#ifndef lint static const char RCSid[] = "$Id: preload.c,v 2.7 2003/02/25 02:47:23 greg Exp $"; #endif /* * Preload associated object structures to maximize memory sharing. * * External symbols declared in ray.h */ #include "copyright.h" #include "standard.h" #include "octree.h" #include "object.h" #include "otypes.h" #include "face.h" #include "cone.h" #include "instance.h" #include "color.h" #include "data.h" /* KEEP THIS ROUTINE CONSISTENT WITH THE DIFFERENT OBJECT FUNCTIONS! */ int load_os(op) /* load associated data for object */ register OBJREC *op; { DATARRAY *dp; switch (op->otype) { case OBJ_FACE: /* polygon */ getface(op); return(1); case OBJ_CONE: /* cone */ case OBJ_RING: /* disk */ case OBJ_CYLINDER: /* cylinder */ case OBJ_CUP: /* inverted cone */ case OBJ_TUBE: /* inverted cylinder */ getcone(op, 1); return(1); case OBJ_INSTANCE: /* octree instance */ getinstance(op, IO_ALL); return(1); case PAT_CPICT: /* color picture */ if (op->oargs.nsargs < 4) goto sargerr; getpict(op->oargs.sarg[3]); getfunc(op, 4, 0x3<<5, 0); return(1); case PAT_CDATA: /* color data */ dp = getdata(op->oargs.sarg[3]); getdata(op->oargs.sarg[4]); getdata(op->oargs.sarg[5]); getfunc(op, 6, ((1<nd)-1)<<7, 0); return(1); case PAT_BDATA: /* brightness data */ if (op->oargs.nsargs < 2) goto sargerr; dp = getdata(op->oargs.sarg[1]); getfunc(op, 2, ((1<nd)-1)<<3, 0); return(1); case PAT_BFUNC: /* brightness function */ getfunc(op, 1, 0x1, 0); return(1); case PAT_CFUNC: /* color function */ getfunc(op, 3, 0x7, 0); return(1); case TEX_DATA: /* texture data */ if (op->oargs.nsargs < 6) goto sargerr; dp = getdata(op->oargs.sarg[3]); getdata(op->oargs.sarg[4]); getdata(op->oargs.sarg[5]); getfunc(op, 6, ((1<nd)-1)<<7, 1); return(1); case TEX_FUNC: /* texture function */ getfunc(op, 3, 0x7, 1); return(1); case MIX_DATA: /* mixture data */ dp = getdata(op->oargs.sarg[3]); getfunc(op, 4, ((1<nd)-1)<<5, 0); return(1); case MIX_PICT: /* mixture picture */ getpict(op->oargs.sarg[3]); getfunc(op, 4, 0x3<<5, 0); return(1); case MIX_FUNC: /* mixture function */ getfunc(op, 3, 0x4, 0); return(1); case MAT_PLASTIC2: /* anisotropic plastic */ case MAT_METAL2: /* anisotropic metal */ getfunc(op, 3, 0x7, 1); return(1); case MAT_BRTDF: /* BRDTfunc material */ getfunc(op, 9, 0x3f, 0); return(1); case MAT_PDATA: /* plastic BRDF data */ case MAT_MDATA: /* metal BRDF data */ case MAT_TDATA: /* trans BRDF data */ if (op->oargs.nsargs < 2) goto sargerr; getdata(op->oargs.sarg[1]); getfunc(op, 2, 0, 0); return(1); case MAT_PFUNC: /* plastic BRDF func */ case MAT_MFUNC: /* metal BRDF func */ case MAT_TFUNC: /* trans BRDF func */ getfunc(op, 1, 0, 0); return(1); case MAT_DIRECT1: /* prism1 material */ getfunc(op, 4, 0xf, 1); return(1); case MAT_DIRECT2: /* prism2 material */ getfunc(op, 8, 0xff, 1); return(1); } /* nothing to load for the remaining types */ return(0); sargerr: objerror(op, USER, "too few string arguments"); } void preload_objs() /* preload object data structures */ { register OBJECT on; /* note that nobjects may change during loop */ for (on = 0; on < nobjects; on++) load_os(objptr(on)); }