package Xconfig::resolution_and_depth; # $Id$ use diagnostics; use strict; use Xconfig::card; use Xconfig::monitor; use common; our %depth2text = ( 8 => __("256 colors (8 bits)"), 15 => __("32 thousand colors (15 bits)"), 16 => __("65 thousand colors (16 bits)"), 24 => __("16 million colors (24 bits)"), 32 => __("4 billion colors (32 bits)"), ); our @depths_available = ikeys(%depth2text); my %min_hsync4x_res = ( 640 => 31.5, 800 => 35.1, 1024 => 35.5, 1152 => 44.0, 1280 => 51.0, 1400 => 65.5, 1600 => 75.0, 1920 => 90.0, 2048 => 136.5, ); my @bios_vga_modes = ( { bios => 769, X => 640, Y => 480, Depth => 8 }, { bios => 771, X => 800, Y => 600, Depth => 8 }, { bios => 773, X => 1024, Y => 768, Depth => 8 }, { bios => 775, X => 1280, Y => 1024, Depth => 8 }, { bios => 784, X => 640, Y => 480, Depth => 15 }, { bios => 787, X => 800, Y => 600, Depth => 15 }, { bios => 790, X => 1024, Y => 768, Depth => 15 }, { bios => 793, X => 1280, Y => 1024, Depth => 15 }, { bios => 785, X => 640, Y => 480, Depth => 16 }, { bios => 788, X => 800, Y => 600, Depth => 16 }, { bios => 791, X => 1024, Y => 768, Depth => 16 }, { bios => 794, X => 1280, Y => 1024, Depth => 16 }, ); sub size2default_resolution { my ($size) = @_; #- size in inch if (arch() =~ /ppc/) { return "1024x768" if detect_devices::get_mac_model =~ /^PowerBook|^iMac/; } my %monitorSize2resolution = ( 13 => "640x480", 14 => "800x600", 15 => "800x600", 16 => "1024x768", 17 => "1024x768", 18 => "1024x768", 19 => "1280x1024", 20 => "1280x1024", 21 => "1600x1200", 22 => "1600x1200", ); $monitorSize2resolution{round($size)} || ($size < 13 ? "640x480" : "1600x1200"); } sub to_string { my ($resolution) = @_; $resolution or return; sprintf("%sx%s %dbpp", @$resolution{'X', 'Y', 'Depth'}); } sub allowed { my ($card) = @_; my ($prefered_depth, @depths, @resolutions, @resolution_and_depth); my $using_xf4 = Xconfig::card::using_xf4($card); if ($using_xf4 ? $card->{Driver} eq 'fbdev' : $card->{server} eq 'FBDev') { push @resolution_and_depth, grep { $_->{Depth} == 16 } @bios_vga_modes; } elsif ($using_xf4) { if ($card->{use_DRI_GLX} || $card->{use_UTAH_GLX}) { $prefered_depth = 16; push @depths, 16; push @depths, 24 if member($card->{Driver}, 'mga', 'tdfx', 'r128', 'radeon'); } } else { if ($card->{server} eq 'Sun24') { push @depths, 24, 8, 2 } elsif ($card->{server} eq 'Sun') { push @depths, 8, 2 } elsif ($card->{server} eq 'SunMono') { push @depths, 2 } elsif ($card->{server} eq 'VGA16') { push @depths, 8; push @resolutions, '640x480' } elsif ($card->{BoardName} =~ /SiS/) { push @depths, 24, 16, 8 } elsif ($card->{BoardName} eq 'S3 Trio3D') { push @depths, 24, 16, 8 } } if (!@resolution_and_depth || @depths || @resolutions) { @depths = grep { !($using_xf4 && /32/) } (our @depths_available) if !@depths; @resolutions = @Xconfig::xfreeX::resolutions if !@resolutions; push @resolution_and_depth, map { my $Depth = $_; map { /(\d+)x(\d+)/; { X => $1, Y => $2, Depth => $Depth } } @resolutions; } @depths; } $prefered_depth, @resolution_and_depth; } # ($card->{VideoRam} || ($card->{server} eq 'FBDev' ? 2048 : 32768)) sub filter_using_VideoRam { my ($VideoRam, @resolutions) = @_; my $mem = 1024 * $VideoRam; grep { $_->{X} * $_->{Y} * $_->{Depth}/8 <= $mem } @resolutions; } sub filter_using_HorizSync { my ($HorizSync, @resolutions) = @_; my $hsync = max(split(/[,-]/, $HorizSync)); grep { ($min_hsync4x_res{$_->{X}} || 0) <= $hsync } @resolutions; } sub choose { my ($in, $default_resolution, @resolutions) = @_; my $resolution = $default_resolution || {}; $in->ask_from(_("Resolutions"), "", [ { val => \$resolution, type => 'list', sort => 0, list => [ sort { $a->{X} <=> $b->{X} } @resolutions ], format => sub { "$_[0]{X}x$_[0]{Y} $_[0]{Depth}bpp" }, } ]) and $resolution; } sub choices { my ($raw_X, $resolution_wanted, $card, $monitor) = @_; $resolution_wanted ||= {}; my ($prefered_depth, @resolutions) = allowed($card); @resolutions = filter_using_HorizSync($monitor->{HorizSync}, @resolutions) if $monitor->{HorizSync}; @resolutions = filter_using_VideoRam($card->{VideoRam}, @resolutions) if $card->{VideoRam}; my $x_res = do { my $res = $resolution_wanted->{X} || size2default_resolution($monitor->{size} || 14); my $x_res = first(split 'x', $res); #- take the first available resolution <= the wanted resolution max map { if_($_->{X} <= $x_res, $_->{X}) } @resolutions; }; my @matching = grep { $_->{X} eq $x_res } @resolutions; my @Depths = map { $_->{Depth} } @matching; my $Depth = $resolution_wanted->{Depth}; $Depth = $prefered_depth if !$Depth || !member($Depth, @Depths); $Depth = max(@Depths) if !$Depth || !member($Depth, @Depths); #- finding it in @resolutions (well @matching) #- (that way, we check it exists, and we get field "bios" for fbdev) my @default_resolutions = sort { $b->{Y} <=> $a->{Y} } grep { $_->{Depth} eq $Depth } @matching; my $default_resolution = first(grep { $resolution_wanted->{Y} eq $_->{Y} } @default_resolutions) || $default_resolutions[0]; $default_resolution, @resolutions; } sub configure { my ($in, $raw_X, $card, $monitor, $auto) = @_; my ($default_resolution, @resolutions) = choices($raw_X, $raw_X->get_resolution, $card, $monitor); if ($in->isa('interactive::gtk')) { $default_resolution = choose_gtk($card, $default_resolution, @resolutions) or return; } else { $default_resolution = choose($in, $default_resolution, @resolutions) or return; } $raw_X->set_resolution($default_resolution); $default_resolution; } sub configure_auto_install { my ($raw_X, $card, $monitor, $old_X) = @_; my $resolution_wanted = { X => $old_X->{resolution_wanted}, Depth => $old_X->{default_depth} }; my ($default_resolution) = choices($raw_X, $resolution_wanted, $card, $monitor); $default_resolution or die "you selected an unusable depth"; $raw_X->set_resolution($default_resolution); $default_resolution; } sub choose_gtk { my ($card, $default_resolution, @resolutions) = @_; my ($chosen_x_res, $chosen_y_res, $chosen_Depth) = @$default_resolution{'X', 'Y', 'Depth'}; $chosen_x_res ||= 640; my %x_res2depth; push @{$x_res2depth{$_->{X}}}, $_->{Depth} foreach @resolutions; my %depth2x_res; push @{$depth2x_res{$_->{Depth}}}, $_->{X} foreach @resolutions; require my_gtk; my_gtk->import(qw(:helpers :wrappers)); my $W = my_gtk->new(_("Resolution")); my %monitor_images_x_res = do { my @l = qw(640 800 1024 1280); my %h = map { $_ => [ gtkcreate_png("monitor-$_.png") ] } @l; #- for the other, use the biggest smaller foreach my $x_res (uniq map { $_->{X} } @resolutions) { my $x_res_ = max(grep { $_ <= $x_res } @l); $h{$x_res} ||= $h{$x_res_}; } %h; }; my ($depth_combo, $x_res_combo); my $pix_colors = gtkpng("colors"); my $set_chosen_Depth_image = sub { $pix_colors->set(gtkcreate_png( $chosen_Depth >= 24 ? "colors.png" : $chosen_Depth >= 15 ? "colors16.png" : "colors8.png")); }; my $set_chosen_Depth = sub { $chosen_Depth = $_[0]; $depth_combo->entry->set_text(translate($depth2text{$chosen_Depth})); $set_chosen_Depth_image->(); }; my $pixmap_mo; my $set_chosen_x_res = sub { $chosen_x_res = $_[0]; if ($_[1]) { $chosen_y_res = $_[1]; } else { #- take one my ($one) = grep { $_->{X} eq $chosen_x_res } @resolutions; $chosen_y_res = $one->{Y}; } my $image = $monitor_images_x_res{$chosen_x_res} or internal_error("no image for resolution $chosen_x_res"); $pixmap_mo ? $pixmap_mo->set($image->[0], $image->[1]) : ($pixmap_mo = new Gtk::Pixmap($image->[0], $image->[1])); }; $set_chosen_x_res->($chosen_x_res, $chosen_y_res); gtkadd($W->{window}, gtkpack_($W->create_box_with_title(_("Choose the resolution and the color depth"), if_($card->{BoardName}, "(" . _("Graphics card: %s", $card->{BoardName}) . ")"), ), 1, gtkpack2(new Gtk::VBox(0,0), gtkpack2__(new Gtk::VBox(0, 15), $pixmap_mo, gtkpack2(new Gtk::HBox(0,0), create_packtable({ col_spacings => 5, row_spacings => 5 }, [ $x_res_combo = new Gtk::Combo, new Gtk::Label("")], [ $depth_combo = new Gtk::Combo, gtkadd(gtkset_shadow_type(new Gtk::Frame, 'etched_out'), $pix_colors) ], ), ), ), ), 0, gtkadd($W->create_okcancel(_("Ok"), _("Cancel"))), )); $depth_combo->disable_activate; $depth_combo->set_use_arrows_always(1); $depth_combo->entry->set_editable(0); $depth_combo->set_popdown_strings(map { translate($depth2text{$_}) } ikeys %depth2x_res); $depth_combo->entry->set_usize(220, 0); $depth_combo->entry->signal_connect(changed => sub { my %txt2depth = reverse %depth2text; my $s = $depth_combo->entry->get_text; $chosen_Depth = $txt2depth{untranslate($s, keys %txt2depth)}; $set_chosen_Depth_image->(); if (!member($chosen_x_res, @{$depth2x_res{$chosen_Depth}})) { $set_chosen_x_res->(max(@{$depth2x_res{$chosen_Depth}})); } }); $x_res_combo->disable_activate; $x_res_combo->set_use_arrows_always(1); $x_res_combo->entry->set_editable(0); $x_res_combo->set_popdown_strings(uniq map { "$_->{X}x$_->{Y}" } sort { $a->{X} <=> $b->{X} } @resolutions); $x_res_combo->entry->signal_connect(changed => sub { $x_res_combo->entry->get_text =~ /(\d+)x(\d+)/; $set_chosen_x_res->($1, $2); if (!member($chosen_Depth, @{$x_res2depth{$chosen_x_res}})) { $set_chosen_Depth->(max(@{$x_res2depth{$chosen_x_res}})); } }); $set_chosen_Depth->($chosen_Depth); $W->{ok}->grab_focus; $x_res_combo->entry->set_text($chosen_x_res . "x" . $chosen_y_res); $W->main or return; first(grep { $_->{X} == $chosen_x_res && $_->{Y} == $chosen_y_res && $_->{Depth} == $chosen_Depth } @resolutions); } 1;