gecko/intl/unicharutil/tools/ccmapbin.pl

607 lines
20 KiB
Perl
Executable File

#!/usr/bin/perl -w
# ***** BEGIN LICENSE BLOCK *****
# Version: MPL 1.1/GPL 2.0/LGPL 2.1
#
# The contents of this file are subject to the Mozilla Public License Version
# 1.1 (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.mozilla.org/MPL/
#
# Software distributed under the License is distributed on an "AS IS" basis,
# WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
# for the specific language governing rights and limitations under the
# License.
#
# The Original Code is Mozilla Communicator.
#
# The Initial Developer of the Original Code is
# Jungshik Shin <jshin@mailaps.org>.
# Portions created by the Initial Developer are Copyright (C) 2002, 2003
# the Initial Developer. All Rights Reserved.
#
# Contributor(s):
#
# Alternatively, the contents of this file may be used under the terms of
# either the GNU General Public License Version 2 or later (the "GPL"), or
# the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
# in which case the provisions of the GPL or the LGPL are applicable instead
# of those above. If you wish to allow use of your version of this file only
# under the terms of either the GPL or the LGPL, and not to allow others to
# use your version of this file under the terms of the MPL, indicate your
# decision by deleting the provisions above and replace them with the notice
# and other provisions required by the GPL or the LGPL. If you do not delete
# the provisions above, a recipient may use your version of this file under
# the terms of any one of the MPL, the GPL or the LGPL.
#
# ***** END LICENSE BLOCK *****
# This script is used to generate precompiled CCMap files.
# See bug 180266 for details.
#
# Revised to support extended CCMaps for non-BMP characters : 2003-09-19 (bug 205387)
# Revised to support the automatic generation of a macro defining the size
# of a CCMap in terms of PRUint16 : 2003-12-11 (bug 224337)
use strict;
use vars qw($fill_fmt $fu_sz);
use vars qw($e_mid_offset $e_pg_offset);
(@ARGV < 1 ) and usage();
my $ifn = $ARGV[0];
my ($ifh, $variable, $class);
open $ifh , "< $ifn" or die "Cannot open $ifn";
if (@ARGV >= 2) {
$variable = $ARGV[1];
printf STDERR
"$0:\n\t VARIABLE $variable is specified in the command line.\n" .
"\t The variable name spec. in the input file will be ignored.\n";
}
if (@ARGV >= 3) {
$class = $ARGV[2];
printf STDERR
"$0:\n\t CLASS $class is specified in the command line.\n" .
"\t The class spec. in the input file will be ignored.\n";
}
use constant N_PLANES => 17; # BMP + 16 non-BMP planes
use constant PLANE_SZ => 0x10000;
use constant MID_SZ => PLANE_SZ / 16;
use constant PG_SZ => MID_SZ / 16;
# Unlike FillInfo() method in Mozilla, let's use 16bit integer
# to pack the character coverage/representability. This way,
# we can just copy fillinfo to fill up page maps later.
use constant {
FILL_SZ => PLANE_SZ / 16,
MID_FILL_SZ => MID_SZ / 16,
PG_FILL_SZ => PG_SZ / 16
};
# network byte order short. actually, byte order doesn't matter.
$fill_fmt = "n1";
$fu_sz = length(pack $fill_fmt, 0); # fillinfo unit size in byte (size of short)
$e_mid_offset = 16;
$e_pg_offset = 32;
my @ccmap = ();
my %pg_flags = ();
my @fillinfo = ();
my %comments = ();
my $planes = &read_input(\@fillinfo,$ifh,\%comments);
if (!defined($variable) && !defined($comments{'VARIABLE'}))
{
printf STDERR "Variable name is not specified in the cmd line. " .
"Neither is it found in the input file.\n\n" ;
usage();
}
$variable = $comments{'VARIABLE'} if (! defined($variable));
if (!defined($class) && !defined($comments{'CLASS'}))
{
printf STDERR "Class name is not specified in the cmd line. " .
"Neither is it found in the input file.\n\n" ;
usage();
}
$class = $comments{'CLASS'} if (! defined($class));
my $have_non_bmp = 0;
# add the non_bmp flag and the bmp ccmap size (default to 0)
# at the very beginning if there are non-bmp characters.
if ($planes & 0x1fe) {
push @ccmap, (1, 0);
$have_non_bmp = 1;
}
my $plane_idx_offset;
foreach my $plane (0 .. ($have_non_bmp ? 16 : 0))
{
my @plane_ccmap = add_plane(\@ccmap, \@fillinfo, $plane);
my $size = @plane_ccmap;
push @ccmap, @plane_ccmap;
if ($plane == 0 && $have_non_bmp) {
$ccmap[1] = $size;
# add 2 for non-BMP flag and BMP plane size
# that have negative indices in C++.
$plane_idx_offset = $size + 2;
# 'Flag' the offset as holding the plane indices (any negative
# number would do)
$pg_flags{$plane_idx_offset} = -1;
$pg_flags{$plane_idx_offset + 16} = -1;
# plane indices are 16 PRUint32's(not 16 PRUint16's).
# In Perl, we assign each PRUint32 two slots in @ccmap (in BE order)
my $e_plane_offset = $size + 16 * 2;
# set plane indices to the empty plane by default
foreach my $i (1 .. 16) {
# split PRUint32 into two PRUint16's in BE
push @ccmap, $e_plane_offset >> 16;
push @ccmap, $e_plane_offset & 0xffff;
}
# add 'the' empty plane;
push @ccmap, (0) x 16;
}
if ($plane > 0) {
if ($size > 0) {
# split PRUint32 into two PRUint16's in BE.
# subtract 2 for non-BMP flag and BMP plane size
# that have negative indices in C++.
$ccmap[$plane_idx_offset + ($plane - 1) * 2] = (@ccmap - $size - 2) >> 16;
$ccmap[$plane_idx_offset + ($plane - 1) * 2 + 1] = (@ccmap - $size -2) & 0xffff;
}
}
}
&print_ccmap(\@ccmap, \%pg_flags, $variable, $class, \%comments, $have_non_bmp);
exit 0;
# END of Main
sub usage
{
print STDERR <<USAGE;
Usage: $0 input_file [variable [class]]
The output file "class.ccmap" will be generated with
all three cases LE(16/32/64bit)/BE(16bit), BE(32bit), and BE(64bit)
put together. 'variable' will be used to name two macros, one for
dimensioning the size of a PRUin16[] and the other for the array
initializer.
When 'variable' is omitted, it has to be specified in the input file with
the following syntax.
VARIABLE:: variable
When 'class' is omitted, it has to be specified in the input file with
the following syntax.
CLASS:: class_name
USAGE
exit 1;
}
sub read_input
{
my($fillinfo_p, $input, $comments_p) = @_;
@$fillinfo_p = (0) x (FILL_SZ * N_PLANES);
# init bitfield for plane flags (17bits : BMP + 16 non-BMP planes)
my $planes = 0;
my($lc)=0;
while (<$input>)
{
$lc++;
chomp;
/^\s*VARIABLE::\s*([a-zA-Z][a-zA-Z0-9_]*)$/ and
$comments_p->{'VARIABLE'} = $1,
next;
/^\s*CLASS::/ and
($comments_p->{'CLASS'} = $_) =~ s/^\s*CLASS::\s*([a-zA-Z0-9_]+).*$/$1/,
next;
/^\s*DESCRIPTION::/ and
($comments_p->{'DESC'} = $_) =~ s/^\s*DESCRIPTION::\s*//, next;
/^\s*FILE::/ and
($comments_p->{'FILE'} = $_) =~ s/^\s*FILE::\s*//, next;
next unless /^\s*0[Xx][0-9A-Fa-f]{4}/;
/^\s*(.*)\s*$/;
my ($u, $comment) = split /\s+/, $1, 2;
$u =~ s/,//g;
$u =~ tr/A-Z/a-z/;
next if /^0x.*[^0-9a-f]+.*/;
my $usv = oct $u;
if ( 0xd800 <= $usv && $usv <= 0xdfff || # surrogate code points
$usv > 0x10ffff ) {
printf STDERR "Invalid input $u at %4d\n", $lc;
next;
}
$fillinfo_p->[($usv >> 4)] |= (1 << ($usv & 0x0f));
# printf STDERR "input %s(%04x) \@line %d : put %04x @ %04x\n",
# $u,$usv, $lc, (1 << ($usv & 0x0f)), ($usv >> 4) & 0xfff;
# turn on plane flags
$planes |= (1 << ($usv >> 16));
my $key = sprintf("0X%06X", $usv);
$comments_p->{$key} = "";
# Remove '/*' and '*/' (C style comment) or '//' (C++ style comment)
# or ':' and store only the textual content of the comment.
if (defined($comment)) {
($comments_p->{$key} = $comment)
=~ s !
(?:/\*|//|:)? # '/*', '//' or ':' or NULL. Do not store.
\s* # zero or more of white space(s)
([^*]+) # one or more of non-white space(s).Store it
# in $1 for the reference in replace part.
\s* # zero or more of white space(s)
(?:\*/)? # '*/' or NONE. Do not store
!$1!sx # replace the whole match with $1 stored above.
}
}
return $planes;
}
sub add_full_mid
{
my($ccmap_p, $f_pg_offset) = @_;
# add a full page if not yet added.
if (! $f_pg_offset) {
$f_pg_offset = @$ccmap_p;
push @$ccmap_p, (0xffff) x 16;
}
# add the full mid-pointer array with all the pointers pointing to the full page.
my $f_mid_offset = @$ccmap_p;
push @$ccmap_p, ($f_pg_offset) x 16;
return ($f_mid_offset, $f_pg_offset);
}
sub add_new_mid
{
my($ccmap_p, $mid) = @_;
my $mid_offset = @$ccmap_p;
$ccmap_p->[$mid] = $mid_offset;
#by default, all mid-pointers point to the empty page.
push @$ccmap_p, ($e_pg_offset) x 16;
return $mid_offset;
}
sub add_plane
{
my ($full_ccmap_p, $fillinfo_p, $plane) = @_;
# my @ccmap = @$ccmap_p;
my @ccmap = (); # plane ccmap
my(@fillinfo) = splice @$fillinfo_p, 0, FILL_SZ;
# convert 4096(FILL_SZ) 16bit integers to a string of 4096 * $fu_sz
# characters.
my($plane_str) = pack $fill_fmt x FILL_SZ, @fillinfo;
# empty plane
if ($plane_str eq "\0" x ($fu_sz * FILL_SZ)) {
# for non-BMP plane, the default empty plane ccmap would work.
# for BMP, we need 'self-referring' folded CCMap (the smallest CCMap)
push @ccmap, (0) x 16 if (!$plane);
return @ccmap;
}
#get all upper pointers to point at empty mid pointers
push @ccmap, ($e_mid_offset) x 16;
#get all mid-pointers to point at empty page.
push @ccmap, ($e_pg_offset) x 16;
push @ccmap, (0) x 16; # empty pg
my $f_mid_offset = 0;
my $f_pg_offset;
foreach my $mid (0 .. 15)
{
my(@mid_fill) = splice @fillinfo, 0, MID_FILL_SZ;
# convert 256(MID_FILL_SZ) 16bit integers to a string of 256 * $fu_sz
# characters.
my($mid_str) = pack $fill_fmt x MID_FILL_SZ, @mid_fill;
# for an empty mid, upper-pointer is already pointing to the empty mid.
next if ($mid_str eq "\0" x ($fu_sz * MID_FILL_SZ));
# for a full mid, add full mid if necessary.
if ($mid_str eq "\xff" x ($fu_sz * MID_FILL_SZ)) {
($f_mid_offset, $f_pg_offset) =
add_full_mid(\@ccmap, $f_pg_offset) unless ($f_mid_offset);
$ccmap[$mid] = $f_mid_offset;
next;
}
my $mid_offset = add_new_mid(\@ccmap,$mid);
foreach my $pg (0 .. 15) {
my(@pg_fill) = splice @mid_fill, 0, PG_FILL_SZ;
my($pg_str) = pack $fill_fmt x PG_FILL_SZ, @pg_fill;
# for an empty pg, mid-pointer is already pointing to the empty page.
next if ($pg_str eq "\x0" x ($fu_sz * PG_FILL_SZ));
# for a full pg, add the full pg if necessary.
# and set the mid-pointer to the full pg offset.
if ($pg_str eq "\xff" x ($fu_sz * PG_FILL_SZ)) {
if (! $f_pg_offset) {
$f_pg_offset = @ccmap;
#for the full pg, endianess and ALU size are immaterial.
push @ccmap, (0xffff) x 16;
}
$ccmap[$mid_offset + $pg] = $f_pg_offset;
next;
}
$ccmap[$mid_offset + $pg] = @ccmap;
# 'Flag' the offset as the beginning of a page with actual data as
# opposed to pointer sections.
$pg_flags{(scalar @$full_ccmap_p) + (scalar @ccmap)} = @ccmap;
push @ccmap, @pg_fill;
}
}
return @ccmap;
}
sub print_ccmap
{
my($ccmap_p,$pg_flags_p, $variable, $class, $comments_p, $is_ext) = @_;
my $ofn = $class . ($is_ext ? ".x-ccmap" : ".ccmap");
open OUT, "> $ofn" or
die "cannot open $ofn for output\n";
print OUT print_preamble($variable, $class);
print OUT "\n/*\n";
# defined ($comments_p->{'CLASS'}) and
# print OUT " CLASS:: $comments_p->{'CLASS'}\n";
print OUT " VARIABLE:: $variable\n";
print OUT " CLASS:: $class\n";
defined ($comments_p->{'DESC'}) and
print OUT " DESCRIPTION:: $comments_p->{'DESC'}\n";
defined ($comments_p->{'FILE'}) and
print OUT " FILE:: $comments_p->{'FILE'}\n";
print OUT "\n";
for my $key (sort keys %$comments_p) {
next if ($key !~ /^0X/);
printf OUT " %s : %s\n", $key, $comments_p->{$key};
}
printf OUT "*/\n\n";
my(@idxlist, @int16toint32);
# When CCMap is accessed, (PRUint16 *) is cast to
# the pointer type of the ALU of a machine.
# For little endian machines, the size of the ALU
# doesn't matter (16, 32, 64). For Big endian
# machines with 32/64 bit ALU, two/four 16bit words
# have to be rearranged to be interpreted correctly
# as 32bit or 64bit integers with the 16bit word
# at the lowest address taking the highest place value.
# This shuffling is NOT necessary for the upper pointer section
# and mid-pointer sections.
# If non-BMP characters are present, 16 plane indices
# (32bit integers stored in two 16bit shorts in
# BE order) have to be treated differently based on the
# the endianness as well.
# For BMP-only CCMap, 16BE CCMap is identical to LE CCMaps.
# With non-BMP characters present, to avoid the misalignment on 64bit
# machines, we add two 16-bit units of 0-padding before the ccmap flag
# (indicating whether the map is extended or not) and the BMP map size
# (bug 225340, bug 445626).
my @fmts = $is_ext ? ("64LE", "LE", "16BE", "32BE", "64BE") : ("LE", "32BE", "64BE") ;
foreach my $fmt (@fmts)
{
my($offset) = 0;
for ($fmt) {
/64LE/ and do {
@idxlist = (0, 1, 2, 3);
@int16toint32 = (1, 0, 3, 2);
print OUT "#if (defined(IS_LITTLE_ENDIAN) && ALU_SIZE == 64)\n" .
"// Precompiled CCMap for Little Endian(64bit)\n";
printf OUT "#define ${variable}_SIZE %d\n", scalar @$ccmap_p + 2;
printf OUT "#define ${variable}_INITIALIZER \\\n";
printf OUT "/* EXTFLG */ 0x0000,0x0000,0x%04X,0x%04X, \\\n",
$ccmap_p->[0], $ccmap_p->[1];
last;
};
/LE/ and do {
@idxlist = (0, 1, 2, 3);
@int16toint32 = (1, 0, 3, 2);
print OUT $is_ext ?
"#elif defined(IS_LITTLE_ENDIAN)\n" .
"// Precompiled CCMap for Little Endian(16/32bit) \n" :
"#if (defined(IS_LITTLE_ENDIAN) || ALU_SIZE == 16)\n" .
"// Precompiled CCMap for Little Endian(16/32/64bit)\n" .
"// and Big Endian(16bit)\n";
printf OUT "#define ${variable}_SIZE %d\n", scalar @$ccmap_p;
printf OUT "#define ${variable}_INITIALIZER \\\n";
if ($is_ext) {
printf OUT "/* EXTFLG */ 0x%04X,0x%04X, \\\n",
$ccmap_p->[0], $ccmap_p->[1];
}
last;
};
/16BE/ and do {
@idxlist = (0, 1, 2, 3);
@int16toint32 = (0, 1, 2, 3);
print OUT "#elif (ALU_SIZE == 16)\n" .
"// Precompiled CCMap for Big Endian(16bit)\n";
printf OUT "#define ${variable}_SIZE %d\n", scalar @$ccmap_p;
printf OUT "#define ${variable}_INITIALIZER \\\n";
printf OUT "/* EXTFLG */ 0x%04X,0x%04X, \\\n",
$ccmap_p->[0], $ccmap_p->[1];
last;
};
/32BE/ and do {
@idxlist = (1, 0, 3, 2);
@int16toint32 = (0, 1, 2, 3);
print OUT "#elif (ALU_SIZE == 32)\n" .
"// Precompiled CCMap for Big Endian(32bit)\n";
printf OUT "#define ${variable}_SIZE %d\n", scalar @$ccmap_p;
printf OUT "#define ${variable}_INITIALIZER \\\n";
if ($is_ext) {
printf OUT "/* EXTFLG */ 0x%04X,0x%04X, \\\n",
$ccmap_p->[0], $ccmap_p->[1];
}
last;
};
/64BE/ and do {
@idxlist = (3, 2, 1, 0);
@int16toint32 = (0, 1, 2, 3);
print OUT "#elif (ALU_SIZE == 64)\n" .
"// Precompiled CCMap for Big Endian(64bit)\n";
printf OUT "#define ${variable}_SIZE %d\n", scalar @$ccmap_p +
($is_ext ? 2 : 0);
printf OUT "#define ${variable}_INITIALIZER \\\n";
if ($is_ext) {
printf OUT "/* EXTFLG */ 0x0000,0x0000,0x%04X,0x%04X, \\\n",
$ccmap_p->[0], $ccmap_p->[1];
}
last;
};
}
$offset = $is_ext ? 2 : 0;
while ($offset < @$ccmap_p) {
printf OUT "/* %06x */ ", $offset - ($is_ext ? 2 : 0);
for my $i (0 .. 3) {
for my $j (defined($pg_flags_p->{$offset}) ?
($pg_flags_p->{$offset} > 0 ?
@idxlist : @int16toint32) : (0,1,2,3)) {
printf OUT "0x%04X,", $ccmap_p->[$offset + $i * 4 + $j];
}
print OUT " \\\n " if $i==1;
}
if ($offset + 16 < @$ccmap_p) {print OUT " \\\n"; }
$offset += 16;
}
print OUT "\n";
}
print OUT <<END;
#else
#error "We don't support this architecture."
#endif
END
close OUT;
}
sub print_preamble
{
my($variable, $class) = @_;
sprintf <<PREAMBLE;
/* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is mozilla.org code.
*
* The Initial Developer of the Original Code is
* Jungshik Shin <jshin\@mailaps.org>
* Portions created by the Initial Developer are Copyright (C) 2003
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later (the "GPL"), or
* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
/*========================================================
This file contains a precompiled CCMap for a class of Unicode
characters ($class) to be identified quickly by Mozilla.
It was generated by ccmapbin.pl which you can find under
mozilla/intl/unicharutil/tools.
Enumerated below are characters included in the precompiled CCMap
which is human-readable but not so human-friendly. If you
needs to modify the list of characters belonging to "$class",
you have to make a new file (with the name of your choice)
listing characters (one character per line) you want to put
into "$class" in the format
0xuuuu // comment
In addition, the input file can have the following optional lines that
read
VARIABLE::$variable
CLASS::$class
DESCRIPTION:: description of a character class
FILE:: mozilla source file to include the output file
Then, run the following in the current directory.
perl ccmapbin.pl input_file [$variable [$class]]
which will generate $class.ccmap (or $class.x-ccmap if the ccmap
includes non-BMP characters.). $variable is used as the prefix
in macros for the array initializer and the array size.
(see bug 180266, bug 167136, and bug 224337)
*/
PREAMBLE
}