#ifndef lint static const char RCSid[] = "$Id: ambio.c,v 2.9 2014/06/19 16:26:55 greg Exp $"; #endif /* * Read and write portable ambient values * * Declarations of external symbols in ambient.h */ #include "copyright.h" #include "ray.h" #include "ambient.h" #define badflt(x) ((x) < -FHUGE || (x) > FHUGE) #define badvec(v) (badflt((v)[0]) | badflt((v)[1]) | badflt((v)[2])) void putambmagic(fp) /* write out ambient value magic number */ FILE *fp; { putint(AMBMAGIC, 2, fp); } int hasambmagic(fp) /* read in and check validity of magic # */ FILE *fp; { int magic; magic = getint(2, fp); if (feof(fp)) return(0); return(magic == AMBMAGIC); } #ifndef OLDAMB #define putpos(v,fp) putflt((v)[0],fp);putflt((v)[1],fp);putflt((v)[2],fp) #define getpos(v,fp) (v)[0]=getflt(fp);(v)[1]=getflt(fp);(v)[2]=getflt(fp) #define putv2(v2,fp) putflt((v2)[0],fp);putflt((v2)[1],fp) #define getv2(v2,fp) (v2)[0]=getflt(fp);(v2)[1]=getflt(fp) int writambval( /* write ambient value to stream */ AMBVAL *av, FILE *fp ) { COLR col; putint(av->lvl, 1, fp); putflt(av->weight, fp); putpos(av->pos, fp); putint(av->ndir, sizeof(av->ndir), fp); putint(av->udir, sizeof(av->udir), fp); setcolr(col, colval(av->val,RED), colval(av->val,GRN), colval(av->val,BLU)); fwrite((char *)col, sizeof(col), 1, fp); putv2(av->rad, fp); putv2(av->gpos, fp); putv2(av->gdir, fp); putint(av->corral, sizeof(av->corral), fp); return(ferror(fp) ? -1 : 0); } int ambvalOK( /* check consistency of ambient value */ AMBVAL *av ) { double d; if (badvec(av->pos)) return(0); if (!av->ndir | !av->udir) return(0); if ((av->lvl < 0) | (av->lvl > 100)) return(0); if ((av->weight <= 0.) | (av->weight > 1.)) return(0); if ((av->rad[0] <= 0.) | (av->rad[0] >= FHUGE)) return(0); if ((av->rad[1] <= 0.) | (av->rad[1] >= FHUGE)) return(0); if ((colval(av->val,RED) < 0.) | (colval(av->val,RED) > FHUGE) | (colval(av->val,GRN) < 0.) | (colval(av->val,GRN) > FHUGE) | (colval(av->val,BLU) < 0.) | (colval(av->val,BLU) > FHUGE)) return(0); if (badflt(av->gpos[0]) || badflt(av->gpos[1])) return(0); if (badflt(av->gdir[0]) || badflt(av->gdir[1])) return(0); return(1); } int readambval( /* read ambient value from stream */ AMBVAL *av, FILE *fp ) { COLR col; av->lvl = getint(1, fp); if (feof(fp)) return(0); av->weight = getflt(fp); getpos(av->pos, fp); av->ndir = getint(sizeof(av->ndir), fp); av->udir = getint(sizeof(av->udir), fp); if (fread((char *)col, sizeof(col), 1, fp) != 1) return(0); colr_color(av->val, col); getv2(av->rad, fp); getv2(av->gpos, fp); getv2(av->gdir, fp); av->corral = (uint32)getint(sizeof(av->corral), fp); return(feof(fp) ? 0 : ambvalOK(av)); } #else /* ! NEWAMB */ #define putvec(v,fp) putflt((v)[0],fp);putflt((v)[1],fp);putflt((v)[2],fp) #define getvec(v,fp) (v)[0]=getflt(fp);(v)[1]=getflt(fp);(v)[2]=getflt(fp) int writambval(av, fp) /* write ambient value to stream */ AMBVAL *av; FILE *fp; { COLR col; putint(av->lvl, 1, fp); putflt(av->weight, fp); putvec(av->pos, fp); putvec(av->dir, fp); setcolr(col, colval(av->val,RED), colval(av->val,GRN), colval(av->val,BLU)); fwrite((char *)col, sizeof(col), 1, fp); putflt(av->rad, fp); putvec(av->gpos, fp); putvec(av->gdir, fp); return(ferror(fp) ? -1 : 0); } int ambvalOK(av) /* check consistency of ambient value */ AMBVAL *av; { double d; if (badvec(av->pos)) return(0); if (badvec(av->dir)) return(0); d = DOT(av->dir,av->dir); if (d < 0.9999 || d > 1.0001) return(0); if (av->lvl < 0 || av->lvl > 100) return(0); if (av->weight <= 0. || av->weight > 1.) return(0); if (av->rad <= 0. || av->rad >= FHUGE) return(0); if (colval(av->val,RED) < 0. || colval(av->val,RED) > FHUGE || colval(av->val,GRN) < 0. || colval(av->val,GRN) > FHUGE || colval(av->val,BLU) < 0. || colval(av->val,BLU) > FHUGE) return(0); if (badvec(av->gpos)) return(0); if (badvec(av->gdir)) return(0); return(1); } int readambval(av, fp) /* read ambient value from stream */ AMBVAL *av; FILE *fp; { COLR col; av->lvl = getint(1, fp); if (feof(fp)) return(0); av->weight = getflt(fp); getvec(av->pos, fp); getvec(av->dir, fp); if (fread((char *)col, sizeof(col), 1, fp) != 1) return(0); colr_color(av->val, col); av->rad = getflt(fp); getvec(av->gpos, fp); getvec(av->gdir, fp); return(feof(fp) ? 0 : ambvalOK(av)); } #endif /* ! NEWAMB */