[ViewVC] Diff of: radiance/ray/src/rt/RtraceSimulManager.cpp

Comparing ray/src/rt/RtraceSimulManager.cpp (file contents):
Revision 2.4 by greg, Wed Aug 2 00:04:31 2023 UTC vs.
Revision 2.21 by greg, Sat Nov 9 00:10:49 2024 UTC

#	Line 9 \| Line 9 \| static const char RCSid[] = "$Id$";
9		* Created by Greg Ward on 2/2/2023.
10		*/
11
12	+	#include <unistd.h>
13	+	#include <ctype.h>
14		#include "RtraceSimulManager.h"
15		#include "source.h"
16
15	–	extern int castonly; // doing ray-casting only?
16	–
17		// Load octree and prepare renderer
18		bool
19		RadSimulManager::LoadOctree(const char *octn)
#	Line 21 \| Line 21 \| *RadSimulManager::LoadOctree(const char octn)**
21		if (octname) { // already running?
22		if (octn && !strcmp(octn, octname))
23		return true;
24	<	Cleanup(false);
24	>	Cleanup();
25		}
26	<	if (!octn)
26	>	if (!octn) // don't support stdin octree
27		return false;
28
29	+	NewHeader(octn); // get octree header
30		ray_init((char *)octn);
31		return true;
32		}
33
34	<	// How many processors are there?
34	>	// callback function for loading header
35	>	static int
36	>	add2header(char str, void p)
37	>	{
38	>	if (isheadid(str))
39	>	return 0;
40	>	if (isformat(str))
41	>	return 0;
42	>
43	>	return ((RadSimulManager )p).AddHeader(str);
44	>	}
45	>
46	>	// Prepare header from previous input (or clear)
47	>	// Normally called during octree load
48	>	bool
49	>	RadSimulManager::NewHeader(const char *inspec)
50	>	{
51	>	if (hlen) {
52	>	free(header); header = NULL; hlen = 0;
53	>	}
54	>	if (!inspec \|\| !*inspec)
55	>	return false;
56	>	if (inspec[0] == '!') // save command as header?
57	>	return AddHeader(inspec+1);
58	>	// attempt to read from file
59	>	FILE *fp = fopen(inspec, "rb");
60	>	if (!fp) return false;
61	>	bool ok = (getheader(fp, add2header, this) >= 0);
62	>	fclose(fp);
63	>	return ok;
64	>	}
65	>
66	>	// Add a string to header (adds newline if missing)
67	>	bool
68	>	RadSimulManager::AddHeader(const char *str)
69	>	{
70	>	if (!str) return false;
71	>	int len = strlen(str);
72	>	while (len && (str[len-1] == '\n') \| (str[len-1] == '\r'))
73	>	--len; // don't copy EOL(s)
74	>	if (!len)
75	>	return false;
76	>	if (hlen)
77	>	header = (char *)realloc(header, hlen+len+2);
78	>	else
79	>	header = (char *)malloc(len+2);
80	>	if (!header) {
81	>	hlen = 0; // XXX should report?
82	>	return false;
83	>	}
84	>	memcpy(header+hlen, str, len);
85	>	hlen += len;
86	>	header[hlen++] = '\n'; // add single EOL
87	>	header[hlen] = '\0';
88	>	return true;
89	>	}
90	>
91	>	// helper function to check for white-space and quotations
92	>	static int
93	>	check_special(const char *s)
94	>	{
95	>	int space_found = 0;
96	>
97	>	while (*s) {
98	>	if ((s == '"') \| (s == '\''))
99	>	return *s; // quotes have priority
100	>	if (isspace(*s))
101	>	space_found = *s;
102	>	s++;
103	>	}
104	>	return space_found;
105	>	}
106	>
107	>	// Append program line to header
108	>	bool
109	>	RadSimulManager::AddHeader(int ac, char *av[])
110	>	{
111	>	if ((ac <= 0) \| !av) return false;
112	>	int len = 0;
113	>	int n;
114	>	for (n = 0; n < ac; n++) {
115	>	if (!av[n]) return false;
116	>	len += strlen(av[n]) + 3;
117	>	}
118	>	if (hlen) // add to header
119	>	header = (char *)realloc(header, hlen+len+1);
120	>	else
121	>	header = (char *)malloc(len+1);
122	>
123	>	for (n = 0; n < ac; n++) {
124	>	int c = check_special(av[n]);
125	>	len = strlen(av[n]);
126	>	if (c \| !len) { // need to quote argument?
127	>	if ((c == '"') \| (c == '\n')) c = '\'';
128	>	else c = '"';
129	>	header[hlen++] = c;
130	>	strcpy(header+hlen, av[n]);
131	>	hlen += len;
132	>	header[hlen++] = c;
133	>	} else {
134	>	strcpy(header+hlen, av[n]);
135	>	hlen += len;
136	>	}
137	>	header[hlen++] = ' ';
138	>	}
139	>	header[hlen-1] = '\n'; // terminate line
140	>	header[hlen] = '\0';
141	>	return true;
142	>	}
143	>
144	>	// Look for specific header keyword, return value
145	>	const char *
146	>	RadSimulManager::GetHeadStr(const char *key, bool inOK) const
147	>	{
148	>	if (!key \| !hlen \|\| strchr(key, '\n'))
149	>	return NULL;
150	>	if (inOK) // skip leading spaces?
151	>	while (isspace(*key)) key++;
152	>
153	>	const int klen = strlen(key);
154	>	if (!klen)
155	>	return NULL;
156	>	const char * cp = header;
157	>	while (*cp) {
158	>	if (inOK) { // skip leading spaces?
159	>	while (isspace(cp) && cp++ != '\n')
160	>	;
161	>	if (cp[-1] == '\n')
162	>	continue;
163	>	}
164	>	if (!strncmp(cp, key, klen))
165	>	return cp+klen; // found it!
166	>
167	>	while (cp && cp++ != '\n')
168	>	;
169	>	}
170	>	return NULL;
171	>	}
172	>
173	>	// How many processors are available?
174		int
175		RadSimulManager::GetNCores()
176		{
177	<	return 1; // XXX temporary
177	>	return sysconf(_SC_NPROCESSORS_ONLN);
178		}
179
180		// Set number of computation threads (0 => #cores)
181		int
182		RadSimulManager::SetThreadCount(int nt)
183		{
184	<	return nThreads = 1; // XXX temporary
184	>	if (!Ready())
185	>	return 0;
186	>
187	>	if (nt <= 0) nt = castonly ? 1 : GetNCores();
188	>
189	>	if (nt == 1)
190	>	ray_pclose(ray_pnprocs);
191	>	else if (nt < ray_pnprocs)
192	>	ray_pclose(ray_pnprocs - nt);
193	>	else if (nt > ray_pnprocs)
194	>	ray_popen(nt - ray_pnprocs);
195	>
196	>	return NThreads();
197		}
198
199		// Assign ray to subthread (fails if NThreads()<2)
200		bool
201		RadSimulManager::SplitRay(RAY *r)
202		{
203	<	if (NThreads() < 2 \|\| ThreadsAvailable() < 1)
203	>	if (!ray_pnprocs \|\| ThreadsAvailable() < 1)
204		return false;
205
206	<	return false; // UNIMPLEMENTED
206	>	return (ray_psend(r) > 0);
207		}
208
209		// Process a ray (in subthread), optional result
210		bool
211		RadSimulManager::ProcessRay(RAY *r)
212		{
213	<	if (!r \|\| !Ready()) return false;
214	<	if (NThreads() < 2) { // single-threaded mode?
213	>	if (!Ready()) return false;
214	>
215	>	if (!ray_pnprocs) { // single-threaded mode?
216		samplendx++;
217		rayvalue(r);
218		return true;
219		}
220	<	if (ThreadsAvailable() >= 1) {
221	<	SplitRay(r); // queue not yet full
220	>	int rv = ray_pqueue(r);
221	>	if (rv < 0) {
222	>	error(WARNING, "ray tracing process(es) died");
223		return false;
224		}
225	<	RAY toDo = *r;
72	<	if (!WaitResult(r)) // need a free thread
73	<	return false;
74	<	SplitRay(&toDo); // queue up new ray
75	<	return true; // return older result
225	>	return (rv > 0);
226		}
227
228		// Wait for next result (or fail)
229		bool
230		RadSimulManager::WaitResult(RAY *r)
231		{
232	<	return false; // UNIMPLEMENTED
232	>	if (!ray_pnprocs)
233	>	return false;
234	>
235	>	return (ray_presult(r, 0) > 0);
236		}
237
238		// Close octree, free data, return status
239		int
240		RadSimulManager::Cleanup(bool everything)
241		{
242	<	ray_done(everything);
242	>	if (ray_pnprocs < 0)
243	>	return 0; // skip in child process
244	>	NewHeader();
245	>	if (!ray_pnprocs)
246	>	ray_done(everything);
247	>	else
248	>	ray_pdone(everything);
249		return 0;
250		}
251
#	Line 94 \| Line 253 \| RadSimulManager::Cleanup(bool everything)
253		int
254		RadSimulManager::ThreadsAvailable() const
255		{
256	<	return 1; // XXX temporary
256	>	if (!ray_pnprocs) return 1;
257	>
258	>	return ray_pnidle;
259		}
260
261		// Global pointer to simulation manager for trace call-back (only one)
262		static const RtraceSimulManager * ourRTsimMan = NULL;
263
264	<	void // static call-back
264	>	// Call-back for trace output
265	>	void
266		RtraceSimulManager::RTracer(RAY *r)
267		{
268		(*ourRTsimMan->traceCall)(r, ourRTsimMan->tcData);
269		}
270
271	+	// Call-back for FIFO output
272	+	int
273	+	RtraceSimulManager::Rfifout(RAY *r)
274	+	{
275	+	return (*ourRTsimMan->cookedCall)(r, ourRTsimMan->ccData);
276	+	}
277	+
278		// Check for changes to render flags & adjust accordingly
279		bool
280		RtraceSimulManager::UpdateMode()
281		{
113	–	rtFlags &= RTmask;
282		if (!cookedCall)
283		rtFlags &= ~RTdoFIFO;
284		if (!traceCall)
#	Line 118 \| Line 286 \| RtraceSimulManager::UpdateMode()
286		if (rtFlags & RTimmIrrad)
287		rtFlags &= ~RTlimDist;
288
289	<	int misMatch = rtFlags ^ curFlags;
289	>	int misMatch = (rtFlags ^ curFlags) & RTmask;
290		// updates based on toggled flags
291	<	if (misMatch & RTtraceSources) {
291	>	if (((misMatch & RTtraceSources) != 0) & (nsources > 0)) {
292	>	int nt = NThreads();
293	>	if (nt > 1) {
294	>	if (FlushQueue() < 0)
295	>	return false;
296	>	SetThreadCount(1);
297	>	}
298	>	int sn = nsources;
299		if (rtFlags & RTtraceSources) {
300	<	for (int sn = 0; sn < nsources; sn++)
300	>	srcFollowed.NewBitMap(nsources);
301	>	while (sn--) {
302	>	if (source[sn].sflags & SFOLLOW)
303	>	continue;
304		source[sn].sflags \|= SFOLLOW;
305	<	} else // cannot undo this...
306	<	rtFlags \|= RTtraceSources;
305	>	srcFollowed.Set(sn);
306	>	}
307	>	} else {
308	>	while (sn--)
309	>	if (srcFollowed.Check(sn))
310	>	source[sn].sflags &= ~SFOLLOW;
311	>	srcFollowed.NewBitMap(0);
312	>	}
313	>	if (nt > 1) SetThreadCount(nt);
314		}
315		if (misMatch & RTdoFIFO && FlushQueue() < 0)
316		return false;
317		curFlags = rtFlags;
318	<	// update trace callback
319	<	if (traceCall) {
135	<	if (ourRTsimMan && ourRTsimMan != this)
136	<	error(WARNING, "Competing top-level simulation managers?");
137	<	ourRTsimMan = this;
318	>	// update callbacks
319	>	if (traceCall)
320		trace = RTracer;
321	<	} else if (ourRTsimMan == this) {
321	>	else if (trace == RTracer)
322		trace = NULL;
323	+	if (rtFlags & RTdoFIFO)
324	+	ray_fifo_out = Rfifout;
325	+	else if (ray_fifo_out == Rfifout)
326	+	ray_fifo_out = NULL;
327	+	if ((trace != RTracer) & (ray_fifo_out != Rfifout)) {
328		ourRTsimMan = NULL;
329	+	} else if (ourRTsimMan != this) {
330	+	if (ourRTsimMan)
331	+	error(WARNING, "Competing top-level simulation managers?");
332	+	ourRTsimMan = this;
333		}
334		return true;
335		}
336
337		extern "C" int m_normal(OBJREC m, RAY r);
338
339	<	/* compute irradiance rather than radiance */
339	>	// compute irradiance rather than radiance
340		static void
341		rayirrad(RAY *r)
342		{
#	Line 162 \| Line 353 \| *rayirrad(RAY r)**
353		r->revf = rayirrad;
354		}
355
356	<	/* compute first ray intersection only */
356	>	// compute first ray intersection only
357		static void
358		raycast(RAY *r)
359		{
#	Line 175 \| Line 366 \| *raycast(RAY r)**
366		}
367		}
368
178	–	// Add a ray result to FIFO, flushing what we can
179	–	int
180	–	RtraceSimulManager::QueueResult(const RAY &ra)
181	–	{
182	–	return 0; // UNIMPLEMENTED
183	–	}
184	–
369		// Add ray bundle to queue w/ optional 1st ray ID
370		int
371		RtraceSimulManager::EnqueueBundle(const FVECT orig_direc[], int n, RNUMBER rID0)
#	Line 193 \| Line 377 \| RtraceSimulManager::EnqueueBundle(const FVECT orig_dir
377		return -1;
378
379		if (castonly && !cookedCall)
380	<	error(CONSISTENCY, "EnqueueBundle() called in castonly mode without cookedCall");
380	>	error(INTERNAL, "EnqueueBundle() called in castonly mode without cookedCall");
381
382		if (!UpdateMode()) // update rendering mode if requested
383		return -1;
384
385	+	if (rID0 && curFlags&RTdoFIFO)
386	+	error(INTERNAL, "Ray number assignment unsupported with FIFO");
387	+
388		while (n-- > 0) { // queue each ray
389		VCOPY(res.rorg, orig_direc[0]);
390		VCOPY(res.rdir, orig_direc[1]);
391	+	res.rmax = .0;
392		orig_direc += 2;
393		rayorigin(&res, PRIMARY, NULL, NULL);
394	<	if (rID0) res.rno = rID0++;
207	<	else res.rno = ++lastRayID;
394	>	res.rno = rID0 ? (lastRayID = rID0++) : ++lastRayID;
395		if (curFlags & RTimmIrrad)
396		res.revf = rayirrad;
397		else if (castonly)
398		res.revf = raycast;
399		double d = normalize(res.rdir);
400		bool sendRes = (cookedCall != NULL);
401	<	if (d > 0) { // direction vector is valid?
401	>	if (d > .0) { // direction vector is valid?
402		if (curFlags & RTlimDist)
403		res.rmax = d;
404	<	if ((sendRes &= ProcessRay(&res)) &&
405	<	rtFlags & RTdoFIFO && NThreads() > 1) {
219	<	if (QueueResult(res) < 0)
404	>	if (((curFlags&RTdoFIFO) != 0) & (ray_pnprocs > 0)) {
405	>	if (ray_fifo_in(&res) < 0)
406		return -1;
407		sendRes = false;
408	<	}
408	>	} else
409	>	sendRes &= ProcessRay(&res);
410		} else if (ThreadsAvailable() < NThreads() &&
411		FlushQueue() < 0)
412		return -1;
413	<	if (sendRes) // may be dummy ray
414	<	(*cookedCall)(&res, ccData);
413	>	// may be dummy ray
414	>	if (sendRes && (*cookedCall)(&res, ccData) < 0)
415	>	return -1;
416		nqueued++;
417		}
418		return nqueued;
#	Line 234 \| Line 422 \| RtraceSimulManager::EnqueueBundle(const FVECT orig_dir
422		int
423		RtraceSimulManager::FlushQueue()
424		{
425	+	if (curFlags & RTdoFIFO) {
426	+	if (ray_pnprocs)
427	+	return ray_fifo_flush();
428	+	return 0;
429	+	}
430		int nsent = 0;
431		RAY res;
432
433		while (WaitResult(&res)) {
434		if (!cookedCall) continue;
435	<	if (rtFlags & RTdoFIFO) {
436	<	int ns = QueueResult(res);
437	<	if (ns < 0) return ns;
245	<	nsent += ns;
246	<	} else {
247	<	(*cookedCall)(&res, ccData);
248	<	nsent++;
249	<	}
435	>	int rv = (*cookedCall)(&res, ccData);
436	>	if (rv < 0) return -1;
437	>	nsent += rv;
438		}
439		return nsent;
440		}

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Comparing ray/src/rt/RtraceSimulManager.cpp (file contents): Revision 2.4 by greg, Wed Aug 2 00:04:31 2023 UTC vs. Revision 2.21 by greg, Sat Nov 9 00:10:49 2024 UTC

Diff Legend

Comparing ray/src/rt/RtraceSimulManager.cpp (file contents):
Revision 2.4 by greg, Wed Aug 2 00:04:31 2023 UTC vs.
Revision 2.21 by greg, Sat Nov 9 00:10:49 2024 UTC