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source: GTP/trunk/Lib/Vis/Preprocessing/src/Mesh.h @ 1199

Revision 1199, 7.3 KB checked in by bittner, 18 years ago (diff)
code merge

Rev	Line
[372]	1	#ifndef _Mesh_H__
	2	#define _Mesh_H__
	3
	4	#include <vector>
	5	using namespace std;
	6	#include "Intersectable.h"
	7	#include "Plane3.h"
	8	#include "Matrix4x4.h"
	9	#include "AxisAlignedBox3.h"
	10	#include "Material.h"
[863]	11	#include "Containers.h"
[372]	12
[863]	13
[860]	14	namespace GtpVisibilityPreprocessor {
	15
[878]	16	extern bool MeshDebug;
	17
[372]	18	struct Triangle3;
	19	class MeshInstance;
	20	class MeshKdTree;
	21
	22	/// default vertex container for Mesh
	23	typedef std::vector<Vector3> VertexContainer;
	24
	25	/// vertex index container
[870]	26	//typedef std::vector<short> VertexIndexContainer;
	27	typedef std::vector<int> VertexIndexContainer;
[372]	28
	29	/** Patch used as an element of the mesh */
[752]	30	struct Face {
	31
[372]	32	public:
	33	Face(): mVertexIndices() {}
[752]	34
[372]	35	Face(const int a, const int b, const int c):mVertexIndices(3) {
	36	mVertexIndices[0] = a;
	37	mVertexIndices[1] = b;
	38	mVertexIndices[2] = c;
	39	}
	40
	41	Face(const int a, const int b, const int c, const int d):
	42	mVertexIndices(4) {
	43	mVertexIndices[0] = a;
	44	mVertexIndices[1] = b;
	45	mVertexIndices[2] = c;
	46	mVertexIndices[3] = d;
	47	}
	48
[752]	49	Face(const VertexIndexContainer &vertices):mVertexIndices(vertices.size()) {
	50	for (int i=0; i < vertices.size(); i++)
	51	mVertexIndices[i] = vertices[i];
	52	}
[372]	53
	54	/// list of vertex pointers
	55	VertexIndexContainer mVertexIndices;
	56	};
	57
[863]	58
	59
	60	/// default vertex container for Mesh
	61	typedef vector<Vector3> VertexContainer;
	62
[372]	63	/// default patch container for Mesh
	64	typedef std::vector<Face *> FaceContainer;
	65
	66	/** Mesh containing polygonal patches */
	67	class Mesh {
	68
	69	public:
	70
	71	/// Default constructor
[1001]	72	Mesh():mVertices(), mFaces(), mMaterial(NULL), mKdTree(NULL), mId(0) {}
	73
[372]	74	/// Constructor with container preallocation
[1001]	75	Mesh(const int vertices, const int faces):
[372]	76	mFaces(),
	77	mMaterial(NULL),
	78	mKdTree(NULL),
	79	mVertices(),
	80	mIsConvex(false),
[1001]	81	mIsWatertight(false),
	82	mId(0)
[372]	83	{
	84	mVertices.reserve(vertices);
	85	mFaces.reserve(faces);
	86	}
[1001]	87
	88	/** Constructor setting a unqiue mesh id.
	89	*/
	90	Mesh(const int id);
	91
	92	/** Setting unique mesh id and using preallocation.
	93	*/
	94	Mesh(const int id, const int vertices, const int faces);
	95
	96	/** Copy constructor making a deep copy of the faces.
	97	*/
	98	Mesh(const Mesh &rhs);
	99
	100	/** Assignement operator.
	101	@note does not copy id
	102	@note preprocess may be necessary
	103	*/
	104	Mesh& operator=(const Mesh& m);
	105
[1005]	106	~Mesh();
	107	void Clear();
[752]	108
	109	void IndexVertices();
	110
	111	void AssignRandomMaterial();
[372]	112	void AddTriangle(const Triangle3 &triangle);
	113	void AddRectangle(const Rectangle3 &triangle);
	114
[693]	115	void Cleanup();
	116
	117	bool ValidateFace(const int face);
[372]	118
	119	void AddFace(Face *face)
	120	{
	121	mFaces.push_back(face);
	122	}
[859]	123
	124	void ComputeBoundingBox();
[1001]	125
	126	/** This function must be called after creating the mesh
	127	because it creates the local kd tree and the bounding box.
	128	*/
[372]	129	void Preprocess();
	130
[1001]	131	/** Applies transformation to the mesh.
	132	@note: meshkdtree will most likely be outdated after transformation, thus
	133	another preprocess might be necessary.
	134	*/
	135	void ApplyTransformation(const Matrix4x4 &m);
	136
	137	/** Axis aligned bounding box of the mesh in local mesh coordinates.
	138	*/
[372]	139	AxisAlignedBox3 mBox;
	140
[1001]	141	/** Vertices forming the mesh.
	142	*/
[372]	143	VertexContainer mVertices;
	144
[1001]	145	/** Patches forming the mesh.
	146	*/
[372]	147	FaceContainer mFaces;
	148
[1001]	149	/** Global mesh material.
	150	*/
[372]	151	Material *mMaterial;
	152
[1001]	153	/** true if the mesh is a convex mesh.
	154	*/
[372]	155	bool mIsConvex;
	156
[1001]	157	/** true if the mesh is a convex mesh.
	158	*/
[372]	159	bool mIsWatertight;
	160
	161	MeshKdTree *mKdTree;
[1001]	162
[372]	163	int
[1001]	164	CastRay(Ray &ray, MeshInstance *instance);
[372]	165
	166	int
	167	CastRayToSelectedFaces(
[1001]	168	Ray &ray,
	169	const vector<int> &faces,
	170	Intersectable *instance
	171	);
[372]	172
	173	int
	174	CastRayToFace(
[1001]	175	const int faceIndex,
	176	Ray &ray,
	177	float &nearestT,
[1199]	178	Vector3 &nearestNormal,
[1001]	179	int &nearestFace,
	180	Intersectable *instance
	181	);
[372]	182
	183
	184	int
	185	RayFaceIntersection(const int faceIndex,
[1199]	186	const Ray &ray,
	187	float &t,
	188	Vector3 &normal,
	189	const float nearestT
	190	);
[372]	191
	192	Plane3 GetFacePlane(const int faceIndex);
	193
	194	AxisAlignedBox3 GetFaceBox(const int faceIndex);
	195
	196	int GetRandomSurfacePoint(Vector3 &point, Vector3 &normal);
	197
[492]	198	int
	199	GetRandomVisibleSurfacePoint(Vector3 &point,
	200	Vector3 &normal,
	201	const Vector3 &viewpoint,
	202	const int maxTries
	203	);
[1001]	204
	205	/** Returns unique mesh id.
	206	*/
	207	int GetId() const
	208	{
	209	return mId;
	210	}
	211
[492]	212	virtual ostream &Describe(ostream &s) {
	213	return s<<"Mesh #vertices="<<(int)mVertices.size()<<" #faces="<<(int)mFaces.size();
	214	}
[752]	215
[1001]	216	/** Creates a mesh from a axis aligned bounding box.
	217	The mesh is handled from the resource manager.
[991]	218	*/
	219	friend Mesh *CreateMeshFromBox(const AxisAlignedBox3 &box);
[1001]	220
	221
	222	protected:
	223
	224	/// Unique id of this mesh.
	225	int mId;
[372]	226	};
	227
[492]	228
[372]	229	class MeshInstance : public Intersectable {
[1001]	230
[372]	231	public:
[1001]	232	MeshInstance(Mesh *mesh):Intersectable(), mMesh(mesh), mMaterial(NULL)
[372]	233	{
	234	}
	235
	236	int GetRandomSurfacePoint(Vector3 &point, Vector3 &normal);
	237
	238	int
	239	GetRandomVisibleSurfacePoint(Vector3 &point,
	240	Vector3 &normal,
	241	const Vector3 &viewpoint,
	242	const int maxTries
	243	);
	244
	245
	246	Mesh *GetMesh() { return mMesh; }
	247
[1020]	248	virtual AxisAlignedBox3 GetBox() const {
[372]	249	return mMesh->mBox;
	250	}
	251
[1004]	252	virtual int CastRay(Ray &ray);
[372]	253
[1020]	254	virtual bool IsConvex() const { return mMesh->mIsConvex; }
	255	virtual bool IsWatertight() const { return mMesh->mIsWatertight; }
[372]	256	virtual float IntersectionComplexity() { return (float)mMesh->mFaces.size(); }
	257
[1020]	258	virtual int NumberOfFaces() const { return (int)mMesh->mFaces.size(); }
[387]	259
[372]	260	virtual int Type() const { return MESH_INSTANCE; }
	261
	262	virtual int
	263	CastRay(
	264	Ray &ray,
	265	const vector<int> &faces
	266	);
	267
	268
	269	virtual ostream &Describe(ostream &s) {
	270	s<<"MeshInstance Id="<<GetId();
	271	return mMesh->Describe(s);
	272	}
	273
[1001]	274	/** Sets the material. this overrides the material from
	275	the mesh itself.
	276	*/
	277	void SetMaterial(Material *mat);
	278
	279	/** Returns the material of this mesh instance.
	280	if not defined, returns the material of the mesh itself.
	281	*/
	282	Material *GetMaterial() const;
	283
	284	protected:
	285
	286	Mesh *mMesh;
	287	/** This material overrides the mesh material;
	288	*/
	289	Material *mMaterial;
[372]	290	};
	291
	292
[1001]	293	/** This mesh instance includes a world transform. Use this
	294	class if the same mesh should be instantiated on different places.
	295	*/
[1004]	296	class TransformedMeshInstance: public MeshInstance
[372]	297	{
	298	public:
[1001]	299	TransformedMeshInstance(Mesh *mesh);
[372]	300
[1020]	301	virtual AxisAlignedBox3 GetBox() const;
[1001]	302
[372]	303
[1001]	304	virtual int CastRay(Ray &ray);
[372]	305
[1004]	306	virtual int CastRay(Ray &ray, const vector<int> &faces);
	307
[372]	308	virtual int Type() const { return TRANSFORMED_MESH_INSTANCE; }
	309
	310	int GetRandomSurfacePoint(Vector3 &point, Vector3 &normal);
	311
[1001]	312	/** Transforms this mesh instance by m.
	313	*/
	314	void ApplyWorldTransform(const Matrix4x4 &m);
	315
	316	/** Loads the transformation matrix into this mesh instance.
	317	*/
	318	void LoadWorldTransform(const Matrix4x4 &m);
	319
	320	/** The transformation is returned in m.
	321	*/
[1020]	322	void GetWorldTransform(Matrix4x4 &m) const;
[1001]	323
[1004]	324	/** Transforms a mesh according to the stored world transform.
[1020]	325	@param transformedMesh returns the tranformed mesh.
[1002]	326	*/
[1020]	327	void GetTransformedMesh(Mesh &transformedMesh) const;
[1002]	328
[1001]	329	protected:
	330
	331	/// the transformation matrix
	332	Matrix4x4 mWorldTransform;
[372]	333
	334	};
	335
[860]	336	}
[372]	337
	338	#endif

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