path: root/xc/programs/Xserver/XIE/dixie/process/pcfrgb.c

/* $XConsortium: pcfrgb.c,v 1.3 94/01/12 19:54:11 rws Exp $ */
/**** module pcfrgb.c ****/
/******************************************************************************

Copyright (c) 1993, 1994  X Consortium

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				NOTICE
                              
This software is being provided by AGE Logic, Inc. under the
following license.  By obtaining, using and/or copying this software,
you agree that you have read, understood, and will comply with these
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     Title to this software shall at all times remain with AGE
     Logic, Inc.
*****************************************************************************
  
	pcfrgb.c -- DIXIE routines for managing the ConvertFromRGB element
  
	Dean Verheiden -- AGE Logic, Inc. August 1993
  
*****************************************************************************/

#define _XIEC_PCFRGB

/*
 *  Include files
 */
#include <stdio.h>

  /*
   *  Core X Includes
   */
#include <X.h>
#include <Xproto.h>
  /*
   *  XIE Includes
   */
#include <XIE.h>
#include <XIEproto.h>
  /*
   *  more X server includes.
   */
#include <misc.h>
#include <dixstruct.h>
  /*
   *  Server XIE Includes
   */
#include <corex.h>
#include <error.h>
#include <macro.h>
#include <element.h>
#include <technq.h>
#include <difloat.h>

/*
 *  routines referenced by other modules
 */
peDefPtr	MakeConvertFromRGB();
Bool		CopyPConvertFromRGBCIE();
Bool		CopyPConvertFromRGBYCC();
Bool		CopyPConvertFromRGBYCbCr();
Bool		PrepPConvertFromRGBCIE();
Bool		PrepPConvertFromRGBYCC();
Bool		PrepPConvertFromRGBYCbCr();

/*
 * white adjust techniques, utilities, defined in ConvertToRGB
 */
extern Bool	CopyPWhiteAdjustNone();
extern Bool	CopyPWhiteAdjustCIELabShift();
extern Bool	PrepPWhiteAdjustNone();
extern Bool	PrepPWhiteAdjustCIELabShift();

extern void	copy_floats();
extern void	swap_floats();


/*
 *  routines internal to this module
 */
static Bool	PrepPConvertFromRGB();

/*
 * dixie element entry points
 */
static diElemVecRec pConvertFromRGBVec = {
  PrepPConvertFromRGB		/* prepare for analysis and execution	*/
  };

/*------------------------------------------------------------------------
------------------ routine: make a ConvertFromRBG element ----------------
------------------------------------------------------------------------*/
peDefPtr MakeConvertFromRGB(flo,tag,pe)
floDefPtr      flo;
xieTypPhototag tag;
xieFlo        *pe;
{
  peDefPtr ped;
  ELEMENT(xieFloConvertFromRGB);
  ELEMENT_AT_LEAST_SIZE(xieFloConvertFromRGB);
  ELEMENT_NEEDS_1_INPUT(src);
  
  if(!(ped = MakePEDef(1, (CARD32)stuff->elemLength<<2, 0)))
    FloAllocError(flo,tag,xieElemConvertFromRGB, return(NULL)) ;

  ped->diVec	     = &pConvertFromRGBVec;
  ped->phototag      = tag;
  ped->flags.process = TRUE;
  raw = (xieFloConvertFromRGB *)ped->elemRaw;
  /*
   * copy the client element parameters (swap if necessary)
   */
  if( flo->reqClient->swapped ) {
    raw->elemType   = stuff->elemType;
    raw->elemLength = stuff->elemLength;
    cpswaps(stuff->src,       raw->src);
    cpswaps(stuff->convert,   raw->convert);
    cpswaps(stuff->lenParams, raw->lenParams);
  } else
    memcpy((char *)raw, (char *)stuff, sizeof(xieFloConvertFromRGB));
  /*
   * copy technique data (if any)
   */
  if(!(ped->techVec = FindTechnique(xieValConvertFromRGB,  raw->convert)) ||
     !(ped->techVec->copyfnc(flo, ped, &stuff[1], &raw[1], raw->lenParams)))
    TechniqueError(flo,ped,xieValConvertFromRGB,raw->convert,raw->lenParams,
		   return(ped));

 /*
   * assign phototag to inFlo
   */
  ped->inFloLst[SRCtag].srcTag = raw->src;


  return(ped);
}                               /* end MakePConvertFromRGB */

/*------------------------------------------------------------------------
------ routine: copy routine for CIELab and CIEXYZ techniques  -----------
------------------------------------------------------------------------*/
Bool CopyPConvertFromRGBCIE(flo, ped, sparms, rparms, tsize) 
floDefPtr  flo;
peDefPtr   ped;
xieTecRGBToCIELab *sparms, *rparms; 	 /* same as xieTecRGBToCIEXYZ */
CARD16	tsize;
{
   pTecRGBToCIEDefPtr pvt;

   VALIDATE_TECHNIQUE_SIZE(ped->techVec, tsize, FALSE);

   if (!(ped->techPvt = (pointer )XieMalloc(sizeof(pTecRGBToCIEDefRec))))
	FloAllocError(flo, ped->phototag,xieElemConvertFromRGB, return(TRUE));

   pvt = (pTecRGBToCIEDefPtr)ped->techPvt;

   if( flo->reqClient->swapped ) {
	swap_floats(&pvt->matrix[0], &sparms->matrix00, 9);
	cpswaps(sparms->whiteAdjusted, pvt->whiteAdjusted);
	cpswaps(sparms->lenParams,     pvt->lenWhiteParams);
   } else {
	copy_floats(&pvt->matrix[0], &sparms->matrix00, 9);
        pvt->whiteAdjusted  = sparms->whiteAdjusted;
        pvt->lenWhiteParams = sparms->lenParams;
   }

   if(!(pvt->whiteTec = FindTechnique(xieValWhiteAdjust, pvt->whiteAdjusted)) ||
      !(pvt->whiteTec->copyfnc(flo, ped, &sparms[1], pvt->whitePoint, 
					 pvt->whiteTec, pvt->lenWhiteParams,
			                 pvt->whiteAdjusted == xieValDefault)))
       TechniqueError(flo,ped,xieValWhiteAdjust,pvt->whiteAdjusted,
		      pvt->lenWhiteParams, return(TRUE));

   return (TRUE);
}

/*------------------------------------------------------------------------
---------- routine: copy routine for YCbCr and YCC techniques ------------
------------------------------------------------------------------------*/
Bool CopyPConvertFromRGBYCbCr(flo, ped, sparms, rparms, tsize) 
floDefPtr  flo;
peDefPtr   ped;
xieTecRGBToYCbCr *sparms, *rparms;
CARD16	tsize;
{
   pTecRGBToYCbCrDefPtr pvt;

   VALIDATE_TECHNIQUE_SIZE(ped->techVec, tsize, FALSE);

   if (!(ped->techPvt = (pointer )XieMalloc(sizeof(pTecRGBToYCbCrDefRec))))
	FloAllocError(flo, ped->phototag,xieElemConvertFromRGB, return(TRUE));

   pvt = (pTecRGBToYCbCrDefPtr)ped->techPvt;

   if( flo->reqClient->swapped ) {
	cpswapl(sparms->levels0, pvt->levels0);
	cpswapl(sparms->levels1, pvt->levels1);
	cpswapl(sparms->levels2, pvt->levels2);
	swap_floats(&pvt->red, &sparms->lumaRed, 3);
	swap_floats(&pvt->bias0, &sparms->bias0, 3);
   } else {
	pvt->levels0 = sparms->levels0;
	pvt->levels1 = sparms->levels1;
	pvt->levels2 = sparms->levels2;
	copy_floats(&pvt->red, &sparms->lumaRed, 3);
	copy_floats(&pvt->bias0, &sparms->bias0, 3);
   }

   return (TRUE);
}

Bool CopyPConvertFromRGBYCC(flo, ped, sparms, rparms, tsize) 
floDefPtr  flo;
peDefPtr   ped;
xieTecRGBToYCC *sparms, *rparms;
CARD16	tsize;
{
   pTecRGBToYCCDefPtr pvt;

   VALIDATE_TECHNIQUE_SIZE(ped->techVec, tsize, FALSE);

   if (!(ped->techPvt = (pointer )XieMalloc(sizeof(pTecRGBToYCCDefRec))))
	FloAllocError(flo, ped->phototag,xieElemConvertFromRGB, return(TRUE));

   pvt = (pTecRGBToYCCDefPtr)ped->techPvt;

   if( flo->reqClient->swapped ) {
	cpswapl(sparms->levels0, pvt->levels0);
	cpswapl(sparms->levels1, pvt->levels1);
	cpswapl(sparms->levels2, pvt->levels2);
	swap_floats(&pvt->red, &sparms->lumaRed, 3);
	pvt->scale = ConvertFromIEEE(lswapl(sparms->scale));
   } else {
	pvt->levels0 = sparms->levels0;
	pvt->levels1 = sparms->levels1;
	pvt->levels2 = sparms->levels2;
	copy_floats(&pvt->red, &sparms->lumaRed, 3);
	pvt->scale = ConvertFromIEEE(sparms->scale);
   }

   return (TRUE);
}

/*------------------------------------------------------------------------
-- routine: prep routine for RGB to CIElab and CIEXYZ techniques ---------
------------------------------------------------------------------------*/

Bool PrepPConvertFromRGBCIE(flo, ped, raw, tec) 
floDefPtr  flo;
peDefPtr   ped;
xieFloConvertFromRGB *raw;
xieTecRGBToCIELab *tec;   /* same as xieTecRGBToCIEXYZ */
{
  inFloPtr inf = &ped->inFloLst[SRCtag];
  outFloPtr src = &inf->srcDef->outFlo;
  outFloPtr dst = &ped->outFlo;
  pTecRGBToCIEDefPtr pvt = (pTecRGBToCIEDefPtr)ped->techPvt;
  int b;

  /* grab a copy of the src attributes and propagate them to our input */
  dst->bands = inf->bands = src->bands;
  for(b = 0; b < src->bands; b++) {
	dst->format[b] = inf->format[b] = src->format[b];
	/* Now, fix up everthing in the destination that will change */
	/* For this element, src may have been CONSTRAINED */
	dst->format[b].class = UNCONSTRAINED;
	dst->format[b].depth = sz_RealPixel;
	dst->format[b].levels = 0;	/* Unconstrained */
	dst->format[b].stride = sz_RealPixel;
	dst->format[b].pitch = sz_RealPixel * dst->format[b].width;
  }

  return(pvt->whiteTec->prepfnc(flo,ped,pvt->whitePoint));
}

/*------------------------------------------------------------------------
-- routine: prep routine for RGB to YCbCr and YCC techniques -------------
------------------------------------------------------------------------*/
Bool PrepPConvertFromRGBYCbCr(flo, ped, raw, tec) 
floDefPtr  flo;
peDefPtr   ped;
xieFloConvertFromRGB *raw;
xieTecRGBToYCbCr *tec;
{
  inFloPtr inf = &ped->inFloLst[SRCtag];
  outFloPtr src = &inf->srcDef->outFlo;
  outFloPtr dst = &ped->outFlo;
  pTecRGBToYCbCrDefPtr pvt = (pTecRGBToYCbCrDefPtr)ped->techPvt;
  CARD32 *levels = &(pvt->levels0);
  int b;

  /* grab a copy of the src attributes and propagate them to our input */
  dst->bands = inf->bands = src->bands;
  for(b = 0; b < src->bands; b++) {
	dst->format[b] = inf->format[b] = src->format[b];
	if (IsConstrained(dst->format[b].class))
	    dst->format[b].levels = *(levels+b);
  }

  if (IsConstrained(dst->format[0].class)) {
      if (UpdateFormatfromLevels(ped) == FALSE)
	MatchError(flo,ped, return(FALSE));
  } /* else the structure copy was sufficient */

  return(TRUE);
}

Bool PrepPConvertFromRGBYCC(flo, ped, raw, tec) 
floDefPtr  flo;
peDefPtr   ped;
xieFloConvertFromRGB *raw;
xieTecRGBToYCC *tec;
{
  inFloPtr inf = &ped->inFloLst[SRCtag];
  outFloPtr src = &inf->srcDef->outFlo;
  outFloPtr dst = &ped->outFlo;
  pTecRGBToYCCDefPtr pvt = (pTecRGBToYCCDefPtr)ped->techPvt;
  CARD32 *levels = &(pvt->levels0);
  int b;

  /* grab a copy of the src attributes and propagate them to our input */
  dst->bands = inf->bands = src->bands;
  for(b = 0; b < src->bands; b++) {
	dst->format[b] = inf->format[b] = src->format[b];
	if (IsConstrained(dst->format[b].class))
	    dst->format[b].levels = *(levels+b);
  }

  if (IsConstrained(dst->format[0].class)) {
      if (UpdateFormatfromLevels(ped) == FALSE)
	MatchError(flo,ped, return(FALSE));
  } /* else the structure copy was sufficient */

  if (pvt->scale < .001) { /* should be about 1.35 or 1.4 */
	ValueError(flo, ped, tec->scale, return(FALSE));
  }

  return(TRUE);
}

/*------------------------------------------------------------------------
---------------- routine: prepare for analysis and execution -------------
------------------------------------------------------------------------*/

static Bool PrepPConvertFromRGB(flo,ped)
     floDefPtr  flo;
     peDefPtr   ped;
{
  inFloPtr inf = &ped->inFloLst[SRCtag];
  outFloPtr src = &inf->srcDef->outFlo;
  xieFloConvertFromRGB *raw = (xieFloConvertFromRGB *)ped->elemRaw;

  /* Input must be triple band and dimensions must match */
  if (IsntCanonic(src->format[0].class) ||
      src->bands != 3 ||
      src->format[0].width  != src->format[1].width ||
      src->format[1].width  != src->format[2].width ||
      src->format[0].height != src->format[1].height ||
      src->format[1].height != src->format[2].height)
      MatchError(flo,ped, return(FALSE));

  /*
  ** Technique Prep routine will complete the normal propagation of src
  ** attributes, and setup of destination attributes.
  */

  if (!(ped->techVec->prepfnc(flo, ped, raw, &raw[1])))
	TechniqueError(flo,ped,xieValConvertFromRGB,raw->convert,
		       raw->lenParams, return(FALSE));

  return (TRUE);
}	

/* end module pcfrgb.c */