/// <summary> /// Create a translation and rotation. /// </summary> static public Matrix4x4f TranslateRotate(Vector3f t, Quaternion3f r) { Matrix4x4f T = Translate(t); Matrix4x4f R = r.ToMatrix4x4f(); return(T * R); }
/// <summary> /// Create a rotation and scale. /// </summary> static public Matrix4x4f RotateScale(Quaternion3f r, Vector3f s) { Matrix4x4f R = r.ToMatrix4x4f(); Matrix4x4f S = Scale(s); return(R * S); }
/// <summary> /// A Quaternion copied another quaternion. /// </summary> public Quaternion3f(Quaternion3f q) { this.x = q.x; this.y = q.y; this.z = q.z; this.w = q.w; }
/// <summary> /// Create a translation, rotation and scale. /// </summary> static public Matrix4x4f TranslateRotateScale(Vector3f t, Quaternion3f r, Vector3f s) { Matrix4x4f T = Translate(t); Matrix4x4f R = r.ToMatrix4x4f(); Matrix4x4f S = Scale(s); return(T * R * S); }
/// <summary> /// Are these Quaternions equal. /// </summary> public override bool Equals(object obj) { if (!(obj is Quaternion3f)) { return(false); } Quaternion3f v = (Quaternion3f)obj; return(this == v); }
/// <summary> /// Slerp the quaternion from the from rotation to the to rotation by t. /// </summary> public Quaternion3f Slerp(Quaternion3f from, Quaternion3f to, float t) { if (t <= 0) { return(new Quaternion3f(from)); } else if (t >= 1) { return(new Quaternion3f(to)); } else { float cosom = from.x * to.x + from.y * to.y + from.z * to.z + from.w * to.w; float absCosom = Math.Abs(cosom); float scale0; float scale1; if ((1 - absCosom) > 1e-6f) { float omega = Safe_Acos(absCosom); float sinom = 1.0f / (float)Math.Sin(omega); scale0 = (float)Math.Sin((1.0f - t) * omega) * sinom; scale1 = (float)Math.Sin(t * omega) * sinom; } else { scale0 = 1 - t; scale1 = t; } Quaternion3f res = new Quaternion3f(scale0 * from.x + scale1 * to.x, scale0 * from.y + scale1 * to.y, scale0 * from.z + scale1 * to.z, scale0 * from.w + scale1 * to.w); return(res.Normalized); } }
/// <summary> /// Create a rotation out of a vector. /// </summary> static public Matrix4x4f Rotate(Vector3f euler) { return(Quaternion3f.FromEuler(euler).ToMatrix4x4f()); }