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AABB[Class Summary]
minPoint
maxPoint
ctor (+3 overloads)
MinX()[const]
MinY()[const]
MinZ()[const]
MaxX()[const]
MaxY()[const]
MaxZ()[const]
SetNegativeInfinity()
SetFromCenterAndSize(center,size)
SetFrom(obb) (+2 overloads)
ToPolyhedron()[const]
ToPBVolume()[const]
ToOBB()[const]
MinimalEnclosingSphere()[const]
MaximalContainedSphere()[const]
IsFinite()[const]
IsDegenerate()[const]
CenterPoint()[const]
Centroid()[const]
AnyPointFast()[const]
PointInside(x,y,z)[const]
Edge(edgeIndex)[const]
CornerPoint(cornerIndex)[const]
ExtremePoint(direction)[const] (+1 overload)
PointOnEdge(edgeIndex,u)[const]
FaceCenterPoint(faceIndex)[const]
FacePoint(faceIndex,u,v)[const]
FaceNormal(faceIndex)[const]
FacePlane(faceIndex)[const]
GetCornerPoints(outPointArray)[const]
GetFacePlanes(outPlaneArray)[const]
Size()[const]
HalfSize()[const]
Diagonal()[const]
HalfDiagonal()[const]
Volume()[const]
SurfaceArea()[const]
RandomPointInside(rng)[const]
RandomPointOnSurface(rng)[const]
RandomPointOnEdge(rng)[const]
RandomCornerPoint(rng)[const]
Translate(offset)
Scale(...) (+1 overload)
TransformAsAABB(transform) (+3 overloads)
Transform(transform)[const] (+3 overloads)
ClosestPoint(targetPoint)[const]
Distance(point)[const] (+1 overload)
Contains(point)[const] (+10 overloads)
Intersects(ray,dNear,dFar)[const] (+14 overloads)
ProjectToAxis(axis,dMin,dMax)[const]
UniqueFaceNormals(out)[const]
UniqueEdgeDirections(out)[const]
Enclose(point) (+11 overloads)
Triangulate(...)[const]
ToEdgeList(outPos)[const]
ToString()[const]
SerializeToString()[const]
SerializeToCodeString()[const]
Intersection(aabb)[const]
IntersectLineAABB(...)[const]
IntersectLineAABB_CPP(...)[const]
Equals(rhs,epsilon)[const]
BitEquals(other)[const]
NumFaces()[static]
NumEdges()[static]
NumVertices()[static]
MinimalEnclosingAABB(...)[static]
ExtremePointsAlongAABB(...)[static]
FromCenterAndSize(...)[static]
NumVerticesInTriangulation(...)[static]
NumVerticesInEdgeList()[static]
FromString(str,outEndStr)[static] (+1 overload)

AABB::AABB

Syntax

AABB::AABB(); [1 line of code]

The default constructor does not initialize any members of this class.

This means that the values of the members minPoint and maxPoint are undefined after creating a new AABB using this default constructor. Remember to assign to them before use.

See Also

minPoint, maxPoint.

Syntax

AABB::AABB(const float4 &minPoint, const float4 &maxPoint); [4 lines of code]

Constructs this AABB by specifying the minimum and maximum extending corners of the box.

See Also

minPoint, maxPoint.

Syntax

AABB::AABB(const OBB &obb); [4 lines of code]

Constructs this AABB to enclose the given OBB.

This constructor computes the optimal minimum volume AABB that encloses the given OBB.

Note
Since an AABB cannot generally represent an OBB, this conversion is not exact, but the returned AABB specifies a larger volume.

See Also

class OBB.

Syntax

AABB::AABB(const Sphere &s); [4 lines of code]

Constructs this AABB to enclose the given Sphere.

See Also

class Sphere.