#!/usr/bin/perl use warnings 'all'; use strict; use File::Temp (); BEGIN { my $file; if ($ARGV[1]) { $file = $ARGV[1]; } else { $file = 'KeyboardNames.pl'; } do "$file"; } my $freebsd = ''; my $model = $ARGV[0]; if ($model =~ s/^freebsd-//) { $freebsd = '-freebsd -backspace del'; } my $dir = $freebsd ? 'freebsd-keymaps' : 'linux-keymaps'; my $xkbdir; if ($ARGV[2]) { $xkbdir = $ARGV[2]; } else { $xkbdir = "`pwd`/ckb"; } my $supported; if ($ARGV[3]) { $supported = " $ARGV[3] "; $supported =~ s/ +/() /g; $supported =~ s/\)\(\)/)/g; } else { $supported = 0; } # Don't forget to update also the list in keyboard-configuration.config my $nonlatin = ' af am ara ben bd bg bt by deva et ge gh gr guj guru \ il in iq ir iku kan kh kz la lao lk kg ma mk mm mn mv mal \ np ori pk ru scc sy syr tel th tj tam tib ua uig uz '; my %keymaps; sub warning { print STDERR "WARNING: @_"; } sub execute { if (0) { printf STDERR "%s\n", $_[0]; } return system ($_[0]); } sub ensuredir { if (! -d $_[0]) { mkdir $_[0] or die "$0: $_[0]: $!\n"; } } sub checkrename { rename $_[0], $_[1] or die "$0: failed to rename $_[0] to $_[1]: $!\n"; } sub read_temp_kmap { my $name = $_[0]; open (KMAP, "$dir/$model-$name") or die "$0: $dir/$model-$name: $!\n"; if ($freebsd) { while () { if (/^ *([0-9]+) .*/) { $keymaps{$name}[$1] = $_; } } } else { while () { if (/^keycode ([0-9]+) =.*/) { $keymaps{$name}[$1] = $_; } } } close KMAP; } ensuredir $dir; printf STDERR "Compiling compact keymaps for %s...\n", $model; for my $layout (values %KeyboardNames::layouts) { next if ($layout eq 'nec/jp'); next if ($layout eq 'nec_vndr/jp'); my $actual_layout = (($layout eq 'lt') ? 'lt,lt' : (($layout eq 'me') ? 'me,me' : (($layout eq 'rs') ? 'rs,rs' : (($nonlatin =~ / $layout /) ? "us,$layout" : $layout)))); for my $variant ('', values %{$KeyboardNames::variants{$layout}}) { my $actual_variant; if ($actual_layout eq 'lt,lt') { if ($variant eq 'us') { $actual_variant = "us,basic"; } else { $actual_variant = "$variant,us"; } } elsif ($actual_layout eq 'me,me') { if ($variant =~ /latin/) { $actual_variant = "$variant,$variant"; } elsif ($variant eq 'cyrillicyz') { $actual_variant = "latinyz,$variant"; } elsif ($variant eq 'cyrillicalternatequotes') { $actual_variant = "latinalternatequotes,$variant"; } else { $actual_variant = "basic,$variant"; } } elsif ($actual_layout eq 'rs,rs') { if ($variant =~ /latin/) { $actual_variant = "$variant,$variant"; } elsif ($variant eq 'yz') { $actual_variant = "latinyz,$variant"; } elsif ($variant eq 'alternatequotes') { $actual_variant = "latinalternatequotes,$variant"; } else { $actual_variant = "latin,$variant"; } } elsif ($actual_layout =~ /,/) { $actual_variant = ",$variant"; } else { $actual_variant = $variant; } $actual_variant = "'$actual_variant'"; if (! -f "$dir/$model-$layout:$variant") { execute ("./ckbcomp $freebsd -compact -I. -I${xkbdir} -rules xorg" ." -model $model" ." -layout $actual_layout -variant $actual_variant" ." >$dir/$model-$layout:$variant.new") and die "$0: ckbcomp failed\n" if (! -f "$dir/$model-$layout:$variant.new"); checkrename "$dir/$model-$layout:$variant.new", "$dir/$model-$layout:$variant"; } if (-f "$dir/$model-$layout:$variant") { if (!$supported || index($supported, " $layout($variant) ") ge 0) { read_temp_kmap "$layout:$variant"; } } } } sub subtraction { my $kmap1 = $keymaps{$_[0]}; my $kmap2 = $keymaps{$_[1]}; my $result = 0; for my $k (0 .. $#{$kmap1}-1) { if (defined $kmap1->[$k]) { if (! defined $kmap2->[$k] || $kmap1->[$k] ne $kmap2->[$k]) { $result++; } } elsif (defined $kmap2->[$k]) { # kmap1 not a superset of kmap2, so not eligible for reduction return 10000000; # I don't think it will be a problem if one additional key # is defined in kmap1, a key that would be otherwise # undefined. However, the size reduction when this code is # removed, is not that big: 127Kb -> 117Kb. (Anton Zinoviev) } } return $result; } printf STDERR "Computing differential matrix for %s...\n", $model; my %kmaps; my %matrice; my %reduce; my $k; my $k1; my $k2; for $k (keys %keymaps) { $kmaps{$k} = 1; } for $k1 (keys %kmaps) { for $k2 (keys %kmaps) { $matrice{$k1}{$k2} = subtraction($k1, $k2); } } printf STDERR "Reducing the keymaps for %s...\n", $model; while (keys %kmaps) { my $mink1 = ''; my $mink2 = ''; my $minsub = 10000000; for $k1 (keys %kmaps) { for $k2 (keys %kmaps) { next if ($k1 eq $k2); if ($matrice{$k1}{$k2} < $minsub) { $mink1 = $k1; $mink2 = $k2; $minsub = $matrice{$k1}{$k2}; } } } if ($mink1 eq '') { for $k2 (keys %kmaps) { $mink1 = $k2; last; } } $reduce{$mink1} = $mink2; delete $kmaps{$mink1}; } printf STDERR "Dumping the encoded keymaps for %s...\n", $model; for $k1 (keys %reduce) { my $kmap1 = $keymaps{$k1}; $k2 = $reduce{$k1}; if ($k2 ne '') { my $kmap2 = $keymaps{$k2}; printf "%s::#include %s\n", $k1, $k2; for my $k (0 .. $#{$kmap1}-1) { if (defined $kmap1->[$k]) { if (! defined $kmap2->[$k] || $kmap1->[$k] ne $kmap2->[$k]) { printf "%s::%s", $k1, $kmap1->[$k]; } } } } else { for my $k (0 .. $#{$kmap1}-1) { if (defined $kmap1->[$k]) { printf "%s::%s", $k1, $kmap1->[$k]; } } } } my %options = ( 'grp:switch' => [ 'ralt' ], 'grp:lswitch' => [ 'lalt' ], 'grp:win_switch' => [ 'rwin', 'lwin' ], 'grp:lwin_switch' => [ 'rwin' ], 'grp:rwin_switch' => [ 'lwin' ], 'grp:toggle' => [ 'ralt' ], 'grp:shifts_toggle' => [ 'lshift', 'rshift' ], 'grp:ctrls_toggle' => [ 'lctrl', 'rctrl' ], 'grp:alts_toggle' => [ 'ralt', 'lalt' ], 'grp:ctrl_shift_toggle' => [ 'lshift', 'rshift', 'lctrl', 'rctrl' ], 'grp:caps_toggle' => [ 'caps' ], 'grp:caps_switch' => [ 'caps' ], 'grp:shift_caps_toggle' => [ 'caps' ], 'grp:shift_caps_switch' => [ 'caps' ], 'grp:win_menu_switch' => [ 'rwin', 'lwin', 'menu' ], 'grp:alt_caps_toggle' => [ 'caps' ], 'grp:ctrl_alt_toggle' => [ 'lalt', 'ralt', 'lctrl', 'rctrl' ], 'grp:alt_shift_toggle' => [ 'lalt', 'ralt', 'lshift', 'rshift' ], 'grp:alt_space_toggle' => [ 'empty' ], 'grp:menu_toggle' => [ 'menu' ], 'grp:lwin_toggle' => [ 'lwin' ], 'grp:rwin_toggle' => [ 'rwin' ], 'grp:lshift_toggle' => [ 'lshift' ], 'grp:rshift_toggle' => [ 'rshift' ], 'grp:rctrl_switch' => [ 'rctrl' ], 'grp:lctrl_toggle' => [ 'lctrl' ], 'grp:rctrl_toggle' => [ 'rctrl' ], 'grp:lalt_toggle' => [ 'lalt' ], 'grp:sclk_toggle' => [ 'sclk' ], 'grp:lctrl_rctrl_switch' => [ 'rctrl', 'lctrl' ], 'lv3:switch' => [ 'rctrl' ], 'lv3:ralt_switch' => [ 'ralt' ], 'lv3:ralt_switch_multikey' => [ 'ralt' ], 'lv3:ralt_alt' => [ 'ralt' ], 'lv3:lalt_switch' => [ 'lalt' ], 'lv3:alt_switch' => [ 'lalt', 'ralt' ], 'lv3:menu_switch' => [ 'menu' ], 'lv3:win_switch' => [ 'lwin', 'rwin' ], 'lv3:lwin_switch' => [ 'lwin' ], 'lv3:rwin_switch' => [ 'rwin' ], 'lv3:enter_switch' => [ 'empty' ], 'ctrl:nocaps' => [ 'caps', 'lctrl' ], 'ctrl:swapcaps' => [ 'caps', 'lctrl' ], 'compose:ralt' => [ 'ralt' ], 'compose:rwin' => [ 'rwin' ], 'compose:menu' => [ 'menu' ], 'compose:caps' => [ 'caps' ], 'compose:rctrl' => [ 'rctrl' ], 'eurosign:e' => [ 'empty' ], 'eurosign:5' => [ 'empty' ], 'eurosign:2' => [ 'empty' ], ); my %keycodes = ( 'amiga' => 'amiga(de)', 'ataritt' => 'ataritt(de)', 'macintosh' => 'xfree86', 'macintosh_old' => 'macintosh', 'pc105' => 'xfree86', 'sun4' => 'sun(type4_euro)', 'sun5' => 'sun(type5_euro)', 'abnt2' => 'xfree86(abnt2)', ); my $keycodes = (defined $keycodes {$model} ? $keycodes {$model} : 'xfree86'); for my $option (keys %options) { my $layout = ''; for my $mod (@{$options{$option}}) { $layout = $layout . "+stdmodifiers($mod)"; } $layout =~ s/^\+//; if ($option =~ /grp:(.*)/) { $layout = $layout . "+group($1)"; } elsif ($option =~ /ctrl:(.*)/) { $layout = $layout . "+ctrl($1)"; } elsif ($option =~ /lv3:(.*)/) { $layout = $layout . "+level3($1)"; } elsif ($option =~ /compose:(.*)/) { $layout = $layout . "+compose($1)"; } elsif ($option =~ /eurosign:(.*)/) { $layout = $layout . "+eurosign($1)"; } my $tmp = new File::Temp(TEMPLATE => 'kbdcompilerXXXXXX'); execute ("./ckbcomp $freebsd -compact -I. -I${xkbdir}" ." -keycodes '$keycodes' -symbols '$layout' >$tmp"); if (! -f $tmp->filename) { die "$0: ckbcomp failed\n" if (! -f $tmp->filename); } else { execute ("grep '^keycode' $tmp | sed 's/^/". $option ."::/'"); } }