XeviQueryExtension (3)

Leading comments

Copyright (c) 1997  Silicon Graphics, Inc.

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
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The above copyright no...

(The comments found at the beginning of the groff file "man3/XeviQueryExtension.3".)

NAME

XeviQueryExtension, XeviQueryVersion, XeviGetVisualInfo - X Extended Visual Information functions

SYNOPSIS

#include <X11/extensions/XEVI.h>
Bool XeviQueryExtension (Display *dpy);

Bool XeviQueryVersion (Display *dpy,
    int *major_version_return,
    int *minor_version_return);

int XeviGetVisualInfo (Display *dpy, VisualID *visual,
    int n_visual, ExtendedVisualInfo ** evi_return,
    int * n_info_return);

DESCRIPTION

The X11 Extended Visual Information extension (EVI) allows a client to determine information about core X visuals beyond what the core protocol provides.
The EVI application programming library contains the interfaces described below. With the exception of XeviQueryExtension, if any of these routines are called with a display that does not support the extension, the ExtensionErrorHandler (which can be set with XSetExtensionErrorHandler and functions the same way as XSetErrorHandler) will be called and the function will then return.

XeviQueryExtension returns True if the Extended Visual Information extension is available on the given display. A client must call XeviQueryExtension before calling any other EVI function in order to negotiate a compatible protocol version; otherwise the client will get undefined behavior (EVI may or may not work).

XeviQueryVersion returns True if the request succeeded; the values of the major and minor protocol version supported by the server are returned in major_version_return and minor_version_return.

XeviGetVisualInfo returns a list of ExtendedVisualInfo structures that describe visual information beyond that supported by the core protocol. This includes layer information relevant for systems supporting overlays and/or underlay planes, and information that allows applications better to determine the level of hardware support for multiple colormaps. XeviGetVisualInfo returns Success if successful, or an X error otherwise. If the argument visual is NULL, then information for all visuals of all screens is returned. Otherwise, it's a pointer to a list of visuals for which extended visual information is desired. n_visual is the number of elements in the array visual. evi_return returns a pointer to a list of ExtendedVisualInfo. When done, the client should free the list using XFree. n_info_return returns the number of elements in the array evi_return.

The ExtendedVisualInfo structure has the following fields:

VisualID        core_visual_id
int             screen
int             level
unsigned int    transparency_type
unsigned int    transparency_value
unsigned int    min_hw_colormaps
unsigned int    max_hw_colormaps
unsigned int    num_colormap_conflicts
VisualID *      colormap_conflicts

The combination of core_visual_id and screen number uniquely specify the visual being described.

level returns the level number for the visual, 0 for normal planes, > 0 for overlays, < 0 for underlays.

transparency_type returns the type of transparency supported by the visual. XEVI_TRANSPARENCY_NONE if there are no transparent pixels, XEVI_TRANSPARENCY_PIXEL if the visual supports a transparent pixel, XEVI_TRANSPARENCY_MASK if the visual supports transparent plane(s).

transparency_value returns the pixel/plane value to set for transparency if transparency_type isn't XEVI_TRANSPARENCY_NONE.

min_hw_colormaps and max_hw_colormaps return the minimum and maximum number of hardware colormaps backing up the visual.

num_colormap_conflicts returns the number of elements in colormap_conflicts. This array returns a list of visuals that may cause conflicts in the use of the hardware colormap. For example, if a 12-bit hardware colormap is overloaded to support 8-bit colormaps, the corresponding 8-bit visuals would conflict with the 12-bit visuals.

ERRORS

XeviGetVisualInfo will return BadValue if passed an illegal visual ID, BadAccess if the X server does not respond, BadAlloc if there is a memory allocation failure.