/* $XConsortium: pcfrgb.c,v 1.4 94/04/17 20:33:41 rws Exp $ */ /* $XFree86: xc/programs/Xserver/XIE/dixie/process/pcfrgb.c,v 3.1 1996/08/20 12:21:38 dawes Exp $ */ /**** module pcfrgb.c ****/ /****************************************************************************** Copyright (c) 1993, 1994 X Consortium 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 the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. 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By obtaining, using and/or copying this software, you agree that you have read, understood, and will comply with these terms and conditions: Permission to use, copy, modify, distribute and sell this software and its documentation for any purpose and without fee or royalty and to grant others any or all rights granted herein is hereby granted, provided that you agree to comply with the following copyright notice and statements, including the disclaimer, and that the same appears on all copies and derivative works of the software and documentation you make. "Copyright 1993, 1994 by AGE Logic, Inc." THIS SOFTWARE IS PROVIDED "AS IS". AGE LOGIC MAKES NO REPRESENTATIONS OR WARRANTIES, EXPRESS OR IMPLIED. By way of example, but not limitation, AGE LOGIC MAKE NO REPRESENTATIONS OR WARRANTIES OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE OR THAT THE SOFTWARE DOES NOT INFRINGE THIRD-PARTY PROPRIETARY RIGHTS. AGE LOGIC SHALL BEAR NO LIABILITY FOR ANY USE OF THIS SOFTWARE. IN NO EVENT SHALL EITHER PARTY BE LIABLE FOR ANY INDIRECT, INCIDENTAL, SPECIAL, OR CONSEQUENTIAL DAMAGES, INCLUDING LOSS OF PROFITS, REVENUE, DATA OR USE, INCURRED BY EITHER PARTY OR ANY THIRD PARTY, WHETHER IN AN ACTION IN CONTRACT OR TORT OR BASED ON A WARRANTY, EVEN IF AGE LOGIC LICENSEES HEREUNDER HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. The name of AGE Logic, Inc. may not be used in advertising or publicity pertaining to this software without specific, written prior permission from AGE Logic. 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 /* * Core X Includes */ #define NEED_EVENTS #include #include /* * XIE Includes */ #include #include /* * more X server includes. */ #include #include /* * Server XIE Includes */ #include #include #include #include #include #include #include /* * 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 */