/**
@file Box.h
Box class
@maintainer Morgan McGuire, matrix@graphics3d.com
@cite Portions based on Dave Eberly's Magic Software Library at http://www.magic-software.com
@created 2001-06-02
@edited 2006-01-05
Copyright 2000-2006, Morgan McGuire.
All rights reserved.
*/
#ifndef G3D_BOX_H
#define G3D_BOX_H
#include "G3D/platform.h"
#include "G3D/Vector3.h"
#include "G3D/Array.h"
#include "G3D/Plane.h"
namespace G3D {
class CoordinateFrame;
/**
An arbitrary 3D box, useful as a bounding box.
To construct a box from a coordinate frame, center and extent, use the idiom:
Box box = cframe.toObjectSpace(Box(center - extent/2, center + extent/2));
*/
class Box {
private:
static int32 dummy;
friend class CoordinateFrame;
/**
3 2 7 6
0 1 4 5
front back (seen through front)
*/
Vector3 _corner[8];
/**
Unit axes.
*/
Vector3 _axis[3];
Vector3 _center;
/**
Extent along each axis.
*/
Vector3 _extent;
float _area;
float _volume;
void init(
const Vector3& min,
const Vector3& max);
public:
/**
Does not initialize the fields.
*/
Box();
/**
Constructs a box from two opposite corners.
*/
Box(
const Vector3& min,
const Vector3& max);
Box(const class AABox& b);
/**
Returns the object to world transformation for
this box. localFrame().worldToObject(...) takes
objects into the space where the box axes are
(1,0,0), (0,1,0), (0,0,1). Note that there
is no scaling in this transformation.
*/
CoordinateFrame localFrame() const;
void getLocalFrame(CoordinateFrame& frame) const;
/**
Returns the centroid of the box.
*/
inline Vector3 center() const {
return _center;
}
inline Vector3 getCenter() const {
return center();
}
/**
Returns a corner (0 <= i < 8)
@deprecated
*/
inline Vector3 getCorner(int i) const {
debugAssert(i < 8);
return _corner[i];
}
inline Vector3 corner(int i) const {
debugAssert(i < 8);
return _corner[i];
}
/**
Unit length.
*/
inline Vector3 axis(int a) const {
debugAssert(a < 3);
return _axis[a];
}
/**
Distance from corner(0) to the next corner
along the box's local axis a.
*/
inline float extent(int a) const {
debugAssert(a < 3);
return (float)_extent[a];
}
inline Vector3 extent() const {
return _extent;
}
/**
Returns the four corners of a face (0 <= f < 6).
The corners are returned to form a counter clockwise quad facing outwards.
*/
void getFaceCorners(
int f,
Vector3& v0,
Vector3& v1,
Vector3& v2,
Vector3& v3) const;
/**
@deprecated Use culledBy(Array&)
*/
bool culledBy(
const class Plane* plane,
int numPlanes,
int32& cullingPlaneIndex,
const uint32 testMask,
uint32& childMask) const;
/**
@deprecated Use culledBy(Array&)
*/
bool culledBy(
const class Plane* plane,
int numPlanes,
int32& cullingPlaneIndex = dummy,
const uint32 testMask = -1) const;
/**
See AABox::culledBy
*/
bool culledBy(
const Array& plane,
int32& cullingPlaneIndex,
const uint32 testMask,
uint32& childMask) const;
/**
Conservative culling test that does not produce a mask for children.
*/
bool culledBy(
const Array& plane,
int32& cullingPlaneIndex = dummy,
const uint32 testMask = -1) const;
bool contains(
const Vector3& point) const;
/** @deprecated */
float surfaceArea() const;
inline float area() const {
return surfaceArea();
}
float volume() const;
void getRandomSurfacePoint(Vector3& P, Vector3& N = Vector3::dummy) const;
/**
@deprecated
Uniformly distributed on the surface.
*/
inline Vector3 randomSurfacePoint() const {
Vector3 V;
getRandomSurfacePoint(V);
return V;
}
/**
Uniformly distributed on the interior (includes surface)
*/
Vector3 randomInteriorPoint() const;
void getBounds(class AABox&) const;
};
}
#endif