X11::Protocol::WM -- window manager things for client programs
use X11::Protocol::WM;
This is some window manager related functions for use by client programs, as per the "Inter-Client Communication Conventions Manual" and some of the Net-WM "Extended Window Manager Hints".
/usr/share/doc/xorg-docs/icccm/icccm.txt.gz
http://www.freedesktop.org/wiki/Specifications/wm-spec
Every toplevel client window should usually
set_wm_class() to identify itself to other programs (see "WM_CLASS" below).
set_wm_class()
set_wm_name() and set_wm_icon_name() for user-visible window name (see "WM_NAME, WM_ICON_NAME" below).
set_wm_name()
set_wm_icon_name()
set_wm_client_machine_from_syshostname() and set_net_wm_pid() for the running process (see "WM_CLIENT_MACHINE" and "_NET_WM_PID" below).
set_wm_client_machine_from_syshostname()
set_net_wm_pid()
Then optionally,
If you have an icon then set_wm_hints() with a bitmap or a window (see "WM_HINTS" below).
set_wm_hints()
If the user gave an initial size or position on the command line then set_wm_normal_hints(). The same if the program has min/max sizes or aspect ratio desired (see "WM_NORMAL_HINTS" below).
set_wm_normal_hints()
If a command to re-run the program can be constructed then set_wm_command(), and preferably keep that up-to-date with changes such as currently open file etc (see "WM_COMMAND" below).
set_wm_command()
Property functions taking text strings such as set_wm_name() accept either byte strings or wide char strings (Perl 5.8 up). Byte strings are presumed to be Latin-1 and set as STRING type in properties. Wide char strings are stored as STRING if entirely Latin-1, or encoded to COMPOUND_TEXT for other chars (see Encode::X11).
STRING
COMPOUND_TEXT
In the future perhaps the string functions could accept some sort of compound text object to represent segments of various encodings to become COMPOUND_TEXT, together with manipulations for such content etc. If text is bytes in one of the ICCCM encodings then it might save work to represent it directly as COMPOUND_TEXT segments rather than going to wide chars and back again.
set_text_property ($X, $window, $prop, $str)
Set the given $prop (integer atom) property on $window (integer XID) using either STRING or COMPOUND_TEXT as described above. If $str is undef then $prop is deleted.
$prop
$window
$str
undef
$str is limited to $X->maximum_request_length(). In theory longer strings can be stored by piecewise, but there's no attempt to do that here. The maximum request limit is at least 16384 bytes and the server may allow more, possibly much more.
$X->maximum_request_length()
X11::Protocol::WM::set_wm_class ($X, $window, $instance, $class)
Set the WM_CLASS property on $window (an XID).
WM_CLASS
This property may be used by the window manager to lookup settings and preferences for the program through the X Resource system (see "RESOURCES" in X(7)) or similar.
Usually the instance name is the program command such as "xterm" and the class name something like "XTerm". Some programs have command line options to set the class and/or instance so the user can have different window manager settings applied to a particular running copy of a program.
X11::Protocol::WM::set_wm_class ($X, $window, "myprog", "MyProg");
$instance and $class must be ASCII or Latin-1 only. Wide-char strings which are Latin-1 are converted as necessary.
$instance
$class
X11::Protocol::WM::set_wm_client_machine ($X, $window, $hostname)
Set the WM_CLIENT_MACHINE property on $window to $hostname (a string).
WM_CLIENT_MACHINE
$hostname
$hostname should be the name of the client machine as seen from the server. If $hostname is undef then the property is deleted.
Usually a machine name is ASCII-only, but anything per "Text Properties" above is accepted.
X11::Protocol::WM::set_wm_client_machine_from_syshostname ($X, $window)
Set the WM_CLIENT_MACHINE property on $window using the Sys::Hostname module.
If Sys::Hostname can't determine a hostname by its various gambits then currently the property is deleted. Would it be better to leave it unchanged, or return a flag to say if set?
Sys::Hostname
Some of the Sys::Hostname cases might return "localhost". That's put through unchanged, on the assumption that it would be when there's no networking beyond the local host so client and server are on the same machine and name "localhost" suffices.
X11::Protocol::WM::set_wm_command ($X, $window, $command, $arg...)
Set the WM_COMMAND property on $window (an XID).
WM_COMMAND
This should be a program name and argument strings which will restart the client. $command is the program name, followed by any argument strings.
$command
X11::Protocol::WM::set_wm_command ($X, $window, 'myprog', '--option', 'filename.txt');
The command should start the client in its current state, so the command might include a filename, command line options for current settings, etc.
Non-ASCII is allowed per "Text Properties" above. The ICCCM spec is for Latin-1 to work on a POSIX Latin-1 system, but how well anything else survives a session manager etc is another matter.
A client can set this at any time, or if participating in the WM_SAVE_YOURSELF session manager protocol then it should set in response to a ClientMessage of WM_SAVE_YOURSELF .
WM_SAVE_YOURSELF
ClientMessage
For reference, under mwm circa 2017, a client with WM_SAVE_YOURSELF receives that message for the mwm Close button (f.kill) and is expected to respond within a timeout (default 1 second), whereupon mwm closes the client connection (KillClient). Unfortunately if both WM_SAVE_YOURSELF and WM_DELETE_WINDOW then mwm still does the WM_SAVE_YOURSELF and close, defeating the aim of letting WM_DELETE_WINDOW query the user and perhaps not close.
mwm
f.kill
KillClient
WM_DELETE_WINDOW
The easiest workaround would be use only WM_DELETE_WINDOW, keep WM_COMMAND always up-to-date, and be prepared to save state on connection loss. This is quite reasonable anyway actually, since a WM_SAVE_YOURSELF message is fairly limited use, given that connection loss or other termination could happen at any time so if state is important that it'd be prudent to keep it saved.
($min_width,$min_height, $max_width,$max_height, $width_inc,$height_inc) = X11::Protocol::WM::get_wm_icon_size($X,$root)
Return the window manager's WM_ICON_SIZE recommended icon sizes (in pixels) as a range, and increment above the minimum. If there's no WM_ICON_SIZE property then return an empty list.
WM_ICON_SIZE
$root is the root window to read. If omitted then read the $X->root default.
$root
$X->root
An icon pixmap or window in WM_HINTS should be a size in this range. Many window managers don't set a preferred icon size. 32x32 might be typical on a small screen or 48x48 on a bigger screen.
WM_HINTS
X11::Protocol::WM::set_wm_hints ($X, $window, key=>value, ...)
Set the WM_HINTS property on $window (an XID). For example,
X11::Protocol::WM::set_wm_hints ($X, $my_window, input => 1, initial_state => 'NormalState', icon_pixmap => $my_pixmap);
The key/value parameters are as follows.
input integer 0 or 1 initial_state enum string or number icon_pixmap pixmap (XID integer), depth 1 icon_window window (XID integer) icon_x \ integer coordinate icon_y / integer coordinate icon_mask pixmap (XID integer) window_group window (XID integer) urgency boolean
input is 1 if the client wants the window manager to give $window the keyboard input focus. This will be with $X->SetInputFocus(), or if WM_TAKE_FOCUS is in WM_PROTOCOLS then instead by a ClientMessage.
input
$X->SetInputFocus()
WM_TAKE_FOCUS
WM_PROTOCOLS
input is 0 if the window manager should not give the client the focus. This is either because $window is output-only, or if WM_TAKE_FOCUS is in WM_PROTOCOLS then because the client will do a SetInputFocus() to itself on an appropriate button press etc.
SetInputFocus()
initial_state is a string or number. The ICCCM allows "NormalState" or "IconicState" as initial states.
initial_state
"NormalState" 1 "IconicState" 3
icon_pixmap should be a bitmap, ie. a pixmap (XID) with depth 1. The window manager will draw it in suitable contrasting colours. "1" pixels are foreground and "0" is background. icon_mask bitmap is applied to the displayed icon. It can be used to make a non-rectangular icon.
icon_pixmap
icon_mask
icon_window is a window which the window manager may show when $window is iconified. This can be used for a multi-colour icon, done either by a background or by client drawing (in response to Expose events, or updated periodically for a clock, etc). The icon_window should be a child of the root and should use the default visual and colormap of the screen. The window manager might resize the window and/or border.
icon_window
Expose
The window manager might set a WM_ICON_SIZE property on the root window for good icon sizes. See "WM_ICON_SIZE" above.
window_group is the XID of a window which is the group leader of a group of top-level windows being used by the client. The window manager might provide a way to manipulate the group as a whole, for example to iconify it all. If iconified then the icon hints of the leader are used for the icon. The group leader can be an unmapped window. It can be convenient to use a never-mapped window as the leader for all subsequent windows.
window_group
urgency true means the window is important and the window manager should draw the user's attention to it in some way. The client can change this hint at any time to change the current importance.
urgency
(key => $value, ...) = X11::Protocol::WM::get_wm_hints ($X, $window)
Return the WM_HINTS property from $window. The return is a list of key/value pairs as per set_wm_hints() above
input => 1, icon_pixmap => 1234, ...
Only fields with their flag bits set in the hints are included in the return. If there's no WM_HINTS at all or or its flags field is zero then the return is an empty list.
The return can be put into a hash to get fields by name,
my %hints = X11::Protocol::WM::get_wm_hints ($X, $window); if (exists $hints{'icon_pixmap'}) { print "icon_pixmap is ", $hints{'icon_pixmap'}, "\n"; }
initial_state is a string such as "NormalState". The pixmaps and windows are string "None" if set but zero (which is probably unusual). If $X->{'do_interp'} is disabled then all are numbers.
$X->{'do_interp'}
X11R2 Xlib had a bug in its XSetWMHints() which chopped off the window_group value from the hints stored. The window_group field is omitted from the return if the data read is missing that field.
XSetWMHints()
(key => $value, ...) = X11::Protocol::WM::change_wm_hints ($X, $window, key=>value, ...)
Change some fields of the WM_HINTS property on $window. The given key/value fields are changed. Other fields are left alone. For example,
X11::Protocol::WM::set_wm_hints ($X, $window, urgency => 1);
A value undef means delete a field,
X11::Protocol::WM::set_wm_hints ($X, $window, icon_pixmap => undef, icon_mask => undef);
The change requires a server round-trip to fetch the current values from $window. An application might prefer to remember its desired hints and send a full set_wm_hints() each time.
$bytes = X11::Protocol::WM::pack_wm_hints ($X, key=>value...)
Pack a set of values into a byte string of WM_HINTS format. The key/value arguments are per set_wm_hints() above and the result is the raw bytes stored in a WM_HINTS property.
The $X argument is not actually used currently, but is present in case initial_state or other values might use an $X->num() lookup in the future.
$X
$X->num()
(key => $value, ...) = X11::Protocol::WM::unpack_wm_hints ($X, $bytes)
Unpack a byte string as a WM_HINTS structure. The return is key/value pairs as per get_wm_hints() above. The $X parameter is used for do_interp. There's no communication with the server.
get_wm_hints()
do_interp
X11::Protocol::WM::set_wm_name ($X, $window, $name)
Set the WM_NAME property on $window (an integer XID) to $name (a string).
WM_NAME
$name
The window manager might display this as a title above the window, or in a menu of windows, etc. It can be a Perl 5.8 wide-char string per "Text Properties" above. A good window manager ought to support non-ASCII or non-Latin-1 titles, but how well it displays might depend on fonts etc.
X11::Protocol::WM::set_wm_icon_name ($X, $window, $name)
Set the WM_ICON_NAME property on $window (an integer XID) to $name (a string).
WM_ICON_NAME
The window manager might display this when $window is iconified. If $window doesn't have an icon (in WM_HINTS or from the window manager itself) then this text might be all that's shown. Either way it should be something short. It can be a Perl 5.8 wide-char string per "Text Properties" above.
X11::Protocol::WM::set_wm_normal_hints ($X, $window, key=>value,...)
Set the WM_NORMAL_HINTS property on $window (an integer XID). This is a WM_SIZE_HINTS structure which tells the window manager what sizes the client would like. For example,
WM_NORMAL_HINTS
WM_SIZE_HINTS
set_wm_normal_hints ($X, $window, min_width => 200, min_height => 100);
Generally the window manager restricts user resizing to the hint limits. Most window managers use these hints, but of course they're only hints and a good program should be prepared for other sizes even if it won't look good or can't do much useful when too big or too small etc.
The key/value parameters are
user_position boolean, window x,y is user specified user_size boolean, window width,height is user specified program_position boolean, window x,y is program specified program_size boolean, window width,height is program specified min_width \ integers, min size in pixels min_height / max_width \ integers, max size in pixels max_height / base_width \ integers, size base in pixels base_height / width_inc \ integers, size increment in pixels height_inc / min_aspect \ fraction 2/3 or decimal 2 or 1.5 min_aspect_num | or integer num/den up to 0x7FFFFFFF min_aspect_den | max_aspect | max_aspect_num | max_aspect_den / win_gravity WinGravity enum "NorthEast" etc
user_position and user_size are flags meaning that the window's x,y or width,height (in the usual core $X->SetWindowAttributes()) were given by the user, for example from a -geometry command line option. The window manager will generally obey these values and skip any auto-placement or interactive placement it might otherwise do.
user_position
user_size
$X->SetWindowAttributes()
-geometry
program_position and program_size are flags meaning the window x,y or width,height were calculated by the program. The window manager might override with its own positioning or sizing policy. There's generally no need to set these fields unless the program has a definite idea of where and how big it should be. For a size it's enough to set the core window width,height and let the window manager (if there's one running) go from there.
program_position
program_size
Items shown grouped above must be given together, so for instance if a min_width is given then min_height should be given too.
min_width
min_height
base_width,base_height and width_inc,height_inc ask that the window be a certain base size in pixels then a multiple of "inc" pixels above that. This can be used by things like xterm which want a fixed size for border or scrollbar and then a multiple of the character size above that. If base_width,base_height are not given then min_width,min_height is the base size.
base_width
base_height
width_inc
height_inc
xterm
base_width,base_height can be smaller than min_width,min_height. This means the size should still be a base+inc multiple, but the first such which is at least the min size. The window manager generally presents the "inc" multiple to the user, so that for example on an xterm the user sees a count of characters. A min size can then demand for example a minimum 1x1 or 2x2 character size.
min_aspect,max_aspect ask that the window have a certain minimum or maximum width/height ratio. For example aspect 2/1 means it should be twice as wide as it is high. This is applied to the size above base_width,base_height, or if base not given then to the whole window size.
min_aspect
max_aspect
min_aspect_num,min_aspect_den and max_aspect_num,max_aspect_den set numerator and denominator values directly (INT32, so maximum 0x7FFF_FFFF). Or min_aspect and max_aspect accept a single value in various forms which are turned into num/den values.
min_aspect_num
min_aspect_den
max_aspect_num
max_aspect_den
2 integer 1.125 decimal, meaning 1125/1000 2/3 fraction 1.5/4.5 fraction with decimals
Values bigger than 0x7FFFFFFF in these forms are reduced proportionally as necessary. A Perl floating point value will usually have more bits of precision than 0x7FFFFFFF and is truncated to something that fits.
win_gravity is how the client would like to be shifted to make room for any surrounding frame the window manager might add. For example if the program calculated the window size and position to ensure the north-east corner is at a desired position, then give win_gravity => "NorthEast" so that the window manager keeps the north-east corner the same when it applies its frame.
win_gravity
win_gravity => "NorthEast"
win_gravity => "Static" means the frame is put around the window and the window not moved at all. Of course that might mean some of the frame ends up off-screen.
win_gravity => "Static"
$bytes = X11::Protocol::WM::pack_size_hints ($X, key=>value,...)
Return a bytes string which is a WM_SIZE_HINTS structure made from the given key/value parameters. WM_SIZE_HINTS is structure type for WM_NORMAL_HINTS described above and the key/value parameters are as described above.
The $X parameter is used to interpret win_gravity enum values. There's no communication with the server.
($num,$den) = X11::Protocol::WM::aspect_to_num_den ($aspect)
Return a pair of INT32 integers 0 to 0x7FFF_FFFF for the given aspect ratio $aspect. This is the conversion applied to min_aspect and max_aspect above. $aspect can be any of the integer, decimal or fraction described.
$aspect
X11::Protocol::WM::set_wm_protocols ($X, $window, $protocol,...)
Set the WM_PROTOCOLS property on $window (an XID). Each argument is a string protocol name or an integer atom ID.
X11::Protocol::WM::set_wm_protocols ($X, $window, 'WM_DELETE_WINDOW', '_NET_WM_PING')
For example WM_DELETE_WINDOW means that when the user clicks the close button the window manager sends a ClientMessage event rather than doing a KillClient(). The ClientMessage event allows a program to clean-up or ask the user about saving a document before exiting, etc.
KillClient()
The window manager maintains a state for each client window it manages,
WithdrawnState NormalState IconicState
WithdrawnState means the window is not mapped and the window manager is not managing it. A newly created window ($X->CreateWindow()) is initially WithdrawnState and on first $X->MapWindow() goes to NormalState (or to IconicState if that's the initial state asked for in WM_HINTS).
WithdrawnState
$X->CreateWindow()
$X->MapWindow()
NormalState
IconicState
iconify() and withdraw() below can change the state to iconic or withdrawn. A window can be restored from iconic to normal by a MapWindow().
iconify()
withdraw()
MapWindow()
($state, $icon_window) = X11::Protocol::WM::get_wm_state ($X, $window)
Return the WM_STATE property from $window. This is set by the window manager on top-level application windows. If there's no such property then the return is an empty list.
WM_STATE
$state returned is an enum string, or an integer value if $X->{'do_interp'} is disabled or the value unrecognised.
$state
"WithdrawnState" 0 not displayed "NormalState" 1 window displayed "IconicState" 3 iconified in some way "ZoomState" 2 \ no longer in ICCCM "InactiveState" 4 / (zoom meant maximized)
$icon_window returned is the window (integer XID) used by the window manager to display an icon of $window. If there's no such window then $icon_window is "None" (or 0 if $X->{'do_interp'} is disabled).
$icon_window
$icon_window might be the icon window from the client's WM_HINTS or it might be a window created by the window manager. The client can draw into it for animations etc, perhaps selecting Expose events on it to know when to redraw.
WM_STATE is set by the window manager when a toplevel window is first mapped (or perhaps earlier), and then kept up-to-date. Generally no WM_STATE property or a WM_STATE set to WithdrawnState means the window manager is not managing the window, or not yet doing so. A client can select PropertyChange event mask in the usual way to listen for WM_STATE changes.
PropertyChange
($state, $icon_window) = X11::Protocol::WM::unpack_wm_state ($X, $bytes)
Unpack the bytes of a WM_STATE property to a $state and $icon_window as per get_wm_state() above.
get_wm_state()
$X is used for $X->{'do_interp'} but there's no communication with the server.
X11::Protocol::WM::iconify ($X, $window)
X11::Protocol::WM::iconify ($X, $window, $root)
Change $window to "IconicState" by sending a ClientMessage to the window manager.
If the window manager does not have any iconification then it might do nothing (eg. some tiling window managers). If there's no window manager running then iconification is not possible and this message will do nothing.
$root should be the root window of $window. If not given or undef then it's obtained by a QueryTree() here. Any client can iconify any top level window.
QueryTree()
If $window has other windows which are WM_TRANSIENT_FOR for it then generally the window manager will iconify or hide those windows too (see "WM_TRANSIENT_FOR" below).
WM_TRANSIENT_FOR
X11::Protocol::WM::withdraw ($X, $window)
X11::Protocol::WM::withdraw ($X, $window, $root)
Change $window to "WithdrawnState" by an $X->UnmapWindow() and a synthetic UnmapNotify message to the window manager.
$X->UnmapWindow()
UnmapNotify
If there's no window manager running then the UnmapWindow() unmaps and the UnmapNotify message does nothing.
UnmapWindow()
$root should be the root window of $window. If not given or undef then it's obtained by a QueryTree() here.
If other windows are WM_TRANSIENT_FOR this $window (eg. open dialog windows) then generally the client should withdraw them too. The window manager might make such other windows inaccessible anyway.
The ICCCM specifies an UnmapNotify message so the window manager is notified of the desired state change even if $window is already unmapped, such as in "IconicState" or perhaps during some window manager reparenting, etc.
$window can be changed back to NormalState or IconicState later with $X->MapWindow() the same as for a newly created window. (And WM_HINTS initial_state can give a desired initial iconic/normal state). But before doing so be sure the window manager has recognised the withdraw(). This will be when the window manager changes the WM_STATE property to "WithdrawnState", or deletes that property.
Any client can withdraw any toplevel window, but it's unusual for a client to withdraw windows which are not its own.
X11::Protocol::WM::set_wm_transient_for ($X, $window, $transient_for)
Set the WM_TRANSIENT_FOR property on $window (an XID).
$transient_for is another window XID, or undef if $window is not transient for anything so WM_TRANSIENT_FOR should be deleted.
$transient_for
"Transient for" means $window is some sort of dialog or menu related to the given $transient_for window. The window manager will generally iconify $window together with its $transient_for, etc. See set_motif_wm_hints() below for "modal" transients.
set_motif_wm_hints()
X11::Protocol::WM::set_motif_wm_hints ($X, $window, key=>value...)
Set the MOTIF_WM_HINTS property on $window (an XID).
MOTIF_WM_HINTS
These hints control window decorations and "modal" state. It originated in the Motif mwm window manager but is recognised by most other window managers. It should be set on a toplevel window before mapping. Changes made later might not affect what the window manager does.
X11::Protocol::WM::set_motif_wm_hints ($X, $dialog_window, input_mode => "full_application_modal"); $X->MapWindow ($dialog_window);
Ordinary windows generally don't need to restrict their decorations etc, but something special like a clock or gadget might benefit.
X11::Protocol::WM::set_motif_wm_hints ($X, $my_gadget_window, functions => 4+32, # move+close decorations => 1+4+8); # border+title+menu
The key/value arguments are
functions => integer bits decorations => integer bits input_mode => enum string or integer status => integer bits
functions is what actions the window manager should offer to the user in a drop-down menu or similar. It's an integer bitwise OR of the following values. If not given then the default is normally all functions.
functions
bit actions offered --- --------------- 1 all functions 2 resize window 4 move window 8 minimize, to iconify 16 maximize, to full-screen (with a frame still) 32 close window
decorations is what visual decorations the window manager should show around the window. It's an integer bitwise OR of the following values. If not given then the default is normally all decorations.
decorations
bit decorations displayed --- --------------------- 1 all decorations 2 border around the window 4 resizeh, handles to resize by dragging 8 title bar, showing WM_NAME 16 menu, drop-down menu of the "functions" above 32 minimize button, to iconify 64 maximize button, to full-screen
input_mode allows a window to be "modal", meaning the user should interact only with $window. The window manager will generally keep it on top, not move the focus to other windows, etc. The value is one of the following strings or corresponding integer,
input_mode
string integer "modeless" 0 not modal (the default) "primary_application_modal" 1 modal to its "transient for" "system_modal" 2 modal to the whole display "full_application_modal" 3 modal to the current client
"primary_application_modal" means $window is modal for the WM_TRANSIENT_FOR set on $window (see "WM_TRANSIENT_FOR" above), but other windows on the display can be used normally. "full_application_modal" means modal for all windows of the same client, but other clients can be used normally.
Modal behaviour is important for good user interaction and therefore ought to be implemented by a window manager, but a good program should be prepared to do something with input on other windows.
status field is a bitwise OR of the following bits (only one currently).
status
bit 1 tearoff menu window
Tearoff menu flag is intended for tearoff menus, as the name suggests.
X11::Protocol::WM::set_motif_wm_hints ($X, $my_tearoff_window, status => 1);
Motif mwm will expand the window to make it wide enough for the WM_NAME in the frame title bar. Otherwise a title is generally truncated to as much as fits the window's current width. Expanding can be good for tearoffs where the title bar is some originating item name etc which the user should see. But don't be surprised if this flag is ignored by other window managers.
Perhaps in the future the individual bits above will have some symbolic names. Either constants or string values interpreted. What would a possible get_hints() return, and what might be convenient to add/subtract bits?
get_hints()
See /usr/include/Xm/MwmUtil.h on the hints bits, and see mwm sources WmWinInfo.c ProcessWmWindowTitle() for the status tearoff window flag.
ProcessWmWindowTitle()
my ($left,$right, $top,$bottom) = X11::Protocol::WM::get_net_frame_extents ($X, $window)
Get the _NET_FRAME_EXTENTS property from $window.
_NET_FRAME_EXTENTS
This is set on top-level windows by the window manager to report how many pixels of frame or decoration it has added around $window.
If there's no such property set then the return is an empty list. So for example
my ($left,$right,$top,$bottom) = get_net_frame_extents ($X, $window) or print "no frame extents"; my ($left,$right,$top,$bottom) = get_net_frame_extents ($X, $window); if (! defined $left) { print "no frame extents"; }
A client might look at the frame size if moving a window programmatically so as not to put the title bar etc off-screen. Oldish window managers might not provide this information though.
X11::Protocol::WM::set_net_wm_pid ($X, $window)
X11::Protocol::WM::set_net_wm_pid ($X, $window, $pid)
X11::Protocol::WM::set_net_wm_pid ($X, $window, undef)
Set the _NET_WM_PID property on $window to the given $pid process ID, or to the $$ current process ID if omitted. (See perlvar for $$.) If $pid is undef then the property is deleted.
_NET_WM_PID
$pid
$$
A window manager or similar might use the PID to forcibly kill an unresponsive client. It's only useful if WM_CLIENT_MACHINE (above) is set too, to know where the client is running.
An EWMH compliant window manager maintains a set of state flags for each client window. A state is an atom such as _NET_WM_STATE_FULLSCREEN and each such state can be present or absent. The supported states are listed in property _NET_SUPPORTED on the root (together with other features). For example,
_NET_WM_STATE_FULLSCREEN
_NET_SUPPORTED
my @net_supported = X11::Protocol::Other::get_property_atoms ($X, $X->root, $X->atom('_NET_SUPPORTED')); if (grep {$_ == $X->atom('_NET_WM_STATE_FULLSCREEN')} @net_supported) { print "Have _NET_WM_STATE_FULLSCREEN\n"; }
Any client can ask the window manager to change states of any window. A client might set initial states on a new window with set_net_wm_state() below. Possible states include
set_net_wm_state()
The window is modal to its WM_TRANSIENT_FOR parent, or if WM_TRANSIENT_FOR not set then modal to its window group.
See "_MOTIF_WM_HINTS" to set modal with the Motif style hints.
The window is kept in a fixed position on screen when the desktop scrolls.
The window is maximum size vertically or horizontally or both. The window still has its surrounding decoration and the size should obey size increments specified in "WM_NORMAL_HINTS".
The window is the full screen with no decoration around it, thus being the full screen.
The window manager remembers the "normal" size of the window so that when maximize or fullscreen states are removed the previous size is restored.
The window is "shaded" which generally means its title bar is displayed but none of the client window. This is an alternative to iconifying a window.
Don't show the window on a task bar or in a pager, respectively.
This state is set by the window manger when the window is iconified or similar and so does not appear on screen. Clients cannot change this.
The window is kept above or below other client windows. The stacking order maintained is roughly
top +-----------------------------+ | _NET_WM_WINDOW_TYPE_DOCK | "DOCK" panels (etc) on top, +-----------------------------+ except perhaps FULLSCREEN | _NET_WM_STATE_ABOVE | windows above those panels +-----------------------------+ when focused | normal | +-----------------------------+ | _NET_WM_STATE_BELOW | +-----------------------------+ | _NET_WM_WINDOW_TYPE_DESKTOP | +-----------------------------+ bottom
The window should be brought to the attention of the user in some way. A client sets this and the window manager clears it after the window has received user attention (which might mean keyboard focus or similar).
The following functions get or set the states.
change_net_wm_state($X, $window, $action, $state, key=>value,...)
Change one of the _NET_WM_STATE state flags on $window by sending a message to the window manager. For example,
_NET_WM_STATE
change_net_wm_state ($X, $window, "toggle", "FULLSCREEN");
$window must be a managed window, ie. must have had its initial MapWindow() and not be an override-redirect. If that's not so or if there's no window manager or it doesn't have EWMH then this change message will have no effect.
$action is a string or integer how to change the state,
$action
"remove" 0 "add" 1 "toggle" 2
$state is a string such as "FULLSCREEN" or an atom integer such as $X->atom("_NET_WM_STATE_FULLSCREEN").
$X->atom("_NET_WM_STATE_FULLSCREEN")
The further optional key/value parameters are
state2 => string or atom source => "none", "normal", "user", 0,1,2 root => integer XID, or undef
A change message can act on one or two states. For two states, the second is state2. For example to maximize vertically and horizontally in one operation,
state2
change_net_wm_state ($X, $window, "add", "MAXIMIZED_VERT", state2 => "MAXIMIZED_HORZ");
source is where the change request came from. The default is "normal" which means a normal application. "user" is for a user-interface control program such as a pager. ("none"=0 is what clients prior to EWMH 1.2 gave.)
source
root is the root window (integer XID) of $window. If undef or not given then it's found by $X->QueryTree(). If you already know the root then giving it avoids that round-trip query.
root
$X->QueryTree()
@strings = get_net_wm_state ($X, $window)
@atoms = get_net_wm_state_atoms ($X, $window)
Get the _NET_WM_STATE property from $window. get_net_wm_state() returns a list of strings such as "FULLSCREEN". get_net_wm_state_atoms() returns a list of atom integers such as $X->atom('_NET_WM_STATE_FULLSCREEN'). In both cases, if there's no such property or if it's empty then return an empty list.
get_net_wm_state()
get_net_wm_state_atoms()
$X->atom('_NET_WM_STATE_FULLSCREEN')
set_net_wm_state ($X, $window, $state,...)
Set the _NET_WM_STATE property on $window. Each $state can be
string like "FULLSCREEN" string like "_NET_WM_STATE_FULLSCREEN" integer atom of a name like _NET_WM_STATE_FULLSCREEN
A client can set _NET_WM_STATE on a new window to tell the window manager of desired initial states. This is only a "should" in the EWMH spec so it might not be obeyed.
# initial desired state set_net_wm_state ($X, $window, "MAXIMIZED_HORZ", "MAXIMIZED_VERT");
After the window is managed by the window manager (once mapped), clients should not set _NET_WM_STATE but instead ask the window manager with change_net_wm_state() message above.
change_net_wm_state()
set_net_wm_user_time ($X, $window, $time)
Set the _NET_WM_USER_TIME property on $window.
_NET_WM_USER_TIME
$time should be a server time value (an integer) from the last user keypress etc event in $window. Or when $window is created then the time from the event which caused it to be opened.
$time
On a newly created window, a special $time value 0 means the window should not receive the focus when mapped -- assuming the window manager recognises _NET_WM_USER_TIME of course.
If the client has the active window it should update _NET_WM_USER_TIME for every user input. Generally KeyPress and ButtonPress events are user input, but normally KeyRelease and ButtonRelease are not since it's the Press events which are the user actively doing something.
The window manager might use _NET_WM_USER_TIME to control focus and/or stacking order so that for example a slow popup doesn't steal the focus if you've gone to another window to do other work in the interim.
X11::Protocol::WM::set_net_wm_window_type ($X, $window, $window_type)
Set the _NET_WM_WINDOW_TYPE property on $window (an XID). $window_type can be
_NET_WM_WINDOW_TYPE
$window_type
string like "NORMAL" integer atom of a name like _NET_WM_WINDOW_TYPE_NORMAL
The window types from from the EWMH are as follows.
"NORMAL" "DIALOG" "DESKTOP" "DOCK" "TOOLBAR" "MENU" "UTILITY" "SPLASH"
$window = X11::Protocol::WM::frame_window_to_client ($X, $frame)
Return the client window (an XID) contained within window manager $frame window (an XID). $frame is usually an immediate child of the root window.
$frame
If no client window can be found in $frame then return undef. This might happen if $frame is an icon window or similar created by the window manager itself, or an override-redirect client without a frame, or if there's no window manager running at all. In the latter two cases $frame would be the client already.
The strategy is to look at $frame and down the window tree seeking a WM_STATE property which the window manager puts on a client's toplevel when mapped. The search depth and total windows are limited in case the window manager does its decoration in some ridiculous way or the client uses excessive windows (which would be traversed if there's no window manager).
+-rootwin--------------------------+ | | | | | +-frame-win--------+ | | | +-client-win---+ | | | | | WM_STATE ... | | | | | | | | | | | +--------------+ | | | +------------------+ | | | +----------------------------------+
Care is taken not to error out if some windows are destroyed during the search. When a window belongs to other clients it could be destroyed at any time. If $frame itself doesn't exist then the return is undef.
This function is similar to what xwininfo and similar programs do to go from a toplevel root window child down to the client window, per dmsimple.c Select_Window() or Xlib XmuClientWindow(). (See also X11::Protocol::ChooseWindow.)
xwininfo
Select_Window()
XmuClientWindow()
Some window managers use a "virtual root" window covering the entire screen. Application windows or frame windows are then children of that virtual root. This can help the window manager implement a large desktop or multiple desktops, though it tends to fail in subtle ways with various root oriented programs, including for example xsetroot(1) or the click-to-select in xwininfo(1) and xprop(1).
$window = X11::Protocol::WM::root_to_virtual_root ($X, $root)
If the window manager is using a virtual root then return that window XID. If not then return undef.
The current implementation searches for a window with an __SWM_VROOT property, as per the swm, tvtwm and amiwm window managers, and as used by the xscreensaver program and perhaps some versions of KDE.
__SWM_VROOT
swm
tvtwm
amiwm
xscreensaver
There's nothing yet for EWMH _NET_VIRTUAL_ROOTS. Do any window managers use it? Is _NET_CURRENT_DESKTOP an index into that virtual roots list?
_NET_VIRTUAL_ROOTS
_NET_CURRENT_DESKTOP
(See X11::Protocol::XSetRoot for changing the background of a root or virtual root.)
Nothing is exported by default, but the functions can be requested in usual Exporter style,
Exporter
use X11::Protocol::WM 'set_wm_hints'; set_wm_hints ($X, $window, input => 1, ...);
Or just call with full package name
use X11::Protocol::WM; X11::Protocol::WM::set_wm_hints ($X, $window, input => 1, ...);
There's no :all tag since this module is meant as a grab-bag of functions and to import as-yet unknown things would be asking for name clashes.
:all
Not much attention is paid to text on an EBCDIC system. Wide char strings probably work, but byte strings may go straight through whereas they ought to be re-coded to Latin-1. But the same probably applies to parts of the core X11::Protocol such as $X->atom_name() where you'd want to convert Latin-1 from the server to native EBCDIC.
X11::Protocol
$X->atom_name()
X11::Protocol, X11::Protocol::Other, X11::Protocol::ChooseWindow, X11::Protocol::XSetRoot
"Inter-Client Communication Conventions Manual", /usr/share/doc/xorg-docs/icccm/icccm.txt.gz, http://www.x.org/docs/ICCCM/
"Compound Text Encoding" specification. /usr/share/doc/xorg-docs/ctext/ctext.txt.gz, http://www.x.org/docs/CTEXT/
"Extended Window Manager Hints" which is the _NET_WM things. http://www.freedesktop.org/wiki/Specifications/wm-spec, http://mail.gnome.org/archives/wm-spec-list/
_NET_WM
wmctrl(1), xwit(1), X(7)
http://user42.tuxfamily.org/x11-protocol-other/index.html
Copyright 2011, 2012, 2013, 2014, 2016, 2017, 2018, 2019 Kevin Ryde
X11-Protocol-Other is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version.
X11-Protocol-Other is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with X11-Protocol-Other. If not, see <http://www.gnu.org/licenses/>.
To install X11::Protocol::Other, copy and paste the appropriate command in to your terminal.
cpanm
cpanm X11::Protocol::Other
CPAN shell
perl -MCPAN -e shell install X11::Protocol::Other
For more information on module installation, please visit the detailed CPAN module installation guide.