[ViewVC] Diff of: radiance/ray/src/rt/rc3.c

Comparing ray/src/rt/rc3.c (file contents):
Revision 2.4 by greg, Mon Jun 11 05:07:55 2012 UTC vs.
Revision 2.24 by greg, Wed Sep 9 21:28:19 2020 UTC

#	Line 6 \| Line 6 \| static const char RCSid[] = "$Id$";
6		* Controlling process for multiple children
7		*/
8
9	+	#include <signal.h>
10		#include "rcontrib.h"
10	–	#include "platform.h"
11	–	#include "rtprocess.h"
11		#include "selcall.h"
12
13	+	#define MAXIQ (int)(PIPE_BUF/(sizeof(FVECT)*2))
14	+
15		/* Modifier contribution queue (results waiting to be output) */
16		typedef struct s_binq {
17	<	int ndx; /* index for this entry */
18	<	int nadded; /* accumulated so far */
17	>	RNUMBER ndx; /* index for this entry */
18	>	RNUMBER nadded; /* accumulated so far */
19		struct s_binq next; / next in queue */
20		MODCONT mca[1]; / contrib. array (extends struct) */
21		} BINQ;
#	Line 22 \| Line 23 \| typedef struct s_binq {
23		static BINQ out_bq = NULL; / output bin queue */
24		static BINQ free_bq = NULL; / free queue entries */
25
26	<	static SUBPROC kida[MAXPROCESS]; /* child processes */
26	<	static FILE inq_fp[MAXPROCESS]; / input streams */
26	>	static SUBPROC kidpr[MAXPROCESS]; /* our child processes */
27
28	+	static struct {
29	+	RNUMBER r1; /* assigned ray starting index */
30	+	FILE infp; / file pointer to read from process */
31	+	int nr; /* number of rays to sum (0 if free) */
32	+	} kida[MAXPROCESS]; /* our child process i/o */
33
34	+
35		/* Get new bin queue entry */
36		static BINQ *
37		new_binq()
#	Line 37 \| Line 43 \| new_binq()
43		bp = free_bq;
44		free_bq = bp->next;
45		bp->next = NULL;
46	<	bp->nadded = 1;
46	>	bp->nadded = 0;
47		return(bp);
48		}
49		/* else allocate fresh */
#	Line 54 \| Line 60 \| new_binq()
60		/* memset(bp->mca[i]->cbin, 0, sizeof(DCOLOR)mp->nbins); /
61		}
62		bp->ndx = 0;
63	<	bp->nadded = 1;
63	>	bp->nadded = 0;
64		bp->next = NULL;
65		return(bp);
66		memerr:
#	Line 83 \| Line 89 \| *free_binq(BINQ bp)**
89		/* for (i = nmods; i--; )
90		memset(bp->mca[i]->cbin, 0, sizeof(DCOLOR)*bp->mca[i]->nbins);
91		*/
92	+	if (bp->next != NULL)
93	+	error(CONSISTENCY, "free_binq() handed list");
94		bp->ndx = 0;
95		bp->next = free_bq; /* push onto free list */
96		free_bq = bp;
#	Line 90 \| Line 98 \| *free_binq(BINQ bp)**
98
99
100		/* Add modifier values to accumulation record in queue and clear */
101	<	void
101	>	static void
102		queue_modifiers()
103		{
104		MODCONT mpin, mpout;
#	Line 106 \| Line 114 \| queue_modifiers()
114		addcolor(mpout->cbin[j], mpin->cbin[j]);
115		memset(mpin->cbin, 0, sizeof(DCOLOR)*mpin->nbins);
116		}
117	+	out_bq->nadded++;
118		}
119
120
#	Line 141 \| Line 150 \| *queue_output(BINQ bp)**
150		}
151		return;
152		}
153	<	b_last = NULL; /* else insert in output queue */
153	>	b_last = NULL; /* insert in output queue */
154		for (b_cur = out_bq; b_cur != NULL && b_cur->ndx < bp->ndx;
155		b_cur = b_cur->next)
156		b_last = b_cur;
#	Line 179 \| Line 188 \| queue_ready()
188		int nready = 0;
189		BINQ *bp;
190
182	–	if (accumulate <= 0) /* just accumulating? */
183	–	return(0);
184	–
191		for (bp = out_bq; bp != NULL && bp->nadded >= accumulate &&
192		bp->ndx == lastdone+nready*accumulate+1;
193		bp = bp->next)
#	Line 198 \| Line 204 \| output_catchup(int nmax)
204		int nout = 0;
205		BINQ *bp;
206		int i;
207	<
202	<	if (accumulate <= 0) /* just accumulating? */
203	<	return(0);
204	<	/* else output ready results */
207	>	/* output ready results */
208		while (out_bq != NULL && out_bq->nadded >= accumulate
209		&& out_bq->ndx == lastdone+1) {
210		if ((nmax > 0) & (nout >= nmax))
#	Line 230 \| Line 233 \| put_zero_record(int ndx)
233		for (i = nmods; i--; )
234		memset(bp->mca[i]->cbin, 0, sizeof(DCOLOR)*bp->mca[i]->nbins);
235		bp->ndx = ndx;
236	+	bp->nadded = 1;
237		queue_output(bp);
238		output_catchup(0);
239		}
240
241
242	+	/* Get results from child process and add to queue */
243	+	static void
244	+	queue_results(int k)
245	+	{
246	+	BINQ bq = new_binq(); / get results holder */
247	+	int j;
248	+
249	+	bq->ndx = kida[k].r1;
250	+	bq->nadded = kida[k].nr;
251	+	/* read from child */
252	+	for (j = 0; j < nmods; j++)
253	+	if (getbinary(bq->mca[j]->cbin, sizeof(DCOLOR), bq->mca[j]->nbins,
254	+	kida[k].infp) != bq->mca[j]->nbins)
255	+	error(SYSTEM, "read error from render process");
256	+
257	+	queue_output(bq); /* put results in output queue */
258	+	kida[k].nr = 0; /* mark child as available */
259	+	}
260	+
261	+
262		/* callback to set output spec to NULL (stdout) */
263		static int
264		set_stdout(const LUENT le, void p)
#	Line 244 \| Line 268 \| *set_stdout(const LUENT le, void p)*
268		}
269
270
271	<	/* Start child processes if we can */
271	>	/* Start child processes if we can (call only once in parent!) */
272		int
273		in_rchild()
274		{
275	<	#ifdef _WIN32
276	<	error(WARNING, "multiprocessing unsupported -- running solo");
277	<	nproc = 1;
254	<	return(1);
255	<	#else
256	<	/* try to fork ourselves */
257	<	while (nchild < nproc) {
258	<	int p0[2], p1[2];
259	<	int pid;
260	<	/* prepare i/o pipes */
275	>	int rval;
276	>
277	>	while (nchild < nproc) { /* fork until target reached */
278		errno = 0;
279	<	if (pipe(p0) < 0 \|\| pipe(p1) < 0)
280	<	error(SYSTEM, "pipe() call failed!");
281	<	pid = fork(); /* fork parent process */
282	<	if (pid == 0) { /* if in child, set up & return true */
283	<	close(p0[1]); close(p1[0]);
267	<	lu_doall(&modconttab, set_stdout, NULL);
279	>	rval = open_process(&kidpr[nchild], NULL);
280	>	if (rval < 0)
281	>	error(SYSTEM, "open_process() call failed");
282	>	if (rval == 0) { /* if in child, set up & return true */
283	>	lu_doall(&modconttab, &set_stdout, NULL);
284		lu_done(&ofiletab);
285	<	while (nchild--) {
286	<	close(kida[nchild].w);
287	<	fclose(inq_fp[nchild]);
285	>	while (nchild--) { /* don't share other pipes */
286	>	close(kidpr[nchild].w);
287	>	fclose(kida[nchild].infp);
288		}
273	–	dup2(p0[0], 0); close(p0[0]);
274	–	dup2(p1[1], 1); close(p1[1]);
289		inpfmt = (sizeof(RREAL)==sizeof(double)) ? 'd' : 'f';
290		outfmt = 'd';
291		header = 0;
278	–	waitflush = xres = 1;
292		yres = 0;
293		raysleft = 0;
294	<	account = accumulate = 1;
295	<	return(1); /* child return value */
294	>	if (accumulate == 1) {
295	>	waitflush = xres = 1;
296	>	account = accumulate = 1;
297	>	} else { /* parent controls accumulation */
298	>	waitflush = xres = 0;
299	>	account = accumulate = 0;
300	>	}
301	>	return(1); /* return "true" in child */
302		}
303	<	if (pid < 0)
304	<	error(SYSTEM, "fork() call failed!");
305	<	/* connect parent's pipes */
306	<	close(p0[0]); close(p1[1]);
307	<	kida[nchild].r = p1[0];
289	<	kida[nchild].w = p0[1];
290	<	kida[nchild].pid = pid;
291	<	kida[nchild].running = -1;
292	<	inq_fp[nchild] = fdopen(p1[0], "rb");
293	<	if (inq_fp[nchild] == NULL)
303	>	if (rval != PIPE_BUF)
304	>	error(CONSISTENCY, "bad value from open_process()");
305	>	/* connect to child's output */
306	>	kida[nchild].infp = fdopen(kidpr[nchild].r, "rb");
307	>	if (kida[nchild].infp == NULL)
308		error(SYSTEM, "out of memory in in_rchild()");
309	+	kida[nchild++].nr = 0; /* mark as available */
310	+	}
311		#ifdef getc_unlocked
312	<	flockfile(inq_fp[nchild]); /* avoid mutex overhead */
312	>	for (rval = nchild; rval--; ) /* avoid mutex overhead */
313	>	flockfile(kida[rval].infp);
314		#endif
315	<	++nchild;
299	<	}
300	<	return(0); /* parent return value */
301	<	#endif
315	>	return(0); /* return "false" in parent */
316		}
317
318
319		/* Close child processes */
320		void
321	<	end_children()
321	>	end_children(int immed)
322		{
323	<	int status;
324	<
325	<	while (nchild-- > 0) {
326	<	kida[nchild].r = -1; /* close(-1) error is ignored */
327	<	if ((status = close_process(&kida[nchild])) > 0) {
328	<	sprintf(errmsg,
329	<	"rendering process returned bad status (%d)",
330	<	status);
323	>	int i;
324	>
325	>	#ifdef SIGKILL /* error mode -- quick exit */
326	>	for (i = nchild*immed; i-- > 0; )
327	>	kill(kidpr[nchild].pid, SIGKILL);
328	>	#endif
329	>	if ((i = close_processes(kidpr, nchild)) > 0 && !immed) {
330	>	sprintf(errmsg, "rendering process returned bad status (%d)",
331	>	i);
332		error(WARNING, errmsg);
318	–	}
319	–	fclose(inq_fp[nchild]); /* performs actual close() */
333		}
334	+	while (nchild-- > 0)
335	+	fclose(kida[nchild].infp);
336		}
337
338
339	<	/* Wait for the next available child, managing output queue as well */
339	>	/* Wait for the next available child, managing output queue simultaneously */
340		static int
341	<	next_child_nq(int force_wait)
341	>	next_child_nq(int flushing)
342		{
343		static struct timeval polling;
344		struct timeval *pmode;
345		fd_set readset, errset;
346	<	int i, j, n, nr, nqr;
346	>	int i, n, nr, nqr;
347
348	<	if (!force_wait) /* see if there's one free */
348	>	if (!flushing) /* see if there's one free */
349		for (i = nchild; i--; )
350	<	if (kida[i].running < 0)
350	>	if (!kida[i].nr)
351		return(i);
352
353	<	nqr = queue_ready(); /* wait mode or polling? */
354	<	if (!nqr \| force_wait \| (accumulate <= 0))
340	<	pmode = NULL;
341	<	else
353	>	nqr = queue_ready(); /* choose blocking mode or polling */
354	>	if ((nqr > 0) & !flushing)
355		pmode = &polling;
356	<	tryagain:
357	<	n = 0; /* catch up with output? */
358	<	if ((pmode == &polling) & (nqr > nchild))
359	<	n = nqr - nchild;
360	<	if ((pmode == NULL) & (nqr > 0) \| (n > 0))
361	<	nqr -= output_catchup(n);
356	>	else
357	>	pmode = NULL;
358	>	tryagain: /* catch up with output? */
359	>	if (pmode == &polling) {
360	>	if (nqr > nchild) /* don't get too far behind */
361	>	nqr -= output_catchup(nqr-nchild);
362	>	} else if (nqr > 0) /* clear output before blocking */
363	>	nqr -= output_catchup(0);
364		/* prepare select() call */
365		FD_ZERO(&readset); FD_ZERO(&errset);
366		n = nr = 0;
367		for (i = nchild; i--; ) {
368	<	if (kida[i].running > 0) {
369	<	FD_SET(kida[i].r, &readset);
368	>	if (kida[i].nr) {
369	>	FD_SET(kidpr[i].r, &readset);
370		++nr;
371		}
372	<	FD_SET(kida[i].r, &errset);
373	<	if (kida[i].r >= n)
374	<	n = kida[i].r + 1;
372	>	FD_SET(kidpr[i].r, &errset);
373	>	if (kidpr[i].r >= n)
374	>	n = kidpr[i].r + 1;
375		}
376		if (!nr) /* nothing to wait for? */
377		return(-1);
378		if ((nr > 1) \| (pmode == &polling)) {
379		errno = 0;
380	<	i = select(n, &readset, NULL, &errset, pmode);
381	<	if (!i) {
380	>	nr = select(n, &readset, NULL, &errset, pmode);
381	>	if (!nr) {
382		pmode = NULL; /* try again, blocking this time */
383		goto tryagain;
384		}
385	<	if (i < 0)
385	>	if (nr < 0)
386		error(SYSTEM, "select() error in next_child_nq()");
387		} else
388		FD_ZERO(&errset);
389		n = -1; /* read results from child(ren) */
390		for (i = nchild; i--; ) {
391	<	BINQ *bq;
377	<	if (FD_ISSET(kida[i].r, &errset))
391	>	if (FD_ISSET(kidpr[i].r, &errset))
392		error(USER, "rendering process died");
393	<	if (!FD_ISSET(kida[i].r, &readset))
394	<	continue;
381	<	bq = new_binq(); /* get results holder */
382	<	bq->ndx = kida[i].running;
383	<	/* read from child */
384	<	for (j = 0; j < nmods; j++) {
385	<	nr = bq->mca[j]->nbins;
386	<	if (fread(bq->mca[j]->cbin, sizeof(DCOLOR), nr,
387	<	inq_fp[i]) != nr)
388	<	error(SYSTEM, "read error from render process");
389	<	}
390	<	queue_output(bq); /* add results to output queue */
391	<	kida[i].running = -1; /* mark child as available */
392	<	n = i;
393	>	if (FD_ISSET(kidpr[i].r, &readset))
394	>	queue_results(n = i);
395		}
396		return(n); /* first available child */
397		}
#	Line 399 \| Line 401 \| tryagain:
401		void
402		parental_loop()
403		{
404	<	static int ignore_warning_given = 0;
405	<	FVECT orgdir[2];
406	<	double d;
407	<	int i;
404	>	const int qlimit = (accumulate == 1) ? 1 : MAXIQ-1;
405	>	int ninq = 0;
406	>	FVECT orgdir[2*MAXIQ];
407	>	int i, n;
408		/* load rays from stdin & process */
409		#ifdef getc_unlocked
410		flockfile(stdin); /* avoid lock/unlock overhead */
411		#endif
412	<	while (getvec(orgdir[0]) == 0 && getvec(orgdir[1]) == 0) {
413	<	d = normalize(orgdir[1]);
414	<	/* asking for flush? */
415	<	if ((d == 0.0) & (accumulate != 1)) {
416	<	if (!ignore_warning_given++)
417	<	error(WARNING,
418	<	"dummy ray(s) ignored during accumulation\n");
419	<	continue;
412	>	while (getvec(orgdir[2ninq]) == 0 && getvec(orgdir[2ninq+1]) == 0) {
413	>	const int zero_ray = orgdir[2*ninq+1][0] == 0.0 &&
414	>	(orgdir[2*ninq+1][1] == 0.0) &
415	>	(orgdir[2*ninq+1][2] == 0.0);
416	>	ninq += !zero_ray;
417	>	/* Zero ray cannot go in input queue */
418	>	if (zero_ray ? ninq : ninq >= qlimit \|\|
419	>	lastray/accumulate != (lastray+ninq)/accumulate) {
420	>	i = next_child_nq(0); /* manages output */
421	>	n = ninq;
422	>	if (accumulate > 1) /* need terminator? */
423	>	memset(orgdir[2n++], 0, sizeof(FVECT)2);
424	>	n = sizeof(FVECT)2; /* send assignment */
425	>	if (writebuf(kidpr[i].w, (char *)orgdir, n) != n)
426	>	error(SYSTEM, "pipe write error");
427	>	kida[i].r1 = lastray+1;
428	>	lastray += kida[i].nr = ninq; /* mark as busy */
429	>	if (lastray < lastdone) { /* RNUMBER wrapped? */
430	>	while (next_child_nq(1) >= 0)
431	>	;
432	>	lastray -= ninq;
433	>	lastdone = lastray %= accumulate;
434	>	}
435	>	ninq = 0;
436		}
437	<	if ((d == 0.0) \| (lastray+1 < lastray)) {
438	<	while (next_child_nq(1) >= 0)
439	<	; /* clear the queue */
440	<	lastdone = lastray = 0;
441	<	}
442	<	if (d == 0.0) {
443	<	if ((yres <= 0) \| (xres <= 0))
444	<	waitflush = 1; /* flush right after */
437	>	if (zero_ray) { /* put bogus record? */
438	>	if ((yres <= 0) \| (xres <= 1) &&
439	>	(lastray+1) % accumulate == 0) {
440	>	while (next_child_nq(1) >= 0)
441	>	; /* clear the queue */
442	>	lastdone = lastray = accumulate-1;
443	>	waitflush = 1; /* flush next */
444	>	}
445		put_zero_record(++lastray);
428	–	} else { /* else assign ray */
429	–	i = next_child_nq(0);
430	–	if (writebuf(kida[i].w, (char *)orgdir,
431	–	sizeof(orgdir)) != sizeof(orgdir))
432	–	error(SYSTEM, "pipe write error");
433	–	kida[i].running = ++lastray;
446		}
447	<	if (raysleft && !--raysleft)
447	>	if (!morays())
448		break; /* preemptive EOI */
449		}
450		while (next_child_nq(1) >= 0) /* empty results queue */
451		;
452	<	/* output accumulated record */
453	<	if (accumulate <= 0 \|\| account < accumulate) {
454	<	if (account < accumulate) {
443	<	error(WARNING, "partial accumulation in final record");
444	<	accumulate -= account;
445	<	}
446	<	for (i = 0; i < nmods; i++)
447	<	mod_output(out_bq->mca[i]);
448	<	end_record();
449	<	free_binq(out_bq);
452	>	if (account < accumulate) {
453	>	error(WARNING, "partial accumulation in final record");
454	>	free_binq(out_bq); /* XXX just ignore it */
455		out_bq = NULL;
456		}
457	+	free_binq(NULL); /* clean up */
458	+	lu_done(&ofiletab);
459		if (raysleft)
460		error(USER, "unexpected EOF on input");
461	<	free_binq(NULL); /* clean up */
461	>	}
462	>
463	>
464	>	/* Wait for the next available child by monitoring "to" pipes */
465	>	static int
466	>	next_child_ready()
467	>	{
468	>	fd_set writeset, errset;
469	>	int i, n;
470	>
471	>	for (i = nchild; i--; ) /* see if there's one free first */
472	>	if (!kida[i].nr)
473	>	return(i);
474	>	/* prepare select() call */
475	>	FD_ZERO(&writeset); FD_ZERO(&errset);
476	>	n = 0;
477	>	for (i = nchild; i--; ) {
478	>	FD_SET(kidpr[i].w, &writeset);
479	>	FD_SET(kidpr[i].r, &errset);
480	>	if (kidpr[i].w >= n)
481	>	n = kidpr[i].w + 1;
482	>	if (kidpr[i].r >= n)
483	>	n = kidpr[i].r + 1;
484	>	}
485	>	errno = 0;
486	>	n = select(n, NULL, &writeset, &errset, NULL);
487	>	if (n < 0)
488	>	error(SYSTEM, "select() error in next_child_ready()");
489	>	n = -1; /* identify waiting child */
490	>	for (i = nchild; i--; ) {
491	>	if (FD_ISSET(kidpr[i].r, &errset))
492	>	error(USER, "rendering process died");
493	>	if (FD_ISSET(kidpr[i].w, &writeset))
494	>	kida[n = i].nr = 0;
495	>	}
496	>	return(n); /* first available child */
497	>	}
498	>
499	>
500	>	/* Modified parental loop for full accumulation mode (-c 0) */
501	>	void
502	>	feeder_loop()
503	>	{
504	>	static int ignore_warning_given = 0;
505	>	int ninq = 0;
506	>	FVECT orgdir[2*MAXIQ];
507	>	int i, n;
508	>	/* load rays from stdin & process */
509	>	#ifdef getc_unlocked
510	>	flockfile(stdin); /* avoid lock/unlock overhead */
511	>	#endif
512	>	while (getvec(orgdir[2ninq]) == 0 && getvec(orgdir[2ninq+1]) == 0) {
513	>	if (orgdir[2ninq+1][0] == 0.0 && / asking for flush? */
514	>	(orgdir[2*ninq+1][1] == 0.0) &
515	>	(orgdir[2*ninq+1][2] == 0.0)) {
516	>	if (!ignore_warning_given++)
517	>	error(WARNING,
518	>	"dummy ray(s) ignored during accumulation\n");
519	>	continue;
520	>	}
521	>	if (++ninq >= MAXIQ) {
522	>	i = next_child_ready(); /* get eager child */
523	>	n = sizeof(FVECT)2 ninq; /* give assignment */
524	>	if (writebuf(kidpr[i].w, (char *)orgdir, n) != n)
525	>	error(SYSTEM, "pipe write error");
526	>	kida[i].r1 = lastray+1;
527	>	lastray += kida[i].nr = ninq;
528	>	if (lastray < lastdone) /* RNUMBER wrapped? */
529	>	lastdone = lastray = 0;
530	>	ninq = 0;
531	>	}
532	>	if (!morays())
533	>	break; /* preemptive EOI */
534	>	}
535	>	if (ninq) { /* polish off input */
536	>	i = next_child_ready();
537	>	n = sizeof(FVECT)2 ninq;
538	>	if (writebuf(kidpr[i].w, (char *)orgdir, n) != n)
539	>	error(SYSTEM, "pipe write error");
540	>	kida[i].r1 = lastray+1;
541	>	lastray += kida[i].nr = ninq;
542	>	ninq = 0;
543	>	}
544	>	memset(orgdir, 0, sizeof(FVECT)2); / get results */
545	>	for (i = nchild; i--; ) {
546	>	writebuf(kidpr[i].w, (char )orgdir, sizeof(FVECT)2);
547	>	queue_results(i);
548	>	}
549	>	if (recover) /* and from before? */
550	>	queue_modifiers();
551	>	end_children(0); /* free up file descriptors */
552	>	for (i = 0; i < nmods; i++)
553	>	mod_output(out_bq->mca[i]); /* output accumulated record */
554	>	end_record();
555	>	free_binq(out_bq); /* clean up */
556	>	out_bq = NULL;
557	>	free_binq(NULL);
558		lu_done(&ofiletab);
559	+	if (raysleft)
560	+	error(USER, "unexpected EOF on input");
561		}

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Comparing ray/src/rt/rc3.c (file contents): Revision 2.4 by greg, Mon Jun 11 05:07:55 2012 UTC vs. Revision 2.24 by greg, Wed Sep 9 21:28:19 2020 UTC

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Comparing ray/src/rt/rc3.c (file contents):
Revision 2.4 by greg, Mon Jun 11 05:07:55 2012 UTC vs.
Revision 2.24 by greg, Wed Sep 9 21:28:19 2020 UTC