90ccc336b4
git-svn-id: svn://svn.rockbox.org/rockbox/trunk@13971 a1c6a512-1295-4272-9138-f99709370657
650 lines
18 KiB
Perl
Executable file
650 lines
18 KiB
Perl
Executable file
#!/usr/bin/perl -s
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# __________ __ ___.
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# Open \______ \ ____ ____ | | _\_ |__ _______ ___
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# Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
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# Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
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# Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
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# \/ \/ \/ \/ \/
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# $Id$
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#
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# Copyright (C) 2006 - 2007 by Daniel Stenberg
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#
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# binary version for the binary lang file
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my $langversion = 3; # 3 was the latest one used in the v1 format
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# A note for future users and readers: The original v1 language system allowed
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# the build to create and use a different language than english built-in. We
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# removed that feature from our build-system, but the build scripts still had
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# the ability. But, starting now, this ability is no longer provided since I
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# figured it was boring and unnecessary to write support for now since we
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# don't use it anymore.
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if(!$ARGV[0]) {
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print <<MOO
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Usage: genlang [options] <langv2 file>
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-p=<prefix>
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Make the tool create a [prefix].c and [prefix].h file.
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-b=<outfile>
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Make the tool create a binary language (.lng) file namaed [outfile].
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The use of this option requires that you also use -e.
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-u
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Update language file. Given the translated file and the most recent english
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file, you\'ll get an updated version sent to stdout. Suitable action to do
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when you intend to update a translation.
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-e=<english lang file>
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Point out the english (original source) file, to use that as master
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language template. Used in combination with -b or -u.
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-t=<target>
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Specify which target you want the translations/phrases for. Required when
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-b or -p is used.
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The target can in fact be specified as numerous different strings,
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separated with colons. This will make genlang to use all the specified
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strings when searching for a matching phrase.
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-o
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Voice mode output. Outputs all id: and voice: lines for the given target!
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-v
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Enables verbose (debug) output.
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MOO
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;
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exit;
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}
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# How update works:
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#
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# 1) scan the english file, keep the whole <phrase> for each phrase.
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# 2) read the translated file, for each end of phrase, compare:
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# A) all source strings, if there's any change there should be a comment about
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# it output
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# B) the desc fields
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#
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# 3) output the phrase with the comments from above
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# 4) check which phrases that the translated version didn't have, and spit out
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# the english version of those
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#
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my $prefix = $p;
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my $binary = $b;
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my $update = $u;
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my $english = $e;
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my $voiceout = $o;
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my $check = ($binary?1:0) + ($prefix?1:0) + ($update?1:0) + ($voiceout?1:0);
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if($check > 1) {
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print "Please use only one of -p, -u, -o and -b\n";
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exit;
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}
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if(!$check) {
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print "Please use at least one of -p, -u, -o and -b\n";
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exit;
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}
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if(($binary || $update || $voiceout) && !$english) {
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print "Please use -e too when you use -b, -o or -u\n";
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exit;
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}
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my $target = $t;
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if(!$target && !$update) {
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print "Please specify a target (with -t)!\n";
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exit;
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}
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my $verbose=$v;
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my %id; # string to num hash
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my @idnum; # num to string array
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my %source; # id string to source phrase hash
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my %dest; # id string to dest phrase hash
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my %voice; # id string to voice phrase hash
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my $input = $ARGV[0];
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my @m;
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my $m="blank";
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sub match {
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my ($string, $pattern)=@_;
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$pattern =~ s/\*/.?*/g;
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$pattern =~ s/\?/./g;
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return ($string =~ /^$pattern\z/);
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}
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sub blank {
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# nothing to do
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}
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my %head;
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sub header {
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my ($full, $n, $v)=@_;
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$head{$n}=$v;
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}
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my %phrase;
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sub phrase {
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my ($full, $n, $v)=@_;
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$phrase{$n}=$v;
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}
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sub parsetarget {
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my ($debug, $strref, $full, $n, $v)=@_;
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my $string;
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my @all= split(" *, *", $n);
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my $test;
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for $test (@all) {
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# print "TEST ($debug) $target for $test\n";
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for my $part (split(":", $target)) {
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if(match($part, $test)) {
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$string = $v;
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# print "MATCH: $test => $v\n";
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$$strref = $string;
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return $string;
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}
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}
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}
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}
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my $src;
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sub source {
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parsetarget("src", \$src, @_);
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}
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my $dest;
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sub dest {
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parsetarget("dest", \$dest, @_);
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}
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my $voice;
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sub voice {
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parsetarget("voice", \$voice, @_);
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}
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my %idmap;
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my %english;
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if($english) {
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# For the cases where the english file needs to be scanned/read, we do
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# it before we read the translated file. For -b it isn't necessary, but for
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# -u it is convenient.
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my $idnum=0; # start with a true number
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my $vidnum=0x8000; # first voice id
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open(ENG, "<$english") || die "can't open $english";
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my @phrase;
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my $id;
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my $maybeid;
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my $withindest;
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while(<ENG>) {
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# get rid of DOS newlines
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$_ =~ s/\r//g;
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if($_ =~ /^ *\<phrase\>/) {
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# this is the start of a phrase
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}
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elsif($_ =~ /^ *\<\/phrase\>/) {
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# if id is something, when we count and store this phrase
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if($id) {
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# voice-only entries get a difference range
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if($id =~ /^VOICE_/) {
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# Assign an ID number to this entry
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$idmap{$id}=$vidnum;
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$vidnum++;
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}
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else {
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# Assign an ID number to this entry
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$idmap{$id}=$idnum;
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$idnum++;
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print STDERR "DEST: bumped idnum to $idnum\n";
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}
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# this is the end of a phrase, add it to the english hash
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$english{$id}=join("", @phrase);
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}
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undef @phrase;
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$id="";
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}
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elsif($_ ne "\n") {
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# gather everything related to this phrase
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push @phrase, $_;
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if($_ =~ /^ *\<dest\>/i) {
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$withindest=1;
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}
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elsif($withindest && ($_ =~ /^ *\<\/dest\>/i)) {
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$withindest=0;
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}
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elsif($withindest && ($_ =~ / *([^:]+): *(.*)/)) {
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my ($name, $val)=($1, $2);
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$dest=""; # in case it is left untouched for when the
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# model name isn't "our"
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dest($_, $name, $val);
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print STDERR "DEST: \"$dest\" for $name / $id\n";
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if($update || ($dest && ($dest !~ /^none\z/i))) {
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# we unconditionally always use all IDs when the "update"
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# feature is used
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$id = $maybeid;
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print STDERR "DEST: use this id $id\n";
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}
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}
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}
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if($_ =~ /^ *id: ([^ \t\n]+)/i) {
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$maybeid=$1;
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}
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}
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close(ENG);
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}
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# a function that compares the english phrase with the translated one.
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# compare source strings and desc
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# Then output the updated version!
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sub compare {
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my ($idstr, $engref, $locref)=@_;
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my ($edesc, $ldesc);
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my ($esource, $lsource);
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my $mode=0;
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for my $l (@$engref) {
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if($l =~ /^ *desc: (.*)/) {
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$edesc=$1;
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}
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elsif($l =~ / *\<source\>/i) {
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$mode=1;
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}
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elsif($mode) {
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if($l =~ / *\<\/source\>/i) {
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last;
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}
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$esource .= "$l\n";
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}
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}
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my @show;
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my @source;
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$mode = 0;
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for my $l (@$locref) {
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if($l =~ /^ *desc: (.*)/) {
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$ldesc=$1;
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if($edesc ne $ldesc) {
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$l = "### The 'desc' field differs from the english!\n### the previously used desc is commented below:\n### desc: $ldesc\n desc: $edesc\n";
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}
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push @show, $l;
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}
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elsif($l =~ / *\<source\>/i) {
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$mode=1;
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push @show, $l;
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}
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elsif($mode) {
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if($l =~ / *\<\/source\>/i) {
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$mode = 0;
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print @show;
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if($esource ne $lsource) {
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print "### The <source> section differs from the english!\n",
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"### the previously used one is commented below:\n";
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for(split("\n", $lsource)) {
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print "### $_\n";
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}
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print $esource;
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}
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else {
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print $lsource;
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}
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undef @show; # start over
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push @show, $l;
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}
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else {
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$lsource .= "$l";
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}
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}
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else {
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push @show, $l;
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}
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}
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print @show;
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}
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my $idcount; # counter for lang ID numbers
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my $voiceid=0x8000; # counter for voice-only ID numbers
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#
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# Now start the scanning of the selected language string
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#
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open(LANG, "<$input") || die "couldn't read language file named $input\n";
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my @phrase;
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while(<LANG>) {
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$line++;
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# get rid of DOS newlines
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$_ =~ s/\r//g;
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if($_ =~ /^( *\#|[ \t\n\r]*\z)/) {
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# comment or empty line
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next;
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}
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my $ll = $_;
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# print "M: $m\n";
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push @phrase, $ll;
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# this is an XML-lookalike tag
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if (/^(<|[^\"<]+<)([^>]*)>/) {
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my $part = $2;
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# print "P: $part\n";
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if($part =~ /^\//) {
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# this was a closing tag
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if($part eq "/phrase") {
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# closing the phrase
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my $idstr = $phrase{'id'};
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my $idnum;
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if($dest =~ /^none\z/i) {
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# "none" as dest (without quotes) means that this entire
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# phrase is to be ignored
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}
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elsif(!$update) {
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# we don't do the fully detailed analysis when we "update"
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# since we don't do it for a particular target etc
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# allow the keyword 'deprecated' to be used on dest and
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# voice strings to mark that as deprecated. It will then
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# be replaced with "".
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$dest =~ s/^deprecate(|d)\z/\"\"/i;
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$voice =~ s/^deprecate(|d)\z/\"\"/i;
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# basic syntax error alerts, if there are no quotes we
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# will assume an empty string was intended
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if($dest !~ /^\"/) {
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print STDERR "Warning: dest before $input line $line lacks quotes ($dest)!\n";
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$dest='""';
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}
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if($src !~ /^\"/) {
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print STDERR "Warning: source before $input line $line lacks quotes ($src)!\n";
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$src='""';
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}
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if($voice !~ /^\"/) {
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print STDERR "Warning: voice before $input line $line lacks quotes ($voice)!\n";
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$voice='""';
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}
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# Use the ID name to figure out which id number range we
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# should use for this phrase. Voice-only strings are
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# separated.
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if($idstr =~ /^VOICE/) {
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$idnum = $voiceid++;
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}
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else {
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$idnum = $idcount++;
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}
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$id{$idstr} = $idnum;
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$idnum[$idnum]=$idstr;
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$source{$idstr}=$src;
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$dest{$idstr}=$dest;
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$voice{$idstr}=$voice;
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if($verbose) {
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print "id: $phrase{id} ($idnum)\n";
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print "source: $src\n";
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print "dest: $dest\n";
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print "voice: $voice\n";
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}
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undef $src;
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undef $dest;
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undef $voice;
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undef %phrase;
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}
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if($update) {
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my $e = $english{$idstr};
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if($e) {
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# compare original english with this!
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my @eng = split("\n", $english{$idstr});
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compare($idstr, \@eng, \@phrase);
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$english{$idstr}=""; # clear it
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}
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else {
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print "### $idstr: The phrase is not used. Skipped\n";
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}
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}
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undef @phrase;
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} # end of </phrase>
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# starts with a slash, this _ends_ this section
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$m = pop @m; # get back old value, the previous level's tag
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next;
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} # end of tag close
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# This is an opening (sub) tag
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push @m, $m; # store old value
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$m = $part;
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next;
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}
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if(/^ *([^:]+): *(.*)/) {
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my ($name, $val)=($1, $2);
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&$m($_, $name, $val);
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}
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}
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close(LANG);
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if($update) {
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my $any=0;
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for(keys %english) {
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if($english{$_}) {
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print "###\n",
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"### This phrase below was not present in the translated file\n",
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"<phrase>\n";
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print $english{$_};
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print "</phrase>\n";
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}
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}
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}
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if($prefix) {
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# We create a .c and .h file
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open(HFILE, ">$prefix.h") ||
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die "couldn't create file $prefix.h\n";
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open(CFILE, ">$prefix.c") ||
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die "couldn't create file $prefix.c\n";
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print HFILE <<MOO
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/* This file was automatically generated using genlang */
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/*
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* The str() macro/functions is how to access strings that might be
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* translated. Use it like str(MACRO) and expect a string to be
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* returned!
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*/
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#define str(x) language_strings[x]
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/* this is the array for holding the string pointers.
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It will be initialized at runtime. */
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extern unsigned char *language_strings[];
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/* this contains the concatenation of all strings, separated by \\0 chars */
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extern const unsigned char language_builtin[];
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/* The enum below contains all available strings */
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enum \{
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MOO
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;
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print CFILE <<MOO
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/* This file was automaticly generated using genlang, the strings come
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from "$input" */
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#include "$prefix.h"
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unsigned char *language_strings[LANG_LAST_INDEX_IN_ARRAY];
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const unsigned char language_builtin[] =
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MOO
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;
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# Output the ID names for the enum in the header file
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my $i;
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for $i (1 .. $idcount) {
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my $name=$idnum[$i - 1]; # get the ID name
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$name =~ s/\"//g; # cut off the quotes
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printf HFILE (" %s,\n", $name);
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}
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# Output separation marker for last string ID and the upcoming voice IDs
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print HFILE <<MOO
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LANG_LAST_INDEX_IN_ARRAY, /* this is not a string, this is a marker */
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/* --- below this follows voice-only strings --- */
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VOICEONLY_DELIMITER = 0x8000,
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MOO
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;
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# Output the ID names for the enum in the header file
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for $i (0x8000 .. ($voiceid-1)) {
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my $name=$idnum[$i]; # get the ID name
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$name =~ s/\"//g; # cut off the quotes
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printf HFILE (" %s,\n", $name);
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}
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# Output end of enum
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print HFILE "\n};\n/* end of generated enum list */\n";
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# Output the target phrases for the source file
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for $i (1 .. $idcount) {
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my $name=$idnum[$i - 1]; # get the ID
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my $dest = $dest{$name}; # get the destination phrase
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$dest =~ s:\"$:\\0\":; # insert a \0 before the second quote
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if(!$dest) {
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# this is just to be on the safe side
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$dest = '"\0"';
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}
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printf CFILE (" %s\n", $dest);
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}
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# Output end of string chunk
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print CFILE <<MOO
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;
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/* end of generated string list */
|
|
MOO
|
|
;
|
|
|
|
close(HFILE);
|
|
close(CFILE);
|
|
} # end of the c/h file generation
|
|
elsif($binary) {
|
|
# Creation of a binary lang file was requested
|
|
|
|
# We must first scan the english file to get the correct order of the id
|
|
# numbers used there, as that is what sets the id order for all language
|
|
# files. The english file is scanned before the translated file was
|
|
# scanned.
|
|
|
|
open(OUTF, ">$binary") or die "Can't create $binary";
|
|
binmode OUTF;
|
|
printf OUTF ("\x1a%c", $langversion); # magic lang file header
|
|
|
|
# loop over the target phrases
|
|
for $i (1 .. $idcount) {
|
|
my $name=$idnum[$i - 1]; # get the ID
|
|
my $dest = $dest{$name}; # get the destination phrase
|
|
|
|
if($dest) {
|
|
$dest =~ s/^\"(.*)\"\s*$/$1/g; # cut off quotes
|
|
|
|
# Now, make sure we get the number from the english sort order:
|
|
$idnum = $idmap{$name};
|
|
|
|
printf OUTF ("%c%c%s\x00", ($idnum>>8), ($idnum&0xff), $dest);
|
|
}
|
|
}
|
|
}
|
|
elsif($voiceout) {
|
|
# voice output requested, display id: and voice: strings in a v1-like
|
|
# fashion
|
|
|
|
my @engl;
|
|
|
|
# This loops over the strings in the translated language file order
|
|
my @ids = ((0 .. ($idcount-1)));
|
|
push @ids, (0x8000 .. ($voiceid-1));
|
|
|
|
#for my $id (@ids) {
|
|
# print "$id\n";
|
|
#}
|
|
|
|
for $i (@ids) {
|
|
my $name=$idnum[$i]; # get the ID
|
|
my $dest = $voice{$name}; # get the destination voice string
|
|
|
|
if($dest) {
|
|
$dest =~ s/^\"(.*)\"\s*$/$1/g; # cut off quotes
|
|
|
|
# Now, make sure we get the number from the english sort order:
|
|
$idnum = $idmap{$name};
|
|
|
|
$engl[$idnum] = $i;
|
|
|
|
# print "Input index $i output index $idnum\n";
|
|
|
|
}
|
|
}
|
|
for my $i (@ids) {
|
|
|
|
my $o = $engl[$i];
|
|
|
|
my $name=$idnum[$o]; # get the ID
|
|
my $dest = $voice{$name}; # get the destination voice string
|
|
|
|
print "#$i\nid: $name\nvoice: $dest\n";
|
|
}
|
|
|
|
}
|
|
|
|
|
|
if($verbose) {
|
|
printf("%d ID strings scanned\n", $idcount);
|
|
|
|
print "* head *\n";
|
|
for(keys %head) {
|
|
printf "$_: %s\n", $head{$_};
|
|
}
|
|
}
|
|
|