Medical Imaging Interaction Toolkit
2016.11.0
Medical Imaging Interaction Toolkit
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#include <mitkPlanarDoubleEllipse.h>
Public Member Functions | |
mitkClassMacro (PlanarDoubleEllipse, PlanarFigure) | |
Pointer | Clone () const |
unsigned int | GetNumberOfSegments () const |
void | SetNumberOfSegments (unsigned int numSegments) |
virtual unsigned int | GetMaximumNumberOfControlPoints () const override |
Returns the maximum number of control points allowed for this figure (e.g. 3 for triangles). More... | |
virtual unsigned int | GetMinimumNumberOfControlPoints () const override |
Returns the minimum number of control points needed to represent this figure. More... | |
virtual bool | SetControlPoint (unsigned int index, const Point2D &point, bool createIfDoesNotExist=true) override |
virtual bool | Equals (const mitk::PlanarFigure &other) const override |
Compare two PlanarFigure objects Note: all subclasses have to implement the method on their own. More... | |
Public Member Functions inherited from mitk::PlanarFigure | |
mitkClassMacro (PlanarFigure, BaseData) Pointer Clone() const | |
virtual void | SetPlaneGeometry (mitk::PlaneGeometry *geometry) |
Sets the 2D geometry on which this figure will be placed. More... | |
virtual const PlaneGeometry * | GetPlaneGeometry () const |
Returns (previously set) 2D geometry of this figure. More... | |
virtual bool | IsClosed () const |
True if the planar figure is closed. More... | |
virtual bool | IsPlaced () const |
True if the planar figure has been placed (and can be displayed/interacted with). More... | |
virtual void | PlaceFigure (const Point2D &point) |
Place figure at the given point (in 2D index coordinates) onto the given 2D geometry. More... | |
virtual bool | AddControlPoint (const Point2D &point, int index=-1) |
Adds / inserts new control-points. More... | |
virtual bool | SetCurrentControlPoint (const Point2D &point) |
unsigned int | GetNumberOfControlPoints () const |
Returns the current number of 2D control points defining this figure. More... | |
virtual bool | SelectControlPoint (unsigned int index) |
Selects currently active control points. More... | |
virtual bool | DeselectControlPoint () |
Deselect control point; no control point active. More... | |
virtual int | GetSelectedControlPoint () const |
Return currently selected control point. More... | |
Point2D | GetControlPoint (unsigned int index) const |
Returns specified control point in 2D world coordinates. More... | |
virtual int | GetControlPointForPolylinePoint (int indexOfPolylinePoint, int polyLineIndex) const |
Returns the id of the control-point that corresponds to the given polyline-point. More... | |
Point3D | GetWorldControlPoint (unsigned int index) const |
Returns specified control point in world coordinates. More... | |
const PolyLineType | GetPolyLine (unsigned int index) |
Returns the polyline representing the planar figure (for rendering, measurements, etc.). More... | |
const PolyLineType | GetPolyLine (unsigned int index) const |
Returns the polyline representing the planar figure (for rendering, measurments, etc.). More... | |
const PolyLineType | GetHelperPolyLine (unsigned int index, double mmPerDisplayUnit, unsigned int displayHeight) |
Returns the polyline that should be drawn the same size at every scale (for text, angles, etc.). More... | |
void | SetPreviewControlPoint (const Point2D &point) |
Sets the position of the PreviewControlPoint. Automatically sets it visible. More... | |
void | ResetPreviewContolPoint () |
Marks the PreviewControlPoint as invisible. More... | |
bool | IsPreviewControlPointVisible () const |
Returns whether or not the PreviewControlPoint is visible. More... | |
Point2D | GetPreviewControlPoint () const |
Returns the coordinates of the PreviewControlPoint. More... | |
virtual unsigned int | GetNumberOfFeatures () const |
Returns the number of features available for this PlanarFigure (such as, radius, area, ...). More... | |
const char * | GetFeatureName (unsigned int index) const |
Returns the name (identifier) of the specified features. More... | |
const char * | GetFeatureUnit (unsigned int index) const |
Returns the physical unit of the specified features. More... | |
double | GetQuantity (unsigned int index) const |
bool | IsFeatureActive (unsigned int index) const |
Returns true if the feature with the specified index exists and is active (an inactive feature may e.g. be the area of a non-closed polygon. More... | |
bool | IsFeatureVisible (unsigned int index) const |
Returns true if the feature with the specified index exists and is set visible. More... | |
void | SetFeatureVisible (unsigned int index, bool visible) |
Defines if the feature with the specified index will be shown as an overlay in the RenderWindow. More... | |
virtual void | EvaluateFeatures () |
Calculates quantities of all features of this planar figure. More... | |
virtual void | UpdateOutputInformation () override |
Intherited from parent. More... | |
virtual void | SetRequestedRegionToLargestPossibleRegion () override |
Intherited from parent. More... | |
virtual bool | RequestedRegionIsOutsideOfTheBufferedRegion () override |
Intherited from parent. More... | |
virtual bool | VerifyRequestedRegion () override |
Intherited from parent. More... | |
virtual void | SetRequestedRegion (const itk::DataObject *data) override |
Intherited from parent. More... | |
virtual unsigned short | GetPolyLinesSize () |
Returns the current number of polylines. More... | |
virtual unsigned short | GetHelperPolyLinesSize () const |
Returns the current number of helperpolylines. More... | |
virtual bool | IsHelperToBePainted (unsigned int index) const |
Returns whether a helper polyline should be painted or not. More... | |
virtual bool | ResetOnPointSelect () |
Returns true if the planar figure is reset to "add points" mode when a point is selected. More... | |
virtual bool | ResetOnPointSelectNeeded () const |
virtual void | RemoveControlPoint (unsigned int index) |
removes the point with the given index from the list of controlpoints. More... | |
virtual void | RemoveLastControlPoint () |
Removes last control point. More... | |
virtual Point2D | ApplyControlPointConstraints (unsigned int, const Point2D &point) |
Allow sub-classes to apply constraints on control points. More... | |
Public Member Functions inherited from mitk::BaseData | |
virtual std::vector< std::string > | GetClassHierarchy () const |
virtual const char * | GetClassName () const |
const mitk::TimeGeometry * | GetTimeGeometry () const |
Return the TimeGeometry of the data as const pointer. More... | |
const mitk::TimeGeometry * | GetTimeSlicedGeometry () const |
Return the TimeGeometry of the data as const pointer. More... | |
mitk::TimeGeometry * | GetTimeGeometry () |
Return the TimeGeometry of the data as pointer. More... | |
const mitk::TimeGeometry * | GetUpdatedTimeGeometry () |
Return the TimeGeometry of the data. More... | |
const mitk::TimeGeometry * | GetUpdatedTimeSliceGeometry () |
Return the TimeGeometry of the data. More... | |
virtual void | Expand (unsigned int timeSteps) |
Expands the TimeGeometry to a number of TimeSteps. More... | |
const mitk::BaseGeometry * | GetUpdatedGeometry (int t=0) |
Return the BaseGeometry of the data at time t. More... | |
mitk::BaseGeometry * | GetGeometry (int t=0) const |
Return the geometry, which is a TimeGeometry, of the data as non-const pointer. More... | |
void | UpdateOutputInformation () override |
Update the information for this BaseData (the geometry in particular) so that it can be used as an output of a BaseProcess. More... | |
void | CopyInformation (const itk::DataObject *data) override |
Copy information from the specified data set. More... | |
virtual bool | IsInitialized () const |
Check whether the data has been initialized, i.e., at least the Geometry and other header data has been set. More... | |
virtual void | Clear () |
Calls ClearData() and InitializeEmpty();. More... | |
virtual bool | IsEmptyTimeStep (unsigned int t) const |
Check whether object contains data (at a specified time), e.g., a set of points may be empty. More... | |
virtual bool | IsEmpty () const |
Check whether object contains data (at least at one point in time), e.g., a set of points may be empty. More... | |
void | ExecuteOperation (Operation *operation) override |
overwrite if the Data can be called by an Interactor (StateMachine). More... | |
virtual void | SetGeometry (BaseGeometry *aGeometry3D) |
Set the BaseGeometry of the data, which will be referenced (not copied!). Assumes the data object has only 1 time step ( is a 3D object ) and creates a new TimeGeometry which saves the given BaseGeometry. If an TimeGeometry has already been set for the object, it will be replaced after calling this function. More... | |
virtual void | SetTimeGeometry (TimeGeometry *geometry) |
Set the TimeGeometry of the data, which will be referenced (not copied!). More... | |
virtual void | SetClonedGeometry (const BaseGeometry *aGeometry3D) |
Set a clone of the provided TimeGeometry as TimeGeometry of the data. Assumes the data object has only 1 time step ( is a 3D object ) and creates a new TimeGeometry. If an TimeGeometry has already been set for the object, it will be replaced after calling this function. More... | |
virtual void | SetClonedTimeGeometry (const TimeGeometry *geometry) |
Set a clone of the provided TimeGeometry as TimeGeometry of the data. More... | |
virtual void | SetClonedGeometry (const BaseGeometry *aGeometry3D, unsigned int time) |
Set a clone of the provided geometry as BaseGeometry of a given time step. More... | |
mitk::PropertyList::Pointer | GetPropertyList () const |
Get the data's property list. More... | |
void | SetPropertyList (PropertyList *propertyList) |
Set the data's property list. More... | |
mitk::BaseProperty::Pointer | GetProperty (const char *propertyKey) const |
Get the property (instance of BaseProperty) with key propertyKey from the PropertyList, and set it to this, respectively;. More... | |
void | SetProperty (const char *propertyKey, BaseProperty *property) |
virtual void | SetOrigin (const Point3D &origin) |
Convenience method for setting the origin of the BaseGeometry instances of all time steps. More... | |
itk::SmartPointer< mitk::BaseDataSource > | GetSource () const |
Get the process object that generated this data object. More... | |
unsigned int | GetTimeSteps () const |
Get the number of time steps from the TimeGeometry As the base data has not a data vector given by itself, the number of time steps is defined over the time sliced geometry. In sub classes, a better implementation could be over the length of the data vector. More... | |
virtual unsigned long | GetMTime () const override |
Get the modified time of the last change of the contents this data object or its geometry. More... | |
virtual void | Graft (const DataObject *) override |
Public Member Functions inherited from mitk::OperationActor | |
itkTypeMacroNoParent (OperationActor) virtual ~OperationActor() | |
Static Public Member Functions | |
static Pointer | New () |
Static Public Member Functions inherited from mitk::BaseData | |
static const char * | GetStaticNameOfClass () |
Public Attributes | |
const unsigned int | FEATURE_ID_MAJOR_AXIS |
const unsigned int | FEATURE_ID_MINOR_AXIS |
const unsigned int | FEATURE_ID_THICKNESS |
Protected Member Functions | |
PlanarDoubleEllipse () | |
virtual mitkCloneMacro(Self) virtual mitk void | EvaluateFeaturesInternal () override |
Calculates quantities of all features of this planar figure. Must be implemented in sub-classes. More... | |
virtual void | GenerateHelperPolyLine (double, unsigned int) override |
Generates the poly-lines that should be drawn the same size regardless of zoom. Must be implemented in sub-classes. More... | |
virtual void | GeneratePolyLine () override |
Generates the poly-line representation of the planar figure. Must be implemented in sub-classes. More... | |
Protected Member Functions inherited from mitk::PlanarFigure | |
PlanarFigure () | |
PlanarFigure (const Self &other) | |
void | ResetNumberOfControlPoints (int numberOfControlPoints) |
Set the initial number of control points of the planar figure. More... | |
virtual unsigned int | AddFeature (const char *featureName, const char *unitName) |
void | SetFeatureName (unsigned int index, const char *featureName) |
void | SetFeatureUnit (unsigned int index, const char *unitName) |
void | SetQuantity (unsigned int index, double quantity) |
void | ActivateFeature (unsigned int index) |
void | DeactivateFeature (unsigned int index) |
virtual void | InitializeTimeGeometry (unsigned int timeSteps=1) override |
Initializes the TimeGeometry describing the (time-resolved) geometry of this figure. Note that each time step holds one PlaneGeometry. More... | |
void | SetNumberOfPolyLines (unsigned int numberOfPolyLines) |
defines the number of PolyLines that will be available More... | |
void | AppendPointToPolyLine (unsigned int index, PolyLineElement element) |
Append a point to the PolyLine # index. More... | |
void | ClearPolyLines () |
clears the list of PolyLines. Call before re-calculating a new Polyline. More... | |
void | SetNumberOfHelperPolyLines (unsigned int numberOfHelperPolyLines) |
defines the number of HelperPolyLines that will be available More... | |
void | AppendPointToHelperPolyLine (unsigned int index, PolyLineElement element) |
Append a point to the HelperPolyLine # index. More... | |
void | ClearHelperPolyLines () |
clears the list of HelperPolyLines. Call before re-calculating a new HelperPolyline. More... | |
virtual void | PrintSelf (std::ostream &os, itk::Indent indent) const override |
Protected Member Functions inherited from mitk::BaseData | |
BaseData () | |
BaseData (const BaseData &other) | |
~BaseData () | |
virtual void | InitializeTimeSlicedGeometry (unsigned int timeSteps=1) |
Initialize the TimeGeometry for a number of time steps. The TimeGeometry is initialized empty and evenly timed. In many cases it will be necessary to overwrite this in sub-classes. More... | |
virtual void | ClearData () |
reset to non-initialized state, release memory More... | |
virtual void | InitializeEmpty () |
Pure virtual; Must be used in subclasses to get a data object to a valid state. Should at least create one empty object and call Superclass::InitializeTimeGeometry() to ensure an existing valid geometry. More... | |
Definition at line 25 of file mitkPlanarDoubleEllipse.h.
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protected |
Definition at line 22 of file mitkPlanarDoubleEllipse.cpp.
References mitk::BoolProperty::New(), mitk::PlanarFigure::ResetNumberOfControlPoints(), mitk::PlanarFigure::SetNumberOfPolyLines(), and mitk::BaseData::SetProperty().
Pointer mitk::PlanarDoubleEllipse::Clone | ( | ) | const |
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overridevirtual |
Compare two PlanarFigure objects Note: all subclasses have to implement the method on their own.
Reimplemented from mitk::PlanarFigure.
Definition at line 251 of file mitkPlanarDoubleEllipse.cpp.
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overrideprotectedvirtual |
Calculates quantities of all features of this planar figure. Must be implemented in sub-classes.
Implements mitk::PlanarFigure.
Definition at line 72 of file mitkPlanarDoubleEllipse.cpp.
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overrideprotectedvirtual |
Generates the poly-lines that should be drawn the same size regardless of zoom. Must be implemented in sub-classes.
Implements mitk::PlanarFigure.
Definition at line 82 of file mitkPlanarDoubleEllipse.cpp.
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overrideprotectedvirtual |
Generates the poly-line representation of the planar figure. Must be implemented in sub-classes.
Implements mitk::PlanarFigure.
Definition at line 86 of file mitkPlanarDoubleEllipse.cpp.
References rotation.
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overridevirtual |
Returns the maximum number of control points allowed for this figure (e.g. 3 for triangles).
Must be implemented in sub-classes.
Implements mitk::PlanarFigure.
Definition at line 167 of file mitkPlanarDoubleEllipse.cpp.
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overridevirtual |
Returns the minimum number of control points needed to represent this figure.
Must be implemented in sub-classes.
Implements mitk::PlanarFigure.
Definition at line 172 of file mitkPlanarDoubleEllipse.cpp.
unsigned int mitk::PlanarDoubleEllipse::GetNumberOfSegments | ( | ) | const |
Definition at line 151 of file mitkPlanarDoubleEllipse.cpp.
mitk::PlanarDoubleEllipse::mitkClassMacro | ( | PlanarDoubleEllipse | , |
PlanarFigure | |||
) |
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static |
Referenced by mitk::PlanarFigureReader::GenerateData().
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overridevirtual |
Reimplemented from mitk::PlanarFigure.
Definition at line 177 of file mitkPlanarDoubleEllipse.cpp.
void mitk::PlanarDoubleEllipse::SetNumberOfSegments | ( | unsigned int | numSegments | ) |
Definition at line 156 of file mitkPlanarDoubleEllipse.cpp.
References max().
const unsigned int mitk::PlanarDoubleEllipse::FEATURE_ID_MAJOR_AXIS |
Definition at line 38 of file mitkPlanarDoubleEllipse.h.
const unsigned int mitk::PlanarDoubleEllipse::FEATURE_ID_MINOR_AXIS |
Definition at line 39 of file mitkPlanarDoubleEllipse.h.
const unsigned int mitk::PlanarDoubleEllipse::FEATURE_ID_THICKNESS |
Definition at line 40 of file mitkPlanarDoubleEllipse.h.