/* $XConsortium: errors.c,v 1.10 94/03/27 13:44:50 rws Exp $ */ /**** module errors.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. 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. 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Title to this software shall at all times remain with AGE Logic, Inc. ***************************************************************************** errors.c -- XIE error tests Syd Logan -- AGE Logic, Inc. *****************************************************************************/ #include #include #include #include "xieperf.h" static XiePhotoElement *flograph; static XiePhotoflo flo; static int flo_elements; static XiePhotospace photospace; static XieRoi XIERoi; static XieLut XIELut; static XiePhotomap XIEPhotomap; static XieColorList clist; extern Bool showErrors; static int errcnt; static char *coreErrTab[] = { "Success", "BadRequest", "BadValue", "BadWindow", "BadPixmap", "BadAtom", "BadCursor", "BadFont", "BadMatch", "BadDrawable", "BadAccess", "BadAlloc", "BadColor", "BadGC", "BadIDChoice", "BadName", "BadLength", "BadImplementation", }; #define MAX_CORE_ERROR 4 static char *errTab[] = { "ColorList", "LUT", "Photoflo", "Photomap", "Photospace", "ROI", }; #define MAX_ERROR 5 static char *floErrTab[] = { "Unassigned ( invalid error )", "FloAccess", "FloAlloc", "FloColormap", "FloColorList", "FloDomain", "FloDrawable", "FloElement", "FloGC", "FloID", "FloLength", "FloLUT", "FloMatch", "FloOperator", "FloPhotomap", "FloROI", "FloSource", "FloTechnique", "FloValue", "FloImplementation" }; #define MAX_FLO_ERROR 19 static void ErrorEventPrintError (display, error, fp) Display *display; XErrorEvent *error; FILE *fp; { XieExtensionInfo *xieExtInfo; XieFloAccessError *flo_error = (XieFloAccessError *) error; int idx; GetExtensionInfo( &xieExtInfo ); if ( xieExtInfo == ( XieExtensionInfo * ) NULL ) { fprintf( stderr, "Couldn't get XIE extension info struct\n" ); return; } if (error->error_code == xieExtInfo->first_error + xieErrNoFlo) { /* flo error */ fprintf (fp, "Flo error: "); if ( flo_error->flo_error_code > MAX_FLO_ERROR ) fprintf( fp, "unknown.\n" ); else fprintf( fp, "%s.\n", floErrTab[ flo_error->flo_error_code ] ); } else if (error->error_code >= xieExtInfo->first_error) { /* other xie error */ idx = error->error_code - xieExtInfo->first_error; if ( idx < 0 || idx > MAX_ERROR ) fprintf( fp, "Error code is out of range\n" ); else fprintf( fp, "%s.\n", errTab[ idx ] ); } else { /* core X error... hopefully */ idx = error->error_code; if ( idx < 0 || idx > MAX_CORE_ERROR ) fprintf( fp, "Error code is out of range\n" ); else fprintf( fp, "%s.\n", coreErrTab[ idx ] ); } } static int XIEErrorHandler( d, ev ) Display *d; XErrorEvent *ev; { if ( showErrors == True ) { fprintf( stderr, "X Error received: major '%d' minor '%d': ", ev->request_code, ev->minor_code ); ErrorEventPrintError( d, ev, stderr ); fflush( stderr ); } errcnt++; return( 0 ); } int InitErrors( xp, p, reps ) XParms xp; Parms p; int reps; { int which; which = ( ( ErrorParms * ) p->ts )->error; XSetErrorHandler( XIEErrorHandler ); errcnt = 0; switch( which ) { case xieErrNoColorList : break; case xieErrNoLUT : break; case xieErrNoPhotoflo : break; case xieErrNoPhotomap : break; case xieErrNoROI : break; case xieErrNoPhotospace : break; default: reps = 0; break; } if ( !reps ) XSetErrorHandler( None ); return( reps ); } int InitCoreErrors( xp, p, reps ) XParms xp; Parms p; int reps; { int which; which = ( ( ErrorParms * ) p->ts )->error; XSetErrorHandler( XIEErrorHandler ); errcnt = 0; switch( which ) { case BadAccess: fprintf( stderr, "XIE currently does not generate BadAccess\n" ); fflush( stderr ); reps = 0; break; case BadAlloc: fprintf( stderr, "Sorry, cannot reliably generate BadAlloc\n" ); fflush( stderr ); reps = 0; break; case BadIDChoice: break; case BadValue: InitBadValue( xp, p, reps ); break; default: reps = 0; break; } if ( !reps ) XSetErrorHandler( None ); return( reps ); } int InitFloAccessError( xp, p, reps ) XParms xp; Parms p; int reps; { Bool merge; XieLTriplet start; flograph = ( XiePhotoElement * ) NULL; flo = ( XiePhotoflo ) NULL; XIELut = ( XieLut ) NULL; flo_elements = 2; flograph = XieAllocatePhotofloGraph(flo_elements); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else { XIELut = XieCreateLUT( xp->d ); XieFloImportLUT(&flograph[0], XIELut ); merge = False; start[ 0 ] = 0; start[ 1 ] = 0; start[ 2 ] = 0; XieFloExportLUT(&flograph[1], 1, /* source phototag number */ XIELut, merge, start ); flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); } if ( !reps ) { FreeErrorWithLUTStuff( xp, p ); } return( reps ); } int InitBadValue( xp, p, reps ) XParms xp; Parms p; int reps; { return( reps ); } int InitFloErrors( xp, p, reps ) XParms xp; Parms p; int reps; { int which; int retval; which = ( ( ErrorParms * ) p->ts )->error; errcnt = 0; photospace = ( XiePhotospace ) NULL; retval = 0; switch( which ) { case xieErrNoFloAccess : retval = InitFloAccessError( xp, p, reps ); break; case xieErrNoFloROI : retval = InitFloROIError( xp, p, reps ); break; case xieErrNoFloDrawable : retval = InitFloDrawableError( xp, p, reps ); break; case xieErrNoFloGC : retval = InitFloGCError( xp, p, reps ); break; case xieErrNoFloElement : retval = InitFloElementError( xp, p, reps ); break; case xieErrNoFloColorList : retval = InitFloColorListError( xp, p, reps ); break; case xieErrNoFloID : retval = InitFloIDError( xp, p, reps ); break; case xieErrNoFloLUT : retval = InitFloLUTError( xp, p, reps ); break; case xieErrNoFloOperator : retval = InitFloOperatorError( xp, p, reps ); break; case xieErrNoFloSource : retval = InitFloSourceError( xp, p, reps ); break; case xieErrNoFloPhotomap : retval = InitFloPhotomapError( xp, p, reps ); break; case xieErrNoFloDomain : retval = InitFloDomainError( xp, p, reps ); break; case xieErrNoFloColormap : retval = InitFloColormapError( xp, p, reps ); break; case xieErrNoFloMatch : retval = InitFloMatchError( xp, p, reps ); break; case xieErrNoFloTechnique : retval = InitFloTechniqueError( xp, p, reps ); break; case xieErrNoFloValue : retval = InitFloValueError( xp, p, reps ); break; case xieErrNoFloLength : fprintf( stderr, "Sorry - cannot reliably test for FloLength errors\n" ); fflush( stderr ); break; case xieErrNoFloAlloc : fprintf( stderr, "Sorry - cannot reliably test for FloAlloc errors\n" ); fflush( stderr ); break; case xieErrNoFloImplementation : fprintf( stderr, "Sorry - cannot reliably test for FloImplementation errors\n" ); fflush( stderr ); break; } if ( retval ) XSetErrorHandler( XIEErrorHandler ); return( retval ); } int InitPhotofloError( xp, p, reps ) XParms xp; Parms p; int reps; { flo = ( XiePhotoflo ) NULL; return( reps ); } int InitFloMatchError( xp, p, reps ) XParms xp; Parms p; int reps; { XieLTriplet levels; flo = ( XiePhotoflo ) NULL; flograph = ( XiePhotoElement * ) NULL; XIEPhotomap = ( XiePhotomap ) NULL; flo_elements = 3; flograph = XieAllocatePhotofloGraph(flo_elements); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else { XIEPhotomap = GetXIEPhotomap( xp, p, 1 ); if ( XIEPhotomap == ( XiePhotomap ) NULL ) reps = 0; } if ( reps ) { XieFloImportPhotomap(&flograph[0], XIEPhotomap, False); levels[ 0 ] = 17; levels[ 1 ] = levels[ 2 ] = levels[ 0 ]; XieFloDither( &flograph[ 1 ], 1, 0x07, levels, xieValDitherDefault, ( char * ) NULL ); XieFloExportDrawable(&flograph[2], 2, xp->w, /* source phototag number */ xp->fggc, 0, /* x offset in window */ 0 /* y offset in window */ ); flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); } if ( !reps ) { FreeErrorWithPhotomapStuff( xp, p ); } return( reps ); } int InitFloTechniqueError( xp, p, reps ) XParms xp; Parms p; int reps; { XieLTriplet levels; flo = ( XiePhotoflo ) NULL; flograph = ( XiePhotoElement * ) NULL; XIEPhotomap = ( XiePhotomap ) NULL; photospace = XieCreatePhotospace(xp->d); flo_elements = 3; flograph = XieAllocatePhotofloGraph(flo_elements); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else { XIEPhotomap = GetXIEPhotomap( xp, p, 1 ); if ( XIEPhotomap == ( XiePhotomap ) NULL ) reps = 0; } if ( reps ) { XieFloImportPhotomap(&flograph[0], XIEPhotomap, False); levels[ 0 ] = ( 1 << xp->vinfo.depth ) >> 1; levels[ 1 ] = levels[ 2 ] = levels[ 0 ]; XieFloDither( &flograph[ 1 ], 1, 0x07, levels, 0xff, ( char * ) NULL ); XieFloExportDrawable(&flograph[2], 2, xp->w, /* source phototag number */ xp->fggc, 0, /* x offset in window */ 0 /* y offset in window */ ); } if ( !reps ) { FreeErrorWithPhotomapStuff( xp, p ); } return( reps ); } int InitFloPhotomapError( xp, p, reps ) XParms xp; Parms p; int reps; { XieEncodeTechnique encode_tech=xieValEncodeServerChoice; char *encode_params=NULL; flo = ( XiePhotoflo ) NULL; flograph = ( XiePhotoElement * ) NULL; XIEPhotomap = ( XiePhotomap ) NULL; flo_elements = 2; flograph = XieAllocatePhotofloGraph(flo_elements); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else { XieFloImportPhotomap(&flograph[0], XIEPhotomap, False); XieFloExportPhotomap(&flograph[1], 1, /* source phototag number */ XIEPhotomap, encode_tech, encode_params ); flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); } if ( !reps ) { FreeFloErrorStuff( xp, p ); } return( reps ); } int InitFloSourceError( xp, p, reps ) XParms xp; Parms p; int reps; { flo = ( XiePhotoflo ) NULL; flograph = ( XiePhotoElement * ) NULL; XIEPhotomap = ( XiePhotomap ) NULL; flo_elements = 2; flograph = XieAllocatePhotofloGraph(flo_elements); photospace = XieCreatePhotospace(xp->d); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else if ( ( XIEPhotomap = GetXIEPhotomap( xp, p, 1 ) ) == ( XiePhotomap ) NULL ) { reps = 0; } else { XieFloImportPhotomap(&flograph[0], XIEPhotomap, False); XieFloExportDrawable(&flograph[1], ~0, /* source phototag number */ xp->w, xp->fggc, 0, /* x offset in window */ 0 /* y offset in window */ ); } if ( !reps ) { FreeErrorWithPhotomapStuff( xp, p ); } return( reps ); } int InitFloElementError( xp, p, reps ) XParms xp; Parms p; int reps; { XieEncodeTechnique encode_tech=xieValEncodeServerChoice; char *encode_params=NULL; flo = ( XiePhotoflo ) NULL; flograph = ( XiePhotoElement * ) NULL; flo_elements = 2; flograph = XieAllocatePhotofloGraph(flo_elements); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else if ( ( XIEPhotomap = GetXIEPhotomap( xp, p, 1 ) ) == ( XiePhotomap ) NULL ) { reps = 0; } else { XieFloImportPhotomap(&flograph[0], XIEPhotomap, False); XieFloExportPhotomap(&flograph[1], 1, /* source phototag number */ XIEPhotomap, encode_tech, encode_params ); flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); } if ( !reps ) { FreeErrorWithPhotomapStuff( xp, p ); } return( reps ); } int InitFloDrawableError( xp, p, reps ) XParms xp; Parms p; int reps; { flo = ( XiePhotoflo ) NULL; flograph = ( XiePhotoElement * ) NULL; XIEPhotomap = ( XiePhotomap ) NULL; flo_elements = 2; flograph = XieAllocatePhotofloGraph(flo_elements); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else if ( ( XIEPhotomap = GetXIEPhotomap( xp, p, 1 ) ) == ( XiePhotomap ) NULL ) { reps = 0; } else { XieFloImportPhotomap(&flograph[0], XIEPhotomap, False); XieFloExportDrawable(&flograph[1], 1, /* source phototag number */ ( Window ) NULL, xp->fggc, 0, 0 ); flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); } if ( !reps ) { FreeErrorWithPhotomapStuff( xp, p ); } return( reps ); } int InitFloColorListError( xp, p, reps ) XParms xp; Parms p; int reps; { XieLTriplet levels; int idx, cclass; int cube; XieColorAllocAllParam *color_param = NULL; XWindowAttributes xwa; #if defined(__cplusplus) || defined(c_plusplus) cclass = xp->vinfo.c_class; #else cclass = xp->vinfo.class; #endif if ( !IsColorVisual( cclass ) ) return( 0 ); cube = icbrt( 1 << xp->vinfo.depth ); levels[ 0 ] = cube; levels[ 1 ] = cube; levels[ 2 ] = cube; clist = ( XieColorList ) NULL; XIEPhotomap = ( XiePhotomap ) NULL; flograph = ( XiePhotoElement * ) NULL; flo = ( XiePhotoflo ) NULL; if ( !( clist = XieCreateColorList( xp->d ) ) ) reps = 0; if ( reps ) { XIEPhotomap = GetXIEDitheredTriplePhotomap( xp, p, 1, xieValDitherDefault, 0, levels ); if ( XIEPhotomap == ( XiePhotomap ) NULL ) reps = 0; } if ( reps ) { InstallDefaultColormap( xp ); flo_elements = 3; flograph = XieAllocatePhotofloGraph( flo_elements ); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } color_param = XieTecColorAllocAll( 123 ); if ( color_param == ( XieColorAllocAllParam * ) NULL ) { fprintf( stderr, "XieTecColorAllocAll failed\n" ); reps = 0; } } if ( reps ) { idx = 0; XieFloImportPhotomap(&flograph[idx],XIEPhotomap,False); idx++; XGetWindowAttributes( xp->d, DefaultRootWindow( xp->d ), &xwa ); XSetWindowColormap( xp->d, xp->w, xwa.colormap ); XSync( xp->d, 0 ); XieFloConvertToIndex(&flograph[idx], idx, xwa.colormap, clist, False, xieValColorAllocAll, (char *)color_param ); idx++; XieFloExportDrawable(&flograph[idx], idx, /* source phototag number */ xp->w, xp->fggc, 0, /* x offset in window */ 0 /* y offset in window */ ); flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); XFree( color_param ); } /* this should cause a FloColorList error */ if ( clist ) { XieDestroyColorList( xp->d, clist ); clist = ( XieColorList ) NULL; } if ( !reps ) { InstallGrayColormap( xp ); FreeErrorWithPhotomapStuff( xp, p ); } return( reps ); } int InitFloColormapError( xp, p, reps ) XParms xp; Parms p; int reps; { XieLTriplet levels; int idx, cclass; int cube; XieColorAllocAllParam *color_param = NULL; #if defined(__cplusplus) || defined(c_plusplus) cclass = xp->vinfo.c_class; #else cclass = xp->vinfo.class; #endif if ( !IsColorVisual( cclass ) ) return( 0 ); cube = icbrt( 1 << xp->vinfo.depth ); levels[ 0 ] = cube; levels[ 1 ] = cube; levels[ 2 ] = cube; clist = ( XieColorList ) NULL; XIEPhotomap = ( XiePhotomap ) NULL; flograph = ( XiePhotoElement * ) NULL; flo = ( XiePhotoflo ) NULL; if ( !( clist = XieCreateColorList( xp->d ) ) ) reps = 0; if ( reps ) { XIEPhotomap = GetXIEDitheredTriplePhotomap( xp, p, 1, xieValDitherDefault, 0, levels ); if ( XIEPhotomap == ( XiePhotomap ) NULL ) reps = 0; } if ( reps ) { flo_elements = 3; flograph = XieAllocatePhotofloGraph( flo_elements ); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } color_param = XieTecColorAllocAll( 123 ); if ( color_param == ( XieColorAllocAllParam * ) NULL ) { fprintf( stderr, "XieTecColorAllocAll failed\n" ); reps = 0; } } if ( reps ) { idx = 0; XieFloImportPhotomap(&flograph[idx],XIEPhotomap,False); idx++; XieFloConvertToIndex(&flograph[idx], idx, ( Colormap ) 0xffffffff, clist, False, xieValColorAllocAll, (char *)color_param ); idx++; XieFloExportDrawable(&flograph[idx], idx, /* source phototag number */ xp->w, xp->fggc, 0, /* x offset in window */ 0 /* y offset in window */ ); flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); XFree( color_param ); } if ( !reps ) { FreeErrorWithPhotomapStuff( xp, p ); } return( reps ); } int InitFloGCError( xp, p, reps ) XParms xp; Parms p; int reps; { static GC myGC; flo = ( XiePhotoflo ) NULL; flograph = ( XiePhotoElement * ) NULL; XIEPhotomap = ( XiePhotomap ) NULL; flo_elements = 2; flograph = XieAllocatePhotofloGraph(flo_elements); myGC = XCreateGC( xp->d, xp->w, 0, 0 ); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else if ( ( XIEPhotomap = GetXIEPhotomap( xp, p, 1 ) ) == ( XiePhotomap ) NULL ) { reps = 0; } else { XieFloImportPhotomap(&flograph[0], XIEPhotomap, False); XieFloExportDrawable(&flograph[1], 1, /* source phototag number */ xp->w, myGC, 0, 0 ); flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); } if ( !reps ) { FreeErrorWithPhotomapStuff( xp, p ); } XFreeGC( xp->d, myGC ); return( reps ); } int InitFloOperatorError( xp, p, reps ) XParms xp; Parms p; int reps; { int idx; XIEimage *image; XieProcessDomain domain; XIEPhotomap = ( XiePhotomap ) NULL; flo = ( XiePhotoflo ) NULL; flograph = ( XiePhotoElement * ) NULL; image = p->finfo.image1; flo_elements = 3; flograph = XieAllocatePhotofloGraph( flo_elements ); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else if ( ( XIEPhotomap = GetXIEPhotomap( xp, p, 1 ) ) == ( XiePhotomap ) NULL ) { reps = 0; } else { idx = 0; XieFloImportPhotomap(&flograph[idx], XIEPhotomap, False ); idx++; domain.offset_x = 0; domain.offset_y = 0; domain.phototag = 0; XieFloMath(&flograph[idx], idx, &domain, ~0, 0x7 ); idx++; XieFloExportDrawable(&flograph[idx], idx, /* source phototag number */ xp->w, xp->fggc, 0, /* x offset in window */ 0 /* y offset in window */ ); idx++; flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); } if ( !reps ) FreeErrorWithPhotomapStuff( xp, p ); return( reps ); } int InitFloDomainError( xp, p, reps ) XParms xp; Parms p; int reps; { int idx; XIEimage *image; XieProcessDomain domain; XIEPhotomap = ( XiePhotomap ) NULL; flo = ( XiePhotoflo ) NULL; flograph = ( XiePhotoElement * ) NULL; image = p->finfo.image1; flo_elements = 3; flograph = XieAllocatePhotofloGraph( flo_elements ); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else if ( ( XIEPhotomap = GetXIEPhotomap( xp, p, 1 ) ) == ( XiePhotomap ) NULL ) { fprintf( stderr, "GetXIEPhotomap failed\n" ); reps = 0; } else { idx = 0; XieFloImportPhotomap(&flograph[idx], XIEPhotomap, False ); idx++; domain.offset_x = 0; domain.offset_y = 0; domain.phototag = 1; XieFloMath(&flograph[idx], idx, &domain, xieValAdd, 0x7 ); idx++; XieFloExportDrawable(&flograph[idx], idx, /* source phototag number */ xp->w, xp->fggc, 0, /* x offset in window */ 0 /* y offset in window */ ); idx++; flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); } if ( !reps ) FreeErrorWithPhotomapStuff( xp, p ); return( reps ); } int InitFloIDError( xp, p, reps ) XParms xp; Parms p; int reps; { flo = ( XiePhotoflo ) NULL; return( reps ); } int InitFloValueError( xp, p, reps ) XParms xp; Parms p; int reps; { char *lut; XieLTriplet start, length; flograph = ( XiePhotoElement * ) NULL; flo = ( XiePhotoflo ) NULL; XIELut = ( XieLut ) NULL; lut = ( char * ) NULL; flo_elements = 2; flograph = XieAllocatePhotofloGraph(flo_elements); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else { lut = ( char * ) malloc( 128 ); length[ 0 ] = 128; length[ 1 ] = 0; length[ 2 ] = 0; start[ 0 ] = 0; start[ 1 ] = 0; start[ 2 ] = 0; if ( ( XIELut = GetXIELut( xp, p, lut, 128, 128 ) ) == ( XieLut ) NULL ) { reps = 0; } else { XieFloImportLUT(&flograph[0], XIELut); XieFloExportClientLUT(&flograph[1], 1, /* source phototag number */ xieValMSFirst, 0xff, start, length ); flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); } } if ( !reps ) { FreeErrorWithLUTStuff( xp, p ); } if ( lut ) free( lut ); return( reps ); } int InitFloROIError( xp, p, reps ) XParms xp; Parms p; int reps; { flograph = ( XiePhotoElement * ) NULL; flo = ( XiePhotoflo ) NULL; XIERoi = ( XieRoi ) NULL; flo_elements = 2; flograph = XieAllocatePhotofloGraph(flo_elements); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else { XieFloImportROI(&flograph[0], XIERoi ); XieFloExportROI(&flograph[1], 1, /* source phototag number */ XIERoi ); flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); } if ( !reps ) { FreeFloErrorStuff( xp, p ); } return( reps ); } int InitFloLUTError( xp, p, reps ) XParms xp; Parms p; int reps; { Bool merge; XieLTriplet start; flograph = ( XiePhotoElement * ) NULL; flo = ( XiePhotoflo ) NULL; flo_elements = 2; flograph = XieAllocatePhotofloGraph(flo_elements); if ( flograph == ( XiePhotoElement * ) NULL ) { fprintf( stderr, "XieAllocatePhotofloGraph failed\n" ); reps = 0; } else { XieFloImportLUT(&flograph[0], ( XieLut ) NULL ); merge = False; start[ 0 ] = 0; start[ 1 ] = 0; start[ 2 ] = 0; XieFloExportLUT(&flograph[1], 1, /* source phototag number */ ( XieLut ) NULL, merge, start ); flo = XieCreatePhotoflo( xp->d, flograph, flo_elements ); } if ( !reps ) { FreeFloErrorStuff( xp, p ); } return( reps ); } void DoBadValueError( xp, p, reps ) XParms xp; Parms p; int reps; { XieTechniqueGroup techGroup; XieTechnique *techVector; int j, i, numTech; techGroup = 0xff; for ( i = 0; i < reps; i++ ) { if ( !XieQueryTechniques( xp->d, techGroup, &numTech, &techVector ) ) { continue; } /* we shouldn't get here, however, clean up if so... */ for ( j = 0; j < numTech; j++ ) { if ( techVector[ j ].name ) XFree( techVector[ j ].name ); } if ( techVector ) { XFree( techVector ); techVector = ( XieTechnique * ) NULL; } } } void DoColorListError( xp, p, reps ) XParms xp; Parms p; int reps; { int i; for (i = 0; i != reps; i++) { XieDestroyColorList( xp->d, ( XieColorList ) NULL ); } } void DoFloErrorImmediate( xp, p, reps ) XParms xp; Parms p; int reps; { int i; int flo_id; flo_id = 1; for (i = 0; i != reps; i++) { XieExecuteImmediate(xp->d, photospace, flo_id, False, flograph, /* photoflo specification */ flo_elements /* number of elements */ ); flo_id++; } } void DoPhotospaceError( xp, p, reps ) XParms xp; Parms p; int reps; { int i; for (i = 0; i != reps; i++) { XieDestroyPhotospace( xp->d, ( XiePhotospace ) NULL ); } } void DoROIError( xp, p, reps ) XParms xp; Parms p; int reps; { int i; for (i = 0; i != reps; i++) { XieDestroyROI( xp->d, ( XieRoi ) NULL ); } } void DoFloElementError( xp, p, reps ) XParms xp; Parms p; int reps; { int i; for (i = 0; i != reps; i++) { XieFloImportLUT(&flograph[1], ( XieLut ) NULL); XieModifyPhotoflo( xp->d, flo, 2, &flograph[1], 1 ); } } void DoLUTError( xp, p, reps ) XParms xp; Parms p; int reps; { int i; for (i = 0; i != reps; i++) { XieDestroyLUT( xp->d, ( XieLut ) NULL ); } } void DoFloIDError( xp, p, reps ) XParms xp; Parms p; int reps; { int i; char data[ 16 ]; for (i = 0; i != reps; i++) { XiePutClientData ( xp->d, 0, /* photospace */ flo, /* flo id */ 1, /* element */ True, /* signal that this is all the data */ 0, /* band_number */ (unsigned char *)data, sizeof( data ) ); } } void DoPhotomapError( xp, p, reps ) XParms xp; Parms p; int reps; { int i; for (i = 0; i != reps; i++) { XieDestroyPhotomap( xp->d, ( XieLut ) NULL ); } } void DoErrors( xp, p, reps ) XParms xp; Parms p; int reps; { int i; for (i = 0; i != reps; i++) { XieExecutePhotoflo( xp->d, flo, False ); } } void EndErrors( xp, p ) XParms xp; Parms p; { int which; XSetErrorHandler( None ); which = ( ( ErrorParms * ) p->ts )->error; fprintf( stderr, "There were %d error events received\n", errcnt ); fflush( stderr ); switch( which ) { case xieErrNoColorList : break; case xieErrNoLUT : break; case xieErrNoPhotoflo : break; case xieErrNoPhotomap : break; case xieErrNoROI : break; case xieErrNoPhotospace : break; } } void EndCoreErrors( xp, p ) XParms xp; Parms p; { int which; XSetErrorHandler( None ); which = ( ( ErrorParms * ) p->ts )->error; fprintf( stderr, "There were %d error events received\n", errcnt ); fflush( stderr ); switch( which ) { case BadAccess: /* not implemented */ break; case BadAlloc: /* not implemented */ break; case BadIDChoice: /* not implemented */ break; case BadValue: /* nothing to do for this test */ break; default: break; } } void EndFloErrors( xp, p ) XParms xp; Parms p; { int which; XSetErrorHandler( None ); which = ( ( ErrorParms * ) p->ts )->error; fprintf( stderr, "There were %d error events received\n", errcnt ); fflush( stderr ); switch( which ) { case xieErrNoFloAccess : FreeErrorWithLUTStuff( xp, p ); break; case xieErrNoFloDrawable : FreeErrorWithPhotomapStuff( xp, p ); break; case xieErrNoFloGC : FreeErrorWithPhotomapStuff( xp, p ); break; case xieErrNoFloElement : FreeErrorWithPhotomapStuff( xp, p ); break; case xieErrNoFloColorList : InstallGrayColormap( xp ); FreeErrorWithPhotomapStuff( xp, p ); break; case xieErrNoFloDomain : FreeErrorWithPhotomapStuff( xp, p ); break; case xieErrNoFloColormap : FreeErrorWithPhotomapStuff( xp, p ); break; case xieErrNoFloID : break; case xieErrNoFloLUT : FreeFloErrorStuff( xp, p ); break; case xieErrNoFloROI : FreeFloErrorStuff( xp, p ); break; case xieErrNoFloOperator : FreeErrorWithPhotomapStuff( xp, p ); break; case xieErrNoFloSource : FreeErrorWithPhotomapStuff( xp, p ); break; case xieErrNoFloPhotomap : FreeFloErrorStuff( xp, p ); break; case xieErrNoFloMatch : FreeErrorWithPhotomapStuff( xp, p ); break; case xieErrNoFloTechnique : FreeErrorWithPhotomapStuff( xp, p ); break; case xieErrNoFloValue : FreeErrorWithLUTStuff( xp, p ); break; default: break; } } int FreeErrorWithPhotomapStuff( xp, p ) XParms xp; Parms p; { if ( photospace ) { XieDestroyPhotospace( xp->d, photospace ); photospace = ( XiePhotospace ) NULL; } if ( flograph ) { XieFreePhotofloGraph(flograph,flo_elements); flograph = ( XiePhotoElement * ) NULL; } if ( flo ) { XieDestroyPhotoflo( xp->d, flo ); flo = ( XiePhotoflo ) NULL; } if ( XIEPhotomap && IsPhotomapInCache( XIEPhotomap ) == False ) { XieDestroyPhotomap( xp->d, XIEPhotomap ); XIEPhotomap = ( XiePhotomap ) NULL; } } int FreeErrorWithROIStuff( xp, p ) XParms xp; Parms p; { if ( photospace ) { XieDestroyPhotospace( xp->d, photospace ); photospace = ( XiePhotospace ) NULL; } if ( flograph ) { XieFreePhotofloGraph(flograph,flo_elements); flograph = ( XiePhotoElement * ) NULL; } if ( flo ) { XieDestroyPhotoflo( xp->d, flo ); flo = ( XiePhotoflo ) NULL; } if ( XIERoi ) { XieDestroyROI( xp->d, XIERoi ); XIERoi = ( XieRoi ) NULL; } } int FreeErrorWithLUTStuff( xp, p ) XParms xp; Parms p; { if ( photospace ) { XieDestroyPhotospace( xp->d, photospace ); photospace = ( XiePhotospace ) NULL; } if ( flograph ) { XieFreePhotofloGraph(flograph,flo_elements); flograph = ( XiePhotoElement * ) NULL; } if ( flo ) { XieDestroyPhotoflo( xp->d, flo ); flo = ( XiePhotoflo ) NULL; } if ( XIELut ) { XieDestroyLUT( xp->d, XIELut ); XIELut = ( XieLut ) NULL; } } int FreeFloErrorStuff( xp, p ) XParms xp; Parms p; { if ( photospace ) { XieDestroyPhotospace( xp->d, photospace ); photospace = ( XiePhotospace ) NULL; } if ( flograph ) { XieFreePhotofloGraph(flograph,flo_elements); flograph = ( XiePhotoElement * ) NULL; } if ( flo ) { XieDestroyPhotoflo( xp->d, flo ); flo = ( XiePhotoflo ) NULL; } }