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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libjava/] [scripts/] [unicode-decomp.pl] - Blame information for rev 777

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1 762 jeremybenn
#!/usr/bin/perl -w
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# unicode-decomp.pl - script to generate database for java.text.Collator
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# Copyright (C) 1998, 1999, 2002 Free Software Foundation, Inc.
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#
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# This file is part of libjava.
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# 
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# This software is copyrighted work licensed under the terms of the
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# Libjava License.  Please consult the file "LIBJAVA_LICENSE" for
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# details.
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# Code for reading UnicodeData.txt and generating the code for
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# gnu.java.lang.CharData.  For now, the relevant Unicode definition files
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# are found in libjava/gnu/gcj/convert/.
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#
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# Usage: ./unicode-decomp.pl [-n] <UnicodeData.txt> <decomp.h>
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#   where <UnicodeData.txt> is obtained from www.unicode.org (named
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#   UnicodeData-3.0.0.txt for Unicode version 3.0.0), and <CharData.java>
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#   is the final location of include/java-chardecomp.h.
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#   As of JDK 1.4, use Unicode version 3.0.0 for best results.
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#
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# If this exits with nonzero status, then you must investigate the
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# cause of the problem.
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# Diagnostics and other information to stderr.
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# With -n, the files are not created, but all processing still occurs.
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# These maps characters to their decompositions.
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my %canonical_decomposition = ();
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my %full_decomposition = ();
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# Handle `-n' and open output files.
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if ($ARGV[0] && $ARGV[0] eq '-n')
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{
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    shift @ARGV;
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    $ARGV[1] = '/dev/null';
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}
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die "Usage: $0 <UnicodeData.txt> <java-chardecomp.h>" unless @ARGV == 2;
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open (UNICODE, "< $ARGV[0]") || die "Can't open Unicode attribute file: $!\n";
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# Process the Unicode file.
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$| = 1;
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my $count = 0;
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print STDERR "Parsing attributes file";
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while (<UNICODE>)
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{
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    print STDERR "." unless $count++ % 1000;
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    chomp;
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    s/\r//g;
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    my ($ch, undef, undef, undef, undef, $decomp) = split ';';
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    $ch = hex($ch);
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    if ($decomp ne '')
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    {
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        my $is_full = 0;
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        my @decomp = ();
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        foreach (split (' ', $decomp))
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        {
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            if (/^\<.*\>$/)
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            {
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                $is_full = 1;
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                next;
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            }
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            push (@decomp, hex ($_));
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        }
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        my $s = pack "n*", @decomp;
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        if ($is_full)
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        {
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            $full_decomposition{$ch} = $s;
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        }
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        else
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        {
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            $canonical_decomposition{$ch} = $s;
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        }
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    }
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}
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# Now generate decomposition tables.
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open DECOMP, "> $ARGV[1]" or die "Can't open output file: $!\n";
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print STDERR "\nGenerating tables\n";
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print DECOMP <<EOF;
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// java-chardecomp.h - Decomposition character tables -*- c++ -*-
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#ifndef __JAVA_CHARDECOMP_H__
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#define __JAVA_CHARDECOMP_H__
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// These tables are automatically generated by the $0
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// script.  DO NOT EDIT the tables.  Instead, fix the script
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// and run it again.
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// This file should only be included by natCollator.cc
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struct decomp_entry
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{
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  jchar key;
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  const char *value;
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};
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EOF
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&write_decompositions;
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print DECOMP "#endif /* __JAVA_CHARDECOMP_H__ */\n";
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close(DECOMP);
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print STDERR "Done\n";
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exit;
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# Write a single decomposition table.
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sub write_single_decomposition($$%)
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{
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    my ($name, $is_canon, %table) = @_;
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    my $first_line = 1;
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    print DECOMP "static const decomp_entry ${name}_decomposition[] =\n{\n";
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    for my $key (0 .. 0xffff)
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    {
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        next if ! defined $table{$key};
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        print DECOMP ",\n" unless $first_line;
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        $first_line = 0;
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        printf DECOMP "  { 0x%04x, \"", $key;
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        # We represent the expansion as a series of bytes, terminated
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        # with a double nul.  This is ugly, but relatively
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        # space-efficient.  Most expansions are short, but there are a
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        # few that are very long (e.g. \uFDFA).  This means that if we
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        # chose a fixed-space representation we would waste a lot of
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        # space.
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        my @expansion = unpack "n*", $table{$key};
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        foreach my $char (@expansion)
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        {
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            printf DECOMP "\\x%02x\\x%02x", ($char / 256), ($char % 256);
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        }
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        print DECOMP "\" }";
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    }
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    print DECOMP "\n};\n\n";
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}
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sub write_decompositions()
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{
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    &write_single_decomposition ('canonical', 1, %canonical_decomposition);
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    &write_single_decomposition ('full', 0, %full_decomposition);
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}

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