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source: GTP/trunk/Lib/Vis/Preprocessing/src/RayCaster.cpp @ 2539

Revision 2539, 8.2 KB checked in by mattausch, 17 years ago (diff)
fixed obj loading error

Rev	Line
[1520]	1	#include "RayCaster.h"
	2	#include "VssRay.h"
	3	#include "Ray.h"
	4	#include "Preprocessor.h"
[1942]	5	#include "ViewCellsManager.h"
[1520]	6
	7
	8	namespace GtpVisibilityPreprocessor {
	9
	10
	11	#define DEBUG_RAYCAST 0
	12
[1942]	13	#define EXACT_BOX_CLIPPING 0
[1520]	14
	15	RayCaster::RayCaster(const Preprocessor &preprocessor):
	16	mPreprocessor(preprocessor)
	17	{
	18	}
	19
	20
[1521]	21	RayCaster::~RayCaster()
	22	{
	23	}
	24
	25
[1545]	26	VssRay *RayCaster::CastRay(const SimpleRay &simpleRay,
[1990]	27	const AxisAlignedBox3 &box,
[1996]	28	const bool castDoubleRay)
[1521]	29	{
[1932]	30	VssRayContainer rays;
[1996]	31	CastRay(simpleRay, rays, box, castDoubleRay, true);
[1932]	32
	33	if (!rays.empty())
	34	return rays.back();
	35	else
	36	return NULL;
[1521]	37	}
	38
[1990]	39
[1942]	40	bool
	41	RayCaster::ClipToViewSpaceBox(const Vector3 &origin,
	42	const Vector3 &termination,
	43	Vector3 &clippedOrigin,
	44	Vector3 &clippedTermination)
	45	{
[1952]	46
[1942]	47	Ray ray(origin, termination - origin, Ray::LINE_SEGMENT);
	48	ray.Precompute();
	49
	50	float tmin, tmax;
	51	if ((!mPreprocessor.mViewCellsManager->
	52	GetViewSpaceBox().ComputeMinMaxT(ray, &tmin, &tmax)) \|\|
	53	tmin>=tmax
	54	)
	55	return false;
[1521]	56
[2070]	57	if (tmin >= 1.0f \|\| tmax <= 0.0f)
[1942]	58	return false;
	59
	60	if (tmin > 0.0f)
	61	clippedOrigin = ray.Extrap(tmin);
	62	else
	63	clippedOrigin = origin;
	64
	65	if (tmax < 1.0f)
	66	clippedTermination = ray.Extrap(tmax);
	67	else
	68	clippedTermination = termination;
	69
	70	return true;
	71	}
	72
[2070]	73	/** Checks if ray is valid
	74	(e.g., not in empty view space or outside the view space)
[1528]	75	*/
[1867]	76	bool
	77	RayCaster::ValidateRay(const Vector3 &origin,
	78	const Vector3 &direction,
	79	const AxisAlignedBox3 &box,
	80	Intersection &hit)
[1528]	81	{
[1932]	82	if (!hit.mObject)
	83	{
	84	// compute intersection with the scene bounding box
[1584]	85	#if EXACT_BOX_CLIPPING
[1932]	86	static Ray ray;
	87	mPreprocessor.SetupRay(ray, origin, direction);
	88
	89	float tmin, tmax;
	90	if (box.ComputeMinMaxT(ray, &tmin, &tmax) && (tmin < tmax))
	91	{
	92	hit.mPoint = ray.Extrap(tmax);
	93	}
	94	else
	95	{
	96	// cout<<" invalid hp "<<tmin<<" "<<tmax<<endl;
	97	// cout<<" box "<<box<<endl;
	98	// cout<<" origin "<<origin<<endl;
	99	// cout<<" direction "<<direction<<endl;
	100	// cout<< "inv dir"<<ray.GetInvDir()<<endl;
	101	return false;
	102	}
[1584]	103	#else
[1932]	104	hit.mPoint = origin + direction * Magnitude(box.Diagonal());
[1584]	105	#endif
	106	}
[1932]	107	else
	108	{
[2035]	109	if (mPreprocessor.mDetectEmptyViewSpace) {
	110	if (DotProd(hit.mNormal, direction) >= -Limits::Small) {
	111	hit.mObject = NULL;
	112	return false;
[1932]	113	}
[2035]	114	}
[1932]	115	}
[2035]	116
[1932]	117	return true;
[1528]	118	}
	119
[1974]	120	void
	121	RayCaster::SortRays(SimpleRayContainer &rays)
	122	{
[1984]	123	AxisAlignedBox3 box =
	124	mPreprocessor.mViewCellsManager->GetViewSpaceBox();
[2105]	125
[1984]	126	float b[12]={
	127	box.Min().x,
	128	box.Min().y,
	129	box.Min().z,
	130	-1,
	131	-1,
	132	-1,
	133	box.Max().x,
	134	box.Max().y,
	135	box.Max().z,
	136	1,
	137	1,
	138	1
	139	};
	140
[2105]	141	#if 0
	142	static vector<SimpleRay *> pointerArray;
	143
	144	if (pointerArray.size()!=rays.size()) {
	145	// realloc the pointerarray
	146	pointerArray.resize(rays.size());
	147	}
	148
	149	// init pointer array
	150	SimpleRay *p = &pointerArray[0];
	151	for (i=0; i < rays.size(); i++, p++)
	152	pointerArray[i] = p;
	153	#endif
	154
[1984]	155	_SortRays(rays,
	156	0,
[1990]	157	(int)rays.size()-1,
[1984]	158	0,
	159	b
	160	);
[1974]	161	}
	162
	163	void
	164	RayCaster::_SortRays(SimpleRayContainer &rays,
	165	const int l,
	166	const int r,
[1984]	167	const int depth,
	168	float box[12])
[1974]	169	{
	170	// pick-up a pivot
[1984]	171	int axis;
	172
	173	float maxDiff = -1.0f;
	174	// get the largest axis
	175	int offset = 0;
[1990]	176	int i;
[1984]	177
[2105]	178	//const int batchsize = 16384;
[2008]	179	const int batchsize = 8192;
[2105]	180	//const int batchsize = 128;
[2008]	181
[2105]	182	//if (r - l < 16*batchsize)
	183	// offset = 3;
[2008]	184
[2105]	185	// if (depth%2==0)
[2008]	186	// offset = 3;
[1984]	187
[2002]	188	for (i=offset; i < offset + 3; i++) {
	189	float diff = box[i + 6] - box[i];
[1984]	190	if (diff > maxDiff) {
	191	maxDiff = diff;
	192	axis = i;
	193	}
	194	}
	195
[2008]	196	// cout<<depth<<" "<<axis<<" "<<l<<" "<<r<<endl;
[1984]	197
[1990]	198	i=l;
	199	int j=r;
	200
[1984]	201	float x = (box[axis] + box[axis+6])*0.5f;
	202	// float x = rays[(l+r)/2].GetParam(axis);
[1974]	203	do {
[2008]	204	while(i<j && rays[i].GetParam(axis) < x)
[1974]	205	i++;
[2008]	206	while(i<j && x < rays[j].GetParam(axis))
[1974]	207	j--;
	208
	209	if (i <= j) {
	210	swap(rays[i], rays[j]);
	211	i++;
	212	j--;
	213	}
	214	} while (i<=j);
[2008]	215
[1974]	216
[2008]	217	if (l + batchsize < j ) {
[1984]	218	// set new max
	219	float save = box[axis+6];
	220	box[axis+6] = x;
	221	_SortRays(rays, l, j, depth+1, box);
	222	box[axis+6] = save;
[2008]	223	} else {
	224	// for (int k=0; k < 6; k++)
	225	// cout<<k<<" "<<box[k]<<" - "<<box[k+6]<<endl;
[1984]	226	}
[1974]	227
[2008]	228	if (i + batchsize < r) {
[1984]	229	// set new min
	230	box[axis] = x;
	231	_SortRays(rays, i, r, depth+1, box);
[2008]	232	} else {
	233	// for (int k=0; k < 6; k++)
	234	// cout<<k<<" "<<box[k]<<" - "<<box[k+6]<<endl;
[1984]	235	}
[2008]	236
[1974]	237	}
	238
	239
[2187]	240	VssRay *RayCaster::RequestRay(const Vector3 &origin,
	241	const Vector3 &termination,
	242	Intersectable *originObject,
	243	Intersectable *terminationObject,
	244	const int pass,
	245	const float pdf)
	246	{
	247	#if DEBUG_RAYCAST
	248	Debug<<"PR2a"<<flush;
	249	#endif
	250
	251	// old method: always allocate
[2198]	252	if (0) return new VssRay(origin, termination, originObject, terminationObject, pass, pdf);
[1528]	253
[2187]	254	VssRay *vssRay = mVssRayPool.Alloc();
	255
	256	#if DEBUG_RAYCAST
	257	Debug<<"PR2b"<<flush;
	258	#endif
	259
	260	*vssRay = VssRay(origin, termination, originObject, terminationObject, pass, pdf);
	261
	262	#if DEBUG_RAYCAST
	263	Debug<<"PR2c"<<flush;
	264	#endif
	265
	266	return vssRay;
	267	}
	268
	269
[1867]	270	int
	271	RayCaster::ProcessRay(const SimpleRay &simpleRay,
	272	Intersection &hitA,
	273	Intersection &hitB,
	274	VssRayContainer &vssRays,
	275	const AxisAlignedBox3 &box,
	276	const bool castDoubleRay,
[1996]	277	const bool pruneInvalidRays)
[1520]	278	{
[1984]	279	int hits = 0;
[1528]	280
[2014]	281
[1520]	282	#if DEBUG_RAYCAST
[2013]	283	static int id=0;
	284	Debug<<"PRA "<<id++<<endl<<flush;
[1520]	285	#endif
[1528]	286
[1932]	287	if (pruneInvalidRays)
	288	{
[1952]	289	if (!hitA.mObject && !hitB.mObject) {
	290	return 0;
	291	}
[1520]	292	}
[1584]	293
[2070]	294	// regardless of the pruneInvalidRays setting reject
	295	// rays whic degenerate to a point
[1966]	296	if (EpsilonEqualV3(hitA.mPoint, hitB.mPoint, Limits::Small)) {
[2035]	297	return 0;
[1966]	298	}
	299
[1952]	300	const bool validA = ValidateRay(simpleRay.mOrigin, simpleRay.mDirection, box, hitA);
[1932]	301	const bool validB = //castDoubleRay &&
[1952]	302	ValidateRay(simpleRay.mOrigin, -simpleRay.mDirection, box, hitB);
[1867]	303
[1952]	304
[1757]	305	#if DEBUG_RAYCAST
	306	Debug<<"PR1"<<flush;
	307	#endif
[1584]	308
[1867]	309	// reset both contributions
[1952]	310	if (!validA \|\| !validB) {
[2070]	311	if (0 \|\| pruneInvalidRays)
[1952]	312	return 0;
[1867]	313
[1952]	314	// reset both contributions of this ray
	315	hitA.mObject = NULL;
	316	hitB.mObject = NULL;
	317	}
	318
[1867]	319	// 8.11. 2007 JB
	320	// degenerate rays checked by geometrical constraint...
	321	// !pruneInvalidRays \|\| (hitA.mObject != hitB.mObject);
[1942]	322
[1584]	323
[1757]	324	#if DEBUG_RAYCAST
	325	Debug<<"PR2"<<flush;
	326	#endif
[1942]	327	const bool validSample = true;
	328	if (validSample) {
	329	Vector3 clipA, clipB;
	330	if (!ClipToViewSpaceBox(hitA.mPoint,
	331	hitB.mPoint,
	332	clipA,
	333	clipB))
	334	return 0;
[1952]	335
[1942]	336	if (!pruneInvalidRays \|\| hitA.mObject) {
[2014]	337
[2187]	338	VssRay *vssRay =
	339	RequestRay(!castDoubleRay ? simpleRay.mOrigin : clipB,
[2012]	340	hitA.mPoint,
	341	hitB.mObject,
	342	hitA.mObject,
	343	mPreprocessor.mPass,
[2105]	344	1.0f //simpleRay.mPdf
[2012]	345	);
[2187]	346
[1867]	347	if (validA)
[2021]	348	vssRay->mFlags \|= VssRay::Valid;
	349
[1883]	350	vssRay->mDistribution = simpleRay.mDistribution;
[1989]	351	vssRay->mGeneratorId = simpleRay.mGeneratorId;
	352
[1867]	353	vssRays.push_back(vssRay);
	354	++ hits;
	355	//cout << "vssray 1: " << *vssRay << " " << vssRay->mTermination - vssRay->mOrigin << endl;
[1932]	356	}
	357
[1867]	358	#if DEBUG_RAYCAST
[1932]	359	Debug<<"PR3"<<flush;
[1867]	360	#endif
	361
[2070]	362	if (castDoubleRay && (!pruneInvalidRays \|\| hitB.mObject))
	363	{
[2187]	364	VssRay *vssRay = RequestRay(
	365	clipA,
	366	hitB.mPoint,
	367	hitA.mObject,
	368	hitB.mObject,
	369	mPreprocessor.mPass,
	370	1.0f //simpleRay.mPdf
	371	);
[2070]	372
	373	if (validB)
[1771]	374	vssRay->mFlags \|= VssRay::Valid;
[1932]	375
	376	vssRay->mDistribution = simpleRay.mDistribution;
[1989]	377	vssRay->mGeneratorId = simpleRay.mGeneratorId;
[1932]	378	vssRays.push_back(vssRay);
	379	++ hits;
	380	//cout << "vssray 2: " << *vssRay << endl;
[2070]	381	}
[1942]	382	#if DEBUG_RAYCAST
	383	Debug<<"PR4"<<flush;
	384	#endif
[1520]	385	}
[1867]	386
[1520]	387	return hits;
	388	}
	389
[2076]	390
	391	void
	392	RayCaster::CastRays(
	393	SimpleRayContainer &rays,
	394	VssRayContainer &vssRays,
	395	const AxisAlignedBox3 &sbox,
	396	const bool castDoubleRay,
	397	const bool pruneInvalidRays )
	398	{
[2187]	399	SimpleRayContainer::const_iterator rit, rit_end = rays.end();
	400
	401	for (rit = rays.begin(); rit != rit_end; ++ rit) {
[2539]	402
[2187]	403	CastRay(
[2076]	404	*rit,
	405	vssRays,
	406	sbox,
	407	castDoubleRay,
	408	pruneInvalidRays);
[2187]	409	}
[1583]	410	}
[2076]	411
[2187]	412
[2076]	413	}

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