#!/opt/bin/perl use Cwd (); use Encode (); use Gtk2 -init; use Gtk2::Gdk::Keysyms; use Gtk2::CV; use Gtk2::CV::ImageWindow; use Gtk2::CV::Schnauzer; BEGIN { require Gtk2::CV::Plugin; require "$ENV{HOME}/.cvrc" if -r "$ENV{HOME}/.cvrc"; } use Gtk2::CV::Plugin::NameCluster; use Gtk2::CV::Plugin::RCluster; Gtk2::Rc->parse (Gtk2::CV::find_rcfile "gtkrc"); use File::Spec; my $mainwin; my $viewer; my $schnauzer; my $info; my $help; my $schnauzer_idx = 0; sub new_schnauzer { my $s = new Gtk2::CV::Schnauzer; $s->signal_connect_after (key_press_event => \&std_keys); $s->signal_connect (activate => sub { my $label = sprintf "%s (%d)", (File::Spec->splitpath ($_[1]))[2], -s $_[1]; $info->set_label ($label); $viewer->load_image ($_[1]); }); Gtk2::CV::Plugin->call (new_schnauzer => $s); $s } sub std_keys { my $key = $_[1]->keyval; my $state = $_[1]->state; my $ctrl = $state * "control-mask"; if ($key == $Gtk2::Gdk::Keysyms{q}) { main_quit Gtk2; } elsif ($ctrl && $key == $Gtk2::Gdk::Keysyms{v}) { my $w = new Gtk2::Window; $w->set_title ("CV: Schnauzer"); $w->add (my $s = new_schnauzer); $s->set_dir (File::Spec->curdir); $s->set_geometry_hints; $w->show_all; } elsif ($ctrl && $key == $Gtk2::Gdk::Keysyms{h}) { unless ($help) { require Gtk2::PodViewer; $help = new Gtk2::Window; $help->set_title ("CV: Help"); $help->set_default_size (500, 300); $help->signal_connect (delete_event => sub { $help->hide; 1 }); $help->add (my $sw = new Gtk2::ScrolledWindow); $sw->add (my $h = new Gtk2::PodViewer); #binmode DATA, ":utf8"; $h->load_string (do { local $/; }); } $help->show_all; } else { return 0; } 1 } { $viewer = new Gtk2::CV::ImageWindow; $viewer->set_title ("CV: Image"); $viewer->signal_connect (key_press_event => sub { &std_keys or $schnauzer->signal_emit (key_press_event => $_[1]) }); $viewer->signal_connect (delete_event => sub { main_quit Gtk2 }); $viewer->signal_connect (button3_press_event => sub { $mainwin->visible ? $mainwin->hide : $mainwin->show_all; 1 }); Gtk2::CV::Plugin->call (new_imagewindow => $viewer); $schnauzer = new_schnauzer; $mainwin = new Gtk2::Window; $mainwin->set_title ("CV"); $mainwin->add (my $vbox = new Gtk2::VBox); $mainwin->signal_connect (delete_event => sub { $mainwin->hide; 1 }); $vbox->add ($schnauzer); $vbox->pack_end (my $frame = new Gtk2::Frame, 0, 0, 0); $frame->add (my $hbox = new Gtk2::HBox 0, 0); $hbox->pack_start ((new Gtk2::Label "Info: "), 0, 0, 0); $hbox->pack_end (my $labelwindow = new Gtk2::EventBox, 1, 1, 0); $labelwindow->add ($info = new Gtk2::Label); $labelwindow->signal_connect_after (size_request => sub { $_[1]->width (0); 0 }); $info->set (selectable => 1, xalign => 0, justify => "left"); $schnauzer->set_geometry_hints; } if (@ARGV) { @ARGV == 1 && -d $ARGV[0] ? $schnauzer->set_dir (Glib::filename_to_unicode shift) : $schnauzer->set_paths ([map Glib::filename_to_unicode $_, @ARGV]); $schnauzer->show_all; $schnauzer->handle_key ($Gtk2::Gdk::Keysyms{space}, []); } else { $schnauzer->set_dir (File::Spec->curdir); $mainwin->show_all; } $viewer->show_all; main Gtk2; __DATA__ =head1 NAME cv - a fast gtk+ image viewer loosely modeled after XV =head1 SYNOPSIS cv [file...] =head1 FEATURES CV is supposed to work similar to the venerable XV image viewer, just faster. Why faster? =over 4 =item * optimized directory scanning algorithm The directory scanning in CV plays some tricks that - on most modern filesystems - makes it possible to detect filetypes faster than stat()'ing every file. This makes CV suitable for directories with lots of files (10000+). This algorithm is quite unprecise - it doesn't make a difference between files, device nodes, symlinks and the like, and filetype detection is done using the file extension only. =item * queuing for all time-consuming background tasks All tasks, such as unlinking files or generating thumbnails, that can be done in the background will be done so - no waiting required, even when changing directories. =item * use of asynchronous I/O CV tries to use asynchronous I/O whereever it makes sense, for example while scanning directories, waiting for stat data, unlinking files or generating thumbnails. This usually decreases scanning times for large directories a bit (especially on RAID devices and over NFS) and makes CV much more interactive. =item * fast image loading The time span between the user issuing a command and displaying the new image should be as small as possible. CV uses optimized (especially for JPEG) loading functions and sacrifices some quality (e.g no gamma correction) to achieve this speed. =item * fast thumbnail creation Thumbnail creation is crucial for me, so it's better be fast. Thumbnail creation for JPEGs has been specially optimized. =item * minimum optical clutter CV has no menus or other user interface elements that take up a lot of screen space. The schnauzer windows can also be somewhat crowded. The point of an image viewer is viewing images, not a nice GUI. This is similar to XV's behaviour. =item * efficient (and hard to learn) user interface CV uses key combinations. A lot. If you are an experienced XV user, you will find most of these keys familiar. If not, CV might be hard to use at first, but will be an efficient tool later. =item * i18n'ed filename handling throughout As long as glib can recognize your filename encoding (either UTF-8 or locale-specific, depending on your settings) and you have the relevant fonts, CV will display your filenames correctly. =item * extensible through plug-ins I have weird plug-ins that access remote databases to find a directory. This is not likely to be of any use to other people. Likewise, others might have weird requirements I cannot dream of. =item * filename clustering Among the standard plug-ins is a filename clustering plug-in, that (in case of tens of thousands images in one directory) might be able to cluster similar names together. =back =head1 DESCRIPTION =head2 THE IMAGE WINDOW You can use the following keys in the image window: q quit the program < half the image size > double the image size , shrink the image by 10% . enlarge the image by 10% n reset to normal size m maximize to screensize M maximize to screensize, respecting image aspect ctrl-m toggle maxpect-always mode u uncrop r set scaling mode to 'nearest' (fastest) s set scaling mode to 'bilinear' (default) shift-s set scaling mode to 'hyper' (slowest) t rotate clockwise 90° T rotate counterclockwise° ctrl-v open a new visual schnauzer window for the current dir ctrl-e run an editor ($CV_EDITOR or "gimp") on the current image ctrl-p fire up the print fialog escape cancel a crop action And when playing movies, these additional keys are active: left rewind by 10 seconds right forward by 10 seconds down rewind by 60 seconds up forward by 60 seconds pg_up rewind by 600 seconds pg_down forward by 600 seconds o toggle on-screen display p pause/unpause escape stop playing 9 turn volume down 0 turn volume up Any other keys will be sent to the default schnauzer window, which can be toggled on and off by right-clicking into the image window. Left-clicking into the image window will let you crop the image (usually to zoom into large images that CV scales down). =head2 THE VISUAL SCHNAUZER You can use the following keys in the schnauzer window: ctrl-space, space move to and display next image ctrl-backspace, backspace move to and display previous image ctrl-return, return display selected picture, or enter directory cursor keys move selection page-up move one page up page-down move one page down home move to first file end move to last file ctrl-a select all files ctrl-shift-a select all files currently displayed in the schnauzer window ctrl-d delete selected files WITHOUT ASKING AGAIN ctrl-g force generation of thumbnais for the selected files ctrl-s rescan current direcory or files updates/deletes etc. ctrl-u update selected (or all) icons if neccessary ctrl-l don't use, will become a plug-in eventually 0-9, a-z find the first filename beginning with this letter Right-clicking into the schnauzer window displays a pop-up menu with additional actions. =head1 FILES When starting, CV runs the F<.cvrc> file in your F<$HOME> directory as if it were a perl script. in that, you will mostly load plug-ins. Example: system "fping -q -t 10 ether" or require "/fs/cv/cvplugin.pl"; This will load a plug-in, but only if the machine I is reachable (supposedly the plug-in is networked in some way :). =head1 ENVIRONMENT =over 4 =item CV_EDITOR The program that gets executed when the user presses C in the Schnauzer or image window. The default is C. =item CV_PRINT_DESTINATION The default (perl-style) destination to use in the print dialog. =item CV_TRASHCAN When set, must point to a directory where all files that are deleted are moved to. If unset, files that are deleted are really being deleted. =back =head1 SECURITY CONSIDERATIONS CV uses Pixbuf to load non-JPEG images. Pixbuf is not considered safe for this purpose, though (from the gtk-2.2 release notes): "While efforts have been made to make gdk-pixbuf robust against invalid images, using gdk-pixbuf to load untrusted data is not recommended, due to the likelyhood that there are additional problems where an invalid image could cause gdk-pixbuf to crash or worse." =head1 BUGS/TODO Lots of functionality is missing. Pixbuf doesn't always honor G_BROKEN_FILENAMES, so accessing files with names incompatible with utf-8 might fail. rotate on disk lots of ui issues save(?) preferences =head1 AUTHOR Marc Lehmann . =cut