/* $Xorg: pctrgb.c,v 1.3 2000/08/17 19:47:28 cpqbld Exp $ */ /**** module pctrgb.c ****/ /****************************************************************************** Copyright 1993, 1994, 1998 The Open Group All Rights Reserved. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. 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 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". 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Title to this software shall at all times remain with AGE Logic, Inc. ***************************************************************************** pctrgb.c -- DIXIE routines for managing the ConvertToRGB element Dean Verheiden -- AGE Logic, Inc. August 1993 *****************************************************************************/ /* $XFree86: xc/programs/Xserver/XIE/dixie/process/pctrgb.c,v 3.5 2001/01/17 22:12:52 dawes Exp $ */ #define _XIEC_PCTRGB /* * Include files */ /* * Core X Includes */ #define NEED_EVENTS #include #include /* * XIE Includes */ #include /* * Server XIE Includes */ #include #include #include #include #include #include #include /* * routines internal to this module */ static Bool PrepPConvertToRGB(floDefPtr flo, peDefPtr ped); /* * dixie element entry points */ static diElemVecRec pConvertToRGBVec = { PrepPConvertToRGB /* prepare for analysis and execution */ }; /*------------------------------------------------------------------------ ------------------ routine: make a ConvertToRBG element ---------------- ------------------------------------------------------------------------*/ peDefPtr MakeConvertToRGB(floDefPtr flo, xieTypPhototag tag, xieFlo *pe) { peDefPtr ped; ELEMENT(xieFloConvertToRGB); ELEMENT_AT_LEAST_SIZE(xieFloConvertToRGB); ELEMENT_NEEDS_1_INPUT(src); if(!(ped = MakePEDef(1, (CARD32)stuff->elemLength<<2, 0))) FloAllocError(flo,tag,xieElemConvertToRGB, return(NULL)) ; ped->diVec = &pConvertToRGBVec; ped->phototag = tag; ped->flags.process = TRUE; raw = (xieFloConvertToRGB *)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(xieFloConvertToRGB)); /* * copy technique data (if any) */ if(!(ped->techVec = FindTechnique(xieValConvertToRGB, raw->convert)) || !(ped->techVec->copyfnc(flo, ped, &stuff[1], &raw[1], raw->lenParams, 0))) TechniqueError(flo,ped,xieValConvertToRGB,raw->convert,raw->lenParams, return(ped)); /* * assign phototag to inFlo */ ped->inFloLst[SRCtag].srcTag = raw->src; return(ped); } /* end MakePConvertToRGB */ /*------------------------------------------------------------------------ ------ routine: copy routine for CIELab and CIEXYZ techniques ----------- ------------------------------------------------------------------------*/ #undef sparms #define sparms ((xieTecCIELabToRGB *)sParms) #undef rparms #define rparms ((xieTecCIELabToRGB *)rParms) Bool CopyPConvertToRGBCIE(TECHNQ_COPY_ARGS) { pTecCIEToRGBDefPtr pvt; VALIDATE_TECHNIQUE_SIZE(ped->techVec, tsize, FALSE); if (!(ped->techPvt = (pointer )XieMalloc(sizeof(pTecCIEToRGBDefRec)))) FloAllocError(flo, ped->phototag,xieElemConvertToRGB, return(TRUE)); pvt = (pTecCIEToRGBDefPtr)ped->techPvt; if( flo->reqClient->swapped ) { swap_floats(&pvt->matrix[0], &sparms->matrix00, 9); cpswaps(sparms->whiteAdjusted, pvt->whiteAdjusted); cpswaps(sparms->lenWhiteParams, pvt->lenWhiteParams); cpswaps(sparms->gamutCompress, pvt->gamutCompress); cpswaps(sparms->lenGamutParams, pvt->lenGamutParams); } else { copy_floats(&pvt->matrix[0], &sparms->matrix00, 9); pvt->whiteAdjusted = sparms->whiteAdjusted; pvt->lenWhiteParams = sparms->lenWhiteParams; pvt->gamutCompress = sparms->gamutCompress; pvt->lenGamutParams = sparms->lenGamutParams; } if(!(pvt->whiteTec = FindTechnique(xieValWhiteAdjust, pvt->whiteAdjusted)) || !(TECH_WADJ_FUNC(pvt->whiteTec)(flo, ped, &sparms[1], pvt->whitePoint, pvt->whiteTec, pvt->lenWhiteParams, pvt->whiteAdjusted == xieValDefault))) TechniqueError(flo,ped,xieValWhiteAdjust, pvt->whiteAdjusted,pvt->lenWhiteParams, return(TRUE)); if(!(pvt->gamutTec = FindTechnique(xieValGamut, pvt->gamutCompress)) || !(TECH_GAMU_FUNC(pvt->gamutTec)(pvt->lenGamutParams))) TechniqueError(flo,ped,xieValGamut, pvt->gamutCompress,pvt->lenGamutParams, return(TRUE)); return (TRUE); } /*------------------------------------------------------------------------ ---------- routine: copy routine for YCbCr and YCC techniques ------------ ------------------------------------------------------------------------*/ #undef sparms #define sparms ((xieTecYCbCrToRGB *)sParms) #undef rparms #define rparms ((xieTecYCbCrToRGB *)rParms) Bool CopyPConvertToRGBYCbCr(TECHNQ_COPY_ARGS) { pTecYCbCrToRGBDefPtr pvt; VALIDATE_TECHNIQUE_SIZE(ped->techVec, tsize, FALSE); if (!(ped->techPvt = (pointer )XieMalloc(sizeof(pTecYCbCrToRGBDefRec)))) FloAllocError(flo, ped->phototag,xieElemConvertToRGB, return(TRUE)); pvt = (pTecYCbCrToRGBDefPtr)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); cpswaps(sparms->gamutCompress, pvt->gamutCompress); cpswaps(sparms->lenGamutParams, pvt->lenGamutParams); } 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); pvt->gamutCompress = sparms->gamutCompress; pvt->lenGamutParams = sparms->lenGamutParams; } if(!(pvt->gamutTec = FindTechnique(xieValGamut, pvt->gamutCompress)) || !(TECH_GAMU_FUNC(pvt->gamutTec)(pvt->lenGamutParams))) TechniqueError(flo,ped,xieValGamut, pvt->gamutCompress,pvt->lenGamutParams, return(TRUE)); return (TRUE); } #undef sparms #define sparms ((xieTecYCCToRGB *)sParms) #undef rparms #define rparms ((xieTecYCCToRGB *)rParms) Bool CopyPConvertToRGBYCC(TECHNQ_COPY_ARGS) { pTecYCCToRGBDefPtr pvt; VALIDATE_TECHNIQUE_SIZE(ped->techVec, tsize, FALSE); if (!(ped->techPvt = (pointer )XieMalloc(sizeof(pTecYCCToRGBDefRec)))) FloAllocError(flo, ped->phototag,xieElemConvertToRGB, return(TRUE)); pvt = (pTecYCCToRGBDefPtr)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)); cpswaps(sparms->gamutCompress, pvt->gamutCompress); cpswaps(sparms->lenGamutParams, pvt->lenGamutParams); } 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); pvt->gamutCompress = sparms->gamutCompress; pvt->lenGamutParams = sparms->lenGamutParams; } if(!(pvt->gamutTec = FindTechnique(xieValGamut, pvt->gamutCompress)) || !(TECH_GAMU_FUNC(pvt->gamutTec)(pvt->lenGamutParams))) TechniqueError(flo,ped,xieValGamut, pvt->gamutCompress,pvt->lenGamutParams, return(TRUE)); return (TRUE); } #undef sparms #undef rparms /*------------------------------------------------------------------------ -- routine: copy routine for White Adjust None technique ---------- ------------------------------------------------------------------------*/ Bool CopyPWhiteAdjustNone( floDefPtr flo, peDefPtr ped, pointer sparms, double *pvtf, techVecPtr tv, CARD16 tsize, Bool isDefault) { return (tsize == 0); } /*------------------------------------------------------------------------ -- routine: copy routine for White Adjust CIELabShift technique ---------- ------------------------------------------------------------------------*/ Bool CopyPWhiteAdjustCIELabShift( floDefPtr flo, peDefPtr ped, xieTecWhiteAdjustCIELabShift *sparms, double *pvtf, techVecPtr tv, CARD16 tsize, Bool isDefault) { VALIDATE_TECHNIQUE_SIZE(tv, tsize, isDefault); if( flo->reqClient->swapped ) { swap_floats(pvtf, &sparms->whitePoint0, 3); } else { copy_floats(pvtf, &sparms->whitePoint0, 3); } return (TRUE); } /*------------------------------------------------------------------------ ----------- routine: copy routine for Gamut techniques ------------------- ------------------------------------------------------------------------*/ Bool CopyPGamut(CARD16 tsize) { return (tsize == 0); } /*------------------------------------------------------------------------ -- routine: prep routine for RGB to CIElab and CIEXYZ techniques --------- ------------------------------------------------------------------------*/ Bool PrepPConvertToRGBCIE( floDefPtr flo, peDefPtr ped, xieFloConvertToRGB *raw, xieTecCIELabToRGB *tec) /* same as xieTecCIEXYZToRGB */ { pTecCIEToRGBDefPtr pvt = (pTecCIEToRGBDefPtr)ped->techPvt; inFloPtr inf = &ped->inFloLst[SRCtag]; outFloPtr src = &inf->srcDef->outFlo; outFloPtr dst = &ped->outFlo; 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++) { if (IsConstrained(src->format[0].class)) return FALSE; /* must be floats */ /* Since we know its floats, structure copy sufficient */ dst->format[b] = inf->format[b] = src->format[b]; } return(pvt->whiteTec->prepfnc(flo,ped,pvt->whitePoint)); } /*------------------------------------------------------------------------ -- routine: prep routine for RGB to YCbCr and YCC techniques ------------- ------------------------------------------------------------------------*/ Bool PrepPConvertToRGBYCbCr( floDefPtr flo, peDefPtr ped, xieFloConvertToRGB *raw, xieTecYCbCrToRGB *tec) { inFloPtr inf = &ped->inFloLst[SRCtag]; outFloPtr src = &inf->srcDef->outFlo; outFloPtr dst = &ped->outFlo; pTecYCbCrToRGBDefPtr pvt = (pTecYCbCrToRGBDefPtr)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); } /* Set depth, class, stride, and pitch */ if (IsConstrained(dst->format[0].class)) { if (UpdateFormatfromLevels(ped) == FALSE) MatchError(flo,ped, return(FALSE)); } /* else the structure copy was sufficient */ return(TRUE); } Bool PrepPConvertToRGBYCC( floDefPtr flo, peDefPtr ped, xieFloConvertToRGB *raw, xieTecYCCToRGB *tec) { inFloPtr inf = &ped->inFloLst[SRCtag]; outFloPtr src = &inf->srcDef->outFlo; outFloPtr dst = &ped->outFlo; pTecYCCToRGBDefPtr pvt = (pTecYCCToRGBDefPtr)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); } /* Set depth, class, stride, and pitch */ 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: prep routine for White Adjust none technique ------------- ------------------------------------------------------------------------*/ Bool PrepPWhiteAdjustNone( floDefPtr flo, peDefPtr ped, double *pwp) { return(TRUE); } /*------------------------------------------------------------------------ -- routine: prep routine for White Adjust CIELabShift technique ---------- ------------------------------------------------------------------------*/ Bool PrepPWhiteAdjustCIELabShift( floDefPtr flo, peDefPtr ped, double *pwp) { return(TRUE); } /*------------------------------------------------------------------------ ------------ routine: prep routine for gamut techniques ------------------ ------------------------------------------------------------------------*/ Bool PrepPGamut(void) { return(TRUE); } /*------------------------------------------------------------------------ ---------------- routine: prepare for analysis and execution ------------- ------------------------------------------------------------------------*/ static Bool PrepPConvertToRGB(floDefPtr flo, peDefPtr ped) { inFloPtr inf = &ped->inFloLst[SRCtag]; outFloPtr src = &inf->srcDef->outFlo; xieFloConvertToRGB *raw = (xieFloConvertToRGB *)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,xieValConvertToRGB, raw->convert,raw->lenParams, return(FALSE)); return (TRUE); } /*------------------------------------------------------------------------ ---------------------- utility routines for parameters ------------------- ------------------------------------------------------------------------*/ void swap_floats( double *doubles_out, xieTypFloat *funny_floats_in, int cnt) { int m; for (m = 0; m < cnt; m++) doubles_out[m] = ConvertFromIEEE(lswapl(funny_floats_in[m])); } void copy_floats( double *doubles_out, xieTypFloat *funny_floats_in, int cnt) { int m; for (m = 0; m < cnt; m++) doubles_out[m] = ConvertFromIEEE(funny_floats_in[m]); } /* end module pctrgb.c */