Medical Imaging Interaction Toolkit  2023.12.00
Medical Imaging Interaction Toolkit
mitk::SlicedData Class Referenceabstract

Super class of data objects consisting of slices. More...

#include <mitkSlicedData.h>

Inheritance diagram for mitk::SlicedData:
Collaboration diagram for mitk::SlicedData:

Public Types

typedef SlicedData Self
 
typedef BaseData Superclass
 
typedef itk::SmartPointer< SelfPointer
 
typedef itk::SmartPointer< const SelfConstPointer
 
typedef itk::ImageRegion< RegionDimension > RegionType
 
typedef itk::Index< RegionDimension > IndexType
 
typedef IndexType::IndexValueType IndexValueType
 
typedef itk::Offset< RegionDimension > OffsetType
 
typedef OffsetType::OffsetValueType OffsetValueType
 
typedef itk::Size< RegionDimension > SizeType
 
typedef SizeType::SizeValueType SizeValueType
 
- Public Types inherited from mitk::BaseData
typedef BaseData Self
 
typedef itk::DataObject Superclass
 
typedef itk::SmartPointer< SelfPointer
 
typedef itk::SmartPointer< const SelfConstPointer
 
- Public Types inherited from mitk::Identifiable
using UIDType = std::string
 

Public Member Functions

virtual std::vector< std::string > GetClassHierarchy () const override
 
virtual const char * GetClassName () const
 
 itkStaticConstMacro (RegionDimension, unsigned int, 5)
 
void UpdateOutputInformation () override
 
void PrepareForNewData () override
 
void SetRequestedRegionToLargestPossibleRegion () override
 
bool RequestedRegionIsOutsideOfTheBufferedRegion () override
 
bool VerifyRequestedRegion () override
 Verify that the RequestedRegion is within the LargestPossibleRegion. More...
 
void SetRequestedRegion (const itk::DataObject *data) override
 
virtual void SetRequestedRegion (SlicedData::RegionType *region)
 
void SetLargestPossibleRegion (SlicedData::RegionType *region)
 Sets the largest possible region. The largest possible region is the entire region occupied by the data object. Note that the largest possible region should always be bigger then the requested region of a certain operation. More...
 
const RegionTypeGetLargestPossibleRegion () const
 
virtual const RegionTypeGetRequestedRegion () const
 
virtual bool IsSliceSet (int s=0, int t=0, int n=0) const =0
 
virtual bool IsVolumeSet (int t=0, int n=0) const =0
 
virtual bool IsChannelSet (int n=0) const =0
 
void CopyInformation (const itk::DataObject *data) override
 
unsigned int GetNumberOfChannels () const
 Get the number of channels. More...
 
SlicedGeometry3DGetSlicedGeometry (unsigned int t=0) const
 Convenience access method for the geometry, which is of type SlicedGeometry3D (or a sub-class of it). More...
 
const SlicedGeometry3DGetUpdatedSlicedGeometry (unsigned int t=0)
 Convenience access method for the geometry, which is of type SlicedGeometry3D (or a sub-class of it). More...
 
void SetGeometry (BaseGeometry *aGeometry3D) override
 Set the BaseGeometry of the data, which will be referenced (not copied!). It has to be a sub-class of SlicedGeometry3D. More...
 
void SetOrigin (const Point3D &origin) override
 Convenience method for setting the origin of the SlicedGeometry3D instances of all time steps. More...
 
virtual void SetSpacing (const ScalarType aSpacing[])
 Convenience method for setting the spacing of the SlicedGeometry3D instances of all time steps. More...
 
virtual void SetSpacing (mitk::Vector3D aSpacing)
 Convenience method for setting the spacing of the SlicedGeometry3D instances of all time steps. More...
 
- Public Member Functions inherited from mitk::BaseData
BaseProperty::ConstPointer GetConstProperty (const std::string &propertyKey, const std::string &contextName="", bool fallBackOnDefaultContext=true) const override
 Get property by its key. More...
 
std::vector< std::string > GetPropertyKeys (const std::string &contextName="", bool includeDefaultContext=false) const override
 Query keys of existing properties. More...
 
std::vector< std::string > GetPropertyContextNames () const override
 Query names of existing contexts. More...
 
BasePropertyGetNonConstProperty (const std::string &propertyKey, const std::string &contextName="", bool fallBackOnDefaultContext=true) override
 Get property by its key. More...
 
void SetProperty (const std::string &propertyKey, BaseProperty *property, const std::string &contextName="", bool fallBackOnDefaultContext=false) override
 Add new or change existent property. More...
 
void RemoveProperty (const std::string &propertyKey, const std::string &contextName="", bool fallBackOnDefaultContext=false) override
 Removes a property. If the property does not exist, nothing will be done. More...
 
const mitk::TimeGeometryGetTimeGeometry () const
 Return the TimeGeometry of the data as const pointer. More...
 
mitk::TimeGeometryGetTimeGeometry ()
 Return the TimeGeometry of the data as pointer. More...
 
const mitk::TimeGeometryGetUpdatedTimeGeometry ()
 Return the TimeGeometry of the data. More...
 
virtual void Expand (unsigned int timeSteps)
 Expands the TimeGeometry to a number of TimeSteps. More...
 
const mitk::BaseGeometryGetUpdatedGeometry (int t=0)
 Return the BaseGeometry of the data at time t. More...
 
mitk::BaseGeometryGetGeometry (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 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 Geometry as Geometry 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)
 
itk::SmartPointer< mitk::BaseDataSourceGetSource () 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...
 
itk::ModifiedTimeType GetMTime () const override
 Get the modified time of the last change of the contents this data object or its geometry. More...
 
void Graft (const DataObject *) override
 
- Public Member Functions inherited from mitk::OperationActor
 itkTypeMacroNoParent (OperationActor) virtual ~OperationActor()
 
- Public Member Functions inherited from mitk::Identifiable
 Identifiable ()
 
 Identifiable (const UIDType &uid)
 
 Identifiable (const Identifiable &)=delete
 
 Identifiable (Identifiable &&) noexcept
 
virtual ~Identifiable ()
 
Identifiableoperator= (const Identifiable &)=delete
 
Identifiableoperator= (Identifiable &&other) noexcept
 
virtual UIDType GetUID () const
 Get unique ID of an object. More...
 
- Public Member Functions inherited from mitk::IPropertyOwner
 ~IPropertyOwner () override
 
- Public Member Functions inherited from mitk::IPropertyProvider
virtual ~IPropertyProvider ()
 

Static Public Member Functions

static const char * GetStaticNameOfClass ()
 
- Static Public Member Functions inherited from mitk::BaseData
static const char * GetStaticNameOfClass ()
 

Protected Member Functions

 SlicedData ()
 
 SlicedData (const SlicedData &other)
 
 ~SlicedData () override
 
- Protected Member Functions inherited from mitk::BaseData
 BaseData ()
 
 BaseData (const BaseData &other)
 
 ~BaseData () override
 
virtual void InitializeTimeGeometry (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...
 
void PrintSelf (std::ostream &os, itk::Indent indent) const override
 
- Protected Member Functions inherited from mitk::Identifiable
virtual void SetUID (const UIDType &uid)
 

Protected Attributes

RegionType m_LargestPossibleRegion
 
RegionType m_RequestedRegion
 
bool m_RequestedRegionInitialized
 
RegionType m_BufferedRegion
 
bool m_UseLargestPossibleRegion
 
- Protected Attributes inherited from mitk::BaseData
bool m_LastRequestedRegionWasOutsideOfTheBufferedRegion
 
unsigned int m_SourceOutputIndexDuplicate
 
bool m_Initialized
 

Detailed Description

Super class of data objects consisting of slices.

Super class of data objects consisting of slices, e.g., images or a stack of contours. (GetGeometry will return a BaseGeometry containing PlaneGeometry objects).

SlicedData-objects have geometries of type SlicedGeometry3D or sub-classes.

Definition at line 37 of file mitkSlicedData.h.

Member Typedef Documentation

◆ ConstPointer

Definition at line 40 of file mitkSlicedData.h.

◆ IndexType

typedef itk::Index<RegionDimension> mitk::SlicedData::IndexType

Index typedef support. An index is used to access pixel values.

Definition at line 48 of file mitkSlicedData.h.

◆ IndexValueType

typedef IndexType::IndexValueType mitk::SlicedData::IndexValueType

Definition at line 49 of file mitkSlicedData.h.

◆ OffsetType

typedef itk::Offset<RegionDimension> mitk::SlicedData::OffsetType

Offset typedef support. An offset represent relative position between indices.

Definition at line 53 of file mitkSlicedData.h.

◆ OffsetValueType

typedef OffsetType::OffsetValueType mitk::SlicedData::OffsetValueType

Definition at line 54 of file mitkSlicedData.h.

◆ Pointer

Definition at line 40 of file mitkSlicedData.h.

◆ RegionType

typedef itk::ImageRegion<RegionDimension> mitk::SlicedData::RegionType

Region typedef support. A region is used to specify a subset of a SlicedData.

Definition at line 45 of file mitkSlicedData.h.

◆ Self

Definition at line 40 of file mitkSlicedData.h.

◆ SizeType

typedef itk::Size<RegionDimension> mitk::SlicedData::SizeType

Size typedef support. A size is used to define region bounds.

Definition at line 57 of file mitkSlicedData.h.

◆ SizeValueType

typedef SizeType::SizeValueType mitk::SlicedData::SizeValueType

Definition at line 58 of file mitkSlicedData.h.

◆ Superclass

Definition at line 40 of file mitkSlicedData.h.

Constructor & Destructor Documentation

◆ SlicedData() [1/2]

mitk::SlicedData::SlicedData ( )
protected

◆ SlicedData() [2/2]

mitk::SlicedData::SlicedData ( const SlicedData other)
protected

◆ ~SlicedData()

mitk::SlicedData::~SlicedData ( )
overrideprotected

Member Function Documentation

◆ CopyInformation()

void mitk::SlicedData::CopyInformation ( const itk::DataObject *  data)
override

◆ GetClassHierarchy()

virtual std::vector<std::string> mitk::SlicedData::GetClassHierarchy ( ) const
inlineoverridevirtual

Reimplemented from mitk::BaseData.

Reimplemented in mitk::Image.

Definition at line 40 of file mitkSlicedData.h.

◆ GetClassName()

virtual const char* mitk::SlicedData::GetClassName ( ) const
virtual

Reimplemented from mitk::BaseData.

Reimplemented in mitk::Image.

◆ GetLargestPossibleRegion()

const RegionType& mitk::SlicedData::GetLargestPossibleRegion ( ) const
inline

Definition at line 124 of file mitkSlicedData.h.

◆ GetNumberOfChannels()

unsigned int mitk::SlicedData::GetNumberOfChannels ( ) const
inline

Get the number of channels.

Definition at line 137 of file mitkSlicedData.h.

◆ GetRequestedRegion()

virtual const RegionType& mitk::SlicedData::GetRequestedRegion ( ) const
inlinevirtual

Get the region object that defines the size and starting index for the region of the image requested (i.e., the region of the image to be operated on by a filter).

Definition at line 129 of file mitkSlicedData.h.

◆ GetSlicedGeometry()

SlicedGeometry3D* mitk::SlicedData::GetSlicedGeometry ( unsigned int  t = 0) const

Convenience access method for the geometry, which is of type SlicedGeometry3D (or a sub-class of it).

No update will be called. Normally used in GenerateOutputInformation of subclasses of BaseProcess.

◆ GetStaticNameOfClass()

static const char* mitk::SlicedData::GetStaticNameOfClass ( )
inlinestatic

Definition at line 40 of file mitkSlicedData.h.

◆ GetUpdatedSlicedGeometry()

const SlicedGeometry3D* mitk::SlicedData::GetUpdatedSlicedGeometry ( unsigned int  t = 0)

Convenience access method for the geometry, which is of type SlicedGeometry3D (or a sub-class of it).

The method does not simply return the value of the m_Geometry3D member. Before doing this, it makes sure that the BaseGeometry is up-to-date before returning it (by setting the update extent appropriately and calling UpdateOutputInformation).

Warning
GetGeometry not yet completely implemented.

◆ IsChannelSet()

virtual bool mitk::SlicedData::IsChannelSet ( int  n = 0) const
pure virtual

Implemented in mitk::Image.

◆ IsSliceSet()

virtual bool mitk::SlicedData::IsSliceSet ( int  s = 0,
int  t = 0,
int  n = 0 
) const
pure virtual

Implemented in mitk::Image.

◆ IsVolumeSet()

virtual bool mitk::SlicedData::IsVolumeSet ( int  t = 0,
int  n = 0 
) const
pure virtual

Implemented in mitk::Image.

◆ itkStaticConstMacro()

mitk::SlicedData::itkStaticConstMacro ( RegionDimension  ,
unsigned int  ,
 
)

◆ PrepareForNewData()

void mitk::SlicedData::PrepareForNewData ( )
override

◆ RequestedRegionIsOutsideOfTheBufferedRegion()

bool mitk::SlicedData::RequestedRegionIsOutsideOfTheBufferedRegion ( )
overridevirtual

Determine whether the RequestedRegion is outside of the BufferedRegion. This method returns true if the RequestedRegion is outside the BufferedRegion (true if at least one pixel is outside). This is used by the pipeline mechanism to determine whether a filter needs to re-execute in order to satisfy the current request. If the current RequestedRegion is already inside the BufferedRegion from the previous execution (and the current filter is up to date), then a given filter does not need to re-execute

Implements mitk::BaseData.

◆ SetGeometry()

void mitk::SlicedData::SetGeometry ( BaseGeometry aGeometry3D)
overridevirtual

Set the BaseGeometry of the data, which will be referenced (not copied!). It has to be a sub-class of SlicedGeometry3D.

Warning
This method will normally be called internally by the sub-class of SlicedData during initialization.

Reimplemented from mitk::BaseData.

◆ SetLargestPossibleRegion()

void mitk::SlicedData::SetLargestPossibleRegion ( SlicedData::RegionType region)

Sets the largest possible region. The largest possible region is the entire region occupied by the data object. Note that the largest possible region should always be bigger then the requested region of a certain operation.

Documentation

◆ SetOrigin()

void mitk::SlicedData::SetOrigin ( const Point3D origin)
overridevirtual

Convenience method for setting the origin of the SlicedGeometry3D instances of all time steps.

In case the SlicedGeometry3D is evenly spaced, the origin of the first slice is set to origin.

See also
mitk::BaseData::SetOrigin

Reimplemented from mitk::BaseData.

◆ SetRequestedRegion() [1/2]

void mitk::SlicedData::SetRequestedRegion ( const itk::DataObject *  data)
overridevirtual

Set the requested region from this data object to match the requested region of the data object passed in as a parameter. This method is implemented in the concrete subclasses of DataObject.

Implements mitk::BaseData.

◆ SetRequestedRegion() [2/2]

virtual void mitk::SlicedData::SetRequestedRegion ( SlicedData::RegionType region)
virtual

Set the requested region from this data object to match the requested region of the data object passed in as a parameter. This method is implemented in the concrete subclasses of DataObject.

◆ SetRequestedRegionToLargestPossibleRegion()

void mitk::SlicedData::SetRequestedRegionToLargestPossibleRegion ( )
overridevirtual

Set the RequestedRegion to the LargestPossibleRegion. This forces a filter to produce all of the output in one execution (i.e. not streaming) on the next call to Update().

Implements mitk::BaseData.

◆ SetSpacing() [1/2]

virtual void mitk::SlicedData::SetSpacing ( const ScalarType  aSpacing[])
virtual

Convenience method for setting the spacing of the SlicedGeometry3D instances of all time steps.

◆ SetSpacing() [2/2]

virtual void mitk::SlicedData::SetSpacing ( mitk::Vector3D  aSpacing)
virtual

Convenience method for setting the spacing of the SlicedGeometry3D instances of all time steps.

◆ UpdateOutputInformation()

void mitk::SlicedData::UpdateOutputInformation ( )
override

Update the information for this DataObject so that it can be used as an output of a ProcessObject. This method is used in the pipeline mechanism to propagate information and initialize the meta data associated with a itk::DataObject. Any implementation of this method in a derived class of itk::DataObject is assumed to call its source's ProcessObject::UpdateOutputInformation() which determines modified times, LargestPossibleRegions, and any extra meta data like spacing, origin, etc.

◆ VerifyRequestedRegion()

bool mitk::SlicedData::VerifyRequestedRegion ( )
overridevirtual

Verify that the RequestedRegion is within the LargestPossibleRegion.

Verify that the RequestedRegion is within the LargestPossibleRegion. If the RequestedRegion is not within the LargestPossibleRegion, then the filter cannot possibly satisfy the request. This method returns true if the request can be satisfied (even if it will be necessary to process the entire LargestPossibleRegion) and returns false otherwise. This method is used by PropagateRequestedRegion(). PropagateRequestedRegion() throws a InvalidRequestedRegionError exception if the requested region is not within the LargestPossibleRegion.

Implements mitk::BaseData.

Member Data Documentation

◆ m_BufferedRegion

RegionType mitk::SlicedData::m_BufferedRegion
protected

Definition at line 205 of file mitkSlicedData.h.

◆ m_LargestPossibleRegion

RegionType mitk::SlicedData::m_LargestPossibleRegion
protected

Definition at line 200 of file mitkSlicedData.h.

◆ m_RequestedRegion

RegionType mitk::SlicedData::m_RequestedRegion
mutableprotected

Definition at line 202 of file mitkSlicedData.h.

◆ m_RequestedRegionInitialized

bool mitk::SlicedData::m_RequestedRegionInitialized
mutableprotected

Definition at line 203 of file mitkSlicedData.h.

◆ m_UseLargestPossibleRegion

bool mitk::SlicedData::m_UseLargestPossibleRegion
protected

Definition at line 206 of file mitkSlicedData.h.


The documentation for this class was generated from the following file: