/*=============================================================================

  NOTE: THIS FILE WAS AUTOMATICALLY GENERATED BY THE ManagedITK PROJECT.

  Project:   ManagedITK
  Program:   Insight Segmentation & Registration Toolkit
  Module:    itkManaged@MANAGED_BASE_NAME@.cxx
  Language:  C++/CLI
  Author:    Dan Mueller
  $Date: 2007-04-11 16:26:16 +1000 (Wed, 11 Apr 2007) $
  $Revision: 128 $

  Copyright (c) Queensland University of Technology (QUT) 2007.
  All rights reserved.
  
  Portions of this code are covered under the ITK and VTK copyright.
  See ITKCopyright.txt or http://www.itk.org/HTML/Copyright.htm for details.
  See VTKCopyright.txt or http://www.kitware.com/VTKCopyright.htm for details.

  This software is distributed WITHOUT ANY WARRANTY; without even
  the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
  PURPOSE.  See the above copyright notices for more information.
  
=============================================================================*/

#pragma once
#pragma warning( disable : 4635 ) // Disable warnings about XML doc comments

#ifndef __itkManaged@MANAGED_BASE_NAME@_cxx
#define __itkManaged@MANAGED_BASE_NAME@_cxx

// Use some managed namespaces
#using <mscorlib.dll>
#using <System.dll>
#using <ManagedITK.Common.dll>
using namespace System;
using namespace System::IO;
using namespace System::Reflection;
using namespace System::ComponentModel;
using namespace System::Diagnostics;

namespace itk
{
    
///<summary>
///This class is a managed interface for itk::@MANAGED_BASE_NAME@.
///</summary>
///<remarks>
///Both the wrapper and type classes derive from this interface.
///</remarks>
public interface class I@MANAGED_BASE_NAME@
{
    @MANAGED_PROPERTIES_INTERFACE@
    @MANAGED_METHODS_INTERFACE@
};

///<summary>
///This class is a managed wrapper for itk::@MANAGED_BASE_NAME@.
///</summary>
///<remarks>
///The actual type instance can be specified by calling the New()
///method with the desired itkDimension.
///</remarks>
public ref class itk@MANAGED_BASE_NAME@ :
    itkMatrixOffsetTransform, I@MANAGED_BASE_NAME@
{
private:
    itkMatrixOffsetTransform^ m_Instance;
    
protected:
    ///<summary>Protected constructor.</summary>
	itk@MANAGED_BASE_NAME@ ( ) : itkMatrixOffsetTransform( )
    { }

public:
    ///<summary>Dispose of the managed object.</summary>
    ~itk@MANAGED_BASE_NAME@ ( )
    {
		if (!this->m_IsDisposed)
		{
            try { delete m_Instance; }
            catch ( ... ) { }
            finally { this->m_IsDisposed = true; }
        }
    }
    
    ///<summary>Finalize the managed object.</summary>
    !itk@MANAGED_BASE_NAME@ ( )
    { }
    
	///<summary>
	///Get/set the pointer to the native ITK object associated with
	///this wrapper instance.
	///</summary>
	///<returns>The pointer to the native ITK object.</returns>
	property void* NativePointer
    {
        virtual void* get() override { return this->m_Instance->NativePointer; }
        virtual void set ( void* value ) override { this->m_Instance->NativePointer = value; }
    }
    
	///<summary>Get the last modified time.</summary>
	property unsigned long MTime 
	{ 
		virtual unsigned long get() override { return this->m_Instance->MTime; } 
	}

    ///<summary>Create a specific type instance using the given types.</summary>
    ///<param name="dim">The dimensionality of the transform.</param>
    static itk@MANAGED_BASE_NAME@^ New ( unsigned int dim )
    {
        return itk@MANAGED_BASE_NAME@::New( "D" + dim.ToString() );
    }

    ///<summary>Create a specific type instance using the given types.</summary>
    ///<param name="mangledType">A string specifying which instance type to create. Eg. "D2", "D3", etc.</param>
    static itk@MANAGED_BASE_NAME@^ New ( String^ mangledType )
    {
        // Create a new managed object
        itk@MANAGED_BASE_NAME@^ newManagedObject = gcnew itk@MANAGED_BASE_NAME@();
        newManagedObject->m_MangledTypeString = mangledType;
    	
        // Get the name of the instance type to create
        String^ nameInstanceType = "itk.itk@MANAGED_BASE_NAME@_" + newManagedObject->MangledTypeString;

		try
		{
            // Create the correct instance class
			Type^ typeInstance = Assembly::GetExecutingAssembly()->GetType(nameInstanceType);
			if (typeInstance == nullptr)
			    throw gcnew NullReferenceException("The type '" + nameInstanceType + "' could not be found in " + Assembly::GetExecutingAssembly()->GetName() );
			Object^ objInstance = typeInstance->InvokeMember("New", BindingFlags::InvokeMethod, Type::DefaultBinder, nullptr, nullptr);
			if (objInstance == nullptr)
			    throw gcnew NullReferenceException("Could not invoke the New() method for '" + nameInstanceType + "'.");
            newManagedObject->m_Instance = safe_cast<itkMatrixOffsetTransform^>(objInstance);
            
    		// Pass events from type to wrapper
			newManagedObject->PassEventsFromTypeToWrapper( );

        	// Return
        	return newManagedObject;
        }
		catch (Exception^ ex)
		{
			throw gcnew itkInvalidWrappedTypeException("Could not create an instance of '" + nameInstanceType + "'. The given type may not be supported or may be invalid.", ex);
		}
    }
    
    ///<summary>
    ///Remove all observers watching this object.
    ///</summary>
    ///<remarks>
	///By default, observers are created for all events. Calling this
	///method removes all native observers, and therefore prevents
	///the firing of managed events. Call AddAnyEventObserver() to
	///reset the default observers which enable the managed events.
	///</remarks>
	virtual void RemoveAllObservers ( ) override
	{
		this->m_Instance->RemoveAllObservers();
	}

    ///<summary>
    ///Adds a native observer watching for any event.
    ///</summary>
    ///<remarks>
	///By default, observers are created for all events. Calling this
	///method adds a single native observer for any event. This
	///observer invokes the managed events. Therefore, calling this
	///method more than once, or calling it without first calling
	///RemoveAllObservers(), may cause the managed events to be
	///invoked more than once.
	///</remarks>
	virtual void AddAnyEventObserver ( ) override
	{
        this->m_Instance->AddAnyEventObserver( );
        this->PassEventsFromTypeToWrapper( );
	}

    ///<summary>Get the number of parameters that completely define the Transfom.</summary>
	property unsigned int NumberOfParameters
    { 
		virtual unsigned int get() override
        {
            return this->m_Instance->NumberOfParameters;
        }
	}

    ///<summary>Get/set the transformation parameters.</summary>
	property itkArray<double>^ Parameters
    { 
		virtual itkArray<double>^ get() override
		{
            return this->m_Instance->Parameters;
        }
		virtual void set( itkArray<double>^ parameters ) override
		{
            this->m_Instance->Parameters = parameters;
        }
	}
	
    ///<summary>Return the inverse of the transform.</summary>
    ///<param name="inverse">The managed instance to become the inverse transform.</param>
    ///<returns>True if the inverse exists, false otherwise.</returns>
	virtual bool GetInverse(itkTransform^ inverse) override
	{
        return this->m_Instance->GetInverse( inverse );
    }

    ///<summary>Apply the transform to a point, mapping it from the input to the output space.</summary>
    ///<param name="point">The point to transform.</param>
    ///<returns>A new instance of the transformed point.</returns>
    virtual itkPoint^ TransformPoint( itkPoint^ point ) override
    {
        return this->m_Instance->TransformPoint( point );
    }

    ///<summary>Apply the transform to a vector, mapping it from the input to the output space.</summary>
    ///<param name="vector">The vector to transform.</param>
    ///<returns>A new instance of the transformed point.</returns>
    virtual itkVector^ TransformVector( itkVector^ vector ) override
    {
        return this->m_Instance->TransformVector( vector );
    }

    ///<summary>Get/set the matrix.</summary>
    ///<remarks>To define an affine transform, you must set the matrix, center, and translation OR the matrix and offset.</remarks>
	property itkMatrix^ Matrix
	{
		virtual itkMatrix^ get() override { return this->m_Instance->Matrix; }
		virtual void set(itkMatrix^ value) override { this->m_Instance->Matrix = value; }
	}

	///<summary>Get/set the offset.</summary>
    ///<remarks>To define an affine transform, you must set the matrix, center, and translation OR the matrix and offset.</remarks>
	property itkVector^ Offset
	{
		virtual itkVector^ get() override { return this->m_Instance->Offset; }
		virtual void set(itkVector^ value) override { this->m_Instance->Offset = value; }
	}

	///<summary>Get/set the center of rotation.</summary>
    ///<remarks>To define an affine transform, you must set the matrix, center, and translation OR the matrix and offset.</remarks>
	property itkPoint^ Center
	{
		virtual itkPoint^ get() override { return this->m_Instance->Center; }
		virtual void set(itkPoint^ value) override { this->m_Instance->Center = value; }
	}

	///<summary>Get/set the translation.</summary>
    ///<remarks>To define an affine transform, you must set the matrix, center, and translation OR the matrix and offset.</remarks>
	property itkVector^ Translation
	{
		virtual itkVector^ get() override { return this->m_Instance->Translation; }
		virtual void set(itkVector^ value) override { this->m_Instance->Translation = value; }
	}

    ///<summary>Set the matrix to identity and the offset to zeros.</summary>
    virtual void SetIdentity( ) override 
    {
        this->m_Instance->SetIdentity();
    }
    @MANAGED_PROPERTIES_WRAPPER@ @MANAGED_METHODS_WRAPPER@

private:
    ///<summary>Pass managed events from the type instance to this wrapper instance.</summary>
	void PassEventsFromTypeToWrapper()
	{
        this->m_Instance->Started += gcnew itkTimedEventHandler(this, &itk@MANAGED_BASE_NAME@::Instance_StartedHandler);
		this->m_Instance->Ended += gcnew itkTimedEventHandler(this, &itk@MANAGED_BASE_NAME@::Instance_EndedHandler);
		this->m_Instance->Aborted += gcnew itkTimedEventHandler(this, &itk@MANAGED_BASE_NAME@::Instance_AbortedHandler);
		this->m_Instance->Iteration += gcnew itkObjectHandler(this, &itk@MANAGED_BASE_NAME@::Instance_IterationHandler);
		this->m_Instance->Modified += gcnew itkObjectHandler(this, &itk@MANAGED_BASE_NAME@::Instance_ModifiedHandler);
	}

	///<summary>Handle the Started event.</summary>
	void Instance_StartedHandler(itkObject^ sender, System::DateTime time)
	{
		this->InvokeStartedEvent(time);
	}

    ///<summary>Handle the Ended event.</summary>
	void Instance_EndedHandler(itkObject^ sender, System::DateTime time)
	{
		this->InvokeEndedEvent(time);
	}
	
    ///<summary>Handle the Aborted event.</summary>
	void Instance_AbortedHandler(itkObject^ sender, System::DateTime time)
	{
		this->InvokeAbortedEvent(time);
	}

    ///<summary>Handle the Iteration event.</summary>
	void Instance_IterationHandler(itkObject^ sender)
	{
		this->InvokeIterationEvent();
	}

    ///<summary>Handle the Modified event.</summary>
	void Instance_ModifiedHandler(itkObject^ sender)
	{
		this->InvokeModifiedEvent();
	}

}; // end ref class

} // end namespace itk

#endif