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/** \file
* \brief Palette Generators
*
* See Copyright Notice in im_lib.h
*/
#ifndef __IM_PALETTE_H
#define __IM_PALETTE_H
#if defined(__cplusplus)
extern "C" {
#endif
/** \defgroup palette Palette Generators
* \par
* Creates several standard palettes. The palette is just an array of encoded color values.
* See also \ref colorutl.
* \par
* In Lua, to create a palette you can call im.PaletteCreate.
* \verbatim im.PaletteCreate([count: number]) -> pal: imPalette [in Lua 5] \endverbatim
* Default count is 256.
* IMLua and CDLua palettes are 100% compatible. The IM palette metatable name is "imPalette". \n
* When converted to a string will return "imPalete(%p)" where %p is replaced by the userdata address.
* If the palette is already destroyed by im.PaletteDestroy, then it will return also the suffix "-destroyed".
* \par
* In Lua, to destroy a palette you can call im.PaletteDestroy.
* If this function is not called, the palette is destroyed by the garbage collector.
* \verbatim im.PaletteDestroy(pal: imPalette) [in Lua 5] \endverbatim
* \par
* In Lua, array access is enabled so you can do:.
* \verbatim color = pal[index] \endverbatim
* \verbatim pal[index] = color \endverbatim
* \verbatim count = #pal \endverbatim
* \par
* See \ref im_palette.h
* \ingroup util */
/** Searches for the nearest color on the table and returns the color index if successful.
* It looks in all palette entries and finds the minimum euclidian square distance.
* If the color matches the given color it returns immediately.
* See also \ref colorutl.
*
* \verbatim im.PaletteFindNearest(pal: imPalette, color: lightuserdata) -> index: number [in Lua 5] \endverbatim
* \ingroup palette */
int imPaletteFindNearest(const long *palette, int palette_count, long color);
/** Searches for the color on the table and returns the color index if successful.
* If the tolerance is 0 search for the exact match in the palette else search for the
* first color that fits in the tolerance range.
* See also \ref colorutl.
*
* \verbatim im.PaletteFindColor(pal: imPalette, color: lightuserdata, tol: number) -> index: number [in Lua 5] \endverbatim
* \ingroup palette */
int imPaletteFindColor(const long *palette, int palette_count, long color, unsigned char tol);
/** Creates a palette of gray scale values.
* The colors are arranged from black to white.
*
* \verbatim im.PaletteGray() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteGray(void);
/** Creates a palette of a gradient of red colors.
* The colors are arranged from black to pure red.
*
* \verbatim im.PaletteRed() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteRed(void);
/** Creates a palette of a gradient of green colors.
* The colors are arranged from black to pure green.
*
* \verbatim im.PaletteGreen() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteGreen(void);
/** Creates a palette of a gradient of blue colors.
* The colors are arranged from black to pure blue.
*
* \verbatim im.PaletteBlue() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteBlue(void);
/** Creates a palette of a gradient of yellow colors.
* The colors are arranged from black to pure yellow.
*
* \verbatim im.PaletteYellow() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteYellow(void);
/** Creates a palette of a gradient of magenta colors.
* The colors are arranged from black to pure magenta.
*
* \verbatim im.PaletteMagenta() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteMagenta(void);
/** Creates a palette of a gradient of cian colors.
* The colors are arranged from black to pure cian.
*
* \verbatim im.PaletteCian() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteCian(void);
/** Creates a palette of rainbow colors.
* The colors are arranged in the light wave length spectrum order (starting from purple).
*
* \verbatim im.PaletteRainbow() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteRainbow(void);
/** Creates a palette of hues with maximum saturation.
*
* \verbatim im.PaletteHues() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteHues(void);
/** Creates a palette of a gradient of blue colors.
* The colors are arranged from pure blue to white.
*
* \verbatim im.PaletteBlueIce() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteBlueIce(void);
/** Creates a palette of a gradient from black to white passing trough red and orange.
*
* \verbatim im.PaletteHotIron() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteHotIron(void);
/** Creates a palette of a gradient from black to white passing trough red and yellow.
*
* \verbatim im.PaletteBlackBody() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteBlackBody(void);
/** Creates a palette with high contrast colors.
*
* \verbatim im.PaletteHighContrast() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteHighContrast(void);
/** Creates a palette of an uniform range of colors from black to white.
* This is a 2^(2.6) bits per pixel palette.
*
* \verbatim im.PaletteUniform() -> pal: imPalette [in Lua 5] \endverbatim
* \ingroup palette */
long* imPaletteUniform(void);
/** Returns the index of the correspondent RGB color of an uniform palette.
*
* \verbatim im.PaletteUniformIndex(color: lightuserdata) -> index: number [in Lua 5] \endverbatim
* \ingroup palette */
int imPaletteUniformIndex(long color);
/** Returns the index of the correspondent RGB color of an uniform palette.
* Uses an 8x8 ordered dither to lookup the index in a halftone matrix.
* The spatial position used by the halftone method.
*
* \verbatim im.PaletteUniformIndexHalftoned(color: lightuserdata, x: number, y: number) -> index: number [in Lua 5] \endverbatim
* \ingroup palette */
int imPaletteUniformIndexHalftoned(long color, int x, int y);
#if defined(__cplusplus)
}
#endif
#endif
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