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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::ToOBB

Syntax

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

Converts this AABB to an OBB.

This function returns an OBB representation of this AABB. This conversion is exact, meaning that the returned OBB represents the same set of points than this AABB.

See Also

class OBB, ToPolyhedron(), ToPBVolume().