// returns TRUE of vectors are parallel
public static bool Parallel(Vec3D v1, Vec3D v2)
{
float Dot = v1 | v2;
if (System.Math.Abs(1.0f - Dot) < VECTOR_SMALL_NUMBER)
{
return(true);
}
return(false);
}
// normalize this vector so that it is of length 1
public void Normalize()
{
float Magnitude = Size;
if (Magnitude < VECTOR_SMALL_NUMBER)
{
return;
}
Vec3D thisc = this / Magnitude;
this.X = thisc.X;
this.Y = thisc.Y;
this.Z = thisc.Z;
}
/// <summary>this will rotate this vector about the supplied axis according to the angle supplied, and return the rotated result</summary>
/// <param name="Axis">Axis to rotate about</param>
public Vec3D RotateAboutAxis(Vec3D Axis, float Angle)
{
Vec3D Result = new Vec3D(0f);
Axis.Normalize();
float cos = (float)System.Math.Cos(Angle);
float sin = (float)System.Math.Sin(Angle);
Result.X += (cos + (1f - cos) * Axis.X * Axis.X) * X;
Result.X += ((1f - cos) * Result.X * Result.Y - Result.Z * sin) * Axis.Y;
Result.X += ((1f - cos) * Result.X * Result.Z + Result.Y * sin) * Axis.Z;
Result.Y += ((1f - cos) * Result.X * Result.Y + Result.Z * sin) * Axis.X;
Result.Y += (cos + (1f - cos) * Result.Y * Result.Y) * Axis.Y;
Result.Y += ((1f - cos) * Result.Y * Result.Z - Result.X * sin) * Axis.Z;
Result.Z += ((1f - cos) * Result.X * Result.Z - Result.Y * sin) * Axis.X;
Result.Z += ((1f - cos) * Result.Y * Result.Z + Result.X * sin) * Axis.Y;
Result.Z += (cos + (1f - cos) * Result.Z * Result.Z) * Axis.Z;
return(Result);
}
/// <summary>this will rotate this vector about the supplied axis according to the angle supplied, and return the rotated result</summary>
/// <param name="Axis">Axis to rotate about</param>
public Vec3D RotateAboutAxis(Vec3D Axis, float Angle)
{
Vec3D Result = new Vec3D(0f);
Axis.Normalize();
float cos = (float)System.Math.Cos(Angle);
float sin = (float)System.Math.Sin(Angle);
Result.X += (cos + (1f - cos) * Axis.X * Axis.X) * X;
Result.X += ((1f - cos) * Result.X * Result.Y - Result.Z * sin) * Axis.Y;
Result.X += ((1f - cos) * Result.X * Result.Z + Result.Y * sin) * Axis.Z;
Result.Y += ((1f - cos) * Result.X * Result.Y + Result.Z * sin) * Axis.X;
Result.Y += (cos + (1f - cos) * Result.Y * Result.Y) * Axis.Y;
Result.Y += ((1f - cos) * Result.Y * Result.Z - Result.X * sin) * Axis.Z;
Result.Z += ((1f - cos) * Result.X * Result.Z - Result.Y * sin) * Axis.X;
Result.Z += ((1f - cos) * Result.Y * Result.Z + Result.X * sin) * Axis.Y;
Result.Z += (cos + (1f - cos) * Result.Z * Result.Z) * Axis.Z;
return Result;
}
public bool Parallel(Vec3D vOther)
{
return Parallel(this, vOther);
}
/// <summary>
/// this will mirror this vector about the supplied normal
/// </summary>
/// <param name="Normal">normal to mirror by (e.g. normal of the plane we are reflecting)</param>
/// <returns></returns>
public Vec3D Mirror(Vec3D Normal)
{
float dot = this | Normal;
return this - Normal * (2f * dot);
}
// returns TRUE of vectors are parallel
public static bool Parallel(Vec3D v1, Vec3D v2)
{
float Dot = v1 | v2;
if (System.Math.Abs(1.0f - Dot) < VECTOR_SMALL_NUMBER)
{
return true;
}
return false;
}
// returns the angle between two vectors
public static float AngleBetweenVectors(Vec3D v1, Vec3D v2)
{
return (float)System.Math.Acos(v1 | v2);
}
public static float Distance2D(Vec3D v1, Vec3D v2)
{
return((v1 - v2).Size2D);
}
/// <summary>
/// this will mirror this vector about the supplied normal
/// </summary>
/// <param name="Normal">normal to mirror by (e.g. normal of the plane we are reflecting)</param>
/// <returns></returns>
public Vec3D Mirror(Vec3D Normal)
{
float dot = this | Normal;
return(this - Normal * (2f * dot));
}
// returns the angle between two vectors
public static float AngleBetweenVectors(Vec3D v1, Vec3D v2)
{
return((float)System.Math.Acos(v1 | v2));
}
public bool Parallel(Vec3D vOther)
{
return(Parallel(this, vOther));
}
public static float Distance2D(Vec3D v1, Vec3D v2)
{
return (v1 - v2).Size2D;
}
