public void PartitionSpaceNodeEventArgsConstructorTest() { MapSpaceNode partitionSpaceNode = null; // TODO: 初始化为适当的值 BaseMap map = null; // TODO: 初始化为适当的值 PartitionSpaceNodeEventArgs target = new PartitionSpaceNodeEventArgs( partitionSpaceNode, map ); Assert.Inconclusive( "TODO: 实现用来验证目标的代码" ); }
/// <summary> /// /// </summary> /// <param name="sender"></param> /// <param name="eventArgs"></param> public void ProcessPartitionSpaceNode(object sender, PartitionSpaceNodeEventArgs eventArgs) { if (eventArgs.PartitionSpaceNode.LayerIndex != 0) { return; } eventArgs.PartitionSpace = new MapSpaceNode[MAX_NUMBER_OF_CELLS, MAX_NUMBER_OF_CELLS, 0]; for (int iIndexX = 0; iIndexX < MAX_NUMBER_OF_CELLS; iIndexX++) { for (int iIndexY = 0; iIndexY < MAX_NUMBER_OF_CELLS; iIndexY++) { Point3D startPoint3D = new Point3D(); startPoint3D.X = eventArgs.PartitionSpaceNode.SpaceNodeRectangle.Start.X + (iIndexX * SIZE_OF_GRID_CELL); startPoint3D.Y = eventArgs.PartitionSpaceNode.SpaceNodeRectangle.Start.Y + (iIndexY * SIZE_OF_GRID_CELL); startPoint3D.Z = eventArgs.PartitionSpaceNode.SpaceNodeRectangle.Start.Z; Point3D endPoint3D = new Point3D(); endPoint3D.X = startPoint3D.X + SIZE_OF_GRID_CELL; endPoint3D.Y = startPoint3D.Y + SIZE_OF_GRID_CELL; endPoint3D.Z = eventArgs.PartitionSpaceNode.SpaceNodeRectangle.End.Z; eventArgs.PartitionSpace[iIndexX, iIndexY, 0] = new MapSpaceNode(new Rectangle3D(startPoint3D, endPoint3D)); } } }
public void PartitionSpaceNodeEventArgsConstructorTest() { MapSpaceNode partitionSpaceNode = null; // TODO: 初始化为适当的值 BaseMap map = null; // TODO: 初始化为适当的值 PartitionSpaceNodeEventArgs target = new PartitionSpaceNodeEventArgs(partitionSpaceNode, map); Assert.Inconclusive("TODO: 实现用来验证目标的代码"); }
public void ProcessPartitionSpaceNodeTest() { IPartitionSpaceNode target = CreateIPartitionSpaceNode(); // TODO: 初始化为适当的值 object sender = null; // TODO: 初始化为适当的值 PartitionSpaceNodeEventArgs eventArgs = null; // TODO: 初始化为适当的值 target.ProcessPartitionSpaceNode(sender, eventArgs); Assert.Inconclusive("无法验证不返回值的方法。"); }
public void PartitionSpaceNodeTest() { MapSpaceNode partitionSpaceNode = null; // TODO: 初始化为适当的值 BaseMap map = null; // TODO: 初始化为适当的值 PartitionSpaceNodeEventArgs target = new PartitionSpaceNodeEventArgs( partitionSpaceNode, map ); // TODO: 初始化为适当的值 MapSpaceNode actual; actual = target.PartitionSpaceNode; Assert.Inconclusive( "验证此测试方法的正确性。" ); }
public void PartitionSpaceNodeTest() { MapSpaceNode partitionSpaceNode = null; // TODO: 初始化为适当的值 BaseMap map = null; // TODO: 初始化为适当的值 PartitionSpaceNodeEventArgs target = new PartitionSpaceNodeEventArgs(partitionSpaceNode, map); // TODO: 初始化为适当的值 MapSpaceNode actual; actual = target.PartitionSpaceNode; Assert.Inconclusive("验证此测试方法的正确性。"); }
/// <summary> /// /// </summary> public virtual void ProcessPartitionSpace(IPartitionSpaceNode partitionSpaceInterface) { if (partitionSpaceInterface == null) { throw new Exception("MapSpaceNode.ProcessPartitionSpace(...) - partitionSpaceInterface == null error!"); } if (this.EventPartitionSpaceNode != null) { throw new Exception("MapSpaceNode.ProcessPartitionSpace(...) - this.EventPartitionSpaceNode != null error!"); } this.EventInitSpaceNode += new EventHandler <SpaceNodeEventArgs>(partitionSpaceInterface.InitSpaceNode); this.EventPartitionSpaceNode += new EventHandler <PartitionSpaceNodeEventArgs>(partitionSpaceInterface.ProcessPartitionSpaceNode); this.EventActivateSpaceNode += new EventHandler <ActivateSpaceNodeEventArgs>(partitionSpaceInterface.ActivateSpaceNode); this.EventDeactivateSpaceNode += new EventHandler <DeactivateSpaceNodeEventArgs>(partitionSpaceInterface.DeactivateSpaceNode); // EventInitSpaceNode SpaceNodeEventArgs spaceNodeEventArgs = new SpaceNodeEventArgs(this); this.EventInitSpaceNode(this, spaceNodeEventArgs); // EventPartitionSpaceNode PartitionSpaceNodeEventArgs partitionSpaceNodeEventArgs = new PartitionSpaceNodeEventArgs(this, this.m_Owner); this.EventPartitionSpaceNode(this, partitionSpaceNodeEventArgs); if (partitionSpaceNodeEventArgs.PartitionSpace != null) { m_SpaceNodes = partitionSpaceNodeEventArgs.PartitionSpace; for (int iIndex0 = 0; iIndex0 < m_SpaceNodes.GetLength(0); iIndex0++) { for (int iIndex1 = 0; iIndex1 < m_SpaceNodes.GetLength(1); iIndex1++) { for (int iIndex2 = 0; iIndex2 < m_SpaceNodes.GetLength(2); iIndex2++) { if (m_SpaceNodes[iIndex0, iIndex1, iIndex2] != null) { m_SpaceNodes[iIndex0, iIndex1, iIndex2].RankIndex = new RankIndex(iIndex0, iIndex1, iIndex2); m_SpaceNodes[iIndex0, iIndex1, iIndex2].Parent = this; m_SpaceNodes[iIndex0, iIndex1, iIndex2].Owner = this.Owner; m_SpaceNodes[iIndex0, iIndex1, iIndex2].m_LayerIndex = this.m_LayerIndex + 1; m_SpaceNodes[iIndex0, iIndex1, iIndex2].ProcessPartitionSpace(partitionSpaceInterface); } } } } m_IsLeaf = false; } }
/// <summary> /// /// </summary> public virtual void ProcessPartitionSpace( IPartitionSpaceNode partitionSpaceInterface ) { if ( partitionSpaceInterface == null ) throw new Exception( "MapSpaceNode.ProcessPartitionSpace(...) - partitionSpaceInterface == null error!" ); if ( this.EventPartitionSpaceNode != null ) throw new Exception( "MapSpaceNode.ProcessPartitionSpace(...) - this.EventPartitionSpaceNode != null error!" ); this.EventInitSpaceNode += new EventHandler<SpaceNodeEventArgs>( partitionSpaceInterface.InitSpaceNode ); this.EventPartitionSpaceNode += new EventHandler<PartitionSpaceNodeEventArgs>( partitionSpaceInterface.ProcessPartitionSpaceNode ); this.EventActivateSpaceNode += new EventHandler<ActivateSpaceNodeEventArgs>( partitionSpaceInterface.ActivateSpaceNode ); this.EventDeactivateSpaceNode += new EventHandler<DeactivateSpaceNodeEventArgs>( partitionSpaceInterface.DeactivateSpaceNode ); // EventInitSpaceNode SpaceNodeEventArgs spaceNodeEventArgs = new SpaceNodeEventArgs( this ); this.EventInitSpaceNode( this, spaceNodeEventArgs ); // EventPartitionSpaceNode PartitionSpaceNodeEventArgs partitionSpaceNodeEventArgs = new PartitionSpaceNodeEventArgs( this, this.m_Owner ); this.EventPartitionSpaceNode( this, partitionSpaceNodeEventArgs ); if ( partitionSpaceNodeEventArgs.PartitionSpace != null ) { m_SpaceNodes = partitionSpaceNodeEventArgs.PartitionSpace; for ( int iIndex0 = 0; iIndex0 < m_SpaceNodes.GetLength( 0 ); iIndex0++ ) { for ( int iIndex1 = 0; iIndex1 < m_SpaceNodes.GetLength( 1 ); iIndex1++ ) { for ( int iIndex2 = 0; iIndex2 < m_SpaceNodes.GetLength( 2 ); iIndex2++ ) { if ( m_SpaceNodes[iIndex0, iIndex1, iIndex2] != null ) { m_SpaceNodes[iIndex0, iIndex1, iIndex2].RankIndex = new RankIndex( iIndex0, iIndex1, iIndex2 ); m_SpaceNodes[iIndex0, iIndex1, iIndex2].Parent = this; m_SpaceNodes[iIndex0, iIndex1, iIndex2].Owner = this.Owner; m_SpaceNodes[iIndex0, iIndex1, iIndex2].m_LayerIndex = this.m_LayerIndex + 1; m_SpaceNodes[iIndex0, iIndex1, iIndex2].ProcessPartitionSpace( partitionSpaceInterface ); } } } } m_IsLeaf = false; } }
/// <summary> /// /// </summary> /// <param name="sender"></param> /// <param name="eventArgs"></param> public void ProcessPartitionSpaceNode( object sender, PartitionSpaceNodeEventArgs eventArgs ) { if ( eventArgs.PartitionSpaceNode.LayerIndex != 0 ) return; eventArgs.PartitionSpace = new MapSpaceNode[MAX_NUMBER_OF_CELLS, MAX_NUMBER_OF_CELLS, 0]; for ( int iIndexX = 0; iIndexX < MAX_NUMBER_OF_CELLS; iIndexX++ ) { for ( int iIndexY = 0; iIndexY < MAX_NUMBER_OF_CELLS; iIndexY++ ) { Point3D startPoint3D = new Point3D(); startPoint3D.X = eventArgs.PartitionSpaceNode.SpaceNodeRectangle.Start.X + ( iIndexX * SIZE_OF_GRID_CELL ); startPoint3D.Y = eventArgs.PartitionSpaceNode.SpaceNodeRectangle.Start.Y + ( iIndexY * SIZE_OF_GRID_CELL ); startPoint3D.Z = eventArgs.PartitionSpaceNode.SpaceNodeRectangle.Start.Z; Point3D endPoint3D = new Point3D(); endPoint3D.X = startPoint3D.X + SIZE_OF_GRID_CELL; endPoint3D.Y = startPoint3D.Y + SIZE_OF_GRID_CELL; endPoint3D.Z = eventArgs.PartitionSpaceNode.SpaceNodeRectangle.End.Z; eventArgs.PartitionSpace[iIndexX, iIndexY, 0] = new MapSpaceNode( new Rectangle3D( startPoint3D, endPoint3D ) ); } } }