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#ifdef HAVE_DIX_CONFIG_H
#include <dix-config.h>
#endif

#include <X11/X.h>
#include <X11/Xproto.h>
#include "scrnintstr.h"
#include "colormapst.h"
#include "resource.h"
#include "fb.h"

#ifdef XFree86Server
#error "You should be compiling fbcmap_mi.c instead of fbcmap.c!"
#endif



ColormapPtr FbInstalledMaps[MAXSCREENS];

int
fbListInstalledColormaps(ScreenPtr pScreen, Colormap *pmaps)
{
    /* By the time we are processing requests, we can guarantee that there
     * is always a colormap installed */
    *pmaps = FbInstalledMaps[pScreen->myNum]->mid;
    return (1);
}


void
fbInstallColormap(ColormapPtr pmap)
{
    int index = pmap->pScreen->myNum;
    ColormapPtr oldpmap = FbInstalledMaps[index];

    if(pmap != oldpmap)
    {
	/* Uninstall pInstalledMap. No hardware changes required, just
	 * notify all interested parties. */
	if(oldpmap != (ColormapPtr)None)
	    WalkTree(pmap->pScreen, TellLostMap, (char *)&oldpmap->mid);
	/* Install pmap */
	FbInstalledMaps[index] = pmap;
	WalkTree(pmap->pScreen, TellGainedMap, (char *)&pmap->mid);
    }
}

void
fbUninstallColormap(ColormapPtr pmap)
{
    int index = pmap->pScreen->myNum;
    ColormapPtr curpmap = FbInstalledMaps[index];

    if(pmap == curpmap)
    {
	if (pmap->mid != pmap->pScreen->defColormap)
	{
	    curpmap = (ColormapPtr) LookupIDByType(pmap->pScreen->defColormap,
						   RT_COLORMAP);
	    (*pmap->pScreen->InstallColormap)(curpmap);
	}
    }
}

void
fbResolveColor(unsigned short	*pred, 
	       unsigned short	*pgreen, 
	       unsigned short	*pblue,
	       VisualPtr	pVisual)
{
    int shift = 16 - pVisual->bitsPerRGBValue;
    unsigned lim = (1 << pVisual->bitsPerRGBValue) - 1;

    if ((pVisual->class | DynamicClass) == GrayScale)
    {
	/* rescale to gray then rgb bits */
	*pred = (30L * *pred + 59L * *pgreen + 11L * *pblue) / 100;
	*pblue = *pgreen = *pred = ((*pred >> shift) * 65535) / lim;
    }
    else
    {
	/* rescale to rgb bits */
	*pred = ((*pred >> shift) * 65535) / lim;
	*pgreen = ((*pgreen >> shift) * 65535) / lim;
	*pblue = ((*pblue >> shift) * 65535) / lim;
    }
}

Bool
fbInitializeColormap(ColormapPtr pmap)
{
    register unsigned i;
    register VisualPtr pVisual;
    unsigned lim, maxent, shift;

    pVisual = pmap->pVisual;
    lim = (1 << pVisual->bitsPerRGBValue) - 1;
    shift = 16 - pVisual->bitsPerRGBValue;
    maxent = pVisual->ColormapEntries - 1;
    if (pVisual->class == TrueColor)
    {
	unsigned limr, limg, limb;

	limr = pVisual->redMask >> pVisual->offsetRed;
	limg = pVisual->greenMask >> pVisual->offsetGreen;
	limb = pVisual->blueMask >> pVisual->offsetBlue;
	for(i = 0; i <= maxent; i++)
	{
	    /* rescale to [0..65535] then rgb bits */
	    pmap->red[i].co.local.red =
		((((i * 65535) / limr) >> shift) * 65535) / lim;
	    pmap->green[i].co.local.green =
		((((i * 65535) / limg) >> shift) * 65535) / lim;
	    pmap->blue[i].co.local.blue =
		((((i * 65535) / limb) >> shift) * 65535) / lim;
	}
    }
    else if (pVisual->class == StaticColor)
    {
	unsigned	n;
	unsigned	r, g, b;
	unsigned	red, green, blue;

	for (n = 0; n*n*n < pVisual->ColormapEntries; n++)
	    ;
	n--;
	i = 0;
	for (r = 0; r < n; r++)
	{
	    red = (((r * 65535 / (n - 1)) >> shift) * 65535) / lim;
	    for (g = 0; g < n; g++)
	    {
		green = (((g * 65535 / (n - 1)) >> shift) * 65535) / lim;
		for (b = 0; b < n; b++)
		{
		    blue = (((b * 65535 / (n - 1)) >> shift) * 65535) / lim;
		    pmap->red[i].co.local.red = red;
		    pmap->red[i].co.local.green = green;
		    pmap->red[i].co.local.blue = blue;
		    i++;
		}
	    }
	}
	n = pVisual->ColormapEntries - i;
	for (r = 0; r < n; r++)
	{
	    red = (((r * 65535 / (n - 1)) >> shift) * 65535) / lim;
	    pmap->red[i].co.local.red = red;
	    pmap->red[i].co.local.green = red;
	    pmap->red[i].co.local.blue = red;
	    i++;
	}
    }
    else if (pVisual->class == StaticGray)
    {
	for(i = 0; i <= maxent; i++)
	{
	    /* rescale to [0..65535] then rgb bits */
	    pmap->red[i].co.local.red = ((((i * 65535) / maxent) >> shift)
					 * 65535) / lim;
	    pmap->red[i].co.local.green = pmap->red[i].co.local.red;
	    pmap->red[i].co.local.blue = pmap->red[i].co.local.red;
	}
    }
    return TRUE;
}

/* When simulating DirectColor on PseudoColor hardware, multiple
   entries of the colormap must be updated
 */

#define AddElement(mask) { \
    pixel = red | green | blue; \
    for (i = 0; i < nresult; i++) \
  	if (outdefs[i].pixel == pixel) \
    	    break; \
    if (i == nresult) \
    { \
   	nresult++; \
	outdefs[i].pixel = pixel; \
	outdefs[i].flags = 0; \
    } \
    outdefs[i].flags |= (mask); \
    outdefs[i].red = pmap->red[red >> pVisual->offsetRed].co.local.red; \
    outdefs[i].green = pmap->green[green >> pVisual->offsetGreen].co.local.green; \
    outdefs[i].blue = pmap->blue[blue >> pVisual->offsetBlue].co.local.blue; \
}

int
fbExpandDirectColors (ColormapPtr   pmap, 
		      int	    ndef,
		      xColorItem    *indefs,
		      xColorItem    *outdefs)
{
    register int    red, green, blue;
    int		    maxred, maxgreen, maxblue;
    int		    stepred, stepgreen, stepblue;
    VisualPtr	    pVisual;
    register int    pixel;
    register int    nresult;
    register int    i;

    pVisual = pmap->pVisual;

    stepred = 1 << pVisual->offsetRed;
    stepgreen = 1 << pVisual->offsetGreen;
    stepblue = 1 << pVisual->offsetBlue;
    maxred = pVisual->redMask;
    maxgreen = pVisual->greenMask;
    maxblue = pVisual->blueMask;
    nresult = 0;
    for (;ndef--; indefs++)
    {
	if (indefs->flags & DoRed)
	{
	    red = indefs->pixel & pVisual->redMask;
    	    for (green = 0; green <= maxgreen; green += stepgreen)
    	    {
	    	for (blue = 0; blue <= maxblue; blue += stepblue)
	    	{
		    AddElement (DoRed)
	    	}
    	    }
	}
	if (indefs->flags & DoGreen)
	{
	    green = indefs->pixel & pVisual->greenMask;
    	    for (red = 0; red <= maxred; red += stepred)
    	    {
	    	for (blue = 0; blue <= maxblue; blue += stepblue)
	    	{
		    AddElement (DoGreen)
	    	}
    	    }
	}
	if (indefs->flags & DoBlue)
	{
	    blue = indefs->pixel & pVisual->blueMask;
    	    for (red = 0; red <= maxred; red += stepred)
    	    {
	    	for (green = 0; green <= maxgreen; green += stepgreen)
	    	{
		    AddElement (DoBlue)
	    	}
    	    }
	}
    }
    return nresult;
}

Bool
fbCreateDefColormap(ScreenPtr pScreen)
{
    unsigned short	zero = 0, ones = 0xFFFF;
    VisualPtr	pVisual;
    ColormapPtr	cmap;
    Pixel wp, bp;
    
    for (pVisual = pScreen->visuals;
	 pVisual->vid != pScreen->rootVisual;
	 pVisual++)
	;

    if (CreateColormap(pScreen->defColormap, pScreen, pVisual, &cmap,
		       (pVisual->class & DynamicClass) ? AllocNone : AllocAll,
		       0)
	!= Success)
	return FALSE;
    wp = pScreen->whitePixel;
    bp = pScreen->blackPixel;
    if ((AllocColor(cmap, &ones, &ones, &ones, &wp, 0) !=
       	   Success) ||
    	(AllocColor(cmap, &zero, &zero, &zero, &bp, 0) !=
       	   Success))
    	return FALSE;
    pScreen->whitePixel = wp;
    pScreen->blackPixel = bp;
    (*pScreen->InstallColormap)(cmap);
    return TRUE;
}

extern int defaultColorVisualClass;

#define _RZ(d) ((d + 2) / 3)
#define _RS(d) 0
#define _RM(d) ((1 << _RZ(d)) - 1)
#define _GZ(d) ((d - _RZ(d) + 1) / 2)
#define _GS(d) _RZ(d)
#define _GM(d) (((1 << _GZ(d)) - 1) << _GS(d))
#define _BZ(d) (d - _RZ(d) - _GZ(d))
#define _BS(d) (_RZ(d) + _GZ(d))
#define _BM(d) (((1 << _BZ(d)) - 1) << _BS(d))
#define _CE(d) (1 << _RZ(d))

#define MAX_PSEUDO_DEPTH    10	    /* largest DAC size I know */

#define StaticGrayMask	(1 << StaticGray)
#define GrayScaleMask	(1 << GrayScale)
#define StaticColorMask	(1 << StaticColor)
#define PseudoColorMask	(1 << PseudoColor)
#define TrueColorMask	(1 << TrueColor)
#define DirectColorMask (1 << DirectColor)

#define ALL_VISUALS	(StaticGrayMask|\
			 GrayScaleMask|\
			 StaticColorMask|\
			 PseudoColorMask|\
			 TrueColorMask|\
			 DirectColorMask)

#define LARGE_VISUALS	(TrueColorMask|\
			 DirectColorMask)

typedef struct _fbVisuals {
    struct _fbVisuals	*next;
    int			depth;
    int			bitsPerRGB;
    int			visuals;
    int			count;
    Pixel		redMask, greenMask, blueMask;
} fbVisualsRec, *fbVisualsPtr;

static const int  fbVisualPriority[] = {
    PseudoColor, DirectColor, GrayScale, StaticColor, TrueColor, StaticGray
};

#define NUM_PRIORITY	6

static fbVisualsPtr	fbVisuals;

static int
popCount (int i)
{
    int	count;
    
    count = (i >> 1) & 033333333333;
    count = i - count - ((count >> 1) & 033333333333);
    count = (((count + (count >> 3)) & 030707070707) % 077);	/* HAKMEM 169 */
    return count;
}

/*
 * Distance to least significant one bit
 */
static int
maskShift (Pixel p)
{
    int	s;

    if (!p) return 0;
    s = 0;
    while (!(p & 1))
    {
	s++;
	p >>= 1;
    }
    return s;
}

Bool
fbSetVisualTypesAndMasks (int depth, int visuals, int bitsPerRGB,
			  Pixel redMask, Pixel greenMask, Pixel blueMask)
{
    fbVisualsPtr   new, *prev, v;

    new = (fbVisualsPtr) xalloc (sizeof *new);
    if (!new)
	return FALSE;
    if (!redMask || !greenMask || !blueMask)
    {
	redMask = _RM(depth);
	greenMask = _GM(depth);
	blueMask = _BM(depth);
    }
    new->next = 0;
    new->depth = depth;
    new->visuals = visuals;
    new->bitsPerRGB = bitsPerRGB;
    new->redMask = redMask;
    new->greenMask = greenMask;
    new->blueMask = blueMask;
    new->count = popCount (visuals);
    for (prev = &fbVisuals; (v = *prev); prev = &v->next);
    *prev = new;
    return TRUE;
}

Bool
fbHasVisualTypes (int depth)
{
    fbVisualsPtr    v;

    for (v = fbVisuals; v; v = v->next)
	if (v->depth == depth)
	    return TRUE;
    return FALSE;
}

Bool
fbSetVisualTypes (int depth, int visuals, int bitsPerRGB)
{
    return fbSetVisualTypesAndMasks (depth, visuals, bitsPerRGB,
				     _RM(depth), _GM(depth), _BM(depth));
}

/*
 * Given a list of formats for a screen, create a list
 * of visuals and depths for the screen which coorespond to
 * the set which can be used with this version of fb.
 */

Bool
fbInitVisuals (VisualPtr    *visualp, 
	       DepthPtr	    *depthp,
	       int	    *nvisualp,
	       int	    *ndepthp,
	       int	    *rootDepthp,
	       VisualID	    *defaultVisp,
	       unsigned long	sizes,
	       int	    bitsPerRGB)
{
    int		i, j = 0, k;
    VisualPtr	visual;
    DepthPtr	depth;
    VisualID	*vid;
    int		d, b;
    int		f;
    int		ndepth, nvisual;
    int		nvtype;
    int		vtype;
    fbVisualsPtr   visuals, nextVisuals;

    /* none specified, we'll guess from pixmap formats */
    if (!fbVisuals) 
    {
    	for (f = 0; f < screenInfo.numPixmapFormats; f++) 
    	{
	    d = screenInfo.formats[f].depth;
	    b = screenInfo.formats[f].bitsPerPixel;
	    if (sizes & (1 << (b - 1)))
	    {
	    	if (d > MAX_PSEUDO_DEPTH)
		    vtype = LARGE_VISUALS;
	    	else if (d == 1)
		    vtype = StaticGrayMask;
		else
		    vtype = ALL_VISUALS;
	    }
	    else
		vtype = 0;
	    if (!fbSetVisualTypes (d, vtype, bitsPerRGB))
		return FALSE;
    	}
    }
    nvisual = 0;
    ndepth = 0;
    for (visuals = fbVisuals; visuals; visuals = nextVisuals) 
    {
	nextVisuals = visuals->next;
	ndepth++;
	nvisual += visuals->count;
    }
    depth = (DepthPtr) xalloc (ndepth * sizeof (DepthRec));
    visual = (VisualPtr) xalloc (nvisual * sizeof (VisualRec));
    if (!depth || !visual)
    {
	xfree (depth);
	xfree (visual);
	return FALSE;
    }
    *depthp = depth;
    *visualp = visual;
    *ndepthp = ndepth;
    *nvisualp = nvisual;
    for (visuals = fbVisuals; visuals; visuals = nextVisuals) 
    {
	nextVisuals = visuals->next;
	d = visuals->depth;
	vtype = visuals->visuals;
	nvtype = visuals->count;
	vid = NULL;
	if (nvtype)
	{
	    vid = (VisualID *) xalloc (nvtype * sizeof (VisualID));
	    if (!vid)
		return FALSE;
	}
	depth->depth = d;
	depth->numVids = nvtype;
	depth->vids = vid;
	depth++;
	for (i = 0; i < NUM_PRIORITY; i++) {
	    if (! (vtype & (1 << fbVisualPriority[i])))
		continue;
	    visual->class = fbVisualPriority[i];
	    visual->bitsPerRGBValue = visuals->bitsPerRGB;
	    visual->ColormapEntries = 1 << d;
	    visual->nplanes = d;
	    visual->vid = *vid = FakeClientID (0);
	    switch (visual->class) {
	    case PseudoColor:
	    case GrayScale:
	    case StaticGray:
	    case StaticColor:
		visual->redMask = 0;
		visual->greenMask =  0;
		visual->blueMask =  0;
		visual->offsetRed  =  0;
		visual->offsetGreen = 0;
		visual->offsetBlue =  0;
		break;
	    case DirectColor:
	    case TrueColor:
		visual->ColormapEntries = _CE(d);
		visual->redMask =  visuals->redMask;
		visual->greenMask =  visuals->greenMask;
		visual->blueMask =  visuals->blueMask;
		visual->offsetRed  =  maskShift (visuals->redMask);
		visual->offsetGreen = maskShift (visuals->greenMask);
		visual->offsetBlue =  maskShift (visuals->blueMask);
	    }
	    vid++;
	    visual++;
	}
	xfree (visuals);
    }
    fbVisuals = NULL;
    visual = *visualp;
    depth = *depthp;
    for (i = 0; i < ndepth; i++)
    {
	if (*rootDepthp && *rootDepthp != depth[i].depth)
	    continue;
	for (j = 0; j < depth[i].numVids; j++)
	{
	    for (k = 0; k < nvisual; k++)
		if (visual[k].vid == depth[i].vids[j])
		    break;
	    if (k == nvisual)
		continue;
	    if (defaultColorVisualClass < 0 ||
		visual[k].class == defaultColorVisualClass)
		break;
	}
	if (j != depth[i].numVids)
	    break;
    }
    if (i == ndepth) {
	for (i = 0; i < ndepth; i++)
	{
	    if (depth[i].numVids)
		break;
	}
	if (i == ndepth)
	    return FALSE;
	j = 0;
    }
    *rootDepthp = depth[i].depth;
    *defaultVisp = depth[i].vids[j];
    return TRUE;
}

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