diff --git a/Core/Code/DataManagement/mitkPointSet.h b/Core/Code/DataManagement/mitkPointSet.h index 96c107f5f6..7177cdd61b 100755 --- a/Core/Code/DataManagement/mitkPointSet.h +++ b/Core/Code/DataManagement/mitkPointSet.h @@ -1,284 +1,284 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #ifndef MITKPointSet_H_HEADER_INCLUDED #define MITKPointSet_H_HEADER_INCLUDED #include "mitkBaseData.h" #include #include namespace mitk { /** * \brief Data structure which stores a set of points. Superclass of * mitk::Mesh. * * 3D points are grouped within a point set; for time resolved usage, one point * set is created and maintained per time step. A point entry consists of the * point coordinates and point data. * * The point data includes a point ID (unique identifier to address this point * within the point set), the selection state of the point and the type of * the point. * * For further information about different point types see * mitk::PointSpecificationType in mitkVector.h. * * Inserting a point is accompanied by an event, containing an index. The new * point is inserted into the list at the specified position. At the same time * an internal ID is generated and stored for the point. Points at specific time * steps are accessed by specifying the time step number (which defaults to 0). * * The points of itk::PointSet stores the points in a pointContainer * (MapContainer). The points are best accessed by using a ConstIterator (as * defined in MapContainer); avoid access via index. * * The class internally uses an itk::Mesh for each time step, because * mitk::Mesh is derived from mitk::PointSet and needs the itk::Mesh structure * which is also derived from itk::PointSet. Thus several typedefs which seem * to be in wrong place, are declared here (for example SelectedLinesType). * * \section mitkPointSetDisplayOptions * * The default mappers for this data structure are mitk::PointSetGLMapper2D and * mitk::PointSetVtkMapper3D. See these classes for display options which can * can be set via properties. * * \section Events * * PointSet issues the following events, for which observers can register * (the below events are grouped into a class hierarchy as indicated by * identation level; e.g. PointSetSizeChangeEvent comprises PointSetAddEvent * and PointSetRemoveEvent): * * * PointSetEvent subsumes all PointSet events * PointSetMoveEvent issued when a point of the PointSet is moved * PointSetSizeChangeEvent subsumes add and remove events * PointSetAddEvent issued when a point is added to the PointSet * PointSetRemoveEvent issued when a point is removed from the PointSet * * \ingroup PSIO * \ingroup Data */ class MITK_CORE_EXPORT PointSet : public BaseData { public: mitkClassMacro(PointSet, BaseData); itkNewMacro(Self); mitkCloneMacro(PointSet); typedef mitk::ScalarType CoordinateType; typedef mitk::ScalarType InterpolationWeightType; static const unsigned int PointDimension = 3; static const unsigned int MaxTopologicalDimension = 3; /** * \brief struct for data of a point */ - struct PointDataType + struct MITK_CORE_EXPORT PointDataType { unsigned int id; //to give the point a special ID bool selected; //information about if the point is selected mitk::PointSpecificationType pointSpec; //specifies the type of the point bool operator==(const PointDataType& other) const; }; /** * \brief cellDataType, that stores all indexes of the lines, that are * selected e.g.: points A,B and C.Between A and B there is a line with * index 0. If vector of cellData contains 1 and 2, then the lines between * B and C and C and A is selected. */ typedef std::vector SelectedLinesType; typedef SelectedLinesType::iterator SelectedLinesIter; struct CellDataType { //used to set the whole cell on selected bool selected; //indexes of selected lines. 0 is between pointId 0 and 1 SelectedLinesType selectedLines; //is the polygon already finished and closed bool closed; }; typedef itk::DefaultDynamicMeshTraits< PointDataType, PointDimension, MaxTopologicalDimension, CoordinateType, InterpolationWeightType, CellDataType > MeshTraits; typedef itk::Mesh MeshType; typedef MeshType DataType; typedef DataType::PointType PointType; typedef DataType::PointIdentifier PointIdentifier; typedef DataType::PointsContainer PointsContainer; typedef DataType::PointsContainerIterator PointsIterator; typedef DataType::PointsContainer::ConstIterator PointsConstIterator; typedef DataType::PointDataContainer PointDataContainer; typedef DataType::PointDataContainerIterator PointDataIterator; typedef DataType::PointDataContainerIterator PointDataConstIterator; virtual void Expand( unsigned int timeSteps ); /** \brief executes the given Operation */ virtual void ExecuteOperation(Operation* operation); /** \brief returns the current size of the point-list */ virtual int GetSize( unsigned int t = 0 ) const; virtual unsigned int GetPointSetSeriesSize() const; /** \brief returns the pointset */ virtual DataType::Pointer GetPointSet( int t = 0 ) const; PointsIterator Begin( int t = 0 ); PointsConstIterator Begin( int t = 0 ) const; PointsIterator End( int t = 0 ); PointsConstIterator End( int t = 0 ) const; /** * \brief Get the point with ID id in world coordinates * * check if the ID exists. If it doesn't exist, then return 0,0,0 */ PointType GetPoint( PointIdentifier id, int t = 0 ) const; /** * \brief Get the point with ID id in world coordinates * * If a point exists for the ID id, the point is returned in the parameter point * and the method returns true. If the ID does not exist, the method returns false */ bool GetPointIfExists( PointIdentifier id, PointType* point, int t = 0 ) const; /** * \brief Set the given point in world coordinate system into the itkPointSet. */ void SetPoint( PointIdentifier id, PointType point, int t = 0 ); /** * \brief Set the given point in world coordinate system with the given PointSpecificationType */ void SetPoint( PointIdentifier id, PointType point, PointSpecificationType spec, int t = 0 ); /** * \brief Set the given point in world coordinate system into the itkPointSet. */ void InsertPoint( PointIdentifier id, PointType point, int t = 0 ); /** * \brief Set the given point in world coordinate system with given PointSpecificationType */ void InsertPoint( PointIdentifier id, PointType point, PointSpecificationType spec, int t ); /** * \brief Swap a point at the given position (id) with the upper point (moveUpwards=true) or with the lower point (moveUpwards=false). * If upper or lower index does not exist false is returned, if swap was successful true. */ bool SwapPointPosition( PointIdentifier id, bool moveUpwards, int t = 0 ); /** * \brief searches a selected point and returns the id of that point. * If no point is found, then -1 is returned */ virtual int SearchSelectedPoint( int t = 0 ) const; /** \brief returns true if a point exists at this position */ virtual bool IndexExists( int position, int t = 0 ) const; /** \brief to get the state selected/unselected of the point on the * position */ virtual bool GetSelectInfo( int position, int t = 0 ) const; virtual void SetSelectInfo( int position, bool selected, int t = 0 ); /** \brief to get the type of the point at the position and the moment */ virtual PointSpecificationType GetSpecificationTypeInfo( int position, int t ) const; /** \brief returns the number of selected points */ virtual int GetNumberOfSelected( int t = 0 ) const; /** * \brief searches a point in the list == point +/- distance * * \param point is in world coordinates. * \param distance is in mm. * returns -1 if no point is found * or the position in the list of the first match */ int SearchPoint( Point3D point, float distance, int t = 0 ) const; virtual bool IsEmptyTimeStep(unsigned int t) const; //virtual methods, that need to be implemented virtual void UpdateOutputInformation(); virtual void SetRequestedRegionToLargestPossibleRegion(); virtual bool RequestedRegionIsOutsideOfTheBufferedRegion(); virtual bool VerifyRequestedRegion(); virtual void SetRequestedRegion(const itk::DataObject *data); //Method for subclasses virtual void OnPointSetChange(){}; protected: PointSet(); PointSet(const PointSet &other); virtual ~PointSet(); virtual void PrintSelf(std::ostream& os, itk::Indent indent) const; ///< print content of the object to os virtual void ClearData(); virtual void InitializeEmpty(); /** \brief swaps point coordinates and point data of the points with identifiers id1 and id2 */ bool SwapPointContents(PointIdentifier id1, PointIdentifier id2, int t = 0 ); typedef std::vector< DataType::Pointer > PointSetSeries; PointSetSeries m_PointSetSeries; /** * @brief flag to indicate the right time to call SetBounds **/ bool m_CalculateBoundingBox; }; #pragma GCC visibility push(default) itkEventMacro( PointSetEvent, itk::AnyEvent ); itkEventMacro( PointSetMoveEvent, PointSetEvent ); itkEventMacro( PointSetSizeChangeEvent, PointSetEvent ); itkEventMacro( PointSetAddEvent, PointSetSizeChangeEvent ); itkEventMacro( PointSetRemoveEvent, PointSetSizeChangeEvent ); itkEventMacro( PointSetExtendTimeRangeEvent, PointSetEvent ); #pragma GCC visibility pop } // namespace mitk #endif /* MITKPointSet_H_HEADER_INCLUDED */