src/rt/rpict.c

/* Copyright (c) 1991 Regents of the University of California */

#ifndef lint
static char SCCSid[] = "$SunId$ LBL";
#endif

/*
 *  rpict.c - routines and variables for picture generation.
 *
 *     8/14/85
 */

#include  "ray.h"

#ifdef BSD
#include  <sys/time.h>
#include  <sys/resource.h>
#else
#include  <signal.h>
#endif
#include  <fcntl.h>

#include  "view.h"

#include  "random.h"

int  dimlist[MAXDIM];                   /* sampling dimensions */
int  ndims = 0;                         /* number of sampling dimensions */
int  samplendx;                         /* sample index number */

VIEW  ourview = STDVIEW;                /* view parameters */
int  hresolu = 512;                     /* horizontal resolution */
int  vresolu = 512;                     /* vertical resolution */
double  pixaspect = 1.0;                /* pixel aspect ratio */

int  psample = 4;                       /* pixel sample size */
double  maxdiff = .05;                  /* max. difference for interpolation */
double  dstrpix = 0.67;                 /* square pixel distribution */

double  dstrsrc = 0.0;                  /* square source distribution */
double  shadthresh = .05;               /* shadow threshold */
double  shadcert = .5;                  /* shadow certainty */
int  directrelay = 0;                   /* number of source relays */
int  vspretest = 512;                   /* virtual source pretest density */
int  directinvis = 0;                   /* sources invisible? */

int  maxdepth = 6;                      /* maximum recursion depth */
double  minweight = 5e-3;               /* minimum ray weight */

COLOR  ambval = BLKCOLOR;               /* ambient value */
double  ambacc = 0.2;                   /* ambient accuracy */
int  ambres = 32;                       /* ambient resolution */
int  ambdiv = 128;                      /* ambient divisions */
int  ambssamp = 0;                      /* ambient super-samples */
int  ambounce = 0;                      /* ambient bounces */
char  *amblist[128];                    /* ambient include/exclude list */
int  ambincl = -1;                      /* include == 1, exclude == 0 */

int  ralrm = 0;                         /* seconds between reports */

double  pctdone = 0.0;                  /* percentage done */

long  tlastrept = 0L;                   /* time at last report */

extern long  time();
extern long  tstart;                    /* starting time */

extern long  nrays;                     /* number of rays traced */

#define  MAXDIV         15              /* maximum sample size */

#define  pixjitter()    (.5+dstrpix*(.5-frandom()))

double  pixvalue();


quit(code)                      /* quit program */
int  code;
{
        if (code || ralrm > 0)          /* report status */
                report();

        exit(code);
}


#ifdef BSD
report()                /* report progress */
{
        struct rusage  rubuf;
        double  t;

        getrusage(RUSAGE_SELF, &rubuf);
        t = (rubuf.ru_utime.tv_usec + rubuf.ru_stime.tv_usec) / 1e6;
        t += rubuf.ru_utime.tv_sec + rubuf.ru_stime.tv_sec;
        getrusage(RUSAGE_CHILDREN, &rubuf);
        t += (rubuf.ru_utime.tv_usec + rubuf.ru_stime.tv_usec) / 1e6;
        t += rubuf.ru_utime.tv_sec + rubuf.ru_stime.tv_sec;

        sprintf(errmsg, "%ld rays, %4.2f%% done after %5.4f CPU hours\n",
                        nrays, pctdone, t/3600.0);
        eputs(errmsg);
        tlastrept = time((long *)0);
}
#else
report()                /* report progress */
{
        signal(SIGALRM, report);
        tlastrept = time((long *)0);
        sprintf(errmsg, "%ld rays, %4.2f%% done after %5.4f hours\n",
                        nrays, pctdone, (tlastrept-tstart)/3600.0);
        eputs(errmsg);
}
#endif


render(zfile, oldfile)                          /* render the scene */
char  *zfile, *oldfile;
{
        extern long  lseek();
        COLOR  *scanbar[MAXDIV+1];      /* scanline arrays of pixel values */
        float  *zbar[MAXDIV+1];         /* z values */
        int  ypos;                      /* current scanline */
        int  ystep;                     /* current y step size */
        int  zfd;
        COLOR  *colptr;
        float  *zptr;
        register int  i;
                                        /* check sampling */
        if (psample < 1)
                psample = 1;
        else if (psample > MAXDIV) {
                sprintf(errmsg, "pixel sampling reduced from %d to %d",
                                psample, MAXDIV);
                error(WARNING, errmsg);
                psample = MAXDIV;
        }
                                        /* allocate scanlines */
        for (i = 0; i <= psample; i++) {
                scanbar[i] = (COLOR *)malloc(hresolu*sizeof(COLOR));
                if (scanbar[i] == NULL)
                        goto memerr;
        }
                                        /* open z file */
        if (zfile != NULL) {
                if ((zfd = open(zfile, O_WRONLY|O_CREAT, 0666)) == -1) {
                        sprintf(errmsg, "cannot open z file \"%s\"", zfile);
                        error(SYSTEM, errmsg);
                }
                for (i = 0; i <= psample; i++) {
                        zbar[i] = (float *)malloc(hresolu*sizeof(float));
                        if (zbar[i] == NULL)
                                goto memerr;
                }
        } else {
                zfd = -1;
                for (i = 0; i <= psample; i++)
                        zbar[i] = NULL;
        }
                                        /* write out boundaries */
        fputresolu(YMAJOR|YDECR, hresolu, vresolu, stdout);
                                        /* recover file and compute first */
        i = salvage(oldfile);
        if (zfd != -1 && i > 0 &&
                        lseek(zfd, (long)i*hresolu*sizeof(float), 0) == -1)
                error(SYSTEM, "z file seek error in render");
        pctdone = 100.0*i/vresolu;
        if (ralrm > 0)                  /* report init stats */
                report();
#ifndef  BSD
        else
#endif
        signal(SIGALRM, report);
        ypos = vresolu-1 - i;
        fillscanline(scanbar[0], zbar[0], hresolu, ypos, psample);
        ystep = psample;
                                                /* compute scanlines */
        for (ypos -= ystep; ypos > -ystep; ypos -= ystep) {
                                                        /* bottom adjust? */
                if (ypos < 0) {
                        ystep += ypos;
                        ypos = 0;
                }
                colptr = scanbar[ystep];                /* move base to top */
                scanbar[ystep] = scanbar[0];
                scanbar[0] = colptr;
                zptr = zbar[ystep];
                zbar[ystep] = zbar[0];
                zbar[0] = zptr;
                                                        /* fill base line */
                fillscanline(scanbar[0], zbar[0], hresolu, ypos, psample);
                                                        /* fill bar */
                fillscanbar(scanbar, zbar, hresolu, ypos, ystep);
                                                        /* write it out */
#ifndef  BSD
                signal(SIGALRM, SIG_IGN);       /* don't interrupt writes */
#endif
                for (i = ystep; i > 0; i--) {
                        if (zfd != -1 && write(zfd, (char *)zbar[i],
                                        hresolu*sizeof(float))
                                        < hresolu*sizeof(float))
                                goto writerr;
                        if (fwritescan(scanbar[i], hresolu, stdout) < 0)
                                goto writerr;
                }
                if (fflush(stdout) == EOF)
                        goto writerr;
                                                        /* record progress */
                pctdone = 100.0*(vresolu-1-ypos)/vresolu;
                if (ralrm > 0 && time((long *)0) >= tlastrept+ralrm)
                        report();
#ifndef  BSD
                else
                        signal(SIGALRM, report);
#endif
        }
                                                /* clean up */
        if (zfd != -1) {
                if (write(zfd, (char *)zbar[0], hresolu*sizeof(float))
                                < hresolu*sizeof(float))
                        goto writerr;
                if (close(zfd) == -1)
                        goto writerr;
                for (i = 0; i <= psample; i++)
                        free((char *)zbar[i]);
        }
        fwritescan(scanbar[0], hresolu, stdout);
        if (fflush(stdout) == EOF)
                goto writerr;
        for (i = 0; i <= psample; i++)
                free((char *)scanbar[i]);
        pctdone = 100.0;
        return;
writerr:
        error(SYSTEM, "write error in render");
memerr:
        error(SYSTEM, "out of memory in render");
}


fillscanline(scanline, zline, xres, y, xstep)   /* fill scan line at y */
register COLOR  *scanline;
register float  *zline;
int  xres, y, xstep;
{
        int  b = xstep;
        double  z;
        register int  i;
        
        z = pixvalue(scanline[0], 0, y);
        if (zline) zline[0] = z;

        for (i = xstep; i < xres-1+xstep; i += xstep) {
                if (i >= xres) {
                        xstep += xres-1-i;
                        i = xres-1;
                }
                z = pixvalue(scanline[i], i, y);
                if (zline) zline[i] = z;
                
                b = fillsample(scanline+i-xstep, zline ? zline+i-xstep : NULL,
                                i-xstep, y, xstep, 0, b/2);
        }
}


fillscanbar(scanbar, zbar, xres, y, ysize)      /* fill interior */
register COLOR  *scanbar[];
register float  *zbar[];
int  xres, y, ysize;
{
        COLOR  vline[MAXDIV+1];
        float  zline[MAXDIV+1];
        int  b = ysize;
        register int  i, j;
        
        for (i = 0; i < xres; i++) {
                
                copycolor(vline[0], scanbar[0][i]);
                copycolor(vline[ysize], scanbar[ysize][i]);
                if (zbar[0]) {
                        zline[0] = zbar[0][i];
                        zline[ysize] = zbar[ysize][i];
                }
                
                b = fillsample(vline, zbar[0] ? zline : NULL,
                                i, y, 0, ysize, b/2);
                
                for (j = 1; j < ysize; j++)
                        copycolor(scanbar[j][i], vline[j]);
                if (zbar[0])
                        for (j = 1; j < ysize; j++)
                                zbar[j][i] = zline[j];
        }
}


int
fillsample(colline, zline, x, y, xlen, ylen, b) /* fill interior points */
register COLOR  *colline;
register float  *zline;
int  x, y;
int  xlen, ylen;
int  b;
{
        extern double  fabs();
        double  ratio;
        double  z;
        COLOR  ctmp;
        int  ncut;
        register int  len;
        
        if (xlen > 0)                   /* x or y length is zero */
                len = xlen;
        else
                len = ylen;
                
        if (len <= 1)                   /* limit recursion */
                return(0);
        
        if (b > 0
        || (zline && 2.*fabs(zline[0]-zline[len]) > maxdiff*(zline[0]+zline[len]))
                        || bigdiff(colline[0], colline[len], maxdiff)) {
        
                z = pixvalue(colline[len>>1], x + (xlen>>1), y + (ylen>>1));
                if (zline) zline[len>>1] = z;
                ncut = 1;
                
        } else {                                        /* interpolate */
        
                copycolor(colline[len>>1], colline[len]);
                ratio = (double)(len>>1) / len;
                scalecolor(colline[len>>1], ratio);
                if (zline) zline[len>>1] = zline[len] * ratio;
                ratio = 1.0 - ratio;
                copycolor(ctmp, colline[0]);
                scalecolor(ctmp, ratio);
                addcolor(colline[len>>1], ctmp);
                if (zline) zline[len>>1] += zline[0] * ratio;
                ncut = 0;
        }
                                                        /* recurse */
        ncut += fillsample(colline, zline, x, y, xlen>>1, ylen>>1, (b-1)/2);
        
        ncut += fillsample(colline+(len>>1), zline ? zline+(len>>1) : NULL,
                        x+(xlen>>1), y+(ylen>>1),
                        xlen-(xlen>>1), ylen-(ylen>>1), b/2);

        return(ncut);
}


double
pixvalue(col, x, y)             /* compute pixel value */
COLOR  col;                     /* returned color */
int  x, y;                      /* pixel position */
{
        static RAY  thisray;

        if (viewray(thisray.rorg, thisray.rdir, &ourview,
                        (x+pixjitter())/hresolu, (y+pixjitter())/vresolu) < 0) {
                setcolor(col, 0.0, 0.0, 0.0);
                return(0.0);
        }

        rayorigin(&thisray, NULL, PRIMARY, 1.0);

        samplendx = pixnumber(x,y,hresolu,vresolu);     /* set pixel index */

        rayvalue(&thisray);                     /* trace ray */

        copycolor(col, thisray.rcol);           /* return color */
        
        return(thisray.rt);                     /* return distance */
}


int
salvage(oldfile)                /* salvage scanlines from killed program */
char  *oldfile;
{
        COLR  *scanline;
        FILE  *fp;
        int  x, y;

        if (oldfile == NULL)
                return(0);
        
        if ((fp = fopen(oldfile, "r")) == NULL) {
                sprintf(errmsg, "cannot open recover file \"%s\"", oldfile);
                error(WARNING, errmsg);
                return(0);
        }
                                /* discard header */
        getheader(fp, NULL);
                                /* get picture size */
        if (fgetresolu(&x, &y, fp) != (YMAJOR|YDECR)) {
                sprintf(errmsg, "bad recover file \"%s\"", oldfile);
                error(WARNING, errmsg);
                fclose(fp);
                return(0);
        }

        if (x != hresolu || y != vresolu) {
                sprintf(errmsg, "resolution mismatch in recover file \"%s\"",
                                oldfile);
                error(USER, errmsg);
        }

        scanline = (COLR *)malloc(hresolu*sizeof(COLR));
        if (scanline == NULL)
                error(SYSTEM, "out of memory in salvage");
        for (y = 0; y < vresolu; y++) {
                if (freadcolrs(scanline, hresolu, fp) < 0)
                        break;
                if (fwritecolrs(scanline, hresolu, stdout) < 0)
                        goto writerr;
        }
        if (fflush(stdout) == EOF)
                goto writerr;
        free((char *)scanline);
        fclose(fp);
        unlink(oldfile);
        return(y);
writerr:
        error(SYSTEM, "write error in salvage");
}


int
pixnumber(x, y, xres, yres)             /* compute pixel index (brushed) */
register int  x, y;
int  xres, yres;
{
        x -= y;
        while (x < 0)
                x += xres;
        return((((x>>2)*yres + y) << 2) + (x & 3));
}
Revision:	1.32
Committed:	Thu Sep 19 13:55:53 1991 UTC (32 years, 7 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 1.31:	+11 -0 lines
Log Message:	improved ALRM signal handling for SYSV
#	Content
1	/* Copyright (c) 1991 Regents of the University of California */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ LBL";
5	#endif
6
7	/*
8	* rpict.c - routines and variables for picture generation.
9	*
10	* 8/14/85
11	*/
12
13	#include "ray.h"
14
15	#ifdef BSD
16	#include <sys/time.h>
17	#include <sys/resource.h>
18	#else
19	#include <signal.h>
20	#endif
21	#include <fcntl.h>
22
23	#include "view.h"
24
25	#include "random.h"
26
27	int dimlist[MAXDIM]; /* sampling dimensions */
28	int ndims = 0; /* number of sampling dimensions */
29	int samplendx; /* sample index number */
30
31	VIEW ourview = STDVIEW; /* view parameters */
32	int hresolu = 512; /* horizontal resolution */
33	int vresolu = 512; /* vertical resolution */
34	double pixaspect = 1.0; /* pixel aspect ratio */
35
36	int psample = 4; /* pixel sample size */
37	double maxdiff = .05; /* max. difference for interpolation */
38	double dstrpix = 0.67; /* square pixel distribution */
39
40	double dstrsrc = 0.0; /* square source distribution */
41	double shadthresh = .05; /* shadow threshold */
42	double shadcert = .5; /* shadow certainty */
43	int directrelay = 0; /* number of source relays */
44	int vspretest = 512; /* virtual source pretest density */
45	int directinvis = 0; /* sources invisible? */
46
47	int maxdepth = 6; /* maximum recursion depth */
48	double minweight = 5e-3; /* minimum ray weight */
49
50	COLOR ambval = BLKCOLOR; /* ambient value */
51	double ambacc = 0.2; /* ambient accuracy */
52	int ambres = 32; /* ambient resolution */
53	int ambdiv = 128; /* ambient divisions */
54	int ambssamp = 0; /* ambient super-samples */
55	int ambounce = 0; /* ambient bounces */
56	char amblist[128]; / ambient include/exclude list */
57	int ambincl = -1; /* include == 1, exclude == 0 */
58
59	int ralrm = 0; /* seconds between reports */
60
61	double pctdone = 0.0; /* percentage done */
62
63	long tlastrept = 0L; /* time at last report */
64
65	extern long time();
66	extern long tstart; /* starting time */
67
68	extern long nrays; /* number of rays traced */
69
70	#define MAXDIV 15 /* maximum sample size */
71
72	#define pixjitter() (.5+dstrpix*(.5-frandom()))
73
74	double pixvalue();
75
76
77	quit(code) /* quit program */
78	int code;
79	{
80	if (code \|\| ralrm > 0) /* report status */
81	report();
82
83	exit(code);
84	}
85
86
87	#ifdef BSD
88	report() /* report progress */
89	{
90	struct rusage rubuf;
91	double t;
92
93	getrusage(RUSAGE_SELF, &rubuf);
94	t = (rubuf.ru_utime.tv_usec + rubuf.ru_stime.tv_usec) / 1e6;
95	t += rubuf.ru_utime.tv_sec + rubuf.ru_stime.tv_sec;
96	getrusage(RUSAGE_CHILDREN, &rubuf);
97	t += (rubuf.ru_utime.tv_usec + rubuf.ru_stime.tv_usec) / 1e6;
98	t += rubuf.ru_utime.tv_sec + rubuf.ru_stime.tv_sec;
99
100	sprintf(errmsg, "%ld rays, %4.2f%% done after %5.4f CPU hours\n",
101	nrays, pctdone, t/3600.0);
102	eputs(errmsg);
103	tlastrept = time((long *)0);
104	}
105	#else
106	report() /* report progress */
107	{
108	signal(SIGALRM, report);
109	tlastrept = time((long *)0);
110	sprintf(errmsg, "%ld rays, %4.2f%% done after %5.4f hours\n",
111	nrays, pctdone, (tlastrept-tstart)/3600.0);
112	eputs(errmsg);
113	}
114	#endif
115
116
117	render(zfile, oldfile) /* render the scene */
118	char zfile, oldfile;
119	{
120	extern long lseek();
121	COLOR scanbar[MAXDIV+1]; / scanline arrays of pixel values */
122	float zbar[MAXDIV+1]; / z values */
123	int ypos; /* current scanline */
124	int ystep; /* current y step size */
125	int zfd;
126	COLOR *colptr;
127	float *zptr;
128	register int i;
129	/* check sampling */
130	if (psample < 1)
131	psample = 1;
132	else if (psample > MAXDIV) {
133	sprintf(errmsg, "pixel sampling reduced from %d to %d",
134	psample, MAXDIV);
135	error(WARNING, errmsg);
136	psample = MAXDIV;
137	}
138	/* allocate scanlines */
139	for (i = 0; i <= psample; i++) {
140	scanbar[i] = (COLOR )malloc(hresolusizeof(COLOR));
141	if (scanbar[i] == NULL)
142	goto memerr;
143	}
144	/* open z file */
145	if (zfile != NULL) {
146	if ((zfd = open(zfile, O_WRONLY\|O_CREAT, 0666)) == -1) {
147	sprintf(errmsg, "cannot open z file \"%s\"", zfile);
148	error(SYSTEM, errmsg);
149	}
150	for (i = 0; i <= psample; i++) {
151	zbar[i] = (float )malloc(hresolusizeof(float));
152	if (zbar[i] == NULL)
153	goto memerr;
154	}
155	} else {
156	zfd = -1;
157	for (i = 0; i <= psample; i++)
158	zbar[i] = NULL;
159	}
160	/* write out boundaries */
161	fputresolu(YMAJOR\|YDECR, hresolu, vresolu, stdout);
162	/* recover file and compute first */
163	i = salvage(oldfile);
164	if (zfd != -1 && i > 0 &&
165	lseek(zfd, (long)ihresolusizeof(float), 0) == -1)
166	error(SYSTEM, "z file seek error in render");
167	pctdone = 100.0*i/vresolu;
168	if (ralrm > 0) /* report init stats */
169	report();
170	#ifndef BSD
171	else
172	#endif
173	signal(SIGALRM, report);
174	ypos = vresolu-1 - i;
175	fillscanline(scanbar[0], zbar[0], hresolu, ypos, psample);
176	ystep = psample;
177	/* compute scanlines */
178	for (ypos -= ystep; ypos > -ystep; ypos -= ystep) {
179	/* bottom adjust? */
180	if (ypos < 0) {
181	ystep += ypos;
182	ypos = 0;
183	}
184	colptr = scanbar[ystep]; /* move base to top */
185	scanbar[ystep] = scanbar[0];
186	scanbar[0] = colptr;
187	zptr = zbar[ystep];
188	zbar[ystep] = zbar[0];
189	zbar[0] = zptr;
190	/* fill base line */
191	fillscanline(scanbar[0], zbar[0], hresolu, ypos, psample);
192	/* fill bar */
193	fillscanbar(scanbar, zbar, hresolu, ypos, ystep);
194	/* write it out */
195	#ifndef BSD
196	signal(SIGALRM, SIG_IGN); /* don't interrupt writes */
197	#endif
198	for (i = ystep; i > 0; i--) {
199	if (zfd != -1 && write(zfd, (char *)zbar[i],
200	hresolu*sizeof(float))
201	< hresolu*sizeof(float))
202	goto writerr;
203	if (fwritescan(scanbar[i], hresolu, stdout) < 0)
204	goto writerr;
205	}
206	if (fflush(stdout) == EOF)
207	goto writerr;
208	/* record progress */
209	pctdone = 100.0*(vresolu-1-ypos)/vresolu;
210	if (ralrm > 0 && time((long *)0) >= tlastrept+ralrm)
211	report();
212	#ifndef BSD
213	else
214	signal(SIGALRM, report);
215	#endif
216	}
217	/* clean up */
218	if (zfd != -1) {
219	if (write(zfd, (char )zbar[0], hresolusizeof(float))
220	< hresolu*sizeof(float))
221	goto writerr;
222	if (close(zfd) == -1)
223	goto writerr;
224	for (i = 0; i <= psample; i++)
225	free((char *)zbar[i]);
226	}
227	fwritescan(scanbar[0], hresolu, stdout);
228	if (fflush(stdout) == EOF)
229	goto writerr;
230	for (i = 0; i <= psample; i++)
231	free((char *)scanbar[i]);
232	pctdone = 100.0;
233	return;
234	writerr:
235	error(SYSTEM, "write error in render");
236	memerr:
237	error(SYSTEM, "out of memory in render");
238	}
239
240
241	fillscanline(scanline, zline, xres, y, xstep) /* fill scan line at y */
242	register COLOR *scanline;
243	register float *zline;
244	int xres, y, xstep;
245	{
246	int b = xstep;
247	double z;
248	register int i;
249
250	z = pixvalue(scanline[0], 0, y);
251	if (zline) zline[0] = z;
252
253	for (i = xstep; i < xres-1+xstep; i += xstep) {
254	if (i >= xres) {
255	xstep += xres-1-i;
256	i = xres-1;
257	}
258	z = pixvalue(scanline[i], i, y);
259	if (zline) zline[i] = z;
260
261	b = fillsample(scanline+i-xstep, zline ? zline+i-xstep : NULL,
262	i-xstep, y, xstep, 0, b/2);
263	}
264	}
265
266
267	fillscanbar(scanbar, zbar, xres, y, ysize) /* fill interior */
268	register COLOR *scanbar[];
269	register float *zbar[];
270	int xres, y, ysize;
271	{
272	COLOR vline[MAXDIV+1];
273	float zline[MAXDIV+1];
274	int b = ysize;
275	register int i, j;
276
277	for (i = 0; i < xres; i++) {
278
279	copycolor(vline[0], scanbar[0][i]);
280	copycolor(vline[ysize], scanbar[ysize][i]);
281	if (zbar[0]) {
282	zline[0] = zbar[0][i];
283	zline[ysize] = zbar[ysize][i];
284	}
285
286	b = fillsample(vline, zbar[0] ? zline : NULL,
287	i, y, 0, ysize, b/2);
288
289	for (j = 1; j < ysize; j++)
290	copycolor(scanbar[j][i], vline[j]);
291	if (zbar[0])
292	for (j = 1; j < ysize; j++)
293	zbar[j][i] = zline[j];
294	}
295	}
296
297
298	int
299	fillsample(colline, zline, x, y, xlen, ylen, b) /* fill interior points */
300	register COLOR *colline;
301	register float *zline;
302	int x, y;
303	int xlen, ylen;
304	int b;
305	{
306	extern double fabs();
307	double ratio;
308	double z;
309	COLOR ctmp;
310	int ncut;
311	register int len;
312
313	if (xlen > 0) /* x or y length is zero */
314	len = xlen;
315	else
316	len = ylen;
317
318	if (len <= 1) /* limit recursion */
319	return(0);
320
321	if (b > 0
322	\|\| (zline && 2.fabs(zline[0]-zline[len]) > maxdiff(zline[0]+zline[len]))
323	\|\| bigdiff(colline[0], colline[len], maxdiff)) {
324
325	z = pixvalue(colline[len>>1], x + (xlen>>1), y + (ylen>>1));
326	if (zline) zline[len>>1] = z;
327	ncut = 1;
328
329	} else { /* interpolate */
330
331	copycolor(colline[len>>1], colline[len]);
332	ratio = (double)(len>>1) / len;
333	scalecolor(colline[len>>1], ratio);
334	if (zline) zline[len>>1] = zline[len] * ratio;
335	ratio = 1.0 - ratio;
336	copycolor(ctmp, colline[0]);
337	scalecolor(ctmp, ratio);
338	addcolor(colline[len>>1], ctmp);
339	if (zline) zline[len>>1] += zline[0] * ratio;
340	ncut = 0;
341	}
342	/* recurse */
343	ncut += fillsample(colline, zline, x, y, xlen>>1, ylen>>1, (b-1)/2);
344
345	ncut += fillsample(colline+(len>>1), zline ? zline+(len>>1) : NULL,
346	x+(xlen>>1), y+(ylen>>1),
347	xlen-(xlen>>1), ylen-(ylen>>1), b/2);
348
349	return(ncut);
350	}
351
352
353	double
354	pixvalue(col, x, y) /* compute pixel value */
355	COLOR col; /* returned color */
356	int x, y; /* pixel position */
357	{
358	static RAY thisray;
359
360	if (viewray(thisray.rorg, thisray.rdir, &ourview,
361	(x+pixjitter())/hresolu, (y+pixjitter())/vresolu) < 0) {
362	setcolor(col, 0.0, 0.0, 0.0);
363	return(0.0);
364	}
365
366	rayorigin(&thisray, NULL, PRIMARY, 1.0);
367
368	samplendx = pixnumber(x,y,hresolu,vresolu); /* set pixel index */
369
370	rayvalue(&thisray); /* trace ray */
371
372	copycolor(col, thisray.rcol); /* return color */
373
374	return(thisray.rt); /* return distance */
375	}
376
377
378	int
379	salvage(oldfile) /* salvage scanlines from killed program */
380	char *oldfile;
381	{
382	COLR *scanline;
383	FILE *fp;
384	int x, y;
385
386	if (oldfile == NULL)
387	return(0);
388
389	if ((fp = fopen(oldfile, "r")) == NULL) {
390	sprintf(errmsg, "cannot open recover file \"%s\"", oldfile);
391	error(WARNING, errmsg);
392	return(0);
393	}
394	/* discard header */
395	getheader(fp, NULL);
396	/* get picture size */
397	if (fgetresolu(&x, &y, fp) != (YMAJOR\|YDECR)) {
398	sprintf(errmsg, "bad recover file \"%s\"", oldfile);
399	error(WARNING, errmsg);
400	fclose(fp);
401	return(0);
402	}
403
404	if (x != hresolu \|\| y != vresolu) {
405	sprintf(errmsg, "resolution mismatch in recover file \"%s\"",
406	oldfile);
407	error(USER, errmsg);
408	}
409
410	scanline = (COLR )malloc(hresolusizeof(COLR));
411	if (scanline == NULL)
412	error(SYSTEM, "out of memory in salvage");
413	for (y = 0; y < vresolu; y++) {
414	if (freadcolrs(scanline, hresolu, fp) < 0)
415	break;
416	if (fwritecolrs(scanline, hresolu, stdout) < 0)
417	goto writerr;
418	}
419	if (fflush(stdout) == EOF)
420	goto writerr;
421	free((char *)scanline);
422	fclose(fp);
423	unlink(oldfile);
424	return(y);
425	writerr:
426	error(SYSTEM, "write error in salvage");
427	}
428
429
430	int
431	pixnumber(x, y, xres, yres) /* compute pixel index (brushed) */
432	register int x, y;
433	int xres, yres;
434	{
435	x -= y;
436	while (x < 0)
437	x += xres;
438	return((((x>>2)*yres + y) << 2) + (x & 3));
439	}