32 = oct($2); isValidBig5($big5) or die "Bad Big5 char " . printBig5($big5); isValidUtf32($utf32) or die "Bad UTF32 char " . printUtf32($utf32); if ($utf32 != 0xFFFD) { if (defined($underlying_big5[$utf32])) { print "WARNING! In ", $filename, ", both ", printBig5($underlying_big5[$utf32]), " and ", printBig5($big5), " map to ", printUtf32($utf32), "\n"; } else { $underlying_big5[$utf32] = $big5; } } } } close IN; $filename = "CP950.TXT"; open IN, ("input/" . $filename) or die "Cannot read " . $filename; while () { if (/(0x[0-9A-F][0-9A-F][0-9A-F][0-9A-F])[ \t]+(0x[0-9A-F]+)[ \t]+\#.*$/) { $big5 = oct($1); $utf32 = oct($2); isValidBig5($big5) or die "Bad Big5 char " . printBig5($big5); isValidUtf32($utf32) or die "Bad UTF32 char " . printUtf32($utf32); if (defined($underlying_cp950[$utf32])) { print "WARNING! In ", $filename, ", both ", printBig5($underlying_cp950[$utf32]), " and ", printBig5($big5), " map to ", printUtf32($utf32), "\n"; } else { $underlying_cp950[$utf32] = $big5; } } } close IN; } # The following are mapped by the underlying RTL_TEXTENCODING_BIG5 to some # nonstandard Unicode points, so they are explicitly mentioned here to map # to the standard Unicode PUA points. (In the other direction, the unofficial # mappings from Unicode to RTL_TEXTENCODING_BIG5 C6A1--C7FE are harmless, # since all Unicode characters involved are already covered by the official # Big5-HKSCS mappings.) $big5_map[0xC6][0xCF] = 0xF6E0; addMapping(0xF6E0, 0xC6CF, -1); $big5_map[0xC6][0xD3] = 0xF6E4; addMapping(0xF6E4, 0xC6D3, -1); $big5_map[0xC6][0xD5] = 0xF6E6; addMapping(0xF6E6, 0xC6D5, -1); $big5_map[0xC6][0xD7] = 0xF6E8; addMapping(0xF6E8, 0xC6D7, -1); $big5_map[0xC6][0xDE] = 0xF6EF; addMapping(0xF6EF, 0xC6DE, -1); $big5_map[0xC6][0xDF] = 0xF6F0; addMapping(0xF6F0, 0xC6DF, -1); # The following implements the mapping of Big5-HKSCS compatibility points # (GCCS characters unified with other HKSCS characters) to Unicode. In the # other direction, characters from Unicode's PUA will map to these Big5-HKSCS # compatibility points. (See the first list in .) $big5_map[0x8E][0x69] = 0x7BB8; $big5_map[0x8E][0x6F] = 0x7C06; $big5_map[0x8E][0x7E] = 0x7CCE; $big5_map[0x8E][0xAB] = 0x7DD2; $big5_map[0x8E][0xB4] = 0x7E1D; $big5_map[0x8E][0xCD] = 0x8005; $big5_map[0x8E][0xD0] = 0x8028; $big5_map[0x8F][0x57] = 0x83C1; $big5_map[0x8F][0x69] = 0x84A8; $big5_map[0x8F][0x6E] = 0x840F; $big5_map[0x8F][0xCB] = 0x89A6; $big5_map[0x8F][0xCC] = 0x89A9; $big5_map[0x8F][0xFE] = 0x8D77; $big5_map[0x90][0x6D] = 0x90FD; $big5_map[0x90][0x7A] = 0x92B9; $big5_map[0x90][0xDC] = 0x975C; $big5_map[0x90][0xF1] = 0x97FF; $big5_map[0x91][0xBF] = 0x9F16; $big5_map[0x92][0x44] = 0x8503; $big5_map[0x92][0xAF] = 0x5159; $big5_map[0x92][0xB0] = 0x515B; $big5_map[0x92][0xB1] = 0x515D; $big5_map[0x92][0xB2] = 0x515E; $big5_map[0x92][0xC8] = 0x936E; $big5_map[0x92][0xD1] = 0x7479; $big5_map[0x94][0x47] = 0x6D67; $big5_map[0x94][0xCA] = 0x799B; $big5_map[0x95][0xD9] = 0x9097; $big5_map[0x96][0x44] = 0x975D; $big5_map[0x96][0xED] = 0x701E; $big5_map[0x96][0xFC] = 0x5B28; $big5_map[0x9B][0x76] = 0x7201; $big5_map[0x9B][0x78] = 0x77D7; $big5_map[0x9B][0x7B] = 0x7E87; $big5_map[0x9B][0xC6] = 0x99D6; $big5_map[0x9B][0xDE] = 0x91D4; $big5_map[0x9B][0xEC] = 0x60DE; $big5_map[0x9B][0xF6] = 0x6FB6; $big5_map[0x9C][0x42] = 0x8F36; $big5_map[0x9C][0x53] = 0x4FBB; $big5_map[0x9C][0x62] = 0x71DF; $big5_map[0x9C][0x68] = 0x9104; $big5_map[0x9C][0x6B] = 0x9DF0; $big5_map[0x9C][0x77] = 0x83CF; $big5_map[0x9C][0xBC] = 0x5C10; $big5_map[0x9C][0xBD] = 0x79E3; $big5_map[0x9C][0xD0] = 0x5A67; $big5_map[0x9D][0x57] = 0x8F0B; $big5_map[0x9D][0x5A] = 0x7B51; $big5_map[0x9D][0xC4] = 0x62D0; $big5_map[0x9E][0xA9] = 0x6062; $big5_map[0x9E][0xEF] = 0x75F9; $big5_map[0x9E][0xFD] = 0x6C4A; $big5_map[0x9F][0x60] = 0x9B2E; $big5_map[0x9F][0x66] = 0x9F17; $big5_map[0x9F][0xCB] = 0x50ED; $big5_map[0x9F][0xD8] = 0x5F0C; $big5_map[0xA0][0x63] = 0x880F; $big5_map[0xA0][0x77] = 0x62CE; $big5_map[0xA0][0xD5] = 0x7468; $big5_map[0xA0][0xDF] = 0x7162; $big5_map[0xA0][0xE4] = 0x7250; $big5_map[0xFA][0x5F] = 0x5029; $big5_map[0xFA][0x66] = 0x507D; $big5_map[0xFA][0xBD] = 0x5305; $big5_map[0xFA][0xC5] = 0x5344; $big5_map[0xFA][0xD5] = 0x537F; $big5_map[0xFB][0x48] = 0x5605; $big5_map[0xFB][0xB8] = 0x5A77; $big5_map[0xFB][0xF3] = 0x5E75; $big5_map[0xFB][0xF9] = 0x5ED0; $big5_map[0xFC][0x4F] = 0x5F58; $big5_map[0xFC][0x6C] = 0x60A4; $big5_map[0xFC][0xB9] = 0x6490; $big5_map[0xFC][0xE2] = 0x6674; $big5_map[0xFC][0xF1] = 0x675E; $big5_map[0xFD][0xB7] = 0x6C9C; $big5_map[0xFD][0xB8] = 0x6E1D; $big5_map[0xFD][0xBB] = 0x6E2F; $big5_map[0xFD][0xF1] = 0x716E; $big5_map[0xFE][0x52] = 0x732A; $big5_map[0xFE][0x6F] = 0x745C; $big5_map[0xFE][0xAA] = 0x74E9; $big5_map[0xFE][0xDD] = 0x7809; $pua = 0; $compat[0] = 0; # 1993 $compat[1] = 0; # 2000 $compat[2] = 0; # 2001 $filename = "big5-iso.txt"; open IN, ("input/" . $filename) or die "Cannot read " . $filename; while () { if (/^([0-9A-F]+) +([0-9A-F]+) +([0-9A-F]+) +([0-9A-F]+)$/) { $big5 = oct("0x" . $1); $utf32_1993 = oct("0x" . $2); $utf32_2000 = oct("0x" . $3); $utf32_2001 = oct("0x" . $4); isValidBig5($big5) or die "Bad Big5 char " . printBig5($big5); isValidUtf32($utf32_1993) or die "Bad UTF32 char " . printUtf32($utf32_1993); isValidUtf32($utf32_2000) or die "Bad UTF32 char " . printUtf32($utf32_2000); isValidUtf32($utf32_2001) or die "Bad UTF32 char " . printUtf32($utf32_2001); $utf32 = $surrogates ? $utf32_2001 : $utf32_2000; if (defined($underlying_big5[$utf32]) || defined($underlying_cp950[$utf32])) { if (defined($underlying_big5[$utf32]) && defined($underlying_cp950[$utf32]) && $underlying_big5[$utf32] == $underlying_cp950[$utf32] && $underlying_big5[$utf32] == $big5 || defined($underlying_big5[$utf32]) && !defined($underlying_cp950[$utf32]) && $underlying_big5[$utf32] == $big5 || !defined($underlying_big5[$utf32]) && defined($underlying_cp950[$utf32]) && $underlying_cp950[$utf32] == $big5) { # ignore # Depending on real underlying mapping (cf. # ../convertbig5hkscs.tab), it would be possible to save some # table space by dropping those HKSCS code points that are # already covered by the underlying mapping. } else { print "XXX mapping underlying"; if (defined($underlying_big5[$utf32]) && defined($underlying_cp950[$utf32]) && $underlying_big5[$utf32] == $underlying_cp950[$utf32]) { print " Big5/CP950 ", printBig5($underlying_big5[$utf32]); } else { if (defined($underlying_big5[$utf32])) { print " Big5 ", printBig5($underlying_big5[$utf32]); } if (defined($underlying_cp950[$utf32])) { print " CP950 ", printBig5($underlying_cp950[$utf32]); } } print " and HKSCS ", printBig5($big5), " to ", printUtf32($utf32), "\n"; } } if ($utf32 >= 0xE000 && $utf32 <= 0xF8FF) { ++$pua; } $big5_row = $big5 >> 8; $big5_column = $big5 & 0xFF; if (defined($big5_map[$big5_row][$big5_column])) { die "Bad Big5 mapping " . printBig5($big5); } $big5_map[$big5_row][$big5_column] = $utf32; addMapping($utf32, $big5, -1); if ($utf32_2001 != $utf32) { addMapping($utf32_2001, $big5, 2); } if ($utf32_2000 != $utf32 && $utf32_2000 != $utf32_2001) { addMapping($utf32_2000, $big5, 1); } if ($utf32_1993 != $utf32 && $utf32_1993 != $utf32_2000 && $utf32_1993 != $utf32_2001) { addMapping($utf32_1993, $big5, 0); } } } close IN; print $pua, " mappings to PUA\n"; print $compat[0], " 1993 compatibility mappings\n" if ($compat[0] != 0); print $compat[1], " 2000 compatibility mappings\n" if ($compat[1] != 0); print $compat[2], " 2001 compatibility mappings\n" if ($compat[2] != 0); if (defined($uni_plane_used[0]) && defined($uni_page_used[0][0])) { for ($utf32 = 0; $utf32 <= 0x7F; ++$utf32) { if (defined($uni_map[0][0][$uni_index])) { $big5 = $uni_map[0][0][$utf32]; die "Mapping " . printUtf32($utf32) . " to " . printBig5($big5); } } } $filename = lc($id) . ".tab"; open OUT, ("> " . $filename) or die "Cannot write " . $filename; { $filename = lc($id). ".pl"; open IN, $filename or die "Cannot read ". $filename; $first = 1; while () { if (/^\#!.*$/) { } elsif (/^\#(\*.*)$/) { if ($first == 1) { print OUT "/", $1, "\n"; $first = 0; } else { print OUT " ", substr($1, 0, length($1) - 1), "/\n"; } } elsif (/^\# (.*)$/) { print OUT " *", $1, "\n"; } elsif (/^\#(.*)$/) { print OUT " *", $1, "\n"; } else { goto done; } } done: } print OUT "\n", "#include \"sal/types.h\"\n", "\n"; print OUT "static sal_uInt16 const aImpl", $id, "ToUnicodeData[] = {\n"; $big5_data_index = 0; $big5_rows = 0; $big5_chars = 0; for ($big5_row = 0; $big5_row <= 255; ++$big5_row) { $big5_row_first = -1; for ($big5_column = 0; $big5_column <= 255; ++$big5_column) { if (defined($big5_map[$big5_row][$big5_column])) { if ($big5_row_first == -1) { $big5_row_first = $big5_column; } $big5_row_last = $big5_column; } } if ($big5_row_first != -1) { $big5_data_offsets[$big5_row] = $big5_data_index; ++$big5_rows; print OUT " /* row ", $big5_row, " */\n"; $big5_row_surrogates_first = -1; $big5_row_chars = 0; $big5_row_surrogates = 0; print OUT " ", $big5_row_first, " | (", $big5_row_last, " << 8), /* first, last */\n"; ++$big5_data_index; print OUT " ", printSpaces(7, 10, $big5_row_first); $bol = 0; for ($big5_column = $big5_row_first; $big5_column <= $big5_row_last; ++$big5_column) { if ($bol == 1) { print OUT " "; $bol = 0; } if (defined($big5_map[$big5_row][$big5_column])) { $utf32 = $big5_map[$big5_row][$big5_column]; ++$big5_row_chars; if ($utf32 <= 0xFFFF) { printf OUT "0x%04X,", $utf32; } else { ++$big5_row_surrogates; printf OUT "0x%04X,", (0xD800 | (($utf32 - 0x10000) >> 10)); if ($big5_row_surrogates_first == -1) { $big5_row_surrogates_first = $big5_column; } $big5_row_surrogates_last = $big5_column; } } else { printf OUT "0xffff,"; } ++$big5_data_index; if ($big5_column % 10 == 9) { print OUT "\n"; $bol = 1; } } if ($bol == 0) { print OUT "\n"; } if ($big5_row_surrogates_first != -1) { print OUT " ", $big5_row_surrogates_first, ", /* first low-surrogate */\n"; ++$big5_data_index; print OUT " ", printSpaces(7, 10, $big5_row_surrogates_first); $bol = 0; for ($big5_column = $big5_row_surrogates_first; $big5_column <= $big5_row_surrogates_last; ++$big5_column) { if ($bol == 1) { print OUT " "; $bol = 0; } $utf32 = 0; if (defined($big5_map[$big5_row][$big5_column])) { $utf32 = $big5_map[$big5_row][$big5_column]; } if ($utf32 <= 0xFFFF) { printf OUT " 0,"; } else { printf OUT "0x%04X,", (0xDC00 | (($utf32 - 0x10000) & 0x3FF)); } ++$big5_data_index; if ($big5_column % 10 == 9) { print OUT "\n"; $bol = 1; } } if ($bol == 0) { print OUT "\n"; } } $big5_chars += $big5_row_chars; $big5_data_space[$big5_row] = ($big5_data_index - $big5_data_offsets[$big5_row]) * 2; $big5_data_used[$big5_row] = (1 + $big5_row_chars + ($big5_row_surrogates == 0 ? 0 : 1 + $big5_row_surrogates)) * 2; } else { print OUT " /* row ", $big5_row, ": --- */\n"; $big5_data_offsets[$big5_row] = -1; } } print OUT "};\n\n"; print "big5 rows = ", $big5_rows, ", chars = ", $big5_chars, "\n"; print OUT "static sal_Int32 const aImpl", $id, "ToUnicodeRowOffsets[] = {\n"; $big5_rowoffsets_used = 0; for ($big5_row = 0; $big5_row <= 255; ++$big5_row) { if ($big5_data_offsets[$big5_row] == -1) { print OUT " -1, /* row ", $big5_row, " */\n"; } else { print OUT " ", $big5_data_offsets[$big5_row], ", /* row ", $big5_row, "; ", printStats($big5_data_used[$big5_row], $big5_data_space[$big5_row]), " */\n"; $big5_rowoffsets_used += 4; } } print OUT "};\n\n"; print OUT "static sal_uInt16 const aImplUnicodeTo", $id, "Data[] = {\n"; $uni_data_index = 0; for ($uni_plane = 0; $uni_plane <= 16; ++$uni_plane) { if (defined($uni_plane_used[$uni_plane])) { for ($uni_page = 0; $uni_page <= 255; ++$uni_page) { if (defined($uni_page_used[$uni_plane][$uni_page])) { $uni_data_offsets[$uni_plane][$uni_page] = $uni_data_index; print OUT " /* plane ", $uni_plane, ", page ", $uni_page, " */\n"; $uni_page_first = -1; for ($uni_index = 0; $uni_index <= 255; ++$uni_index) { if (defined($uni_map[$uni_plane][$uni_page][$uni_index])) { if ($uni_page_first == -1) { $uni_page_first = $uni_index; } $uni_page_last = $uni_index; } } $uni_data_used[$uni_plane][$uni_page] = 0; print OUT " ", $uni_page_first, " | (", $uni_page_last, " << 8), /* first, last */\n"; ++$uni_data_index; $uni_data_used[$uni_plane][$uni_page] += 2; print OUT " ", printSpaces(7, 10, $uni_page_first); $bol = 0; for ($uni_index = $uni_page_first; $uni_index <= $uni_page_last; ++$uni_index) { if ($bol == 1) { print OUT " "; $bol = 0; } if (defined($uni_map[$uni_plane][$uni_page][$uni_index])) { $big5 = $uni_map[$uni_plane][$uni_page][$uni_index]; printf OUT "0x%04X,", $big5; $uni_data_used[$uni_plane][$uni_page] += 2; } else { print OUT " 0,"; } ++$uni_data_index; if ($uni_index % 10 == 9) { print OUT "\n"; $bol = 1; } } if ($bol == 0) { print OUT "\n"; } $uni_data_space[$uni_plane][$uni_page] = ($uni_data_index - $uni_data_offsets[$uni_plane][$uni_page]) * 2; } else { $uni_data_offsets[$uni_plane][$uni_page] = -1; print OUT " /* plane ", $uni_plane, ", page ", $uni_page, ": --- */\n"; } } } else { print OUT " /* plane ", $uni_plane, ": --- */\n"; } } print OUT "};\n\n"; print OUT "static sal_Int32 const aImplUnicodeTo", $id, "PageOffsets[] = {\n"; for ($uni_plane = 0; $uni_plane <= 16; ++$uni_plane) { if (defined($uni_plane_used[$uni_plane])) { $uni_pageoffsets_used[$uni_plane] = 0; $uni_data_used_sum[$uni_plane] = 0; $uni_data_space_sum[$uni_plane] = 0; for ($uni_page = 0; $uni_page <= 255; ++$uni_page) { $offset = $uni_data_offsets[$uni_plane][$uni_page]; if ($offset == -1) { print OUT " -1, /* plane ", $uni_plane, ", page ", $uni_page, " */\n"; } else { print OUT " ", $offset, ", /* plane ", $uni_plane, ", page ", $uni_page, "; ", printStats($uni_data_used[$uni_plane][$uni_page], $uni_data_space[$uni_plane][$uni_page]), " */\n"; $uni_pageoffsets_used[$uni_plane] += 4; $uni_data_used_sum[$uni_plane] += $uni_data_used[$uni_plane][$uni_page]; $uni_data_space_sum[$uni_plane] += $uni_data_space[$uni_plane][$uni_page]; } } } else { print OUT " /* plane ", $uni_plane, ": --- */\n"; } } print OUT "};\n\n"; print OUT "static sal_Int32 const aImplUnicodeTo", $id, "PlaneOffsets[] = {\n"; $uni_page_offset = 0; $uni_planeoffsets_used = 0; $uni_pageoffsets_used_sum = 0; $uni_pageoffsets_space_sum = 0; $uni_data_used_sum2 = 0; $uni_data_space_sum2 = 0; for ($uni_plane = 0; $uni_plane <= 16; ++$uni_plane) { if (defined ($uni_plane_used[$uni_plane])) { print OUT " ", $uni_page_offset++, " * 256, /* plane ", $uni_plane, "; ", printStats($uni_pageoffsets_used[$uni_plane], 256 * 4), ", ", printStats($uni_data_used_sum[$uni_plane], $uni_data_space_sum[$uni_plane]), " */\n"; $uni_planeoffsets_used += 4; $uni_pageoffsets_used_sum += $uni_pageoffsets_used[$uni_plane]; $uni_pageoffsets_space_sum += 256 * 4; $uni_data_used_sum2 += $uni_data_used_sum[$uni_plane]; $uni_data_space_sum2 += $uni_data_space_sum[$uni_plane]; } else { print OUT " -1, /* plane ", $uni_plane, " */\n"; } } print OUT " /* ", printStats($uni_planeoffsets_used, 17 * 4), ", ", printStats($uni_pageoffsets_used_sum, $uni_pageoffsets_space_sum), ", ", printStats($uni_data_used_sum2, $uni_data_space_sum2), " */\n};\n"; close OUT;