src/util/glareval.c

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

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

/*
 * Compute pixels for glare calculation
 */

#include "glare.h"
#include <sys/param.h>
                                        /* compute rtrace buffer size */
#ifndef PIPE_BUF
#define PIPE_BUF        512             /* hyperconservative */
#endif
#define MAXPIX          (PIPE_BUF/(6*sizeof(float)) - 1)

#ifndef BSD
#define vfork           fork
#endif

#define MAXSBUF         409580  /* maximum total size of scanline buffer */
#define HSIZE           227     /* size of scanline hash table */
#define NRETIRE         16      /* number of scanlines to retire at once */

int     rt_pid = -1;            /* process id for rtrace */
int     fd_tort, fd_fromrt;     /* pipe descriptors */

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

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

SCAN    *scanretire();

extern long     ftell();


SCAN *
claimscan(y)                    /* 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;
                        }
                        return(sl);
                }
        return(scanretire());           /* need more free scanlines */
}


COLR *
getpictscan(y)                  /* 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
pict_stats()                    /* print out picture read statistics */
{
        static long     lastcall = 0L;  /* ncall at last report */
        static long     lastread = 0L;  /* nread at last report */

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


double
pict_val(vd)                    /* find picture value for view direction */
FVECT   vd;
{
        FVECT   pp;
        double  vpx, vpy, vpz;
        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];
        viewpixel(&vpx, &vpy, &vpz, &pictview, pp);
        if (vpz <= FTINY || vpx < 0. || vpx >= 1. || vpy < 0. || vpy >= 1.)
                return(-1.0);
        colr_color(res, getpictscan((int)(vpy*pysiz))[(int)(vpx*pxsiz)]);
        return(luminance(res)/exposure);
}


double
getviewpix(vh, vv)              /* compute single view pixel */
int     vh, vv;
{
        FVECT   dir;
        float   rt_buf[6];
        double  res;

        if (compdir(dir, vh, vv) < 0)
                return(-1.0);
        npixinvw++;
        if ((res = pict_val(dir)) >= 0.0)
                return(res);
        if (rt_pid == -1) {
                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));
}


getviewspan(vv, vb)             /* 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) { /* off viewable region */
                        vb[vh+hsize] = -1.0;
                        continue;
                }
                npixinvw++;
                if ((vb[vh+hsize] = pict_val(dir)) >= 0.0)
                        continue;
                if (rt_pid == -1) {             /* missing information */
                        npixmiss++;
                        continue;
                }
                                                /* send to rtrace */
                if (n >= MAXPIX) {                      /* flush */
                        rt_compute(rt_buf, n);
                        while (n-- > 0)
                                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);
        }
}


rt_compute(pb, np)              /* process buffer through rtrace */
float   *pb;
int     np;
{
        static float    nbuf[6] = {0.,0.,0.,0.,0.,0.};

#ifdef DEBUG
        if (verbose && np > 1)
                fprintf(stderr, "%s: sending %d samples to rtrace...\n",
                                progname, np);
#endif
        if (writebuf(fd_tort,(char *)pb,6*sizeof(float)*np) < 6*sizeof(float)*np
                || writebuf(fd_tort,(char *)nbuf,sizeof(nbuf)) < sizeof(nbuf)) {
                fprintf(stderr, "%s: error writing to rtrace process\n",
                                progname);
                exit(1);
        }
        if (readbuf(fd_fromrt, (char *)pb, 3*sizeof(float)*np)
                        < 3*sizeof(float)*np) {
                fprintf(stderr, "%s: error reading from rtrace process\n",
                                progname);
                exit(1);
        }
}


getexpos(s)                     /* get exposure from header line */
char    *s;
{
        if (isexpos(s))
                exposure *= exposval(s);
}


open_pict(fn)                   /* open picture file */
char    *fn;
{
        register int    i;

        if ((pictfp = fopen(fn, "r")) == NULL) {
                fprintf("%s: cannot open\n", fn);
                exit(1);
        }
        exposure = 1.0;
        getheader(pictfp, getexpos);
        if (fgetresolu(&pxsiz, &pysiz, pictfp) != (YMAJOR|YDECR)) {
                fprintf("%s: bad picture resolution\n", fn);
                exit(1);
        }
        initscans();
}


close_pict()                    /* done with picture */
{
        register int    i;

        if (pictfp == NULL)
                return;
        fclose(pictfp);
        donescans();
        pictfp = NULL;
}


fork_rtrace(av)                 /* open pipe and start rtrace */
char    *av[];
{
        int     p0[2], p1[2];

        if (pipe(p0) < 0 || pipe(p1) < 0) {
                perror(progname);
                exit(1);
        }
        if ((rt_pid = vfork()) == 0) {          /* if child */
                close(p0[1]);
                close(p1[0]);
                if (p0[0] != 0) {       /* connect p0 to stdin */
                        dup2(p0[0], 0);
                        close(p0[0]);
                }
                if (p1[1] != 0) {       /* connect p1 to stdout */
                        dup2(p1[1], 1);
                        close(p1[1]);
                }
                execvp(av[0], av);
                perror(av[0]);
                _exit(127);
        }
        if (rt_pid == -1) {
                perror(progname);
                exit(1);
        }
        close(p0[0]);
        close(p1[1]);
        fd_tort = p0[1];
        fd_fromrt = p1[0];
}


done_rtrace()                   /* wait for rtrace to finish */
{
        int     pid, status;

        if (rt_pid == -1)
                return;
        close(fd_tort);
        close(fd_fromrt);
        while ((pid = wait(&status)) != -1 && pid != rt_pid)
                ;
        if (pid == rt_pid && status != 0) {
                fprintf(stderr, "%s: bad status (%d) from rtrace\n",
                                progname, status);
                exit(1);
        }
        rt_pid = -1;
}


int
readbuf(fd, bpos, siz)
int     fd;
char    *bpos;
int     siz;
{
        register int    cc, nrem = siz;

        while (nrem > 0 && (cc = read(fd, bpos, nrem)) > 0) {
                bpos += cc;
                nrem -= cc;
        }
        if (cc < 0)
                return(cc);
        return(siz-nrem);
}


int
writebuf(fd, bpos, siz)
char    *bpos;
int     siz;
{
        register int    cc, nrem = siz;

        while (nrem > 0 && (cc = write(fd, bpos, nrem)) > 0) {
                bpos += cc;
                nrem -= cc;
        }
        if (cc < 0)
                return(cc);
        return(siz-nrem);
}


SCAN *
scanretire()                    /* retire old scanlines to free list */
{
        SCAN    *sold[NRETIRE];
        SCAN    head;
        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++) {
                head.next = hashtab[h];
                sl = &head;
                while (sl->next != NULL) {
                        for (i = n; i && sold[i-1]->lused > sl->next->lused; i--)
                                if (i == NRETIRE) {     /* reallocate */
                                        register int    oh;
                                        oh = shash(sold[NRETIRE-1]->y);
                                        sold[NRETIRE-1]->next = hashtab[oh];
                                        if (h == oh && sl == &head)
                                                head.next = sl = sold[NRETIRE-1];
                                        else
                                                hashtab[oh] = sold[NRETIRE-1];
                                } else                  /* else bubble up */
                                        sold[i] = sold[i-1];
                        if (i < NRETIRE) {
                                sold[i] = sl->next;
                                sl->next = sl->next->next;
                                if (n < NRETIRE)        /* grow list */
                                        n++;
                        } else
                                sl = sl->next;
                }
                hashtab[h] = head.next;
        }
                                        /* put scanlines into free list */
        for (i = 1; i < n; i++) {
                sold[i]->next = freelist;
                freelist = sold[i];
        }
        return(sold[0]);
}


static char     *scan_buf;


initscans()                             /* initialize scanline buffers */
{
        int     scansize;
        register SCAN   *ptr;
        register int    i;
                                        /* initialize positions */
        scanpos = (long *)malloc(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 ALIGN
        scansize = scansize+(sizeof(ALIGN)-1)) & ~(sizeof(ALIGN)-1);
#endif
        i = MAXSBUF / scansize;         /* compute number to allocate */
        if (i > HSIZE)
                i = HSIZE;
        scan_buf = malloc(i*scansize);  /* 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 */
        }
}


donescans()                             /* free up scanlines */
{
        free(scan_buf);
        free((char *)scanpos);
}
Revision:	1.8
Committed:	Wed Apr 3 15:20:35 1991 UTC (34 years, 7 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 1.7:	+157 -40 lines
Log Message:	added rather sophisticated LRU scanline replacement scheme
#	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	* Compute pixels for glare calculation
9	*/
10
11	#include "glare.h"
12	#include <sys/param.h>
13	/* compute rtrace buffer size */
14	#ifndef PIPE_BUF
15	#define PIPE_BUF 512 /* hyperconservative */
16	#endif
17	#define MAXPIX (PIPE_BUF/(6*sizeof(float)) - 1)
18
19	#ifndef BSD
20	#define vfork fork
21	#endif
22
23	#define MAXSBUF 409580 /* maximum total size of scanline buffer */
24	#define HSIZE 227 /* size of scanline hash table */
25	#define NRETIRE 16 /* number of scanlines to retire at once */
26
27	int rt_pid = -1; /* process id for rtrace */
28	int fd_tort, fd_fromrt; /* pipe descriptors */
29
30	FILE pictfp = NULL; / picture file pointer */
31	double exposure; /* picture exposure */
32	int pxsiz, pysiz; /* picture dimensions */
33
34	static int curpos; /* current scanline */
35	static long scanpos; / scanline positions */
36
37	typedef struct scan {
38	int y; /* scanline position */
39	long lused; /* for LRU replacement */
40	struct scan next; / next in this hash or free list */
41	/* followed by the scanline data */
42	} SCAN; /* buffered scanline */
43
44	#define scandata(sl) ((COLR *)((sl)+1))
45	#define shash(y) ((y)%HSIZE)
46
47	static SCAN freelist; / scanline free list */
48	static SCAN hashtab[HSIZE]; / scanline hash table */
49
50	static long ncall = 0L; /* number of calls to getpictscan */
51	static long nread = 0L; /* number of scanlines read */
52
53	SCAN *scanretire();
54
55	extern long ftell();
56
57
58	SCAN *
59	claimscan(y) /* claim scanline from buffers */
60	int y;
61	{
62	int hi = shash(y);
63	SCAN *slast;
64	register SCAN *sl;
65
66	for (sl = hashtab[hi]; sl != NULL; sl = sl->next)
67	if (sl->y == y) /* active scanline */
68	return(sl);
69	for (slast = NULL, sl = freelist; sl != NULL; slast = sl, sl = sl->next)
70	if (sl->y == -1 \|\| sl->y == y \|\| sl->next == NULL) {
71	if (slast == NULL) /* remove from free */
72	freelist = sl->next;
73	else
74	slast->next = sl->next;
75	if (sl->y == y) { /* reclaim */
76	sl->next = hashtab[hi];
77	hashtab[hi] = sl;
78	}
79	return(sl);
80	}
81	return(scanretire()); /* need more free scanlines */
82	}
83
84
85	COLR *
86	getpictscan(y) /* get picture scanline */
87	int y;
88	{
89	register SCAN *sl;
90	register int i;
91	/* first check our buffers */
92	sl = claimscan(y);
93	if (sl == NULL)
94	memerr("claimscan()");
95	sl->lused = ncall++;
96	if (sl->y == y) /* scan hit */
97	return(scandata(sl));
98	/* else read in replacement */
99	if (scanpos[y] < 0) { /* need to search */
100	for (i = y+1; i < curpos; i++)
101	if (scanpos[i] >= 0) {
102	if (fseek(pictfp, scanpos[i], 0) < 0)
103	goto seekerr;
104	curpos = i;
105	break;
106	}
107	while (curpos >= y) {
108	scanpos[curpos] = ftell(pictfp);
109	if (freadcolrs(scandata(sl), pxsiz, pictfp) < 0)
110	goto readerr;
111	nread++;
112	curpos--;
113	}
114	} else {
115	if (curpos != y && fseek(pictfp, scanpos[y], 0) < 0)
116	goto seekerr;
117	if (freadcolrs(scandata(sl), pxsiz, pictfp) < 0)
118	goto readerr;
119	nread++;
120	curpos = y-1;
121	}
122	sl->y = y;
123	i = shash(y); /* add to hash list */
124	sl->next = hashtab[i];
125	hashtab[i] = sl;
126	return(scandata(sl));
127	readerr:
128	fprintf(stderr, "%s: picture read error\n", progname);
129	exit(1);
130	seekerr:
131	fprintf(stderr, "%s: picture seek error\n", progname);
132	exit(1);
133	}
134
135
136	#ifdef DEBUG
137	pict_stats() /* print out picture read statistics */
138	{
139	static long lastcall = 0L; /* ncall at last report */
140	static long lastread = 0L; /* nread at last report */
141
142	if (ncall == lastcall)
143	return;
144	fprintf(stderr, "%s: %ld scanlines read in %ld calls\n",
145	progname, nread-lastread, ncall-lastcall);
146	lastcall = ncall;
147	lastread = nread;
148	}
149	#endif
150
151
152	double
153	pict_val(vd) /* find picture value for view direction */
154	FVECT vd;
155	{
156	FVECT pp;
157	double vpx, vpy, vpz;
158	COLOR res;
159
160	if (pictfp == NULL)
161	return(-1.0);
162	pp[0] = pictview.vp[0] + vd[0];
163	pp[1] = pictview.vp[1] + vd[1];
164	pp[2] = pictview.vp[2] + vd[2];
165	viewpixel(&vpx, &vpy, &vpz, &pictview, pp);
166	if (vpz <= FTINY \|\| vpx < 0. \|\| vpx >= 1. \|\| vpy < 0. \|\| vpy >= 1.)
167	return(-1.0);
168	colr_color(res, getpictscan((int)(vpypysiz))[(int)(vpxpxsiz)]);
169	return(luminance(res)/exposure);
170	}
171
172
173	double
174	getviewpix(vh, vv) /* compute single view pixel */
175	int vh, vv;
176	{
177	FVECT dir;
178	float rt_buf[6];
179	double res;
180
181	if (compdir(dir, vh, vv) < 0)
182	return(-1.0);
183	npixinvw++;
184	if ((res = pict_val(dir)) >= 0.0)
185	return(res);
186	if (rt_pid == -1) {
187	npixmiss++;
188	return(-1.0);
189	}
190	rt_buf[0] = ourview.vp[0];
191	rt_buf[1] = ourview.vp[1];
192	rt_buf[2] = ourview.vp[2];
193	rt_buf[3] = dir[0];
194	rt_buf[4] = dir[1];
195	rt_buf[5] = dir[2];
196	rt_compute(rt_buf, 1);
197	return(luminance(rt_buf));
198	}
199
200
201	getviewspan(vv, vb) /* compute a span of view pixels */
202	int vv;
203	float *vb;
204	{
205	float rt_buf[6MAXPIX]; / rtrace send/receive buffer */
206	register int n; /* number of pixels in buffer */
207	short buf_vh[MAXPIX]; /* pixel positions */
208	FVECT dir;
209	register int vh;
210
211	#ifdef DEBUG
212	if (verbose)
213	fprintf(stderr, "%s: computing view span at %d...\n",
214	progname, vv);
215	#endif
216	n = 0;
217	for (vh = -hsize; vh <= hsize; vh++) {
218	if (compdir(dir, vh, vv) < 0) { /* off viewable region */
219	vb[vh+hsize] = -1.0;
220	continue;
221	}
222	npixinvw++;
223	if ((vb[vh+hsize] = pict_val(dir)) >= 0.0)
224	continue;
225	if (rt_pid == -1) { /* missing information */
226	npixmiss++;
227	continue;
228	}
229	/* send to rtrace */
230	if (n >= MAXPIX) { /* flush */
231	rt_compute(rt_buf, n);
232	while (n-- > 0)
233	vb[buf_vh[n]+hsize] = luminance(rt_buf+3*n);
234	}
235	rt_buf[6*n] = ourview.vp[0];
236	rt_buf[6*n+1] = ourview.vp[1];
237	rt_buf[6*n+2] = ourview.vp[2];
238	rt_buf[6*n+3] = dir[0];
239	rt_buf[6*n+4] = dir[1];
240	rt_buf[6*n+5] = dir[2];
241	buf_vh[n++] = vh;
242	}
243	#ifdef DEBUG
244	if (verbose)
245	pict_stats();
246	#endif
247	if (n > 0) { /* process pending buffer */
248	rt_compute(rt_buf, n);
249	while (n-- > 0)
250	vb[buf_vh[n]+hsize] = luminance(rt_buf+3*n);
251	}
252	}
253
254
255	rt_compute(pb, np) /* process buffer through rtrace */
256	float *pb;
257	int np;
258	{
259	static float nbuf[6] = {0.,0.,0.,0.,0.,0.};
260
261	#ifdef DEBUG
262	if (verbose && np > 1)
263	fprintf(stderr, "%s: sending %d samples to rtrace...\n",
264	progname, np);
265	#endif
266	if (writebuf(fd_tort,(char )pb,6sizeof(float)np) < 6sizeof(float)*np
267	\|\| writebuf(fd_tort,(char *)nbuf,sizeof(nbuf)) < sizeof(nbuf)) {
268	fprintf(stderr, "%s: error writing to rtrace process\n",
269	progname);
270	exit(1);
271	}
272	if (readbuf(fd_fromrt, (char )pb, 3sizeof(float)*np)
273	< 3sizeof(float)np) {
274	fprintf(stderr, "%s: error reading from rtrace process\n",
275	progname);
276	exit(1);
277	}
278	}
279
280
281	getexpos(s) /* get exposure from header line */
282	char *s;
283	{
284	if (isexpos(s))
285	exposure *= exposval(s);
286	}
287
288
289	open_pict(fn) /* open picture file */
290	char *fn;
291	{
292	register int i;
293
294	if ((pictfp = fopen(fn, "r")) == NULL) {
295	fprintf("%s: cannot open\n", fn);
296	exit(1);
297	}
298	exposure = 1.0;
299	getheader(pictfp, getexpos);
300	if (fgetresolu(&pxsiz, &pysiz, pictfp) != (YMAJOR\|YDECR)) {
301	fprintf("%s: bad picture resolution\n", fn);
302	exit(1);
303	}
304	initscans();
305	}
306
307
308	close_pict() /* done with picture */
309	{
310	register int i;
311
312	if (pictfp == NULL)
313	return;
314	fclose(pictfp);
315	donescans();
316	pictfp = NULL;
317	}
318
319
320	fork_rtrace(av) /* open pipe and start rtrace */
321	char *av[];
322	{
323	int p0[2], p1[2];
324
325	if (pipe(p0) < 0 \|\| pipe(p1) < 0) {
326	perror(progname);
327	exit(1);
328	}
329	if ((rt_pid = vfork()) == 0) { /* if child */
330	close(p0[1]);
331	close(p1[0]);
332	if (p0[0] != 0) { /* connect p0 to stdin */
333	dup2(p0[0], 0);
334	close(p0[0]);
335	}
336	if (p1[1] != 0) { /* connect p1 to stdout */
337	dup2(p1[1], 1);
338	close(p1[1]);
339	}
340	execvp(av[0], av);
341	perror(av[0]);
342	_exit(127);
343	}
344	if (rt_pid == -1) {
345	perror(progname);
346	exit(1);
347	}
348	close(p0[0]);
349	close(p1[1]);
350	fd_tort = p0[1];
351	fd_fromrt = p1[0];
352	}
353
354
355	done_rtrace() /* wait for rtrace to finish */
356	{
357	int pid, status;
358
359	if (rt_pid == -1)
360	return;
361	close(fd_tort);
362	close(fd_fromrt);
363	while ((pid = wait(&status)) != -1 && pid != rt_pid)
364	;
365	if (pid == rt_pid && status != 0) {
366	fprintf(stderr, "%s: bad status (%d) from rtrace\n",
367	progname, status);
368	exit(1);
369	}
370	rt_pid = -1;
371	}
372
373
374	int
375	readbuf(fd, bpos, siz)
376	int fd;
377	char *bpos;
378	int siz;
379	{
380	register int cc, nrem = siz;
381
382	while (nrem > 0 && (cc = read(fd, bpos, nrem)) > 0) {
383	bpos += cc;
384	nrem -= cc;
385	}
386	if (cc < 0)
387	return(cc);
388	return(siz-nrem);
389	}
390
391
392	int
393	writebuf(fd, bpos, siz)
394	char *bpos;
395	int siz;
396	{
397	register int cc, nrem = siz;
398
399	while (nrem > 0 && (cc = write(fd, bpos, nrem)) > 0) {
400	bpos += cc;
401	nrem -= cc;
402	}
403	if (cc < 0)
404	return(cc);
405	return(siz-nrem);
406	}
407
408
409	SCAN *
410	scanretire() /* retire old scanlines to free list */
411	{
412	SCAN *sold[NRETIRE];
413	SCAN head;
414	int n;
415	int h;
416	register SCAN *sl;
417	register int i;
418	/* grab the NRETIRE oldest scanlines */
419	sold[n = 0] = NULL;
420	for (h = 0; h < HSIZE; h++) {
421	head.next = hashtab[h];
422	sl = &head;
423	while (sl->next != NULL) {
424	for (i = n; i && sold[i-1]->lused > sl->next->lused; i--)
425	if (i == NRETIRE) { /* reallocate */
426	register int oh;
427	oh = shash(sold[NRETIRE-1]->y);
428	sold[NRETIRE-1]->next = hashtab[oh];
429	if (h == oh && sl == &head)
430	head.next = sl = sold[NRETIRE-1];
431	else
432	hashtab[oh] = sold[NRETIRE-1];
433	} else /* else bubble up */
434	sold[i] = sold[i-1];
435	if (i < NRETIRE) {
436	sold[i] = sl->next;
437	sl->next = sl->next->next;
438	if (n < NRETIRE) /* grow list */
439	n++;
440	} else
441	sl = sl->next;
442	}
443	hashtab[h] = head.next;
444	}
445	/* put scanlines into free list */
446	for (i = 1; i < n; i++) {
447	sold[i]->next = freelist;
448	freelist = sold[i];
449	}
450	return(sold[0]);
451	}
452
453
454	static char *scan_buf;
455
456
457	initscans() /* initialize scanline buffers */
458	{
459	int scansize;
460	register SCAN *ptr;
461	register int i;
462	/* initialize positions */
463	scanpos = (long )malloc(pysizsizeof(long));
464	if (scanpos == NULL)
465	memerr("scanline positions");
466	for (i = pysiz-1; i >= 0; i--)
467	scanpos[i] = -1L;
468	curpos = pysiz-1;
469	/* clear hash table */
470	for (i = 0; i < HSIZE; i++)
471	hashtab[i] = NULL;
472	/* allocate scanline buffers */
473	scansize = sizeof(SCAN) + pxsiz*sizeof(COLR);
474	#ifdef ALIGN
475	scansize = scansize+(sizeof(ALIGN)-1)) & ~(sizeof(ALIGN)-1);
476	#endif
477	i = MAXSBUF / scansize; /* compute number to allocate */
478	if (i > HSIZE)
479	i = HSIZE;
480	scan_buf = malloc(iscansize); / get in one big chunk */
481	if (scan_buf == NULL)
482	memerr("scanline buffers");
483	ptr = (SCAN *)scan_buf;
484	freelist = NULL; /* build our free list */
485	while (i-- > 0) {
486	ptr->y = -1;
487	ptr->lused = -1;
488	ptr->next = freelist;
489	freelist = ptr;
490	ptr = (SCAN )((char )ptr + scansize); /* beware of C bugs */
491	}
492	}
493
494
495	donescans() /* free up scanlines */
496	{
497	free(scan_buf);
498	free((char *)scanpos);
499	}