X11::Protocol::Ext::XFIXES - miscellaneous "fixes" extension
use X11::Protocol; my $X = X11::Protocol->new; $X->init_extension('XFIXES') or print "XFIXES extension not available";
The XFIXES extension adds some features which are conceived as "fixing" omissions in the core X11 protocol, including
Events for changes to the selection (the cut and paste between clients).
Current cursor image fetching, cursor change events, and cursor naming and hiding.
Server-side "region" objects representing a set of rectangles.
The following are made available with an init_extension() per "EXTENSIONS" in X11::Protocol.
init_extension()
my $bool = $X->init_extension('XFIXES');
($server_major, $server_minor) = $X->XFixesQueryVersion ($client_major, $client_minor)
Negotiate a protocol version with the server. $client_major and $client_minor is what the client would like, the returned $server_major and $server_minor is what the server will do, which might be less than requested (but not more than).
$client_major
$client_minor
$server_major
$server_minor
The current code in this module supports up to 4.0 and automatically negotiates within init_extension(), so direct use of XFixesQueryVersion() is not necessary. Asking for higher than the code supports might be a bad idea.
XFixesQueryVersion()
($atom, $str) = $X->XFixesChangeSaveSet ($window, $mode, $target, $map)
Insert or delete $window (an XID) from the "save set" of resources to be retained on the server when the client disconnects. This is an extended version of the core ChangeSaveSet() request.
$window
ChangeSaveSet()
$mode is either "Insert" or "Delete".
$mode
$target is how to reparent $window on client close-down, either "Nearest" or "Root". The core ChangeSaveSet() is "Nearest" and means go to the next non-client ancestor window. "Root" means go to the root window.
$target
$map is either "Map" or "Unmap" to apply to $window on close-down. The core ChangeSaveSet() is "Map".
$map
Select XFixesSelectionNotify events (see "EVENTS" below) to be sent to $window when $selection (an atom) changes.
XFixesSelectionNotify
$selection
$X->XFixesSelectSelectionInput ($my_window, $X->atom('PRIMARY'), 0x07);
$window is given in the resulting XFixesSelectionNotify. It probably works to make it just a root window. Selections are global to the whole server, so the window doesn't implicitly choose a screen or anything.
$event_mask has three bits for which event subtypes should be reported.
$event_mask
bitpos bitval SetSelectionOwner 0 0x01 SelectionWindowDestroy 1 0x02 SelectionClientClose 2 0x04
There's no pack function for these yet so just give an integer, for instance 0x07 for all three.
See examples/xfixes-selection.pl for a sample program listening to selection changes with this request.
Select XFixesCursorNotify events (see "EVENTS" below) to be sent to the client.
XFixesCursorNotify
$window is given in the resulting XFixesSelectionNotify. It probably works to make it just a root window. The cursor image is global and the events are for any change, not merely within $window.
$event_mask has only a single bit, asking for displayed cursor changes,
bitpos bitval DisplayCursor 0 0x01
There's no pack function for this yet, just give integer 1 or 0.
Return the size and pixel contents of the currently displayed mouse pointer cursor.
$root_x,$root_y returned are the pointer location in root window coordinates (similar to QueryPointer()).
$root_x
$root_y
QueryPointer()
$width,$height is the size of the cursor image. $xhot,$yhot is the "hotspot" position within that, which is the pixel which follows the pointer location.
$width
$height
$xhot
$yhot
$pixels is a byte string of packed "ARGB" pixel values. Each is 32-bits in client byte order, with $width many in each row and $height such rows and no padding in between, so a total 4*$width*$height bytes. This can be unpacked with for instance
$pixels
4*$width*$height
my @argb = unpack 'L*', $pixels; # each 0xAARRGGBB # top left pixel is in $argb[0] my $alpha = ($argb[0] >> 24) & 0xFF; # each value my $red = ($argb[0] >> 16) & 0xFF; # 0 to 255 my $green = ($argb[0] >> 8) & 0xFF; my $blue = $argb[0] & 0xFF;
The alpha transparency is pre-multiplied into the RGB components, so if the alpha is zero (transparent) then the components are zero too.
The core CreateCursor() bitmask always makes alpha=0 transparent or alpha=255 opaque pixels. The RENDER extension (see X11::Protocol::Ext::RENDER) can make partially transparent cursors.
CreateCursor()
There's no direct way to get the image of a cursor by its XID (except something dodgy like a GrabPointer() to make it the displayed cursor). Usually cursor XIDs are only ever created by a client itself so no need to read back (and the cursor XID can't be read out of an arbitrary window -- though the XTEST extension can do some comparing, per X11::Protocol::Ext::XTEST).
GrabPointer()
For reference, in the X.org server circa version 1.11, the server may start up with no cursor at all, and when that happens an attempt to XFixesGetCursorImage() gives a "Cursor" error. In practice this probably only happens using a bare Xvfb or similar, since in normal use xdm or the window manager will almost certainly have set a cursor.
XFixesGetCursorImage()
See examples/xfixes-cursor-image.pl for a sample program getting the cursor image with this request.
A region object on the server represents a set of rectangles, each x,y,width,height, with positive or negative x,y, and the set possibly made of disconnected sections, etc. (Basically a server-side copy of the Xlib region code, see XCreateRegion(3).)
Each rectangle might be just 1x1 for a single pixel, so a region can represent any bitmap, but it's geared towards the sort of rectangle arithmetic which arises from overlapping rectangular windows etc.
$X->XFixesCreateRegion ($region, $rect...)
Create $region (a new XID) as a region and set it to the union of the given rectangles, or empty if none. Each $rect is an arrayref [$x,$y,$width,$height].
$region
$rect
[$x,$y,$width,$height]
my $region = $X->new_rsrc; $X->XFixesCreateRegion ($region, [0,0,10,5], [100,100,1,1]);
$X->XFixesCreateRegionFromBitmap ($region, $bitmap)
Create a region initialized from the 1 bits of $bitmap (a pixmap XID).
$bitmap
my $region = $X->new_rsrc; $X->XFixesCreateRegionFromBitmap ($region, $bitmap);
$X->XFixesCreateRegionFromWindow ($region, $window, $kind)
Create a region initialized from the shape of $window (an XID). $kind is either "Bounding" or "Clip" as per the SHAPE extension (see X11::Protocol::Ext::SHAPE).
$kind
my $region = $X->new_rsrc; $X->XFixesCreateRegionFromBitmap ($region, $window, 'Clip');
There's no need to $X->init_extension('SHAPE') before using this request. Any shape is just on the server and results in a $region of either a single rectangle or set of rectangles for a shape.
$X->init_extension('SHAPE')
$X->XFixesCreateRegionFromGC ($region, $gc)
Create a region initialized from the clip mask of $gc (an XID).
$gc
my $region = $X->new_rsrc; $X->XFixesCreateRegionFromGC ($region, $gc);
The region is relative to the GC clip_x_origin and clip_y_origin, ie. those offsets are not applied to the X,Y in the region.
clip_x_origin
clip_y_origin
$X->XFixesCreateRegionFromPicture ($region, $picture)
Create a region initialized from a RENDER $picture (an XID).
$picture
my $region = $X->new_rsrc; $X->XFixesCreateRegionFromBitmap ($region, $picture);
The region is relative to the picture clip_x_origin and clip_y_origin, ie. those offsets are not applied to the X,Y in the region.
Picture objects are from the RENDER extension (see X11::Protocol::Ext::RENDER). This request always exists, but is not useful without RENDER.
$X->XFixesDestroyRegion ($region)
Destroy $region.
$X->XFixesSetRegion ($region, $rect...)
Set $region to the union of the given rectangles, or empty if none. Each $rect is an arrayref [$x,$y,$width,$height], as per XFixesCreateRegion() above.
XFixesCreateRegion()
$X->XFixesSetRegion ($region, [0,0,20,10], [100,100,5,5])
$X->XFixesCopyRegion ($dst, $src)
Copy a region $src to region $dst.
$src
$dst
$X->XFixesUnionRegion ($src1, $src2, $dst)
$X->XFixesIntersectRegion ($src1, $src2, $dst)
$X->XFixesSubtractRegion ($src1, $src2, $dst)
Set region $dst to respectively the union or intersection of $src1 and $src2, or the subtraction $src1 - $src2.
$src1
$src2
$dst can be one of the source regions if desired, to change in-place.
$X->XFixesInvertRegion ($src, $rect, $dst)
Set region $dst to the inverse of $src bounded by rectangle $rect, ie. $rect subtract $src. $rect is an arrayref [$x,$y,$width,$height].
$X-XFixesInvertRegion ($src, [10,10, 200,100], $dst)>
$dst can be the same as $src to do an "in-place" invert.
$X->XFixesTranslateRegion ($region, $dx, $dy)
Move the area covered by $region by an offset $dx and $dy (integers).
$dx
$dy
$X->XFixesRegionExtents ($dst, $src)
Set region $dst to the rectangular bounds of region $src. If $src is empty then $dst is set to empty.
($bounding, @parts) = $X->XFixesFetchRegion ($region)
Return the rectangles which cover $region. Each returned element is an arrayref
The first is a bounding rectangle, and after that the individual rectangles making up the region, in "YX-banded" order.
my ($bounding, @rects) = $X->XFixesFetchRegion ($region); print "bounded by ",join(',',@$bounding); foreach my $rect (@rects) { print " rect part ",join(',',@$rect); }
$X->XFixesSetGCClipRegion ($gc, $clip_x_origin, $clip_y_origin, $region)
Set the clip mask of $gc (an XID) to $region (an XID), and set the clip origin to $clip_x_origin,$clip_x_origin.
$clip_x_origin
This is similar to the core SetClipRectangles(), but the rectangles are from $region (and no "ordering" parameter).
SetClipRectangles()
$X->XFixesSetWindowShapeRegion ($window, $kind, $x_offset, $y_offset, $region)
Set the shape mask of $window (an XID) to $region, at offset $x_offset,$y_offset into the window. $kind is a ShapeKind, either "Bounding" or "Clip".
$x_offset
$y_offset
This is similar to ShapeMask() (see X11::Protocol::Ext::SHAPE) with operation "Set" and a a region instead of a bitmap.
ShapeMask()
It's not necessary to $X->init_extension('SHAPE') before using this request. If SHAPE is not available on the server then presumably this request gives an error reply.
$X->XFixesSetPictureClipRegion ($picture, $clip_x_origin, $clip_y_origin, $region)
Set the clip mask of RENDER $picture (an XID) to $region, and set the clip origin to $clip_x_origin,$clip_x_origin.
This is similar to RenderSetPictureClipRectangles(), but the rectangles are from $region.
RenderSetPictureClipRectangles()
Picture objects are from the RENDER extension (see X11::Protocol::Ext::RENDER). The request always exists, but is not useful without RENDER.
$X->XFixesSetCursorName ($cursor, $str)
Set a name for cursor object $cursor (an XID). The name string $str is interned as an atom in the server and therefore be a byte string of latin-1 characters. (Perhaps in the future that might be enforced here, or wide chars converted.)
$cursor
$str
($atom, $str) = $X->XFixesGetCursorName ($cursor)
Get the name of mouse pointer cursor $cursor (an XID), as set by XFixesSetCursorName().
XFixesSetCursorName()
The returned $atom is the name atom (an integer) and $str is the name string (which is the atom's name). If there's no name for $cursor then $atom is string "None" (or 0 if no $X->{'do_interp'}) and $str is empty "".
$atom
$X->{'do_interp'}
($x,$y, $width,$height, $xhot,$yhot, $serial, $pixels, $atom, $str) = $X->XFixesGetCursorImageAndName ()
Get the image and name of the current mouse pointer cursor. The return is per XFixesGetCursorImage() plus XFixesGetCursorName() described above.
XFixesGetCursorName()
$X->XFixesChangeCursor ($src, $dst)
Change the contents of cursor $dst (an XID) to the contents of cursor $src (an XID).
$X->XFixesChangeCursorByName ($src, $dst_str)
Change the contents of any cursors with name $dst_str (a string) to the contents of cursor $src. If there's no cursors with name $dst_str then do nothing.
$dst_str
$X->XFixesExpandRegion ($src, $dst, $left,$right,$top,$bottom)
Set region $dst (an XID) to the rectangles of region $src, with each rectangle expanded by $left, $right, $top, $bottom many pixels in those respective directions.
$left
$right
$top
$bottom
Notice it doesn't matter how $src is expressed as rectangles, the effect is as if each individual pixel in $src was expanded and the union of the result taken.
$X->XFixesHideCursor ($window)
$X->XFixesShowCursor ($window)
Hide or show the mouse pointer cursor while it's in $window (an XID) or any subwindow of $window.
This hiding for each window is a per-client setting. If more than one client requests hiding then the cursor remains hidden until all of them "show" again. If a client disconnects or is killed then its hides are automatically undone.
$X->XFixesCreatePointerBarrier ($barrier, $drawable, $x1,$y1, $x2,$y2, $directions)
$X->XFixesCreatePointerBarrier ($barrier, $drawable, $x1,$y1, $x2,$y2, $directions, $deviceid...)
Create $barrier (a new XID) as a barrier object which prevents user mouse pointer movement across a line between points $x1,$y1 and $x2,$y2. For example
$barrier
$x1,$y1
$x2,$y2
my $barrier = $X->new_rsrc; $X->XFixesCreatePointerBarrier ($barrier, $X->root, 100,100, 100,500, 0);
X,Y coordinates are screen coordinates on the screen of $drawable. The line must be horizontal or vertical, so either $x1==$x2 or $y1==$y2 (but not both). A horizontal barrier is across the top edge of the line pixels, a vertical barrier is along the left edge of the line pixels.
$drawable
$x1==$x2
$y1==$y2
$directions is an integer OR of the follow bits for which directions to allow some movement across the line. A value 0 means no movement across is allowed.
$directions
PositiveX 1 PositiveY 2 NegativeX 4 NegativeY 8
For example on a horizontal line, value 8 would allow the pointer to move through the line in the negative Y direction (up the screen), and movement in the positive Y direction (down the screen) would still be forbidden.
$directions can let the user move the mouse out of some sort of forbidden region but not go back in.
Optional $deviceid arguments are X Input Extension 2.0 devices the barrier should apply to (see X11::Protocol::Ext::XInputExtension). With no arguments the barrier is just for the core protocol mouse pointer. Each argument can be
$deviceid
device ID integer "AllDevices" enum string, 0 "AllMasterDevices" enum string, 1
It's not necessary to $X->init_extension('XInputExtension') before using this barrier request.
$X->init_extension('XInputExtension')
The user can move the mouse pointer to go around a barrier line but by putting lines together a region can be constructed keeping the pointer inside or outside, or even a maze to trick the user!
Touchscreen pad input is not affected by barriers, and $X->WarpPointer() can still move the pointer anywhere.
$X->WarpPointer()
One intended use is when a Xinerama screen (see X11::Protocol::Ext::XINERAMA) is made from monitors of different pixel sizes so parts of the logical screen extent are off the edge of one of the smaller monitors. Barriers can prevent the user losing the mouse in one of those dead regions.
For reference, some X.org server versions prior to some time around version 1.14 did not accept $deviceid arguments in the request and gave a Length error on attempting to pass them. Those servers might have given an Implementation error anyway (for barrier feature not yet implemented).
Length
Implementation
$X->XFixesDestroyPointerBarrier ($barrier)
Destroy the given barrier (an XID).
The following events have the usual fields
name "XFixes..." synthetic true if from a SendEvent code integer opcode sequence_number integer
This is sent to the client when selected by XFixesSelectSelectionInput above. It reports changes to the selection. The event-specific fields are
XFixesSelectSelectionInput
subtype enum string window XID owner XID of owner window, or "None" selection atom integer time integer, server timestamp selection_time integer, server timestamp
subtype is one of
subtype
SetSelectionOwner SelectionWindowDestroy SelectionClientClose
time is when the event was generated, selection_time is when the selection was owned.
time
selection_time
This is sent to the client when selected by XFixesSelectCursorInput() above. It reports when the currently displayed mouse pointer cursor has changed. It has the following event-specific fields,
XFixesSelectCursorInput()
subtype enum string, currently always "DisplayCursor" window XID cursor_serial integer time integer, server timestamp cursor_name atom or "None" (XFIXES 2.0 up)
subtype is "DisplayCursor" when the displayed cursor has changed. This is the only subtype currently.
cursor_serial is a serial number as per XFixesGetCursorImage(). A client can use this to notice when the displayed cursor is something it has already fetched with XFixesGetCursorImage().
cursor_serial
cursor_name is the atom of the name given to the cursor by XFixesSetCursorName, or string "None" if no name. This field is new in XFIXES 2.0 and is present in the event unpack only if the server does XFIXES 2.0 or higher. For $X->pack_event(), cursor_name is optional and the field is set if given.
cursor_name
XFixesSetCursorName
$X->pack_event()
Error type "Region" is a bad $region resource XID in a request (XFIXES 2.0 up).
X11::Protocol, X11::Protocol::Ext::SHAPE, X11::Protocol::Ext::RENDER
/usr/share/doc/x11proto-fixes-dev/fixesproto.txt.gz
http://user42.tuxfamily.org/x11-protocol-other/index.html
Copyright 2011, 2012, 2013, 2014, 2016, 2017, 2019 Kevin Ryde
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