src/rt/rv3.c

#ifndef lint
static const char       RCSid[] = "$Id: rv3.c,v 2.34 2010/10/09 22:38:35 greg Exp $";
#endif
/*
 *  rv3.c - miscellaneous routines for rview.
 *
 *  External symbols declared in rpaint.h
 */

#include "copyright.h"

#include <string.h>

#include  "ray.h"
#include  "rpaint.h"
#include  "random.h"

#ifndef WFLUSH
#define WFLUSH          64              /* flush after this many primary rays */
#endif
#ifndef WFLUSH1
#define WFLUSH1         512             /* or this many total rays */
#endif


#ifdef  SMLFLT
#define  sscanvec(s,v)  (sscanf(s,"%f %f %f",v,v+1,v+2)==3)
#else
#define  sscanvec(s,v)  (sscanf(s,"%lf %lf %lf",v,v+1,v+2)==3)
#endif

static RNUMBER  niflush;                /* flushes since newimage() */

int
getrect(                                /* get a box */
        char  *s,
        RECT  *r
)
{
        int  x0, y0, x1, y1;

        if (*s && !strncmp(s, "all", strlen(s))) {
                r->l = r->d = 0;
                r->r = hresolu;
                r->u = vresolu;
                return(0);
        }
        if (sscanf(s, "%d %d %d %d", &x0, &y0, &x1, &y1) != 4) {
                if (dev->getcur == NULL)
                        return(-1);
                (*dev->comout)("Pick first corner\n");
                if ((*dev->getcur)(&x0, &y0) == ABORT)
                        return(-1);
                (*dev->comout)("Pick second corner\n");
                if ((*dev->getcur)(&x1, &y1) == ABORT)
                        return(-1);
        }
        if (x0 < x1) {
                r->l = x0;
                r->r = x1;
        } else {
                r->l = x1;
                r->r = x0;
        }
        if (y0 < y1) {
                r->d = y0;
                r->u = y1;
        } else {
                r->d = y1;
                r->u = y0;
        }
        if (r->l < 0) r->l = 0;
        if (r->d < 0) r->d = 0;
        if (r->r > hresolu) r->r = hresolu;
        if (r->u > vresolu) r->u = vresolu;
        if (r->l > r->r) r->l = r->r;
        if (r->d > r->u) r->d = r->u;
        return(0);
}


int
getinterest(            /* get area of interest */
        char  *s,
        int  direc,
        FVECT  vec,
        double  *mp
)
{
        int  x, y;
        RAY  thisray;
        int  i;

        if (sscanf(s, "%lf", mp) != 1)
                *mp = 1.0;
        else if (*mp < -FTINY)          /* negative zoom is reduction */
                *mp = -1.0 / *mp;
        else if (*mp <= FTINY) {        /* too small */
                error(COMMAND, "illegal magnification");
                return(-1);
        }
        if (!sscanvec(sskip(s), vec)) {
                if (dev->getcur == NULL)
                        return(-1);
                (*dev->comout)("Pick view center\n");
                if ((*dev->getcur)(&x, &y) == ABORT)
                        return(-1);
                if ((thisray.rmax = viewray(thisray.rorg, thisray.rdir,
                        &ourview, (x+.5)/hresolu, (y+.5)/vresolu)) < -FTINY) {
                        error(COMMAND, "not on image");
                        return(-1);
                }
                if (!direc || ourview.type == VT_PAR) {
                        rayorigin(&thisray, PRIMARY, NULL, NULL);
                        if (!localhit(&thisray, &thescene)) {
                                error(COMMAND, "not a local object");
                                return(-1);
                        }
                }
                if (direc)
                        if (ourview.type == VT_PAR)
                                for (i = 0; i < 3; i++)
                                        vec[i] = thisray.rop[i] - ourview.vp[i];
                        else
                                VCOPY(vec, thisray.rdir);
                else
                        VCOPY(vec, thisray.rop);
        } else if (direc) {
                for (i = 0; i < 3; i++)
                        vec[i] -= ourview.vp[i];
                if (normalize(vec) == 0.0) {
                        error(COMMAND, "point at view origin");
                        return(-1);
                }
        }
        return(0);
}


float *         /* keep consistent with COLOR typedef */
greyof(                         /* convert color to greyscale */
        COLOR  col
)
{
        static COLOR  gcol;
        double  b;

        b = bright(col);
        setcolor(gcol, b, b, b);
        return(gcol);
}

static void
recolor(                                        /* recolor the given node */
        PNODE *p
)
{
        while (p->kid != NULL) {                /* need to propogate down */
                int  mx = (p->xmin + p->xmax) >> 1;
                int  my = (p->ymin + p->ymax) >> 1;
                int  ki;
                if (p->x >= mx)
                        ki = (p->y >= my) ? UR : DR;
                else
                        ki = (p->y >= my) ? UL : DL;
                pcopy(p, p->kid+ki);
                p = p->kid + ki;
        }

        (*dev->paintr)(greyscale?greyof(p->v):p->v,
                        p->xmin, p->ymin, p->xmax, p->ymax);
}

int
paint(                  /* compute and paint a rectangle */
        PNODE  *p
)
{
        static RAY  thisray;
        double  h, v;

        if ((p->xmax <= p->xmin) | (p->ymax <= p->ymin)) {      /* empty */
                p->x = p->xmin;
                p->y = p->ymin;
                setcolor(p->v, 0.0, 0.0, 0.0);
                return(0);
        }
                                                /* jitter ray direction */
        p->x = h = p->xmin + (p->xmax-p->xmin)*frandom();
        p->y = v = p->ymin + (p->ymax-p->ymin)*frandom();
        
        if ((thisray.rmax = viewray(thisray.rorg, thisray.rdir, &ourview,
                        h/hresolu, v/vresolu)) < -FTINY) {
                setcolor(thisray.rcol, 0.0, 0.0, 0.0);
        } else if (nproc == 1) {                /* immediate mode */
                ray_trace(&thisray);
        } else {                                /* queuing mode */
                int     rval;
                rayorigin(&thisray, PRIMARY, NULL, NULL);
                thisray.rno = (RNUMBER)p;
                rval = ray_pqueue(&thisray);
                if (!rval)
                        return(0);
                if (rval < 0)
                        return(-1);
                                                /* get node for returned ray */
                p = (PNODE *)thisray.rno;
        }

        copycolor(p->v, thisray.rcol);
        scalecolor(p->v, exposure);

        recolor(p);                             /* paint it */

        if (dev->flush != NULL) {               /* shall we check for input? */
                static RNUMBER  lastflush = 0;
                RNUMBER         counter = raynum;
                int             flushintvl;
                if (nproc == 1) {
                        counter = nrays;
                        flushintvl = WFLUSH1;
                } else if (ambounce == 0)
                        flushintvl = nproc*WFLUSH;
                else if (niflush < WFLUSH)
                        flushintvl = nproc*niflush/(ambounce+1);
                else
                        flushintvl = nproc*WFLUSH/(ambounce+1);
                if (lastflush > counter)
                        lastflush = 0;          /* counter wrapped */

                if (counter - lastflush >= flushintvl) {
                        lastflush = counter;
                        (*dev->flush)();
                        niflush++;
                }
        }
        return(1);
}


int
waitrays(void)                                  /* finish up pending rays */
{
        int     nwaited = 0;
        int     rval;
        RAY     raydone;

        if (nproc <= 1)                         /* immediate mode? */
                return(0);
        while ((rval = ray_presult(&raydone, 0)) > 0) {
                PNODE  *p = (PNODE *)raydone.rno;
                copycolor(p->v, raydone.rcol);
                scalecolor(p->v, exposure);
                recolor(p);
                nwaited++;
        }
        if (rval < 0)
                return(-1);
        return(nwaited);
}


void
newimage(                                       /* start a new image */
        char *s
)
{
        extern int      ray_pnprocs;
        int             newnp = 0;
                                                /* # rendering procs arg? */
        if (s != NULL)
                sscanf(s, "%d", &newnp);
                                                /* free old image */
        freepkids(&ptrunk);
                                                /* compute resolution */
        hresolu = dev->xsiz;
        vresolu = dev->ysiz;
        normaspect(viewaspect(&ourview), &dev->pixaspect, &hresolu, &vresolu);
        ptrunk.xmin = ptrunk.ymin = pframe.l = pframe.d = 0;
        ptrunk.xmax = pframe.r = hresolu;
        ptrunk.ymax = pframe.u = vresolu;
        pdepth = 0;
                                                /* clear device */
        (*dev->clear)(hresolu, vresolu);

        if (newparam) {                         /* (re)start rendering procs */
                if (ray_pnprocs > 0)
                        ray_pclose(0);
                if (newnp > 0)
                        nproc = newnp;
                if (nproc > 1)
                        ray_popen(nproc);
                newparam = 0;
        } else if ((newnp > 0) & (newnp != nproc)) {
                if (newnp == 1)                 /* change # rendering procs */
                        ray_pclose(0);
                else if (newnp < ray_pnprocs)
                        ray_pclose(ray_pnprocs - newnp);
                else
                        ray_popen(newnp - ray_pnprocs);
                nproc = newnp;
        }
        niflush = 0;                            /* get first value */
        paint(&ptrunk);
}


void
redraw(void)                            /* redraw the image */
{
        (*dev->clear)(hresolu, vresolu);
        (*dev->comout)("redrawing...\n");
        repaint(0, 0, hresolu, vresolu);
        (*dev->comout)("\n");
}


void
repaint(                                /* repaint a region */
        int  xmin,
        int  ymin,
        int  xmax,
        int  ymax
)
{
        RECT  reg;

        reg.l = xmin; reg.r = xmax;
        reg.d = ymin; reg.u = ymax;

        paintrect(&ptrunk, &reg);
}


void
paintrect(                              /* paint picture rectangle */
        PNODE  *p,
        RECT  *r
)
{
        int  mx, my;

        if (p->xmax - p->xmin <= 0 || p->ymax - p->ymin <= 0)
                return;

        if (p->kid == NULL) {
                (*dev->paintr)(greyscale?greyof(p->v):p->v,
                        p->xmin, p->ymin, p->xmax, p->ymax);    /* do this */
                return;
        }
        mx = (p->xmin + p->xmax) >> 1;                          /* do kids */
        my = (p->ymin + p->ymax) >> 1;
        if (mx > r->l) {
                if (my > r->d)
                        paintrect(p->kid+DL, r);
                if (my < r->u)
                        paintrect(p->kid+UL, r);
        }
        if (mx < r->r) {
                if (my > r->d)
                        paintrect(p->kid+DR, r);
                if (my < r->u)
                        paintrect(p->kid+UR, r);
        }
}


PNODE *
findrect(                               /* find a rectangle */
        int  x,
        int  y,
        PNODE  *p,
        int  pd
)
{
        int  mx, my;

        while (p->kid != NULL && pd--) {

                mx = (p->xmin + p->xmax) >> 1;
                my = (p->ymin + p->ymax) >> 1;

                if (x < mx) {
                        if (y < my) {
                                p = p->kid+DL;
                        } else {
                                p = p->kid+UL;
                        }
                } else {
                        if (y < my) {
                                p = p->kid+DR;
                        } else {
                                p = p->kid+UR;
                        }
                }
        }
        return(p);
}


void
compavg(                                /* recompute averages */
        PNODE   *p
)
{
        int     i, navg;
        
        if (p->kid == NULL)
                return;

        setcolor(p->v, .0, .0, .0);
        navg = 0;
        for (i = 0; i < 4; i++) {
                if (p->kid[i].xmin >= p->kid[i].xmax) continue;
                if (p->kid[i].ymin >= p->kid[i].ymax) continue;
                compavg(p->kid+i);
                addcolor(p->v, p->kid[i].v);
                navg++;
        }
        if (navg > 1)
                scalecolor(p->v, 1./navg);
}


void
scalepict(                              /* scale picture values */
        PNODE  *p,
        double  sf
)
{
        scalecolor(p->v, sf);           /* do this node */

        if (p->kid == NULL)
                return;
                                        /* do children */
        scalepict(p->kid+DL, sf);
        scalepict(p->kid+DR, sf);
        scalepict(p->kid+UL, sf);
        scalepict(p->kid+UR, sf);
}


void
getpictcolrs(                           /* get scanline from picture */
        int  yoff,
        COLR  *scan,
        PNODE  *p,
        int  xsiz,
        int  ysiz
)
{
        int  mx;
        int  my;

        if (p->kid == NULL) {                   /* do this node */
                setcolr(scan[0], colval(p->v,RED),
                                colval(p->v,GRN),
                                colval(p->v,BLU));
                for (mx = 1; mx < xsiz; mx++)
                        copycolr(scan[mx], scan[0]);
                return;
        }
                                                /* do kids */
        mx = xsiz >> 1;
        my = ysiz >> 1;
        if (yoff < my) {
                getpictcolrs(yoff, scan, p->kid+DL, mx, my);
                getpictcolrs(yoff, scan+mx, p->kid+DR, xsiz-mx, my);
        } else {
                getpictcolrs(yoff-my, scan, p->kid+UL, mx, ysiz-my);
                getpictcolrs(yoff-my, scan+mx, p->kid+UR, xsiz-mx, ysiz-my);
        }
}


void
freepkids(                              /* free pnode's children */
        PNODE  *p
)
{
        if (p->kid == NULL)
                return;
        freepkids(p->kid+DL);
        freepkids(p->kid+DR);
        freepkids(p->kid+UL);
        freepkids(p->kid+UR);
        free((void *)p->kid);
        p->kid = NULL;
}


void
newview(                                        /* change viewing parameters */
        VIEW  *vp
)
{
        char  *err;

        if ((err = setview(vp)) != NULL) {
                sprintf(errmsg, "view not set - %s", err);
                error(COMMAND, errmsg);
        } else if (memcmp((char *)vp, (char *)&ourview, sizeof(VIEW))) {
                oldview = ourview;
                ourview = *vp;
                newimage(NULL);
        }
}


void
moveview(                                       /* move viewpoint */
        double  angle,
        double  elev,
        double  mag,
        FVECT  vc
)
{
        double  d;
        FVECT  v1;
        VIEW  nv = ourview;
        int  i;

        spinvector(nv.vdir, ourview.vdir, ourview.vup, angle*(PI/180.));
        if (elev != 0.0) {
                fcross(v1, ourview.vup, nv.vdir);
                normalize(v1);
                spinvector(nv.vdir, nv.vdir, v1, elev*(PI/180.));
        }
        if (nv.type == VT_PAR) {
                nv.horiz /= mag;
                nv.vert /= mag;
                d = 0.0;                        /* don't move closer */
                for (i = 0; i < 3; i++)
                        d += (vc[i] - ourview.vp[i])*ourview.vdir[i];
        } else {
                d = sqrt(dist2(ourview.vp, vc)) / mag;
                if (nv.vfore > FTINY) {
                        nv.vfore += d - d*mag;
                        if (nv.vfore < 0.0) nv.vfore = 0.0;
                }
                if (nv.vaft > FTINY) {
                        nv.vaft += d - d*mag;
                        if (nv.vaft <= nv.vfore) nv.vaft = 0.0;
                }
                nv.vdist /= mag;
        }
        for (i = 0; i < 3; i++)
                nv.vp[i] = vc[i] - d*nv.vdir[i];
        newview(&nv);
}


void
pcopy(                                  /* copy paint node p1 into p2 */
        PNODE  *p1,
        PNODE  *p2
)
{
        copycolor(p2->v, p1->v);
        p2->x = p1->x;
        p2->y = p1->y;
}


void
zoomview(                               /* zoom in or out */
        VIEW  *vp,
        double  zf
)
{
        switch (vp->type) {
        case VT_PAR:                            /* parallel view */
                vp->horiz /= zf;
                vp->vert /= zf;
                return;
        case VT_ANG:                            /* angular fisheye */
                vp->horiz /= zf;
                if (vp->horiz > 360.)
                        vp->horiz = 360.;
                vp->vert /= zf;
                if (vp->vert > 360.)
                        vp->vert = 360.;
                return;
        case VT_PLS:                            /* planisphere fisheye */
                vp->horiz = sin((PI/180./2.)*vp->horiz) /
                                (1.0 + cos((PI/180./2.)*vp->horiz)) / zf;
                vp->horiz *= vp->horiz;
                vp->horiz = (2.*180./PI)*acos((1. - vp->horiz) /
                                                (1. + vp->horiz));
                vp->vert = sin((PI/180./2.)*vp->vert) /
                                (1.0 + cos((PI/180./2.)*vp->vert)) / zf;
                vp->vert *= vp->vert;
                vp->vert = (2.*180./PI)*acos((1. - vp->vert) /
                                                (1. + vp->vert));
                return;
        case VT_CYL:                            /* cylindrical panorama */
                vp->horiz /= zf;
                if (vp->horiz > 360.)
                        vp->horiz = 360.;
                vp->vert = atan(tan(vp->vert*(PI/180./2.))/zf) / (PI/180./2.);
                return;
        case VT_PER:                            /* perspective view */
                vp->horiz = atan(tan(vp->horiz*(PI/180./2.))/zf) /
                                (PI/180./2.);
                vp->vert = atan(tan(vp->vert*(PI/180./2.))/zf) /
                                (PI/180./2.);
                return;
        case VT_HEM:                            /* hemispherical fisheye */
                vp->horiz = sin(vp->horiz*(PI/180./2.))/zf;
                if (vp->horiz >= 1.0-FTINY)
                        vp->horiz = 180.;
                else
                        vp->horiz = asin(vp->horiz) / (PI/180./2.);
                vp->vert = sin(vp->vert*(PI/180./2.))/zf;
                if (vp->vert >= 1.0-FTINY)
                        vp->vert = 180.;
                else
                        vp->vert = asin(vp->vert) / (PI/180./2.);
                return;
        }
}
Revision:	2.35
Committed:	Sat Oct 16 15:08:14 2010 UTC (13 years, 6 months ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad4R1
Changes since 2.34:	+15 -15 lines
Log Message:	Simplified process handling logic in newimage()
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: rv3.c,v 2.34 2010/10/09 22:38:35 greg Exp $";
3	#endif
4	/*
5	* rv3.c - miscellaneous routines for rview.
6	*
7	* External symbols declared in rpaint.h
8	*/
9
10	#include "copyright.h"
11
12	#include <string.h>
13
14	#include "ray.h"
15	#include "rpaint.h"
16	#include "random.h"
17
18	#ifndef WFLUSH
19	#define WFLUSH 64 /* flush after this many primary rays */
20	#endif
21	#ifndef WFLUSH1
22	#define WFLUSH1 512 /* or this many total rays */
23	#endif
24
25
26	#ifdef SMLFLT
27	#define sscanvec(s,v) (sscanf(s,"%f %f %f",v,v+1,v+2)==3)
28	#else
29	#define sscanvec(s,v) (sscanf(s,"%lf %lf %lf",v,v+1,v+2)==3)
30	#endif
31
32	static RNUMBER niflush; /* flushes since newimage() */
33
34	int
35	getrect( /* get a box */
36	char *s,
37	RECT *r
38	)
39	{
40	int x0, y0, x1, y1;
41
42	if (*s && !strncmp(s, "all", strlen(s))) {
43	r->l = r->d = 0;
44	r->r = hresolu;
45	r->u = vresolu;
46	return(0);
47	}
48	if (sscanf(s, "%d %d %d %d", &x0, &y0, &x1, &y1) != 4) {
49	if (dev->getcur == NULL)
50	return(-1);
51	(*dev->comout)("Pick first corner\n");
52	if ((*dev->getcur)(&x0, &y0) == ABORT)
53	return(-1);
54	(*dev->comout)("Pick second corner\n");
55	if ((*dev->getcur)(&x1, &y1) == ABORT)
56	return(-1);
57	}
58	if (x0 < x1) {
59	r->l = x0;
60	r->r = x1;
61	} else {
62	r->l = x1;
63	r->r = x0;
64	}
65	if (y0 < y1) {
66	r->d = y0;
67	r->u = y1;
68	} else {
69	r->d = y1;
70	r->u = y0;
71	}
72	if (r->l < 0) r->l = 0;
73	if (r->d < 0) r->d = 0;
74	if (r->r > hresolu) r->r = hresolu;
75	if (r->u > vresolu) r->u = vresolu;
76	if (r->l > r->r) r->l = r->r;
77	if (r->d > r->u) r->d = r->u;
78	return(0);
79	}
80
81
82	int
83	getinterest( /* get area of interest */
84	char *s,
85	int direc,
86	FVECT vec,
87	double *mp
88	)
89	{
90	int x, y;
91	RAY thisray;
92	int i;
93
94	if (sscanf(s, "%lf", mp) != 1)
95	*mp = 1.0;
96	else if (mp < -FTINY) / negative zoom is reduction */
97	mp = -1.0 / mp;
98	else if (mp <= FTINY) { / too small */
99	error(COMMAND, "illegal magnification");
100	return(-1);
101	}
102	if (!sscanvec(sskip(s), vec)) {
103	if (dev->getcur == NULL)
104	return(-1);
105	(*dev->comout)("Pick view center\n");
106	if ((*dev->getcur)(&x, &y) == ABORT)
107	return(-1);
108	if ((thisray.rmax = viewray(thisray.rorg, thisray.rdir,
109	&ourview, (x+.5)/hresolu, (y+.5)/vresolu)) < -FTINY) {
110	error(COMMAND, "not on image");
111	return(-1);
112	}
113	if (!direc \|\| ourview.type == VT_PAR) {
114	rayorigin(&thisray, PRIMARY, NULL, NULL);
115	if (!localhit(&thisray, &thescene)) {
116	error(COMMAND, "not a local object");
117	return(-1);
118	}
119	}
120	if (direc)
121	if (ourview.type == VT_PAR)
122	for (i = 0; i < 3; i++)
123	vec[i] = thisray.rop[i] - ourview.vp[i];
124	else
125	VCOPY(vec, thisray.rdir);
126	else
127	VCOPY(vec, thisray.rop);
128	} else if (direc) {
129	for (i = 0; i < 3; i++)
130	vec[i] -= ourview.vp[i];
131	if (normalize(vec) == 0.0) {
132	error(COMMAND, "point at view origin");
133	return(-1);
134	}
135	}
136	return(0);
137	}
138
139
140	float * /* keep consistent with COLOR typedef */
141	greyof( /* convert color to greyscale */
142	COLOR col
143	)
144	{
145	static COLOR gcol;
146	double b;
147
148	b = bright(col);
149	setcolor(gcol, b, b, b);
150	return(gcol);
151	}
152
153	static void
154	recolor( /* recolor the given node */
155	PNODE *p
156	)
157	{
158	while (p->kid != NULL) { /* need to propogate down */
159	int mx = (p->xmin + p->xmax) >> 1;
160	int my = (p->ymin + p->ymax) >> 1;
161	int ki;
162	if (p->x >= mx)
163	ki = (p->y >= my) ? UR : DR;
164	else
165	ki = (p->y >= my) ? UL : DL;
166	pcopy(p, p->kid+ki);
167	p = p->kid + ki;
168	}
169
170	(*dev->paintr)(greyscale?greyof(p->v):p->v,
171	p->xmin, p->ymin, p->xmax, p->ymax);
172	}
173
174	int
175	paint( /* compute and paint a rectangle */
176	PNODE *p
177	)
178	{
179	static RAY thisray;
180	double h, v;
181
182	if ((p->xmax <= p->xmin) \| (p->ymax <= p->ymin)) { /* empty */
183	p->x = p->xmin;
184	p->y = p->ymin;
185	setcolor(p->v, 0.0, 0.0, 0.0);
186	return(0);
187	}
188	/* jitter ray direction */
189	p->x = h = p->xmin + (p->xmax-p->xmin)*frandom();
190	p->y = v = p->ymin + (p->ymax-p->ymin)*frandom();
191
192	if ((thisray.rmax = viewray(thisray.rorg, thisray.rdir, &ourview,
193	h/hresolu, v/vresolu)) < -FTINY) {
194	setcolor(thisray.rcol, 0.0, 0.0, 0.0);
195	} else if (nproc == 1) { /* immediate mode */
196	ray_trace(&thisray);
197	} else { /* queuing mode */
198	int rval;
199	rayorigin(&thisray, PRIMARY, NULL, NULL);
200	thisray.rno = (RNUMBER)p;
201	rval = ray_pqueue(&thisray);
202	if (!rval)
203	return(0);
204	if (rval < 0)
205	return(-1);
206	/* get node for returned ray */
207	p = (PNODE *)thisray.rno;
208	}
209
210	copycolor(p->v, thisray.rcol);
211	scalecolor(p->v, exposure);
212
213	recolor(p); /* paint it */
214
215	if (dev->flush != NULL) { /* shall we check for input? */
216	static RNUMBER lastflush = 0;
217	RNUMBER counter = raynum;
218	int flushintvl;
219	if (nproc == 1) {
220	counter = nrays;
221	flushintvl = WFLUSH1;
222	} else if (ambounce == 0)
223	flushintvl = nproc*WFLUSH;
224	else if (niflush < WFLUSH)
225	flushintvl = nproc*niflush/(ambounce+1);
226	else
227	flushintvl = nproc*WFLUSH/(ambounce+1);
228	if (lastflush > counter)
229	lastflush = 0; /* counter wrapped */
230
231	if (counter - lastflush >= flushintvl) {
232	lastflush = counter;
233	(*dev->flush)();
234	niflush++;
235	}
236	}
237	return(1);
238	}
239
240
241	int
242	waitrays(void) /* finish up pending rays */
243	{
244	int nwaited = 0;
245	int rval;
246	RAY raydone;
247
248	if (nproc <= 1) /* immediate mode? */
249	return(0);
250	while ((rval = ray_presult(&raydone, 0)) > 0) {
251	PNODE p = (PNODE )raydone.rno;
252	copycolor(p->v, raydone.rcol);
253	scalecolor(p->v, exposure);
254	recolor(p);
255	nwaited++;
256	}
257	if (rval < 0)
258	return(-1);
259	return(nwaited);
260	}
261
262
263	void
264	newimage( /* start a new image */
265	char *s
266	)
267	{
268	extern int ray_pnprocs;
269	int newnp = 0;
270	/* # rendering procs arg? */
271	if (s != NULL)
272	sscanf(s, "%d", &newnp);
273	/* free old image */
274	freepkids(&ptrunk);
275	/* compute resolution */
276	hresolu = dev->xsiz;
277	vresolu = dev->ysiz;
278	normaspect(viewaspect(&ourview), &dev->pixaspect, &hresolu, &vresolu);
279	ptrunk.xmin = ptrunk.ymin = pframe.l = pframe.d = 0;
280	ptrunk.xmax = pframe.r = hresolu;
281	ptrunk.ymax = pframe.u = vresolu;
282	pdepth = 0;
283	/* clear device */
284	(*dev->clear)(hresolu, vresolu);
285
286	if (newparam) { /* (re)start rendering procs */
287	if (ray_pnprocs > 0)
288	ray_pclose(0);
289	if (newnp > 0)
290	nproc = newnp;
291	if (nproc > 1)
292	ray_popen(nproc);
293	newparam = 0;
294	} else if ((newnp > 0) & (newnp != nproc)) {
295	if (newnp == 1) /* change # rendering procs */
296	ray_pclose(0);
297	else if (newnp < ray_pnprocs)
298	ray_pclose(ray_pnprocs - newnp);
299	else
300	ray_popen(newnp - ray_pnprocs);
301	nproc = newnp;
302	}
303	niflush = 0; /* get first value */
304	paint(&ptrunk);
305	}
306
307
308	void
309	redraw(void) /* redraw the image */
310	{
311	(*dev->clear)(hresolu, vresolu);
312	(*dev->comout)("redrawing...\n");
313	repaint(0, 0, hresolu, vresolu);
314	(*dev->comout)("\n");
315	}
316
317
318	void
319	repaint( /* repaint a region */
320	int xmin,
321	int ymin,
322	int xmax,
323	int ymax
324	)
325	{
326	RECT reg;
327
328	reg.l = xmin; reg.r = xmax;
329	reg.d = ymin; reg.u = ymax;
330
331	paintrect(&ptrunk, &reg);
332	}
333
334
335	void
336	paintrect( /* paint picture rectangle */
337	PNODE *p,
338	RECT *r
339	)
340	{
341	int mx, my;
342
343	if (p->xmax - p->xmin <= 0 \|\| p->ymax - p->ymin <= 0)
344	return;
345
346	if (p->kid == NULL) {
347	(*dev->paintr)(greyscale?greyof(p->v):p->v,
348	p->xmin, p->ymin, p->xmax, p->ymax); /* do this */
349	return;
350	}
351	mx = (p->xmin + p->xmax) >> 1; /* do kids */
352	my = (p->ymin + p->ymax) >> 1;
353	if (mx > r->l) {
354	if (my > r->d)
355	paintrect(p->kid+DL, r);
356	if (my < r->u)
357	paintrect(p->kid+UL, r);
358	}
359	if (mx < r->r) {
360	if (my > r->d)
361	paintrect(p->kid+DR, r);
362	if (my < r->u)
363	paintrect(p->kid+UR, r);
364	}
365	}
366
367
368	PNODE *
369	findrect( /* find a rectangle */
370	int x,
371	int y,
372	PNODE *p,
373	int pd
374	)
375	{
376	int mx, my;
377
378	while (p->kid != NULL && pd--) {
379
380	mx = (p->xmin + p->xmax) >> 1;
381	my = (p->ymin + p->ymax) >> 1;
382
383	if (x < mx) {
384	if (y < my) {
385	p = p->kid+DL;
386	} else {
387	p = p->kid+UL;
388	}
389	} else {
390	if (y < my) {
391	p = p->kid+DR;
392	} else {
393	p = p->kid+UR;
394	}
395	}
396	}
397	return(p);
398	}
399
400
401	void
402	compavg( /* recompute averages */
403	PNODE *p
404	)
405	{
406	int i, navg;
407
408	if (p->kid == NULL)
409	return;
410
411	setcolor(p->v, .0, .0, .0);
412	navg = 0;
413	for (i = 0; i < 4; i++) {
414	if (p->kid[i].xmin >= p->kid[i].xmax) continue;
415	if (p->kid[i].ymin >= p->kid[i].ymax) continue;
416	compavg(p->kid+i);
417	addcolor(p->v, p->kid[i].v);
418	navg++;
419	}
420	if (navg > 1)
421	scalecolor(p->v, 1./navg);
422	}
423
424
425	void
426	scalepict( /* scale picture values */
427	PNODE *p,
428	double sf
429	)
430	{
431	scalecolor(p->v, sf); /* do this node */
432
433	if (p->kid == NULL)
434	return;
435	/* do children */
436	scalepict(p->kid+DL, sf);
437	scalepict(p->kid+DR, sf);
438	scalepict(p->kid+UL, sf);
439	scalepict(p->kid+UR, sf);
440	}
441
442
443	void
444	getpictcolrs( /* get scanline from picture */
445	int yoff,
446	COLR *scan,
447	PNODE *p,
448	int xsiz,
449	int ysiz
450	)
451	{
452	int mx;
453	int my;
454
455	if (p->kid == NULL) { /* do this node */
456	setcolr(scan[0], colval(p->v,RED),
457	colval(p->v,GRN),
458	colval(p->v,BLU));
459	for (mx = 1; mx < xsiz; mx++)
460	copycolr(scan[mx], scan[0]);
461	return;
462	}
463	/* do kids */
464	mx = xsiz >> 1;
465	my = ysiz >> 1;
466	if (yoff < my) {
467	getpictcolrs(yoff, scan, p->kid+DL, mx, my);
468	getpictcolrs(yoff, scan+mx, p->kid+DR, xsiz-mx, my);
469	} else {
470	getpictcolrs(yoff-my, scan, p->kid+UL, mx, ysiz-my);
471	getpictcolrs(yoff-my, scan+mx, p->kid+UR, xsiz-mx, ysiz-my);
472	}
473	}
474
475
476	void
477	freepkids( /* free pnode's children */
478	PNODE *p
479	)
480	{
481	if (p->kid == NULL)
482	return;
483	freepkids(p->kid+DL);
484	freepkids(p->kid+DR);
485	freepkids(p->kid+UL);
486	freepkids(p->kid+UR);
487	free((void *)p->kid);
488	p->kid = NULL;
489	}
490
491
492	void
493	newview( /* change viewing parameters */
494	VIEW *vp
495	)
496	{
497	char *err;
498
499	if ((err = setview(vp)) != NULL) {
500	sprintf(errmsg, "view not set - %s", err);
501	error(COMMAND, errmsg);
502	} else if (memcmp((char )vp, (char )&ourview, sizeof(VIEW))) {
503	oldview = ourview;
504	ourview = *vp;
505	newimage(NULL);
506	}
507	}
508
509
510	void
511	moveview( /* move viewpoint */
512	double angle,
513	double elev,
514	double mag,
515	FVECT vc
516	)
517	{
518	double d;
519	FVECT v1;
520	VIEW nv = ourview;
521	int i;
522
523	spinvector(nv.vdir, ourview.vdir, ourview.vup, angle*(PI/180.));
524	if (elev != 0.0) {
525	fcross(v1, ourview.vup, nv.vdir);
526	normalize(v1);
527	spinvector(nv.vdir, nv.vdir, v1, elev*(PI/180.));
528	}
529	if (nv.type == VT_PAR) {
530	nv.horiz /= mag;
531	nv.vert /= mag;
532	d = 0.0; /* don't move closer */
533	for (i = 0; i < 3; i++)
534	d += (vc[i] - ourview.vp[i])*ourview.vdir[i];
535	} else {
536	d = sqrt(dist2(ourview.vp, vc)) / mag;
537	if (nv.vfore > FTINY) {
538	nv.vfore += d - d*mag;
539	if (nv.vfore < 0.0) nv.vfore = 0.0;
540	}
541	if (nv.vaft > FTINY) {
542	nv.vaft += d - d*mag;
543	if (nv.vaft <= nv.vfore) nv.vaft = 0.0;
544	}
545	nv.vdist /= mag;
546	}
547	for (i = 0; i < 3; i++)
548	nv.vp[i] = vc[i] - d*nv.vdir[i];
549	newview(&nv);
550	}
551
552
553	void
554	pcopy( /* copy paint node p1 into p2 */
555	PNODE *p1,
556	PNODE *p2
557	)
558	{
559	copycolor(p2->v, p1->v);
560	p2->x = p1->x;
561	p2->y = p1->y;
562	}
563
564
565	void
566	zoomview( /* zoom in or out */
567	VIEW *vp,
568	double zf
569	)
570	{
571	switch (vp->type) {
572	case VT_PAR: /* parallel view */
573	vp->horiz /= zf;
574	vp->vert /= zf;
575	return;
576	case VT_ANG: /* angular fisheye */
577	vp->horiz /= zf;
578	if (vp->horiz > 360.)
579	vp->horiz = 360.;
580	vp->vert /= zf;
581	if (vp->vert > 360.)
582	vp->vert = 360.;
583	return;
584	case VT_PLS: /* planisphere fisheye */
585	vp->horiz = sin((PI/180./2.)*vp->horiz) /
586	(1.0 + cos((PI/180./2.)*vp->horiz)) / zf;
587	vp->horiz *= vp->horiz;
588	vp->horiz = (2.180./PI)acos((1. - vp->horiz) /
589	(1. + vp->horiz));
590	vp->vert = sin((PI/180./2.)*vp->vert) /
591	(1.0 + cos((PI/180./2.)*vp->vert)) / zf;
592	vp->vert *= vp->vert;
593	vp->vert = (2.180./PI)acos((1. - vp->vert) /
594	(1. + vp->vert));
595	return;
596	case VT_CYL: /* cylindrical panorama */
597	vp->horiz /= zf;
598	if (vp->horiz > 360.)
599	vp->horiz = 360.;
600	vp->vert = atan(tan(vp->vert*(PI/180./2.))/zf) / (PI/180./2.);
601	return;
602	case VT_PER: /* perspective view */
603	vp->horiz = atan(tan(vp->horiz*(PI/180./2.))/zf) /
604	(PI/180./2.);
605	vp->vert = atan(tan(vp->vert*(PI/180./2.))/zf) /
606	(PI/180./2.);
607	return;
608	case VT_HEM: /* hemispherical fisheye */
609	vp->horiz = sin(vp->horiz*(PI/180./2.))/zf;
610	if (vp->horiz >= 1.0-FTINY)
611	vp->horiz = 180.;
612	else
613	vp->horiz = asin(vp->horiz) / (PI/180./2.);
614	vp->vert = sin(vp->vert*(PI/180./2.))/zf;
615	if (vp->vert >= 1.0-FTINY)
616	vp->vert = 180.;
617	else
618	vp->vert = asin(vp->vert) / (PI/180./2.);
619	return;
620	}
621	}