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- -

XlibScm

- -

This manual documents the X Interface for SCM Language (version -5e5, February 2008). -

-

Copyright © 1999 Free Software Foundation, Inc. -

-

Permission is granted to make and distribute verbatim copies of -this manual provided the copyright notice and this permission notice -are preserved on all copies. -

-

Permission is granted to copy and distribute modified versions of this -manual under the conditions for verbatim copying, provided that the entire -resulting derived work is distributed under the terms of a permission -notice identical to this one. -

-

Permission is granted to copy and distribute translations of this manual -into another language, under the above conditions for modified versions, -except that this permission notice may be stated in a translation approved -by the author. -

- - - - - - - - - - - - - - -
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- -

1. XlibScm

- -

XlibScm is a SCM interface to X. - -The -<A HREF="http://www.x.org/"> -X Window System -</A> -is a network-transparent window system that was -designed at MIT. -<A HREF="scm_toc.html"> -SCM -</A> -is a portable Scheme implementation written in C. -The interface can be compiled into SCM or, on those platforms supporting -dynamic linking, compiled separately and loaded with (require -'Xlib). - -

- -

Much of this X documentation is dervied from: -

-

Xlib - C Language X Interface -

X Consortium Standard -

X Version 11, Release 6.3 -

-

The X Window System is a trademark of X Consortium, Inc. -

-

TekHVC is a trademark of Tektronix, Inc. -

- - -

Copyright (C) 1985, 1986, 1987, 1988, 1989, 1990, 1991, 1994, 1996 X -Consortium -

-

Permission is hereby granted, free of charge, to any person obtaining a -copy of this software and associated documentation files (the -"Software"), to deal in the Software without restriction, including -without limitation the rights to use, copy, modify, merge, publish, -distribute, sublicense, and/or sell copies of the Software, and to -permit persons to whom the Software is furnished to do so, subject to -the following conditions: -

-

The above copyright notice and this permission notice shall be included -in all copies or substantial portions of the Software. -

-

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS -OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF -MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. -IN NO EVENT SHALL THE X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR -OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, -ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR -OTHER DEALINGS IN THE SOFTWARE. -

-

Except as contained in this notice, the name of the X Consortium shall -not be used in advertising or otherwise to promote the sale, use or -other dealings in this Software without prior written authorization from -the X Consortium. -

- - - -

Copyright (C) 1985, 1986, 1987, 1988, 1989, 1990, 1991 by -Digital Equipment Corporation -

-

Portions Copyright (C) 1990, 1991 by Tektronix, Inc. -

-

Permission to use, copy, modify and distribute this documentation for -any purpose and without fee is hereby granted, provided that the above -copyright notice appears in all copies and that both that copyright -notice and this permission notice appear in all copies, and that the -names of Digital and Tektronix not be used in in advertising or -publicity pertaining to this documentation without specific, written -prior permission. Digital and Tektronix makes no representations about -the suitability of this documentation for any purpose. It is provided -“as is” without express or implied warranty. -

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- -

2. Display and Screens

- -
-
Function: x:open-display display-name
-

display-name Specifies the hardware display name, which determines -the display and communications domain to be used. On a POSIX-conformant -system, if the display-name is #f, it defaults to the value of the -DISPLAY environment variable. -

-

The encoding and interpretation of display-name is -implementation-dependent. On POSIX-conformant systems, the -display-name or DISPLAY environment variable can be a string -in the format: -

-
-
Special Form: hostname:number.screen-number
-
-

hostname specifies the name of the host machine on which the -display is physically attached. Follow the hostname with either a -single colon (:) or a double colon (::). -

-

number specifies the number of the display server on that host -machine. You may optionally follow this display number with a period -(.). A single CPU can have more than one display. Multiple displays -are usually numbered starting with zero. -

-

screen-number specifies the screen to be used on that server. -Multiple screens can be controlled by a single X server. The -screen-number sets an internal variable that can be accessed by -using the x:default-screen procedure. -

-
- -
-
Function: x:close display
-

display specifies the connection to the X server. -

-

The x:close function closes the connection to the X server for -the display specified and destroys all windows, resource IDs -(Window, Font, Pixmap, Colormap, Cursor, and GContext), or other -resources that the client has created on this display, unless the -close-down mode of the resource has been changed (see -x:set-close-down-mode). Therefore, these windows, resource IDs, -and other resources should not be used again or an error will be -generated. Before exiting, you should call x:close-display or -x:flush explicitly so that any pending errors are reported. -

- -
-
Function: x:protocol-version display
-

Returns cons of the major version number (11) of the X protocol -associated with the connected display and the minor protocol -revision number of the X server. -

- -
-
Function: x:server-vendor display
-

Returns a string that provides some identification of the owner of the X -server implementation. The contents of the string are -implementation-dependent. -

- -
-
Function: x:vendor-release display
-

Returns a number related to a vendor’s release of the X server. -

- - -

A display consists of one or more Screens. Each screen has a -root-window, default-graphics-context, and colormap. -

-
-
Function: x:screen-count display
-

Returns the number of available screens. -

- -
-
Function: x:default-screen display
-

Returns the default screen number specified by the x:open-display -function. Use this screen number in applications which will use only a -single screen. -

- -
-
Function: x:root-window display screen-number
-
Function: x:root-window display
-

screen-number, if givien, specifies the appropriate screen number -on the host server. Otherwise the default-screen for display is -used. -

-

Returns the root window for the specified screen-number. Use -x:root-window for functions that need a drawable of a particular -screen or for creating top-level windows. -

-
Function: x:root-window window
-

Returns the root window for the specified window’s screen. -

- -
-
Function: x:default-colormap display screen-number
-
Function: x:default-colormap display
-
Function: x:default-colormap window
-

Returns the default colormap of the specified screen. -

- -
-
Function: x:default-ccc display screen-number
-
Function: x:default-ccc display
-
Function: x:default-ccc window
-

Returns the default Color-Conversion-Context (ccc) of the specified -screen. -

- -
-
Function: x:default-gc display screen-number
-
Function: x:default-gc display
-
Function: x:default-gc window
-

Returns the default graphics-context of the specified screen. -

- -
-
Function: x:screen-depths display screen-number
-
Function: x:screen-depths display
-
Function: x:screen-depths window
-

Returns an array of depths supported by the specified screen. -

- -

The Visual type describes possible colormap depths and -arrangements. -

-
-
Function: x:default-visual display screen-number
-
Function: x:default-visual display
-
Function: x:default-visual window
-

Returns the default Visual type for the specified screen. -

- - -
- -
-
Function: x:make-visual display depth class
-
Function: x:make-visual window depth class
-
-

The integer depth specifies the number of bits per pixel. -The class argument specifies one of the possible -visual classes for a screen: -

    -
  • x:Static-Gray -
  • x:Static-Color -
  • x:True-Color -
  • x:Gray-Scale -
  • x:Pseudo-Color -
  • x:Direct-Color -
- -

X:make-visual returns a visual type for the screen specified by -display or window if successful; #f if not. -

- -
-
Function: x:visual-class visual
-
Function: x:visual-class screen
-
Function: x:visual-class display
-

Returns the (integer) visual class of its argument. -

- -
-
Function: x:visual-geometry visual
-
Function: x:visual-geometry screen
-
Function: x:visual-geometry display
-

Returns a list of the: -

    -
  • red_mask -
  • green_mask -
  • blue_mask -
  • colormap_size -
-
- - -
-
Function: x:screen-cells display screen-number
-
Function: x:screen-cells display
-
Function: x:screen-cells window
-

Returns the number of entries in the default colormap. -

- -
-
Function: x:screen-depth display screen-number
-

Returns the depth of the root window of the specified screen. -

Function: x:screen-depth display
-
Function: x:screen-depth window
-
Function: x:screen-depth visual
-

Returns the depth of argument. -

- -

The depth of a window or pixmap is the number of bits per pixel it has. -The depth of a graphics context is the depth of the drawables it can be -used in conjunction with graphics output. -

- -
-
Function: x:screen-size display screen-number
-
Function: x:screen-size display
-
Function: x:screen-size window
-

Returns a list of integer height and width of the screen in pixels. -

- -
-
Function: x:screen-dimensions display screen-number
-
Function: x:screen-dimensions display
-
Function: x:screen-dimensions window
-

Returns a list of integer height and width of the screen in millimeters. -

- -
-
Function: x:screen-white display screen-number
-
Function: x:screen-white display
-
Function: x:screen-white window
-

Returns the white pixel value of the specified screen. -

- -
-
Function: x:screen-black display screen-number
-
Function: x:screen-black display
-
Function: x:screen-black window
-

Returns the black pixel value of the specified screen. -

- -
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3. Drawables

- - - -

A Drawable is either a window or pixmap. -

- - - - - - - -
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- -

3.1 Windows and Pixmaps

- -
-
Function: x:create-window window position size border-width depth class visual field-name value …
-

Creates and returns an unmapped Input-Output subwindow for a specified -parent window and causes the X server to generate a CreateNotify -event. The created window is placed on top in the stacking order with -respect to siblings. Any part of the window that extends outside its -parent window is clipped. The border-width for an -x:Input-Only window must be zero. -

-

The coordinate system has the X axis horizontal and the Y axis vertical -with the origin [0, 0] at the upper-left corner. Coordinates are -integral, in terms of pixels, and coincide with pixel centers. Each -window and pixmap has its own coordinate system. For a window, the -origin is inside the border at the inside, upper-left corner. -

-

Class can be x:Input-Output, x:Input-Only, or x:Copy-From-Parent. -For class x:Input-Output, the visual type and depth must be -a combination supported for the screen. The depth need not be the -same as the parent, but the parent must not be a window of class -x:Input-Only. For an x:Input-Only window, the depth must be zero, -and the visual must be one supported by the screen. -

-

The returned window will have the attributes specified by -field-names and value. -

-
Function: x:create-window window position size border-width border background
-

The returned window inherits its depth, class, and visual from its -parent. All other window attributes, except background and -border, have their default values. -

- -
-
Function: x:create-pixmap drawable size depth
-
Function: x:create-pixmap display size depth
-
-

size is a list, vector, or pair of nonzero integers specifying the width -and height desired in the new pixmap. -

-

x:create-pixmap returns a new pixmap of the width, height, and -depth specified. It is valid to pass an x:Input-Only window to the -drawable argument. The depth argument must be one of the depths -supported by the screen of the specified drawable. -

- -
-
Function: x:close window
-

Destroys the specified window as well as all of its subwindows and -causes the X server to generate a DestroyNotify event for each window. -The window should not be used again. If the window specified by the -window argument is mapped, it is unmapped automatically. The -ordering of the DestroyNotify events is such that for any given window -being destroyed, DestroyNotify is generated on any inferiors of the -window before being generated on the window itself. The ordering among -siblings and across subhierarchies is not otherwise constrained. If the -window you specified is a root window, an error is signaled. -Destroying a mapped window will generate x:Expose events on other -windows that were obscured by the window being destroyed. -

- -
-
Function: x:close pixmap
-

Deletes the association between the pixmap and its storage. The X -server frees the pixmap storage when there are no references to it. -

- -
-
Function: x:window-geometry drawable
-

Returns a list of: -

-
-
coordinates
-

list of x and y coordinates that define the location of the -drawable. For a window, these coordinates specify the upper-left -outer corner relative to its parent’s origin. For pixmaps, these -coordinates are always zero. -

-
size
-

list of the drawable’s dimensions (width and height). For -a window, these dimensions specify the inside size, not including the -border. -

-
border-width
-

The border width in pixels. If the drawable is a pixmap, this is -zero. -

-
depth
-

The depth of the drawable (bits per pixel for the object). -

-
-
- - -
-
Function: x:window-geometry-set! window field-name value …
-

Changes the Configuration components specified by -field-names for the specified window. -

- -

These are the attributes settable by x:window-geometry-set!. -That these attributes are encoded by small integers – just like those -of the next section. Be warned therefore that confusion of attribute -names will likely not signal errors, just cause mysterious behavior. -

-
-
Attribute: x:CWX
-
Attribute: x:CWY
-
Attribute: x:CW-Width
-
Attribute: x:CW-Height
-

The x:CWX and x:CYY members are used to set the window’s x and y -coordinates, which are relative to the parent’s origin and indicate the -position of the upper-left outer corner of the window. The x:CW-Width -and x:CW-Height members are used to set the inside size of the window, -not including the border, and must be nonzero. Attempts to configure a -root window have no effect. -

-

If a window’s size actually changes, the window’s subwindows move -according to their window gravity. Depending on the window’s bit -gravity, the contents of the window also may be moved -

- -
-
Attribute: x:CW-Border-Width
-

The integer x:CW-Border-Width is used to set the width of the border in -pixels. Note that setting just the border width leaves the outer-left -corner of the window in a fixed position but moves the absolute position -of the window’s origin. It is an error to set the border-width -attribute of an InputOnly window nonzero. -

- -
-
Attribute: x:CW-Sibling
-

The sibling member is used to set the sibling window for stacking -operations. -

- -
-
Attribute: x:CW-Stack-Mode
-

The x:CW-Stack-Mode member is used to set how the window is to be -restacked and can be set to x:Above, x:Below, x:Top-If, x:Bottom-If, or -x:Opposite. -

- -

If a sibling and a stack-mode are specified, the window is restacked as -follows: -

-
-
x:Above
-

The window is placed just above the sibling. -

-
x:Below
-

The window is placed just below the sibling. -

-
x:Top-If
-

If the sibling occludes the window, the window is placed at the top of -the stack. -

-
x:Bottom-If
-

If the window occludes the sibling, the window is placed at the bottom -of the stack. -

-
x:Opposite
-

If the sibling occludes the window, the window is placed at the top of -the stack. If the window occludes the sibling, the window is placed at -the bottom of the stack. -

-
- -

If a stack-mode is specified but no sibling is specified, the window -is restacked as follows: -

-
-
x:Above
-

The window is placed at the top of the stack. -

-
x:Below
-

The window is placed at the bottom of the stack. -

-
x:Top-If
-

If any sibling occludes the window, the window is placed at the top of -the stack. -

-
x:Bottom-If
-

If the window occludes any sibling, the window is placed at the bottom -of the stack. -

-
x:Opposite
-

If any sibling occludes the window, the window is placed at the top of -the stack. If the window occludes any sibling, the window is placed at -the bottom of the stack. -

-
- - - - -
- - - - - - - - - - - - - - - - -
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- -

3.2 Window Attributes

- -
-
Function: x:window-set! window field-name value …
-

Changes the components specified by field-names for the specified -window. The restrictions are the same as for -x:create-window. The order in which components are verified and -altered is server dependent. If an error occurs, a subset of the -components may have been altered. -

- -

The x:create-window and x:window-set! procedures take five -and one argument (respectively) followed by pairs of arguments, where -the first is one of the property-name symbols (or its top-level value) -listed below; and the second is the value to associate with that -property. -

-
-
Attribute: x:CW-Back-Pixmap
-

Sets the background pixmap of the window to the specified pixmap. -The background pixmap can immediately be freed if no further explicit -references to it are to be made. If x:Parent-Relative is specified, the -background pixmap of the window’s parent is used, or on the root window, -the default background is restored. It is an error to perform this -operation on an x:Input-Only window. If the background is set to #f or -None, the window has no defined background. -

- -
-
Attribute: x:CW-Back-Pixel
-

Sets the background of the window to the specified pixel value. -Changing the background does not cause the window contents to be -changed. It is an error to perform this operation on an x:Input-Only -window. -

- -
-
Attribute: x:CW-Border-Pixmap
-

Sets the border pixmap of the window to the pixmap you specify. -The border pixmap can be freed if no further explicit references to it -are to be made. If you specify x:Copy-From-Parent, a copy of the parent -window’s border pixmap is used. It is an error to perform this -operation on an x:Input-Only window. -

- -
-
Attribute: x:CW-Border-Pixel
-

Sets the border of the window to the pixel value. It is an -error to perform this operation on an x:Input-Only window. -

- -
-
Attribute: x:CW-Bit-Gravity
-
Attribute: x:CW-Win-Gravity
-

The bit gravity of a window defines which region of the window should be -retained when an x:Input-Output window is resized. The default value -for the bit-gravity attribute is x:Forget-Gravity. The window gravity -of a window allows you to define how the x:Input-Output or x:Input-Only -window should be repositioned if its parent is resized. The default -value for the win-gravity attribute is x:North-West-Gravity. -

-

If the inside width or height of a window is not changed and if the -window is moved or its border is changed, then the contents of the -window are not lost but move with the window. Changing the inside width -or height of the window causes its contents to be moved or lost -(depending on the bit-gravity of the window) and causes children to be -reconfigured (depending on their win-gravity). For a change of width -and height, the (x, y) pairs are defined: -

- - - - - - - - - - - -
Gravity DirectionCoordinates
x:North-West-Gravity(0, 0)
x:North-Gravity(Width/2, 0)
x:North-East-Gravity(Width, 0)
x:West-Gravity(0, Height/2)
x:Center-Gravity(Width/2, Height/2)
x:East-Gravity(Width, Height/2)
x:South-West-Gravity(0, Height)
x:South-Gravity(Width/2, Height)
x:South-East-Gravity(Width, Height)
- -

When a window with one of these bit-gravity values is resized, the -corresponding pair defines the change in position of each pixel in the -window. When a window with one of these win-gravities has its parent -window resized, the corresponding pair defines the change in position of -the window within the parent. When a window is so repositioned, a -x:Gravity-Notify event is generated (see section 10.10.5). -

-

A bit-gravity of x:Static-Gravity indicates that the contents or origin -should not move relative to the origin of the root window. If the -change in size of the window is coupled with a change in position (x, -y), then for bit-gravity the change in position of each pixel is (-x, --y), and for win-gravity the change in position of a child when its -parent is so resized is (-x, -y). Note that x:Static-Gravity still only -takes effect when the width or height of the window is changed, not when -the window is moved. -

-

A bit-gravity of x:Forget-Gravity indicates that the window’s contents -are always discarded after a size change, even if a backing store or -save under has been requested. The window is tiled with its background -and zero or more x:Expose events are generated. If no background is -defined, the existing screen contents are not altered. Some X servers -may also ignore the specified bit-gravity and always generate x:Expose -events. -

-

The contents and borders of inferiors are not affected by their parent’s -bit-gravity. A server is permitted to ignore the specified bit-gravity -and use x:Forget-Gravity instead. -

-

A win-gravity of x:Unmap-Gravity is like x:North-West-Gravity (the -window is not moved), except the child is also unmapped when the parent -is resized, and an x:Unmap-Notify event is generated. -

- -
-
Attribute: x:CW-Backing-Store
-

Some implementations of the X server may choose to maintain the contents -of x:Input-Output windows. If the X server maintains the contents of a -window, the off-screen saved pixels are known as backing store. The -backing store advises the X server on what to do with the contents of a -window. The backing-store attribute can be set to x:Not-Useful -(default), x:When-Mapped, or x:Always. A backing-store attribute of -x:Not-Useful advises the X server that maintaining contents is -unnecessary, although some X implementations may still choose to -maintain contents and, therefore, not generate x:Expose events. A -backing-store attribute of x:When-Mapped advises the X server that -maintaining contents of obscured regions when the window is mapped would -be beneficial. In this case, the server may generate an x:Expose event -when the window is created. A backing-store attribute of x:Always -advises the X server that maintaining contents even when the window is -unmapped would be beneficial. Even if the window is larger than its -parent, this is a request to the X server to maintain complete contents, -not just the region within the parent window boundaries. While the X -server maintains the window’s contents, x:Expose events normally are not -generated, but the X server may stop maintaining contents at any time. -

-

When the contents of obscured regions of a window are being maintained, -regions obscured by noninferior windows are included in the destination -of graphics requests (and source, when the window is the source). -However, regions obscured by inferior windows are not included. -

- -
-
Attribute: x:CW-Backing-Planes
-
Attribute: x:CW-Backing-Pixel
-

You can set backing planes to indicate (with bits set to 1) which bit -planes of an x:Input-Output window hold dynamic data that must be -preserved in backing store and during save unders. The default value -for the backing-planes attribute is all bits set to 1. You can set -backing pixel to specify what bits to use in planes not covered by -backing planes. The default value for the backing-pixel attribute is -all bits set to 0. The X server is free to save only the specified bit -planes in the backing store or the save under and is free to regenerate -the remaining planes with the specified pixel value. Any extraneous -bits in these values (that is, those bits beyond the specified depth of -the window) may be simply ignored. If you request backing store or save -unders, you should use these members to minimize the amount of -off-screen memory required to store your window. -

- -
-
Attribute: x:CW-Override-Redirect
-

To control window placement or to add decoration, a window manager often -needs to intercept (redirect) any map or configure request. Pop-up -windows, however, often need to be mapped without a window manager -getting in the way. To control whether an x:Input-Output or -x:Input-Only window is to ignore these structure control facilities, use -the override-redirect flag. -

-

The override-redirect flag specifies whether map and configure requests -on this window should override a x:Substructure-Redirect-Mask on the -parent. You can set the override-redirect flag to #t or #f (default). -Window managers use this information to avoid tampering with pop-up -windows. -

- -
-
Attribute: x:CW-Save-Under
-

Some server implementations may preserve contents of x:Input-Output windows -under other x:Input-Output windows. This is not the same as preserving the -contents of a window for you. You may get better visual appeal if -transient windows (for example, pop-up menus) request that the system -preserve the screen contents under them, so the temporarily obscured -applications do not have to repaint. -

-

You can set the save-under flag to True or False (default). If -save-under is True, the X server is advised that, when this window is -mapped, saving the contents of windows it obscures would be beneficial. -

- -
-
Attribute: x:CW-Event-Mask
-

The event mask defines which events the client is interested in for this -x:Input-Output or x:Input-Only window (or, for some event types, -inferiors of this window). The event mask is the bitwise inclusive OR -of zero or more of the valid event mask bits. You can specify that no -maskable events are reported by setting x:No-Event-Mask (default). -

-

The following table lists the event mask constants you can pass to the -event-mask argument and the circumstances in which you would want to -specify the event mask: -

- - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Event MaskCircumstances
x:No-Event-MaskNo events wanted
x:Key-Press-MaskKeyboard down events wanted
x:Key-Release-MaskKeyboard up events wanted
x:Button-Press-MaskPointer button down events wanted
x:Button-Release-MaskPointer button up events wanted
x:Enter-Window-MaskPointer window entry events wanted
x:Leave-Window-MaskPointer window leave events wanted
x:Pointer-Motion-MaskPointer motion events wanted
x:Pointer-Motion-Hint-MaskIf x:Pointer-Motion-Hint-Mask is selected in combination with one or -more motion-masks, the X server is free to send only one x:Motion-Notify -event (with the is_hint member of the X:Pointer-Moved-Event structure -set to x:Notify-Hint) to the client for the event window, until either -the key or button state changes, the pointer leaves the event window, or -the client calls X:Query-Pointer or X:Get-Motion-Events. The server -still may send x:Motion-Notify events without is_hint set to -x:Notify-Hint.
x:Button1-Motion-MaskPointer motion while button 1 down
x:Button2-Motion-MaskPointer motion while button 2 down
x:Button3-Motion-MaskPointer motion while button 3 down
x:Button4-Motion-MaskPointer motion while button 4 down
x:Button5-Motion-MaskPointer motion while button 5 down
x:Button-Motion-MaskPointer motion while any button down
x:Keymap-State-MaskKeyboard state wanted at window entry and focus in
x:Exposure-MaskAny exposure wanted
x:Visibility-Change-MaskAny change in visibility wanted
x:Structure-Notify-MaskAny change in window structure wanted
x:Resize-Redirect-MaskRedirect resize of this window
x:Substructure-Notify-MaskSubstructure notification wanted
x:Substructure-Redirect-MaskRedirect structure requests on children
x:Focus-Change-MaskAny change in input focus wanted
x:Property-Change-MaskAny change in property wanted
x:Colormap-Change–MaskAny change in colormap wanted
x:Owner-Grab-Button–MaskAutomatic grabs should activate with owner_events set to True
- -
- -
-
Attribute: x:CW-Dont-Propagate
-

The do-not-propagate-mask attribute defines which events should not be -propagated to ancestor windows when no client has the event type -selected in this x:Input-Output or x:Input-Only window. The -do-not-propagate-mask is the bitwise inclusive OR of zero or more of the -following masks: x:Key-Press, x:Key-Release, x:Button-Press, -x:Button-Release, x:Pointer-Motion, x:Button1Motion, x:Button2Motion, -x:Button3Motion, x:Button4Motion, x:Button5Motion, and x:Button-Motion. -You can specify that all events are propagated by setting -x:No-Event-Mask (default). -

- -
-
Attribute: x:CW-Colormap
-

The colormap attribute specifies which colormap best reflects the true -colors of the x:Input-Output window. The colormap must have the same -visual type as the window. X servers capable of supporting multiple -hardware colormaps can use this information, and window managers can use -it for calls to X:Install-Colormap. You can set the colormap attribute -to a colormap or to x:Copy-From-Parent (default). -

-

If you set the colormap to x:Copy-From-Parent, the parent window’s -colormap is copied and used by its child. However, the child window -must have the same visual type as the parent. The parent window must -not have a colormap of x:None. The colormap is copied by sharing the -colormap object between the child and parent, not by making a complete -copy of the colormap contents. Subsequent changes to the parent -window’s colormap attribute do not affect the child window. -

- -
-
Attribute: x:CW-Cursor
-

The cursor attribute specifies which cursor is to be used when the -pointer is in the x:Input-Output or x:Input-Only window. You can set -the cursor to a cursor or x:None (default). -

-

If you set the cursor to x:None, the parent’s cursor is used when the -pointer is in the x:Input-Output or x:Input-Only window, and any change -in the parent’s cursor will cause an immediate change in the displayed -cursor. On the root window, the default cursor is restored. -

- -
-
Function: x:window-ref window field-name …
-

Returns a list of the components specified by field-names for the -specified window. Allowable field-names are a subset of -those for x:window-set!: -

-
    -
  • x:CW-Back-Pixel -
  • x:CW-Bit-Gravity -
  • x:CW-Win-Gravity -
  • x:CW-Backing-Store -
  • x:CW-Backing-Planes -
  • x:CW-Backing-Pixel -
  • x:CW-Override-Redirect -
  • x:CW-Save-Under -
  • x:CW-Event-Mask -
  • x:CW-Dont-Propagate -
  • x:CW-Colormap -
-
- - -
- - - - - - - - - - - - - - - - -
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- -

3.3 Window Properties and Visibility

- -
-
Function: x:get-window-property window property
-

Returns the (string or list of numbers) value of property of -window. -

Function: x:get-window-property window property #t
-

Removes and returns the (string or list of numbers) value of -property of window. -

- -
-
Function: x:list-properties window
-

Returns a list of the properties (strings) defined for window. -

- -

In X parlance, a window which is hidden even when not obscured by other -windows is unmapped; one which - - - - -shows is mapped. It is an unfortunate name-collision with Scheme, -and is ingrained in the attribute names. -

-
-
Function: x:map-window window
-

Maps the window and all of its subwindows that have had map -requests. Mapping a window that has an unmapped ancestor does not -display the window but marks it as eligible for display when the -ancestor becomes mapped. Such a window is called unviewable. When all -its ancestors are mapped, the window becomes viewable and will be -visible on the screen if it is not obscured by another window. This -function has no effect if the window is already mapped. -

-

If the override-redirect of the window is False and if some other client -has selected x:Substructure-Redirect-Mask on the parent window, then the X -server generates a MapRequest event, and the x:map-window -function does not map the window. Otherwise, the window is -mapped, and the X server generates a MapNotify event. -

-

If the window becomes viewable and no earlier contents for it are -remembered, the X server tiles the window with its background. If -the window’s background is undefined, the existing screen contents are -not altered, and the X server generates zero or more x:Expose events. If -backing-store was maintained while the window was unmapped, no -x:Expose events are generated. If backing-store will now be maintained, a -full-window exposure is always generated. Otherwise, only visible -regions may be reported. Similar tiling and exposure take place for any -newly viewable inferiors. -

-

If the window is an Input-Output window, x:map-window generates -x:Expose events on each Input-Output window that it causes to be displayed. -If the client maps and paints the window and if the client begins -processing events, the window is painted twice. To avoid this, first -ask for x:Expose events and then map the window, so the client processes -input events as usual. The event list will include x:Expose for each -window that has appeared on the screen. The client’s normal response to -an x:Expose event should be to repaint the window. This method usually -leads to simpler programs and to proper interaction with window -managers. -

- -
-
Function: x:map-subwindows window
-

Maps all subwindows of a specified window in top-to-bottom -stacking order. The X server generates x:Expose events on each newly -displayed window. This may be much more efficient than mapping many -windows one at a time because the server needs to perform much of the -work only once, for all of the windows, rather than for each window. -

- -
-
Function: x:unmap-window window
-

Unmaps the specified window and causes the X server to generate an -UnmapNotify event. If the specified window is already unmapped, -x:unmap-window has no effect. Normal exposure processing on -formerly obscured windows is performed. Any child window will no longer -be visible until another map call is made on the parent. In other -words, the subwindows are still mapped but are not visible until the -parent is mapped. Unmapping a window will generate x:Expose events -on windows that were formerly obscured by it. -

- -
-
Function: x:unmap-subwindows window
-

Unmaps all subwindows for the specified window in bottom-to-top -stacking order. It causes the X server to generate an UnmapNotify event -on each subwindow and x:Expose events on formerly obscured windows. Using -this function is much more efficient than unmapping multiple windows one -at a time because the server needs to perform much of the work only -once, for all of the windows, rather than for each window. -

- -
- - - - - - - - - - - - - - - - -
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- -

4. Graphics Context

- -

Most attributes of graphics operations are stored in GCs. These -include line width, line style, plane mask, foreground, background, -tile, stipple, clipping region, end style, join style, and so on. -Graphics operations (for example, drawing lines) use these values to -determine the actual drawing operation. -

-
-
Function: x:create-gc drawable field-name value …
-

Creates and returns graphics context. The graphics context can be used -with any destination drawable having the same root and depth as the -specified drawable. -

- -
-
Function: x:gc-set! graphics-context field-name value …
-

Changes the components specified by field-names for the specified -graphics-context. The restrictions are the same as for -x:create-gc. The order in which components are verified and -altered is server dependent. If an error occurs, a subset of the -components may have been altered. -

- -
-
Function: x:copy-gc-fields! gcontext-src gcontext-dst field-name …
-

Copies the components specified by field-names from -gcontext-src to gcontext-dst. Gcontext-src and -gcontext-dst must have the same root and depth. -

- -
-
Function: x:gc-ref graphics-context field-name …
-

Returns a list of the components specified by field-names … -from the specified graphics-context. -

- - -

GC Attributes

- -

Both x:create-gc and x:change-gc take one argument -followed by pairs of arguments, where the first is one of the -property-name symbols (or its top-level value) listed below; and the -second is the value to associate with that property. -

-
-
Attribute: x:GC-Function
-

The function attributes of a GC are used when you update a section of a -drawable (the destination) with bits from somewhere else (the source). -The function in a GC defines how the new destination bits are to be -computed from the source bits and the old destination bits. x:G-Xcopy is -typically the most useful because it will work on a color display, but -special applications may use other functions, particularly in concert -with particular planes of a color display. The 16 functions are: -

-
 

-x:G-Xclear           0
-x:G-Xand             (AND src dst)
-x:G-Xand-Reverse     (AND src (NOT dst))
-x:G-Xcopy            src
-x:G-Xand-Inverted    (AND (NOT src) dst)
-x:G-Xnoop            dst
-x:G-Xxor             (XOR src dst)
-x:G-Xor              (OR src dst)
-x:G-Xnor             (AND (NOT src) (NOT dst))
-x:G-Xequiv           (XOR (NOT src) dst)
-x:G-Xinvert          (NOT dst)
-x:G-Xor-Reverse      (OR src (NOT dst))
-x:G-Xcopy-Inverted   (NOT src)
-x:G-Xor-Inverted     (OR (NOT src) dst)
-x:G-Xnand            (OR (NOT src) (NOT dst))
-x:G-Xset             1
-
-
- -
-
Attribute: x:GC-Plane-Mask
-
-

Many graphics operations depend on either pixel values or planes in a -GC. The planes attribute is an integer which specifies which planes of -the destination are to be modified, one bit per plane. A monochrome -display has only one plane and will be the least significant bit of the -integer. As planes are added to the display hardware, they will occupy -more significant bits in the plane mask. -

-

In graphics operations, given a source and destination pixel, the result -is computed bitwise on corresponding bits of the pixels. That is, a -Boolean operation is performed in each bit plane. The plane-mask -restricts the operation to a subset of planes. x:All-Planes can be -used to refer to all planes of the screen simultaneously. The result is -computed by the following: -

-
 
(OR (AND (FUNC src dst) plane-mask) (AND dst (NOT plane-mask)))
-
- -

Range checking is not performed on a plane-mask value. It is simply -truncated to the appropriate number of bits. -

- -
-
Attribute: x:GC-Foreground
-
Attribute: x:GC-Background
-

Range checking is not performed on the values for foreground or -background. They are simply truncated to the appropriate number of -bits. -

-

Note that foreground and background are not initialized to any values -likely to be useful in a window. -

- -
-
Attribute: x:GC-Line-Width
-

The line-width is measured in pixels and either can be greater than or -equal to one (wide line) or can be the special value zero (thin line). -

-

Thin lines (zero line-width) are one-pixel-wide lines drawn using an -unspecified, device-dependent algorithm. There are only two constraints -on this algorithm. -

-
    -
  • -If a line is drawn unclipped from [x1,y1] to [x2,y2] and if another line -is drawn unclipped from [x1+dx,y1+dy] to [x2+dx,y2+dy], a point [x,y] is -touched by drawing the first line if and only if the point [x+dx,y+dy] -is touched by drawing the second line. - -
  • -The effective set of points comprising a line cannot be affected by -clipping. That is, a point is touched in a clipped line if and only if -the point lies inside the clipping region and the point would be touched -by the line when drawn unclipped. -
- -

A wide line drawn from [x1,y1] to [x2,y2] always draws the same pixels -as a wide line drawn from [x2,y2] to [x1,y1], not counting cap-style and -join-style. It is recommended that this property be true for thin -lines, but this is not required. A line-width of zero may differ from a -line-width of one in which pixels are drawn. This permits the use of -many manufacturers’ line drawing hardware, which may run many times -faster than the more precisely specified wide lines. -

-

In general, drawing a thin line will be faster than drawing a wide line -of width one. However, because of their different drawing algorithms, -thin lines may not mix well aesthetically with wide lines. If it is -desirable to obtain precise and uniform results across all displays, a -client should always use a line-width of one rather than a linewidth of -zero. -

- -
-
Attribute: x:GC-Line-Style
-

The line-style defines which sections of a line are drawn: -

-
-
x:Line-Solid
-

The full path of the line is drawn. -

-
x:Line-Double-Dash
-

The full path of the line is drawn, but the even dashes are filled -differently from the odd dashes (see fill-style) with x:Cap-Butt style used -where even and odd dashes meet. -

-
x:Line-On-Off-Dash
-

Only the even dashes are drawn, and cap-style applies to all internal -ends of the individual dashes, except x:Cap-Not-Last is treated as x:Cap-Butt. -

-
-
- -
-
Attribute: x:GC-Cap-Style
-
-

The cap-style defines how the endpoints of a path are drawn: -

-
-
x:Cap-Not-Last
-

This is equivalent to x:Cap-Butt except that for a line-width of zero the -final endpoint is not drawn. -

-
x:Cap-Butt
-

The line is square at the endpoint (perpendicular to the slope of the -line) with no projection beyond. -

-
x:Cap-Round
-

The line has a circular arc with the diameter equal to the line-width, -centered on the endpoint. (This is equivalent to x:Cap-Butt for line-width -of zero). -

-
x:Cap-Projecting
-

The line is square at the end, but the path continues beyond the -endpoint for a distance equal to half the line-width. (This is -equivalent to x:Cap-Butt for line-width of zero). -

-
-
- -
-
Attribute: x:GC-Join-Style
-
-

The join-style defines how corners are drawn for wide lines: -

-
-
x:Join-Miter
-

The outer edges of two lines extend to meet at an angle. However, if -the angle is less than 11 degrees, then a x:Join-Bevel join-style is used -instead. -

-
x:Join-Round
-

The corner is a circular arc with the diameter equal to the -line-width, centered on the x:Join-point. -

-
x:Join-Bevel
-

The corner has x:Cap-Butt endpoint styles with the triangular notch filled. -

-
-
- -
-
Attribute: x:GC-Fill-Style
-
-

The fill-style defines the contents of the source for line, text, and -fill requests. For all text and fill requests (for example, -X:Draw-Text, X:Fill-Rectangle, X:Fill-Polygon, and X:Fill-Arc); for line -requests with linestyle x:Line-Solid (for example, X:Draw-Line, -X:Draw-Segments, X:Draw-Rectangle, X:Draw-Arc); and for the even dashes -for line requests with line-style x:Line-On-Off-Dash or -x:Line-Double-Dash, the following apply: -

-
-
x:Fill-Solid
-

Foreground -

-
x:Fill-Tiled
-

Tile -

-
x:Fill-Opaque-Stippled
-

A tile with the same width and height as stipple, but with background -everywhere stipple has a zero and with foreground everywhere stipple has -a one -

-
x:Fill-Stippled
-

Foreground masked by stipple -

-
- -

When drawing lines with line-style x:Line-Double-Dash, the odd dashes -are controlled by the fill-style in the following manner: -

-
-
x:Fill-Solid
-

Background -

-
x:Fill-Tiled
-

Same as for even dashes -

-
x:Fill-Opaque-Stippled
-

Same as for even dashes -

-
x:Fill-Stippled
-

Background masked by stipple -

-
-
- -
-
Attribute: x:GC-Fill-Rule
-

The fill-rule defines what pixels are inside (drawn) for paths given in -X:Fill-Polygon requests and can be set to x:Even-Odd-Rule or -x:Winding-Rule. -

-
-
x:Even-Odd-Rule
-

A point is inside if an infinite ray with the point as -origin crosses the path an odd number of times. -

-
x:Winding-Rule
-

A point is inside if an infinite ray with the point as origin crosses an -unequal number of clockwise and counterclockwise directed path segments. -

-
- -

A clockwise directed path segment is one that crosses the ray from left -to right as observed from the point. A counterclockwise segment is one -that crosses the ray from right to left as observed from the point. The -case where a directed line segment is coincident with the ray is -uninteresting because you can simply choose a different ray that is not -coincident with a segment. -

-

For both x:Even-Odd-Rule and x:Winding-Rule, a point is infinitely -small, and the path is an infinitely thin line. A pixel is inside if -the center point of the pixel is inside and the center point is not on -the boundary. If the center point is on the boundary, the pixel is -inside if and only if the polygon interior is immediately to its right -(x increasing direction). Pixels with centers on a horizontal edge are -a special case and are inside if and only if the polygon interior is -immediately below (y increasing direction). -

- -
-
Attribute: x:GC-Tile
-
Attribute: x:GC-Stipple
-

The tile/stipple represents an infinite two-dimensional plane, with the -tile/stipple replicated in all dimensions. -

-

The tile pixmap must have the same root and depth as the GC, or an error -results. The stipple pixmap must have depth one and must have the same -root as the GC, or an error results. For stipple operations where the -fill-style is x:Fill-Stippled but not x:Fill-Opaque-Stippled, the -stipple pattern is tiled in a single plane and acts as an additional -clip mask to be ANDed with the clip-mask. Although some sizes may be -faster to use than others, any size pixmap can be used for tiling or -stippling. -

- -
-
Attribute: x:GC-Tile-Stip-X-Origin
-
Attribute: x:GC-Tile-Stip-Y-Origin
-

When the tile/stipple plane is superimposed on a drawable for use in a -graphics operation, the upper-left corner of some instance of the -tile/stipple is at the coordinates within the drawable specified by the -tile/stipple origin. The tile/stipple origin is interpreted relative to -the origin of whatever destination drawable is specified in a graphics -request. -

- -
-
Attribute: x:GC-Font
-

The font to be used for drawing text. -

- -
-
Attribute: x:GC-Subwindow-Mode
-

You can set the subwindow-mode to x:Clip-By-Children or -x:Include-Inferiors. -

-
x:Clip-By-Children
-

Both source and destination windows are additionally clipped by all -viewable Input-Output children. -

-
x:Include-Inferiors
-

Neither source nor destination window is clipped by inferiors. This -will result in including subwindow contents in the source and drawing -through subwindow boundaries of the destination. The use of -x:Include-Inferiors on a window of one depth with mapped -inferiors of differing depth is not illegal, but the semantics are -undefined by the core protocol. -

-
-
- -
-
Attribute: x:GC-Graphics-Exposures
-

The graphics-exposure flag controls x:Graphics-Expose event generation -for X:Copy-Area and X:Copy-Plane requests (and any similar requests -defined by extensions). -

- -
-
Attribute: x:GC-Clip-X-Origin
-
Attribute: x:GC-Clip-Y-Origin
-

The clip-mask origin is interpreted relative to the origin of whatever -destination drawable is specified in a graphics request. -

- -
-
Attribute: x:GC-Clip-Mask
-

The clip-mask restricts writes to the destination drawable. If the -clip-mask is set to a pixmap, it must have depth one and have the same -root as the GC, or an error results. If clip-mask is set to - - -x:None, the pixels are always drawn regardless of the clip origin. -The clip-mask also can be set by calling X:Set-Region. Only -pixels where the clip-mask has a bit set to 1 are drawn. Pixels are not -drawn outside the area covered by the clip-mask or where the clip-mask -has a bit set to 0. The clip-mask affects all graphics requests. The -clip-mask does not clip sources. The clip-mask origin is interpreted -relative to the origin of whatever destination drawable is specified in -a graphics request. -

- -
-
Attribute: x:GC-Dash-Offset
-

Defines the phase of the pattern, specifying how many pixels into the -dash-list the pattern should actually begin in any single graphics -request. Dashing is continuous through path elements combined with a -join-style but is reset to the dash-offset between each sequence of -joined lines. -

-

The unit of measure for dashes is the same for the ordinary -coordinate system. Ideally, a dash length is measured along -the slope of the line, but implementations are only required -to match this ideal for horizontal and vertical lines. -Failing the ideal semantics, it is suggested that the length -be measured along the major axis of the line. The major -axis is defined as the x axis for lines drawn at an angle of -between -45 and +45 degrees or between 135 and 225 degrees -from the x axis. For all other lines, the major axis is the -y axis. -

- -
-
Attribute: x:GC-Dash-List
-

There must be at least one element in the specified dash-list. -The initial and alternating elements (second, fourth, and so on) of the -dash-list are the even dashes, and the others are the odd dashes. -Each element specifies a dash length in pixels. All of the elements -must be nonzero. Specifying an odd-length list is equivalent to -specifying the same list concatenated with itself to produce an -even-length list. -

- -
-
Attribute: x:GC-Arc-Mode
-

The arc-mode controls filling in the X:Fill-Arcs function and can be set -to x:Arc-Pie-Slice or x:Arc-Chord. -

-
x:Arc-Pie-Slice
-

The arcs are pie-slice filled. -

-
x:Arc-Chord
-

The arcs are chord filled. -

-
-
- - -
- - - - - - - - - - - - - - - - -
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- -

5. Cursor

- -
-
Function: x:create-cursor display shape
-

X provides a set of standard cursor shapes in a special font named - -cursor. Applications are encouraged to use this interface for -their cursors because the font can be customized for the individual -display type. The shape argument specifies which glyph of the standard -fonts to use. -

-

The hotspot comes from the information stored in the cursor font. The -initial colors of a cursor are a black foreground and a white background -(see X:Recolor-Cursor). The names of all cursor shapes are defined with -the prefix XC: in ‘x11.scm’. -

-
Function: x:create-cursor source-font source-char mask-font mask-char fgc bgc
-

Creates a cursor from the source and mask bitmaps obtained from the -specified font glyphs. The integer source-char must be a defined -glyph in source-font. The integer mask-char must be a -defined glyph in mask-font. The origins of the source-char -and mask-char glyphs are positioned coincidently and define the -hotspot. The source-char and mask-char need not have the -same bounding box metrics, and there is no restriction on the placement -of the hotspot relative to the bounding boxes. -

-
Function: x:create-cursor source-font source-char #f #f fgc bgc
-

If mask-font and mask-char are #f, all pixels of the source -are displayed. -

-
Function: x:create-cursor source-pixmap mask-pixmap fgc bgc origin
-

mask-pixmap must be the same size as the pixmap defined by the -source-pixmap argument. The foreground and background RGB values -must be specified using foreground-color and -background-color, even if the X server only has a x:Static-Gray or -x:Gray-Scale screen. The hotspot must be a point within the -source-pixmap. -

-

X:Create-Cursor creates and returns a cursor. The -foreground-color is used for the pixels set to 1 in the source, -and the background-color is used for the pixels set to 0. Both -source and mask must have depth one but can have any root. The -mask-pixmap defines the shape of the cursor. The pixels set to 1 -in mask-pixmap define which source pixels are displayed, and the -pixels set to 0 define which pixels are ignored. -

-
Function: x:create-cursor source-pixmap #f fgc bgc origin
-

If mask-pixmap is #f, all pixels of the source are displayed. -

- -
- - - - - - - - - - - - - - - - -
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- -

6. Colormap

- - - -

A colormap maps pixel values to RGB color space values. -

-
-
Function: x:create-colormap window visual alloc-policy
-

window specifies the window on whose screen you want to create a -colormap. visual specifies a visual type supported on the screen. -alloc-policy Specifies the colormap entries to be allocated. You -can pass X:Alloc-None or X:Alloc-All. -

-

The X:Create-Colormap function creates and returns a colormap of -the specified visual type for the screen on which window -resides. Note that window is used only to determine the screen. -

-
-
X:Gray-Scale
-
X:Pseudo-Color
-
X:Direct-Color
-

The initial values of the colormap entries are undefined. -

-
-
X:Static-Gray
-
X:Static-Color
-
X:True-Color
-

The entries have defined values, but those values are specific to -visual and are not defined by X. The alloc-policy must be -‘X:Alloc-None’. -

-
-
- -

For the other visual classes, if alloc-policy is -‘X:Alloc-None’, the colormap initially has no allocated entries, -and clients can allocate them. -

-

If alloc-policy is ‘X:Alloc-All’, the entire colormap is -allocated writable. The initial values of all allocated entries are -undefined. -

-
-
X:Gray-Scale
-
X:Pseudo-Color
-

The effect is as if an XAllocColorCells call returned all pixel -values from zero to N - 1, where N is the colormap entries value in -visual. -

-
-
X:Direct-Color
-

The effect is as if an XAllocColorPlanes call returned a pixel -value of zero and red_mask, green_mask, and blue_mask values containing -the same bits as the corresponding masks in the specified visual. -

-
- -
- - -

To create a new colormap when the allocation out of a previously -shared colormap has failed because of resource exhaustion, use: -

-
-
Function: x:copy-colormap-and-free colormap
-
-

Creates and returns a colormap of the same visual type and for the same -screen as the specified colormap. It also moves all of the -client’s existing allocation from the specified colormap to the -new colormap with their color values intact and their read-only or -writable characteristics intact and frees those entries in the specified -colormap. Color values in other entries in the new colormap are -undefined. If the specified colormap was created by the client with -alloc set to ‘X:Alloc-All’, the new colormap is also created with -‘X:Alloc-All’, all color values for all entries are copied from the -specified colormap, and then all entries in the specified -colormap are freed. If the specified colormap was not -created by the client with ‘X:Alloc-All’, the allocations to be moved -are all those pixels and planes that have been allocated by the client -and that have not been freed since they were allocated. -

-
- -

A colormap maps pixel values to elements of the RGB -datatype. An RGB is a list or vector of 3 integers, describing -the red, green, and blue intensities respectively. The integers are in -the range 0 - 65535. -

-
-
Function: x:alloc-colormap-cells colormap ncolors nplanes
-
Function: x:alloc-colormap-cells colormap ncolors nplanes contiguous?
-
-

The X:Alloc-Color-Cells function allocates read/write color -cells. The number of colors, ncolors must be positive and the -number of planes, nplanes nonnegative. If ncolors and -nplanes are requested, then ncolors pixels and nplane plane masks -are returned. No mask will have any bits set to 1 in common with any -other mask or with any of the pixels. By ORing together each pixel with -zero or more masks, ncolors * 2^nplanes distinct pixels can -be produced. All of these are allocated writable by the request. -

-
-
x:Gray-Scale
-
x:Pseudo-Color
-

Each mask has exactly one bit set to 1. If contiguous? is -non-false and if all masks are ORed together, a single contiguous set of -bits set to 1 is formed. -

-
x:Direct-Color
-

Each mask has exactly three bits set to 1. If contiguous? is -non-false and if all masks are ORed together, three contiguous sets of -bits set to 1 (one within each pixel subfield) is formed. -

-
- -

The RGB values of the allocated entries are undefined. -X:Alloc-Color-Cells returns a list of two uniform arrays if it -succeeded or #f if it failed. The first array has the pixels allocated -and the second has the plane-masks. -

- -
Function: x:alloc-colormap-cells colormap ncolors rgb
-
Function: x:alloc-colormap-cells colormap ncolors rgb contiguous?
-
-

The specified ncolors must be positive; and rgb a list or -vector of 3 nonnegative integers. If ncolors colors, nreds -reds, ngreens greens, and nblues blues are requested, -ncolors pixels are returned; and the masks have nreds, -ngreens, and nblues bits set to 1, respectively. If -contiguous? is non-false, each mask will have a contiguous set of -bits set to 1. No mask will have any bits set to 1 in common with any -other mask or with any of the pixels. -

-

Each mask will lie within the corresponding pixel subfield. By ORing -together subsets of masks with each pixel value, ncolors * -2(nreds+ngreens+nblues) distinct pixel values can be -produced. All of these are allocated by the request. However, in the -colormap, there are only ncolors * 2^nreds independent red -entries, ncolors * 2^ngreens independent green entries, and -ncolors * 2^nblues independent blue entries. -

-

X:Alloc-Color-Cells returns a list if it succeeded or #f if it -failed. The first element of the list has an array of the pixels -allocated. The second, third, and fourth elements are the red, green, -and blue plane-masks. -

- -
-
Function: x:free-colormap-cells colormap pixels planes
-
Function: x:free-colormap-cells colormap pixels
-
-

Frees the cells represented by pixels whose values are in the -pixels unsigned-integer uniform-vector. The planes argument -should not have any bits set to 1 in common with any of the pixels. The -set of all pixels is produced by ORing together subsets of the -planes argument with the pixels. The request frees all of these -pixels that were allocated by the client. Note that freeing an -individual pixel obtained from X:Alloc-Colormap-Cells with a -planes argument may not actually allow it to be reused until all of its -related pixels are also freed. Similarly, a read-only entry is not -actually freed until it has been freed by all clients, and if a client -allocates the same read-only entry multiple times, it must free the -entry that many times before the entry is actually freed. -

-

All specified pixels that are allocated by the client in the -colormap are freed, even if one or more pixels produce an error. -It is an error if a specified pixel is not allocated by the client (that -is, is unallocated or is only allocated by another client) or if the -colormap was created with all entries writable (by passing -‘x:Alloc-All’ to X:Create-Colormap). If more than one pixel -is in error, the one that gets reported is arbitrary. -

- -
-
Function: x:colormap-find-color colormap rgb
-
-

rgb is a list or vector of 3 integers, describing the red, green, -and blue intensities respectively; or an integer ‘#xrrggbb’, -packing red, green and blue intensities in the range 0 - 255. -

-
Function: x:colormap-find-color colormap color-name
-
-

The case-insensitive string color_name specifies the name of a -color (for example, ‘red’) -

-

X:Colormap-Find-Color allocates a read-only colormap entry -corresponding to the closest RGB value supported by the hardware. -X:Colormap-Find-Color returns the pixel value of the color -closest to the specified RGB or color_name elements -supported by the hardware, if successful; otherwise -X:Colormap-Find-Color returns #f. -

-

Multiple clients that request the same effective RGB value can -be assigned the same read-only entry, thus allowing entries to be -shared. When the last client deallocates a shared cell, it is -deallocated. -

-
- -
-
Function: x:color-ref colormap pixel
-
-

Returns a list of 3 integers, describing the red, green, -and blue intensities respectively of the colormap entry of the -cell indexed by pixel. -

-

The integer pixel must be a valid index into colormap. -

- -
-
Function: X:Color-Set! colormap pixel rgb
-
-

rgb is a list or vector of 3 integers, describing the red, green, -and blue intensities respectively; or an integer ‘#xrrggbb’, -packing red, green and blue intensities in the range 0 - 255. -

-
Function: X:Color-Set! colormap pixel color-name
-
-

The case-insensitive string color_name specifies the name of a -color (for example, ‘red’) -

-

The integer pixel must be a valid index into colormap. -

-

X:Color-Set! changes the colormap entry of the read/write -cell indexed by pixel. If the colormap is an installed map -for its screen, the changes are visible immediately. -

-
- -
-
Function: x:install-colormap colormap
-
-

Installs the specified colormap for its associated screen. All -windows associated with colormap immediately display with true -colors. A colormap is associated with a window when the window is -created or its attributes changed. -

-

If the specified colormap is not already an installed colormap, the X -server generates a ColormapNotify event on each window that has that -colormap. -

-
- -
-
Function: x:ccc colormap
-

Returns the Color-Conversion-Context of colormap. -

- - -
- - - - - - - - - - - - - - - - -
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- -

7. Rendering

- -
-
Function: x:flush display
-
Function: x:flush window
-

Flushes the output buffer. Some client applications need not use this -function because the output buffer is automatically flushed as needed by -calls to X:Pending, X:Next-Event, and X:Window-Event. Events generated -by the server may be enqueued into the library’s event queue. -

-
Function: x:flush gc
-

Forces sending of GC component changes. -

-

Xlib usually defers sending changes to the components of a GC to the -server until a graphics function is actually called with that GC. This -permits batching of component changes into a single server request. In -some circumstances, however, it may be necessary for the client to -explicitly force sending the changes to the server. An example might be -when a protocol extension uses the GC indirectly, in such a way that the -extension interface cannot know what GC will be used. -

- -
-
Function: x:clear-area window (x-pos y-pos) (width height) expose?
-

Paints a rectangular area in the specified window according to the -specified dimensions with the window’s background pixel or pixmap. -The subwindow-mode effectively is ‘x:Clip-By-Children’. If width -is zero, it is replaced with the current width of the window minus -x. If height is zero, it is replaced with the current height of the -window minus y. If the window has a defined background -tile, the rectangle clipped by any children is filled with this tile. -If the window has background x:None, the contents of the -window are not changed. In either case, if expose? is True, -one or more x:Expose events are generated for regions of the rectangle -that are either visible or are being retained in a backing store. If -you specify a window whose class is x:Input-Only, an error -results. -

- -
-
Function: x:fill-rectangle window gcontext position size
-
- - -

Draw Strings

- -
-
Function: x:draw-string drawable gc position string
-

Position specifies coordinates relative to the origin of -drawable of the origin of the first character to be drawn. -

-

x:draw-string draws the characters of string, starting at -position. -

- -
-
Function: x:image-string drawable gc position string
-

Position specifies coordinates relative to the origin of -drawable of the origin of the first character to be drawn. -

-

x:image-string draws the characters and background of -string, starting at position. -

- - -

Draw Shapes

- -
-
Function: x:draw-points drawable gc position …
-

Position … specifies coordinates of the point to be drawn. -

-
Function: x:draw-points drawable gc x y …
-

(x, y) … specifies coordinates of the point to be -drawn. -

-
Function: x:draw-points drawable gc point-array
-

point-array is a uniform short array of rank 2, whose rightmost -index spans a range of 2. -

-

The X:Draw-Points procedure uses the foreground pixel and -function components of the gc to draw points into drawable -at the positions (relative to the origin of drawable) specified. -

-

X:Draw-Points uses these gc components: function, -planemask, foreground, subwindow-mode, clip-x-origin, clip-y-origin, and -clip-mask. -

- - -
-
Function: x:draw-segments drawable gc pos1 pos2 …
-

Pos1, pos2, … specify coordinates to be connected by -segments. -

-
Function: x:draw-segments drawable gc x1 y1 x2 y2 …
-

(x1, y1), (x2, y2) … specify coordinates -to be connected by segments. -

-
Function: x:draw-segments drawable gc point-array
-

point-array is a uniform short array of rank 2, whose rightmost -index spans a range of 2. -

-

The X:Draw-Segments procedure uses the components of the -specified gc to draw multiple unconnected lines between disjoint -adjacent pair of points passed as arguments. It draws the segments in -order and does not perform joining at coincident endpoints. For any -given line, X:Draw-Segments does not draw a pixel more than once. -If thin (zero line-width) segments intersect, the intersecting pixels -are drawn multiple times. If wide segments intersect, the intersecting -pixels are drawn only once, as though the entire PolyLine protocol -request were a single, filled shape. X:Draw-Segments treats all -coordinates as relative to the origin of drawable. -

-

X:Draw-Segments uses these gc components: function, -plane-mask, line-width, line-style, cap-style, fill-style, -subwindow-mode, clip-x-origin, clip-y-origin, and clip-mask, join-style. -It also use these gc mode-dependent components: foreground, -background, tile, stipple, tilestipple-x-origin, tile-stipple-y-origin, -dash-offset, and dash-list. -

- -
-
Function: x:draw-lines drawable gc pos1 pos2 …
-

Pos1, pos2, … specify coordinates to be connected by -lines. -

-
Function: x:draw-lines drawable gc x1 y1 x2 y2 …
-

(x1, y1), (x2, y2) … specify coordinates -to be connected by lines. -

-
Function: x:draw-lines drawable gc point-array
-

point-array is a uniform short array of rank 2, whose rightmost -index spans a range of 2. -

-

The X:Draw-Lines procedure uses the components of the specified -gc to draw lines between each adjacent pair of points passed as -arguments. It draws the lines in order. The lines join correctly at -all intermediate points, and if the first and last points coincide, the -first and last lines also join correctly. For any given line, -X:Draw-Lines does not draw a pixel more than once. If thin (zero -line-width) lines intersect, the intersecting pixels are drawn multiple -times. If wide lines intersect, the intersecting pixels are drawn only -once, as though the entire PolyLine protocol request were a single, -filled shape. X:Draw-Lines treats all coordinates as relative to -the origin of drawable. -

-

X:Draw-Lines uses these gc components: function, -plane-mask, line-width, line-style, cap-style, fill-style, -subwindow-mode, clip-x-origin, clip-y-origin, and clip-mask, join-style. -It also use these gc mode-dependent components: foreground, -background, tile, stipple, tilestipple-x-origin, tile-stipple-y-origin, -dash-offset, and dash-list. -

- -
-
Function: x:fill-polygon drawable gc pos1 pos2 …
-

Pos1, pos2, … specify coordinates of the border path. -

-
Function: x:fill-polygon drawable gc x1 y1 x2 y2 …
-

(x1, y1), (x2, y2) … specify coordinates -of the border path. -

-
Function: x:fill-polygon drawable gc point-array
-

point-array is a uniform short array of rank 2, whose rightmost -index spans a range of 2. -

-

The path is closed automatically if the last point in the list or -point-array does not coincide with the first point. -

-

The X:Fill-Polygon procedure uses the components of the specified -gc to fill the region closed by the specified path. -X:Fill-Polygon does not draw a pixel of the region more than -once. X:Fill-Polygon treats all coordinates as relative to the -origin of drawable. -

-

X:Fill-Polygon uses these gc components: function, -planemask, fill-style, fill-rule, subwindow-mode, clip-x-origin, -clip-y-origin, and clip-mask. It also use these gc mode-dependent -components: foreground, background, tile, stipple, -tile-stipple-x-origin, and tile-stipple-y-origin. -

- -
- - - - - - - - - - - - - - - - -
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- -

8. Images

- -
-
Function: x:read-bitmap-file drawable file
-
- -
- - - - - - - - - - - - - - - - -
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- -

9. Event

- -

These three status routines always return immediately if there are -events already in the queue. -

-
-
Function: x:q-length display
-

Returns the length of the event queue for the connected display. -Note that there may be more events that have not been read into the -queue yet (see X:Events-Queued). -

- -
-
Function: x:pending display
-

Returns the number of events that have been received from the X server -but have not been removed from the event queue. -

- -
-
Function: x:events-queued display
-

Returns the number of events already in the queue if the number is -nonzero. If there are no events in the queue, X:Events-Queued -attempts to read more events out of the application’s connection without -flushing the output buffer and returns the number read. -

- -

Both of these routines return an object of type event. -

-
-
Function: x:next-event display
-

Removes and returns the first event from the event queue. If the event -queue is empty, X:Next-Event flushes the output buffer and blocks -until an event is received. -

- -
-
Function: x:peek-event display
-

Returns the first event from the event queue, but it does not remove the -event from the queue. If the queue is empty, X:Peek-Event -flushes the output buffer and blocks until an event is received. -

- -

Each event object has fields dependent on its sub-type. -

-
-
Function: x:event-ref event field-name
-
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
windowThe window on which event was generated and is referred to as the -event window.
rootis the event window’s root window.
subwindowIf the source window is an inferior of the event window, the -subwindow is the child of the event window that is the source -window or the child of the event window that is an ancestor of the -source window. Otherwise, ‘None’.
X-event:typeAn integer: x:Key-Press, x:Key-Release, -x:Button-Press, x:Button-Release, x:Motion-Notify, -x:Enter-Notify, x:Leave-Notify, x:Focus-In, -x:Focus-Out, x:Keymap-Notify, x:Expose, -x:Graphics-Expose, x:No-Expose, x:Visibility-Notify, -x:Create-Notify, x:Destroy-Notify, x:Unmap-Notify, -x:Map-Notify, x:Map-Request, x:Reparent-Notify, -x:Configure-Notify, x:Configure-Request, -x:Gravity-Notify, x:Resize-Request, -x:Circulate-Notify, x:Circulate-Request, -x:Property-Notify, x:Selection-Clear, -x:Selection-Request, x:Selection-Notify, -x:Colormap-Notify, x:Client-Message, or -x:Mapping-Notify.
X-event:serialThe serial number of the protocol request that generated the event.
X-event:send-eventBoolean that indicates whether the event was sent by a different client.
X-event:timeThe time when the event was generated expressed in milliseconds.
X-event:x
X-event:yFor window entry/exit events the x and y members are set to -the coordinates of the pointer position in the event window. This -position is always the pointer’s final position, not its initial -position. If the event window is on the same screen as the root window, -x and y are the pointer coordinates relative to the event -window’s origin. Otherwise, x and y are set to zero. - -

For expose events The x and y members are set to the -coordinates relative to the drawable’s origin and indicate the -upper-left corner of the rectangle. -

-

For configure, create, gravity, and reparent events the x and -y members are set to the window’s coordinates relative to the -parent window’s origin and indicate the position of the upper-left -outside corner of the created window. -

X-event:x-root
X-event:y-rootThe pointer’s coordinates relative to the root window’s origin at the -time of the event.
X-event:stateFor keyboard, pointer and window entry/exit events, the state member is -set to indicate the logical state of the pointer buttons and modifier -keys just prior to the event, which is the bitwise inclusive OR of -one or more of the button or modifier key masks: x:Button1-Mask, -x:Button2-Mask, x:Button3-Mask, x:Button4-Mask, -x:Button5-Mask, x:Shift-Mask, x:Lock-Mask, -x:Control-Mask, x:Mod1-Mask, x:Mod2-Mask, -x:Mod3-Mask, x:Mod4-Mask, and x:Mod5-Mask. - -

For visibility events, the state of the window’s visibility: -x:Visibility-Unobscured, x:Visibility-Partially-Obscured, or -x:Visibility-Fully-Obscured. -

-

For colormap events, indicates whether the colormap is installed or -uninstalled: x:Colormap-Installed or x:Colormap-Uninstalled. -

-

For property events, indicates whether the property was changed to a new -value or deleted: x:Property-New-Value or x:Property-Delete. -

X-event:keycodeAn integer that represents a physical key on the keyboard.
X-event:same-screenIndicates whether the event window is on the same screen as the root -window. If #t, the event and root windows are on the same screen. If -#f, the event and root windows are not on the same screen.
X-event:buttonThe pointer button that changed state; can be the x:Button1, -x:Button2, x:Button3, x:Button4, or x:Button5 -value.
X-event:is-hintDetail of motion-notify events: x:Notify-Normal or -x:Notify-Hint.
X-event:modeIndicates whether the event is a normal event, pseudo-motion event -when a grab activates, or a pseudo-motion event when a grab deactivates: -x:Notify-Normal, x:Notify-Grab, or x:Notify-Ungrab.
X-event:detailIndicates the notification detail: x:Notify-Ancestor, -x:Notify-Virtual, x:Notify-Inferior, -x:Notify-Nonlinear, or x:Notify-Nonlinear-Virtual.
X-event:focusIf the event window is the focus window or an inferior of the focus -window, #t; otherwise #f.
X-event:width
X-event:heightThe size (extent) of the rectangle.
X-event:countFor mapping events is the number of keycodes altered. - -

For expose events Is the number of Expose or GraphicsExpose events that -are to follow. If count is zero, no more Expose events follow for this -window. However, if count is nonzero, at least that number of Expose -events (and possibly more) follow for this window. Simple applications -that do not want to optimize redisplay by distinguishing between -subareas of its window can just ignore all Expose events with nonzero -counts and perform full redisplays on events with zero counts. -

X-event:major-codeThe major_code member is set to the graphics request initiated by the -client and can be either X_CopyArea or X_CopyPlane. If it is -X_CopyArea, a call to XCopyArea initiated the request. If it is -X_CopyPlane, a call to XCopyPlane initiated the request.
X-event:minor-codeNot currently used.
X-event:border-widthFor configure events, the width of the window’s border, in pixels.
X-event:override-redirectThe override-redirect attribute of the window. Window manager clients -normally should ignore this window if it is #t.
X-event:from-configureTrue if the event was generated as a result of a resizing of the -window’s parent when the window itself had a win-gravity of -x:Unmap-Gravity.
X-event:value-maskIndicates which components were specified in the ConfigureWindow -protocol request. The corresponding values are reported as given in the -request. The remaining values are filled in from the current geometry -of the window, except in the case of above (sibling) and detail -(stack-mode), which are reported as None and Above, respectively, if -they are not given in the request.
X-event:placeThe window’s position after the restack occurs and is either -x:Place-On-Top or x:Place-On-Bottom. If it is x:Place-On-Top, the -window is now on top of all siblings. If it is x:Place-On-Bottom, the -window is now below all siblings.
X-event:newindicate whether the colormap for the specified window was changed or -installed or uninstalled and can be True or False. If it is True, the -colormap was changed. If it is False, the colormap was installed or -uninstalled.
X-event:formatIs 8, 16, or 32 and specifies whether the data should be viewed as a -list of bytes, shorts, or longs
X-event:requestIndicates the kind of mapping change that occurred and can be -x:Mapping-Modifier, x:Mapping-Keyboard, or -x:Mapping-Pointer. If it is x:Mapping-Modifier, the -modifier mapping was changed. If it is x:Mapping-Keyboard, the -keyboard mapping was changed. If it is x:Mapping-Pointer, the -pointer button mapping was changed.
X-event:first-keycodeThe X-event:first-keycode is set only if the X-event:request was set to -x:Mapping-Keyboard. The number in X-event:first-keycode -represents the first number in the range of the altered mapping, and -X-event:count represents the number of keycodes altered.
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Indexes

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- -

Procedure and Macro Index

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Jump to:   H -   -X -   -
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Index Entry Section

H
hostname:number.screen-number2. Display and Screens

X
x:alloc-colormap-cells6. Colormap
x:alloc-colormap-cells6. Colormap
x:alloc-colormap-cells6. Colormap
x:alloc-colormap-cells6. Colormap
x:ccc6. Colormap
x:clear-area7. Rendering
x:close2. Display and Screens
x:close3.1 Windows and Pixmaps
x:close3.1 Windows and Pixmaps
x:color-ref6. Colormap
X:Color-Set!6. Colormap
X:Color-Set!6. Colormap
x:colormap-find-color6. Colormap
x:colormap-find-color6. Colormap
x:copy-colormap-and-free6. Colormap
x:copy-gc-fields!4. Graphics Context
x:create-colormap6. Colormap
x:create-cursor5. Cursor
x:create-cursor5. Cursor
x:create-cursor5. Cursor
x:create-cursor5. Cursor
x:create-cursor5. Cursor
x:create-gc4. Graphics Context
x:create-pixmap3.1 Windows and Pixmaps
x:create-pixmap3.1 Windows and Pixmaps
x:create-window3.1 Windows and Pixmaps
x:create-window3.1 Windows and Pixmaps
x:default-ccc2. Display and Screens
x:default-ccc2. Display and Screens
x:default-ccc2. Display and Screens
x:default-colormap2. Display and Screens
x:default-colormap2. Display and Screens
x:default-colormap2. Display and Screens
x:default-gc2. Display and Screens
x:default-gc2. Display and Screens
x:default-gc2. Display and Screens
x:default-screen2. Display and Screens
x:default-visual2. Display and Screens
x:default-visual2. Display and Screens
x:default-visual2. Display and Screens
x:draw-linesDraw Shapes
x:draw-linesDraw Shapes
x:draw-linesDraw Shapes
x:draw-pointsDraw Shapes
x:draw-pointsDraw Shapes
x:draw-pointsDraw Shapes
x:draw-segmentsDraw Shapes
x:draw-segmentsDraw Shapes
x:draw-segmentsDraw Shapes
x:draw-stringDraw Strings
x:event-ref9. Event
x:events-queued9. Event
x:fill-polygonDraw Shapes
x:fill-polygonDraw Shapes
x:fill-polygonDraw Shapes
x:fill-rectangle7. Rendering
x:flush7. Rendering
x:flush7. Rendering
x:flush7. Rendering
x:free-colormap-cells6. Colormap
x:free-colormap-cells6. Colormap
x:gc-ref4. Graphics Context
x:gc-set!4. Graphics Context
x:get-window-property3.3 Window Properties and Visibility
x:get-window-property3.3 Window Properties and Visibility
x:image-stringDraw Strings
x:install-colormap6. Colormap
x:list-properties3.3 Window Properties and Visibility
x:make-visual2. Display and Screens
x:make-visual2. Display and Screens
x:map-subwindows3.3 Window Properties and Visibility
x:map-window3.3 Window Properties and Visibility
x:next-event9. Event
x:open-display2. Display and Screens
x:peek-event9. Event
x:pending9. Event
x:protocol-version2. Display and Screens
x:q-length9. Event
x:read-bitmap-file8. Images
x:root-window2. Display and Screens
x:root-window2. Display and Screens
x:root-window2. Display and Screens
x:screen-black2. Display and Screens
x:screen-black2. Display and Screens
x:screen-black2. Display and Screens
x:screen-cells2. Display and Screens
x:screen-cells2. Display and Screens
x:screen-cells2. Display and Screens
x:screen-count2. Display and Screens
x:screen-depth2. Display and Screens
x:screen-depth2. Display and Screens
x:screen-depth2. Display and Screens
x:screen-depth2. Display and Screens
x:screen-depths2. Display and Screens
x:screen-depths2. Display and Screens
x:screen-depths2. Display and Screens
x:screen-dimensions2. Display and Screens
x:screen-dimensions2. Display and Screens
x:screen-dimensions2. Display and Screens
x:screen-size2. Display and Screens
x:screen-size2. Display and Screens
x:screen-size2. Display and Screens
x:screen-white2. Display and Screens
x:screen-white2. Display and Screens
x:screen-white2. Display and Screens
x:server-vendor2. Display and Screens
x:unmap-subwindows3.3 Window Properties and Visibility
x:unmap-window3.3 Window Properties and Visibility
x:vendor-release2. Display and Screens
x:visual-class2. Display and Screens
x:visual-class2. Display and Screens
x:visual-class2. Display and Screens
x:visual-geometry2. Display and Screens
x:visual-geometry2. Display and Screens
x:visual-geometry2. Display and Screens
x:window-geometry3.1 Windows and Pixmaps
x:window-geometry-set!3.1 Windows and Pixmaps
x:window-ref3.2 Window Attributes
x:window-set!3.2 Window Attributes

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Variable Index

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Index Entry Section

X
x:CW-Back-Pixel3.2 Window Attributes
x:CW-Back-Pixmap3.2 Window Attributes
x:CW-Backing-Pixel3.2 Window Attributes
x:CW-Backing-Planes3.2 Window Attributes
x:CW-Backing-Store3.2 Window Attributes
x:CW-Bit-Gravity3.2 Window Attributes
x:CW-Border-Pixel3.2 Window Attributes
x:CW-Border-Pixmap3.2 Window Attributes
x:CW-Border-Width3.1 Windows and Pixmaps
x:CW-Colormap3.2 Window Attributes
x:CW-Cursor3.2 Window Attributes
x:CW-Dont-Propagate3.2 Window Attributes
x:CW-Event-Mask3.2 Window Attributes
x:CW-Height3.1 Windows and Pixmaps
x:CW-Override-Redirect3.2 Window Attributes
x:CW-Save-Under3.2 Window Attributes
x:CW-Sibling3.1 Windows and Pixmaps
x:CW-Stack-Mode3.1 Windows and Pixmaps
x:CW-Width3.1 Windows and Pixmaps
x:CW-Win-Gravity3.2 Window Attributes
x:CWX3.1 Windows and Pixmaps
x:CWY3.1 Windows and Pixmaps
x:GC-Arc-ModeGC Attributes
x:GC-BackgroundGC Attributes
x:GC-Cap-StyleGC Attributes
x:GC-Clip-MaskGC Attributes
x:GC-Clip-X-OriginGC Attributes
x:GC-Clip-Y-OriginGC Attributes
x:GC-Dash-ListGC Attributes
x:GC-Dash-OffsetGC Attributes
x:GC-Fill-RuleGC Attributes
x:GC-Fill-StyleGC Attributes
x:GC-FontGC Attributes
x:GC-ForegroundGC Attributes
x:GC-FunctionGC Attributes
x:GC-Graphics-ExposuresGC Attributes
x:GC-Join-StyleGC Attributes
x:GC-Line-StyleGC Attributes
x:GC-Line-WidthGC Attributes
x:GC-Plane-MaskGC Attributes
x:GC-StippleGC Attributes
x:GC-Subwindow-ModeGC Attributes
x:GC-TileGC Attributes
x:GC-Tile-Stip-X-OriginGC Attributes
x:GC-Tile-Stip-Y-OriginGC Attributes

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Concept Index

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Index Entry Section

C
colormap6. Colormap
cursor5. Cursor

D
depth2. Display and Screens
drawable3. Drawables
Drawable3. Drawables

M
map3.3 Window Properties and Visibility
mapped3.3 Window Properties and Visibility

N
noneGC Attributes

R
RGB6. Colormap

U
unmap3.3 Window Properties and Visibility
unmapped3.3 Window Properties and Visibility

V
visual2. Display and Screens
Visual2. Display and Screens

X
X1. XlibScm
x:NoneGC Attributes
Xlib1. XlibScm

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Table of Contents

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