NAME AnyEvent::MPV - remote control mpv (https://mpv.io) SYNOPSIS use AnyEvent::MPV; my $videofile = "path/to/file.mkv"; use AnyEvent; my $mpv = AnyEvent::MPV->new (trace => 1); $mpv->start ("--idle=yes"); $mpv->cmd (loadfile => $mpv->escape_binary ($videofile)); my $quit = AE::cv; $mpv->register_event (end_file => $quit); $quit->recv; DESCRIPTION This module allows you to remote control mpv (a video player). It also is an AnyEvent user, you need to make sure that you use and run a supported event loop. There are other modules doing this, and I haven't looked much at them other than to decide that they don't handle encodings correctly, and since none of them use AnyEvent, I wrote my own. When in doubt, have a look at them, too. Knowledge of the mpv command interface is required to use this module. Features of this module are: uses AnyEvent, so integrates well into most event-based programs supports asynchronous and synchronous operation allows you to properly pass binary filenames accepts data encoded in any way (does not crash when mpv replies with non UTF-8 data) features a simple keybind/event system OVERVIEW OF OPERATION This module forks an mpv process and uses --input-ipc-client (or equivalent) to create a bidirectional communication channel between it and the mpv process. It then speaks the somewhat JSON-looking (but not really being JSON) protocol that mpv implements to both send it commands, decode and handle replies, and handle asynchronous events. Here is a very simple client: use AnyEvent; use AnyEvent::MPV; my $videofile = "./xyzzy.mkv"; my $mpv = AnyEvent::MPV->new (trace => 1); $mpv->start ("--", $videofile); my $timer = AE::timer 2, 0, my $quit = AE::cv; $quit->recv; This starts mpv with the two arguments "--" and $videofile, which it should load and play. It then waits two seconds by starting a timer and quits. The "trace" argument to the constructor makes mpv more verbose and also prints the commands and responses, so you can have an idea what is going on. In my case, the above example would output something like this: [uosc] Disabled because original osc is enabled! mpv> {"event":"start-file","playlist_entry_id":1} mpv> {"event":"tracks-changed"} (+) Video --vid=1 (*) (h264 480x480 30.000fps) mpv> {"event":"metadata-update"} mpv> {"event":"file-loaded"} Using hardware decoding (nvdec). mpv> {"event":"video-reconfig"} VO: [gpu] 480x480 cuda[nv12] mpv> {"event":"video-reconfig"} mpv> {"event":"playback-restart"} This is not usually very useful (you could just run mpv as a simple shell command), so let us load the file at runtime: use AnyEvent; use AnyEvent::MPV; my $videofile = "./xyzzy.mkv"; my $mpv = AnyEvent::MPV->new ( trace => 1, args => ["--pause", "--idle=yes"], ); $mpv->start; $mpv->cmd_recv (loadfile => $mpv->escape_binary ($videofile)); $mpv->cmd ("set", "pause", "no"); my $timer = AE::timer 2, 0, my $quit = AE::cv; $quit->recv; This specifies extra arguments in the constructor - these arguments are used every time you "->start" mpv, while the arguments to "->start" are only used for this specific call to "start". The argument --pause keeps mpv in pause mode (i.e. it does not play the file after loading it), and "--idle=yes" tells mpv to not quit when it does not have a playlist - as no files are specified on the command line. To load a file, we then send it a "loadfile" command, which accepts, as first argument, the URL or path to a video file. To make sure mpv does not misinterpret the path as a URL, it was prefixed with ./ (similarly to "protecting" paths in perls "open"). Since commands send *to* mpv are send in UTF-8, we need to escape the filename (which might be in any encoding) using the "escape_binary" method - this is not needed if your filenames are just ASCII, or magically get interpreted correctly, but if you accept arbitrary filenames (e.g. from the user), you need to do this. The "cmd_recv" method then queues the command, waits for a reply and returns the reply data (or croaks on error). mpv would, at this point, load the file and, if everything was successful, show the first frame and pause. Note that, since mpv is implement rather synchronously itself, do not expect commands to fail in many circumstances - for example, fit he file does not exit, you will likely get an event, but the "loadfile" command itself will run successfully. To unpause, we send another command, "set", to set the "pause" property to "no", this time using the "cmd" method, which queues the command, but instead of waiting for a reply, it immediately returns a condvar that can be used to receive results. This should then cause mpv to start playing the video. It then again waits two seconds and quits. Now, just waiting two seconds is rather, eh, unuseful, so let's look at receiving events (using a somewhat embellished example): use AnyEvent; use AnyEvent::MPV; my $videofile = "xyzzy.mkv"; my $quit = AE::cv; my $mpv = AnyEvent::MPV->new ( trace => 1, args => ["--pause", "--idle=yes"], ); $mpv->start; $mpv->register_event (start_file => sub { $mpv->cmd ("set", "pause", "no"); }); $mpv->register_event (end_file => sub { my ($mpv, $event, $data) = @_; print "end-file<$data->{reason}>\n"; $quit->send; }); $mpv->cmd (loadfile => $mpv->escape_binary ($videofile)); $quit->recv; This example uses a global condvar $quit to wait for the file to finish playing. Also, most of the logic is now implement in event handlers. The two events handlers we register are "start-file", which is emitted by mpv once it has loaded a new file, and "end-file", which signals the end of a file (underscores are internally replaced by minus signs, so you can specify event names with either). In the "start-file" event, we again set the "pause" property to "no" so the movie starts playing. For the "end-file" event, we tell the main program to quit by invoking $quit. This should conclude the basics of operation. There are a few more examples later in the documentation. ENCODING CONVENTIONS As a rule of thumb, all data you pass to this module to be sent to mpv is expected to be in unicode. To pass something that isn't, you need to escape it using "escape_binary". Data received from mpv, however, is *not* decoded to unicode, as data returned by mpv is not generally encoded in unicode, and the encoding is usually unspecified. So if you receive data and expect it to be in unicode, you need to first decode it from UTF-8, but note that this might fail. This is not a limitation of this module - mpv simply does not specify nor guarantee a specific encoding, or any encoding at all, in its protocol. METHODS $mpv = AnyEvent::MPV->new (key => value...) Creates a new "mpv" object, but does not yet do anything. The support key-value pairs are: mpv => $path The path to the mpv binary to use - by default, "mpv" is used and therefore, uses your "PATH" to find it. args => [...] Arguments to pass to mpv. These arguments are passed after the hardcoded arguments used by this module, but before the arguments passed ot "start". It does not matter whether you specify your arguments using this key, or in the "start" call, but when you invoke mpv multiple times, typically the arguments used for all invocations go here, while arguments used for specific invocations (e..g filenames) are passed to "start". trace => false|true|coderef Enables tracing if true. In trace mode, output from mpv is printed to standard error using a "mpv>" prefix, and commands sent to mpv are printed with a ">mpv" prefix. If a code reference is passed, then instead of printing to standard error, this coderef is invoked with a first argument being either "mpv>" or ">mpv", and the second argument being a string to display. The default implementation simply does this: sub { warn "$_[0] $_[1]\n"; } on_eof => $coderef->($mpv) on_event => $coderef->($mpv, $event, $data) on_key => $coderef->($mpv, $string) These are invoked by the default method implementation of the same name - see below. $string = $mpv->escape_binary ($string) This module expects all command data sent to mpv to be in unicode. Some things are not, such as filenames. To pass binary data such as filenames through a command, you need to escape it using this method. The simplest example is a "loadfile" command: $mpv->cmd_recv (loadfile => $mpv->escape_binary ($path)); $started = $mpv->start (argument...) Starts mpv, passing the given arguments as extra arguments to mpv. If mpv is already running, it returns false, otherwise it returns a true value, so you can easily start mpv on demand by calling "start" just before using it, and if it is already running, it will not be started again. The arguments passed to mpv are a set of hard-coded built-in arguments, followed by the arguments specified in the constructor, followed by the arguments passed to this method. The built-in arguments currently are --no-input-terminal, --really-quiet (or --quiet in "trace" mode), and "--input-ipc-client" (or equivalent). Some commonly used and/or even useful arguments you might want to pass are: --idle=yes or --idle=once to keep mpv from quitting when you don't specify a file to play. --pause, to keep mpv from instantly starting to play a file, in case you want to inspect/change properties first. --force-window=no (or similar), to keep mpv from instantly opening a window, or to force it to do so. --audio-client-name=yourappname, to make sure audio streams are associated witht eh right program. --wid=id, to embed mpv into another application. --no-terminal, --no-input-default-bindings, --no-input-cursor, --input-conf=/dev/null, --input-vo-keyboard=no - to ensure only you control input. The return value can be used to decide whether mpv needs initializing: if ($mpv->start) { $mpv->bind_key (...); $mpv->cmd (set => property => value); ... } You can immediately starting sending commands when this method returns, even if mpv has not yet started. $mpv->stop Ensures that mpv is being stopped, by killing mpv with a "TERM" signal if needed. After this, you can "->start" a new instance again. $mpv->on_eof This method is called when mpv quits - usually unexpectedly. The default implementation will call the "on_eof" code reference specified in the constructor, or do nothing if none was given. For subclassing, see *SUBCLASSING*, below. $mpv->on_event ($event, $data) This method is called when mpv sends an asynchronous event. The default implementation will call the "on_event" code reference specified in the constructor, or do nothing if none was given. The first/implicit argument is the $mpv object, the second is the event name (same as "$data->{event}", purely for convenience), and the third argument is the event object as sent by mpv (sans "event" key). See List of events in its documentation. For subclassing, see *SUBCLASSING*, below. $mpv->on_key ($string) Invoked when a key declared by "->bind_key" is pressed. The default invokes the "on_key" code reference specified in the constructor with the $mpv object and the key name as arguments, or do nothing if none was given. For more details and examples, see the "bind_key" method. For subclassing, see *SUBCLASSING*, below. $mpv->cmd ($command => $arg, $arg...) Queues a command to be sent to mpv, using the given arguments, and immediately return a condvar. See the mpv documentation for details on individual commands. The condvar can be ignored: $mpv->cmd (set_property => "deinterlace", "yes"); Or it can be used to synchronously wait for the command results: $cv = $mpv->cmd (get_property => "video-format"); $format = $cv->recv; # or simpler: $format = $mpv->cmd (get_property => "video-format")->recv; # or even simpler: $format = $mpv->cmd_recv (get_property => "video-format"); Or you can set a callback: $cv = $mpv->cmd (get_property => "video-format"); $cv->cb (sub { my $format = $_[0]->recv; }); On error, the condvar will croak when "recv" is called. $result = $mpv->cmd_recv ($command => $arg, $arg...) The same as calling "cmd" and immediately "recv" on its return value. Useful when you don't want to mess with mpv asynchronously or simply needs to have the result: $mpv->cmd_recv ("stop"); $position = $mpv->cmd_recv ("get_property", "playback-time"); $mpv->bind_key ($INPUT => $string) This is an extension implement by this module to make it easy to get key events. The way this is implemented is to bind a "client-message" with a first argument of "AnyEvent::MPV" and the $string you passed. This $string is then passed to the "on_key" handle when the key is processed, e.g.: my $mpv = AnyEvent::MPV->new ( on_key => sub { my ($mpv, $key) = @_; if ($key eq "letmeout") { print "user pressed escape\n"; } }, ); $mpv_>bind_key (ESC => "letmeout"); You can find a list of key names in the mpv documentation . The key configuration is lost when mpv is stopped and must be (re-)done after every "start". [$guard] = $mpv->register_event ($event => $coderef->($mpv, $event, $data)) This method registers a callback to be invoked for a specific event. Whenever the event occurs, it calls the coderef with the $mpv object, the $event name and the event object, just like the "on_event" method. For a list of events, see the mpv documentation . Any underscore in the event name is replaced by a minus sign, so you can specify event names using underscores for easier quoting in Perl. In void context, the handler stays registered until "stop" is called. In any other context, it returns a guard object that, when destroyed, will unregister the handler. You can register multiple handlers for the same event, and this method does not interfere with the "on_event" mechanism. That is, you can completely ignore this method and handle events in a "on_event" handler, or mix both approaches as you see fit. Note that unlike commands, event handlers are registered immediately, that is, you can issue a command, then register an event handler and then get an event for this handler *before* the command is even sent to mpv. If this kind of race is an issue, you can issue a dummy command such as "get_version" and register the handler when the reply is received. [$guard] = $mpv->observe_property ($name => $coderef->($mpv, $name, $value)) [$guard] = $mpv->observe_property_string ($name => $coderef->($mpv, $name, $value)) These methods wrap a registry system around mpv's "observe_property" and "observe_property_string" commands - every time the named property changes, the coderef is invoked with the $mpv object, the name of the property and the new value. For a list of properties that you can observe, see the mpv documentation . Due to the (sane :) way mpv handles these requests, you will always get a property change event right after registering an observer (meaning you don't have to query the current value), and it is also possible to register multiple observers for the same property - they will all be handled properly. When called in void context, the observer stays in place until mpv is stopped. In any other context, these methods return a guard object that, when it goes out of scope, unregisters the observe using "unobserve_property". Internally, this method uses observer ids of 2**52 (0x10000000000000) or higher - it will not interfere with lower observer ids, so it is possible to completely ignore this system and execute "observe_property" commands yourself, whilst listening to "property-change" events - as long as your ids stay below 2**52. Example: register observers for changes in "aid" and "sid". Note that a dummy statement is added to make sure the method is called in void context. sub register_observers { my ($mpv) = @_; $mpv->observe_property (aid => sub { my ($mpv, $name, $value) = @_; print "property aid (=$name) has changed to $value\n"; }); $mpv->observe_property (sid => sub { my ($mpv, $name, $value) = @_; print "property sid (=$name) has changed to $value\n"; }); () # ensure the above method is called in void context } SUBCLASSING Like most perl objects, "AnyEvent::MPV" objects are implemented as hashes, with the constructor simply storing all passed key-value pairs in the object. If you want to subclass to provide your own "on_*" methods, be my guest and rummage around in the internals as much as you wish - the only guarantee that this module does is that it will not use keys with double colons in the name, so you can use those, or chose to simply not care and deal with the breakage. If you don't want to go to the effort of subclassing this module, you can also specify all event handlers as constructor keys. EXAMPLES Here are some real-world code snippets, thrown in here mainly to give you some example code to copy. doomfrontend At one point I replaced mythtv-frontend by my own terminal-based video player (based on rxvt-unicode). I toyed with the idea of using mpv's subtitle engine to create the user interface, but that is hard to use since you don't know how big your letters are. It is also where most of this modules code has originally been developed in. It uses a unified input queue to handle various remote controls, so its event handling needs are very simple - it simply feeds all events into the input queue: my $mpv = AnyEvent::MPV->new ( mpv => $MPV, args => \@MPV_ARGS, on_event => sub { input_feed "mpv/$_[1]", $_[2]; }, on_key => sub { input_feed $_[1]; }, on_eof => sub { input_feed "mpv/quit"; }, ); ... $mpv->start ("--idle=yes", "--pause", "--force-window=no"); It also doesn't use complicated command line arguments - the file search options have the most impact, as they prevent mpv from scanning directories with tens of thousands of files for subtitles and more: --audio-client-name=doomfrontend --osd-on-seek=msg-bar --osd-bar-align-y=-0.85 --osd-bar-w=95 --sub-auto=exact --audio-file-auto=exact Since it runs on a TV without a desktop environment, it tries to keep complications such as dbus away and the screensaver happy: # prevent xscreensaver from doing something stupid, such as starting dbus $ENV{DBUS_SESSION_BUS_ADDRESS} = "/"; # prevent dbus autostart for sure $ENV{XDG_CURRENT_DESKTOP} = "generic"; It does bind a number of keys to internal (to doomfrontend) commands: for ( List::Util::pairs qw( ESC return q return ENTER enter SPACE pause [ steprev ] stepfwd j subtitle BS red i green o yellow b blue D triangle UP up DOWN down RIGHT right LEFT left ), (map { ("KP$_" => "num$_") } 0..9), KP_INS => 0, # KP0, but different ) { $mpv->bind_key ($_->[0] => $_->[1]); } It also reacts to sponsorblock chapters, so it needs to know when video chapters change. Predating "AnyEvent::MPV", it handles observers manually instead of using "observe_property": $mpv->cmd (observe_property => 1, "chapter-metadata"); It also tries to apply an mpv profile, if it exists: eval { # the profile is optional $mpv->cmd ("apply-profile" => "doomfrontend"); }; Most of the complicated parts deal with saving and restoring per-video data, such as bookmarks, playing position, selected audio and subtitle tracks and so on. However, since it uses Coro, it can conveniently block and wait for replies, which is not possible in purely event based programs, as you are not allowed to block inside event callbacks in most event loops. This simplifies the code quite a bit. When the file to be played is a TV recording done by mythtv, it uses the "appending" protocol and deinterlacing: if (is_myth $mpv_path) { $mpv_path = "appending://$mpv_path"; $initial_deinterlace = 1; } Otherwise, it sets some defaults and loads the file (I forgot what the "dummy" argument is for, but I am sure it is needed by some mpv version): $mpv->cmd ("script-message", "osc-visibility", "never", "dummy"); $mpv->cmd ("set", "vid", "auto"); $mpv->cmd ("set", "aid", "auto"); $mpv->cmd ("set", "sid", "no"); $mpv->cmd ("set", "file-local-options/chapters-file", $mpv->escape_binary ("$mpv_path.chapters")); $mpv->cmd ("loadfile", $mpv->escape_binary ($mpv_path)); $mpv->cmd ("script-message", "osc-visibility", "auto", "dummy"); Handling events makes the main bulk of video playback code. For example, various ways of ending playback: if ($INPUT eq "mpv/quit") { # should not happen, but allows user to kill etc. without consequence $status = 1; mpv_init; # try reinit last; } elsif ($INPUT eq "mpv/idle") { # normal end-of-file last; } elsif ($INPUT eq "return") { $status = 1; last; Or the code that actually starts playback, once the file is loaded: our %SAVE_PROPERTY = (aid => 1, sid => 1, "audio-delay" => 1); ... my $oid = 100; } elsif ($INPUT eq "mpv/file-loaded") { # start playing, configure video $mpv->cmd ("seek", $playback_start, "absolute+exact") if $playback_start > 0; my $target_fps = eval { $mpv->cmd_recv ("get_property", "container-fps") } || 60; $target_fps *= play_video_speed_mult; set_fps $target_fps; unless (eval { $mpv->cmd_recv ("get_property", "video-format") }) { $mpv->cmd ("set", "file-local-options/lavfi-complex", "[aid1] asplit [ao], showcqt=..., format=yuv420p [vo]"); }; for my $prop (keys %SAVE_PROPERTY) { if (exists $PLAYING_STATE->{"mpv_$prop"}) { $mpv->cmd ("set", "$prop", $PLAYING_STATE->{"mpv_$prop"} . ""); } $mpv->cmd ("observe_property", ++$oid, $prop); } play_video_set_speed; $mpv->cmd ("set", "osd-level", "$OSD_LEVEL"); $mpv->cmd ("observe_property", ++$oid, "osd-level"); $mpv->cmd ("set", "pause", "no"); $mpv->cmd ("set_property", "deinterlace", "yes") if $initial_deinterlace; There is a lot going on here. First it seeks to the actual playback position, if it is not at the start of the file (it would probably be more efficient to set the starting position before loading the file, though, but this is good enough). Then it plays with the display fps, to set it to something harmonious w.r.t. the video framerate. If the file does not have a video part, it assumes it is an audio file and sets a visualizer. Also, a number of properties are not global, but per-file. At the moment, this is "audio-delay", and the current audio/subtitle track, which it sets, and also creates an observer. Again, this doesn't use the observe functionality of this module, but handles it itself, assigning observer ids 100+ to temporary/per-file observers. Lastly, it sets some global (or per-youtube-uploader) parameters, such as speed, and unpauses. Property changes are handled like other input events: } elsif ($INPUT eq "mpv/property-change") { my $prop = $INPUT_DATA->{name}; if ($prop eq "chapter-metadata") { if ($INPUT_DATA->{data}{TITLE} =~ /^\[SponsorBlock\]: (.*)/) { my $section = $1; my $skip; $skip ||= $SPONSOR_SKIP{$_} for split /\s*,\s*/, $section; if (defined $skip) { if ($skip) { # delay a bit, in case we get two metadata changes in quick succession, e.g. # because we have a skip at file load time. $skip_delay = AE::timer 2/50, 0, sub { $mpv->cmd ("no-osd", "add", "chapter", 1); $mpv->cmd ("show-text", "skipped sponsorblock section \"$section\"", 3000); }; } else { undef $skip_delay; $mpv->cmd ("show-text", "NOT skipping sponsorblock section \"$section\"", 3000); } } else { $mpv->cmd ("show-text", "UNRECOGNIZED sponsorblock section \"$section\"", 60000); } } else { # cancel a queued skip undef $skip_delay; } } elsif (exists $SAVE_PROPERTY{$prop}) { $PLAYING_STATE->{"mpv_$prop"} = $INPUT_DATA->{data}; ::state_save; } This saves back the per-file properties, and also handles chapter changes in a hacky way. Most of the handlers are very simple, though. For example: } elsif ($INPUT eq "pause") { $mpv->cmd ("cycle", "pause"); $PLAYING_STATE->{curpos} = $mpv->cmd_recv ("get_property", "playback-time"); } elsif ($INPUT eq "right") { $mpv->cmd ("osd-msg-bar", "seek", 30, "relative+exact"); } elsif ($INPUT eq "left") { $mpv->cmd ("osd-msg-bar", "seek", -5, "relative+exact"); } elsif ($INPUT eq "up") { $mpv->cmd ("osd-msg-bar", "seek", +600, "relative+exact"); } elsif ($INPUT eq "down") { $mpv->cmd ("osd-msg-bar", "seek", -600, "relative+exact"); } elsif ($INPUT eq "select") { $mpv->cmd ("osd-msg-bar", "add", "audio-delay", "-0.100"); } elsif ($INPUT eq "start") { $mpv->cmd ("osd-msg-bar", "add", "audio-delay", "0.100"); } elsif ($INPUT eq "intfwd") { $mpv->cmd ("no-osd", "frame-step"); } elsif ($INPUT eq "audio") { $mpv->cmd ("osd-auto", "cycle", "audio"); } elsif ($INPUT eq "subtitle") { $mpv->cmd ("osd-auto", "cycle", "sub"); } elsif ($INPUT eq "triangle") { $mpv->cmd ("osd-auto", "cycle", "deinterlace"); Once a file has finished playing (or the user strops playback), it pauses, unobserves the per-file observers, and saves the current position for to be able to resume: $mpv->cmd ("set", "pause", "yes"); while ($oid > 100) { $mpv->cmd ("unobserve_property", $oid--); } $PLAYING_STATE->{curpos} = $mpv->cmd_recv ("get_property", "playback-time"); And that's most of the mpv-related code. Gtk2::CV Gtk2::CV is low-feature image viewer that I use many times daily because it can handle directories with millions of files without falling over. It also had the ability to play videos for ages, but it used an older, crappier protocol to talk to mpv and used ffprobe before playing each file instead of letting mpv handle format/size detection. After writing this module, I decided to upgrade Gtk2::CV by making use of it, with the goal of getting rid of ffprobe and being able to reuse mpv processes, which would have a multitude of speed benefits (for example, fork+exec of mpv caused the kernel to close all file descriptors, which could take minutes if a large file was being copied via NFS, as the kernel waited for the buffers to be flushed on close - not having to start mpv gets rid of this issue). Setting up is only complicated by the fact that mpv needs to be embedded into an existing window. To keep control of all inputs, Gtk2::CV puts an eventbox in front of mpv, so mpv receives no input events: $self->{mpv} = AnyEvent::MPV->new ( trace => $ENV{CV_MPV_TRACE}, ); # create an eventbox, so we receive all input events my $box = $self->{mpv_eventbox} = new Gtk2::EventBox; $box->set_above_child (1); $box->set_visible_window (0); $box->set_events ([]); $box->can_focus (0); # create a drawingarea that mpv can display into my $window = $self->{mpv_window} = new Gtk2::DrawingArea; $box->add ($window); # put the drawingarea intot he eventbox, and the eventbox into our display window $self->add ($box); # we need to pass the window id to F, which means we need to realise # the drawingarea, so an X window is allocated for it. $self->show_all; $window->realize; my $xid = $window->window->get_xid; Then it starts mpv using this setup: local $ENV{LC_ALL} = "POSIX"; $self->{mpv}->start ( "--no-terminal", "--no-input-terminal", "--no-input-default-bindings", "--no-input-cursor", "--input-conf=/dev/null", "--input-vo-keyboard=no", "--loop-file=inf", "--force-window=yes", "--idle=yes", "--audio-client-name=CV", "--osc=yes", # --osc=no displays fading play/pause buttons instead "--wid=$xid", ); $self->{mpv}->cmd ("script-message" => "osc-visibility" => "never", "dummy"); $self->{mpv}->cmd ("osc-idlescreen" => "no"); It also prepares a hack to force a ConfigureNotify event on every video reconfig event: # force a configurenotify on every video-reconfig $self->{mpv_reconfig} = $self->{mpv}->register_event (video_reconfig => sub { my ($mpv, $event, $data) = @_; $self->mpv_window_update; }); The way this is done is by doing a "dummy" resize to 1x1 and back: $self->{mpv_window}->window->resize (1, 1), $self->{mpv_window}->window->resize ($self->{w}, $self->{h}); Without this, mpv often doesn't "get" the correct window size. Doing it this way is not nice, but I didn't fine a nicer way to do it. When no file is being played, mpv is hidden and prepared: $self->{mpv_eventbox}->hide; $self->{mpv}->cmd (set_property => "pause" => "yes"); $self->{mpv}->cmd ("playlist_remove", "current"); $self->{mpv}->cmd (set_property => "video-rotate" => 0); $self->{mpv}->cmd (set_property => "lavfi-complex" => ""); Loading a file is a bit more complicated, as blu-ray and DVD rips are supported: if ($moviedir) { if ($moviedir eq "br") { $mpv->cmd (set => "bluray-device" => $path); $mpv->cmd (loadfile => "bd://"); } elsif ($moviedir eq "dvd") { $mpv->cmd (set => "dvd-device" => $path); $mpv->cmd (loadfile => "dvd://"); } } elsif ($type eq "video/iso-bluray") { $mpv->cmd (set => "bluray-device" => $path); $mpv->cmd (loadfile => "bd://"); } else { $mpv->cmd (loadfile => $mpv->escape_binary ($path)); } After this, "Gtk2::CV" waits for the file to be loaded, video to be configured, and then queries the video size (to resize its own window) and video format (to decide whether an audio visualizer is needed for audio playback). The problematic word here is "wait", as this needs to be implemented using callbacks. This made the code much harder to write, as the whole setup is very asynchronous ("Gtk2::CV" talks to the command interface in mpv, which talks to the decode and playback parts, all of which run asynchronously w.r.t. each other. In practise, this can mean that "Gtk2::CV" waits for a file to be loaded by mpv while the command interface of mpv still deals with the previous file and the decoder still handles an even older file). Adding to this fact is that Gtk2::CV is bound by the glib event loop, which means we cannot wait for replies form mpv anywhere, so everything has to be chained callbacks. The way this is handled is by creating a new empty hash ref that is unique for each loaded file, and use it to detect whether the event is old or not, and also store "AnyEvent::MPV" guard objects in it: # every time we loaded a file, we create a new hash my $guards = $self->{mpv_guards} = { }; Then, when we wait for an event to occur, delete the handler, and, if the "mpv_guards" object has changed, we ignore it. Something like this: $guards->{file_loaded} = $mpv->register_event (file_loaded => sub { delete $guards->{file_loaded}; return if $guards != $self->{mpv_guards}; Commands do not have guards since they cannot be cancelled, so we don't have to do this for commands. But what prevents us form misinterpreting an old event? Since mpv (by default) handles commands synchronously, we can queue a dummy command, whose only purpose is to tell us when all previous commands are done. We use "get_version" for this. The simplified code looks like this: Scalar::Util::weaken $self; $mpv->cmd ("get_version")->cb (sub { $guards->{file_loaded} = $mpv->register_event (file_loaded => sub { delete $guards->{file_loaded}; return if $guards != $self->{mpv_guards}; $mpv->cmd (get_property => "video-format")->cb (sub { return if $guards != $self->{mpv_guards}; # video-format handling return if eval { $_[0]->recv; 1 }; # no video? assume audio and visualize, cpu usage be damned $mpv->cmd (set => "lavfi-complex" => ..."); }); $guards->{show} = $mpv->register_event (video_reconfig => sub { delete $guards->{show}; return if $guards != $self->{mpv_guards}; $self->{mpv_eventbox}->show_all; $w = $mpv->cmd (get_property => "dwidth"); $h = $mpv->cmd (get_property => "dheight"); $h->cb (sub { $w = eval { $w->recv }; $h = eval { $h->recv }; $mpv->cmd (set_property => "pause" => "no"); if ($w && $h) { # resize our window } }); }); }); }); Most of the rest of the code is much simpler and just deals with forwarding user commands: } elsif ($key == $Gtk2::Gdk::Keysyms{Right}) { $mpv->cmd ("osd-msg-bar" => seek => "+10"); } elsif ($key == $Gtk2::Gdk::Keysyms{Left} ) { $mpv->cmd ("osd-msg-bar" => seek => "-10"); } elsif ($key == $Gtk2::Gdk::Keysyms{Up} ) { $mpv->cmd ("osd-msg-bar" => seek => "+60"); } elsif ($key == $Gtk2::Gdk::Keysyms{Down} ) { $mpv->cmd ("osd-msg-bar" => seek => "-60"); } elsif ($key == $Gtk2::Gdk::Keysyms{a}) ) { $mpv->cmd ("osd-msg-msg" => cycle => "audio"); } elsif ($key == $Gtk2::Gdk::Keysyms{j} ) { $mpv->cmd ("osd-msg-msg" => cycle => "sub"); } elsif ($key == $Gtk2::Gdk::Keysyms{o} ) { $mpv->cmd ("no-osd" => "cycle-values", "osd-level", "2", "3", "0", "2"); } elsif ($key == $Gtk2::Gdk::Keysyms{p} ) { $mpv->cmd ("no-osd" => cycle => "pause"); } elsif ($key == $Gtk2::Gdk::Keysyms{9} ) { $mpv->cmd ("osd-msg-bar" => add => "ao-volume", "-2"); } elsif ($key == $Gtk2::Gdk::Keysyms{0} ) { $mpv->cmd ("osd-msg-bar" => add => "ao-volume", "+2"); SEE ALSO AnyEvent, the mpv command documentation . AUTHOR Marc Lehmann http://home.schmorp.de/