src/rt/RtraceSimulManager.h

/* RCSid $Id: RtraceSimulManager.h,v 2.20 2024/12/16 20:18:36 greg Exp $ */
/*
 *  RtraceSimulManager.h
 *
 *      Rtrace simulation manager class declaration (along with base class)
 *      Enqueuing rays will block caller iff #rays >= ThreadsAvail()
 *      Reporting call-backs made from EnqueBundle() and FlushQueue()
 *
 *  Created by Greg Ward on 11/10/22.
 */

#ifndef RtraceSimulManager_h
#define RtraceSimulManager_h

#include "ray.h"
#include "abitmap.h"

extern char *   octname;        // global octree name

extern int      castonly;       // doing ray-casting only?

/// Ray reporting callback method -- returns # successfully reported, -1 to abort
typedef int     RayReportCall(RAY *r, void *cd);

/// Multi-threaded simulation manager base class
class RadSimulManager {
        char *                  header;                 // header (less intro and format)
        int                     hlen;                   // header string length
protected:
        bool                    SplitRay(RAY *r) {
                                        return (ray_pnprocs && ray_psend(r) > 0);
                                }
public:
                                RadSimulManager(const char *octn = NULL) {
                                        header = NULL; hlen = 0;
                                        LoadOctree(octn);
                                }
                                ~RadSimulManager() {
                                        // Cleanup();
                                }
                                /// Load octree and prepare renderer
        bool                    LoadOctree(const char *octn);
                                /// Prepare header from previous input (or clear)
                                /// Normally called during octree load
        bool                    NewHeader(const char *inspec = NULL);
                                /// Add a line to header (adds newline if none)
        bool                    AddHeader(const char *str);
                                /// Append program line to header
        bool                    AddHeader(int ac, char *av[]);
                                /// Get current header length in bytes
        int                     GetHeadLen() const {
                                        return hlen;
                                }
                                /// Get header lines or empty string
        const char *            GetHeadStr() const {
                                        return hlen ? header : "";
                                }
                                /// Look for specific header keyword, return value
        const char *            GetHeadStr(const char *key, bool inOK = false) const;
                                /// How many cores are available?
        static int              GetNCores();
                                /// Set number of computation threads (0 => #cores)
        int                     SetThreadCount(int nt = 0);
                                /// Check thread count (1 means no multi-threading)
        int                     NThreads() const {
                                        return ray_pnprocs + !ray_pnprocs;
                                }
                                /// How many threads are currently unoccupied?
        int                     ThreadsAvailable() const {
                                        return ray_pnprocs ? ray_pnidle : 1;
                                }
                                /// Are we ready?
        bool                    Ready() const {
                                        return (octname && nobjects > 0);
                                }
                                /// Process a ray (in subthread), optional result
        int                     ProcessRay(RAY *r);
                                /// Wait for next result (or fail)
        bool                    WaitResult(RAY *r);
                                /// Close octree, free data, return status
        int                     Cleanup(bool everything = false);
};

/// Flags to control rendering operations
enum {RTdoFIFO=1, RTtraceSources=2, RTlimDist=4, RTimmIrrad=8, RTmask=15};

/// rtrace-like simulation manager (at most one such object)
class RtraceSimulManager : public RadSimulManager {
        RayReportCall *         cookedCall;     // callback for cooked primary rays
        void *                  ccData;         // client data for cooked primary rays
        RayReportCall *         traceCall;      // call for every ray in tree
        void *                  tcData;         // client data for traced rays
        int                     curFlags;       // current operating flags
        ABitMap                 srcFollowed;    // source flags changed
                                // Call-back for global ray-tracing context
        static void             RTracer(RAY *r);
                                // Call-back for FIFO
        static int              Rfifout(RAY *r);
protected:
                                // Check for changes to render flags, etc.
        bool                    UpdateMode();
        RNUMBER                 lastRayID;      // last ray ID assigned
public:
        int                     rtFlags;        // operation (RT*) flags
                                RtraceSimulManager(RayReportCall *cb = NULL, void *cd = NULL,
                                                const char *octn = NULL) : RadSimulManager(octn) {
                                        lastRayID = 0;
                                        rtFlags = curFlags = 0;
                                        SetCookedCall(cb, cd);
                                        traceCall = NULL; tcData = NULL;
                                }
                                ~RtraceSimulManager() {
                                        FlushQueue();
                                }
                                /// Load octree and prepare renderer
        bool                    LoadOctree(const char *octn) {
                                        if ((octn != NULL) & (octname != NULL) &&
                                                        !strcmp(octn, octname))
                                                return true;
                                        srcFollowed.NewBitMap(0);
                                        curFlags &= ~RTtraceSources;
                                        return RadSimulManager::LoadOctree(octn);
                                }
                                /// Set number of computation threads (0 => #cores)
        int                     SetThreadCount(int nt = 0) {
                                        if (nt <= 0) nt = castonly ? 1 : GetNCores();
                                        if (nt == NThreads()) return nt;
                                        if (nt < NThreads() && FlushQueue() < 0) return 0;
                                        return RadSimulManager::SetThreadCount(nt);
                                }
                                /// Add ray bundle to queue w/ optional 1st ray ID
        int                     EnqueueBundle(const FVECT orig_direc[], int n,
                                                RNUMBER rID0 = 0);
                                /// Enqueue a single ray w/ optional ray ID
        int                     EnqueueRay(const FVECT org, const FVECT dir,
                                                RNUMBER rID = 0) {
                                        if (dir == org+1)
                                                return(EnqueueBundle((const FVECT *)org, 1, rID) > 0);
                                        FVECT   orgdir[2];
                                        VCOPY(orgdir[0], org); VCOPY(orgdir[1], dir);
                                        return EnqueueBundle(orgdir, 1, rID);
                                }
                                /// Set/change cooked ray callback
        void                    SetCookedCall(RayReportCall *cb, void *cd = NULL) {
                                        if (cookedCall && (cookedCall != cb) | (ccData != cd))
                                                FlushQueue();
                                        cookedCall = cb;
                                        ccData = cb ? cd : NULL;
                                }
                                /// Set/change trace callback
        void                    SetTraceCall(RayReportCall *cb, void *cd = NULL) {
                                        if ((cb == traceCall) & (cd == tcData)) return;
                                        int     nt = NThreads();
                                        if (nt > 1) SetThreadCount(1);
                                        traceCall = cb;
                                        tcData = cb ? cd : NULL;
                                        UpdateMode();
                                        if (nt > 1) SetThreadCount(nt);
                                }
                                /// Finish pending rays and complete callbacks (return #sent)
        int                     FlushQueue();
                                /// Close octree, free data, return status
        int                     Cleanup(bool everything = false) {
                                        int     st = RadSimulManager::Cleanup(everything);
                                        srcFollowed.NewBitMap(0);
                                        curFlags &= ~RTtraceSources;
                                        if (everything) {
                                                SetCookedCall(NULL);
                                                SetTraceCall(NULL);
                                                rtFlags &= ~RTmask;
                                        }
                                        UpdateMode();
                                        lastRayID = 0;
                                        return st;
                                }
};

/// Determine if vector is all zeroes
inline bool
IsZeroVec(const FVECT vec)
{
        return (vec[0] == 0.0) & (vec[1] == 0.0) & (vec[2] == 0.0);
}

#endif /* RtraceSimulManager_h */
Revision:	2.21
Committed:	Thu Jan 2 16:16:49 2025 UTC (4 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.20:	+21 -7 lines
Log Message:	fix(rxtrace,rxcontrib): Improvements and bug fixes in flag initialization, handling of light source tracing
#	Content
1	/* RCSid $Id: RtraceSimulManager.h,v 2.20 2024/12/16 20:18:36 greg Exp $ */
2	/*
3	* RtraceSimulManager.h
4	*
5	* Rtrace simulation manager class declaration (along with base class)
6	* Enqueuing rays will block caller iff #rays >= ThreadsAvail()
7	* Reporting call-backs made from EnqueBundle() and FlushQueue()
8	*
9	* Created by Greg Ward on 11/10/22.
10	*/
11
12	#ifndef RtraceSimulManager_h
13	#define RtraceSimulManager_h
14
15	#include "ray.h"
16	#include "abitmap.h"
17
18	extern char * octname; // global octree name
19
20	extern int castonly; // doing ray-casting only?
21
22	/// Ray reporting callback method -- returns # successfully reported, -1 to abort
23	typedef int RayReportCall(RAY r, void cd);
24
25	/// Multi-threaded simulation manager base class
26	class RadSimulManager {
27	char * header; // header (less intro and format)
28	int hlen; // header string length
29	protected:
30	bool SplitRay(RAY *r) {
31	return (ray_pnprocs && ray_psend(r) > 0);
32	}
33	public:
34	RadSimulManager(const char *octn = NULL) {
35	header = NULL; hlen = 0;
36	LoadOctree(octn);
37	}
38	~RadSimulManager() {
39	// Cleanup();
40	}
41	/// Load octree and prepare renderer
42	bool LoadOctree(const char *octn);
43	/// Prepare header from previous input (or clear)
44	/// Normally called during octree load
45	bool NewHeader(const char *inspec = NULL);
46	/// Add a line to header (adds newline if none)
47	bool AddHeader(const char *str);
48	/// Append program line to header
49	bool AddHeader(int ac, char *av[]);
50	/// Get current header length in bytes
51	int GetHeadLen() const {
52	return hlen;
53	}
54	/// Get header lines or empty string
55	const char * GetHeadStr() const {
56	return hlen ? header : "";
57	}
58	/// Look for specific header keyword, return value
59	const char * GetHeadStr(const char *key, bool inOK = false) const;
60	/// How many cores are available?
61	static int GetNCores();
62	/// Set number of computation threads (0 => #cores)
63	int SetThreadCount(int nt = 0);
64	/// Check thread count (1 means no multi-threading)
65	int NThreads() const {
66	return ray_pnprocs + !ray_pnprocs;
67	}
68	/// How many threads are currently unoccupied?
69	int ThreadsAvailable() const {
70	return ray_pnprocs ? ray_pnidle : 1;
71	}
72	/// Are we ready?
73	bool Ready() const {
74	return (octname && nobjects > 0);
75	}
76	/// Process a ray (in subthread), optional result
77	int ProcessRay(RAY *r);
78	/// Wait for next result (or fail)
79	bool WaitResult(RAY *r);
80	/// Close octree, free data, return status
81	int Cleanup(bool everything = false);
82	};
83
84	/// Flags to control rendering operations
85	enum {RTdoFIFO=1, RTtraceSources=2, RTlimDist=4, RTimmIrrad=8, RTmask=15};
86
87	/// rtrace-like simulation manager (at most one such object)
88	class RtraceSimulManager : public RadSimulManager {
89	RayReportCall * cookedCall; // callback for cooked primary rays
90	void * ccData; // client data for cooked primary rays
91	RayReportCall * traceCall; // call for every ray in tree
92	void * tcData; // client data for traced rays
93	int curFlags; // current operating flags
94	ABitMap srcFollowed; // source flags changed
95	// Call-back for global ray-tracing context
96	static void RTracer(RAY *r);
97	// Call-back for FIFO
98	static int Rfifout(RAY *r);
99	protected:
100	// Check for changes to render flags, etc.
101	bool UpdateMode();
102	RNUMBER lastRayID; // last ray ID assigned
103	public:
104	int rtFlags; // operation (RT*) flags
105	RtraceSimulManager(RayReportCall cb = NULL, void cd = NULL,
106	const char *octn = NULL) : RadSimulManager(octn) {
107	lastRayID = 0;
108	rtFlags = curFlags = 0;
109	SetCookedCall(cb, cd);
110	traceCall = NULL; tcData = NULL;
111	}
112	~RtraceSimulManager() {
113	FlushQueue();
114	}
115	/// Load octree and prepare renderer
116	bool LoadOctree(const char *octn) {
117	if ((octn != NULL) & (octname != NULL) &&
118	!strcmp(octn, octname))
119	return true;
120	srcFollowed.NewBitMap(0);
121	curFlags &= ~RTtraceSources;
122	return RadSimulManager::LoadOctree(octn);
123	}
124	/// Set number of computation threads (0 => #cores)
125	int SetThreadCount(int nt = 0) {
126	if (nt <= 0) nt = castonly ? 1 : GetNCores();
127	if (nt == NThreads()) return nt;
128	if (nt < NThreads() && FlushQueue() < 0) return 0;
129	return RadSimulManager::SetThreadCount(nt);
130	}
131	/// Add ray bundle to queue w/ optional 1st ray ID
132	int EnqueueBundle(const FVECT orig_direc[], int n,
133	RNUMBER rID0 = 0);
134	/// Enqueue a single ray w/ optional ray ID
135	int EnqueueRay(const FVECT org, const FVECT dir,
136	RNUMBER rID = 0) {
137	if (dir == org+1)
138	return(EnqueueBundle((const FVECT *)org, 1, rID) > 0);
139	FVECT orgdir[2];
140	VCOPY(orgdir[0], org); VCOPY(orgdir[1], dir);
141	return EnqueueBundle(orgdir, 1, rID);
142	}
143	/// Set/change cooked ray callback
144	void SetCookedCall(RayReportCall cb, void cd = NULL) {
145	if (cookedCall && (cookedCall != cb) \| (ccData != cd))
146	FlushQueue();
147	cookedCall = cb;
148	ccData = cb ? cd : NULL;
149	}
150	/// Set/change trace callback
151	void SetTraceCall(RayReportCall cb, void cd = NULL) {
152	if ((cb == traceCall) & (cd == tcData)) return;
153	int nt = NThreads();
154	if (nt > 1) SetThreadCount(1);
155	traceCall = cb;
156	tcData = cb ? cd : NULL;
157	UpdateMode();
158	if (nt > 1) SetThreadCount(nt);
159	}
160	/// Finish pending rays and complete callbacks (return #sent)
161	int FlushQueue();
162	/// Close octree, free data, return status
163	int Cleanup(bool everything = false) {
164	int st = RadSimulManager::Cleanup(everything);
165	srcFollowed.NewBitMap(0);
166	curFlags &= ~RTtraceSources;
167	if (everything) {
168	SetCookedCall(NULL);
169	SetTraceCall(NULL);
170	rtFlags &= ~RTmask;
171	}
172	UpdateMode();
173	lastRayID = 0;
174	return st;
175	}
176	};
177
178	/// Determine if vector is all zeroes
179	inline bool
180	IsZeroVec(const FVECT vec)
181	{
182	return (vec[0] == 0.0) & (vec[1] == 0.0) & (vec[2] == 0.0);
183	}
184
185	#endif /* RtraceSimulManager_h */