package mouse; # $Id$

#use diagnostics;
#use strict;

#-######################################################################################
#- misc imports
#-######################################################################################
use common;
use modules;
use detect_devices;
use run_program;
use devices;
use modules;
use any;
use log;

my @mouses_fields = qw(nbuttons MOUSETYPE XMOUSETYPE name);

my %mice = 
 arch() =~ /^sparc/ ? 
(
 'sunmouse' =>
 [ [ 'sunmouse' ],
   [ [ 3, 'sun', 'sun', __("Sun - Mouse") ]
   ]]
) :
(
 'PS/2' => 
 [ [ 'psaux' ],
   [ [ 2, 'ps/2', 'PS/2', __("Standard") ],
     [ 5, 'ps/2', 'MouseManPlusPS/2', __("Logitech MouseMan+") ],
     [ 5, 'imps2', 'IMPS/2', __("Generic PS2 Wheel Mouse") ],
     [ 5, 'ps/2', 'GlidePointPS/2', __("GlidePoint") ],
     '',
     [ 5, 'ps/2', 'ThinkingMousePS/2', __("Kensington Thinking Mouse") ],
     [ 5, 'netmouse', 'NetMousePS/2', __("Genius NetMouse") ],
     [ 5, 'netmouse', 'NetScrollPS/2', __("Genius NetScroll") ],
   ]],
     
 'USB' =>
 [ [ 'usbmouse' ],
   [ if_(arch() eq 'ppc', [ 1, 'ps/2', 'PS/2', __("1 button") ]),
     [ 2, 'ps/2', 'PS/2', __("Generic 2 Button Mouse") ],
     [ 3, 'ps/2', 'PS/2', __("Generic") ],
     [ 5, 'ps/2', 'IMPS/2', __("Wheel") ],
   ]],

 __("serial") =>
 [ [ map { "ttyS$_" } 0..3 ],
   [ [ 2, 'Microsoft', 'Microsoft', __("Generic 2 Button Mouse") ],
     [ 3, 'Microsoft', 'Microsoft', __("Generic 3 Button Mouse") ],
     [ 5, 'ms3', 'IntelliMouse', __("Microsoft IntelliMouse") ],
     [ 3, 'MouseMan', 'MouseMan', __("Logitech MouseMan") ],
     [ 2, 'MouseSystems', 'MouseSystems', __("Mouse Systems") ],     
     '',
     [ 3, 'logim', 'MouseMan', __("Logitech CC Series") ],
     [ 5, 'pnp', 'IntelliMouse', __("Logitech MouseMan+/FirstMouse+") ],
     [ 5, 'ms3', 'IntelliMouse', __("Genius NetMouse") ],
     [ 2, 'MMSeries', 'MMSeries', __("MM Series") ],
     [ 2, 'MMHitTab', 'MMHittab', __("MM HitTablet") ],
     [ 3, 'Logitech', 'Logitech', __("Logitech Mouse (serial, old C7 type)") ],
     [ 3, 'Microsoft', 'ThinkingMouse', __("Kensington Thinking Mouse") ],
   ]],

 __("busmouse") =>
 [ [ arch() eq 'ppc' ? 'adbmouse' : ('atibm', 'inportbm', 'logibm') ],
   [ if_(arch() eq 'ppc', [ 1, 'Busmouse', 'BusMouse', __("1 button") ]),
     [ 2, 'Busmouse', 'BusMouse', __("2 buttons") ],
     [ 3, 'Busmouse', 'BusMouse', __("3 buttons") ],
   ]],

 __("none") =>
 [ [ 'none' ],
   [ [ 0, 'none', 'Microsoft', __("No mouse") ],
   ]],
);


sub xmouse2xId { 
    #- xmousetypes must be sorted as found in /usr/include/X11/extensions/xf86misc.h
    #- so that first mean "0", etc
    my @xmousetypes = (
		   "Microsoft",
		   "MouseSystems",
		   "MMSeries",
		   "Logitech",
		   "BusMouse", #MouseMan,
		   "Logitech",
		   "PS/2",
		   "MMHittab",
		   "GlidePoint",
		   "IntelliMouse",
		   "ThinkingMouse",
		   "IMPS/2",
		   "ThinkingMousePS/2",
		   "MouseManPlusPS/2",
		   "GlidePointPS/2",
		   "NetMousePS/2",
		   "NetScrollPS/2",
		   "SysMouse",
		   "Auto",
		   "AceCad",
		   "WSMouse",
		   "USB",
    );
    my ($id) = @_;
    $id = 'BusMouse' if $id eq 'MouseMan';
    my $i; map_index { $_ eq $id and $i = $::i } @xmousetypes; $i;
}

my %mouse_btn_keymap = (
    0   => "NONE",
    67  => "F9",
    68  => "F10",
    87  => "F11",
    88  => "F12",
    85  => "F13",
    89  => "F14",
    90  => "F15",
    56  => "L-Option/Alt",
    125 => "L-Command",
    98  => "Num: /",
    55  => "Num: *",
    117 => "Num: =",
);
sub ppc_one_button_keys { keys %mouse_btn_keymap }
sub ppc_one_button_key2text { $mouse_btn_keymap{$_[0]} }

sub raw2mouse {
    my ($type, $raw) = @_;
    $raw or return;

    my %l; @l{@mouses_fields} = @$raw;
    +{ %l, type => $type };
}

sub update_type_name {
    my ($mouse) = @_;
    while (my ($k, $v) = each %mice) {
	$mouse->{device} =~ /usb/ && $k ne 'USB' and next; #- avoid mixing USB and PS/2 mice.
	foreach (@{$v->[1]}) {
	    if ($_->[0] == $mouse->{nbuttons} && $_->[2] eq $mouse->{XMOUSETYPE}) {
		add2hash($mouse, { MOUSETYPE => $_->[1],
				   type      => $k,
				   name      => $_->[3],
				 });
		return $mouse;
	    }
	}
    }
}

sub fullnames { 
    map_each { 
	my $type = $::a;
	grep {$_} map {
	    if ($_) {
		my $l = raw2mouse($type, $_);
		"$type|$l->{name}";
	    } else { 
		$type .= "|[" . _("Other") . "]";
		'';
	    }
	} @{$::b->[1]}
    } %mice;
}

sub fullname2mouse {
    my ($fname, %opts) = @_;
    my ($type, @l) = split '\|', $fname;
    my ($name) = pop @l;
    $opts{device} ||= $mice{$type}[0][0];
    foreach (@{$mice{$type}[1]}) {
	my $l = raw2mouse($type, $_);
	$name eq $l->{name} and return { %$l, %opts };
    }
    die "$fname not found ($type, $name)";
}

sub serial_ports() { map { "ttyS$_" } 0..7 }
sub serial_port2text {
    $_[0] =~ /ttyS(\d+)/ ? "$_[0] / COM" . ($1 + 1) : $_[0];
}

sub read {
    my ($prefix) = @_;
    my %mouse = getVarsFromSh "$prefix/etc/sysconfig/mouse";
    eval { add2hash_(\%mouse, fullname2mouse($mouse{FULLNAME})) };
    $mouse{device} = readlink "$prefix/dev/mouse" or log::l("reading $prefix/dev/mouse symlink failed");
    $mouse{nbuttons} = $mouse{XEMU3} eq "yes" ? 2 : $mouse{WHEEL} eq "yes" ? 5 : 3;
    \%mouse;
}

sub write {
    my ($prefix, $mouse) = @_;
    local $mouse->{FULLNAME} = qq("$mouse->{type}|$mouse->{name}"); #-"
    local $mouse->{XEMU3} = bool2yesno($mouse->{nbuttons} < 3);
    local $mouse->{WHEEL} = bool2yesno($mouse->{nbuttons} > 3);
    setVarsInSh("$prefix/etc/sysconfig/mouse", $mouse, qw(MOUSETYPE XMOUSETYPE FULLNAME XEMU3 WHEEL device));
    any::devfssymlinkf ($mouse->{device}, 'mouse', $prefix) or log::l("creating $prefix/dev/mouse symlink failed");
    $mouse->{auxmouse} and any::devfssymlinkf ($mouse->{auxmouse}{device}, 'mouse1', $prefix) or log::l("creating $prefix/dev/mouse1 symlink failed");

    if (arch() =~ /ppc/) {
	my $s = join('',
	  "dev.mac_hid.mouse_button_emulation = " . to_bool($mouse->{button2_key} || $mouse->{button3_key}) . "\n",
	  if_($mouse->{button2_key}, "dev.mac_hid.mouse_button2_keycode = $mouse->{button2_key}\n"),
	  if_($mouse->{button3_key}, "dev.mac_hid.mouse_button3_keycode = $mouse->{button3_key}\n"),
	);
	substInFile { 
	    $_ = '' if /^\Qdev.mac_hid.mouse_button/;
	    $_ .= $s if eof;
	} "$prefix/etc/sysctl.conf";
	#- hack - dev RPM symlinks to mouse0 - lands on mouse1 with new input layer on PPC input/mice will get both ADB and USB
	symlinkf "/dev/input/mice", "$prefix/dev/usbmouse" if ($mouse->{device} eq "usbmouse");    
    }
}

sub mouseconfig {
    my ($t, $mouse, @wacom);

    #- Whouah! probing all devices from ttyS0 to ttyS3 once a time!
    detect_devices::probeSerialDevices();

    #- check new probing methods keep everything used here intact!
    foreach (0..3) {
	$t = detect_devices::probeSerial("/dev/ttyS$_");
	if ($t->{CLASS} eq 'MOUSE') {
	    $t->{MFG} ||= $t->{MANUFACTURER};

	    $mouse = fullname2mouse("serial|Microsoft IntelliMouse") if $t->{MFG} eq 'MSH' && $t->{MODEL} eq '0001';
	    $mouse = fullname2mouse("serial|Logitech MouseMan") if $t->{MFG} eq 'LGI' && $t->{MODEL} =~ /^80/;
	    $mouse = fullname2mouse("serial|Genius NetMouse") if $t->{MFG} eq 'KYE' && $t->{MODEL} eq '0003';

	    $mouse ||= fullname2mouse("serial|Generic 2 Button Mouse"); #- generic by default.
	    $mouse->{device} = "ttyS$_";
	    last;
	} elsif ($t->{CLASS} eq "PEN" || $t->{MANUFACTURER} eq "WAC") {
	    push @wacom, "ttyS$_";
	}
    }
    $mouse, @wacom;
}

sub detect() {
    if (arch() =~ /^sparc/) {
	return fullname2mouse("sunmouse|Sun - Mouse");
    }
    if (arch() eq "ppc") {
        return fullname2mouse(detect_devices::hasMousePS2("usbmouse") ? 
			      "USB|1 button" :
			      # No need to search for an ADB mouse.  If I did, the PPC kernel would
			      # find one whether or not I had one installed!  So..  default to it.
			      "busmouse|1 button");
    }

    my @wacom;
    my $fast_mouse_probe = sub {
	my $auxmouse = detect_devices::hasMousePS2("psaux") && fullname2mouse("PS/2|Standard", unsafe => 1);

	if (modules::get_alias("usb-interface")) {
	    if (my (@l) = detect_devices::usbMice()) {
		log::l("found usb mouse $_->{driver} $_->{description} ($_->{type})") foreach @l;
		eval { modules::load($_) foreach qw(hid mousedev usbmouse) };
		if (!$@ && detect_devices::tryOpen("usbmouse")) {
		    my $mouse = fullname2mouse($l[0]{driver} =~ /Mouse:(.*)/ ? $1 : "USB|Generic");
		    $auxmouse and $mouse->{auxmouse} = $auxmouse; #- for laptop, we kept the PS/2 as secondary (symbolic).
		    return $mouse;
		}
		eval { modules::unload($_) foreach qw(usbmouse mousedev hid) };
	    }
	}
	$auxmouse;
    };

    if (modules::get_alias("usb-interface")) {
	my $keep_mouse;
	if (my (@l) = detect_devices::usbWacom()) {
	    log::l("found usb wacom $_->{driver} $_->{description} ($_->{type})") foreach @l;
	    eval { modules::load("wacom"); modules::load("evdev"); };
	    unless ($@) {
		foreach (0..$#l) {
		    detect_devices::tryOpen("input/event$_") and $keep_mouse = 1, push @wacom, "input/event$_";
		}
	    }
	    $keep_mouse or eval { modules::unload("evdev"); modules::unload("wacom"); };
	}
    }

    #- at this level, not all possible mice are detected so avoid invoking serial_probe
    #- which takes a while for its probe.
    if ($::isStandalone) {
	my $mouse = $fast_mouse_probe->();
	$mouse and return ($mouse, @wacom);
    }

    #- probe serial device to make sure a wacom has been detected.
    eval { modules::load("serial") };
    my ($r, @serial_wacom) = mouseconfig(); push @wacom, @serial_wacom;

    if (!$::isStandalone) {
	my $mouse = $fast_mouse_probe->();
	$r && $mouse and $r->{auxmouse} = $mouse; #- we kept the auxilliary mouse as PS/2.
	$r and return ($r, @wacom);
	$mouse and return ($mouse, @wacom);
    } else {
	$r and return ($r, @wacom);
    }

    #- in case only a wacom has been found, assume an inexistant mouse (necessary).
    @wacom and return { CLASS      => 'MOUSE',
			nbuttons   => 2,
			device     => "nothing",
			MOUSETYPE  => "Microsoft",
			XMOUSETYPE => "Microsoft"}, @wacom;

    if (!modules::get_alias("usb-interface") && detect_devices::is_a_recent_computer() && $::isInstall && !$::noauto) {
	#- special case for non detected usb interface on a box with no mouse.
	#- we *must* find out if there really is no usb, otherwise the box may
	#- not be accessible via the keyboard (if the keyboard is USB)
	#- the only way to know this is to make a full pci probe
	modules::load_thiskind("usb", '', 'unsafe'); 
	if (my $mouse = $fast_mouse_probe->()) {
	    return $mouse;
	}
    }

    #- defaults to generic serial mouse on ttyS0.
    #- Oops? using return let return a hash ref, if not using it, it return a list directly :-)
    return fullname2mouse("serial|Generic 2 Button Mouse", unsafe => 1);
}

#- write_conf : write the mouse infos into the Xconfig files.
#- input :
#-  $mouse : the hashtable containing the informations
#- $mouse input
#-  $mouse->{nbuttons} : number of buttons : integer
#-  $mouse->{device} : device of the mouse : string : ex 'psaux'
#-  $mouse->{XMOUSETYPE} : type of the mouse for gpm : string : ex 'PS/2'
#-  $mouse->{type} : type (generic ?) of the mouse : string : ex 'PS/2'
#-  $mouse->{name} : name of the mouse : string : ex 'Standard'
#-  $mouse->{MOUSETYPE} : type of the mouse : string : ex "ps/2"
#-  $mouse->{XEMU3} : emulate 3rd button : string : 'yes' or 'no'
sub write_conf {
    my ($mouse) = @_;

    &write('', $mouse);
    modules::write_conf('') if $mouse->{device} eq "usbmouse" && !$::testing;

    my $f = "/etc/X11/XF86Config";
    my $g = "/etc/X11/XF86Config-4";

    my $update_mouse = sub {
	my ($mouse) = @_;

	my ($zaxis, $zaxis_aux) = map { [
					 $_->{nbuttons} > 3 ? [ "ZAxisMapping", "4 5" ] : (),
					 $_->{nbuttons} > 5 ? [ "ZAxisMapping", "6 7" ] : (),
					 $_->{nbuttons} < 3 ? ([ "Emulate3Buttons" ], [ "Emulate3Timeout", "50" ]) : ()
					] } grep { $_ } ($mouse, $mouse->{auxmouse});

	my ($str_zaxis, $str_zaxis_aux) = map { join('', map { qq(\n    $_->[0]) . ($_->[1] && qq( $_->[1])) } @$_)
					    } grep { $_ } ($zaxis, $zaxis_aux);
	my $found_auxmouse = 0;
	substInFile {
	    if (/^Section\s+"Pointer"/ .. /^EndSection/) {
		$_ = '' if /(ZAxisMapping|Emulate3)/; #- remove existing line
		s|^(\s*Protocol\s+).*|$1"$mouse->{XMOUSETYPE}"|;
		s|^(\s*Device\s+).*|$1"/dev/$mouse->{device}"$str_zaxis|;
	    }
	    if ($mouse->{auxmouse}) {
		if (/DeviceName\s+"Mouse2"/ .. /^EndSection/) {
		    $found_auxmouse = 1;
		    $_ = '' if /(ZAxisMapping|Emulate3|AlwaysCore)/; #- remove existing line
		    s|^(\s*Protocol\s+).*|$1"$mouse->{auxmouse}{XMOUSETYPE}"|;
		    s|^(\s*Device\s+).*|$1"/dev/$mouse->{auxmouse}{device}"\n        AlwaysCore$str_zaxis_aux|;
		}
	    }
	} $f if -e $f && !$::testing;
	substInFile {
	    if (my $l = /^Section\s+"Pointer"/ .. /^EndSection/) {
		$l =~ /E/ and $_ .= qq(

Section "XInput"
    SubSection "Mouse"
        DeviceName "Mouse2"
        Protocol   "$mouse->{auxmouse}{XMOUSETYPE}"
        Device     "/dev/$mouse->{auxmouse}{device}"
        AlwaysCore$str_zaxis_aux
    EndSubSection
EndSection
);
	    }
	} $f if !$found_auxmouse && $mouse->{auxmouse} && -e $f && !$::testing;

	($str_zaxis, $str_zaxis_aux) = map { join('', map { qq(\n    Option "$_->[0]") . ($_->[1] && qq( "$_->[1]")) } @$_)
					 } grep { $_ } ($zaxis, $zaxis_aux);
	$found_auxmouse = 0;
	substInFile {
	    if (/Identifier\s+"Mouse1"/ .. /^EndSection/) {
		$_ = '' if /(ZAxisMapping|Emulate3)/; #- remove existing line
		s|^(\s*Option\s+"Protocol"\s+).*|$1"$mouse->{XMOUSETYPE}"|; #"
		s|^(\s*Option\s+"Device"\s+).*|$1"/dev/mouse"$str_zaxis|;
	    }
	    if ($mouse->{auxmouse}) {
		if (/Identifier\s+"Mouse2"/ .. /^EndSection/) {
		    $found_auxmouse = 1;
		    $_ = '' if /(ZAxisMapping|Emulate3)/; #- remove existing line
		    s|^(\s*Option\s+"Protocol"\s+).*|$1"$mouse->{auxmouse}{XMOUSETYPE}"|; #"
		    s|^(\s*Option\s+"Device"\s+).*|$1"/dev/$mouse->{auxmouse}{device}"$str_zaxis_aux|; #"
		}
	    }
	} $g if -e $g && !$::testing;
	substInFile {
	    if (my $l = /Identifier\s+"Mouse1"/ .. /^EndSection/) {
		$l =~ /E/ and $_ .= qq(

Section "InputDevice"
    Identifier "Mouse2"
    Option     "Protocol" "$mouse->{auxmouse}{XMOUSETYPE}"
    Option     "Device"   "/dev/$mouse->{auxmouse}{XMOUSETYPE}"$str_zaxis_aux
EndSection
);
	    }
	} $g if !$found_auxmouse && $mouse->{auxmouse} && -e $g && !$::testing;
    };
    $update_mouse->($mouse);
}

sub test_mouse_install {
    my ($mouse) = @_;
    require my_gtk;
    my_gtk->import(qw(:wrappers :helpers));
    my $w = my_gtk->new;
    my ($width, $height, $offset) = (210, round_up(min(350, $::windowheight - 150), 6), 25);
    my $darea = new Gtk::DrawingArea;
    $darea->set_events([ 'button_press_mask', 'button_release_mask' ]);  #$darea must be unrealized.
    gtkadd($w->{window},
  	   gtkpack(my $vbox_grab = new Gtk::VBox(0,0),
		   gtksize(gtkset_usize($darea, $width+1, $height+1), $width+1, $height+1),
		   my $okcancel = gtkset_sensitive(create_okcancel($w, '', '', "edge"), 1)
		  ),
	  );
    $okcancel->set_uposition(7, $height-43);
    Gtk->timeout_add(2000, sub { gtkset_sensitive($okcancel, 1); $okcancel->draw(undef); });
    test_mouse($mouse, $w, $darea, $width, $height);
    $w->{window}->set_usize(undef, $height+10);
    $w->sync; # HACK
    Gtk::Gdk->pointer_grab($darea->window, 1,
			   [ 'pointer_motion_mask'],
			   $darea->window, undef ,0);
    $w->main;
}

sub test_mouse_standalone {
    my ($mouse, $hbox) = @_;
    require my_gtk;
    my_gtk->import(qw(:wrappers));
    my ($width, $height, $offset) = (210, round_up(min(350, $::windowheight - 150), 6), 25);
    my $darea = new Gtk::DrawingArea;
    $darea->set_events([ 'button_press_mask', 'button_release_mask' ]);  #$darea must be unrealized.
    gtkpack($hbox,
	    gtkpack(gtkset_border_width(new Gtk::VBox(0,10), 10),
		    gtksize(gtkset_usize($darea, $width+1, $height+1), $width, $height)
		   )
	   );
    test_mouse($mouse, $hbox, $darea, $width, $height);
}

sub test_mouse {
    my ($mouse, $w, $darea, $width, $height) = @_;

    $darea->realize();
    my $wait = 0;
    my ($m3_image, $m3_mask) = gtkcreate_xpm($darea, 'mouse_3b.xpm');
    my ($m3_imagep, $m3_maskp) = gtkcreate_xpm($darea, 'mouse_3b+.xpm');
    my ($m3_left, $m3_left_mask) = gtkcreate_xpm($darea, 'mouse_left.xpm');
    my ($m3_right, $m3_right_mask) = gtkcreate_xpm($darea, 'mouse_right.xpm');
    my ($m3_middle, $m3_middle_mask) = gtkcreate_xpm($darea, 'mouse_middle.xpm');
    my ($aru, $aru_mask) = gtkcreate_xpm($darea, 'arrow_up.xpm');
    my ($ard, $ard_mask) = gtkcreate_xpm($darea, 'arrow_down.xpm');
    my $image = $m3_image;
    $mouse->{nbuttons} > 3 and $image = $m3_imagep;
    my $draw_text = sub {
  	my ($t, $y) = @_;
  	my $font = $darea->style->font;
  	my $w = $font->string_width($t);
  	$darea->window->draw_string($font, $darea->style->black_gc, ($darea->allocation->[2]-$width)/2 + ($width - $w) / 2, ($darea->allocation->[3]-$height)/2 + $y, $t);
    };
    my $drawarea; $drawarea = sub { $darea->window->draw_pixmap ($darea->style->bg_gc('normal'),
								 $image, 0, 0,
								 ($darea->allocation->[2]-$width)/2, ($darea->allocation->[3]-$height)/2,
								 210, 350);
				    $draw_text->(_("Please test the mouse"), $height - 120);
				    $draw_text->(_("To activate the mouse,"), $height - 105) if $mouse->{XMOUSETYPE} eq 'IMPS/2';
				    $draw_text->(_("MOVE YOUR WHEEL!"), $height - 90) if $mouse->{XMOUSETYPE} eq 'IMPS/2';
				    return if $::isStandalone;
				    $darea->window->draw_rectangle($darea->style->bg_gc('normal'), 1, 0, $height-65, $width, $height);
				};

    my $paintButton = sub {
	my ($nb, $pressed) = @_;
	my $x = 60 + $nb*33;
	$drawarea->();
	if ($nb == 0) {
	    $darea->window->draw_pixmap ($darea->style->bg_gc('normal'),
					 $m3_left, 0, 0,
					 ($darea->allocation->[2]-$width)/2+31, ($darea->allocation->[3]-$height)/2 + 52,
					 59, 91);
	} elsif ($nb == 2) {
	    $darea->window->draw_pixmap ($darea->style->bg_gc('normal'),
					 $m3_right, 0, 0,
					 ($darea->allocation->[2]-$width)/2+117, ($darea->allocation->[3]-$height)/2 + 52,
					 61, 91);
	} elsif ($nb == 1) {
	    if ($mouse->{nbuttons} > 3) {
		$darea->window->draw_pixmap ($darea->style->bg_gc('normal'),
					     $m3_middle, 0, 0,
					     ($darea->allocation->[2]-$width)/2+98, ($darea->allocation->[3]-$height)/2 + 67,
					     13, 62);
	    } else {
  		$darea->window->draw_arc ( $darea->style->black_gc,
  					   1, ($darea->allocation->[2]-$width)/2 + $x, ($darea->allocation->[3]-$height)/2 + 90, 20, 25,
  					   0, 360*64);
	    }
	} elsif ($nb == 3) {
	    $wait=1;
	    $darea->window->draw_pixmap ($darea->style->bg_gc('normal'),
					 $aru, 0, 0,
					 ($darea->allocation->[2]-$width)/2+102, ($darea->allocation->[3]-$height)/2 + 57,
					 6, 8);
	    $darea->window->draw_pixmap ($darea->style->bg_gc('normal'),
					 $m3_middle, 0, 0,
					 ($darea->allocation->[2]-$width)/2+98, ($darea->allocation->[3]-$height)/2 + 67,
					 13, 62);
	    Gtk->timeout_add(200, sub { $wait = 0 });
	} elsif ($nb == 4) {
	    $wait=1;
	    $darea->window->draw_pixmap ($darea->style->bg_gc('normal'),
					 $ard, 0, 0,
					 ($darea->allocation->[2]-$width)/2+102, ($darea->allocation->[3]-$height)/2 + 131,
					 6, 8);
	    $darea->window->draw_pixmap ($darea->style->bg_gc('normal'),
					 $m3_middle, 0, 0,
					 ($darea->allocation->[2]-$width)/2+98, ($darea->allocation->[3]-$height)/2 + 67,
					 13, 62);
	    Gtk->timeout_add(200, sub { $wait = 0 });
	}
    };
    $darea->signal_connect(button_press_event => sub {
  			       my $b = $_[1]{button};
			       $paintButton->($b - 1);
  			   });
    $darea->signal_connect(button_release_event => sub {
			       while ($wait) { my_gtk::flush() }
			       $drawarea->()
  			   });
    $darea->signal_connect(expose_event => sub { $drawarea->() });
    $darea->size($width, $height);
}