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source: GTP/trunk/Lib/Vis/Preprocessing/src/IntelRayCaster.cpp @ 1983

Revision 1983, 5.0 KB checked in by bittner, 17 years ago (diff)
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1	#include "IntelRayCaster.h"
2	#include "VssRay.h"
3	#include "Preprocessor.h"
4	#include "SceneGraph.h"
5
6	#ifdef GTP_INTERNAL
7	#include "ArchModeler2MLRT.hxx"
8
9	#define DEBUG_RAYCAST 0
10
11
12	namespace GtpVisibilityPreprocessor {
13
14
15	IntelRayCaster::IntelRayCaster(const Preprocessor &preprocessor,
16	const string externKdTree):
17	RayCaster(preprocessor)
18	{
19	InitRayCast(externKdTree);
20	}
21
22
23	IntelRayCaster::~IntelRayCaster()
24	{
25	}
26
27
28	bool IntelRayCaster::InitRayCast(const string externKdTree)
29	{
30	cout<<"Ray Cast file: " << externKdTree << endl;
31	return mlrtaLoadAS(externKdTree.c_str());
32	}
33
34
35	int IntelRayCaster::CastRay(
36	const SimpleRay &simpleRay,
37	VssRayContainer &vssRays,
38	const AxisAlignedBox3 &box,
39	const bool castDoubleRay,
40	const bool pruneInvalidRays
41	)
42	{
43	//cout << "intel ray" << endl;
44	VssRay *vssRay = NULL;
45	int hits = 0;
46	int hittriangle;
47	Intersection hitA(simpleRay.mOrigin), hitB(simpleRay.mOrigin);
48
49	float dist;
50	double normal[3];
51
52	hittriangle = mlrtaIntersectAS(
53	&simpleRay.mOrigin.x,
54	&simpleRay.mDirection.x,
55	normal,
56	dist);
57
58	if (hittriangle != -1 ) {
59	Intersectable *intersect = mPreprocessor.GetParentObject(hittriangle);
60
61	if (intersect)
62	{
63	hitA.mObject = intersect;
64	hitA.mNormal = Vector3(normal[0], normal[1], normal[2]);
65	// Get the normal of that face
66	// Mesh mesh = ((MeshInstance )objectA)->GetMesh();
67	// normalA = mesh->GetFacePlane(mFaceParents[forward_hit_triangles[i]].mFaceIndex).mNormal;
68	//-rays[index+i].mDirection; // $$ temporary
69	hitA.mPoint = simpleRay.Extrap(dist);
70	}
71	}
72
73	if (castDoubleRay)
74	{
75	Vector3 dir = -simpleRay.mDirection;
76	hittriangle = mlrtaIntersectAS(
77	&simpleRay.mOrigin.x,
78	&dir.x,
79	normal,
80	dist);
81
82	Intersectable *intersect = mPreprocessor.GetParentObject(hittriangle);
83
84	if (intersect)
85	{
86	hitB.mObject = intersect;
87	hitB.mNormal = Vector3(normal[0], normal[1], normal[2]);
88	// Get the normal of that face
89	// Mesh mesh = ((MeshInstance )objectB)->GetMesh();
90	// normalA = mesh->GetFacePlane(mFaceParents[forward_hit_triangles[i]].mFaceIndex).mNormal;
91	//-rays[index+i].mDirection; // $$ temporary
92	hitB.mPoint = simpleRay.Extrap(dist);
93	}
94	}
95
96	return ProcessRay(
97	simpleRay,
98	hitA,
99	hitB,
100	vssRays,
101	box,
102	castDoubleRay,
103	pruneInvalidRays
104	);
105	}
106
107
108	void IntelRayCaster::CastRays16(
109	SimpleRayContainer &rays,
110	VssRayContainer &vssRays,
111	const AxisAlignedBox3 &sbox,
112	const bool castDoubleRay,
113	const bool pruneInvalidRays)
114	{
115	int i;
116	const int num = 16;
117
118	#if DEBUG_RAYCAST
119	Debug<<"C16 "<<flush;
120	static int counter=0;
121	Debug<<counter++<<endl;
122	#endif
123
124	int forward_hit_triangles[16];
125	float forward_dist[16];
126
127	int backward_hit_triangles[16];
128	float backward_dist[16];
129
130
131	Vector3 min = mPreprocessor.mSceneGraph->GetBox().Min();
132	Vector3 max = mPreprocessor.mSceneGraph->GetBox().Max();
133
134	for (i=0; i < num; i++) {
135	#if DEBUG_RAYCAST
136	if (counter == 43964) {
137	Debug<<rays[i].mOrigin<<" "<<rays[i].mDirection<<endl;
138	}
139	#endif
140	mlrtaStoreRayAS16(&rays[i].mOrigin.x,
141	&rays[i].mDirection.x,
142	i);
143	}
144
145	#if DEBUG_RAYCAST
146	Debug<<"TA\n"<<flush;
147	#endif
148
149	mlrtaTraverseGroupAS16(&min.x,
150	&max.x,
151	forward_hit_triangles,
152	forward_dist);
153
154	#if DEBUG_RAYCAST
155	Debug<<"TAB\n"<<flush;
156	#endif
157
158	if (castDoubleRay) {
159	for (i=0; i < num; i++) {
160	Vector3 dir = -rays[i].mDirection;
161	mlrtaStoreRayAS16(&rays[i].mOrigin.x,
162	&dir.x,
163	i);
164	}
165
166	#if DEBUG_RAYCAST
167	Debug<<"TB\n"<<flush;
168	#endif
169
170	mlrtaTraverseGroupAS16(&min.x,
171	&max.x,
172	backward_hit_triangles,
173	backward_dist);
174	}
175
176	#if DEBUG_RAYCAST
177	Debug<<"BBB\n"<<flush;
178	#endif
179
180	for (i=0; i < num; i++)
181	{
182	Intersection hitA(rays[i].mOrigin), hitB(rays[i].mOrigin);
183
184	#if DEBUG_RAYCAST
185	Debug<<"FH\n"<<flush;
186	#endif
187	Intersectable *intersect = mPreprocessor.GetParentObject(forward_hit_triangles[i]);
188
189	if (intersect)
190	{
191	hitA.mObject = intersect;
192	// Get the normal of that face
193	hitA.mNormal = mPreprocessor.GetParentNormal(forward_hit_triangles[i]);
194
195	//-rays[index+i].mDirection; // $$ temporary
196	hitA.mPoint = rays[i].Extrap(forward_dist[i]);
197	}
198
199	#if DEBUG_RAYCAST
200	Debug<<"BH\n"<<flush;
201	#endif
202
203	if (castDoubleRay)
204	{
205	Intersectable *intersect = mPreprocessor.GetParentObject(backward_hit_triangles[i]);
206
207	if (intersect)
208	{
209	hitB.mObject = intersect;
210	hitB.mNormal = mPreprocessor.GetParentNormal(backward_hit_triangles[i]);
211
212	// normalB = rays[i].mDirection; // $$ temporary
213	hitB.mPoint = rays[i].Extrap(-backward_dist[i]);
214	}
215	}
216
217	#if DEBUG_RAYCAST
218	Debug<<"PR\n"<<flush;
219	#endif
220
221	ProcessRay(rays[i],
222	hitA,
223	hitB,
224	vssRays,
225	sbox,
226	castDoubleRay,
227	pruneInvalidRays
228	);
229	}
230
231	#if DEBUG_RAYCAST
232	Debug<<"C16F\n"<<flush;
233	#endif
234	}
235
236	}
237
238	#endif

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