gecko/intl/unicharutil/tools/genUnicodePropertyData.pl

831 lines
23 KiB
Perl

#!/usr/bin/env perl
# 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 tool is used to prepare lookup tables of Unicode character properties
# needed by gfx code to support text shaping operations. The properties are
# read from the Unicode Character Database and compiled into multi-level arrays
# for efficient lookup.
#
# To regenerate the tables in nsUnicodePropertyData.cpp:
#
# (1) Download the current Unicode data files from
#
# http://www.unicode.org/Public/UNIDATA/
#
# NB: not all the files are actually needed; currently, we require
# - UnicodeData.txt
# - Scripts.txt
# - EastAsianWidth.txt
# - BidiMirroring.txt
# - HangulSyllableType.txt
# - ReadMe.txt (to record version/date of the UCD)
# - Unihan_Variants.txt (from Unihan.zip)
# though this may change if we find a need for additional properties.
#
# The Unicode data files listed above should be together in one directory.
# We also require the file
# http://www.unicode.org/Public/security/latest/xidmodifications.txt
# This file should be in a sub-directory "security" immediately below the
# directory containing the other Unicode data files.
#
# (2) Run this tool using a command line of the form
#
# perl genUnicodePropertyData.pl \
# /path/to/harfbuzz/src \
# /path/to/UCD-directory
#
# This will generate (or overwrite!) the files
#
# nsUnicodePropertyData.cpp
# nsUnicodeScriptCodes.h
#
# in the current directory.
use strict;
use List::Util qw(first);
if ($#ARGV != 1) {
print <<__EOT;
# Run this tool using a command line of the form
#
# perl genUnicodePropertyData.pl \
# /path/to/harfbuzz/src \
# /path/to/UCD-directory
#
# where harfbuzz/src is the directory containing harfbuzz .cc and .hh files,
# and UCD-directory is a directory containing the current Unicode Character
# Database files (UnicodeData.txt, etc), available from
# http://www.unicode.org/Public/UNIDATA/
#
# This will generate (or overwrite!) the files
#
# nsUnicodePropertyData.cpp
# nsUnicodeScriptCodes.h
#
# in the current directory.
__EOT
exit 0;
}
# load HB_Script and HB_Category constants
# NOTE that HB_SCRIPT_* constants are now "tag" values, NOT sequentially-allocated
# script codes as used by Glib/Pango/etc.
# We therefore define a set of MOZ_SCRIPT_* constants that are script _codes_
# compatible with those libraries, and map these to HB_SCRIPT_* _tags_ as needed.
# CHECK that this matches Pango source (as found for example at
# http://git.gnome.org/browse/pango/tree/pango/pango-script.h)
# for as many codes as that defines (currently up through Unicode 5.1)
# and the GLib enumeration
# http://developer.gnome.org/glib/2.30/glib-Unicode-Manipulation.html#GUnicodeScript
# (currently defined up through Unicode 6.0).
# Constants beyond these may be regarded as unstable for now, but we don't actually
# depend on the specific values.
my %scriptCode = (
INVALID => -1,
COMMON => 0,
INHERITED => 1,
ARABIC => 2,
ARMENIAN => 3,
BENGALI => 4,
BOPOMOFO => 5,
CHEROKEE => 6,
COPTIC => 7,
CYRILLIC => 8,
DESERET => 9,
DEVANAGARI => 10,
ETHIOPIC => 11,
GEORGIAN => 12,
GOTHIC => 13,
GREEK => 14,
GUJARATI => 15,
GURMUKHI => 16,
HAN => 17,
HANGUL => 18,
HEBREW => 19,
HIRAGANA => 20,
KANNADA => 21,
KATAKANA => 22,
KHMER => 23,
LAO => 24,
LATIN => 25,
MALAYALAM => 26,
MONGOLIAN => 27,
MYANMAR => 28,
OGHAM => 29,
OLD_ITALIC => 30,
ORIYA => 31,
RUNIC => 32,
SINHALA => 33,
SYRIAC => 34,
TAMIL => 35,
TELUGU => 36,
THAANA => 37,
THAI => 38,
TIBETAN => 39,
CANADIAN_ABORIGINAL => 40,
YI => 41,
TAGALOG => 42,
HANUNOO => 43,
BUHID => 44,
TAGBANWA => 45,
# unicode 4.0 additions
BRAILLE => 46,
CYPRIOT => 47,
LIMBU => 48,
OSMANYA => 49,
SHAVIAN => 50,
LINEAR_B => 51,
TAI_LE => 52,
UGARITIC => 53,
# unicode 4.1 additions
NEW_TAI_LUE => 54,
BUGINESE => 55,
GLAGOLITIC => 56,
TIFINAGH => 57,
SYLOTI_NAGRI => 58,
OLD_PERSIAN => 59,
KHAROSHTHI => 60,
# unicode 5.0 additions
UNKNOWN => 61,
BALINESE => 62,
CUNEIFORM => 63,
PHOENICIAN => 64,
PHAGS_PA => 65,
NKO => 66,
# unicode 5.1 additions
KAYAH_LI => 67,
LEPCHA => 68,
REJANG => 69,
SUNDANESE => 70,
SAURASHTRA => 71,
CHAM => 72,
OL_CHIKI => 73,
VAI => 74,
CARIAN => 75,
LYCIAN => 76,
LYDIAN => 77,
# unicode 5.2 additions
AVESTAN => 78,
BAMUM => 79,
EGYPTIAN_HIEROGLYPHS => 80,
IMPERIAL_ARAMAIC => 81,
INSCRIPTIONAL_PAHLAVI => 82,
INSCRIPTIONAL_PARTHIAN => 83,
JAVANESE => 84,
KAITHI => 85,
LISU => 86,
MEETEI_MAYEK => 87,
OLD_SOUTH_ARABIAN => 88,
OLD_TURKIC => 89,
SAMARITAN => 90,
TAI_THAM => 91,
TAI_VIET => 92,
# unicode 6.0 additions
BATAK => 93,
BRAHMI => 94,
MANDAIC => 95,
# unicode 6.1 additions
CHAKMA => 96,
MEROITIC_CURSIVE => 97,
MEROITIC_HIEROGLYPHS => 98,
MIAO => 99,
SHARADA => 100,
SORA_SOMPENG => 101,
TAKRI => 102
);
my $sc = -1;
my $cc = -1;
my %catCode;
my @scriptCodeToTag;
my @scriptCodeToName;
sub readHarfBuzzHeader
{
my $file = shift;
open FH, "< $ARGV[0]/$file" or die "can't open harfbuzz header $ARGV[0]/$file\n";
while (<FH>) {
if (m/HB_SCRIPT_([A-Z_]+)\s*=\s*HB_TAG\s*\(('.','.','.','.')\)\s*,/) {
unless (exists $scriptCode{$1}) {
warn "unknown script name $1 found in $file\n";
next;
}
$sc = $scriptCode{$1};
$scriptCodeToTag[$sc] = $2;
$scriptCodeToName[$sc] = $1;
}
if (m/HB_UNICODE_GENERAL_CATEGORY_([A-Z_]+)/) {
$cc++;
$catCode{$1} = $cc;
}
}
close FH;
}
&readHarfBuzzHeader("hb-common.h");
&readHarfBuzzHeader("hb-unicode.h");
die "didn't find HarfBuzz script codes\n" if $sc == -1;
die "didn't find HarfBuzz category codes\n" if $cc == -1;
my %xidmodCode = (
'inclusion' => 0,
'recommended' => 1,
'default-ignorable' => 2,
'historic' => 3,
'limited-use' => 4,
'not-NFKC' => 5,
'not-xid' => 6,
'obsolete' => 7,
'technical' => 8,
'not-chars' => 9
);
my %bidicategoryCode = (
"L" => "0", # Left-to-Right
"R" => "1", # Right-to-Left
"EN" => "2", # European Number
"ES" => "3", # European Number Separator
"ET" => "4", # European Number Terminator
"AN" => "5", # Arabic Number
"CS" => "6", # Common Number Separator
"B" => "7", # Paragraph Separator
"S" => "8", # Segment Separator
"WS" => "9", # Whitespace
"ON" => "10", # Other Neutrals
"LRE" => "11", # Left-to-Right Embedding
"LRO" => "12", # Left-to-Right Override
"AL" => "13", # Right-to-Left Arabic
"RLE" => "14", # Right-to-Left Embedding
"RLO" => "15", # Right-to-Left Override
"PDF" => "16", # Pop Directional Format
"NSM" => "17", # Non-Spacing Mark
"BN" => "18" # Boundary Neutral
);
# initialize default properties
my @script;
my @category;
my @combining;
my @eaw;
my @mirror;
my @hangul;
my @casemap;
my @xidmod;
my @numericvalue;
my @hanVariant;
my @bidicategory;
my @fullWidth;
for (my $i = 0; $i < 0x110000; ++$i) {
$script[$i] = $scriptCode{"UNKNOWN"};
$category[$i] = $catCode{"UNASSIGNED"};
$combining[$i] = 0;
$casemap[$i] = 0;
$xidmod[$i] = $xidmodCode{"not-chars"};
$numericvalue[$i] = -1;
$hanVariant[$i] = 0;
$bidicategory[$i] = $bidicategoryCode{"L"};
$fullWidth[$i] = 0;
}
# blocks where the default for bidi category is not L
for my $i (0x0600..0x07BF, 0x08A0..0x08FF, 0xFB50..0xFDCF, 0xFDF0..0xFDFF, 0xFE70..0xFEFF, 0x1EE00..0x0001EEFF) {
$bidicategory[$i] = $bidicategoryCode{"AL"};
}
for my $i (0x0590..0x05FF, 0x07C0..0x089F, 0xFB1D..0xFB4F, 0x00010800..0x00010FFF, 0x0001E800..0x0001EDFF, 0x0001EF00..0x0001EFFF) {
$bidicategory[$i] = $bidicategoryCode{"R"};
}
my %ucd2hb = (
'Cc' => 'CONTROL',
'Cf' => 'FORMAT',
'Cn' => 'UNASSIGNED',
'Co' => 'PRIVATE_USE',
'Cs' => 'SURROGATE',
'Ll' => 'LOWERCASE_LETTER',
'Lm' => 'MODIFIER_LETTER',
'Lo' => 'OTHER_LETTER',
'Lt' => 'TITLECASE_LETTER',
'Lu' => 'UPPERCASE_LETTER',
'Mc' => 'SPACING_MARK',
'Me' => 'ENCLOSING_MARK',
'Mn' => 'NON_SPACING_MARK',
'Nd' => 'DECIMAL_NUMBER',
'Nl' => 'LETTER_NUMBER',
'No' => 'OTHER_NUMBER',
'Pc' => 'CONNECT_PUNCTUATION',
'Pd' => 'DASH_PUNCTUATION',
'Pe' => 'CLOSE_PUNCTUATION',
'Pf' => 'FINAL_PUNCTUATION',
'Pi' => 'INITIAL_PUNCTUATION',
'Po' => 'OTHER_PUNCTUATION',
'Ps' => 'OPEN_PUNCTUATION',
'Sc' => 'CURRENCY_SYMBOL',
'Sk' => 'MODIFIER_SYMBOL',
'Sm' => 'MATH_SYMBOL',
'So' => 'OTHER_SYMBOL',
'Zl' => 'LINE_SEPARATOR',
'Zp' => 'PARAGRAPH_SEPARATOR',
'Zs' => 'SPACE_SEPARATOR'
);
# read ReadMe.txt
my @versionInfo;
open FH, "< $ARGV[1]/ReadMe.txt" or die "can't open Unicode ReadMe.txt file\n";
while (<FH>) {
chomp;
push @versionInfo, $_;
}
close FH;
my $kTitleToUpper = 0x80000000;
my $kUpperToLower = 0x40000000;
my $kLowerToTitle = 0x20000000;
my $kLowerToUpper = 0x10000000;
my $kCaseMapCharMask = 0x001fffff;
# read UnicodeData.txt
open FH, "< $ARGV[1]/UnicodeData.txt" or die "can't open UCD file UnicodeData.txt\n";
while (<FH>) {
chomp;
my @fields = split /;/;
if ($fields[1] =~ /First/) {
my $first = hex "0x$fields[0]";
$_ = <FH>;
@fields = split /;/;
if ($fields[1] =~ /Last/) {
my $last = hex "0x$fields[0]";
do {
$category[$first] = $catCode{$ucd2hb{$fields[2]}};
$combining[$first] = $fields[3];
$bidicategory[$first] = $bidicategoryCode{$fields[4]};
unless (length($fields[7]) == 0) {
$numericvalue[$first] = $fields[7];
}
if ($fields[1] =~ /CJK/) {
@hanVariant[$first] = 3;
}
$first++;
} while ($first <= $last);
} else {
die "didn't find Last code for range!\n";
}
} else {
my $usv = hex "0x$fields[0]";
$category[$usv] = $catCode{$ucd2hb{$fields[2]}};
$combining[$usv] = $fields[3];
my $upper = hex $fields[12];
my $lower = hex $fields[13];
my $title = hex $fields[14];
# we only store one mapping for each character,
# but also record what kind of mapping it is
if ($upper && $lower) {
$casemap[$usv] |= $kTitleToUpper;
$casemap[$usv] |= ($usv ^ $upper);
}
elsif ($lower) {
$casemap[$usv] |= $kUpperToLower;
$casemap[$usv] |= ($usv ^ $lower);
}
elsif ($title && ($title != $upper)) {
$casemap[$usv] |= $kLowerToTitle;
$casemap[$usv] |= ($usv ^ $title);
}
elsif ($upper) {
$casemap[$usv] |= $kLowerToUpper;
$casemap[$usv] |= ($usv ^ $upper);
}
$bidicategory[$usv] = $bidicategoryCode{$fields[4]};
unless (length($fields[7]) == 0) {
$numericvalue[$usv] = $fields[7];
}
if ($fields[1] =~ /CJK/) {
@hanVariant[$usv] = 3;
}
if ($fields[5] =~ /^<narrow>/) {
my $wideChar = hex(substr($fields[5], 9));
die "didn't expect supplementary-plane values here" if $usv > 0xffff || $wideChar > 0xffff;
$fullWidth[$usv] = $wideChar;
}
elsif ($fields[5] =~ /^<wide>/) {
my $narrowChar = hex(substr($fields[5], 7));
die "didn't expect supplementary-plane values here" if $usv > 0xffff || $narrowChar > 0xffff;
$fullWidth[$narrowChar] = $usv;
}
}
}
close FH;
# read Scripts.txt
open FH, "< $ARGV[1]/Scripts.txt" or die "can't open UCD file Scripts.txt\n";
push @versionInfo, "";
while (<FH>) {
chomp;
push @versionInfo, $_;
last if /Date:/;
}
while (<FH>) {
if (m/([0-9A-F]{4,6})(?:\.\.([0-9A-F]{4,6}))*\s+;\s+([^ ]+)/) {
my $script = uc($3);
warn "unknown script $script" unless exists $scriptCode{$script};
$script = $scriptCode{$script};
my $start = hex "0x$1";
my $end = (defined $2) ? hex "0x$2" : $start;
for (my $i = $start; $i <= $end; ++$i) {
$script[$i] = $script;
}
}
}
close FH;
# read EastAsianWidth.txt
my %eawCode = (
'A' => 0, # ; Ambiguous
'F' => 1, # ; Fullwidth
'H' => 2, # ; Halfwidth
'N' => 3, # ; Neutral
'NA'=> 4, # ; Narrow
'W' => 5 # ; Wide
);
open FH, "< $ARGV[1]/EastAsianWidth.txt" or die "can't open UCD file EastAsianWidth.txt\n";
push @versionInfo, "";
while (<FH>) {
chomp;
push @versionInfo, $_;
last if /Date:/;
}
while (<FH>) {
s/#.*//;
if (m/([0-9A-F]{4,6})(?:\.\.([0-9A-F]{4,6}))*\s*;\s*([^ ]+)/) {
my $eaw = uc($3);
warn "unknown EAW code $eaw" unless exists $eawCode{$eaw};
$eaw = $eawCode{$eaw};
my $start = hex "0x$1";
my $end = (defined $2) ? hex "0x$2" : $start;
for (my $i = $start; $i <= $end; ++$i) {
$eaw[$i] = $eaw;
}
}
}
close FH;
# read BidiMirroring.txt
my @offsets = ();
push @offsets, 0;
open FH, "< $ARGV[1]/BidiMirroring.txt" or die "can't open UCD file BidiMirroring.txt\n";
push @versionInfo, "";
while (<FH>) {
chomp;
push @versionInfo, $_;
last if /Date:/;
}
while (<FH>) {
s/#.*//;
if (m/([0-9A-F]{4,6});\s*([0-9A-F]{4,6})/) {
my $mirrorOffset = hex("0x$2") - hex("0x$1");
my $offsetIndex = first { $offsets[$_] eq $mirrorOffset } 0..$#offsets;
if ($offsetIndex == undef) {
die "too many offset codes\n" if scalar @offsets == 31;
push @offsets, $mirrorOffset;
$offsetIndex = $#offsets;
}
$mirror[hex "0x$1"] = $offsetIndex;
}
}
close FH;
# read HangulSyllableType.txt
my %hangulType = (
'L' => 0x01,
'V' => 0x02,
'T' => 0x04,
'LV' => 0x03,
'LVT' => 0x07
);
open FH, "< $ARGV[1]/HangulSyllableType.txt" or die "can't open UCD file HangulSyllableType.txt\n";
push @versionInfo, "";
while (<FH>) {
chomp;
push @versionInfo, $_;
last if /Date:/;
}
while (<FH>) {
s/#.*//;
if (m/([0-9A-F]{4,6})(?:\.\.([0-9A-F]{4,6}))*\s*;\s*([^ ]+)/) {
my $hangul = uc($3);
warn "unknown Hangul syllable type" unless exists $hangulType{$hangul};
$hangul = $hangulType{$hangul};
my $start = hex "0x$1";
my $end = (defined $2) ? hex "0x$2" : $start;
for (my $i = $start; $i <= $end; ++$i) {
$hangul[$i] = $hangul;
}
}
}
close FH;
# read xidmodifications.txt
open FH, "< $ARGV[1]/security/xidmodifications.txt" or die "can't open UCD file xidmodifications.txt\n";
push @versionInfo, "";
while (<FH>) {
chomp;
unless (/\xef\xbb\xbf/) {
push @versionInfo, $_;
}
last if /Generated:/;
}
while (<FH>) {
if (m/([0-9A-F]{4,6})(?:\.\.([0-9A-F]{4,6}))*\s+;\s+[^ ]+\s+;\s+([^ ]+)/) {
my $xidmod = $3;
warn "unknown Identifier Modification $xidmod" unless exists $xidmodCode{$xidmod};
$xidmod = $xidmodCode{$xidmod};
my $start = hex "0x$1";
my $end = (defined $2) ? hex "0x$2" : $start;
for (my $i = $start; $i <= $end; ++$i) {
$xidmod[$i] = $xidmod;
}
}
}
close FH;
# special case U+30FB KATAKANA MIDDLE DOT -- see bug 857490
$xidmod[0x30FB] = 1;
open FH, "< $ARGV[1]/Unihan_Variants.txt" or die "can't open UCD file Unihan_Variants.txt (from Unihan.zip)\n";
push @versionInfo, "";
while (<FH>) {
chomp;
push @versionInfo, $_;
last if /Date:/;
}
my $savedusv = 0;
my $hasTC = 0;
my $hasSC = 0;
while (<FH>) {
chomp;
if (m/U\+([0-9A-F]{4,6})\s+k([^ ]+)Variant/) {
my $usv = hex "0x$1";
if ($usv != $savedusv) {
unless ($savedusv == 0) {
if ($hasTC && !$hasSC) {
$hanVariant[$savedusv] = 1;
} elsif (!$hasTC && $hasSC) {
$hanVariant[$savedusv] = 2;
}
}
$savedusv = $usv;
$hasTC = 0;
$hasSC = 0;
}
if ($2 eq "Traditional") {
$hasTC = 1;
}
if ($2 eq "Simplified") {
$hasSC = 1;
}
}
}
close FH;
my $timestamp = gmtime();
open DATA_TABLES, "> nsUnicodePropertyData.cpp" or die "unable to open nsUnicodePropertyData.cpp for output";
my $licenseBlock = q[
/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/* 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/. */
/*
* Derived from the Unicode Character Database by genUnicodePropertyData.pl
*
* For Unicode terms of use, see http://www.unicode.org/terms_of_use.html
*/
];
my $versionInfo = join("\n", @versionInfo);
print DATA_TABLES <<__END;
$licenseBlock
/*
* Created on $timestamp from UCD data files with version info:
*
$versionInfo
*
* * * * * This file contains MACHINE-GENERATED DATA, do not edit! * * * * *
*/
#include "mozilla/StandardInteger.h"
#include "harfbuzz/hb.h"
__END
open HEADER, "> nsUnicodeScriptCodes.h" or die "unable to open nsUnicodeScriptCodes.h for output";
print HEADER <<__END;
$licenseBlock
/*
* Created on $timestamp from UCD data files with version info:
*
$versionInfo
*
* * * * * This file contains MACHINE-GENERATED DATA, do not edit! * * * * *
*/
#ifndef NS_UNICODE_SCRIPT_CODES
#define NS_UNICODE_SCRIPT_CODES
__END
print DATA_TABLES "static const uint32_t sScriptCodeToTag[] = {\n";
for (my $i = 0; $i < scalar @scriptCodeToTag; ++$i) {
printf DATA_TABLES " HB_TAG(%s)", $scriptCodeToTag[$i];
print DATA_TABLES $i < $#scriptCodeToTag ? ",\n" : "\n";
}
print DATA_TABLES "};\n\n";
our $totalData = 0;
print DATA_TABLES "static const int16_t sMirrorOffsets[] = {\n";
for (my $i = 0; $i < scalar @offsets; ++$i) {
printf DATA_TABLES " $offsets[$i]";
print DATA_TABLES $i < $#offsets ? ",\n" : "\n";
}
print DATA_TABLES "};\n\n";
print HEADER "#pragma pack(1)\n\n";
sub sprintCharProps1
{
my $usv = shift;
return sprintf("{%d,%d,%d}, ", $mirror[$usv], $hangul[$usv], $combining[$usv]);
}
&genTables("CharProp1", "struct nsCharProps1 {\n unsigned char mMirrorOffsetIndex:5;\n unsigned char mHangulType:3;\n unsigned char mCombiningClass:8;\n};",
"nsCharProps1", 11, 5, \&sprintCharProps1, 1, 2, 1);
sub sprintCharProps2
{
my $usv = shift;
return sprintf("{%d,%d,%d,%d,%d,%d},",
$script[$usv], $eaw[$usv], $category[$usv],
$bidicategory[$usv], $xidmod[$usv], $numericvalue[$usv]);
}
&genTables("CharProp2", "struct nsCharProps2 {\n unsigned char mScriptCode:8;\n unsigned char mEAW:3;\n unsigned char mCategory:5;\n unsigned char mBidiCategory:5;\n unsigned char mXidmod:4;\n signed char mNumericValue:5;\n unsigned char mHanVariant:2;\n};",
"nsCharProps2", 11, 5, \&sprintCharProps2, 16, 4, 1);
print HEADER "#pragma pack()\n\n";
sub sprintHanVariants
{
my $baseUsv = shift;
my $varShift = 0;
my $val = 0;
while ($varShift < 8) {
$val |= $hanVariant[$baseUsv++] << $varShift;
$varShift += 2;
}
return sprintf("0x%02x,", $val);
}
&genTables("HanVariant", "", "uint8_t", 9, 7, \&sprintHanVariants, 2, 1, 4);
sub sprintFullWidth
{
my $usv = shift;
return sprintf("0x%04x,", $fullWidth[$usv]);
}
&genTables("FullWidth", "", "uint16_t", 10, 6, \&sprintFullWidth, 0, 2, 1);
sub sprintCasemap
{
my $usv = shift;
return sprintf("0x%08x,", $casemap[$usv]);
}
&genTables("CaseMap", "", "uint32_t", 11, 5, \&sprintCasemap, 1, 4, 1);
print STDERR "Total data = $totalData\n";
printf DATA_TABLES "const uint32_t kTitleToUpper = 0x%08x;\n", $kTitleToUpper;
printf DATA_TABLES "const uint32_t kUpperToLower = 0x%08x;\n", $kUpperToLower;
printf DATA_TABLES "const uint32_t kLowerToTitle = 0x%08x;\n", $kLowerToTitle;
printf DATA_TABLES "const uint32_t kLowerToUpper = 0x%08x;\n", $kLowerToUpper;
printf DATA_TABLES "const uint32_t kCaseMapCharMask = 0x%08x;\n\n", $kCaseMapCharMask;
sub genTables
{
my ($prefix, $typedef, $type, $indexBits, $charBits, $func, $maxPlane, $bytesPerEntry, $charsPerEntry) = @_;
print DATA_TABLES "#define k${prefix}MaxPlane $maxPlane\n";
print DATA_TABLES "#define k${prefix}IndexBits $indexBits\n";
print DATA_TABLES "#define k${prefix}CharBits $charBits\n";
my $indexLen = 1 << $indexBits;
my $charsPerPage = 1 << $charBits;
my %charIndex = ();
my %pageMapIndex = ();
my @pageMap = ();
my @char = ();
my $planeMap = "\x00" x $maxPlane;
foreach my $plane (0 .. $maxPlane) {
my $pageMap = "\x00" x $indexLen * 2;
foreach my $page (0 .. $indexLen - 1) {
my $charValues = "";
for (my $ch = 0; $ch < $charsPerPage; $ch += $charsPerEntry) {
my $usv = $plane * 0x10000 + $page * $charsPerPage + $ch;
$charValues .= &$func($usv);
}
chop $charValues;
unless (exists $charIndex{$charValues}) {
$charIndex{$charValues} = scalar keys %charIndex;
$char[$charIndex{$charValues}] = $charValues;
}
substr($pageMap, $page * 2, 2) = pack('S', $charIndex{$charValues});
}
unless (exists $pageMapIndex{$pageMap}) {
$pageMapIndex{$pageMap} = scalar keys %pageMapIndex;
$pageMap[$pageMapIndex{$pageMap}] = $pageMap;
}
if ($plane > 0) {
substr($planeMap, $plane - 1, 1) = pack('C', $pageMapIndex{$pageMap});
}
}
if ($maxPlane) {
print DATA_TABLES "static const uint8_t s${prefix}Planes[$maxPlane] = {";
print DATA_TABLES join(',', map { sprintf("%d", $_) } unpack('C*', $planeMap));
print DATA_TABLES "};\n\n";
}
my $chCount = scalar @char;
my $pmBits = $chCount > 255 ? 16 : 8;
my $pmCount = scalar @pageMap;
if ($maxPlane == 0) {
die "there should only be one pageMap entry!" if $pmCount > 1;
print DATA_TABLES "static const uint${pmBits}_t s${prefix}Pages[$indexLen] = {\n";
} else {
print DATA_TABLES "static const uint${pmBits}_t s${prefix}Pages[$pmCount][$indexLen] = {\n";
}
for (my $i = 0; $i < scalar @pageMap; ++$i) {
print DATA_TABLES $maxPlane > 0 ? " {" : " ";
print DATA_TABLES join(',', map { sprintf("%d", $_) } unpack('S*', $pageMap[$i]));
print DATA_TABLES $maxPlane > 0 ? ($i < $#pageMap ? "},\n" : "}\n") : "\n";
}
print DATA_TABLES "};\n\n";
print HEADER "$typedef\n\n" if $typedef ne '';
my $pageLen = $charsPerPage / $charsPerEntry;
print DATA_TABLES "static const $type s${prefix}Values[$chCount][$pageLen] = {\n";
for (my $i = 0; $i < scalar @char; ++$i) {
print DATA_TABLES " {";
print DATA_TABLES $char[$i];
print DATA_TABLES $i < $#char ? "},\n" : "}\n";
}
print DATA_TABLES "};\n\n";
my $dataSize = $pmCount * $indexLen * $pmBits/8 +
$chCount * $pageLen * $bytesPerEntry +
$maxPlane;
$totalData += $dataSize;
print STDERR "Data for $prefix = $dataSize\n";
}
print DATA_TABLES <<__END;
/*
* * * * * This file contains MACHINE-GENERATED DATA, do not edit! * * * * *
*/
__END
close DATA_TABLES;
print HEADER "enum {\n";
for (my $i = 0; $i < scalar @scriptCodeToName; ++$i) {
print HEADER " MOZ_SCRIPT_", $scriptCodeToName[$i], " = ", $i, ",\n";
}
print HEADER "\n MOZ_NUM_SCRIPT_CODES = ", scalar @scriptCodeToName, ",\n";
print HEADER "\n MOZ_SCRIPT_INVALID = -1\n";
print HEADER "};\n\n";
print HEADER <<__END;
#endif
/*
* * * * * This file contains MACHINE-GENERATED DATA, do not edit! * * * * *
*/
__END
close HEADER;