--- ray/src/rt/m_direct.c 2003/02/25 02:47:22 2.9 +++ ray/src/rt/m_direct.c 2005/04/19 01:15:06 2.13 @@ -1,5 +1,5 @@ #ifndef lint -static const char RCSid[] = "$Id: m_direct.c,v 2.9 2003/02/25 02:47:22 greg Exp $"; +static const char RCSid[] = "$Id: m_direct.c,v 2.13 2005/04/19 01:15:06 greg Exp $"; #endif /* * Routines for light-redirecting materials and @@ -9,11 +9,9 @@ static const char RCSid[] = "$Id: m_direct.c,v 2.9 200 #include "copyright.h" #include "ray.h" - #include "otypes.h" - +#include "rtotypes.h" #include "source.h" - #include "func.h" /* @@ -30,9 +28,9 @@ static const char RCSid[] = "$Id: m_direct.c,v 2.9 200 * n A1 A2 .. An */ +static int redirect(OBJREC *m, RAY *r, int n); +static int dir_proj(MAT4 pm, OBJREC *o, SRCREC *s, int n); -static int dir_proj(); - VSMATERIAL direct1_vs = {dir_proj, 1}; VSMATERIAL direct2_vs = {dir_proj, 2}; @@ -41,10 +39,11 @@ VSMATERIAL direct2_vs = {dir_proj, 2}; getfunc(m, 8, 0xff, 1) ) -int -m_direct(m, r) /* shade redirected ray */ -register OBJREC *m; -register RAY *r; +extern int +m_direct( /* shade redirected ray */ + register OBJREC *m, + register RAY *r +) { /* check if source ray */ if (r->rsrc >= 0 && source[r->rsrc].so != r->ro) @@ -61,11 +60,12 @@ register RAY *r; } -int -redirect(m, r, n) /* compute n'th ray redirection */ -OBJREC *m; -RAY *r; -int n; +static int +redirect( /* compute n'th ray redirection */ + OBJREC *m, + RAY *r, + int n +) { MFUNC *mf; register EPNODE **va; @@ -100,14 +100,15 @@ int n; errno = 0; va = mf->ep + 4*n; coef = evalue(va[0]); - if (errno) + if ((errno == EDOM) | (errno == ERANGE)) goto computerr; - if (coef <= FTINY || rayorigin(&nr, r, TRANS, coef) < 0) + setcolor(nr.rcoef, coef, coef, coef); + if (rayorigin(&nr, TRANS, r, nr.rcoef) < 0) return(0); va++; /* compute direction */ for (j = 0; j < 3; j++) { nr.rdir[j] = evalue(va[j]); - if (errno) + if (errno == EDOM || errno == ERANGE) goto computerr; } if (mf->f != &unitxf) @@ -120,7 +121,7 @@ int n; if (r->rsrc >= 0) nr.rsrc = source[r->rsrc].sa.sv.sn; rayvalue(&nr); - scalecolor(nr.rcol, coef); + multcolor(nr.rcol, nr.rcoef); addcolor(r->rcol, nr.rcol); if (r->ro != NULL && isflat(r->ro->otype)) r->rt = r->rot + nr.rt; @@ -132,11 +133,12 @@ computerr: static int -dir_proj(pm, o, s, n) /* compute a director's projection */ -MAT4 pm; -OBJREC *o; -SRCREC *s; -int n; +dir_proj( /* compute a director's projection */ + MAT4 pm, + OBJREC *o, + SRCREC *s, + int n +) { RAY tr; OBJREC *m; @@ -165,7 +167,7 @@ int n; if (olddot <= FTINY && olddot >= -FTINY) return(0); /* old dir parallels plane */ tr.rmax = 0.0; - rayorigin(&tr, NULL, PRIMARY, 1.0); + rayorigin(&tr, PRIMARY, NULL, NULL); if (!(*ofun[o->otype].funp)(o, &tr)) return(0); /* no intersection! */ /* compute redirection */ @@ -178,14 +180,14 @@ int n; errno = 0; va = mf->ep + 4*n; coef = evalue(va[0]); - if (errno) + if (errno == EDOM || errno == ERANGE) goto computerr; if (coef <= FTINY) return(0); /* insignificant */ va++; for (i = 0; i < 3; i++) { newdir[i] = evalue(va[i]); - if (errno) + if (errno == EDOM || errno == ERANGE) goto computerr; } if (mf->f != &unitxf) @@ -203,7 +205,7 @@ int n; pm[i][j] += nv[i]*h[j]; pm[3][j] = -od*h[j]; } - if (newdot > 0.0 ^ olddot > 0.0) /* add mirroring */ + if ((newdot > 0.0) ^ (olddot > 0.0)) /* add mirroring */ for (j = 0; j < 3; j++) { for (i = 0; i < 3; i++) pm[i][j] -= 2.*nv[i]*nv[j];