DragonFly On-Line Manual Pages
XAllocColor(3) XLIB FUNCTIONS XAllocColor(3)
XAllocColor, XAllocNamedColor, XAllocColorCells, XAllocColorPlanes,
XFreeColors - allocate and free colors
Status XAllocColor(Display *display, Colormap colormap, XColor
Status XAllocNamedColor(Display *display, Colormap colormap, char
*color_name, XColor *screen_def_return, XColor
Status XAllocColorCells(Display *display, Colormap colormap, Bool
contig, unsigned long plane_masks_return, unsigned int
nplanes, unsigned long pixels_return, unsigned int npixels);
Status XAllocColorPlanes(Display *display, Colormap colormap, Bool
contig, unsigned long pixels_return, int ncolors, int nreds,
int ngreens, int nblues, unsigned long *rmask_return, unsigned
long *gmask_return, unsigned long *bmask_return);
int XFreeColors(Display *display, Colormap colormap, unsigned long
pixels, int npixels, unsigned long planes);
Specifies the color name string (for example, red) whose
color definition structure you want returned.
colormap Specifies the colormap.
contig Specifies a Boolean value that indicates whether the planes
must be contiguous.
display Specifies the connection to the X server.
Returns the exact RGB values.
ncolors Specifies the number of pixel values that are to be returned
in the pixels_return array.
npixels Specifies the number of pixels.
nplanes Specifies the number of plane masks that are to be returned
in the plane masks array.
Specify the number of red, green, and blue planes. The value
you pass must be nonnegative.
pixels Specifies an array of pixel values.
Returns an array of pixel values.
Returns an array of plane masks.
planes Specifies the planes you want to free.
Return bit masks for the red, green, and blue planes.
Returns the closest RGB values provided by the hardware.
Specifies and returns the values actually used in the
The XAllocColor function allocates a read-only colormap entry
corresponding to the closest RGB value supported by the hardware.
XAllocColor returns the pixel value of the color closest to the
specified RGB elements supported by the hardware and returns the RGB
value actually used. The corresponding colormap cell is read-only. In
addition, XAllocColor returns nonzero if it succeeded or zero if it
failed. 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. XAllocColor does not use or affect the flags in the
XAllocColor can generate a BadColor error.
The XAllocNamedColor function looks up the named color with respect to
the screen that is associated with the specified colormap. It returns
both the exact database definition and the closest color supported by
the screen. The allocated color cell is read-only. The pixel value is
returned in screen_def_return. If the color name is not in the Host
Portable Character Encoding, the result is implementation-dependent.
Use of uppercase or lowercase does not matter. If screen_def_return
and exact_def_return point to the same structure, the pixel field will
be set correctly, but the color values are undefined. XAllocNamedColor
returns nonzero if a cell is allocated; otherwise, it returns zero.
XAllocNamedColor can generate a BadColor error.
The XAllocColorCells function allocates read/write color cells. The
number of colors must be positive and the number of planes nonnegative,
or a BadValue error results. 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. For GrayScale or PseudoColor, each
mask has exactly one bit set to 1. For DirectColor, each has exactly
three bits set to 1. If contig is True and if all masks are ORed
together, a single contiguous set of bits set to 1 will be formed for
GrayScale or PseudoColor and three contiguous sets of bits set to 1
(one within each pixel subfield) for DirectColor. The RGB values of
the allocated entries are undefined. XAllocColorCells returns nonzero
if it succeeded or zero if it failed.
XAllocColorCells can generate BadColor and BadValue errors.
The specified ncolors must be positive; and nreds, ngreens, and
nblues must be nonnegative, or a BadValue error results. 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 contig is True, 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. For
DirectColor, 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. This is true even for PseudoColor. When the
colormap entry of a pixel value is changed (using XStoreColors,
XStoreColor, or XStoreNamedColor), the pixel is decomposed according to
the masks, and the corresponding independent entries are updated.
XAllocColorPlanes returns nonzero if it succeeded or zero if it failed.
XAllocColorPlanes can generate BadColor and BadValue errors.
The XFreeColors function frees the cells represented by pixels whose
values are in the pixels array. 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 (using XAllocColor, XAllocNamedColor,
XAllocColorCells, and XAllocColorPlanes). Note that freeing an
individual pixel obtained from XAllocColorPlanes 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. If a specified
pixel is not a valid index into the colormap, a BadValue error results.
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 AllocAll to
XCreateColormap), a BadAccess error results. If more than one pixel is
in error, the one that gets reported is arbitrary.
XFreeColors can generate BadAccess, BadColor, and BadValue errors.
BadAccess A client attempted to free a color map entry that it did not
BadAccess A client attempted to store into a read-only color map entry.
BadColor A value for a Colormap argument does not name a defined
BadValue Some numeric value falls outside the range of values accepted
by the request. Unless a specific range is specified for an
argument, the full range defined by the argument's type is
accepted. Any argument defined as a set of alternatives can
generate this error.
XCreateColormap(3), XQueryColor(3), XStoreColors(3)
Xlib - C Language X Interface
X Version 11 libX11 1.6.9 XAllocColor(3)