-/** Copyright (c) 2017 Samsung Electronics Co., Ltd.
-*
-* Licensed under the Apache License, Version 2.0 (the "License");
-* you may not use this file except in compliance with the License.
-* You may obtain a copy of the License at
-*
-* http://www.apache.org/licenses/LICENSE-2.0
-*
-* Unless required by applicable law or agreed to in writing, software
-* distributed under the License is distributed on an "AS IS" BASIS,
-* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-* See the License for the specific language governing permissions and
-* limitations under the License.
-*
-*/
+/*
+ * Copyright(c) 2017 Samsung Electronics Co., Ltd.
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ */
namespace Tizen.NUI
{
/// <summary>
/// The Rotation class.
/// </summary>
+ /// <since_tizen> 3 </since_tizen>
public class Rotation : global::System.IDisposable
{
private global::System.Runtime.InteropServices.HandleRef swigCPtr;
+ /// <summary>
+ /// swigCMemOwn
+ /// </summary>
+ /// <since_tizen> 3 </since_tizen>
protected bool swigCMemOwn;
internal Rotation(global::System.IntPtr cPtr, bool cMemoryOwn)
//A Flag to check who called Dispose(). (By User or DisposeQueue)
private bool isDisposeQueued = false;
- //A Flat to check if it is already disposed.
+ /// <summary>
+ /// A Flat to check if it is already disposed.
+ /// </summary>
+ /// <since_tizen> 3 </since_tizen>
protected bool disposed = false;
+ /// <summary>
+ /// Dispose.
+ /// </summary>
+ /// <since_tizen> 3 </since_tizen>
~Rotation()
{
if(!isDisposeQueued)
/// <summary>
/// To make the Rotation instance be disposed.
/// </summary>
+ /// <since_tizen> 3 </since_tizen>
public void Dispose()
{
//Throw excpetion if Dispose() is called in separate thread.
}
}
+ /// <summary>
+ /// Dispose.
+ /// </summary>
+ /// <since_tizen> 3 </since_tizen>
protected virtual void Dispose(DisposeTypes type)
{
if (disposed)
/// <param name="arg1">The first rotation.</param>
/// <param name="arg2">The second rotation.</param>
/// <returns>The rotation containing the result of the addition.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static Rotation operator +(Rotation arg1, Rotation arg2)
{
return arg1.Add(arg2);
/// <param name="arg1">The first rotation.</param>
/// <param name="arg2">The second rotation.</param>
/// <returns>The rotation containing the result of the subtraction.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static Rotation operator -(Rotation arg1, Rotation arg2)
{
return arg1.Subtract(arg2);
/// </summary>
/// <param name="arg1">The first rotation.</param>
/// <returns>The rotation containing the negated result.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static Rotation operator -(Rotation arg1)
{
return arg1.Subtract();
/// <param name="arg1">The first rotation.</param>
/// <param name="arg2">The second rotation.</param>
/// <returns>The rotation containing the result of the multiplication.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static Rotation operator *(Rotation arg1, Rotation arg2)
{
return arg1.Multiply(arg2);
/// <param name="arg1">Rotation.</param>
/// <param name="arg2">The vector to multiply.</param>
/// <returns>The rotation containing the result of the multiplication.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static Vector3 operator *(Rotation arg1, Vector3 arg2)
{
return arg1.Multiply(arg2);
/// <param name="arg1">Rotation.</param>
/// <param name="arg2">A value to scale by.</param>
/// <returns>The rotation containing the result of scaling.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static Rotation operator *(Rotation arg1, float arg2)
{
return arg1.Multiply(arg2);
/// <param name="arg1">The first rotation.</param>
/// <param name="arg2">The second rotation.</param>
/// <returns>The rotation containing the result of scaling.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static Rotation operator /(Rotation arg1, Rotation arg2)
{
return arg1.Divide(arg2);
/// <param name="arg1">Rotation.</param>
/// <param name="arg2">A value to scale by.</param>
/// <returns>The rotation containing the result of scaling.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static Rotation operator /(Rotation arg1, float arg2)
{
return arg1.Divide(arg2);
/// <summary>
/// The default constructor.
/// </summary>
+ /// <since_tizen> 3 </since_tizen>
public Rotation() : this(NDalicPINVOKE.new_Rotation__SWIG_0(), true)
{
if (NDalicPINVOKE.SWIGPendingException.Pending) throw NDalicPINVOKE.SWIGPendingException.Retrieve();
/// </summary>
/// <param name="angle">The angle around the axis.</param>
/// <param name="axis">The vector of the axis.</param>
+ /// <since_tizen> 3 </since_tizen>
public Rotation(Radian angle, Vector3 axis) : this(NDalicPINVOKE.new_Rotation__SWIG_1(Radian.getCPtr(angle), Vector3.getCPtr(axis)), true)
{
if (NDalicPINVOKE.SWIGPendingException.Pending) throw NDalicPINVOKE.SWIGPendingException.Retrieve();
/// <summary>
/// (0.0f,0.0f,0.0f,1.0f).
/// </summary>
+ /// <since_tizen> 3 </since_tizen>
public static Rotation IDENTITY
{
get
/// Helper to check if this is an identity quaternion.
/// </summary>
/// <returns>True if this is identity quaternion.</returns>
+ /// <since_tizen> 3 </since_tizen>
public bool IsIdentity()
{
bool ret = NDalicPINVOKE.Rotation_IsIdentity(swigCPtr);
/// <param name="axis">The result of an an axis.</param>
/// <param name="angle">The result of angle in radians.</param>
/// <returns>True if converted correctly.</returns>
+ /// <since_tizen> 3 </since_tizen>
public bool GetAxisAngle(Vector3 axis, Radian angle)
{
bool ret = NDalicPINVOKE.Rotation_GetAxisAngle(swigCPtr, Vector3.getCPtr(axis), Radian.getCPtr(angle));
/// Returns the length of the rotation.
/// </summary>
/// <returns>The length of the rotation.</returns>
+ /// <since_tizen> 3 </since_tizen>
public float Length()
{
float ret = NDalicPINVOKE.Rotation_Length(swigCPtr);
/// Returns the squared length of the rotation.
/// </summary>
/// <returns>The squared length of the rotation.</returns>
+ /// <since_tizen> 3 </since_tizen>
public float LengthSquared()
{
float ret = NDalicPINVOKE.Rotation_LengthSquared(swigCPtr);
/// <summary>
/// Normalizes this to unit length.
/// </summary>
+ /// <since_tizen> 3 </since_tizen>
public void Normalize()
{
NDalicPINVOKE.Rotation_Normalize(swigCPtr);
/// Normalized.
/// </summary>
/// <returns>A normalized version of this rotation.</returns>
+ /// <since_tizen> 3 </since_tizen>
public Rotation Normalized()
{
Rotation ret = new Rotation(NDalicPINVOKE.Rotation_Normalized(swigCPtr), true);
/// <summary>
/// Conjugates this rotation.
/// </summary>
+ /// <since_tizen> 3 </since_tizen>
public void Conjugate()
{
NDalicPINVOKE.Rotation_Conjugate(swigCPtr);
/// <summary>
/// Inverts this rotation.
/// </summary>
+ /// <since_tizen> 3 </since_tizen>
public void Invert()
{
NDalicPINVOKE.Rotation_Invert(swigCPtr);
/// Performs the logarithm of a rotation.
/// </summary>
/// <returns>The rotation representing the logarithm.</returns>
+ /// <since_tizen> 3 </since_tizen>
public Rotation Log()
{
Rotation ret = new Rotation(NDalicPINVOKE.Rotation_Log(swigCPtr), true);
/// Performs an exponent.
/// </summary>
/// <returns>The rotation representing the exponent.</returns>
+ /// <since_tizen> 3 </since_tizen>
public Rotation Exp()
{
Rotation ret = new Rotation(NDalicPINVOKE.Rotation_Exp(swigCPtr), true);
/// <param name="q1">The first rotation.</param>
/// <param name="q2">The second rotation.</param>
/// <returns>The dot product of the two rotations.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static float Dot(Rotation q1, Rotation q2)
{
float ret = NDalicPINVOKE.Rotation_Dot(Rotation.getCPtr(q1), Rotation.getCPtr(q2));
/// <param name="q2">The end rotation.</param>
/// <param name="t">A progress value between 0 and 1.</param>
/// <returns>The interpolated rotation.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static Rotation Lerp(Rotation q1, Rotation q2, float t)
{
Rotation ret = new Rotation(NDalicPINVOKE.Rotation_Lerp(Rotation.getCPtr(q1), Rotation.getCPtr(q2), t), true);
/// <param name="q2">The end rotation.</param>
/// <param name="progress">A progress value between 0 and 1.</param>
/// <returns>The interpolated rotation.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static Rotation Slerp(Rotation q1, Rotation q2, float progress)
{
Rotation ret = new Rotation(NDalicPINVOKE.Rotation_Slerp(Rotation.getCPtr(q1), Rotation.getCPtr(q2), progress), true);
/// <param name="q2">The end rotation.</param>
/// <param name="t">A progress value between 0 and 1.</param>
/// <returns>The interpolated rotation.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static Rotation SlerpNoInvert(Rotation q1, Rotation q2, float t)
{
Rotation ret = new Rotation(NDalicPINVOKE.Rotation_SlerpNoInvert(Rotation.getCPtr(q1), Rotation.getCPtr(q2), t), true);
/// <param name="ctrl2">The control rotation for q2.</param>
/// <param name="t">A progress value between 0 and 1.</param>
/// <returns>The interpolated rotation.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static Rotation Squad(Rotation start, Rotation end, Rotation ctrl1, Rotation ctrl2, float t)
{
Rotation ret = new Rotation(NDalicPINVOKE.Rotation_Squad(Rotation.getCPtr(start), Rotation.getCPtr(end), Rotation.getCPtr(ctrl1), Rotation.getCPtr(ctrl2), t), true);
/// <param name="q1">The first rotation.</param>
/// <param name="q2">The second rotation.</param>
/// <returns>The angle between the two rotation.</returns>
+ /// <since_tizen> 3 </since_tizen>
public static float AngleBetween(Rotation q1, Rotation q2)
{
float ret = NDalicPINVOKE.Rotation_AngleBetween(Rotation.getCPtr(q1), Rotation.getCPtr(q2));
}
-}
+}
\ No newline at end of file