src/util/glareval.c

#ifndef lint
static const char       RCSid[] = "$Id: glareval.c,v 2.17 2020/02/28 05:18:49 greg Exp $";
#endif
/*
 * Compute pixels for glare calculation
 */

#include "copyright.h"

#include <stdlib.h>
#include <string.h>

#include "platform.h"
#include "rtprocess.h" /* Windows: must come first because of conflicts */
#include "glare.h"

                                        /* maximum rtrace buffer size */
#define MAXPIX          (4096/(6*sizeof(float)))

#define MAXSBUF         786432  /* maximum total size of scanline buffer */
#define HSIZE           317     /* size of scanline hash table */
#define NRETIRE         16      /* number of scanlines to retire at once */

static SUBPROC  rt_pd = SP_INACTIVE; /* process id & descriptors for rtrace */

FILE    *pictfp = NULL;         /* picture file pointer */
double  exposure;               /* picture exposure */
int     pxsiz, pysiz;           /* picture dimensions */

static int      curpos;         /* current scanline */
static long     *scanpos;       /* scanline positions */

typedef struct scan {
        int     y;              /* scanline position */
        long    lused;          /* for LRU replacement */
        struct scan     *next;  /* next in this hash or free list */
        /* followed by the scanline data */
} SCAN;                 /* buffered scanline */

#define scandata(sl)    ((COLR *)((sl)+1))
#define shash(y)        ((y)%HSIZE)

static int      maxpix;         /* maximum number of pixels to buffer */

static SCAN     *freelist;              /* scanline free list */
static SCAN     *hashtab[HSIZE];        /* scanline hash table */

static long     scanbufsiz;             /* size of allocated scanline buffer */

static long     ncall = 0L;     /* number of calls to getpictscan */
static long     nread = 0L;     /* number of scanlines read */
static long     nrecl = 0L;     /* number of scanlines reclaimed */

static int      wrongformat = 0;

static SCAN * claimscan(int     y); 
static COLR * getpictscan(int   y);
static double pict_val(FVECT    vd);
static void rt_compute(float    *pb, int        np);
static gethfunc getexpos;
static SCAN * scanretire(void);
static void initscans(void);
static void donescans(void);


static SCAN *
claimscan(                      /* claim scanline from buffers */
        int     y
)
{
        int     hi = shash(y);
        SCAN    *slast;
        register SCAN   *sl;

        for (sl = hashtab[hi]; sl != NULL; sl = sl->next)
                if (sl->y == y)                         /* active scanline */
                        return(sl);
        for (slast = NULL, sl = freelist; sl != NULL; slast = sl, sl = sl->next)
                if (sl->y == -1 || sl->y == y || sl->next == NULL) {
                        if (slast == NULL)              /* remove from free */
                                freelist = sl->next;
                        else
                                slast->next = sl->next;
                        if (sl->y == y) {               /* reclaim */
                                sl->next = hashtab[hi];
                                hashtab[hi] = sl;
                                nrecl++;
                        }
                        return(sl);
                }
        return(scanretire());           /* need more free scanlines */
}


static COLR *
getpictscan(                    /* get picture scanline */
        int     y
)
{
        register SCAN   *sl;
        register int    i;
                                        /* first check our buffers */
        sl = claimscan(y);
        if (sl == NULL)
                memerr("claimscan()");
        sl->lused = ncall++;
        if (sl->y == y)                 /* scan hit */
                return(scandata(sl));
                                        /* else read in replacement */
        if (scanpos[y] < 0) {                   /* need to search */
                for (i = y+1; i < curpos; i++)
                        if (scanpos[i] >= 0) {
                                if (fseek(pictfp, scanpos[i], 0) < 0)
                                        goto seekerr;
                                curpos = i;
                                break;
                        }
                while (curpos >= y) {
                        scanpos[curpos] = ftell(pictfp);
                        if (freadcolrs(scandata(sl), pxsiz, pictfp) < 0)
                                goto readerr;
                        nread++;
                        curpos--;
                }
        } else {
                if (curpos != y && fseek(pictfp, scanpos[y], 0) < 0)
                        goto seekerr;
                if (freadcolrs(scandata(sl), pxsiz, pictfp) < 0)
                        goto readerr;
                nread++;
                curpos = y-1;
        }
        sl->y = y;
        i = shash(y);                   /* add to hash list */
        sl->next = hashtab[i];
        hashtab[i] = sl;
        return(scandata(sl));
readerr:
        fprintf(stderr, "%s: picture read error\n", progname);
        exit(1);
seekerr:
        fprintf(stderr, "%s: picture seek error\n", progname);
        exit(1);
}


#ifdef DEBUG
void
pict_stats(void)                        /* print out picture read statistics */
{
        static long     lastcall = 0L;  /* ncall at last report */
        static long     lastread = 0L;  /* nread at last report */
        static long     lastrecl = 0L;  /* nrecl at last report */

        if (ncall == lastcall)
                return;
        fprintf(stderr, "%s: %ld scanlines read (%ld reclaimed) in %ld calls\n",
                progname, nread-lastread, nrecl-lastrecl, ncall-lastcall);
        lastcall = ncall;
        lastread = nread;
        lastrecl = nrecl;
}
#endif


static double
pict_val(                       /* find picture value for view direction */
        FVECT   vd
)
{
        FVECT   pp;
        FVECT   ip;
        COLOR   res;

        if (pictfp == NULL)
                return(-1.0);
        pp[0] = pictview.vp[0] + vd[0];
        pp[1] = pictview.vp[1] + vd[1];
        pp[2] = pictview.vp[2] + vd[2];
        if (viewloc(ip, &pictview, pp) != VL_GOOD)
                return(-1.0);
        colr_color(res, getpictscan((int)(ip[1]*pysiz))[(int)(ip[0]*pxsiz)]);
        return(luminance(res)/exposure);
}


extern double
getviewpix(             /* compute single view pixel */
        int     vh,
        int     vv
)
{
        FVECT   dir;
        float   rt_buf[12];
        double  res;

        if (compdir(dir, vh, vv) < 0)
                return(-1.0);
        npixinvw++;
        if ((res = pict_val(dir)) >= 0.0)
                return(res);
        if (!(rt_pd.flags & PF_RUNNING)) {
                npixmiss++;
                return(-1.0);
        }
        rt_buf[0] = ourview.vp[0];
        rt_buf[1] = ourview.vp[1];
        rt_buf[2] = ourview.vp[2];
        rt_buf[3] = dir[0];
        rt_buf[4] = dir[1];
        rt_buf[5] = dir[2];
        rt_compute(rt_buf, 1);
        return(luminance(rt_buf));
}


extern void
getviewspan(            /* compute a span of view pixels */
        int     vv,
        float   *vb
)
{
        float   rt_buf[6*MAXPIX];       /* rtrace send/receive buffer */
        register int    n;              /* number of pixels in buffer */
        short   buf_vh[MAXPIX];         /* pixel positions */
        FVECT   dir;
        register int    vh;

#ifdef DEBUG
        if (verbose)
                fprintf(stderr, "%s: computing view span at %d...\n",
                                progname, vv);
#endif
        n = 0;
        for (vh = -hsize; vh <= hsize; vh++) {
                if (compdir(dir, vh, vv) < 0) {         /* not in view */
                        vb[vh+hsize] = -1.0;
                        continue;
                }
                npixinvw++;
                if ((vb[vh+hsize] = pict_val(dir)) >= 0.0)
                        continue;
                if (!(rt_pd.flags & PF_RUNNING)) {      /* missing information */
                        npixmiss++;
                        continue;
                }
                                                /* send to rtrace */
                if (n >= maxpix) {                      /* flush */
                        rt_compute(rt_buf, n);
                        while (n > 0) {
                                --n;
                                vb[buf_vh[n]+hsize] = luminance(rt_buf+3*n);
                        }
                }
                rt_buf[6*n] = ourview.vp[0];
                rt_buf[6*n+1] = ourview.vp[1];
                rt_buf[6*n+2] = ourview.vp[2];
                rt_buf[6*n+3] = dir[0];
                rt_buf[6*n+4] = dir[1];
                rt_buf[6*n+5] = dir[2];
                buf_vh[n++] = vh;
        }
#ifdef DEBUG
        if (verbose)
                pict_stats();
#endif
        if (n > 0) {                            /* process pending buffer */
                rt_compute(rt_buf, n);
                while (n-- > 0)
                        vb[buf_vh[n]+hsize] = luminance(rt_buf+3*n);
        }
}


static void
rt_compute(             /* process buffer through rtrace */
        float   *pb,
        int     np
)
{
#ifdef DEBUG
        if (verbose && np > 1)
                fprintf(stderr, "%s: sending %d samples to rtrace...\n",
                                progname, np);
#endif
        memset(pb+6*np, '\0', 6*sizeof(float));
        if (process(&rt_pd, (char *)pb, (char *)pb, 3*sizeof(float)*(np+1),
                        6*sizeof(float)*(np+1)) < 3*sizeof(float)*(np+1)) {
                fprintf(stderr, "%s: rtrace communication error\n",
                                progname);
                exit(1);
        }
}


static int
getexpos(                       /* get exposure from header line */
        char    *s,
        void    *p
)
{
        char    fmt[MAXFMTLEN];

        if (isexpos(s))
                exposure *= exposval(s);
        else if (isformat(s)) {
                formatval(fmt, s);
                wrongformat = strcmp(fmt, COLRFMT);
        }
        return(0);
}


extern void
open_pict(                      /* open picture file */
        char    *fn
)
{
        if ((pictfp = fopen(fn, "r")) == NULL) {
                fprintf(stderr, "%s: cannot open\n", fn);
                exit(1);
        }
        SET_FILE_BINARY(pictfp);
        exposure = 1.0;
        getheader(pictfp, getexpos, NULL);
        if (wrongformat || !fscnresolu(&pxsiz, &pysiz, pictfp)) {
                fprintf(stderr, "%s: incompatible picture format\n", fn);
                exit(1);
        }
        initscans();
}


extern void
close_pict(void)                        /* done with picture */
{
        if (pictfp == NULL)
                return;
        fclose(pictfp);
        donescans();
        pictfp = NULL;
}


extern void
fork_rtrace(                    /* open pipe and start rtrace */
        char    *av[]
)
{
        int     rval;

        rval = open_process(&rt_pd, av);
        if (rval < 0) {
                perror(progname);
                exit(1);
        }
        if (rval == 0) {
                fprintf(stderr, "%s: command not found\n", av[0]);
                exit(1);
        }
        maxpix = rval/(6*sizeof(float));
        if (maxpix > MAXPIX)
                maxpix = MAXPIX;
        maxpix--;
}


extern void
done_rtrace(void)                       /* wait for rtrace to finish */
{
        int     status;

        status = close_process(&rt_pd);
        if (status > 0) {
                fprintf(stderr, "%s: bad status (%d) from rtrace\n",
                                progname, status);
                exit(1);
        }
}


static SCAN *
scanretire(void)                        /* retire old scanlines to free list */
{
        SCAN    *sold[NRETIRE];
        int     n;
        int     h;
        register SCAN   *sl;
        register int    i;
                                        /* grab the NRETIRE oldest scanlines */
        sold[n = 0] = NULL;
        for (h = 0; h < HSIZE; h++)
                for (sl = hashtab[h]; sl != NULL; sl = sl->next) {
                        for (i = n; i && sold[i-1]->lused > sl->lused; i--)
                                if (i < NRETIRE)
                                        sold[i] = sold[i-1];
                        if (i < NRETIRE) {
                                sold[i] = sl;
                                if (n < NRETIRE)        /* grow list */
                                        n++;
                        }
                }
                                        /* put scanlines into free list */
        for (i = 0; i < n; i++) {
                h = shash(sold[i]->y);
                sl = hashtab[h];
                if (sl == sold[i])
                        hashtab[h] = sl->next;
                else {
                        while (sl->next != sold[i])     /* IS in list */
                                sl = sl->next;
                        sl->next = sold[i]->next;
                }
                if (i > 0) {            /* save oldest as return value */
                        sold[i]->next = freelist;
                        freelist = sold[i];
                }
        }
        return(sold[0]);
}


static char     *scan_buf;


static void
initscans(void)                         /* initialize scanline buffers */
{
        int     scansize;
        register SCAN   *ptr;
        register int    i;
                                        /* initialize positions */
        scanpos = (long *)bmalloc(pysiz*sizeof(long));
        if (scanpos == NULL)
                memerr("scanline positions");
        for (i = pysiz-1; i >= 0; i--)
                scanpos[i] = -1L;
        curpos = pysiz-1;
                                        /* clear hash table */
        for (i = 0; i < HSIZE; i++)
                hashtab[i] = NULL;
                                        /* allocate scanline buffers */
        scansize = sizeof(SCAN) + pxsiz*sizeof(COLR);
#ifdef ALIGNT
        scansize = scansize+(sizeof(ALIGNT)-1) & ~(sizeof(ALIGNT)-1);
#endif
        i = MAXSBUF / scansize;         /* compute number to allocate */
        if (i > HSIZE)
                i = HSIZE;
        scanbufsiz = i*scansize;
        scan_buf = bmalloc(scanbufsiz); /* get in one big chunk */
        if (scan_buf == NULL)
                memerr("scanline buffers");
        ptr = (SCAN *)scan_buf;
        freelist = NULL;                /* build our free list */
        while (i-- > 0) {
                ptr->y = -1;
                ptr->lused = -1;
                ptr->next = freelist;
                freelist = ptr;
                ptr = (SCAN *)((char *)ptr + scansize); /* beware of C bugs */
        }
}


static void
donescans(void)                         /* free up scanlines */
{
        bfree(scan_buf, scanbufsiz);
        bfree((char *)scanpos, pysiz*sizeof(long));
}
Revision:	2.18
Committed:	Thu May 14 20:58:03 2020 UTC (5 years, 5 months ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad5R3
Changes since 2.17:	+2 -2 lines
Log Message:	Fixed return-value checking for viewloc()
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: glareval.c,v 2.17 2020/02/28 05:18:49 greg Exp $";
3	#endif
4	/*
5	* Compute pixels for glare calculation
6	*/
7
8	#include "copyright.h"
9
10	#include <stdlib.h>
11	#include <string.h>
12
13	#include "platform.h"
14	#include "rtprocess.h" /* Windows: must come first because of conflicts */
15	#include "glare.h"
16
17	/* maximum rtrace buffer size */
18	#define MAXPIX (4096/(6*sizeof(float)))
19
20	#define MAXSBUF 786432 /* maximum total size of scanline buffer */
21	#define HSIZE 317 /* size of scanline hash table */
22	#define NRETIRE 16 /* number of scanlines to retire at once */
23
24	static SUBPROC rt_pd = SP_INACTIVE; /* process id & descriptors for rtrace */
25
26	FILE pictfp = NULL; / picture file pointer */
27	double exposure; /* picture exposure */
28	int pxsiz, pysiz; /* picture dimensions */
29
30	static int curpos; /* current scanline */
31	static long scanpos; / scanline positions */
32
33	typedef struct scan {
34	int y; /* scanline position */
35	long lused; /* for LRU replacement */
36	struct scan next; / next in this hash or free list */
37	/* followed by the scanline data */
38	} SCAN; /* buffered scanline */
39
40	#define scandata(sl) ((COLR *)((sl)+1))
41	#define shash(y) ((y)%HSIZE)
42
43	static int maxpix; /* maximum number of pixels to buffer */
44
45	static SCAN freelist; / scanline free list */
46	static SCAN hashtab[HSIZE]; / scanline hash table */
47
48	static long scanbufsiz; /* size of allocated scanline buffer */
49
50	static long ncall = 0L; /* number of calls to getpictscan */
51	static long nread = 0L; /* number of scanlines read */
52	static long nrecl = 0L; /* number of scanlines reclaimed */
53
54	static int wrongformat = 0;
55
56	static SCAN * claimscan(int y);
57	static COLR * getpictscan(int y);
58	static double pict_val(FVECT vd);
59	static void rt_compute(float *pb, int np);
60	static gethfunc getexpos;
61	static SCAN * scanretire(void);
62	static void initscans(void);
63	static void donescans(void);
64
65
66	static SCAN *
67	claimscan( /* claim scanline from buffers */
68	int y
69	)
70	{
71	int hi = shash(y);
72	SCAN *slast;
73	register SCAN *sl;
74
75	for (sl = hashtab[hi]; sl != NULL; sl = sl->next)
76	if (sl->y == y) /* active scanline */
77	return(sl);
78	for (slast = NULL, sl = freelist; sl != NULL; slast = sl, sl = sl->next)
79	if (sl->y == -1 \|\| sl->y == y \|\| sl->next == NULL) {
80	if (slast == NULL) /* remove from free */
81	freelist = sl->next;
82	else
83	slast->next = sl->next;
84	if (sl->y == y) { /* reclaim */
85	sl->next = hashtab[hi];
86	hashtab[hi] = sl;
87	nrecl++;
88	}
89	return(sl);
90	}
91	return(scanretire()); /* need more free scanlines */
92	}
93
94
95	static COLR *
96	getpictscan( /* get picture scanline */
97	int y
98	)
99	{
100	register SCAN *sl;
101	register int i;
102	/* first check our buffers */
103	sl = claimscan(y);
104	if (sl == NULL)
105	memerr("claimscan()");
106	sl->lused = ncall++;
107	if (sl->y == y) /* scan hit */
108	return(scandata(sl));
109	/* else read in replacement */
110	if (scanpos[y] < 0) { /* need to search */
111	for (i = y+1; i < curpos; i++)
112	if (scanpos[i] >= 0) {
113	if (fseek(pictfp, scanpos[i], 0) < 0)
114	goto seekerr;
115	curpos = i;
116	break;
117	}
118	while (curpos >= y) {
119	scanpos[curpos] = ftell(pictfp);
120	if (freadcolrs(scandata(sl), pxsiz, pictfp) < 0)
121	goto readerr;
122	nread++;
123	curpos--;
124	}
125	} else {
126	if (curpos != y && fseek(pictfp, scanpos[y], 0) < 0)
127	goto seekerr;
128	if (freadcolrs(scandata(sl), pxsiz, pictfp) < 0)
129	goto readerr;
130	nread++;
131	curpos = y-1;
132	}
133	sl->y = y;
134	i = shash(y); /* add to hash list */
135	sl->next = hashtab[i];
136	hashtab[i] = sl;
137	return(scandata(sl));
138	readerr:
139	fprintf(stderr, "%s: picture read error\n", progname);
140	exit(1);
141	seekerr:
142	fprintf(stderr, "%s: picture seek error\n", progname);
143	exit(1);
144	}
145
146
147	#ifdef DEBUG
148	void
149	pict_stats(void) /* print out picture read statistics */
150	{
151	static long lastcall = 0L; /* ncall at last report */
152	static long lastread = 0L; /* nread at last report */
153	static long lastrecl = 0L; /* nrecl at last report */
154
155	if (ncall == lastcall)
156	return;
157	fprintf(stderr, "%s: %ld scanlines read (%ld reclaimed) in %ld calls\n",
158	progname, nread-lastread, nrecl-lastrecl, ncall-lastcall);
159	lastcall = ncall;
160	lastread = nread;
161	lastrecl = nrecl;
162	}
163	#endif
164
165
166	static double
167	pict_val( /* find picture value for view direction */
168	FVECT vd
169	)
170	{
171	FVECT pp;
172	FVECT ip;
173	COLOR res;
174
175	if (pictfp == NULL)
176	return(-1.0);
177	pp[0] = pictview.vp[0] + vd[0];
178	pp[1] = pictview.vp[1] + vd[1];
179	pp[2] = pictview.vp[2] + vd[2];
180	if (viewloc(ip, &pictview, pp) != VL_GOOD)
181	return(-1.0);
182	colr_color(res, getpictscan((int)(ip[1]pysiz))[(int)(ip[0]pxsiz)]);
183	return(luminance(res)/exposure);
184	}
185
186
187	extern double
188	getviewpix( /* compute single view pixel */
189	int vh,
190	int vv
191	)
192	{
193	FVECT dir;
194	float rt_buf[12];
195	double res;
196
197	if (compdir(dir, vh, vv) < 0)
198	return(-1.0);
199	npixinvw++;
200	if ((res = pict_val(dir)) >= 0.0)
201	return(res);
202	if (!(rt_pd.flags & PF_RUNNING)) {
203	npixmiss++;
204	return(-1.0);
205	}
206	rt_buf[0] = ourview.vp[0];
207	rt_buf[1] = ourview.vp[1];
208	rt_buf[2] = ourview.vp[2];
209	rt_buf[3] = dir[0];
210	rt_buf[4] = dir[1];
211	rt_buf[5] = dir[2];
212	rt_compute(rt_buf, 1);
213	return(luminance(rt_buf));
214	}
215
216
217	extern void
218	getviewspan( /* compute a span of view pixels */
219	int vv,
220	float *vb
221	)
222	{
223	float rt_buf[6MAXPIX]; / rtrace send/receive buffer */
224	register int n; /* number of pixels in buffer */
225	short buf_vh[MAXPIX]; /* pixel positions */
226	FVECT dir;
227	register int vh;
228
229	#ifdef DEBUG
230	if (verbose)
231	fprintf(stderr, "%s: computing view span at %d...\n",
232	progname, vv);
233	#endif
234	n = 0;
235	for (vh = -hsize; vh <= hsize; vh++) {
236	if (compdir(dir, vh, vv) < 0) { /* not in view */
237	vb[vh+hsize] = -1.0;
238	continue;
239	}
240	npixinvw++;
241	if ((vb[vh+hsize] = pict_val(dir)) >= 0.0)
242	continue;
243	if (!(rt_pd.flags & PF_RUNNING)) { /* missing information */
244	npixmiss++;
245	continue;
246	}
247	/* send to rtrace */
248	if (n >= maxpix) { /* flush */
249	rt_compute(rt_buf, n);
250	while (n > 0) {
251	--n;
252	vb[buf_vh[n]+hsize] = luminance(rt_buf+3*n);
253	}
254	}
255	rt_buf[6*n] = ourview.vp[0];
256	rt_buf[6*n+1] = ourview.vp[1];
257	rt_buf[6*n+2] = ourview.vp[2];
258	rt_buf[6*n+3] = dir[0];
259	rt_buf[6*n+4] = dir[1];
260	rt_buf[6*n+5] = dir[2];
261	buf_vh[n++] = vh;
262	}
263	#ifdef DEBUG
264	if (verbose)
265	pict_stats();
266	#endif
267	if (n > 0) { /* process pending buffer */
268	rt_compute(rt_buf, n);
269	while (n-- > 0)
270	vb[buf_vh[n]+hsize] = luminance(rt_buf+3*n);
271	}
272	}
273
274
275	static void
276	rt_compute( /* process buffer through rtrace */
277	float *pb,
278	int np
279	)
280	{
281	#ifdef DEBUG
282	if (verbose && np > 1)
283	fprintf(stderr, "%s: sending %d samples to rtrace...\n",
284	progname, np);
285	#endif
286	memset(pb+6np, '\0', 6sizeof(float));
287	if (process(&rt_pd, (char )pb, (char )pb, 3sizeof(float)(np+1),
288	6sizeof(float)(np+1)) < 3sizeof(float)(np+1)) {
289	fprintf(stderr, "%s: rtrace communication error\n",
290	progname);
291	exit(1);
292	}
293	}
294
295
296	static int
297	getexpos( /* get exposure from header line */
298	char *s,
299	void *p
300	)
301	{
302	char fmt[MAXFMTLEN];
303
304	if (isexpos(s))
305	exposure *= exposval(s);
306	else if (isformat(s)) {
307	formatval(fmt, s);
308	wrongformat = strcmp(fmt, COLRFMT);
309	}
310	return(0);
311	}
312
313
314	extern void
315	open_pict( /* open picture file */
316	char *fn
317	)
318	{
319	if ((pictfp = fopen(fn, "r")) == NULL) {
320	fprintf(stderr, "%s: cannot open\n", fn);
321	exit(1);
322	}
323	SET_FILE_BINARY(pictfp);
324	exposure = 1.0;
325	getheader(pictfp, getexpos, NULL);
326	if (wrongformat \|\| !fscnresolu(&pxsiz, &pysiz, pictfp)) {
327	fprintf(stderr, "%s: incompatible picture format\n", fn);
328	exit(1);
329	}
330	initscans();
331	}
332
333
334	extern void
335	close_pict(void) /* done with picture */
336	{
337	if (pictfp == NULL)
338	return;
339	fclose(pictfp);
340	donescans();
341	pictfp = NULL;
342	}
343
344
345	extern void
346	fork_rtrace( /* open pipe and start rtrace */
347	char *av[]
348	)
349	{
350	int rval;
351
352	rval = open_process(&rt_pd, av);
353	if (rval < 0) {
354	perror(progname);
355	exit(1);
356	}
357	if (rval == 0) {
358	fprintf(stderr, "%s: command not found\n", av[0]);
359	exit(1);
360	}
361	maxpix = rval/(6*sizeof(float));
362	if (maxpix > MAXPIX)
363	maxpix = MAXPIX;
364	maxpix--;
365	}
366
367
368	extern void
369	done_rtrace(void) /* wait for rtrace to finish */
370	{
371	int status;
372
373	status = close_process(&rt_pd);
374	if (status > 0) {
375	fprintf(stderr, "%s: bad status (%d) from rtrace\n",
376	progname, status);
377	exit(1);
378	}
379	}
380
381
382	static SCAN *
383	scanretire(void) /* retire old scanlines to free list */
384	{
385	SCAN *sold[NRETIRE];
386	int n;
387	int h;
388	register SCAN *sl;
389	register int i;
390	/* grab the NRETIRE oldest scanlines */
391	sold[n = 0] = NULL;
392	for (h = 0; h < HSIZE; h++)
393	for (sl = hashtab[h]; sl != NULL; sl = sl->next) {
394	for (i = n; i && sold[i-1]->lused > sl->lused; i--)
395	if (i < NRETIRE)
396	sold[i] = sold[i-1];
397	if (i < NRETIRE) {
398	sold[i] = sl;
399	if (n < NRETIRE) /* grow list */
400	n++;
401	}
402	}
403	/* put scanlines into free list */
404	for (i = 0; i < n; i++) {
405	h = shash(sold[i]->y);
406	sl = hashtab[h];
407	if (sl == sold[i])
408	hashtab[h] = sl->next;
409	else {
410	while (sl->next != sold[i]) /* IS in list */
411	sl = sl->next;
412	sl->next = sold[i]->next;
413	}
414	if (i > 0) { /* save oldest as return value */
415	sold[i]->next = freelist;
416	freelist = sold[i];
417	}
418	}
419	return(sold[0]);
420	}
421
422
423	static char *scan_buf;
424
425
426	static void
427	initscans(void) /* initialize scanline buffers */
428	{
429	int scansize;
430	register SCAN *ptr;
431	register int i;
432	/* initialize positions */
433	scanpos = (long )bmalloc(pysizsizeof(long));
434	if (scanpos == NULL)
435	memerr("scanline positions");
436	for (i = pysiz-1; i >= 0; i--)
437	scanpos[i] = -1L;
438	curpos = pysiz-1;
439	/* clear hash table */
440	for (i = 0; i < HSIZE; i++)
441	hashtab[i] = NULL;
442	/* allocate scanline buffers */
443	scansize = sizeof(SCAN) + pxsiz*sizeof(COLR);
444	#ifdef ALIGNT
445	scansize = scansize+(sizeof(ALIGNT)-1) & ~(sizeof(ALIGNT)-1);
446	#endif
447	i = MAXSBUF / scansize; /* compute number to allocate */
448	if (i > HSIZE)
449	i = HSIZE;
450	scanbufsiz = i*scansize;
451	scan_buf = bmalloc(scanbufsiz); /* get in one big chunk */
452	if (scan_buf == NULL)
453	memerr("scanline buffers");
454	ptr = (SCAN *)scan_buf;
455	freelist = NULL; /* build our free list */
456	while (i-- > 0) {
457	ptr->y = -1;
458	ptr->lused = -1;
459	ptr->next = freelist;
460	freelist = ptr;
461	ptr = (SCAN )((char )ptr + scansize); /* beware of C bugs */
462	}
463	}
464
465
466	static void
467	donescans(void) /* free up scanlines */
468	{
469	bfree(scan_buf, scanbufsiz);
470	bfree((char )scanpos, pysizsizeof(long));
471	}