//--- Non Standard Singleton Methods
void BoundingBoxManagerSingleton::GenerateBoundingBox(matrix4 a_mModelToWorld, String a_sInstanceName)
{
	MeshManagerSingleton* pMeshMngr = MeshManagerSingleton::GetInstance();
	//Verify the instance is loaded
	if(pMeshMngr->IsInstanceCreated(a_sInstanceName))
	{//if it is check if the Box has already been created
		int nBox = IdentifyBox(a_sInstanceName);
		if(nBox == -1)
		{
			//Create a new bounding Box
			BoundingBoxClass* pBB = new BoundingBoxClass();
			//construct its information out of the instance name
			pBB->GenerateOrientedBoundingBox(a_sInstanceName);
			//Push the Box back into the list
			m_lBox.push_back(pBB);
			//Push a new matrix into the list
			m_lMatrix.push_back(matrix4(IDENTITY));
			//Specify the color the Box is going to have
			m_lColor.push_back(vector3(1.0f));
			//Increase the number of Boxes
			m_nBoxs++;
		}
		else //If the box has already been created you will need to check its global orientation
		{
			m_lBox[nBox]->GenerateAxisAlignedBoundingBox(a_mModelToWorld);
		}
		nBox = IdentifyBox(a_sInstanceName);
		m_lMatrix[nBox] = a_mModelToWorld;
	}
}
//--- Non Standard Singleton Methods
void BoundingBoxManagerSingleton::GenerateBoundingBox(String a_sInstanceName)
{
	MeshManagerSingleton* pMeshMngr = MeshManagerSingleton::GetInstance();
	//Verify the instance is loaded
	if(pMeshMngr->IsInstanceCreated(a_sInstanceName))
	{//if it is check if the Box has already been created
		if(IdentifyBox(a_sInstanceName) == -1)
		{
			//Create a new bounding Box
			BoundingBoxClass* pBS = new BoundingBoxClass();
			//construct its information out of the instance name
			pBS->GenerateBoundingBox(a_sInstanceName);
			//Push the Box back into the list
			m_lBox.push_back(pBS);
			//Push a new matrix into the list
			m_lMatrix.push_back(matrix4(IDENTITY));
			//Specify the color the Box is going to have
			m_lColor.push_back(vector3(1.0f));
			//Increase the number of Boxs
			m_nBoxs++;
		}
	}
}