xenocara/proto/fixesproto/fixesproto.txt
2011-04-17 15:15:09 +00:00

662 lines
19 KiB
Plaintext

The XFIXES Extension
Version 5.0
Document Revision 1
2010-11-15
Keith Packard
keithp@keithp.com
1. Introduction
X applications have often needed to work around various shortcomings in the
core X window system. This extension is designed to provide the minimal
server-side support necessary to eliminate problems caused by these
workarounds.
2. Acknowledgements
This extension is a direct result of requests made by application
developers, in particular,
+ Owen Taylor for describing the issues raised with the XEMBED
mechanisms and SaveSet processing and his initial extension
to handle this issue, and for pointer barriers
+ Bill Haneman for the design for cursor image tracking.
+ Havoc Pennington
+ Fredrik Höglund for cursor names
+ Deron Johnson for cursor visibility
3. Basic Premise
Requests in this extension may seem to wander all over the map of X server
capabilities, but they are tied by a simple rule -- resolving issues raised
by application interaction with core protocol mechanisms that cannot be
adequately worked around on the client side of the wire.
4. Extension initialization
The client must negotiate the version of the extension before executing
extension requests. Behavior of the server is undefined otherwise.
QueryVersion
client-major-version: CARD32
client-minor-version: CARD32
->
major-version: CARD32
minor-version: CARD32
The client sends the highest supported version to the server and
the server sends the highest version it supports, but no higher than
the requested version. Major versions changes can introduce
new requests, minor version changes introduce only adjustments to
existing requests or backward compatible changes. It is
the clients responsibility to ensure that the server supports
a version which is compatible with its expectations.
************* XFIXES VERSION 1 OR BETTER ***********
5. Save Set processing changes
Embedding one application within another provides a way of unifying
disparate documents and views within a single framework. From the X
protocol perspective, this appears similar to nested window managers; the
embedding application "manages" the embedded windows much as a window
manager does for top-level windows. To protect the embedded application
from embedding application failure, it is reasonable to use the core SaveSet
mechanism so that embedding application failure causes embedded windows to
be preserved instead of destroyed.
The core save set mechanism defines the target for each save set member
window as the nearest enclosing window not owned by the terminating client.
For embedding applications, this nearest window is usually the window
manager frame. The problem here is that the window manager will not
generally expect to receive and correctly manage new windows appearing within
that window by the save set mechanism, and will instead destroy the frame
window in response to the client window destruction. This causes the
embedded window to be destroyed.
An easy fix for this problem is to change the target of the save set member
to a window which won't be affected by the underlying window destruction.
XFIXES chooses the root window as the target.
Having embedded windows suddenly appear at the top level can confuse users,
so XFIXES also lets the client select whether the window should end up
unmapped after the save set processing instead of unconditionally making
them be mapped.
5.1 Requests
ChangeSaveSet
window: Window
mode: { Insert, Delete }
target: { Nearest, Root }
map: { Map, Unmap }
ChangeSaveSet is an extension of the core protocol ChangeSaveSet
request. As in that request, mode specifies whether the indicated
window is inserted or deleted from the save-set. Target specifies
whether the window is reparented to the nearest non-client window as
in the core protocol, or reparented to the root window. Map
specifies whether the window is mapped as in the core protocol or
unmapped.
6. Selection Tracking
Applications wishing to monitor the contents of current selections must
poll for selection changes. XFIXES improves this by providing an event
delivered whenever the selection ownership changes.
6.1 Types
SELECTIONEVENT { SetSelectionOwner,
SelectionWindowDestroy,
SelectionClientClose }
6.1 Events
SelectionNotify
subtype: SELECTIONEVENT
window: Window
owner: Window
selection: Atom
timestamp: Timestamp
selection-timestamp: Timestamp
6.2 Requests
SelectSelectionInput
window: Window
selection: Atom
event-mask: SETofSELECTIONEVENT
Selects for events to be delivered to window when various causes of
ownership of selection occur. Subtype indicates the cause of the
selection ownership change. Owner is set to the current selection
owner, or None. Timestamp indicates the time the event was
generated while selection-timestamp indicates the timestamp used to
own the selection.
7. Cursor Image Monitoring
Mirroring the screen contents is easily done with the core protocol or VNC
addons, except for the current cursor image. There is no way using the core
protocol to discover which cursor image is currently displayed. The
cursor image often contains significant semantic content about the user
interface. XFIXES provides a simple mechanism to discover when the cursor
image changes and to fetch the current cursor image.
As the current cursor may or may not have any XID associated with it, there
is no stable name available. Instead, XFIXES returns only the image of the
current cursor and provides a way to identify cursor images to avoid
refetching the image each time it changes to a previously seen cursor.
7.1 Types
CURSOREVENT { DisplayCursor }
7.2 Events
CursorNotify
subtype: CURSOREVENT
window: Window
cursor-serial: CARD32
timestamp: Timestamp
name: Atom (Version 2 only)
7.3 Requests
SelectCursorInput
window: Window
event-mask: SETofCURSOREVENT
This request directs cursor change events to the named window.
Events will be delivered irrespective of the screen on which they
occur. Subtype indicates the cause of the cursor image change
(there is only one subtype at present). Cursor-serial is a number
assigned to the cursor image which identifies the image. Cursors
with different serial numbers may have different images. Timestamp
is the time of the cursor change.
Servers supporting the X Input Extension Version 2.0 or higher only
notify the clients of cursor change events for the ClientPointer, not
of any other master pointer (see Section 4.4. in the XI2 protocol
specificiation).
GetCursorImage
->
x: INT16
y: INT16
width: CARD16
height: CARD16
x-hot: CARD16
y-hot: CARD16
cursor-serial: CARD32
cursor-image: LISTofCARD32
GetCursorImage returns the image of the current cursor. X and y are
the current cursor position. Width and height are the size of the
cursor image. X-hot and y-hot mark the hotspot within the cursor
image. Cursor-serial provides the number assigned to this cursor
image, this same serial number will be reported in a CursorNotify
event if this cursor image is redisplayed in the future.
The cursor image itself is returned as a single image at 32 bits per
pixel with 8 bits of alpha in the most significant 8 bits of the
pixel followed by 8 bits each of red, green and finally 8 bits of
blue in the least significant 8 bits. The color components are
pre-multiplied with the alpha component.
************* XFIXES VERSION 2 OR BETTER ***********
8. Region Objects
The core protocol doesn't expose regions as a primitive object and this
makes many operations more complicated than they really need to be. Adding
region objects simplifies expose handling, the Shape extension and other
operations. These operations are also designed to support a separate
extension, the X Damage Extension.
8.1 Types
Region: XID
WINDOW_REGION_KIND: { Bounding, Clip }
8.2 Errors
Region The specified region is invalid
8.3 Requests
CreateRegion
region: REGION
rects: LISTofRECTANGLE
Creates a region initialized to the specified list of rectangles.
The rectangles may be specified in any order, their union becomes
the region. The core protocol allows applications to specify an
order for the rectangles, but it turns out to be just as hard to
verify the rectangles are actually in that order as it is to simply
ignore the ordering information and union them together. Hence,
this request dispenses with the ordering information.
Errors: IDChoice
CreateRegionFromBitmap
region: REGION
bitmap: PIXMAP
Creates a region initialized to the set of 'one' pixels in bitmap
(which must be depth 1, else Match error).
Errors: Pixmap, IDChoice, Match
CreateRegionFromWindow
window: Window
kind: WINDOW_REGION_KIND
region: Region
Creates a region initialized to the specified window region. See the
Shape extension for the definition of Bounding and Clip regions.
Errors: Window, IDChoice, Value
CreateRegionFromGC
gc: GContext
region: Region
Creates a region initialized from the clip list of the specified
GContext.
Errors: GContext, IDChoice
CreateRegionFromPicture
picture: Picture
region: Region
Creates a region initialized from the clip list of the specified
Picture.
Errors: Picture, IDChoice
DestroyRegion
region: Region
Destroys the specified region.
Errors: Region
SetRegion
region: Region
rects: LISTofRECTANGLE
This replaces the current contents of region with the region formed
by the union of rects.
CopyRegion
source: Region
destination: Region
This replaces the contents of destination with the contents of
source.
UnionRegion
IntersectRegion
SubtractRegion
source1: Region
source2: Region
destination: Region
Combines source1 and source2, placing the result in destination.
Destination may be the same as either source1 or source2.
Errors: Region, Value
InvertRegion
source: Region
bounds: RECTANGLE
destination: Region
The source region is subtracted from the region specified by
bounds. The result is placed in destination, replacing its contents.
Errors: Region
TranslateRegion
region: Region
dx, dy: INT16
The region is translated by dx, dy in place.
Errors: Region
RegionExtents
source: Region
destination: Region
The extents of the source region are placed in the destination
FetchRegion
region: Region
->
extents: RECTANGLE
rectangles: LISTofRECTANGLE
The region is returned as a list of rectangles in YX-banded order.
Errors: Region
SetGCClipRegion
gc: GCONTEXT
clip-x-origin, clip-y-origin: INT16
region: Region or None
This request changes clip-mask in gc to the specified region and
sets the clip origin. Output will be clipped to remain contained
within the region. The clip origin is interpreted relative to the
origin of whatever destination drawable is specified in a graphics
request. The region is interpreted relative to the clip origin.
Future changes to region have no effect on the gc clip-mask.
Errors: GContext, Region
SetWindowShapeRegion
dest: Window
destKind: SHAPE_KIND
xOff, yOff: INT16
region: Region or None
This request sets the specified (by destKind) Shape extension region
of the window to region, offset by xOff and yOff. Future changes to
region have no effect on the window shape.
Errors: Window, Value, Region
SetPictureClipRegion
picture: Picture
clip-x-origin, clip-y-origin: INT16
region: Region or None
This request changes clip-mask in picture to the specified region
and sets the clip origin. Input and output will be clipped to
remain contained within the region. The clip origin is interpreted
relative to the origin of the drawable associated with picture. The
region is interpreted relative to the clip origin. Future changes
to region have no effect on the picture clip-mask.
Errors: Picture, Region
9. Cursor Names
Attaching names to cursors permits some abstract semantic content to be
associated with specific cursor images. Reflecting those names back to
applications allows that semantic content to be related to the user through
non-visual means.
9.1 Events
CursorNotify
subtype: CURSOREVENT
window: Window
cursor-serial: CARD32
timestamp: Timestamp
name: Atom or None
In Version 2 of the XFIXES protocol, this event adds the atom
of any name associated with the current cursor (else None).
9.2 Requests
SetCursorName
cursor: CURSOR
name: LISTofCARD8
This request interns name as an atom and sets that atom as the name
of cursor.
Errors: Cursor
GetCursorName
cursor: CURSOR
->
atom: ATOM or None
name: LISTofCARD8
This request returns the name and atom of cursor. If no name is
set, atom is None and name is empty.
Errors: Cursor
GetCursorImageAndName
->
x: INT16
y: INT16
width: CARD16
height: CARD16
x-hot: CARD16
y-hot: CARD16
cursor-serial: CARD32
cursor-atom: ATOM
cursor-name: LISTofCARD8
cursor-image: LISTofCARD32
This is similar to GetCursorImage except for including both
the atom and name of the current cursor.
ChangeCursor
source, destination: CURSOR
This request replaces all references to the destination with a
reference to source. Any existing uses of the destination cursor
object will now show the source cursor image.
ChangeCursorByName
src: CURSOR
name: LISTofCARD8
This request replaces the contents of all cursors with the specified
name with the src cursor.
************* XFIXES VERSION 3 OR BETTER ***********
10. Region Expansion
This update provides another operation on the region objects defined in
Section 8 of this document.
10.1 Requests
ExpandRegion
source: REGION
destination: REGION
left, right, top, bottom: CARD16
Creates destination region containing the area specified by
expanding each rectangle in the source region by the specified
number of pixels to the left, right, top and bottom.
************* XFIXES VERSION 4 OR BETTER ***********
11. Cursor Visibility
Composite managers may want to render the cursor themselves instead of
relying on the X server sprite drawing, this provides a way for them to
do so without getting a double cursor image.
11.1 Requests
HideCursor
window: WINDOW
A client sends this request to indicate that it wants the
cursor image to be hidden (i.e. to not be displayed) when
the sprite is inside the specified window, or one of its
subwindows. If the sprite is inside a window for which one
or more active clients have requested cursor hiding then the
cursor image will not be displayed.
Note that even though cursor hiding causes the cursor image
to be invisible, CursorNotify events will still be sent
normally, as if the cursor image were visible.
If, during a grab, one or more active clients have requested
cursor hiding for grab window, or one of its ancestors, the
cursor image of the grab cursor will not be displayed during
the lifetime of that grab.
When a client with outstanding cursor hiding requests
terminates its connection these requests will be deleted.
Servers supporting the X Input Extension Version 2.0 or higher hide
all visible cursors in response to a HideCursor request. If a master
pointer is created while the cursors are hidden, this master pointer's
cursor will be hidden as well.
ShowCursor
window: WINDOW
A client sends this request to indicate that it wants the
cursor image to be displayed when the sprite is inside the
specified window, or one of its subwindows. If the sprite
is inside a window for which no active clients have requested
cursor hiding then the cursor image for that window will be
displayed. In other words, if a client calls HideCursor for
a specified window, or window subtree, this request reverses
the effects of the HideCursor request.
If the client has made no outstanding HideCursor requests
a BadMatch error is generated.
Servers supporting the X Input Extension Version 2.0 or higher show
all visible cursors in response to a ShowCursor request.
************* XFIXES VERSION 5 OR BETTER ***********
12. Pointer Barriers
Compositing managers and desktop environments may have UI elements in
particular screen locations such that for a single-headed display they
correspond to easy targets according to Fitt's Law, for example, the top
left corner. For a multi-headed environment these corners should still be
semi-impermeable. Pointer barriers allow the application to define
additional constraint on cursor motion so that these areas behave as
expected even in the face of multiple displays.
Absolute positioning devices like touchscreens do not obey pointer barriers.
There's no advantage to target acquisition to do so, since on a touchscreen
all points are in some sense equally large, whereas for a relative
positioning device the edges and corners are infinitely large.
WarpPointer and similar requests do not obey pointer barriers, for
essentially the same reason.
12.1 Types
BARRIER: XID
BarrierDirections
BarrierPositiveX: 1 << 0
BarrierPositiveY: 1 << 1
BarrierNegativeX: 1 << 2
BarrierNegativeY: 1 << 3
12.2 Errors
Barrier
12.3 Requests
CreatePointerBarrier
barrier: BARRIER
drawable: DRAWABLE
x1, y2, x2, y2: INT16
directions: CARD32
devices: LISTofDEVICEID
Creates a pointer barrier along the line specified by the given
coordinates on the screen associated with the given drawable. The
barrier has no spatial extent; it is simply a line along the left
or top edge of the specified pixels. Barrier coordinates are in
screen space.
The coordinates must be axis aligned, either x1 == x2, or
y1 == y2, but not both. The varying coordinates may be specified
in any order. For x1 == x2, either y1 > y2 or y1 < y2 is valid.
If the coordinates are not valid BadValue is generated.
Motion is allowed through the barrier in the directions specified:
setting the BarrierPositiveX bit allows travel through the barrier
in the positive X direction, etc. Nonsensical values (forbidding Y
axis travel through a vertical barrier, for example) and excess set
bits are ignored.
If the server supports the X Input Extension version 2 or higher,
the devices element names a set of master device to apply the
barrier to. If XIAllDevices or XIAllMasterDevices are given, the
barrier applies to all master devices. If a slave device is named,
BadDevice is generated; this does not apply to slave devices named
implicitly by XIAllDevices. Naming a device multiple times is
legal, and is treated as though it were named only once. If a
device is removed, the barrier continues to apply to the remaining
devices, but will not apply to any future device with the same ID
as the removed device. Nothing special happens when all matching
devices are removed; barriers must be explicitly destroyed.
Errors: IDChoice, Window, Value, Device
DestroyPointerBarrier
barrier: BARRIER
Destroys the named barrier.
Errors: Barrier
99. Future compatibility
This extension is not expected to remain fixed. Future changes will
strive to remain compatible if at all possible. The X server will always
support version 1 of the extension protocol if requested by a client.
Additions to the protocol will always by marked by minor version number
changes so that applications will be able to detect what requests are
supported.