irrlicht/include/aabbox3d.h

// Copyright (C) 2002-2007 Nikolaus Gebhardt
// This file is part of the "Irrlicht Engine".
// For conditions of distribution and use, see copyright notice in irrlicht.h

#ifndef __IRR_AABBOX_3D_H_INCLUDED__
#define __IRR_AABBOX_3D_H_INCLUDED__

#include "irrMath.h"
#include "plane3d.h"
#include "line3d.h"

namespace irr
{
namespace core
{

//! Axis aligned bounding box in 3d dimensional space.
/** Has some useful methods used with occlusion culling or clipping.
*/
template <class T>
class aabbox3d
{
	public:

		// Constructors

		aabbox3d(): MinEdge(-1,-1,-1), MaxEdge(1,1,1) {};
		aabbox3d(const vector3d<T>& min, const vector3d<T>& max): MinEdge(min), MaxEdge(max) {};
		aabbox3d(const vector3d<T>& init): MinEdge(init), MaxEdge(init) {};
		aabbox3d(T minx, T miny, T minz, T maxx, T maxy, T maxz): MinEdge(minx, miny, minz), MaxEdge(maxx, maxy, maxz) {};

		// operators

		inline bool operator==(const aabbox3d<T>& other) const { return (MinEdge == other.MinEdge && other.MaxEdge == MaxEdge);};
		inline bool operator!=(const aabbox3d<T>& other) const { return !(MinEdge == other.MinEdge && other.MaxEdge == MaxEdge);};

		// functions

		//! Adds a point to the bounding box, causing it to grow bigger, 
		//! if point is outside of the box
		//! \param p: Point to add into the box.
		void addInternalPoint(const vector3d<T>& p)
		{
			addInternalPoint(p.X, p.Y, p.Z);
		}

		//! Adds an other bounding box to the bounding box, causing it to grow bigger,
		//! if the box is outside of the box
		//! \param b: Other bounding box to add into this box.
		void addInternalBox(const aabbox3d<T>& b)
		{
			addInternalPoint(b.MaxEdge);
			addInternalPoint(b.MinEdge);
		}

		//! Resets the bounding box.
		void reset(T x, T y, T z)
		{
			MaxEdge.set(x,y,z);
			MinEdge = MaxEdge;
		}

		//! Resets the bounding box.
		void reset(const aabbox3d<T>& initValue)
		{
			*this = initValue;
		}

		//! Resets the bounding box.
		void reset(const vector3d<T>& initValue)
		{
			MaxEdge = initValue;
			MinEdge = initValue;
		}

		//! Adds a point to the bounding box, causing it to grow bigger, 
		//! if point is outside of the box.
		//! \param x: X Coordinate of the point to add to this box.
		//! \param y: Y Coordinate of the point to add to this box.
		//! \param z: Z Coordinate of the point to add to this box.
		void addInternalPoint(T x, T y, T z)
		{
			if (x>MaxEdge.X) MaxEdge.X = x;
			if (y>MaxEdge.Y) MaxEdge.Y = y;
			if (z>MaxEdge.Z) MaxEdge.Z = z;

			if (x<MinEdge.X) MinEdge.X = x;
			if (y<MinEdge.Y) MinEdge.Y = y;
			if (z<MinEdge.Z) MinEdge.Z = z;
		}

		//! Determinates if a point is within this box.
		//! \param p: Point to check.
		//! \return Returns true if the point is withing the box, and false if it is not.
		bool isPointInside(const vector3d<T>& p) const
		{
			return (p.X >= MinEdge.X && p.X <= MaxEdge.X &&
				p.Y >= MinEdge.Y && p.Y <= MaxEdge.Y &&
				p.Z >= MinEdge.Z && p.Z <= MaxEdge.Z);
		};

		//! Determinates if a point is within this box and its borders.
		//! \param p: Point to check.
		//! \return Returns true if the point is withing the box, and false if it is not.
		bool isPointTotalInside(const vector3d<T>& p) const
		{
			return (p.X > MinEdge.X && p.X < MaxEdge.X &&
				p.Y > MinEdge.Y && p.Y < MaxEdge.Y &&
				p.Z > MinEdge.Z && p.Z < MaxEdge.Z);
		};

		//! Determinates if the box intersects with an other box.
		//! \param other: Other box to check a intersection with.
		//! \return Returns true if there is a intersection with the other box, 
		//! otherwise false.
		bool intersectsWithBox(const aabbox3d<T>& other) const
		{
			return (MinEdge <= other.MaxEdge && MaxEdge >= other.MinEdge);
		}

		//! Returns if this box is completely inside the 'other' box.
		bool isFullInside(const aabbox3d<T>& other) const
		{
			return MinEdge >= other.MinEdge && MaxEdge <= other.MaxEdge;
		}

		//! Tests if the box intersects with a line
		//! \param line: Line to test intersection with.
		//! \return Returns true if there is an intersection and false if not.
		bool intersectsWithLine(const line3d<T>& line) const
		{
			return intersectsWithLine(line.getMiddle(), line.getVector().normalize(), 
					(T)(line.getLength() * 0.5));
		}

		//! Tests if the box intersects with a line
		//! \return Returns true if there is an intersection and false if not.
		bool intersectsWithLine(const vector3d<T>& linemiddle, 
					const vector3d<T>& linevect,
					T halflength) const
		{
			const vector3d<T> e = getExtent() * (T)0.5;
			const vector3d<T> t = getCenter() - linemiddle;

			if ((fabs(t.X) > e.X + halflength * fabs(linevect.X)) || 
				(fabs(t.Y) > e.Y + halflength * fabs(linevect.Y)) ||
				(fabs(t.Z) > e.Z + halflength * fabs(linevect.Z)) )
				return false;

			T r = e.Y * (T)fabs(linevect.Z) + e.Z * (T)fabs(linevect.Y);
			if (fabs(t.Y*linevect.Z - t.Z*linevect.Y) > r )
				return false;

			r = e.X * (T)fabs(linevect.Z) + e.Z * (T)fabs(linevect.X);
			if (fabs(t.Z*linevect.X - t.X*linevect.Z) > r )
				return false;

			r = e.X * (T)fabs(linevect.Y) + e.Y * (T)fabs(linevect.X);
			if (fabs(t.X*linevect.Y - t.Y*linevect.X) > r)
				return false;

			return true;
		}

		//! Classifies a relation with a plane.
		//! \param plane: Plane to classify relation to.
		//! \return Returns ISREL3D_FRONT if the box is in front of the plane,
		//! ISREL3D_BACK if the box is behind the plane, and
		//! ISREL3D_CLIPPED if it is on both sides of the plane.
		EIntersectionRelation3D classifyPlaneRelation(const plane3d<T>& plane) const
		{
			vector3d<T> nearPoint(MaxEdge);
			vector3d<T> farPoint(MinEdge);

			if (plane.Normal.X > (T)0)
			{
				nearPoint.X = MinEdge.X;
				farPoint.X = MaxEdge.X;
			}

			if (plane.Normal.Y > (T)0)
			{
				nearPoint.Y = MinEdge.Y;
				farPoint.Y = MaxEdge.Y;
			}

			if (plane.Normal.Z > (T)0)
			{
				nearPoint.Z = MinEdge.Z;
				farPoint.Z = MaxEdge.Z;
			}

			if (plane.Normal.dotProduct(nearPoint) + plane.D > (T)0)
				return ISREL3D_FRONT;

			if (plane.Normal.dotProduct(farPoint) + plane.D > (T)0)
				return ISREL3D_CLIPPED;

			return ISREL3D_BACK;
		}


		//! returns center of the bounding box
		vector3d<T> getCenter() const
		{
			return (MinEdge + MaxEdge) / 2;
		}

		//! returns extend of the box
		vector3d<T> getExtent() const
		{
			return MaxEdge - MinEdge;
		}


		//! stores all 8 edges of the box into a array
		//! \param edges: Pointer to array of 8 edges
		void getEdges(vector3d<T> *edges) const
		{
			const core::vector3d<T> middle = getCenter();
			const core::vector3d<T> diag = middle - MaxEdge;

			/*
			Edges are stored in this way:
			Hey, am I an ascii artist, or what? :) niko.
                  /3--------/7
                 /  |      / |
                /   |     /  |
                1---------5  |
                |   2- - -| -6
                |  /      |  /
                |/        | /
                0---------4/ 
			*/

			edges[0].set(middle.X + diag.X, middle.Y + diag.Y, middle.Z + diag.Z);
			edges[1].set(middle.X + diag.X, middle.Y - diag.Y, middle.Z + diag.Z);
			edges[2].set(middle.X + diag.X, middle.Y + diag.Y, middle.Z - diag.Z);
			edges[3].set(middle.X + diag.X, middle.Y - diag.Y, middle.Z - diag.Z);
			edges[4].set(middle.X - diag.X, middle.Y + diag.Y, middle.Z + diag.Z);
			edges[5].set(middle.X - diag.X, middle.Y - diag.Y, middle.Z + diag.Z);
			edges[6].set(middle.X - diag.X, middle.Y + diag.Y, middle.Z - diag.Z);
			edges[7].set(middle.X - diag.X, middle.Y - diag.Y, middle.Z - diag.Z);
		}


		//! returns if the box is empty, which means that there is
		//! no space within the min and the max edge.
		bool isEmpty() const
		{
			return MinEdge.equals ( MaxEdge );
		}

		//! repairs the box, if for example MinEdge and MaxEdge are swapped.
		void repair()
		{
			T t;

			if (MinEdge.X > MaxEdge.X)
				{ t=MinEdge.X; MinEdge.X = MaxEdge.X; MaxEdge.X=t; }
			if (MinEdge.Y > MaxEdge.Y)
				{ t=MinEdge.Y; MinEdge.Y = MaxEdge.Y; MaxEdge.Y=t; }
			if (MinEdge.Z > MaxEdge.Z)
				{ t=MinEdge.Z; MinEdge.Z = MaxEdge.Z; MaxEdge.Z=t; }
		}

		//! Calculates a new interpolated bounding box.
		//! \param other: other box to interpolate between
		//! \param d: value between 0.0f and 1.0f.
		aabbox3d<T> getInterpolated(const aabbox3d<T>& other, f32 d) const
		{
			f32 inv = 1.0f - d;
			return aabbox3d<T>((other.MinEdge*inv) + (MinEdge*d),
				(other.MaxEdge*inv) + (MaxEdge*d));
		}

		// member variables
		
		vector3d<T> MinEdge;
		vector3d<T> MaxEdge;
};

	//! Typedef for a f32 3d bounding box.
	typedef aabbox3d<f32> aabbox3df;
	//! Typedef for an integer 3d bounding box.
	typedef aabbox3d<s32> aabbox3di;

} // end namespace core
} // end namespace irr

#endif
Moved everything to /trunk git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/trunk@643 dfc29bdd-3216-0410-991c-e03cc46cb475 2007-05-20 11:03:49 -07:00			`// Copyright (C) 2002-2007 Nikolaus Gebhardt`
			`// This file is part of the "Irrlicht Engine".`
			`// For conditions of distribution and use, see copyright notice in irrlicht.h`

			`#ifndef __IRR_AABBOX_3D_H_INCLUDED__`
			`#define __IRR_AABBOX_3D_H_INCLUDED__`

			`#include "irrMath.h"`
			`#include "plane3d.h"`
			`#include "line3d.h"`

			`namespace irr`
			`{`
			`namespace core`
			`{`

			`//! Axis aligned bounding box in 3d dimensional space.`
			`/** Has some useful methods used with occlusion culling or clipping.`
			`*/`
			`template <class T>`
			`class aabbox3d`
			`{`
			`public:`

			`// Constructors`

			`aabbox3d(): MinEdge(-1,-1,-1), MaxEdge(1,1,1) {};`
			`aabbox3d(const vector3d<T>& min, const vector3d<T>& max): MinEdge(min), MaxEdge(max) {};`
			`aabbox3d(const vector3d<T>& init): MinEdge(init), MaxEdge(init) {};`
			`aabbox3d(T minx, T miny, T minz, T maxx, T maxy, T maxz): MinEdge(minx, miny, minz), MaxEdge(maxx, maxy, maxz) {};`

			`// operators`

			`inline bool operator==(const aabbox3d<T>& other) const { return (MinEdge == other.MinEdge && other.MaxEdge == MaxEdge);};`
			`inline bool operator!=(const aabbox3d<T>& other) const { return !(MinEdge == other.MinEdge && other.MaxEdge == MaxEdge);};`

			`// functions`

			`//! Adds a point to the bounding box, causing it to grow bigger,`
			`//! if point is outside of the box`
			`//! \param p: Point to add into the box.`
			`void addInternalPoint(const vector3d<T>& p)`
			`{`
			`addInternalPoint(p.X, p.Y, p.Z);`
			`}`

			`//! Adds an other bounding box to the bounding box, causing it to grow bigger,`
			`//! if the box is outside of the box`
			`//! \param b: Other bounding box to add into this box.`
			`void addInternalBox(const aabbox3d<T>& b)`
			`{`
			`addInternalPoint(b.MaxEdge);`
			`addInternalPoint(b.MinEdge);`
			`}`

			`//! Resets the bounding box.`
			`void reset(T x, T y, T z)`
			`{`
			`MaxEdge.set(x,y,z);`
			`MinEdge = MaxEdge;`
			`}`

			`//! Resets the bounding box.`
			`void reset(const aabbox3d<T>& initValue)`
			`{`
			`*this = initValue;`
			`}`

			`//! Resets the bounding box.`
			`void reset(const vector3d<T>& initValue)`
			`{`
			`MaxEdge = initValue;`
			`MinEdge = initValue;`
			`}`

			`//! Adds a point to the bounding box, causing it to grow bigger,`
			`//! if point is outside of the box.`
			`//! \param x: X Coordinate of the point to add to this box.`
			`//! \param y: Y Coordinate of the point to add to this box.`
			`//! \param z: Z Coordinate of the point to add to this box.`
			`void addInternalPoint(T x, T y, T z)`
			`{`
			`if (x>MaxEdge.X) MaxEdge.X = x;`
			`if (y>MaxEdge.Y) MaxEdge.Y = y;`
			`if (z>MaxEdge.Z) MaxEdge.Z = z;`

			`if (x<MinEdge.X) MinEdge.X = x;`
			`if (y<MinEdge.Y) MinEdge.Y = y;`
			`if (z<MinEdge.Z) MinEdge.Z = z;`
			`}`

			`//! Determinates if a point is within this box.`
			`//! \param p: Point to check.`
			`//! \return Returns true if the point is withing the box, and false if it is not.`
			`bool isPointInside(const vector3d<T>& p) const`
			`{`
			`return (p.X >= MinEdge.X && p.X <= MaxEdge.X &&`
			`p.Y >= MinEdge.Y && p.Y <= MaxEdge.Y &&`
			`p.Z >= MinEdge.Z && p.Z <= MaxEdge.Z);`
			`};`

			`//! Determinates if a point is within this box and its borders.`
			`//! \param p: Point to check.`
			`//! \return Returns true if the point is withing the box, and false if it is not.`
			`bool isPointTotalInside(const vector3d<T>& p) const`
			`{`
			`return (p.X > MinEdge.X && p.X < MaxEdge.X &&`
			`p.Y > MinEdge.Y && p.Y < MaxEdge.Y &&`
			`p.Z > MinEdge.Z && p.Z < MaxEdge.Z);`
			`};`

			`//! Determinates if the box intersects with an other box.`
			`//! \param other: Other box to check a intersection with.`
			`//! \return Returns true if there is a intersection with the other box,`
			`//! otherwise false.`
			`bool intersectsWithBox(const aabbox3d<T>& other) const`
			`{`
			`return (MinEdge <= other.MaxEdge && MaxEdge >= other.MinEdge);`
			`}`

			`//! Returns if this box is completely inside the 'other' box.`
			`bool isFullInside(const aabbox3d<T>& other) const`
			`{`
			`return MinEdge >= other.MinEdge && MaxEdge <= other.MaxEdge;`
			`}`

			`//! Tests if the box intersects with a line`
			`//! \param line: Line to test intersection with.`
			`//! \return Returns true if there is an intersection and false if not.`
			`bool intersectsWithLine(const line3d<T>& line) const`
			`{`
			`return intersectsWithLine(line.getMiddle(), line.getVector().normalize(),`
			`(T)(line.getLength() * 0.5));`
			`}`

			`//! Tests if the box intersects with a line`
			`//! \return Returns true if there is an intersection and false if not.`
			`bool intersectsWithLine(const vector3d<T>& linemiddle,`
			`const vector3d<T>& linevect,`
			`T halflength) const`
			`{`
			`const vector3d<T> e = getExtent() * (T)0.5;`
			`const vector3d<T> t = getCenter() - linemiddle;`

			`if ((fabs(t.X) > e.X + halflength * fabs(linevect.X)) \|\|`
			`(fabs(t.Y) > e.Y + halflength * fabs(linevect.Y)) \|\|`
			`(fabs(t.Z) > e.Z + halflength * fabs(linevect.Z)) )`
			`return false;`

			`T r = e.Y * (T)fabs(linevect.Z) + e.Z * (T)fabs(linevect.Y);`
			`if (fabs(t.Ylinevect.Z - t.Zlinevect.Y) > r )`
			`return false;`

			`r = e.X * (T)fabs(linevect.Z) + e.Z * (T)fabs(linevect.X);`
			`if (fabs(t.Zlinevect.X - t.Xlinevect.Z) > r )`
			`return false;`

			`r = e.X * (T)fabs(linevect.Y) + e.Y * (T)fabs(linevect.X);`
			`if (fabs(t.Xlinevect.Y - t.Ylinevect.X) > r)`
			`return false;`

			`return true;`
			`}`

			`//! Classifies a relation with a plane.`
			`//! \param plane: Plane to classify relation to.`
			`//! \return Returns ISREL3D_FRONT if the box is in front of the plane,`
Enhanced documentation for isFrontFacing to make it safer to use. Fixed frustum culling to correctly handle all possible cases of box intersections. Replaced isFrontFacing by classifyPointRelation as suggested by vitek. Minor cleanups in some classes. git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/trunk@667 dfc29bdd-3216-0410-991c-e03cc46cb475 2007-05-28 04:14:47 -07:00			`//! ISREL3D_BACK if the box is behind the plane, and`
			`//! ISREL3D_CLIPPED if it is on both sides of the plane.`
Moved everything to /trunk git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/trunk@643 dfc29bdd-3216-0410-991c-e03cc46cb475 2007-05-20 11:03:49 -07:00			`EIntersectionRelation3D classifyPlaneRelation(const plane3d<T>& plane) const`
			`{`
			`vector3d<T> nearPoint(MaxEdge);`
			`vector3d<T> farPoint(MinEdge);`

			`if (plane.Normal.X > (T)0)`
			`{`
			`nearPoint.X = MinEdge.X;`
			`farPoint.X = MaxEdge.X;`
			`}`

			`if (plane.Normal.Y > (T)0)`
			`{`
			`nearPoint.Y = MinEdge.Y;`
			`farPoint.Y = MaxEdge.Y;`
			`}`

			`if (plane.Normal.Z > (T)0)`
			`{`
			`nearPoint.Z = MinEdge.Z;`
			`farPoint.Z = MaxEdge.Z;`
			`}`

			`if (plane.Normal.dotProduct(nearPoint) + plane.D > (T)0)`
			`return ISREL3D_FRONT;`

			`if (plane.Normal.dotProduct(farPoint) + plane.D > (T)0)`
			`return ISREL3D_CLIPPED;`

			`return ISREL3D_BACK;`
			`}`


			`//! returns center of the bounding box`
			`vector3d<T> getCenter() const`
			`{`
			`return (MinEdge + MaxEdge) / 2;`
			`}`

			`//! returns extend of the box`
			`vector3d<T> getExtent() const`
			`{`
			`return MaxEdge - MinEdge;`
			`}`


			`//! stores all 8 edges of the box into a array`
			`//! \param edges: Pointer to array of 8 edges`
			`void getEdges(vector3d<T> *edges) const`
			`{`
			`const core::vector3d<T> middle = getCenter();`
			`const core::vector3d<T> diag = middle - MaxEdge;`

			`/*`
			`Edges are stored in this way:`
			`Hey, am I an ascii artist, or what? :) niko.`
fixed ascii art in aabbox3d::getEdges, found by Vitek git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/trunk@699 dfc29bdd-3216-0410-991c-e03cc46cb475 2007-06-08 19:27:25 -07:00			`/3--------/7`
Moved everything to /trunk git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/trunk@643 dfc29bdd-3216-0410-991c-e03cc46cb475 2007-05-20 11:03:49 -07:00			`/ \| / \|`
			`/ \| / \|`
fixed ascii art in aabbox3d::getEdges, found by Vitek git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/trunk@699 dfc29bdd-3216-0410-991c-e03cc46cb475 2007-06-08 19:27:25 -07:00			`1---------5 \|`
			`\| 2- - -\| -6`
Moved everything to /trunk git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/trunk@643 dfc29bdd-3216-0410-991c-e03cc46cb475 2007-05-20 11:03:49 -07:00			`\| / \| /`
			`\|/ \| /`
fixed ascii art in aabbox3d::getEdges, found by Vitek git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/trunk@699 dfc29bdd-3216-0410-991c-e03cc46cb475 2007-06-08 19:27:25 -07:00			`0---------4/`
Moved everything to /trunk git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/trunk@643 dfc29bdd-3216-0410-991c-e03cc46cb475 2007-05-20 11:03:49 -07:00			`*/`

			`edges[0].set(middle.X + diag.X, middle.Y + diag.Y, middle.Z + diag.Z);`
			`edges[1].set(middle.X + diag.X, middle.Y - diag.Y, middle.Z + diag.Z);`
			`edges[2].set(middle.X + diag.X, middle.Y + diag.Y, middle.Z - diag.Z);`
			`edges[3].set(middle.X + diag.X, middle.Y - diag.Y, middle.Z - diag.Z);`
			`edges[4].set(middle.X - diag.X, middle.Y + diag.Y, middle.Z + diag.Z);`
			`edges[5].set(middle.X - diag.X, middle.Y - diag.Y, middle.Z + diag.Z);`
			`edges[6].set(middle.X - diag.X, middle.Y + diag.Y, middle.Z - diag.Z);`
			`edges[7].set(middle.X - diag.X, middle.Y - diag.Y, middle.Z - diag.Z);`
			`}`


			`//! returns if the box is empty, which means that there is`
			`//! no space within the min and the max edge.`
			`bool isEmpty() const`
			`{`
			`return MinEdge.equals ( MaxEdge );`
			`}`

			`//! repairs the box, if for example MinEdge and MaxEdge are swapped.`
			`void repair()`
			`{`
			`T t;`

			`if (MinEdge.X > MaxEdge.X)`
			`{ t=MinEdge.X; MinEdge.X = MaxEdge.X; MaxEdge.X=t; }`
			`if (MinEdge.Y > MaxEdge.Y)`
			`{ t=MinEdge.Y; MinEdge.Y = MaxEdge.Y; MaxEdge.Y=t; }`
			`if (MinEdge.Z > MaxEdge.Z)`
			`{ t=MinEdge.Z; MinEdge.Z = MaxEdge.Z; MaxEdge.Z=t; }`
			`}`

			`//! Calculates a new interpolated bounding box.`
			`//! \param other: other box to interpolate between`
			`//! \param d: value between 0.0f and 1.0f.`
			`aabbox3d<T> getInterpolated(const aabbox3d<T>& other, f32 d) const`
			`{`
			`f32 inv = 1.0f - d;`
			`return aabbox3d<T>((other.MinEdgeinv) + (MinEdged),`
			`(other.MaxEdgeinv) + (MaxEdged));`
			`}`

			`// member variables`

			`vector3d<T> MinEdge;`
			`vector3d<T> MaxEdge;`
			`};`

			`//! Typedef for a f32 3d bounding box.`
			`typedef aabbox3d<f32> aabbox3df;`
			`//! Typedef for an integer 3d bounding box.`
			`typedef aabbox3d<s32> aabbox3di;`

			`} // end namespace core`
			`} // end namespace irr`

			`#endif`