VRageMath.Plane

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Plane Struct

public struct Plane: IEquatable<Plane>

Defines a plane.

Namespace: VRageMath
Assembly: VRage.Math.dll

Implements:

• IEquatable

Fields

Member	Description
[float D](VRageMath.Plane.D)	The distance of the Plane along its normal from the origin. Note: Be careful! The distance is signed and is the opposite of what people usually expect. If you look closely at the plane equation: (n dot P) - D = 0, you'll realize that D = - (n dot P) (that is, negative instead of positive)
[Vector3 Normal](VRageMath.Plane.Normal)	The normal vector of the Plane.

Constructors

Member	Description
[Plane(float, float, float, float)](VRageMath.Plane..ctor)
[Plane(Vector3, float)](VRageMath.Plane..ctor)
[Plane(Vector3, Vector3)](VRageMath.Plane..ctor)
[Plane(Vector4)](VRageMath.Plane..ctor)
[Plane(Vector3, Vector3, Vector3)](VRageMath.Plane..ctor)
[Plane(ref Vector3, ref Vector3, ref Vector3)](VRageMath.Plane..ctor)

Methods

Member	Description
[static Plane Normalize(Plane)](VRageMath.Plane.Normalize)	Changes the coefficients of the Normal vector of a Plane to make it of unit length.
[static void Normalize(ref Plane, out Plane)](VRageMath.Plane.Normalize)	Changes the coefficients of the Normal vector of a Plane to make it of unit length.
[static Plane Transform(Plane, Matrix)](VRageMath.Plane.Transform)	Transforms a normalized Plane by a Matrix.
[static void Transform(ref Plane, ref Matrix, out Plane)](VRageMath.Plane.Transform)	Transforms a normalized Plane by a Matrix.
[float Dot(Vector4)](VRageMath.Plane.Dot)	Calculates the dot product of a specified Vector4 and this Plane.
[void Dot(ref Vector4, out float)](VRageMath.Plane.Dot)	Calculates the dot product of a specified Vector4 and this Plane.
[float DotCoordinate(Vector3)](VRageMath.Plane.DotCoordinate)	Returns the dot product of a specified Vector3 and the Normal vector of this Plane plus the distance (D) value of the Plane.
[void DotCoordinate(ref Vector3, out float)](VRageMath.Plane.DotCoordinate)	Returns the dot product of a specified Vector3 and the Normal vector of this Plane plus the distance (D) value of the Plane.
[double DotNormal(Vector3D)](VRageMath.Plane.DotNormal)	Returns the dot product of a specified Vector3 and the Normal vector of this Plane.
[void DotNormal(ref Vector3, out float)](VRageMath.Plane.DotNormal)	Returns the dot product of a specified Vector3 and the Normal vector of this Plane.
[bool Equals(Plane)](VRageMath.Plane.Equals)	Determines whether the specified Plane is equal to the Plane.
[bool Equals(object)](VRageMath.Plane.Equals)	Determines whether the specified Object is equal to the Plane.
[int GetHashCode()](VRageMath.Plane.GetHashCode)	Gets the hash code for this object.
[Vector3D Intersection(ref Vector3D, ref Vector3D)](VRageMath.Plane.Intersection)	Gets intersection point in Plane.
[PlaneIntersectionType Intersects(BoundingBox)](VRageMath.Plane.Intersects)	Checks whether the current Plane intersects a specified BoundingBox.
[void Intersects(ref BoundingBox, out PlaneIntersectionType)](VRageMath.Plane.Intersects)	Checks whether the current Plane intersects a BoundingBox.
[PlaneIntersectionType Intersects(BoundingFrustum)](VRageMath.Plane.Intersects)	Checks whether the current Plane intersects a specified BoundingFrustum.
[PlaneIntersectionType Intersects(BoundingSphere)](VRageMath.Plane.Intersects)	Checks whether the current Plane intersects a specified BoundingSphere.
[void Intersects(ref BoundingSphere, out PlaneIntersectionType)](VRageMath.Plane.Intersects)	Checks whether the current Plane intersects a BoundingSphere.
[void Normalize()](VRageMath.Plane.Normalize)	Changes the coefficients of the Normal vector of this Plane to make it of unit length.
[Vector3 RandomPoint()](VRageMath.Plane.RandomPoint)
[string ToString()](VRageMath.Plane.ToString)	Returns a String that represents the current Plane.