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source: GTP/trunk/Lib/Vis/Preprocessing/src/RayCaster.cpp @ 1584

Revision 1584, 3.3 KB checked in by bittner, 18 years ago (diff)
functional ray casting - fixed computeinvdir issue

Rev	Line
[1520]	1	#include "RayCaster.h"
	2	#include "VssRay.h"
	3	#include "Ray.h"
	4	#include "Preprocessor.h"
	5
	6
	7	namespace GtpVisibilityPreprocessor {
	8
	9
	10	#define DEBUG_RAYCAST 0
	11
[1584]	12	#define EXACT_BOX_CLIPPING 1
[1520]	13
	14	RayCaster::RayCaster(const Preprocessor &preprocessor):
	15	mPreprocessor(preprocessor)
	16	{
	17	}
	18
	19
[1521]	20	RayCaster::~RayCaster()
	21	{
	22	}
	23
	24
[1545]	25	VssRay *RayCaster::CastRay(const SimpleRay &simpleRay,
	26	const AxisAlignedBox3 &box,
	27	const bool castDoubleRay)
[1521]	28	{
[1583]	29	VssRayContainer rays;
	30	CastRay(simpleRay, rays, box, castDoubleRay);
	31
	32	if (!rays.empty())
	33	return rays.back();
	34	else
	35	return NULL;
[1521]	36	}
	37
	38
[1528]	39	/** Checks if ray is valid, (e.g., not in empty view space or outside the view space)
	40	*/
	41	bool RayCaster::ValidateRay(const Vector3 &origin,
	42	const Vector3 &direction,
	43	const AxisAlignedBox3 &box,
	44	Intersection &hit)
	45	{
[1584]	46	if (!hit.mObject) {
	47	// compute intersection with the scene bounding box
	48	#if EXACT_BOX_CLIPPING
	49	static Ray ray;
	50	mPreprocessor.SetupRay(ray, origin, direction);
	51
	52	float tmin, tmax;
	53	if (box.ComputeMinMaxT(ray, &tmin, &tmax) && (tmin < tmax)) {
	54	hit.mPoint = ray.Extrap(tmax);
	55	}
	56	else {
	57	// cout<<" invalid hp "<<tmin<<" "<<tmax<<endl;
	58	// cout<<" box "<<box<<endl;
	59	// cout<<" origin "<<origin<<endl;
	60	// cout<<" direction "<<direction<<endl;
	61	// cout<< "inv dir"<<ray.GetInvDir()<<endl;
	62	return false;
	63	}
	64	#else
	65	hit.mPoint = origin + direction*Magnitude(box.Diagonal());
	66	#endif
[1528]	67	}
[1584]	68	else if (mPreprocessor.mDetectEmptyViewSpace) {
	69	if (DotProd(hit.mNormal, direction) >= 0) {
	70	hit.mObject = NULL;
	71	return false;
	72	}
	73	}
	74
[1528]	75	return true;
	76	}
	77
	78
	79	int RayCaster::ProcessRay(const SimpleRay &simpleRay,
	80	Intersection &hitA,
	81	Intersection &hitB,
[1520]	82	VssRayContainer &vssRays,
[1528]	83	const AxisAlignedBox3 &box,
	84	const bool castDoubleRay,
	85	const bool pruneInvalidRays)
[1520]	86	{
	87	int hits = 0;
[1528]	88
[1520]	89	#if DEBUG_RAYCAST
	90	Debug<<"PR ";
	91	#endif
[1528]	92
	93	if (pruneInvalidRays)
	94	{
[1584]	95	if (!hitA.mObject && !hitB.mObject) {
	96	return 0;
	97	}
	98
[1520]	99	}
[1584]	100
[1528]	101	const bool validA =
[1584]	102	ValidateRay(simpleRay.mOrigin, simpleRay.mDirection, box, hitA);
	103
[1528]	104	if (!validA && pruneInvalidRays)
[1584]	105	{
[1528]	106	return 0;
[1584]	107	}
	108
[1528]	109	const bool validB = castDoubleRay &&
[1584]	110	ValidateRay(simpleRay.mOrigin, -simpleRay.mDirection, box, hitB);
	111
[1528]	112	if (!validB && pruneInvalidRays)
[1584]	113	{
[1528]	114	return 0;
[1520]	115	}
	116
[1528]	117	const bool validSample = !pruneInvalidRays \|\| (hitA.mObject != hitB.mObject);
	118
	119	if (validSample)
	120	{
[1583]	121	if (!pruneInvalidRays \|\| hitA.mObject)
[1528]	122	{
[1583]	123	VssRay *vssRay = new VssRay(
	124	hitB.mPoint,
	125	hitA.mPoint,
	126	hitB.mObject,
	127	hitA.mObject,
	128	mPreprocessor.mPass,
	129	simpleRay.mPdf
	130	);
	131
	132	vssRays.push_back(vssRay);
	133	++ hits;
	134	//cout << "vssray 1: " << *vssRay << " " << vssRay->mTermination - vssRay->mOrigin << endl;
[1520]	135	}
[1583]	136
	137	if (castDoubleRay && (!pruneInvalidRays \|\| hitB.mObject))
[1528]	138	{
[1583]	139	VssRay *vssRay = new VssRay(
	140	hitA.mPoint,
	141	hitB.mPoint,
	142	hitA.mObject,
	143	hitB.mObject,
	144	mPreprocessor.mPass,
	145	simpleRay.mPdf
	146	);
	147
	148	vssRays.push_back(vssRay);
	149	++ hits;
	150	//cout << "vssray 2: " << *vssRay << endl;
[1520]	151	}
	152	}
[1583]	153
[1520]	154	return hits;
	155	}
	156
[1583]	157	}

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