Class Hierarchy

This inheritance list is sorted roughly, but not completely, alphabetically:

[detail level 12345678]

C_mitkIpPicInfo_t
C_mitkIpPicOldHeader
C_mitkIpPicTagsElement_s
C_XipAnnotationClassPart
C_XipAnnotationClassRec
C_XipAnnotationPart
C_XipAnnotationRec
►CAbstractGroupMarker
Cberry::GroupMarker
Cberry::Separator
►Cberry::AbstractExceptionHandler
Cberry::MessageExceptionHandler< R >
Cberry::BlueBerryTestDriver
Cberry::CommandTracing
Cberry::Constants
Cberry::ContributionItemFactory
Cberry::ContributorFactory
Cberry::DebugBreakpointManager
Cberry::DebugUtil
Cberry::DelegateList< D >
Cberry::Display
Cberry::ExpressionConverter
Cberry::ExpressionInfo
Cberry::ExpressionTagNames
Cberry::ExtensionType	Manages named types
Cberry::ExtensionTypeId< T >
Cberry::ExtensionTypeId2< T >
Cberry::Geometry
Cberry::GuiWidgetsTweaklet
►Cberry::HandleObjectManager
Cberry::CommandManager
Cberry::HandlerUtil
►Cberry::IAdaptable
►Cberry::IEditorInput
►Cberry::IPathEditorInput
Cberry::FileEditorInput
Cmitk::DataStorageEditorInput	An editor input based on a mitk::DataStorage
Cberry::IViewDescriptor
Cberry::PlatformObject
Cberry::Saveable
Cberry::IAdapterFactory
►Cberry::IApplication
Cberry::CoreTestApplication
Cberry::UITestApplication
CQmitkDiffusionImagingAppApplication
Cberry::IApplicationContext
Cberry::IBerryPreferences::ChangeEvent
Cberry::ICommandCategoryListener
Cberry::ICommandCategoryListener::Events
Cberry::ICommandListener
Cberry::ICommandListener::Events
Cberry::ICommandManagerListener
Cberry::ICommandManagerListener::Events
Cberry::IDebugObjectListener
Cberry::IDebugObjectListener::Events
►Cberry::IDropTargetListener
CQmitkDefaultDropTargetListener
Cberry::IDropTargetListener::Events
Cberry::IEditorRegistry
Cberry::IElementFactory
►Cberry::IExecutableExtension
Cberry::ExtensionFactory
►Cberry::IntroPart
Cberry::QtIntroPart
Cberry::RadioState
Cberry::RegistryToggleState
►Cberry::WorkbenchPart
►Cberry::EditorPart
►Cberry::QtEditorPart
►CQmitkAbstractRenderEditor	A convenient base class for MITK render window BlueBerry Editors
CQmitkStdMultiWidgetEditor
►Cberry::ViewPart
►Cberry::QtViewPart
►CQmitkAbstractView	A convenient base class for MITK related BlueBerry Views
CQmitkDataManagerView	A View class that can show all data tree nodes of a certain DataStorage
CQmitkFunctionality	The base class of all MITK related blueberry views (~ in the old version of MITK, this was called "Functionality")
►Cberry::IExecutableExtensionFactory
Cberry::ExtensionFactory
►Cberry::IExecutionListener
Cberry::IExecutionListenerWithChecks
►Cberry::IExecutionListener::Events
Cberry::IExecutionListenerWithChecks::Events
Cberry::IExtensionChangeHandler
Cberry::IExtensionPointFilter
Cberry::IExtensionPointFilter::Concept
Cberry::IExtensionRegistry
►Cberry::IExtensionTracker
Cberry::ExtensionTracker
►Cberry::IHandlerListener
Cberry::Command
Cberry::IHandlerListener::Events
Cberry::IIntroManager
Cberry::IJobChangeListener
Cberry::IJobChangeListener::Events
Cberry::ILog
Cberry::INamedHandleStateIds
Cberry::Indent
Cberry::internal::ExtensionTypeIdHelper< T, Defined >
Cberry::internal::ExtensionTypeIdHelper< T, false >
►Cberry::IPageService
Cberry::IWorkbenchWindow
Cberry::IParameterTypeListener
Cberry::IParameterTypeListener::Events
Cberry::IParameterValueConverter
Cberry::IParameterValues
►Cberry::IPartListener
CQmitkFunctionalityCoordinator
Cberry::IPartListener::Events
►Cberry::IPartService
Cberry::IWorkbenchPage
►Cberry::IPersistable
Cberry::IPersistableEditor
Cberry::IPersistableElement
Cberry::IPerspectiveListener
Cberry::IPerspectiveListener::Events
Cberry::IPerspectiveRegistry
►Cberry::IPreferencesService
Cberry::IBerryPreferencesService
Cberry::IPresentationFactory
Cberry::IPresentationSerializer
Cberry::IProductProvider
►Cberry::IPropertyChangeListener
Cberry::PropertyChangeAdapter< R >
Cberry::PropertyChangeIntAdapter< R >
Cberry::IPropertyChangeListener::Events
Cberry::IQtStyleManager
Cberry::IQtStyleManager::IconTheme
Cberry::IQtStyleManager::Style
Cberry::IRegistryEventListener
Cberry::IRegistryEventListener::Events
Cberry::ISelectionChangedListener
Cberry::ISelectionChangedListener::Events
►Cberry::ISelectionListener
►Cberry::INullSelectionListener
Cberry::NullSelectionChangedAdapter< R >
Cberry::SelectionChangedAdapter< R >
Cberry::ISelectionListener::Events
►Cberry::ISelectionService
Cberry::IWorkbenchPage
Cberry::ISelectionService::SelectionEvents
Cberry::IServiceFactory
Cberry::IServiceScopes
Cberry::IShellListener
Cberry::IShellListener::Events
►Cberry::ISizeProvider
Cberry::IPresentablePart
Cberry::StackPresentation
Cberry::ISourceProviderListener
Cberry::ISourceProviderListener::Events
Cberry::ISources
►Cberry::IStateListener
Cberry::AbstractHandlerWithState
Cberry::IStateListener::Events
Cberry::IVariableResolver
Cberry::IViewRegistry
►Cberry::IWindowListener
Cberry::UITestCase::TestWindowListener
CQmitkFunctionalityCoordinator
Cberry::IWindowListener::Events
►Cberry::IWorkbenchCommandConstants
Cmitk::WorkbenchCommandConstants
Cberry::IWorkbenchListener
Cberry::IWorkbenchListener::Events
Cberry::IWorkbenchPartConstants
Cberry::ListenerList< T, C >
Cberry::ListenerListEquals
Cberry::MenuUtil
Cberry::Message< A >	Event/message/notification class
Cberry::Message1< T, A >
Cberry::Message2< T, U, A >
Cberry::Message3< T, U, V, A >
Cberry::Message4< T, U, V, W, A >
►Cberry::MessageAbstractDelegate< A >
Cberry::MessageDelegate< R, A >
►Cberry::MessageAbstractDelegate1< T, A >
Cberry::MessageDelegate1< R, T, A >
►Cberry::MessageAbstractDelegate2< T, U, A >
Cberry::MessageDelegate2< R, T, U, A >
►Cberry::MessageAbstractDelegate3< T, U, V, A >
Cberry::MessageDelegate3< R, T, U, V, A >
►Cberry::MessageAbstractDelegate4< T, U, V, W, A >
Cberry::MessageDelegate4< R, T, U, V, W, A >
Cberry::NonDerivable
►Cberry::Object	Light weight base class for most BlueBerry classes
►Cberry::AbstractBitSetEvent
►Cberry::AbstractHandleObjectEvent
►Cberry::AbstractNamedHandleEvent
Cberry::CommandCategoryEvent
Cberry::CommandEvent
Cberry::ParameterTypeEvent
Cberry::HandlerEvent
Cberry::AbstractContributionFactory
►Cberry::ActionBarAdvisor
CQmitkExtActionBarAdvisor
CQmitkExtWorkbenchActionBuilder
Cberry::CallHistory
Cberry::CommandContributionItemParameter
Cberry::CommandManagerEvent
Cberry::ElementHandler
Cberry::EvaluationResult
Cberry::ExecutionEvent
►Cberry::Expression
Cberry::FALSE_EVALExpression
Cberry::TRUE_EVALExpression
►Cberry::GuiTk::Event
Cberry::GuiTk::ControlEvent
Cberry::GuiTk::SelectionEvent
►Cberry::GuiTk::IControlListener
Cberry::GuiTk::ControlActivatedAdapter< R >
Cberry::GuiTk::ControlDestroyedAdapter< R >
Cberry::GuiTk::ControlMovedAdapter< R >
Cberry::GuiTk::ControlResizedAdapter< R >
Cberry::GuiTk::ISelectionListener
►Cberry::HandleObject
►Cberry::NamedHandleObject
Cberry::CommandCategory
►Cberry::NamedHandleObjectWithState
Cberry::Command
Cberry::ParameterType
Cberry::IActionBarConfigurer
Cberry::IActionBars
Cberry::IAdapterManager
Cberry::IConfigurationElement
►Cberry::IContributionItem
►Cberry::ContributionItem
Cberry::CommandContributionItem
Cberry::QActionContributionItem
►Cberry::IMenuManager
Cberry::MenuManager
Cberry::SubContributionItem
►Cberry::IContributionManager
►Cberry::ContributionManager
Cberry::MenuManager
Cberry::IMenuManager
Cberry::IContributionManagerOverrides
Cberry::IContributionRoot
Cberry::IContributor
Cberry::ICountable
►Cberry::IDisposable
Cberry::ICommandImageService
Cberry::ICommandService
►Cberry::IServiceWithSources
Cberry::IContextService
Cberry::IEvaluationService
Cberry::IHandlerService
Cberry::IMenuService
Cberry::IEditorInput
Cberry::IEditorMatchingStrategy
Cberry::IElementReference
Cberry::IElementUpdater
►Cberry::IEvaluationContext
Cberry::EvaluationContext
Cberry::IExtension
Cberry::IExtensionPoint
Cberry::IFileEditorMapping
►Cberry::IHandler
►Cberry::AbstractHandler
Cberry::AbstractHandlerWithState
►Cberry::IIntroPart
Cberry::IntroPart
Cberry::IIterable
Cberry::IJobChangeEvent
Cberry::IJobManager
Cberry::ILock
►Cberry::IMemento
Cberry::XMLMemento
Cberry::INestable
Cberry::IntroContentDetector
►Cberry::IObjectWithState
Cberry::AbstractHandlerWithState
Cberry::NamedHandleObjectWithState
Cberry::IPageLayout
Cberry::IParameter
Cberry::IPerspectiveDescriptor
►Cberry::IPerspectiveFactory
Cberry::EmptyPerspective
►Cberry::IPlaceholderFolderLayout
Cberry::IFolderLayout
Cberry::IPluginContribution
►Cberry::IPreferencePage
►Cberry::IQtPreferencePage
CQmitkDataManagerHotkeysPrefPage
CQmitkDataManagerPreferencePage
CQmitkMultiLabelSegmentationPreferencePage
CQmitkSegmentationPreferencePage
►Cberry::IPreferences
Cberry::IBerryPreferences
Cberry::IPresentablePart
Cberry::IProduct
►Cberry::IProgressMonitor
Cberry::IProgressMonitorWithBlocking
Cberry::NullProgressMonitor
►Cberry::IPropertyTester
Cberry::PropertyTester
►Cberry::ISafeRunnable
Cberry::SafeRunnable
Cberry::SafeRunnableDelegate< R >
Cberry::ISafeRunnableRunner
►Cberry::ISaveablePart
►Cberry::IEditorPart
Cberry::EditorPart
Cberry::IReusableEditor
Cberry::ISaveablesLifecycleListener
Cberry::ISaveablesSource
►Cberry::ISchedulingRule
Cberry::MultiRule
Cmitk::DataStorageAccessRule	The DataStorageAccessRule inherits from the ISchedulingRule class. DataStorageAccessRule are used to restrict the adding and removing of DataStorage nodes in multi-threaded scenarios. Only DataStorageNodes within different branches can be modified concurrently. The idea and its restrictions is explained in the sections and diagrams below
►Cberry::ISelection
►Cberry::IStructuredSelection
Cberry::QtItemSelection
Cmitk::DataNodeSelection
Cmitk::MAPAlgorithmInfoSelection
Cberry::SingleNodeSelection	Represents a selection object that encapsulates the selection of a single node
►Cberry::ISelectionProvider
Cberry::IPostSelectionProvider
►Cberry::QtSelectionProvider
CQmitkDataNodeSelectionProvider	A BlueBerry selection provider for mitk::DataNode selections
►Cberry::IServiceLocator
Cberry::IWorkbench
►Cberry::IWorkbenchSite
Cberry::IIntroSite
►Cberry::IWorkbenchPartSite
Cberry::IEditorSite
Cberry::IViewSite
Cberry::IWorkbenchWindow
►Cberry::IShellProvider
Cberry::SameShellProvider
Cberry::Window
Cberry::IShowInSource
Cberry::IShowInTarget
►Cberry::ISourceProvider
Cberry::AbstractSourceProvider
Cberry::ISourceProviderService
Cberry::IStackPresentationSite
►Cberry::IStatus
►Cberry::IJobStatus
Cberry::JobStatus
►Cberry::Status
Cberry::JobStatus
Cberry::MultiStatus
Cberry::IStickyViewDescriptor
Cberry::ITestDescriptor
Cberry::ITypedParameter
Cberry::IViewCategory
Cberry::IViewLayout
Cberry::IWorkbenchConfigurer
Cberry::IWorkbenchPage
►Cberry::IWorkbenchPart
Cberry::IEditorPart
►Cberry::IViewPart
Cberry::ViewPart
Cberry::WorkbenchPart
►Cberry::IWorkbenchPartDescriptor
Cberry::IEditorDescriptor
Cberry::IViewDescriptor
►Cberry::IWorkbenchPartReference
Cberry::IEditorReference
Cberry::IViewReference
Cberry::IWorkbenchWindow
Cberry::IWorkbenchWindowConfigurer
Cberry::LockListener
Cberry::ObjectGeneric< T >
Cberry::ObjectList< T >
Cberry::ObjectString
Cberry::ObjectStringMap
Cberry::ObjectTypeInfo
Cberry::ParameterizedCommand
Cberry::PlatformObject
Cberry::ProgressProvider
Cberry::PropertyChangeEvent
Cberry::QModelIndexObject
Cberry::Saveable
Cberry::SaveablesLifecycleEvent
Cberry::SelectionChangedEvent
Cberry::Shell
Cberry::ShellEvent
Cberry::ShowInContext
Cberry::StackDropResult
Cberry::StackPresentation
Cberry::State
Cberry::UIElement
Cberry::Window::IExceptionHandler
CIChangeText
Cmitk::DataNodeObject
Cmitk::IDataStorageReference
Cmitk::IInputDevice
►Cmitk::IInputDeviceDescriptor
Cmitk::InputDeviceDescriptor
Cmitk::MAPAlgorithmInfoObject
►Cberry::ObjectGeneric< bool >
Cberry::ObjectBool
►Cberry::ObjectGeneric< double >
Cberry::ObjectDouble
►Cberry::ObjectGeneric< float >
Cberry::ObjectFloat
►Cberry::ObjectGeneric< int >
Cberry::ObjectInt
Cberry::Parameterization
Cberry::Platform
Cberry::PlatformUI
Cberry::QActionProperties
Cberry::QScopedPointerObjectDeleter
Cberry::QtPreferences
Cberry::QualifiedName
Cberry::Reflection::EmptyType
Cberry::Reflection::GetSuperclassTypeList< T, bool >
Cberry::Reflection::GetSuperclassTypeList< T, true >
Cberry::Reflection::HasTypeSuperclass< T >
Cberry::Reflection::MapReduce< TL, Map, Reduce >
Cberry::Reflection::MapReduce< TypeList<>, Map, Reduce >
Cberry::Reflection::MapToTypeInfo< T >
Cberry::Reflection::ReduceToList< T >
►Cberry::Reflection::TypeInfo
Cberry::ObjectTypeInfo
Cberry::Reflection::TypeList< T0, T1, T2, T3, T4, T5, T6, T7, T8, T9 >
Cberry::Reflection::TypeList< EmptyType, EmptyType, EmptyType, EmptyType, EmptyType, EmptyType, EmptyType, EmptyType, EmptyType, EmptyType >
Cberry::RegistryConstants
Cberry::SafeRunner
Cberry::SmartPointer< TObjectType >	Implements transparent reference counting
Cberry::Status::SourceLocation
Cberry::WeakPointer< TObjectType >	Implements a WeakPointer class to deal with circular reference problems
Cberry::WorkbenchActionConstants
►Cberry::WorkbenchAdvisor
►Cberry::QtWorkbenchAdvisor
CQmitkDiffusionImagingAppWorkbenchAdvisor
Cberry::WorkbenchPageTweaklet
Cberry::WorkbenchPreferenceConstants
Cberry::WorkbenchTweaklet
►Cberry::WorkbenchWindowAdvisor
CQmitkExtWorkbenchWindowAdvisor
►CBinaryFunctorImageFilter
Citk::MaskImageFilter2< TInputImage, TMaskImage, TOutputImage >
►Cdefault_bfs_visitor
Cmitk::DirectedGraphBfsVisitor
►CConditionalConstIterator
Citk::AdaptiveThresholdIterator< TImage, TFunction >	Iterates over an image using a variable image function, which threshold can be varied during the iteration process
CConfigFileReader
►CConnectedThresholdImageFilter
Citk::ConnectedAdaptiveThresholdImageFilter< TInputImage, TOutputImage >	ImageFilter used for processing an image with an adaptive iterator (such as itkAdaptiveThresholdIterator)
►CElement
Cmitk::ConnectomicsHistogramsCacheElement
►CTestCase
►Cberry::TestCase
Cberry::UITestCase
Cberry::UITestCaller< Fixture >
Cmitk::TestCaller< ParameterizedFixture >	A test caller for parameterized tests
►CTestFixture
Cmitk::TestFixture	Test fixture for parameterized tests
►CctkException
Cberry::CoreException
►CctkMenuComboBox
CQmitkCmdLineModuleMenuComboBox	Subclass of ctkMenuComboBox to listen to ctkCmdLineModuleManager moduleRegistered and moduleUnregistered signals, and update the menu accordingly
►CctkPluginActivator
►Cberry::Plugin
Cberry::AbstractUICTKPlugin
►CctkPythonConsole
CQmitkCtkPythonShell
►CctkRuntimeException
Cberry::InvalidRegistryObjectException
►CctkXnatTreeModel
CQmitkXnatTreeModel
Cberry::DelegateList< berry::MessageAbstractDelegate >
Cberry::DelegateList< berry::MessageAbstractDelegate1 >
Cberry::DelegateList< berry::MessageAbstractDelegate2 >
Cberry::DelegateList< berry::MessageAbstractDelegate3 >
Cberry::DelegateList< berry::MessageAbstractDelegate4 >
CdeleteMe
CDiffusionQballReconstructionImageFilter	This enum defines the normalization of the ODFs
CDIR
Cdirent
CDocumentationExample	This is a class for showing how to document your code using doxygen
►CEnergyComputer	Calculates internal and external energy of the new particle configuration proposal
CGibbsEnergyComputer	ODF lookuptable based energy computer
CEventHandler
Cus::ExplicitlySharedDataPointer< Impl >
Cus::ExplicitlySharedDataPointer< SharedLibraryPrivate >
Cmitk::FiberfoxParameters< double >
►CFixedArray
Citk::OrientationDistributionFunction< TComponent, NOdfDirections >	Represents an ODF for Q-Ball imaging
Citk::OrientationDistributionFunction< double, 100 *2 >
Citk::OrientationDistributionFunction< double, NumberOfSignalFeatures *2 >
Citk::OrientationDistributionFunction< float, QBALL_ODFSIZE >
►CFLmitkRenderWindow
CFLmitkComfortWidget
CFLmitkComfortWidget
►Cmitk::GenericLookupTable< bool >
Cmitk::BoolLookupTable	Specializations of GenericLookupTable
►Cmitk::GenericLookupTable< DICOMCachedValueInfo >
Cmitk::DICOMCachedValueLookupTable
►Cmitk::GenericLookupTable< float >
Cmitk::FloatLookupTable
►Cmitk::GenericLookupTable< int >
Cmitk::IntLookupTable
►Cmitk::GenericLookupTable< std::string >
Cmitk::StringLookupTable
►CIEvaluationResultCache
Cberry::IEvaluationReference
Cberry::IHandlerActivation
►CStringMessage
Cmitk::IGTLDummyMessage	This class is a dummy message to show the how to implement a new message type
►CImageSource
Citk::ConnectomicsNetworkToConnectivityMatrixImageFilter
Citk::EvaluateDirectionImagesFilter< PixelType >	Evaluates the voxel-wise angular error between two sets of directions
Citk::MergeDiffusionImagesFilter< TScalarType >	Merges diffusion weighted images, e.g. to generate one multishell volume from several single shell volumes
Citk::TractDensityImageFilter< OutputImageType >	Generates tract density images from input fiberbundles (Calamante 2010)
►Cmitk::ImageSource< Image< vcl_complex< TPixelType >, 2 > >
Citk::KspaceImageFilter< TPixelType >	Simulates k-space acquisition of one slice with a single shot EPI sequence. Enables the simulation of various effects occuring during real MR acquisitions:
Cmitk::ImageSource< itk::VectorImage< PixelType, 3 > >
►Cmitk::ImageSource< VectorImage< float, 3 > >
Citk::TractsToVectorImageFilter< PixelType >	Extracts the voxel-wise main directions of the input fiber bundle
►CImageToImageFilter
Citk::DiffusionIntravoxelIncoherentMotionReconstructionImageFilter< TInputPixelType, TOutputPixelType >
Citk::LocalVariationImageFilter< TInputImage, TOutputImage >	Calculates the local variation in each pixel
Citk::NonLocalMeansDenoisingFilter< TPixelType >	This class denoises a vectorimage according to the non-local means procedure
Citk::RegularizedIVIMLocalVariationImageFilter< TInputImage, TOutputImage >	Calculates the local variation in each pixel
Citk::RegularizedIVIMReconstructionFilter< TInputPixel, TOutputPixel, TRefPixelType >	Applies a total variation denoising filter to an image
Citk::ShortestPathImageFilter< TInputImageType, TOutputImageType >
Citk::SkeletonizationFilter< TInputImage, TOutputImage >	Skeletonization part of the TBSS pipeline
Cmitk::ImageToImageFilter< Image< vcl_complex< TPixelType > >, Image< vcl_complex< TPixelType > > >
►CImportImageContainer
Citk::ImportMitkImageContainer< TElementIdentifier, TElement >
Citk::Index< 2 >
Citk::Index< 3 >
CInteractionEventList	Generates a list of InteractionEvents based on an XML file-
►CInternalJob
Cberry::Job
►CInterpolateImageFunction
Citk::GaussianInterpolateImageFunction< TInputImage, TCoordRep >	Evaluates the Gaussian interpolation of an image
CIsoDoseLevelVector	Simple vector that stores dose iso levels
►CITestHarness
Cberry::UITestApplication
►CAnyEvent
Cmitk::CallbackEventOneParameter< T >	Used by CallbackFromGUIThread to pass parameters
►Cmitk::NonBlockingAlgorithmEvent
Cmitk::ProcessingError
Cmitk::ResultAvailable
►Cmitk::SliceNavigationController::TimeGeometryEvent
Cmitk::SliceNavigationController::GeometrySendEvent
Cmitk::SliceNavigationController::GeometrySliceEvent
Cmitk::SliceNavigationController::GeometryTimeEvent
Cmitk::SliceNavigationController::GeometryUpdateEvent
►CCommand
Cmitk::DicomSeriesReader::CallbackCommand	Progress callback for DicomSeriesReader
Cmitk::RegistrationInterfaceCommand< TRegistration, TPixel >
Cmitk::RigidRegistrationObserver	Observer to react on rigid registration optimizer events
Cmitk::RigidRegistrationPyramidObserver< RegistrationType >
Cmitk::ToolCommand	A command to get tool process feedback
COptimizerIterationCommand< OptimizerType >
COptimizerIterationCommandv4< OptimizerType >
CPyramidOptControlCommand< RegistrationType >	The PyramidOptControlCommand class stears the step lenght of the gradient descent optimizer in multi-scale registration methods
CPyramidOptControlCommandv4< RegistrationType >
CQmitkStepperAdapter::ItkEventListener
►CDataObject
►Cmitk::BaseData	Base of all data objects
►Cmitk::AbstractClassifier
Cmitk::LibSVMClassifier
Cmitk::VigraRandomForestClassifier
►Cmitk::AbstractGlobalImageFeature
Cmitk::GIFCooccurenceMatrix
Cmitk::GIFFirstOrderStatistics
Cmitk::GIFGrayLevelRunLength
Cmitk::GIFVolumetricStatistics
Cmitk::BaseDataTestImplementation	Implementation of BaseData (for testing)
Cmitk::ConnectomicsNetwork	Connectomics Network Class
Cmitk::Contour	Stores vertices for drawing a contour
Cmitk::ContourModel	ContourModel is a structure of linked vertices defining a contour in 3D space. The vertices are stored in a mitk::ContourElement is stored for each timestep. The contour line segments are implicitly defined by the given linked vertices. By default two control points are are linked by a straight line.It is possible to add vertices at front and end of the contour and to iterate in both directions
Cmitk::ContourModelSet
Cmitk::ContourSet
Cmitk::DataCollection
Cmitk::ExampleDataStructure	Example Data Structure
Cmitk::FiberBundle	Base Class for Fiber Bundles;
Cmitk::FiberBundleThreadMonitor	Base Class for Fiber Bundles;
►Cmitk::GeometryData	Data class only having a BaseGeometry but not containing any specific data
Cmitk::PlaneGeometryData	Data class containing PlaneGeometry objects
Cmitk::ManufacturerLogo
Cmitk::MAPRegistrationWrapper	MAPRegistrationWrapper Wrapper class to allow the handling of MatchPoint registration objects as mitk data (e.g. in the data explorer)
Cmitk::NavigationDataSet	Data structure which stores streams of mitk::NavigationData for multiple tools
►Cmitk::PlanarFigure	Base-class for geometric planar (2D) figures, such as lines, circles, rectangles, polygons, etc
Cmitk::PlanarAngle	Implementation of PlanarFigure to display an angle through three control points
Cmitk::PlanarArrow	Implementation of PlanarFigure representing an arrow through two control points
Cmitk::PlanarBezierCurve
Cmitk::PlanarCircle	Implementation of PlanarFigure representing a circle through two control points
Cmitk::PlanarCross	Implementation of PlanarFigure modeling a cross with two orthogonal lines on a plane
Cmitk::PlanarDoubleEllipse
Cmitk::PlanarEllipse	Implementation of PlanarFigure representing a circle through two control points
Cmitk::PlanarFourPointAngle	Implementation of PlanarFigure representing a four point angle, which is defined by two non-intersecting lines in 2D. Each of those lines is defined by two control points
Cmitk::PlanarLine	Implementation of PlanarFigure representing a line through two control points
►Cmitk::PlanarPolygon	Implementation of PlanarFigure representing a polygon with two or more control points
Cmitk::PlanarSubdivisionPolygon	Implementation of PlanarFigure representing a polygon with two or more control points
Cmitk::PlanarRectangle	Implementation of PlanarFigure representing a polygon with two or more control points
Cmitk::PlanarFigureComposite
►Cmitk::PointSet	Data structure which stores a set of points. Superclass of mitk::Mesh
Cmitk::Mesh	DataStructure which stores a set of points (incl. pointdata) where each point can be associated to an element of a cell
Cmitk::RegEvaluationObject	RegEvaluationObject Class that containes all data to realize an evaluation of registrations via images
Cmitk::RegistrationObject	Stores all necessary information for image registration
Cmitk::Simulation
►Cmitk::SlicedData	Super class of data objects consisting of slices
►Cmitk::Image	Image class for storing images
Cmitk::LabelSetImage	LabelSetImage class for handling labels and layers in a segmentation session
Cmitk::QBallImage	This class encapsulates qball images
Cmitk::TbssImage	This class encapsulates diffusion volumes (vectorimages not yet supported by mitkImage)
Cmitk::TbssRoiImage	This class encapsulates diffusion volumes (vectorimages not yet supported by mitkImage)
Cmitk::TensorImage	This class encapsulates tensor images
Cmitk::USImage	This specialization of mitk::Image only appends necessary Metadata to an MITK image. Otherwise it can safely be treated like it's mother class. To generate an USImage from a standard mitkImage, call the appropriate constructor USImage(image::Pointer)
►Cmitk::Surface	Class for storing surfaces (vtkPolyData)
►Cmitk::BoundingObject	Superclass of all bounding objects (cylinder, cuboid,...)
Cmitk::BoundingObjectGroup	Group object, that contains several mitk::BoundingObjects
Cmitk::Cone	Data class containing an cylinder
Cmitk::Cuboid	Data class containing an cuboid
Cmitk::Cylinder	Data class containing an cylinder
Cmitk::Ellipsoid	Data class containing an ellipsoid
Cmitk::ExtrudedContour	Data class containing a bounding-object created by extruding a Contour along a vector
Cmitk::Plane	Plane surface representation
Cmitk::Gizmo
Cmitk::UndirectedGraph< TVertex, TEdge >	Template class for undirected graphs.Paramters should be the vertex and edge classes, which contains the information
Cmitk::UnstructuredGrid	Class for storing unstructured grids (vtkUnstructuredGrid)
Cmitk::VtkWidgetRendering	Mechanism for rendering a vtkWidget in the foreground of a RenderWindow
►Cmitk::UndirectedGraph< TubeGraphVertex, TubeGraphEdge >
Cmitk::TubeGraph	Base Class for Tube Graphs
Cmitk::DataNode	Class for nodes of the DataTree
Cmitk::IGTLMessage	A wrapper for the OpenIGTLink message type
Cmitk::IGTLMessageCommon	Helper class for copying OpenIGTLink messages
►Cmitk::LookupTable	Mitk wrapper for a vtkLookupTableThis class can be used to color images with a LookupTable, such as the vtkLookupTable
Cmitk::LabeledImageLookupTable
Cmitk::NavigationData	Navigation Data
Cmitk::NavigationTool	An object of this class represents a navigation tool in the view of the software. A few informations like an identifier, a toolname, a surface and a itk spatial object are stored in such an object. The classes NavigationToolReader and are availiable to write/read tools to/from the harddisc. If you need a collection of navigation tools the class NavigationToolStorage could be used
Citk::DiffusionIntravoxelIncoherentMotionReconstructionImageFilter< TInputPixelType, TOutputPixelType >::IVIMSnapshot
Citk::DiffusionKurtosisReconstructionImageFilter< TInputPixelType, TOutputPixelType >::KurtosisSnapshot	Struct describing a result (and the data) of a Kurtosis model fit
►CEndEvent
Cmitk::OperationEndEvent
►CExceptionObject
►Cmitk::Exception	An object of this class represents an exception of MITK. Please don't instantiate exceptions manually, but use the exception macros (file mitkExceptionMacro.h) instead. Simple use in your code is:
►Cmitk::IGTException	An object of this class represents an exception of the MITK-IGT module
Cmitk::IGTHardwareException	An object of this class represents an exception of the MITK-IGT module which are releated to the hardware (e.g. connection problems, etc.)
Cmitk::IGTHardwareException	An object of this class represents an exception of the MITK-IGT module which are releated to the hardware (e.g. connection problems, etc.)
Cmitk::IGTIOException	An object of this class represents an exception of the MITK-IGT module which are releated to the input/output problems (e.g. reading writing files, etc.)
Cmitk::IGTIOException	An object of this class represents an exception of the MITK-IGT module which are releated to the input/output problems (e.g. reading writing files, etc.)
Cmitk::IGTException	An object of this class represents an exception of the MITK-IGT module
Cmitk::ImageTypeIsNotSupportedByGPU	Specialized exception class for unsupported image formats. If this exception is thrown, try other graphics device
Cmitk::MemoryIsLockedException
Citk::ExtendedLabelStatisticsImageFilter< TInputImage, TLabelImage >::CoefficientsClass	Internal class which stores the calculated coefficients Skewness,Kurtosis,Uniformity,UPP,MPP,Entropy
Citk::ExtendedLabelStatisticsImageFilter< TInputImage, TLabelImage >::LabelStatistics	Statistics stored per label
Citk::Functor::CartesianToPolarFunction< TInput, TOutput, symmetric >
Citk::Functor::MaskInput2< TInput, TMask, TOutput >
Citk::Functor::NeighborhoodCooccurenceMatrix< TNeighborhoodType, TPixelOutputType >	Functor for texture feature calculation based on the Cooccurence matrix
Citk::Functor::NeighborhoodFirstOrderStatistics< TNeighborhoodType, TPixelOutputType >
Citk::Functor::PolarToCartesianFunction< TInput, TOutput, symmetric >
Citk::ImageIOFactoryRegisterManager
►CImageSource
Citk::DwiPhantomGenerationFilter< TOutputScalarType >	Generation of synthetic diffusion weighted images using a second rank tensor model
Citk::EvaluateTractogramDirectionsFilter< PixelType >	Calculates the voxel-wise angular error of the input tractogram to a set of voxel-wise directions
Citk::FieldmapGeneratorFilter< OutputImageType >	Generate float image with artificial frequency maps used by Fiberfox. Simulates additional frequencies at (possibly multiple) positions based on 3D gaussians with the specified variance and amplitude and/or as a linear gradient in the image. See "Fiberfox: Facilitating the creation of realistic white matter software phantoms" (DOI: 10.1002/mrm.25045) for details
Citk::MultiGaussianImageSource< TOutputImage >	Generate an 3-dimensional multigaussian image
Citk::TractsToDWIImageFilter< PixelType >	Generates artificial diffusion weighted image volume from the input fiberbundle using a generic multicompartment model. See "Fiberfox: Facilitating the creation of realistic white matter software phantoms" (DOI: 10.1002/mrm.25045) for details
Citk::TractsToFiberEndingsImageFilter< OutputImageType >	Generates image where the pixel values are set according to the number of fibers ending in the voxel
Citk::TractsToRgbaImageFilter< OutputImageType >	Generates RGBA image from the input fibers where color values are set according to the local fiber directions
Cmitk::DicomDiffusionImageReader< TPixelType, TDimension >	Reads in the image data stored as DICOM series. The series is specified by a HeaderContainer
Cmitk::ImageToItk< TOutputImage >
►CImageToImageFilter
Citk::AdcImageFilter< TInPixelType, TOutPixelType >
Citk::AnalyticalDiffusionQballReconstructionImageFilter< TReferenceImagePixelType, TGradientImagePixelType, TOdfPixelType, NOrderL, NrOdfDirections >	This class takes as input one or more reference image (acquired in the absence of diffusion sensitizing gradients) and 'n' diffusion weighted images and their gradient directions and computes an image of orientation distribution function coefficients in a spherical harmonic basis
Citk::B0ImageExtractionImageFilter< TInputImagePixelType, TOutputImagePixelType >	This class takes as input a T2-weighted image and computes a brainmask
Citk::B0ImageExtractionToSeparateImageFilter< TInputImagePixelType, TOutputImagePixelType >	This class has an advanced functionality to the B0ImageExtractionImageFilter, however the b0 images are stored in a 3D+t image with each b0 image beeing a separate timestep and not averaged to a single 3D volume
Citk::BrainMaskExtractionImageFilter< TOutputImagePixelType >	This class takes as input a T2-weighted image and computes a brainmask
Citk::ConnectednessFilter< TFeatureImage, TSeedImage, TTensorImagePixelType >
Citk::DftImageFilter< TPixelType >	2D Discrete Fourier Transform Filter (complex to real). Special issue for Fiberfox -> rearranges slice
Citk::DiffusionKurtosisReconstructionImageFilter< TInputPixelType, TOutputPixelType >	This filter provides the fit of the kurtosis (non-IVIM) signal to the data
Citk::DiffusionMultiShellQballReconstructionImageFilter< TReferenceImagePixelType, TGradientImagePixelType, TOdfPixelType, NOrderL, NrOdfDirections >
Citk::DiffusionQballGeneralizedFaImageFilter< TOdfPixelType, TGfaPixelType, NrOdfDirections >
Citk::DiffusionQballPrepareVisualizationImageFilter< TOdfPixelType, NrOdfDirections >
Citk::DiffusionQballReconstructionImageFilter< TReferenceImagePixelType, TGradientImagePixelType, TOdfPixelType, NrOdfDirections, NrBasisFunctionCenters >	This class takes as input one or more reference images (acquired in the absence of diffusion sensitizing gradients) and 'n' diffusion weighted images and their gradient directions and computes an image of orientation distribution functions (ODFs)
Citk::DiffusionTensorPrincipalDirectionImageFilter< TTensorPixelType, TPDPixelType >	Extracts principal eigenvectors of the input tensors
Citk::DistanceMapFilter< TInputImage, TOutputImage >
Citk::DwiNormilzationFilter< TInPixelType >	Normalizes the data vectors either using the specified reference value or the voxelwise baseline value
Citk::ElectrostaticRepulsionDiffusionGradientReductionFilter< TInputScalarType, TOutputScalarType >	Select subset of the input vectors equally distributed over the sphere using an iterative electrostatic repulsion strategy
Citk::ExtractChannelFromRgbaImageFilter< ReferenceImageType, OutputImageType >
Citk::ExtractDwiChannelFilter< TInPixelType >	Remove specified channels from diffusion-weighted image
Citk::FiniteDiffOdfMaximaExtractionFilter< PixelType, ShOrder, NrOdfDirections >	Extract ODF peaks by searching all local maxima on a densely sampled ODF und clustering these maxima to get the underlying fiber direction. NrOdfDirections: number of sampling points on the ODF surface (about 20000 is a good value)
Citk::HessianMatrixEigenvalueImageFilter< TInputImageType, TOutputImageType, TMaskImageType >
Citk::IntelligentBinaryClosingFilter< TInputImage, TOutputImage >
Citk::LabelSampler< TImage >
Citk::LineHistogramBasedMassImageFilter< TInputImageType, TOutputImageType, TMaskImageType >
Citk::MinMaxImageFilterWithIndex< TInputImage >
Citk::MinMaxLabelImageFilterWithIndex< TInputImage, TLabelImage >
Citk::MLBSTrackingFilter< ShOrder, NumImageFeatures >	Performes deterministic streamline tracking on the input tensor image
Citk::MultiHistogramFilter< TInputImageType, TOuputImageType >
Citk::NeighborhoodFunctorImageFilter< TInputImageType, TFeatureImageType, FunctorType >
Citk::QBallToRgbImageFilter< TInputImage, TOutputImage >
Citk::RadialMultishellToSingleshellImageFilter< TInputScalarType, TOutputScalarType >
Citk::RegularizedIVIMReconstructionSingleIteration< TInputPixel, TOutputPixel, TRefPixelType >	Applies a total variation denoising filter to an image
Citk::RemoveDwiChannelFilter< TInPixelType >	Remove spcified channels from diffusion-weighted image
Citk::ResampleDwiImageFilter< TScalarType >	Resample DWI channel by channel
Citk::ResidualImageFilter< TInputScalarType, TOutputScalarType >
Citk::SmoothedClassProbabilites< TImage >
Citk::SplitDWImageFilter< TInputImagePixelType, TOutputImagePixelType >	Splits a DW-Image passed in as input into a 3D-t image where each volume coresponds to a gradient image ( or the unweighted b0 )
Citk::StochasticTractographyFilter< TInputDWIImage, TInputWhiteMatterProbabilityImage, TOutputConnectivityImage >
Citk::StreamlineTrackingFilter< TTensorPixelType, TPDPixelType >	Performes deterministic streamline tracking on the input tensor image
Citk::StructureTensorEigenvalueImageFilter< TInputImageType, TOutputImageType, TMaskImageType >
Citk::TensorDerivedMeasurementsFilter< TPixel >
Citk::TensorImageToDiffusionImageFilter< TInputScalarType, TOutputScalarType >
Citk::TensorImageToQBallImageFilter< TInputScalarType, TOutputScalarType >
Citk::TensorReconstructionWithEigenvalueCorrectionFilter< TDiffusionPixelType, TTensorPixelType >
Citk::TensorToL2NormImageFilter< TInputImage, TOutputImage >
Citk::TensorToRgbImageFilter< TInputImage, TOutputImage >
Citk::TotalVariationDenoisingImageFilter< TInputImage, TOutputImage >	Applies a total variation denoising filter to an image
Citk::TotalVariationSingleIterationImageFilter< TInputImage, TOutputImage >	Applies a total variation denoising filter to an image
Citk::VectorImageToImageFilter< TPixelType >	This class extracts an image out of a vectorimage
Citk::Index< T >
►Citk::IVIM_base
Citk::IVIM_3param
Citk::IVIM_d_and_f
Citk::IVIM_dstar_only
Citk::IVIM_fixd
Citk::IVIM_fixdstar
Citk::IVIMSquaredEuclideanMetric< TPixelType >
Citk::IVIMSquaredEuclideanMetric< itk::VariableLengthVector< double > >
Citk::IVIMSquaredEuclideanMetric< itk::VariableLengthVector< float > >
Citk::IVIMSquaredEuclideanMetric< itk::Vector< double, 3 > >
Citk::KurtosisFitConfiguration
►CLightObject
►Cmitk::AbstractOverlayLayouter	Baseclass of Overlay layouters
Cmitk::Overlay2DLayouter	A simple implementation of a layouter for 2D Overlays
Cmitk::ContourElement	Represents a contour in 3D space. A ContourElement is consisting of linked vertices implicitely defining the contour. They are stored in a double ended queue making it possible to add vertices at front and end of the contour and to iterate in both directions. To mark a vertex as a special one it can be set as a control point
►Cmitk::DICOMDatasetSorter	The sorting/splitting building-block of DICOMITKSeriesGDCMReader
Cmitk::DICOMFilenameSorter	Sort files based on filename (last resort)
Cmitk::DICOMTagBasedSorter	Sort DICOM datasets based on configurable tags
Cmitk::EquiDistantBlocksSorter	Split inputs into blocks of equidistant slices (for use in DICOMITKSeriesGDCMReader)
Cmitk::NormalDirectionConsistencySorter	Makes sure that the order of files is along the image plane normals
Cmitk::DICOMFileReaderSelector	Simple best-reader selection
►Cmitk::DICOMImageFrameInfo	Describes a frame within a DICOM file
►Cmitk::DICOMDatasetAccessingImageFrameInfo	Defines an abstract base class for DICOM image frame infos with data access
Cmitk::DICOMGDCMImageFrameInfo	The dataset access implementation for DICOMITKSeriesGDCMReader, based on GDCM
Cmitk::DICOMGenericImageFrameInfo	A generic storage class for image frame info with data access
Cmitk::DICOMReaderConfigurator	Too-simple factory to create DICOMFileReaders
►Cmitk::DICOMSortCriterion	A tag based sorting criterion for use in DICOMTagBasedSorter
Cmitk::DICOMSortByTag	Compare two datasets by the value of a single tag (for use in DICOMTagBasedSorter)
Cmitk::SortByImagePositionPatient	Sort by distance of image origin along image normal (for use in DICOMTagBasedSorter)
►Cmitk::DiffusionHeaderDICOMFileReader	Abstract class for all vendor specific diffusion file header reader
Cmitk::DiffusionHeaderGEDICOMFileReader
Cmitk::DiffusionHeaderPhilipsDICOMFileReader
►Cmitk::DiffusionHeaderSiemensDICOMFileReader
Cmitk::DiffusionHeaderSiemensMosaicDICOMFileReader
Cmitk::Dispatcher	Manages event distribution
Cmitk::ImageDataItem	Internal class for managing references on sub-images
►Cmitk::InteractionEvent
Cmitk::CrosshairPositionEvent
Cmitk::InteractionKeyEvent	Handles key events. Takes a std::string for pressed key or special key description, mitk::ModifierKeys for modifiers
►Cmitk::InteractionPositionEvent	Super class for all position events
Cmitk::MouseDoubleClickEvent
Cmitk::MouseMoveEvent
Cmitk::MousePressEvent
Cmitk::MouseReleaseEvent
Cmitk::MouseWheelEvent
Cmitk::InternalEvent	Class to create events from within the application to signal about internal events
►Cmitk::IShaderRepository::Shader
Cmitk::VtkShaderRepository::Shader
►Cmitk::IShaderRepository::ShaderProgram
Cmitk::VtkShaderProgram	SHADERTODO
Cmitk::KinectDeviceFactory	KinectDeviceFactory is an implementation of the factory pattern to generate Microsoft Kinect devices. KinectDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new KinectDevices via a global instance of this factory
Cmitk::KinectV2DeviceFactory	KinectDeviceFactory is an implementation of the factory pattern to generate Microsoft Kinect V2 devices. KinectDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new KinectDevices via a global instance of this factory
►Cmitk::MovieGenerator
Cmitk::MovieGeneratorOpenCV
Cmitk::MovieGeneratorWin32
Cmitk::OclImageFormats
Cmitk::PersistenceService
►Cmitk::PropertyExtension	Base class for all property extensions
Cmitk::FloatPropertyExtension	Property extension for mitk::FloatProperty
Cmitk::IntPropertyExtension	Property extension for mitk::IntProperty
Cmitk::PropertyPersistenceInfo	Property persistence info. This class is used to specify the way the persistance of a property of BaseData derived instances is handled. The info specifies the key for property, as well as the mime type the info is defined for and should be used. Additionally the functions for deserialization and serialization of the property can be defined. As default
Cmitk::PythonService
Cmitk::StateMachineAction	Represents an action, that is executed after a certain event (in statemachine-mechanism) TODO: implement: Is used to connect the Action-Id in an XML Statemachine description with a functor in the
Cmitk::StateMachineState
Cmitk::StateMachineTransition	Connects two states, and holds references to corresponding actions and conditions
Cmitk::ToFCameraMESASR4000DeviceFactory	ToFCameraMESASR4000DeviceFactory is an implementation of the factory pattern to generate MESASR4000Devices. ToFCameraMESASR4000DeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new MESA SR4000 Devices via a global instance of this factory
Cmitk::ToFCameraPMDCamBoardDeviceFactory	ToFPMDCamBoardDeviceFactory is an implementation of the factory pattern to generate CamBoard devices. ToFPMDCamBoardDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new CamBoard Devices via a global instance of this factory
Cmitk::ToFCameraPMDCamCubeDeviceFactory	ToFPMDCamBoardDeviceFactory is an implementation of the factory pattern to generate Cam Cube Devices. ToFPMDCamCubeDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new Cam Cube Devices via a global instance of this factory
Cmitk::ToFCameraPMDO3DeviceFactory	ToFCameraPMDO3DeviceFactory is an implementation of the factory pattern to generate Do3 Devices. ToFPMDCamCubeDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new Cam Cube Devices via a global instance of this factory
Cmitk::ToFCameraPMDPlayerDeviceFactory	ToFPMDPlayerDeviceFactory is an implementation of the factory pattern to generate PMD Player Devices. ToFPMDPlayerDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new PMD Player Devices via a global instance of this factory
Cmitk::ToFCameraPMDRawDataCamBoardDeviceFactory	ToFPMDRawPlayerDeviceFactory is an implementation of the factory pattern to generate Raw Player Devices. ToFPMDRawPlayerDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new Raw Player Devices via a global instance of this factory
Cmitk::ToFCameraPMDRawDataCamCubeDeviceFactory	ToFPMDRawPlayerDeviceFactory is an implementation of the factory pattern to generate Raw Player Devices. ToFPMDRawPlayerDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new Raw Player Devices via a global instance of this factory
Cmitk::ToolManagerProvider	Micro Service Singleton to get an instance of mitk::ToolManager
►CMatrix
Cmitk::Matrix< T, NRows, NColumns >
Citk::MeasAndBvals
Citk::MinMaxLabelImageFilterWithIndex< TInputImage, TLabelImage >::LabelExtrema	Just a container for global min/max values and their indices as well as all min and max values (+indices) of the mask labels
Citk::MutexLockHolder< T >
►CObject
Citk::BSplineDeformableTransformInitializer< TTransform, TImage >	BSplineDeformableTransformInitializer is a helper class intended to initialize the grid parameters of a BSplineDeformableTransform based on the parameters of an image
►Citk::DWIVoxelFunctor	The DWIVoxelFunctor class Abstract basisclass for voxelprocessing of Diffusion Weighted Images
Citk::ADCAverageFunctor
Citk::ADCFitFunctor
Citk::BiExpFitFunctor
Citk::KurtosisFitFunctor
Citk::NonUniformBSpline< TDimension >	BSpline with nonuniform knot spacing
Citk::ProjectionFilter	Projection part of the TBSS pipeline
►Citk::ShortestPathCostFunction< TInputImageType >
Citk::ShortestPathCostFunctionLiveWire< TInputImageType >	Cost function for LiveWire purposes. Specific features are considered to calculate cummulative costs of a link between two pixels. These are:
Citk::ShortestPathCostFunctionTbss< TInputImageType >
Citk::Statistics::MITKScalarImageToHistogramGenerator< TImageType, TMeasurementType >
►Cmitk::AbstractOpenCVImageFilter	Interface for image filters on OpenCV images
Cmitk::BasicCombinationOpenCVImageFilter
Cmitk::ConvertGrayscaleOpenCVImageFilter
Cmitk::CropOpenCVImageFilter
Cmitk::GrabCutOpenCVImageFilter	Makes the OpenCV GrabCut filter available as OpenCVImageFilter
Cmitk::Action	Action, that is executed after a certain event (in statemachine-mechanism)
Cmitk::AnisotropicIterativeClosestPointRegistration	Implementation of the anisotropic iterative closest point (A-ICP) algoritm
►Cmitk::BaseController	Baseclass for renderer slice-/camera-control
Cmitk::CameraController	Controls the camera used by the associated BaseRenderer
Cmitk::CameraRotationController
Cmitk::SliceNavigationController	Controls the selection of the slice the associated BaseRenderer will display
Cmitk::BaseDataIO	BaseDataIO creates instances of BaseData objects using an object factory
►Cmitk::BaseDataSerializer	Base class for objects that serialize BaseData types
Cmitk::ConnectomicsNetworkSerializer	Serializes mitk::ConnectomicsNetwork for mitk::SceneIO
Cmitk::ContourModelSerializer
Cmitk::ContourModelSetSerializer
Cmitk::ExampleDataStructureSerializer	Serializes mitk::ExampleDataStructure for mitk::SceneIO
Cmitk::FiberBundleSerializer	Serializes mitk::Surface for mitk::SceneIO
Cmitk::GeometryDataSerializer	Serializes mitk::GeometryData for mitk::SceneIO
Cmitk::ImageSerializer	Serializes mitk::Image for mitk::SceneIO
Cmitk::LabelSetImageSerializer	Serializes mitk::LabelSetImage for mitk::SceneIO
Cmitk::MAPRegistrationWrapperSerializer	Serializes mitk::MAPRegistrationWrapper for mitk::SceneIO
Cmitk::PlanarFigureCompositeSerializer	Serializes mitk::Surface for mitk::SceneIO
Cmitk::PlanarFigureSerializer	Serializes mitk::Surface for mitk::SceneIO
Cmitk::PointSetSerializer	Serializes mitk::Surface for mitk::SceneIO
Cmitk::QBallImageSerializer	Serializes mitk::Surface for mitk::SceneIO
Cmitk::SimulationSerializer
Cmitk::SurfaceSerializer	Serializes mitk::Surface for mitk::SceneIO
Cmitk::TensorImageSerializer	Serializes mitk::Surface for mitk::SceneIO
Cmitk::VigraRandomForestClassifierSerializer
►Cmitk::BaseGeometry	BaseGeometry Describes the geometry of a data object
Cmitk::Geometry3D	Standard implementation of BaseGeometry
►Cmitk::PlaneGeometry	Describes a two-dimensional, rectangular plane
►Cmitk::AbstractTransformGeometry	Describes a geometry defined by an vtkAbstractTransform and a plane
►Cmitk::LandmarkProjectorBasedCurvedGeometry	Superclass of AbstractTransformGeometry sub-classes defined by a set of landmarks
Cmitk::ThinPlateSplineCurvedGeometry	Thin-plate-spline-based landmark-based curved geometry
Cmitk::SlicedGeometry3D	Describes the geometry of a data object consisting of slices
►Cmitk::BaseProperty	Abstract base class for properties
►Cmitk::GenericProperty< bool >
Cmitk::BoolProperty
►Cmitk::GenericProperty< BoolLookupTable >
Cmitk::BoolLookupTableProperty
►Cmitk::GenericProperty< double >
Cmitk::DoubleProperty
►Cmitk::GenericProperty< float >
Cmitk::FloatProperty
►Cmitk::GenericProperty< FloatLookupTable >
Cmitk::FloatLookupTableProperty
►Cmitk::GenericProperty< int >
Cmitk::IntProperty
►Cmitk::GenericProperty< IntLookupTable >
Cmitk::IntLookupTableProperty
►Cmitk::GenericProperty< Point2D >
Cmitk::Point2dProperty
►Cmitk::GenericProperty< Point3D >
Cmitk::Point3dProperty
►Cmitk::GenericProperty< Point3I >
Cmitk::Point3iProperty
►Cmitk::GenericProperty< Point4D >
Cmitk::Point4dProperty
►Cmitk::GenericProperty< StringLookupTable >
Cmitk::StringLookupTableProperty
►Cmitk::GenericProperty< unsigned int >
Cmitk::UIntProperty
►Cmitk::GenericProperty< unsigned short >
Cmitk::UShortProperty
►Cmitk::GenericProperty< Vector3D >
Cmitk::Vector3DProperty
Cmitk::AnnotationProperty	Property for annotations
Cmitk::BValueMapProperty
Cmitk::CameraIntrinsicsProperty
Cmitk::ClippingProperty	Property for clipping datasets; currently only clipping planes are possible
Cmitk::ColorProperty	RGB color property
►Cmitk::EnumerationProperty
Cmitk::ConnectomicsRenderingEdgeColorParameterProperty
Cmitk::ConnectomicsRenderingEdgeFilteringProperty
Cmitk::ConnectomicsRenderingEdgeRadiusParameterProperty
Cmitk::ConnectomicsRenderingEdgeThresholdParameterProperty
Cmitk::ConnectomicsRenderingNodeColorParameterProperty
Cmitk::ConnectomicsRenderingNodeFilteringProperty
Cmitk::ConnectomicsRenderingNodeRadiusParameterProperty
Cmitk::ConnectomicsRenderingNodeThresholdParameterProperty
Cmitk::ConnectomicsRenderingSchemeProperty
Cmitk::GridRepresentationProperty
Cmitk::GridVolumeMapperProperty
Cmitk::ModalityProperty	Enumerates all known modalities
Cmitk::OdfNormalizationMethodProperty
Cmitk::OdfScaleByProperty
Cmitk::OrganTypeProperty	Enumerates all known organs :-)
Cmitk::PlanarFigureControlPointStyleProperty	Defines the rendering style of control points for PlanarFigure objects
Cmitk::PlaneOrientationProperty
Cmitk::PointSetShapeProperty
Cmitk::RegEvalStyleProperty
Cmitk::RegEvalWipeStyleProperty
Cmitk::RegVisColorStyleProperty
Cmitk::RegVisDirectionProperty
Cmitk::RegVisStyleProperty
Cmitk::RenderingModeProperty
Cmitk::ResliceMethodProperty
Cmitk::ShaderProperty
Cmitk::VtkInterpolationProperty
Cmitk::VtkRepresentationProperty
Cmitk::VtkResliceInterpolationProperty
Cmitk::VtkScalarModeProperty
Cmitk::VtkVolumeRenderingProperty
Cmitk::GenericProperty< T >
Cmitk::GradientDirectionsProperty
Cmitk::GroupTagProperty	Property class that has no value
Cmitk::IsoDoseLevelSetProperty	Property class for dose iso level sets
Cmitk::IsoDoseLevelVectorProperty	Property class for dose iso level vector
Cmitk::LevelWindowProperty	Property for the mitk::LevelWindow
Cmitk::LookupTableProperty	Property to associate mitk::LookupTable to an mitk::DataNode
Cmitk::MeasurementFrameProperty
Cmitk::SmartPointerProperty	Property containing a smart-pointer
Cmitk::StringProperty	Property for strings
Cmitk::TemporoSpatialStringProperty	Property for time and space resolved string values
Cmitk::TransferFunctionProperty	Property class for the mitk::TransferFunction
Cmitk::TubeGraphProperty	Property for tube graphs
Cmitk::VectorProperty< DATATYPE >	Providing a std::vector as property
Cmitk::WeakPointerProperty	Property containing a smart-pointer
►Cmitk::BasePropertySerializer	Base class for objects that serialize BaseProperty types
►Cmitk::EnumerationPropertySerializer
Cmitk::OdfNormalizationMethodPropertySerializer
Cmitk::OdfScaleByPropertySerializer
Cmitk::LookupTablePropertySerializer	Base class for objects that serialize BaseData types
Cmitk::TransferFunctionPropertySerializer
Cmitk::VectorPropertySerializer< DATATYPE >	Serializes a VectorProperty
►Cmitk::BaseRenderer	Organizes the rendering process
Cmitk::VtkPropRenderer	VtkPropRenderer
Cmitk::CameraIntrinsics	Class representing camera intrinsics and related functions
Cmitk::ClaronInterface	An object of this class represents the interface to the MicronTracker. The methods of this class are calling the c-functions which are provided by the MTC-library. If the MicronTracker is not in use, which means the CMake-variable "MITK_USE_MICRON_TRACKER" is set to OFF, this class is replaced by a stub class called "ClaronInterfaceStub"
Cmitk::ClaronInterface	An object of this class represents the interface to the MicronTracker. The methods of this class are calling the c-functions which are provided by the MTC-library. If the MicronTracker is not in use, which means the CMake-variable "MITK_USE_MICRON_TRACKER" is set to OFF, this class is replaced by a stub class called "ClaronInterfaceStub"
Cmitk::CompressedImageContainer	Holds one (compressed) mitk::Image
Cmitk::ConnectomicsNetworkConverter	A class giving functions for conversion of connectomics networks into different formats
Cmitk::ConnectomicsNetworkCreator	Creates connectomics networks from fibers and parcellation
Cmitk::ConnectomicsNetworkThresholder	A class for thresholding connectomics networks
►Cmitk::ConnectomicsSimulatedAnnealingCostFunctionBase	A generic base class for cost functions for use in simulated annealing
Cmitk::ConnectomicsSimulatedAnnealingCostFunctionModularity	A cost function using the modularity of the network
Cmitk::ConnectomicsSimulatedAnnealingManager	A class allow generic simulated annealing by using classes derived from ConnectomicsSimulatedAnnealingPermutationBase
►Cmitk::ConnectomicsSimulatedAnnealingPermutationBase	Base class of a permutation to be used in simulated annealing
Cmitk::ConnectomicsSimulatedAnnealingPermutationModularity	A class providing permutations for the calculation of modularity using simulated annealing
Cmitk::ConnectomicsStatisticsCalculator	A class giving functions for calculating a variety of network indices
Cmitk::ConnectomicsSyntheticNetworkGenerator	A class to generate synthetic networks
Cmitk::ContourModelUtils	Helpful methods for working with contours and images
Cmitk::ContourUtils	Helpful methods for working with contours and images
►Cmitk::CoreObjectFactoryBase
Cmitk::BoundingShapeObjectFactory
Cmitk::ConnectomicsObjectFactory
Cmitk::ContourObjectFactory
Cmitk::CoreObjectFactory
Cmitk::DiffusionCoreObjectFactory
Cmitk::FiberTrackingObjectFactory
Cmitk::GizmoObjectFactory
Cmitk::MAPRegistrationWrapperObjectFactory
Cmitk::MultilabelObjectFactory
Cmitk::PlanarFigureObjectFactory
Cmitk::QuantificationObjectFactory
Cmitk::RegEvaluationObjectFactory
Cmitk::SegmentationObjectFactory
Cmitk::SimulationObjectFactory
Cmitk::TubeGraphObjectFactory
Cmitk::CorrelationCalculator< T >	Class to calculate covariance and correlation
Cmitk::CovarianceMatrixCalculator	Class that computes the covariance matrices for every point in a Surface used in the A-ICP algorithm
►Cmitk::DataStorage	Data management class that handles 'was created by' relations
Cmitk::StandaloneDataStorage	Data management class that handles 'was created by' relations
Cmitk::DataStorageSelection
►Cmitk::DicomDiffusionImageHeaderReader	Reads the header information from a DICOM series and stores it into an output object of type DiffusionImageHeaderInformation
Cmitk::GEDicomDiffusionImageHeaderReader
Cmitk::PhilipsDicomDiffusionImageHeaderReader	Reads in the image header information for the Philips DICOM Format
Cmitk::SiemensDicomDiffusionImageHeaderReader	Reads in the header information for the standard Siemens DICOM format
Cmitk::SiemensMosaicDicomDiffusionImageHeaderReader	Reads the image header for diffusion MR data stored in Siemens MOSAIC Format
►Cmitk::DICOMFileReader	Interface for DICOM readers that produce mitk::Images
►Cmitk::DICOMITKSeriesGDCMReader	Flexible reader based on itk::ImageSeriesReader and GDCM, for single-slice modalities like CT, MR, PET, CR, etc
►Cmitk::ThreeDnTDICOMSeriesReader	Extends DICOMITKSeriesGDCMReader by sorting/grouping into 3D+t image blocks
►Cmitk::ClassicDICOMSeriesReader	Sorting and grouping like mitk::DicomSeriesReader until 2013
Cmitk::DiffusionDICOMFileReader
Cmitk::DICOMNullFileReader
►Cmitk::DICOMTagCache	..
Cmitk::DICOMGDCMTagCache	Tag cache implementation used by the DICOMGDCMTagScanner
Cmitk::DICOMGenericTagCache	Generic tag cache implementation
►Cmitk::DICOMTagScanner	Abstracts the tag scanning process for a set of DICOM files
Cmitk::DICOMDCMTKTagScanner	Encapsulates the tag scanning process for a set of DICOM files
Cmitk::DICOMGDCMTagScanner	Encapsulates the tag scanning process for a set of DICOM files
Cmitk::DiffImageApplier	Applies difference images to 3D images
Cmitk::DiffusionImageHeaderInformation
Cmitk::FreeSurferParcellationTranslator	The mitkFreeSurferParcellationTranslator class
Cmitk::GradientBackground
Cmitk::HistogramGenerator	Provides an easy way to calculate an itk::Histogram for a mitk::Image
►Cmitk::IGTLDevice	Interface for all OpenIGTLink Devices
Cmitk::IGTLClient	Superclass for OpenIGTLink clients
Cmitk::IGTLServer	Superclass for OpenIGTLink server
Cmitk::IGTLMeasurements	Is a helper class to make measurments for latency and fps
►Cmitk::IGTLMessageCloneHandler	Base class for clone handlers for igtl::MessageBase derived message types
Cmitk::DummyMsgCloneHandler
Cmitk::IGTLMessageFactory	Factory class of supported OpenIGTLink message types
Cmitk::IGTLMessageQueue	Thread safe message queue to store OpenIGTLink messages
Cmitk::IGTTimeStamp	Time stamp in milliseconds
Cmitk::ImageDescriptor	An object to hold all essential information about an Image object
Cmitk::ImageStatisticsCalculator	Class for calculating statistics and histogram for an (optionally masked) image
Cmitk::ImageStatisticsCalculator	Class for calculating statistics and histogram for an (optionally masked) image
Cmitk::ImageStatisticsCalculator::StatisticsContainer	Container class for storing the computed image statistics
Cmitk::ImageToOpenCVImageFilter	A pseudo-Filter for creating OpenCV images from MITK images with the option of copying data or referencing it
►Cmitk::InteractionEventHandler
►Cmitk::EventStateMachine	Super-class that provides the functionality of a StateMachine to DataInteractors
►Cmitk::DataInteractor	Base class from with interactors that handle DataNodes are to be derived
Cmitk::AffineBaseDataInteractor3D	Affine interaction with mitk::BaseGeometry
Cmitk::AffineImageCropperInteractor	Affine interaction with objects in 3D windows
Cmitk::ClippingPlaneInteractor3D	Specialized interactor for clipping planes
►Cmitk::ContourModelInteractor
Cmitk::ContourModelLiveWireInteractor
Cmitk::ExampleInteractor
Cmitk::GizmoInteractor
Cmitk::PlanarFigureInteractor	Interaction with mitk::PlanarFigure objects via control-points
►Cmitk::PointSetDataInteractor	Implementation of the PointSetInteractor
Cmitk::SinglePointDataInteractor	Implementation of the single point interaction
Cmitk::SimulationInteractor
Cmitk::SurfaceDeformationDataInteractor3D	SurfaceDeformation interaction with objects in 3D windows
Cmitk::TubeGraphDataInteractor
►Cmitk::DisplayInteractor	Observer that manages the interaction with the display
Cmitk::SegmentationInteractor	Observer that adds interaction with a segmentation session to the default display interaction
►Cmitk::Tool	Base class of all tools used by mitk::ToolManager
►Cmitk::AutoSegmentationTool	Superclass for tool that create a new segmentation without user interaction in render windows
Cmitk::AdaptiveRegionGrowingTool	Dummy Tool for AdaptiveRegionGrowingToolGUI to get Tool functionality for AdaptiveRegionGrowing. The actual logic is implemented in QmitkAdaptiveRegionGrowingToolGUI
Cmitk::BinaryThresholdTool	Calculates the segmented volumes for binary images
Cmitk::BinaryThresholdULTool	Calculates the segmented volumes for binary images
Cmitk::FastMarchingTool3D	FastMarching semgentation tool
Cmitk::OtsuTool3D
Cmitk::PickingTool	Extracts a single region from a segmentation image and creates a new image with same geometry of the input image
Cmitk::WatershedTool	Simple watershed segmentation tool
Cmitk::PixelManipulationTool
►Cmitk::SegmentationsProcessingTool	Batch processing of all selected segmentations/data
Cmitk::AutoCropTool	Crops selected segmentations
Cmitk::CalculateGrayValueStatisticsTool	Calculates some gray value statistics for segmentations
Cmitk::CalculateVolumetryTool	Calculates the segmented volumes for binary images
Cmitk::CreateSurfaceTool	Creates surface models from segmentations
►Cmitk::SegTool2D	Abstract base class for segmentation tools
►Cmitk::FeedbackContourTool	Base class for tools that use a contour for feedback
►Cmitk::ContourTool	Simple contour filling tool
Cmitk::AddContourTool	Fill the inside of a contour with 1
Cmitk::SubtractContourTool	Fill the inside of a contour with 1
Cmitk::CorrectorTool2D	Corrector tool for 2D binary segmentations
Cmitk::FastMarchingTool	FastMarching semgentation tool
►Cmitk::PaintbrushTool	Paintbrush tool for InteractiveSegmentation
Cmitk::DrawPaintbrushTool	Paintbrush tool for InteractiveSegmentation
Cmitk::ErasePaintbrushTool	Paintbrush tool for InteractiveSegmentation
Cmitk::RegionGrowingTool	A slice based region growing tool
►Cmitk::SetRegionTool	Fills or erases a 2D region
Cmitk::EraseRegionTool	Fill the inside of a contour with 1
Cmitk::FillRegionTool	Fill the inside of a contour with 1
Cmitk::LiveWireTool2D	A 2D segmentation tool based on LiveWire approach. The contour between the last user added point and the current mouse position is computed by searching the shortest path according to specific features of the image. The contour thus snappest to the boundary of objects
CQmitkFreeSurferParcellationHandler	This handler returns either the pixelvalue or anatomical label of the current position of the crosshair inside a visible parcellation. If no parcellation is visible no data is thrown
►Cmitk::IOAdapterBase	IOAdapterBase class is an abstract adapter class for IO process objects
Cmitk::IOAdapter< T >	IOAdapter class is an adapter class for instantiation of IO process objects. Additional this interface defines the function CanReadFile(). This interface allows the target (object) the access to the adaptee (IO process object)
Cmitk::IsoDoseLevel	Stores values needed for the representation/visualization of dose iso levels
Cmitk::IsoDoseLevelSet	Stores values needed for the representation/visualization of dose iso levels
Cmitk::KinectController	Interface to the Kinect camera
Cmitk::KinectV2Controller	Interface to the Kinect 2 camera. Currently, the Microsoft SDK is used
Cmitk::LabeledImageVolumeCalculator	Class for calculating the volume (or area) for each label in a labeled image
Cmitk::LabelSet
►Cmitk::LandmarkProjector	Base-class of landmark-projectors, which project the target landmarks to create source landmarks
Cmitk::PlaneLandmarkProjector	Thin-plate-spline-based landmark-based curved geometry
Cmitk::LevelWindowManager	Provides access to the LevelWindowProperty object and LevelWindow of the "current" image
►Cmitk::Mapper	Base class of all mappers, Vtk as well as OpenGL mappers
►Cmitk::GLMapper	Base class of all OpenGL-based mappers
Cmitk::ContourMapper2D	OpenGL-based mapper to display a mitk::Contour object in a 2D render window
►Cmitk::ContourModelGLMapper2DBase	Base class for OpenGL based 2D mappers. Provides functionality to draw a contour
Cmitk::ContourModelGLMapper2D	OpenGL-based mapper to display a mitk::Contour object in a 2D render window
Cmitk::ContourModelSetGLMapper2D	OpenGL-based mapper to display a mitk::ContourModelSet object containing several contours in a 2D render window
Cmitk::ContourSetMapper2D	OpenGL-based mapper to display a mitk::Contour object in a 2D render window
Cmitk::MeshMapper2D	OpenGL-based mapper to display a mesh in a 2D window
Cmitk::PlanarFigureMapper2D	OpenGL-based mapper to render display sub-class instances of mitk::PlanarFigure
Cmitk::UnstructuredGridMapper2D	OpenGL-based mapper to display a 2d cut through a poly data OpenGL-based mapper to display a 2D cut through a poly data. The result is normally a line. This class can be added to any data object, which is rendered in 3D via a vtkPolyData
Cmitk::VectorImageMapper2D
►Cmitk::VtkMapper	Base class of all Vtk Mappers in order to display primitives by exploiting Vtk functionality
Cmitk::BoundingShapeVtkMapper2D
Cmitk::BoundingShapeVtkMapper3D
Cmitk::CompositeMapper	Composite pattern for combination of different mappers
Cmitk::ConnectomicsNetworkMapper3D	Mapper for Networks
Cmitk::ContourModelMapper2D
Cmitk::ContourModelMapper3D
Cmitk::ContourModelSetMapper3D
Cmitk::ContourSetVtkMapper3D	Vtk-based mapper for mitk::Contour
Cmitk::ContourVtkMapper3D	Vtk-based mapper for mitk::Contour
Cmitk::DoseImageVtkMapper2D	Mapper to resample and display 2D slices of a 3D image
Cmitk::EnhancedPointSetVtkMapper3D	Alternative Vtk-based 3D mapper for mitk::PointSet
Cmitk::FiberBundleMapper2D
Cmitk::FiberBundleMapper3D	Mapper for FiberBundle
Cmitk::FiberBundleThreadMonitorMapper3D	Mapper for FiberBundle
Cmitk::GizmoMapper2D
Cmitk::GPUVolumeMapper3D	Vtk-based mapper for VolumeData
►Cmitk::ImageVtkMapper2D	Mapper to resample and display 2D slices of a 3D image
Cmitk::CopyImageMapper2D
Cmitk::TbssImageMapper	Mapper for raw diffusion weighted images
Cmitk::LabelSetImageVtkMapper2D	Mapper to resample and display 2D slices of a 3D labelset image
Cmitk::MeshVtkMapper3D	Vtk-based mapper for PointList
►Cmitk::MITKRegistrationWrapperMapperBase
Cmitk::MITKRegistrationWrapperMapper2D
Cmitk::MITKRegistrationWrapperMapper3D
Cmitk::OdfVtkMapper2D< TPixelType, NrOdfDirections >	Mapper for spherical object densitiy function representations
Cmitk::PlanarFigureVtkMapper3D
Cmitk::PlaneGeometryDataMapper2D	Vtk-based 2D mapper for rendering a crosshair with the plane geometry
Cmitk::PlaneGeometryDataVtkMapper3D	Vtk-based mapper to display a PlaneGeometry in a 3D windowUses a PlaneGeometryDataToSurfaceFilter object to create a vtkPolyData representation of a given PlaneGeometry instance. PlaneGeometry may either contain a common flat plane or a curved plane (ThinPlateSplineCurvedGeometry)
Cmitk::PointSetVtkMapper2D	Vtk-based 2D mapper for PointSet
►Cmitk::PointSetVtkMapper3D	Vtk-based mapper for PointSet
Cmitk::SplineVtkMapper3D	Vtk-based mapper for Splines
Cmitk::RegEvaluationMapper2D	Mapper to resample and display 2D slices of registration evaluation visualization
Cmitk::SimulationVtkMapper2D
Cmitk::SimulationVtkMapper3D
Cmitk::SurfaceVtkMapper2D	Vtk-based mapper for cutting 2D slices out of Surfaces
Cmitk::SurfaceVtkMapper3D	Vtk-based mapper for Surfaces
Cmitk::TubeGraphVtkMapper3D
Cmitk::UnstructuredGridVtkMapper3D	Vtk-based mapper for UnstructuredGrid
Cmitk::VectorImageVtkGlyphMapper3D
Cmitk::VtkGLMapperWrapper	Vtk-based 2D mapper for PointSet
Cmitk::OdfVtkMapper2D< float, QBALL_ODFSIZE >
►Cmitk::MaskGenerator	Base Class for all Mask Generators. Mask generators are classes that provide functionality for the creation of binary (or unsigned short) masks that can be applied to an image. See dervied classes for more information
Cmitk::HotspotMaskGenerator	Used when a hotspot has to be found in an image. A hotspot is the region of the image where the mean intensity is maximal (=brightest spot). It is usually used in PET scans. The identification of the hotspot is done as follows: First a cubic (or circular, if image is 2d) mask of predefined size is generated. This mask is then convolved with the input image (in fourier domain). The maximum value of the convolved image then corresponds to the hotspot. If a maskGenerator is set, only the pixels of the convolved image where the corresponding mask is == label are searched for the maximum value
Cmitk::IgnorePixelMaskGenerator	Used to generate a mask that is zero for specific pixel values in the input image. This class requires an input image
Cmitk::ImageMaskGenerator
Cmitk::MultiLabelMaskGenerator	NOT IMPLEMENTED YET!
Cmitk::PlanarFigureMaskGenerator	Derived from MaskGenerator. This class is used to convert a mitk::PlanarFigure into a binary image mask
Cmitk::MaskUtilities< TPixel, VImageDimension >	Utility class for mask operations. It checks whether an image and a mask are compatible (spacing, orientation, etc...) and it can also crop an image to the LargestPossibleRegion of the Mask
Cmitk::Material
Cmitk::MetricFactory< TPixelType, VImageDimension >	This class creates a metric for a rigid registration process
Cmitk::MetricParameters	This class is used to hold all metric parameters needed for a rigid registration process
Cmitk::MouseModeSwitcher
Cmitk::NavigationDataReaderInterface
Cmitk::NavigationToolReader	This class offers methods to read objects of the class NavigationTool from the harddisc. The tools have to be saved in a special format by the class NavigationToolWriter to be loadable
Cmitk::NavigationToolStorage	An object of this class represents a collection of navigation tools. You may add/delete navigation tools or store/load the whole collection to/from the harddisc by using the class NavigationToolStorageSerializer and NavigationToolStorageDeserializer
Cmitk::NavigationToolStorageDeserializer	This class offers methods to load an object of the class NavigationToolStorage from the harddisc
Cmitk::NavigationToolStorageSerializer	This class offers methods to save an object of the class NavigationToolStorage to the harddisc
Cmitk::NavigationToolWriter	This class offers methods to write objects of the class navigation tool permanently to the harddisk. The objects are saved in a special fileformat which can be read by the class NavigationToolReader to restore the object
Cmitk::NDIProtocol	The NDI Protocol class provides building and parsing of command strings and answers to and from a NDI tracking device
►Cmitk::NodePredicateBase	Interface for evaluation conditions used in the DataStorage class GetSubset() method
►Cmitk::NodePredicateCompositeBase	Base class for all predicates that can have child predicates (e.g. AND/OR)
Cmitk::NodePredicateAnd	Composite predicate that forms a logical AND relation from its child predicates
Cmitk::NodePredicateNot	Composite predicate that negates its child predicate Changed: NodePredicateNot now derives from NodePredicateCompositeBase though it really holds only one subpredicate at any time. But logically any Predicate that has one or more subpredicate is a CompositePredicate
Cmitk::NodePredicateOr	Composite predicate that forms a logical OR relation from its child predicates
Cmitk::NodePredicateData	Predicate that evaluates if the given DataNodes data object pointer equals a given pointer
Cmitk::NodePredicateDataProperty	Predicate that evaluates if the data of a given DataNode has a specific property. If the second parameter is NULL, it will only be checked whether there is a property with the specified name for the data instance of the node
Cmitk::NodePredicateDataType	Predicate that evaluates if the given DataNodes data object is of a specific data type
Cmitk::NodePredicateDimension	Predicate that evaluates if the given DataNodes data object has the specified dimension, for datasets where dimension is applicable
Cmitk::NodePredicateFirstLevel	Predicate that evaluates if the given node is a direct or indirect source node of a specific node
Cmitk::NodePredicateIsDWI	Predicate that evaluates whether a given node contains a diffusion weighted image
Cmitk::NodePredicateProperty	Predicate that evaluates if the given DataNode has a specific property. If the second parameter is NULL, it will only be checked whether there is a property with the specified name. If a renderer is specified in the third parameter the renderer-specific property will be checked. If this parameter is NULL or not specified, then the non-renderer-specific property will be checked
Cmitk::NodePredicateSource	Predicate that evaluates if the given node is a direct or indirect source node of a specific node
Cmitk::TNodePredicateDataType< T >	Tests for type compatibility (dynamic_cast)
►Cmitk::NonBlockingAlgorithm
►Cmitk::SegmentationSink
Cmitk::CalculateSegmentationVolume
Cmitk::LabelSetImageToSurfaceThreadedFilter
Cmitk::ShowSegmentationAsSmoothedSurface
Cmitk::ShowSegmentationAsSurface
►Cmitk::OclBaseData
Cmitk::OclImage	Class implementing the image format for GPU Image Processing
Cmitk::OclBinaryThresholdImageFilter	The OclBinaryThresholdImageFilter computes a binary segmentation based on given threshold values
►Cmitk::OpenCVImageSource
►Cmitk::OpenCVVideoSource
Cmitk::VideoInputSource
Cmitk::ToFOpenCVImageGrabber	TofImageGrabber class providing OpenCV images
Cmitk::OptimizerFactory	This class creates an optimizer for a rigid registration process
Cmitk::OptimizerParameters	This class is used to hold all optimizer parameters needed for a rigid registration process
►Cmitk::Overlay	Base class for all overlays
►Cmitk::VtkOverlay	Base for all Overlays which are using the VTK framework to render the elements
Cmitk::AxisOverlay
Cmitk::ColorBarOverlay	Displays configurable scales on the renderwindow. The scale is determined by the image spacing
Cmitk::LogoOverlay	Displays a logo on the renderwindow
Cmitk::ScaleLegendOverlay	Displays configurable scales on the renderwindow. The scale is determined by the image spacing
►Cmitk::VtkOverlay2D	Basis for all VTK based Overlays which create a vtkActor2D element that will be drawn on the renderer
Cmitk::TextOverlay2D	Displays text on the renderwindow
►Cmitk::VtkOverlay3D	Basis for all VTK based Overlays which create any 3D element as a vtkProp that will be drawn on the renderer
Cmitk::LabelOverlay3D	Can display a high amount of 3D labels to a PointSet
Cmitk::TextOverlay3D	Displays at 3D position, always facing the camera
Cmitk::OverlayManager	The OverlayManager updates and manages Overlays and the respective Layouters
Cmitk::PartialVolumeAnalysisClusteringCalculator
Cmitk::PartialVolumeAnalysisHistogramCalculator	Class for calculating statistics and histogram for an (optionally masked) image
Cmitk::PlanarFigureSegmentationController	This class creates a binary image from a set of PlanarFigures
Cmitk::PointLocator
Cmitk::PointSetDifferenceStatisticsCalculator	Class for calculating the difference between two corresponding point sets. The user can access the single distances between corresponding points as well as a complete statistic (mean, sd, rms, median, max, min) The point sets must be of equal size!
Cmitk::PointSetStatisticsCalculator	Class for calculating statistics (like standard derivation, RMS, mean, etc.) for a PointSet
Cmitk::ProgressBar	Sending a message to the applications ProgressBar
►Cmitk::PropertyList	Key-value list holding instances of BaseProperty
Cmitk::Label	A data structure describing a label
►Cmitk::PropertyListDeserializer	Deserializes a mitk::PropertyList
Cmitk::PropertyListDeserializerV1	Deserializes a mitk::PropertyList
Cmitk::PropertyListSerializer	Serializes a mitk::PropertyList
Cmitk::PropertyListsXmlFileReaderAndWriter
Cmitk::PyramidImageRegistrationMethod	The PyramidImageRegistration class implements a multi-scale registration method
Cmitk::QuaternionAveraging	This class offers methods to average quaternions
►Cmitk::RealTimeClock	RealTimeClock is a superclass to WindowsRealTimeClock, LinuxRealTimeClock, etc
Cmitk::LinuxRealTimeClock	RealTimeClock for linux-systems
Cmitk::WindowsRealTimeClock	Realtimeclock implementation for windows-systems
Cmitk::ReferenceCountWatcher	Keeps track of the reference count of an object even if it is destroyed
►Cmitk::RenderingManager	Manager for coordinating the rendering process
CQmitkRenderingManager	Qt specific implementation of mitk::RenderingManager
CQmlMitkRenderingManager	Qt/Qml specific implementation of mitk::RenderingManager
Cmitk::RenderWindow	MitkRenderWindow integrates the MITK rendering mechanism into VTK and is NOT QT dependent
Cmitk::RenderWindowFrame
Cmitk::RTStructureSetReader
Cmitk::SceneIO
►Cmitk::SceneReader
Cmitk::SceneReaderV1
►Cmitk::SegmentationInterpolationAlgorithm	Interface class for interpolation algorithms
Cmitk::ShapeBasedInterpolationAlgorithm	Shape-based binary image interpolation
Cmitk::SegmentationInterpolationController	Generates interpolations of 2D slices
Cmitk::SerialCommunication	Serial communication interface
Cmitk::SliceBasedInterpolationController	Generates interpolations of 2D slices
Cmitk::SlicesCoordinator	Coordinates a list of SliceNavigationControllers
Cmitk::StandardFileLocations	Provides a method to look for configuration and option files etc
Cmitk::StatusBar	Sending a message to the applications StatusBar
►Cmitk::Stepper	Helper class to step through a list
Cmitk::MultiStepper	Helper class to step through a list
Cmitk::SurfaceBasedInterpolationController
Cmitk::SurfaceInterpolationController
Cmitk::TbssImporter	Converts FSL TBSS data (4D skeleton projection images) to a NRRD image with meta data
Cmitk::TeemDiffusionTensor3DReconstructionImageFilter< DiffusionImagePixelType, TTensorPixelType >
Cmitk::TimeFramesRegistrationHelper
►Cmitk::TimeGeometry
Cmitk::ArbitraryTimeGeometry
Cmitk::ProportionalTimeGeometry
►Cmitk::ToFCameraDevice	Virtual interface and base class for all Time-of-Flight devices
Cmitk::KinectDevice	Interface for all representations of Kinect devices. KinectDevice internally holds an instance of KinectController and starts a thread that continuously grabs images from the controller. A buffer structure buffers the last acquired images to provide the image data loss-less
Cmitk::KinectV2Device	Interface for all representations of Microsoft Kinect V2 devices. Kinect2Device internally holds an instance of Kinect2Controller and starts a thread that continuously grabs images from the controller. A buffer structure buffers the last acquired images to provide the image data loss-less
►Cmitk::ToFCameraMESADevice	Interface for all representations of MESA ToF devices. ToFCameraMESADevice internally holds an instance of ToFCameraMESAController and starts a thread that continuously grabs images from the controller. A buffer structure buffers the last acquired images to provide the image data loss-less
Cmitk::ToFCameraMESASR4000Device	Device class representing a MESA CamBoard camera
Cmitk::ToFCameraMITKPlayerDevice	Device class representing a player for MITK-ToF images
►Cmitk::ToFCameraPMDDevice	Interface for all representations of PMD ToF devices. ToFCameraPMDDevice internally holds an instance of ToFCameraPMDController and starts a thread that continuously grabs images from the controller. A buffer structure buffers the last acquired images to provide the image data loss-less
Cmitk::ToFCameraPMDCamBoardDevice	Device class representing a PMD CamBoard camera
Cmitk::ToFCameraPMDCamCubeDevice	Device class representing a PMD CamCube camera
Cmitk::ToFCameraPMDO3Device	Device class representing a PMD O3 camera
Cmitk::ToFCameraPMDPlayerDevice	Device class representing a player for PMD data
►Cmitk::ToFCameraPMDRawDataDevice	Interface for all representations of PMD ToF devices. ToFCameraPMDDevice internally holds an instance of ToFCameraPMDController and starts a thread that continuously grabs images from the controller. A buffer structure buffers the last acquired images to provide the image data loss-less
Cmitk::ToFCameraPMDRawDataCamBoardDevice	Device class representing a PMD CamBoard camera
Cmitk::ToFCameraPMDRawDataCamCubeDevice	Device class representing a PMD CamCube camera
►Cmitk::ToFCameraMESAController	Virtual interface and base class for all MESA Time-of-Flight devices. Wraps MESA API provided in library Provides methods for accessing current distance, amplitude, intensity and raw data. Allows to set parameters like modulation frequency and integration time
Cmitk::ToFCameraMESASR4000Controller	Interface to the Time-of-Flight (ToF) camera MESA Swissranger 4000
Cmitk::ToFCameraMITKPlayerController	Controller for playing ToF images saved in MITK (.pic) format
►Cmitk::ToFCameraPMDController	Virtual interface and base class for all PMD Time-of-Flight devices. Wraps PMD API provided in PMDSDK2 Provides methods for accessing current distance, amplitude, intensity and raw data. Allows to set parameters like modulation frequency and integration time
Cmitk::ToFCameraPMDCamBoardController	Interface to the Time-of-Flight (ToF) camera PMD CamBoard
Cmitk::ToFCameraPMDCamCubeController	Interface to the Time-of-Flight (ToF) camera PMD CamCube
Cmitk::ToFCameraPMDO3Controller	Interface to the Time-of-Flight (ToF) camera PMD O3 Connection is established over Ethernet connection. IP address must be specified
Cmitk::ToFCameraPMDPlayerController	Interface to read ToF data from a PMD file
Cmitk::ToFDeviceFactoryManager	ToFDeviceListener
Cmitk::ToFImageRecorder	Recorder class for ToF images
►Cmitk::ToFImageWriter	Writer class for ToF images
Cmitk::ToFImageCsvWriter	CSV writer class for ToF image data
Cmitk::ToFNrrdImageWriter	Writer class for ToF nrrd images
Cmitk::ToolManager	Manages and coordinates instances of mitk::Tool
►Cmitk::TrackingDevice	Interface for all Tracking Devices
Cmitk::ClaronTrackingDevice	An object of this class represents the MicronTracker device. You can add tools to this device, then open the connection and start tracking. The tracking device will then continuously update the tool coordinates
Cmitk::MicroBirdTrackingDevice	Superclass for specific MIRCOBIRD tracking Devices
Cmitk::NDITrackingDevice	Superclass for specific NDI tracking Devices that use serial communication
Cmitk::OpenIGTLinkTrackingDevice	An object of this class represents the MicronTracker device. You can add tools to this device, then open the connection and start tracking. The tracking device will then continuously update the tool coordinates
Cmitk::OptitrackTrackingDevice	An object of this class represents the Optitrack device. You can add tools to this device, then open the connection and start tracking. The tracking device will then continuously update the tool coordinates. Remember that it will be necessary to to have a license for using the Optitrack System. See http://www.naturalpoint.com/ for details
Cmitk::VirtualTrackingDevice	Class representing a tracking device which generates random positions / orientations. No hardware is needed for tracking device
Cmitk::TrackingDeviceSourceConfigurator	This class offers a factory method for objects of the class TrackingDeviceSource. It initializes this TrackingDeviceSource with the given navigation tools and the given tracking device. The factory method also checks if all tools are valid and of the same type like the TrackingDevice. You can do this check before trying to create the TrackingDeviceSource by calling the method IsCreateTrackingDeviceSourcePossible(), if it returns false you might want to get the error message by calling the method GetErrorMessage()
►Cmitk::TrackingTool	Interface for all Tracking Tools
►Cmitk::InternalTrackingTool	Implements TrackingTool interface
Cmitk::ClaronTool	An object of this class represents a MicronTracker 2 tool. A tool has to be added to a tracking device which will then continuously update the tool coordinates
Cmitk::MicroBirdTool	Implementation of a MicroBird tool
Cmitk::NDIPassiveTool	Implementation of a passive NDI optical tool
Cmitk::OpenIGTLinkTrackingTool	An object of this class represents a OpenIGTLink tracking tool. A tool has to be added to a tracking device which will then continuously update the tool coordinates
Cmitk::OptitrackTrackingTool	An object of this class represents the a Tool tracked by Optitrack System. You can define the tool by the a definition file like in the example in ****. Remember that it will be necessary to to have a license for using the Optitrack System. See http://www.naturalpoint.com/ for details
Cmitk::VirtualTrackingTool	Implements TrackingTool interface
Cmitk::TransferFunction	A wrapper class for VTK scalar opacity, gradient opacity, and color transfer functions.Holds a copy of each of the three standard VTK transfer functions (scalar opacity, gradient opacity, color) and provides an interface for manipulating their control points. Each original function can be retrieved by a Get() method
Cmitk::TransferFunctionInitializer	Wrapper class for VTK scalar opacity, gradient opacity, and color transfer functions
Cmitk::Transform	Class representing a transfrom in 3D
Cmitk::TransformFactory< TPixelType, VImageDimension >	This class creates a transform for a rigid registration process
Cmitk::TransformParameters	This class is used to hold all transform parameters needed for a rigid registration process
Cmitk::UndistortCameraImage
►Cmitk::UndoModel	Superclass for all UndoModels
►Cmitk::LimitedLinearUndo	A linear undo model with one undo and one redo stack
Cmitk::VerboseLimitedLinearUndo	A limited linear undo model providing GUI elements with stack status information
►Cmitk::USAbstractControlInterface	Superclass for all ultrasound device control interfaces. Defines an interface for activating and deactivating a control interface
►Cmitk::USControlInterfaceBMode	Interface defining methods for scanning mode b of ultrasound devices. It consists of methods for scanning depth, scanning gaing and scanning rejection
Cmitk::USTelemedBModeControls	Implementation of mitk::USControlInterfaceBMode for Telemed ultrasound devices. See documentation of mitk::USControlInterfaceBMode for a description of the interface methods
►Cmitk::USControlInterfaceDoppler	Interface defining methods for scanning mode doppler of ultrasound devices. There are no methods defined, yet! At the moment, this is just an empty interface
Cmitk::USTelemedDopplerControls	Implementation of mitk::USControlInterfaceDoppler for Telemed ultrasound devices. See documentation of mitk::USControlInterfaceBMode for a description of the interface methods
►Cmitk::USControlInterfaceProbes	Interface defining methods for probe selection of ultrasound devices. It consists of methods for getting all available probes and selecting one of them
Cmitk::USTelemedProbesControls	Implementation of mitk::USControlInterfaceProbes for Telemed ultrasound devices. See documentation of mitk::USControlInterfaceProbes for a description of the interface methods
Cmitk::USVideoDeviceCustomControls	Custom controls for mitk::USVideoDevice. Controls image cropping of the corresponding mitk::USImageVideoSource
Cmitk::USDevicePersistence
Cmitk::USImageMetadata	This class encapsulates all necessary metadata to describe a US Image
►Cmitk::USImageSource	This is an abstract superclass for delivering USImages. Each subclass must implement the method mitk::USImageSource::GetNextRawImage(). The public method mitk::USImageSource::GetNextImage() can the be used to get the next image from the image source. This image will be filtered by the filter set with mitk::USImageSource::SetImageFilter()
Cmitk::IGTLMessageToUSImageFilter
Cmitk::USImageVideoSource	This class can be pointed to a video file or a videodevice and delivers USImages
Cmitk::USTelemedImageSource	Implementation of mitk::USImageSource for Telemed API devices. The method mitk::USImageSource::GetNextRawImage() is implemented for getting images from the Telemed API
►Cmitk::USProbe	Right now, the US Probe is only a fancy name for a string. Later, it could handle probe specific parameters like the current frequency etc. It is able to compare itself to other probes for device managment though
Cmitk::USTelemedProbe	Specialized mitk::USProbe for handling Telemed API probe objects. It encapsulates a probe object from the Telemed API
►Cmitk::VideoSource
Cmitk::OpenCVVideoSource
Cmitk::VolumeCalculator	Calculates the volume of a mitk::Image. The given volume is in milliliters or as a voxel count. Voxels are counted if their gray value is above a threshold (see SetThreshold), the default threshold is 0
Cmitk::VtkShaderRepository::Shader::Uniform
Cmitk::WeightedPointTransform	This class implements an extension of the weighted point based registration algorithm from A. Danilchenko, R. Balachandran and J. M. Fitzpatrick
►CQmitkToolGUI	Base class for GUIs belonging to mitk::Tool classes
CQmitkAdaptiveRegionGrowingToolGUI	QmitkAdaptiveRegionGrowingToolGUI
CQmitkBinaryThresholdToolGUI	GUI for mitk::BinaryThresholdTool
CQmitkBinaryThresholdULToolGUI	GUI for mitk::BinaryThresholdTool
CQmitkCalculateGrayValueStatisticsToolGUI	GUI for mitk::CalculateGrayValueStatisticsTool
CQmitkFastMarchingTool3DGUI	GUI for mitk::FastMarchingTool
CQmitkFastMarchingToolGUI	GUI for mitk::FastMarchingTool
CQmitkLiveWireTool2DGUI	GUI for mitk::LiveWireTool
CQmitkOtsuTool3DGUI	GUI for mitk::
►CQmitkPaintbrushToolGUI	GUI for mitk::PaintbrushTool
CQmitkDrawPaintbrushToolGUI	GUI for mitk::PaintbrushTool
CQmitkErasePaintbrushToolGUI	GUI for mitk::PaintbrushTool
CQmitkPickingToolGUI	GUI for mitk::LiveWireTool
CQmitkPixelManipulationToolGUI
CQmitkWatershedToolGUI	GUI for mitk::WatershedTool
►CObjectFactoryBase
Cmitk::ImageWriterFactory
Cmitk::ItkImageFileIOFactory	Create instances of ItkImageFileReader objects using an object factory
Cmitk::LookupTablePropertySerializerFactory
Cmitk::NrrdTbssImageIOFactory	Create instances of NrrdDiffusionImageReader objects using an object factory
Cmitk::NrrdTbssImageWriterFactory
Cmitk::NrrdTbssRoiImageIOFactory	Create instances of NrrdDiffusionImageReader objects using an object factory
Cmitk::NrrdTbssRoiImageWriterFactory
Cmitk::PlanarFigureIOFactory	Create instances of PlanarFigureReader objects using an object factory
Cmitk::PlanarFigureWriterFactory
Cmitk::PointSetIOFactory	Create instances of PointSetReader objects using an object factory
Cmitk::PointSetWriterFactory
Cmitk::STLFileIOFactory	Create instances of STLFileReader objects using an object factory
Cmitk::SurfaceVtkWriterFactory
Cmitk::VtiFileIOFactory	Create instances of VtiFileReader objects using an object factory
Cmitk::VtkImageIOFactory	Create instances of VtkImageReader objects using an object factory
Cmitk::VtkSurfaceIOFactory	Create instances of VtkSurfaceReader objects using an object factory
►COutputWindow
Cmitk::ItkLoggingAdapter	Adapter that overwrites the standard itk logging output window and sends the logging messages to the MITK
►CPoint
Cmitk::Point< TCoordRep, NPointDimension >
Cmitk::Point< int, 2 >
Cmitk::Point< ScalarType, 2 >
Cmitk::Point< ScalarType, 3 >
Citk::PointShell< NPoints, TMatrixType >
►CProcessObject
Citk::DwiGradientLengthCorrectionFilter
Citk::FiberCurvatureFilter	Generates artificial fibers distributed in and interpolated between the input planar figures
Citk::FibersFromPlanarFiguresFilter	Generates artificial fibers distributed in and interpolated between the input planar figures
Citk::GibbsTrackingFilter< ItkQBallImageType >	Performes global fiber tractography on the input Q-Ball or tensor image (Gibbs tracking, Reisert 2010)
Citk::MrtrixPeakImageConverter< PixelType >
Citk::OdfMaximaExtractionFilter< TOdfPixelType >
Citk::ShCoefficientImageExporter< PixelType, ShOrder >
Citk::ShCoefficientImageImporter< PixelType, ShOrder >
Citk::Statistics::EnhancedHistogramToTextureFeaturesFilter< THistogram >	This class computes texture feature coefficients from a grey level co-occurrence matrix
Citk::Statistics::EnhancedScalarImageToRunLengthFeaturesFilter< TImageType, THistogramFrequencyContainer >	This class computes run length descriptions from an image
Citk::Statistics::EnhancedScalarImageToRunLengthMatrixFilter< TImageType, THistogramFrequencyContainer >	This class computes a run length matrix (histogram) from a given image and a mask image if provided. Run length matrces are used for image texture description
Citk::Statistics::EnhancedScalarImageToTextureFeaturesFilter< TImageType, THistogramFrequencyContainer >	This class computes texture descriptions from an image
►Cmitk::BaseDataSource	Superclass of all classes generating some kind of mitk::BaseData
Cmitk::ContourModelSetSource	Superclass of all classes generating ContourModels
►Cmitk::ContourModelSource	Superclass of all classes generating ContourModels
Cmitk::ContourModelSubDivisionFilter	This filter interpolates a subdivision curve between control points of the contour. For inserting subpoints Dyn-Levin-Gregory (DLG) interpolation scheme is used. Interpolating a cruve subdivision is done by: F2i = Ci F2i+1 = -1/16Ci-1 + 9/16Ci + 9/16Ci+1 - 1/16Ci+2
Cmitk::ImageLiveWireContourModelFilter	Calculates a LiveWire contour between two points in an image
Cmitk::ImageToContourModelFilter	Base class for all filters with mitk::Image as input and mitk::ContourModel
Cmitk::ImageToLiveWireContourFilter
►Cmitk::GeometryDataSource	Superclass of all classes generating GeometryData (instances of class GeometryData) as output
Cmitk::PlaneFit
Cmitk::GroupDiffusionHeadersFilter	Groups Headers containing Diffusion Information
►Cmitk::ImageSource	Superclass of all classes generating Images (instances of class Image) as output
Cmitk::ContourModelSetToImageFilter	Fills a given mitk::ContourModelSet into a given mitk::Image
Cmitk::CreateDistanceImageFromSurfaceFilter	This filter interpolates the 3D surface for a segmented area. The basis for the interpolation are the edge-points of contours that are drawn into an image
Cmitk::DiffusionImageCorrectionFilter
►Cmitk::ImageToImageFilter	Superclass of all classes having one or more Images as input and generating Images as output
Cmitk::BilateralFilter
►Cmitk::BoundingObjectCutter	Cuts an Boundingobject out of an mitk Image
Cmitk::BoundingObjectCutAndCast< TPixel >	Cuts an Boundingobject out of an mitk Image
Cmitk::BoundingObjectToSegmentationFilter
Cmitk::BoundingShapeCropper	Crops or masks an Boundingbox defined by GeometryData out of an mitk Image
Cmitk::CompareImageDataFilter	Filter for comparing two mitk::Image objects by pixel values
Cmitk::Convert2Dto3DImageFilter	Image Filter to convert 2D MITK images to 3D MITK images
Cmitk::CorrectorAlgorithm
Cmitk::DiffusionImageCreationFilter	Creates a diffusion-weighted image out of a given 3D+t regular image and sufficient additional information about gradient directions and b values
Cmitk::DiffusionImageTransformedCreationFilter< TTransformType >	DiffusionImageTransformedCreationFilter extends its superclass ( DiffusionImageCreationFilter ) by providing the possibility to specify a list of transforms to be applied to the separate volumes before
Cmitk::DWIHeadMotionCorrectionFilter	Performs standard head-motion correction by using affine registration of the gradient images
Cmitk::ExtractDirectedPlaneImageFilter	Extracts a 2D slice of arbitrary geometry from a 3D or 4D image
Cmitk::ExtractDirectedPlaneImageFilterNew	A filter that can extract a 2D slice from a 3D or 4D image especially if the image`s axes are rotated
Cmitk::ExtractImageFilter	Extracts a 2D slice from a 3D image
Cmitk::ExtractSliceFilter	ExtractSliceFilter extracts a 2D abitrary oriented slice from a 3D volume
Cmitk::GeometryClipImageFilter	Filter for clipping an image with a PlaneGeometry
Cmitk::HeightFieldSurfaceClipImageFilter	Filter for clipping an image with an height-field represented by an mitk::Surface
Cmitk::ImageRegistrationMethod	Main class for the rigid registration pipeline
Cmitk::LabelSetImageSurfaceStampFilter
Cmitk::MaskAndCutRoiImageFilter	Cuts a region of interest (ROI) out of an image
Cmitk::MaskImageFilter
Cmitk::MRNormLinearStatisticBasedFilter
Cmitk::MRNormTwoRegionsBasedFilter
Cmitk::MultiComponentImageDataComparisonFilter	Filter for comparing two multi channel mitk::Image objects by channel wise by pixel values
Cmitk::OtsuSegmentationFilter	A filter that performs a multiple threshold otsu image segmentation
Cmitk::OverwriteDirectedPlaneImageFilter	Writes a 2D slice into a 3D image
Cmitk::OverwriteSliceImageFilter	Writes a 2D slice into a 3D image
Cmitk::PadImageFilter	PadImageFilter class pads the first input image to the size of the second input image. Two Images have to be set. The first image is the image to pad. The second image defines the pad size. It is also possible to use an included binary filter
Cmitk::PyramidalRegistrationMethod	Main class for the rigid registration pipeline
►Cmitk::RegistrationBase	This class handles the images for the registration as well as taking care of the progress bar during the registration process. It is the base class for the registration classes
Cmitk::BSplineRegistration	This class performes a b-spline registration between two images
Cmitk::DemonsRegistration	This class performes a demons registration between two images with the same modality.
Cmitk::HistogramMatching	This class performes a histogram matching between the fixed image and moving image to improve the registration results
Cmitk::SymmetricForcesDemonsRegistration	This class performes a symmetric forces demons registration between two images with the same modality
Cmitk::RGBToRGBACastImageFilter
►Cmitk::SubImageSelector	Base class of all classes providing access to parts of an image
Cmitk::AutoCropImageFilter	Shrink the image borders to a minimum considering a background color
Cmitk::ImageChannelSelector	Provides access to a channel of the input image
Cmitk::ImageSliceSelector	Provides access to a slice of the input image
Cmitk::ImageTimeSelector	Provides access to a volume at a specific time of the input image
Cmitk::SurfaceStampImageFilter	Converts surface data to pixel data. Requires a surface and an image, which header information defines the output image
Cmitk::ToFCompositeFilter	Applies a common filter-pipeline to the first input of this filter
Cmitk::ToFImageDownsamplingFilter	Reduces the resolution of a ToF distance image. Although it is meant to be used for ToF distance images, it should work for any 2D or 3D images. The dimensions (in pixels) of the desired image are taken as input parameters, and an image with these specified dimensions is created
Cmitk::ToFImageRecorderFilter	Filter that allows recording of processed ToF images Internally the ToFImageWriter is used for writing
Cmitk::USImageLoggingFilter
Cmitk::ItkImageFileReader	Reader to read file formats supported by itk
Cmitk::ITKImageImport< TInputImage >	Pipelined import of itk::Image
Cmitk::LabelSetImageSource	Superclass of all classes generating labelset images (instances of class LabelSetImage) as output
Cmitk::OpenCVToMitkImageFilter	Filter for creating MITK RGB Images from an OpenCV image
Cmitk::QBallImageSource
Cmitk::QBallImageSource
Cmitk::RawImageFileReader	Reader to read raw image files
Cmitk::SurfaceToImageFilter	Converts surface data to pixel data. Requires a surface and an image, which header information defines the output image
►Cmitk::TbssImageSource	Superclass of all classes generating diffusion volumes (instances of class DiffusionImage) as output
Cmitk::NrrdTbssImageReader
►Cmitk::TbssRoiImageSource	Superclass of all classes generating diffusion volumes (instances of class DiffusionImage) as output
Cmitk::NrrdTbssRoiImageReader
Cmitk::TensorImageSource
►Cmitk::ToFImageSource	Image source providing ToF images. Interface for filters provided in ToFProcessing module
Cmitk::ToFImageGrabber	Image source providing ToF images. Interface for filters provided in ToFProcessing module
►Cmitk::USDevice	A device holds information about it's model, make and the connected probes. It is the common super class for all devices and acts as an image source for mitkUSImages. It is the base class for all US Devices, and every new device should extend it
Cmitk::USCombinedModality	Combination of USDevice and NavigationDataSource. This class can be used as any USDevice subclass. Additionally tracking data be retrieved from the NavigationDataSource returned by GetTrackingDevice()
Cmitk::USIGTLDevice	A mitk::USIGTLDevice is a USDevice to receive images over an OpenIGTLink connection. It registers an OIGTL device as a Microservice to receive image messages and transforms them to mitk::Images. It can act both as a server (listening for incoming connections) and as a client (connecting to an existing OIGTL server)
Cmitk::USTelemedDevice	Implementation of mitk::USDevice for Telemed API devices. Connects to a Telemed API device through its COM library interface
Cmitk::USVideoDevice	A mitk::USVideoDevice is the common class for video only devices. They capture video input either from a file or from a device and transform the output into an mitk::USImage with attached metadata. This simple implementation does only capture and display 2d images without registration for example
Cmitk::VtiFileReader	Reader to read image files in vtk file format
Cmitk::VtkImageReader	Reader to read image files in vtk file format
►Cmitk::PlanarFigureSource	Base class for all filters which have an object of type mitk::PlanarFigure as output
Cmitk::ImageToPlanarFigureFilter	Superclass of all classes having one or more Images as input and generating PlanarFigures as output
Cmitk::PlanarFigureReader	Reads xml representations of mitk::PlanarFigure from a file
Cmitk::PlanarFigureToPlanarFigureFilter	Base class for all filters which have an object of type mitk::PlanarFigure as input and output
►Cmitk::PointSetSource	Superclass of all classes generating point sets (instances of class mitk::PointSet) as output
Cmitk::ContourModelToPointSetFilter	Converts a contour set to a point set
Cmitk::ContourSetToPointSetFilter	Converts a contour set to a point set
Cmitk::NavigationDataToPointSetFilter	This filter creates mitk::PointSet objects from mitk::NavigaitionData objects
Cmitk::PointSetReader	Reads xml representations of mitk::PointSets from a file
Cmitk::PointSetToPointSetFilter	Superclass of all classes/algorithms having one or more PointSets as input and output
Cmitk::SurfaceToPointSetFilter	This filter converts the input surface into a point set. The output point set contains every point exactly one time (no dublicated points like in the stl-format)
Cmitk::ToFDistanceImageToPointSetFilter	Converts a Time-of-Flight (ToF) distance image to a PointSet using the pinhole camera model for coordinate computation. The intrinsic parameters of the camera (FocalLength, PrincipalPoint, InterPixelDistance) are set via SetIntrinsicParameters(). The measured distance for each pixel corresponds to the distance between the object point and the corresponding image point on the image plane. If a subset of indizes of the image is defined via SetSubset(), the output PointSet will only contain the cartesian coordinates of the corresponding 3D points
►Cmitk::SurfaceSource	Superclass of all classes generating surfaces (instances of class Surface) as output
Cmitk::ContourModelToSurfaceFilter
►Cmitk::ImageToSurfaceFilter	Converts pixel data to surface data by using a threshold The mitkImageToSurfaceFilter is used to create a new surface out of an mitk image. The filter uses a threshold to define the surface. It is based on the vtkMarchingCube algorithm. By default a vtkPolyData surface based on an input threshold for the input image will be created. Optional it is possible to reduce the number of triangles/polygones [SetDecimate(mitk::ImageToSurfaceFilter::DecimatePro) and SetTargetReduction (float _arg)] or smooth the surface-data [SetSmooth(true), SetSmoothIteration(int smoothIteration) and SetSmoothRelaxation(float smoothRelaxation)]
Cmitk::ImageToContourFilter	A filter that can extract contours out of a 2D binary image
Cmitk::LabeledImageToSurfaceFilter
Cmitk::ManualSegmentationToSurfaceFilter	Supplies a 3D surface from pre-processed segmentation
Cmitk::LabelSetImageToSurfaceFilter
Cmitk::PlaneGeometryDataToSurfaceFilter	Superclass of all classes having a PlaneGeometryData as input and generating Images as output
Cmitk::STLFileReader	Reader to read files in stl-format
►Cmitk::SurfaceToSurfaceFilter	Superclass of all classes getting surfaces (instances of class Surface) as input and generating surfaces as output
Cmitk::ACVD::RemeshFilter	Encapsulates mitk::ACVD::Remesh function as filter
Cmitk::ComputeContourSetNormalsFilter	Filter to compute the normales for contours based on vtkPolygons
Cmitk::ReduceContourSetFilter	A filter that reduces the number of points of contours represented by a mitk::Surface
Cmitk::ToFDistanceImageToSurfaceFilter	Converts a Time-of-Flight (ToF) distance image to a 3D surface using the pinhole camera model for coordinate computation. The intrinsic parameters of the camera (FocalLength, PrincipalPoint, InterPixelDistance) are set via SetCameraIntrinsics(). The measured distance for each pixel corresponds to the distance between the object point and the corresponding image point on the image plane
Cmitk::TrackingVolumeGenerator	An instance of this class represents a generator wich generates the tracking volume of a given tracking device as a mitk:Surface
Cmitk::VtkSurfaceReader	Reader to read surface files in vtk-format
►Cmitk::UnstructuredGridSource	Superclass of all classes generating unstructured grids (instances of class UnstructuredGrid) as output
►Cmitk::ImageToUnstructuredGridFilter	Converts an Image into an UnstructuredGrid represented by Points. The filter uses a Threshold to extract every pixel, with value higher than the threshold, as point. If no threshold is set, every pixel is extracted as a point
Cmitk::FeatureBasedEdgeDetectionFilter	Calculates edges and extracts them as an UnstructuredGrid with respect to the given segmentation
Cmitk::ImageToPointCloudFilter	The filter extracts the edge pixels of an image as points and stores them in an UnstructuredGrid. Every pixel which grey value is between the mean +- standard deviation * (2 or 3), will be extracted as point. The DetectionMethod can be set to choose if the doubled or tripled standard deviation is used
►Cmitk::UnstructuredGridToUnstructuredGridFilter
Cmitk::PointCloudScoringFilter	Scores an UnstructuredGrid as good as one matches to the other
Cmitk::UnstructuredGridClusteringFilter	This filter uses the DBSCAN algorithm for clustering an mitk::UnstructuredGrid. "MinPts" defines the number of neighbours which are required to be a kernel point if a point is in range of a kernel point but hasnt enough neighbours this point is added to the cluster but is a density reachable point and the cluster ends at this point. "eps" is the range in which the neighbours are searched. If "Meshing" is set the clusteres UnstructuredGrid is meshed and visible in 2D renderwindows
►Cmitk::DataNodeSource	Superclass of all classes generating data tree nodes (instances of class mitk::DataNode) as output
Cmitk::DataNodeFactory	Factory, which creates instances of mitk::DataNodes filled with data read from a given file
Cmitk::ExtrudePlanarFigureFilter
►Cmitk::FileWriter	Interface class of writers that write data to files
►Cmitk::FileWriterWithInformation	Interface for FileWriters with extra information. Should be merged into FileWriter
Cmitk::ImageWriter	Writer for mitk::Image
Cmitk::NrrdTbssImageWriter
Cmitk::NrrdTbssRoiImageWriter
Cmitk::PlanarFigureWriter	XML-based writer for mitk::PlanarFigures
Cmitk::SurfaceVtkWriter< VTKWRITER >	VTK-based writer for mitk::Surface
Cmitk::PointSetWriter	XML-based writer for mitk::PointSets
►Cmitk::IGTLMessageSource	OpenIGTLink message source
►Cmitk::IGTLDeviceSource	Connects a mitk::IGTLDevice to a MITK-OpenIGTLink-Message-Filter-Pipeline
Cmitk::IGTL2DImageDeviceSource	Connects a mitk::IGTLDevice to a MITK-OpenIGTLink-Message-Filter-Pipeline
Cmitk::IGTL3DImageDeviceSource	Connects a mitk::IGTLDevice to a MITK-OpenIGTLink-Message-Filter-Pipeline
Cmitk::IGTLMessageProvider	Provides information/objects from a MITK-Pipeline to other OpenIGTLink devices
Cmitk::IGTLTransformDeviceSource	Connects a mitk::IGTLDevice to a MITK-OpenIGTLink-Message-Filter-Pipeline
Cmitk::ImageToIGTLMessageFilter	This filter creates IGTL messages from mitk::Image objects
Cmitk::NavigationDataToIGTLMessageFilter	This filter creates IGTL messages from mitk::NavigaitionData objects
Cmitk::LookupTableSource	Base class for all objects which have an object of type mitkLookupTable as output
Cmitk::NavigationDataRecorderDeprecated	This class records NavigationData objects
►Cmitk::NavigationDataSource	Navigation Data source
Cmitk::IGTLMessageToNavigationDataFilter	IGTLinkMessageToNavigationDataFilter is a filter that receives OpenIGTLink messages as input and produce NavigationDatas as output
►Cmitk::NavigationDataPlayerBase	Base class for using mitk::NavigationData as a filter source. Subclasses can play objects of mitk::NavigationDataSet
Cmitk::NavigationDataPlayer	This class is used to play recorded (see mitkNavigationDataRecorder class) NavigationDataSets
Cmitk::NavigationDataSequentialPlayer	This class is a slightly changed reimplementation of the NavigationDataPlayer which does not care about timestamps and just outputs the navigationdatas in their sequential order
►Cmitk::NavigationDataToNavigationDataFilter	NavigationDataToNavigationDataFilter is the base class of all filters that receive NavigationDatas as input and produce NavigationDatas as output
Cmitk::CameraVisualization	CameraVisualization controls the camera according to the spatial information of the navigation data
Cmitk::NavigationDataDelayFilter	NavigationDataDelayFilter
Cmitk::NavigationDataDisplacementFilter	NavigationDataDisplacementFilter adds an offset to navigation data objects
Cmitk::NavigationDataEvaluationFilter	NavigationDataEvaluationFilter calculates statistical data (mean value, mean error, etc.) on the input navigation data. Input navigation data are set 1:1 on output navigation data
Cmitk::NavigationDataHandEyeCalibrationFilter	IGT filter applying a Hand-Eye transformation to a given BaseData according to the current NavigationDataTransformation. The resulting BaseData is then given in tracking coordinates
►Cmitk::NavigationDataLandmarkTransformFilter	NavigationDataLandmarkTransformFilter applies a itk-landmark-transformation defined by source and target pointsets
Cmitk::NavigationDataReferenceTransformFilter	NavigationDataReferenceTransformFilter applies a itk-landmark-transformation defined by source and target NavigationDatas
Cmitk::NavigationDataObjectVisualizationFilter	Class that reads NavigationData from input and transfers the information to the geometry of the associated BaseData
►Cmitk::NavigationDataPassThroughFilter	Basis for filters that want to leave the navigation data untouched
Cmitk::NeedleProjectionFilter	This filter projects a needle's path onto a plane
Cmitk::NodeDisplacementFilter	This filter moves DataNodes relatively to tracking Data from a 6-DoF Sensor
Cmitk::NavigationDataRecorder	This class records NavigationData objects into NavigationDataSets
Cmitk::NavigationDataSliceVisualization	Control the position and orientation of rendered slices with NavigationData
Cmitk::NavigationDataSmoothingFilter	This filter smoothes the navigation data by calculating the mean value of the last few input values and using this as output
Cmitk::NavigationDataToMessageFilter	NavigationDataToMessageFilter emits multiple mitk::Message messages when the input NavigationData values change
Cmitk::NavigationDataTransformFilter	NavigationDataTransformFilter applies an user-defined rigid transformation on navigation data objects. Input navigation data are mapped 1:1 on output navigation data. To run the filter SetRigid3DTransform(TransformType::Pointer transform) has to be called first
Cmitk::NavigationDataVisualizationFilter	NavigationDataVisualizationFilter represents the superclass of all IGT Filters that visualize NavigationData
Cmitk::TrackingDeviceSource	Connects a mitk::TrackingDevice to a MITK-IGT NavigationData-Filterpipeline
Cmitk::ThreadedToFRawDataReconstruction
Citk::ShortestPathImageFilter< TInputImageType, TOutputImageType >::CompareNodeStar
Citk::ShortestPathNode
Citk::SmartPointer< T >
Citk::SquaredEuclideanMetric< TPixelType >
Citk::StochasticTractographyFilter< TInputDWIImage, TInputWhiteMatterProbabilityImage, TOutputConnectivityImage >::StochasticTractGenerationCallbackStruct
Citk::ThreeLayerPointShell< NpointsShell1, NpointsShell2, NpointsShell3, TMatrixTypeshell1, TMatrixTypeshell2, TMatrixTypeshell3 >
►CTransform
Citk::VtkAbstractTransform< TScalarType >	Adapter from vtkAbstractTransform to itk::Transform<TScalarType, 3, 3>
Citk::VtkAbstractTransform< ScalarType >
Citk::TransformIOFactoryRegisterManager
Citk::VariableLengthVector< TValueType >
►CVector
Cmitk::Vector< TCoordRep, NVectorDimension >
Cmitk::Vector< ScalarType, 2 >
Cmitk::Vector< ScalarType, 3 >
CitkIntelligentBinaryClosingFilter
►CIUsgfwScanConverterPluginCB
CUSTelemedScanConverterPlugin	Telemed API plugin for getting images from scan lines. Implements a COM interface whereat only the function InterimOutBufferCB is used for copying given image buffer into a mitk::Image
CJson::Features	Configuration passed to reader and writer. This configuration object can be used to force the Reader or Writer to behave in a standard conforming way
CJson::Path	Experimental and untested: represents a "path" to access a node
CJson::PathArgument	Experimental and untested: represents an element of the "path" to access a node
CJson::Reader	Unserialize a JSON document into a Value
CJson::StaticString	Lightweight wrapper to tag static string
CJson::StyledStreamWriter	Writes a Value in JSON format in a human friendly way, to a stream rather than to a string
CJson::Value	Represents a JSON value
►CJson::ValueIteratorBase	Base class for Value iterators
CJson::ValueConstIterator	Const iterator for object and array value
CJson::ValueIterator	Iterator for object and array value
►CJson::Writer	Abstract class for writers
CJson::FastWriter	Outputs a Value in JSON format without formatting (not human friendly)
CJson::StyledWriter	Writes a Value in JSON format in a human friendly way
CKurtosis_fit_lsq_function	A base least-squares function for the diffusion kurtosis fit (non-IVIM)
►CLabelStatisticsImageFilter
Citk::ExtendedLabelStatisticsImageFilter< TInputImage, TLabelImage >	Extension of the itkLabelStatisticsImageFilter that also calculates the Skewness,Kurtosis,Entropy,Uniformity
Citk::ExtendedLabelStatisticsImageFilter< TInputImage, TLabelImage >	Extension of the itkLabelStatisticsImageFilter that also calculates the Skewness,Kurtosis,Entropy,Uniformity
Cmitk::Line< double, 2 >
Cmitk::Line< double, 3 >
Cmap::algorithm::MITK_FastSymmetricForcesDemons_MultiRes_defaultUIDPolicy
Cmap::algorithm::MITK_LevelSetMotion_MultiRes_defaultUIDPolicy
Cmap::algorithm::MITK_MultiModal_affine_defaultUIDPolicy
Cmap::algorithm::MITK_MultiModal_rigid_defaultUIDPolicy
Cmap::algorithm::MITK_MultiModal_translation_defaultUIDPolicy
Cmap::algorithm::MITK_Rigid_closedform_points_defaultUIDPolicy
Cmap::algorithm::MITK_Rigid_ICP_defaultUIDPolicy
CMaskImageFilter	Mask an image with a mask
CMatchPointBrowserConstants	Structure to define a namespace for constants used privately within this view
►Cmbilog::BackendBase	This class is an interface for logging backends that can be registered in the mbi logging mechanism
►Cmbilog::TextBackendBase	This class is an abstract superclass for logging text backends. It adds string formatting methods to the backend interface BackendBase. Accordingly backends that inherit from this class can be registered in the mbi logging mechanism
Cmbilog::BackendCout	Default backend of the mbi logging mechanism. This backend is used if no other backend is registered. The backend formats the logging messages to a normal string and writes them to std::cout
Cmitk::LoggingBackend	Mbilog backend implementation for mitk
Cmbilog::LogMessage	An object of this class represents a single logging message (logging event) of the mbi logging mechanism. Logging message should only be generated by the macros in the class mbilog.h
Cmbilog::NullStream	An object of this class simulates a std::cout stream but does nothing. This class is for dummy objects, bit shift operators are availiable but doing nothing. Should only be used by the macros defined in the file mbilog.h
Cmbilog::PseudoStream	An object of this class simulates a std::cout stream. This means messages can be added by using the bit shift operator (<<). Should only be used by the macros defined in the file mbilog.h
CMeshScalarAccessor< MeshType >
CMeshUtil< MeshType, ScalarAccessor >	The class provides mehtods for ITK - VTK mesh conversion
Cberry::Message1< const berry::IBerryPreferences * >
Cberry::Message1< const berry::IBerryPreferences::ChangeEvent & >
Cberry::Message1< const berry::SelectionChangedEvent::Pointer & >
Cberry::Message1< const IJobChangeEvent::ConstPointer & >
Cberry::Message1< const IWorkbenchPartReference::Pointer & >
Cberry::Message1< const IWorkbenchWindow::Pointer & >
Cberry::Message1< const Object * >
Cberry::Message1< const PropertyChangeEvent::Pointer & >
Cberry::Message1< const QList< berry::SmartPointer< berry::IExtension > > & >
Cberry::Message1< const QList< berry::SmartPointer< berry::IExtensionPoint > > & >
Cberry::Message1< const ShellEvent::Pointer & >
Cberry::Message1< const SmartPointer< const CommandCategoryEvent > & >
Cberry::Message1< const SmartPointer< const CommandEvent > & >
Cberry::Message1< const SmartPointer< const CommandManagerEvent > & >
Cberry::Message1< const SmartPointer< const ParameterTypeEvent > & >
Cberry::Message1< const SmartPointer< HandlerEvent > & >
Cberry::Message1< IWorkbench * >
Cberry::Message1< QDragEnterEvent * >
Cberry::Message1< QDragLeaveEvent * >
Cberry::Message1< QDragMoveEvent * >
Cberry::Message1< QDropEvent * >
Cberry::Message2< const berry::IWorkbenchPart::Pointer &, const berry::ISelection::ConstPointer & >
Cberry::Message2< const berry::SmartPointer< berry::IWorkbenchPage > &, const berry::IPerspectiveDescriptor::Pointer & >
Cberry::Message2< const QString &, const berry::Object::Pointer & >
Cberry::Message2< const QString &, const berry::SmartPointer< const berry::ExecutionEvent > & >
Cberry::Message2< const QString &, const ExecutionException * >
Cberry::Message2< const QString &, const NotDefinedException * >
Cberry::Message2< const QString &, const NotEnabledException * >
Cberry::Message2< const QString &, const NotHandledException * >
Cberry::Message2< const SmartPointer< State > &, const SmartPointer< Object > & >
Cberry::Message2< int, const QHash< QString, berry::Object::ConstPointer > & >
Cberry::Message2< IWorkbench *, bool, bool >
Cberry::Message2< IWorkbenchPart::Pointer, ISelection::ConstPointer >
Cberry::Message2< unsigned int, const Object * >
Cberry::Message3< const berry::SmartPointer< berry::IWorkbenchPage > &, const berry::IPerspectiveDescriptor::Pointer &, const berry::IPerspectiveDescriptor::Pointer & >
Cberry::Message3< const berry::SmartPointer< berry::IWorkbenchPage > &, const berry::IPerspectiveDescriptor::Pointer &, const QString & >
Cberry::Message3< int, const QString &, berry::Object::ConstPointer >
Cberry::Message3< unsigned int, bool, const Object * >
Cberry::Message4< const berry::SmartPointer< berry::IWorkbenchPage > &, const berry::IPerspectiveDescriptor::Pointer &, const berry::SmartPointer< berry::IWorkbenchPartReference > &, const QString & >
Cmitk::MessageAbstractDelegate1< bool, void >
Cmitk::MessageAbstractDelegate1< const mitk::DataNode *, void >
Cmitk::MessageAbstractDelegate1< const Package &, void >
Cmitk::MessageAbstractDelegate1< const std::string &, void >
Cmitk::MessageAbstractDelegate1< DataVectorType *, void >
Cmitk::MessageAbstractDelegate1< double, void >
Cmitk::MessageAbstractDelegate1< float, void >
Cmitk::MessageAbstractDelegate1< int, void >
Cmitk::MessageAbstractDelegate1< PixelType, void >
Cmitk::MessageAbstractDelegate1< std::string, void >
Cmitk::MessageAbstractDelegate2< const mitk::mitk::DataNode *, const mitk::mitk::BaseProperty *, void >
Cmitk::MessageAbstractDelegate2< int, float, void >
Cmitk::MessageAbstractDelegate2< mitk::ScalarType, mitk::ScalarType, void >
Cmitk::MessageAbstractDelegate3< double, double, bool, void >
Cmitk::MessageAbstractDelegate4< T, U, V, W >
►Cmitk::MessageBase< MessageAbstractDelegate1< bool, void > >
Cmitk::Message1< bool >
►Cmitk::MessageBase< MessageAbstractDelegate1< const itk::Object *, void > >
Cmitk::Message1< const itk::Object * >
►Cmitk::MessageBase< MessageAbstractDelegate1< const mitk::DataNode *, void > >
Cmitk::Message1< const mitk::DataNode * >
►Cmitk::MessageBase< MessageAbstractDelegate1< const Package &, void > >
Cmitk::Message1< const Package & >
►Cmitk::MessageBase< MessageAbstractDelegate1< const std::string &, void > >
Cmitk::Message1< const std::string & >
►Cmitk::MessageBase< MessageAbstractDelegate1< DataVectorType *, void > >
Cmitk::Message1< DataVectorType * >
►Cmitk::MessageBase< MessageAbstractDelegate1< double, void > >
Cmitk::Message1< double >
►Cmitk::MessageBase< MessageAbstractDelegate1< float, void > >
Cmitk::Message1< float >
►Cmitk::MessageBase< MessageAbstractDelegate1< int, void > >
Cmitk::Message1< int >
►Cmitk::MessageBase< MessageAbstractDelegate1< PixelType, void > >
Cmitk::Message1< PixelType >
►Cmitk::MessageBase< MessageAbstractDelegate1< std::string, void > >
Cmitk::Message1< std::string >
►Cmitk::MessageBase< MessageAbstractDelegate1< T, A > >
Cmitk::Message1< T, A >
►Cmitk::MessageBase< MessageAbstractDelegate2< const mitk::mitk::DataNode *, const mitk::mitk::BaseProperty *, void > >
Cmitk::Message2< const mitk::mitk::DataNode *, const mitk::mitk::BaseProperty * >
►Cmitk::MessageBase< MessageAbstractDelegate2< int, float, void > >
Cmitk::Message2< int, float >
►Cmitk::MessageBase< MessageAbstractDelegate2< mitk::ScalarType, mitk::ScalarType, void > >
Cmitk::Message2< mitk::ScalarType, mitk::ScalarType >
►Cmitk::MessageBase< MessageAbstractDelegate2< T, U, A > >
Cmitk::Message2< T, U, A >
►Cmitk::MessageBase< MessageAbstractDelegate3< double, double, bool, void > >
Cmitk::Message3< double, double, bool >
►Cmitk::MessageBase< MessageAbstractDelegate3< T, U, V, A > >
Cmitk::Message3< T, U, V, A >
►Cmitk::MessageBase< MessageAbstractDelegate4< T, U, V, W > >
Cmitk::Message4< T, U, V, W, A >
►Cmitk::MessageBase< MessageAbstractDelegate< A > >
Cmitk::Message< A >	Event/message/notification class
►Cmitk::AbstractDistribution
Cmitk::DistSimpleBinominal
Cmitk::AbstractFileWriter::LocalFile	A local file representation for streams
►Cmitk::AbstractLinkingFunction
Cmitk::LogItLinking
Cmitk::AccessItkImageFunctor< X, VDimension, T1, T2, T3 >
►Cmitk::AcquisitionType	Abstract class for k-space acquisiton type (k-space trajectory and echo placement)
Cmitk::CartesianReadout	Realizes EPI readout: one echo, maximum intensity in the k-space center, zig-zag trajectory
Cmitk::SingleShotEpi	Realizes EPI readout: one echo, maximum intensity in the k-space center, zig-zag trajectory
►Cmitk::Algorithm
Cmitk::CvMatCompare
Cmitk::CvMatFromVnlMatrix< T >
Cmitk::CvMatFromVnlVector< T >
Cmitk::EndoDebugFromXmlFile
Cmitk::EndoDebugToXmlFile
Cmitk::StringFromCvMat
Cmitk::VnlMatrixFromCvMat< T >
Cmitk::VnlVectorCaster< T, R >
Cmitk::VnlVectorFixedCaster< T, R, n >
Cmitk::VnlVectorFromCvMat< T >
Cmitk::AnatomicalStructureColorPresets::Category
Cmitk::AnatomicalStructureColorPresets::Type
Cmitk::AnatomicalStructureColorPresets::Type::Modifier
Cmitk::AnisotropicRegistrationCommon	A Class that provides common static functions used by all classes and tests in the anisotropic iterative closest point algorithm (AnisotropicIterativeClosestPointRegistration)
Cmitk::ApplicationCursor	Allows to override the application's cursor
►Cmitk::ApplicationCursorImplementation	Toolkit specific implementation of mitk::ApplicationCursor
CQmitkApplicationCursor	Qt specific implementation of ApplicationCursorImplementation
Cmitk::AssertImageTypeIsValid< ItkImageType >	A helper template for compile-time checking of supported ITK image types
►Cmitk::BaseDataCompare	Interface to compare two BaseData objects for (near) equality
Cmitk::BaseDataCompareT< T >	Implementation of BaseDataCompare that uses mitk:Equal() for comparisons
Cmitk::BaseDataCompareTNonConst< T >	Implementation of BaseDataCompare that uses a non-const version of mitk:Equal() for comparisons
►Cmitk::BaseLocalStorageHandler	Interface for accessing (templated) LocalStorageHandler instances
Cmitk::LocalStorageHandler< BaseLocalStorage >
Cmitk::LocalStorageHandler< LocalStorage >
Cmitk::LocalStorageHandler< mitk::AxisOverlay::LocalStorage >
Cmitk::LocalStorageHandler< mitk::ColorBarOverlay::LocalStorage >
Cmitk::LocalStorageHandler< mitk::ContourModelMapper2D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::ContourModelMapper3D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::ContourModelSetMapper3D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::DoseImageVtkMapper2D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::FiberBundleMapper2D::FBXLocalStorage >
Cmitk::LocalStorageHandler< mitk::FiberBundleMapper3D::FBXLocalStorage3D >
Cmitk::LocalStorageHandler< mitk::GPUVolumeMapper3D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::ImageVtkMapper2D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::LabelOverlay3D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::LabelSetImageVtkMapper2D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::LogoOverlay::LocalStorage >
Cmitk::LocalStorageHandler< mitk::MITKRegistrationWrapperMapperBase::RegWrapperLocalStorage >
Cmitk::LocalStorageHandler< mitk::OdfVtkMapper2D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::PlaneGeometryDataMapper2D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::PointSetVtkMapper2D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::RegEvaluationMapper2D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::ScaleLegendOverlay::LocalStorage >
Cmitk::LocalStorageHandler< mitk::SurfaceVtkMapper2D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::SurfaceVtkMapper3D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::TextOverlay2D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::TextOverlay3D::LocalStorage >
Cmitk::LocalStorageHandler< mitk::VtkGLMapperWrapper::LocalStorage >
Cmitk::LocalStorageHandler< mitk::VtkMapper::VtkMapperLocalStorage >
Cmitk::LocalStorageHandler< L >	Templated class for management of LocalStorage implementations in Mappers
Cmitk::BaseRenderer::RenderingMode	This rendering mode enumeration is specified at various constructors of the Renderer and RenderWindow classes, which autoconfigures the respective VTK objects. This has to be done at construction time because later configuring turns out to be not working on most platforms
Cmitk::BindDispatcherInteractor	This Class is used to connect a DataStorage with the Dispatcher
Cmitk::BooleanOperation	Executes a boolean operation on two different segmentations
Cmitk::CallbackFromGUIThread	Allows threads to call some method from within the GUI thread
►Cmitk::CallbackFromGUIThreadImplementation	Toolkit specific implementation of mitk::CallbackFromGUIThread
CQmitkCallbackFromGUIThread	Qt specific implementation of mitk::CallbackFromGUIThreadImplementation
Cmitk::Caster
Cmitk::ChannelDescriptor	An object which holds all essential information about a single channel of an Image
Cmitk::ClippedSurfaceBoundsCalculator
Cmitk::CLUtil
Cmitk::CollectionDilation
Cmitk::CollectionGrayOpening
Cmitk::CollectionStatistic
Cmitk::CollectionWriter
►Cmitk::ColorSequence	Inferface for creating a sequence of nice/matching/appropriate/... colors
Cmitk::ColorSequenceCycleH	Creates a list of around 36 different colors, where one is easily distinguished from the preceding one
Cmitk::ColorSequenceRainbow
Cmitk::CompareFilterResults	A simple struct to hold the result of the comparison filter
Cmitk::ComponentsTrait< V, T >	Object for compile-time resolving of the number of components for given type
Cmitk::ComponentsTrait< false, T >	Partial specialization for the ComponentsTraits in case of compound types
Cmitk::ConfigurationHolder
Cmitk::ConnectomicsConstantsManager	The XML consts for reading and writing
Cmitk::ConnectomicsHistogramsContainer	Provides a method to cache network histograms
Cmitk::ConnectomicsNetwork::NetworkEdge
Cmitk::ConnectomicsNetwork::NetworkNode
Cmitk::ConnectomicsNetworkDefinitions	The XML consts for reading and writing
Cmitk::ContourElement::ContourModelVertex	Represents a single vertex of contour
Cmitk::CoreExtConstants
Cmitk::CoreServicePointer< S >	A RAII helper class for core service objects
Cmitk::CoreServices	Access MITK core services
Cmitk::CorrectorAlgorithm::TSegData	Calculated difference image
Cmitk::CostFunctionBase< TPixel, VImageDimension >
Cmitk::CostingStatistic
►Cmitk::CustomMimeType	Custom mime-type which may be registered as a service object. It should only be used for mime-type registration, see also mitk::MimeType
Cmitk::DiffusionCoreIOMimeTypes::DiffusionImageNiftiMimeType
Cmitk::DiffusionCoreIOMimeTypes::DiffusionImageNrrdMimeType
Cmitk::DiffusionIOMimeTypes::DiffusionImageNiftiMimeType
Cmitk::DiffusionIOMimeTypes::DiffusionImageNrrdMimeType
Cmitk::ExampleIOMimeTypes::ExampleDataStructureMimeType
Cmitk::IOMimeTypes::DicomMimeType
Cmitk::DataCollectionImageIterator< TDataType, ImageDimension >
Cmitk::DataCollectionSingleImageIterator< TDataType, ImageDimension >
Cmitk::DataCollectionVectorImageIterator< TDataType, ImageDimension >
Cmitk::DataStorageCompare
Cmitk::DCUtilities
Cmitk::DICOMCachedValueInfo
►Cmitk::DICOMDatasetAccess	Interface to datasets that is presented to sorting classes such as DICOMDatasetSorter
Cmitk::DICOMDatasetAccessingImageFrameInfo	Defines an abstract base class for DICOM image frame infos with data access
Cmitk::DICOMDatasetFinding
Cmitk::DICOMFilenameSorter::FilenameSort
Cmitk::DICOMFileReaderTestHelper
Cmitk::DICOMImageBlockDescriptor	Output descriptor for DICOMFileReader
Cmitk::DicomSeriesReader
Cmitk::DicomSeriesReader::GantryTiltInformation	Gantry tilt analysis result
Cmitk::DicomSeriesReader::ImageBlockDescriptor	Return type of GetSeries, describes a logical group of files
Cmitk::DicomSeriesReader::SliceGroupingAnalysisResult	Return type of DicomSeriesReader::AnalyzeFileForITKImageSeriesReaderSpacingAssumption
Cmitk::DICOMTag	Representation of a DICOM tag
Cmitk::DICOMTagBasedSorter::ParameterizedDatasetSort	Helper struct to feed into std::sort, configured via DICOMSortCriterion
►Cmitk::DICOMTagBasedSorter::TagValueProcessor	Processes tag values before they are compared. These classes could do some kind of normalization such as rounding, lower case formatting, etc
Cmitk::DICOMTagBasedSorter::CutDecimalPlaces	Cuts a number after configured number of decimal places. An instance of this class can be used to avoid errors when comparing minimally different image orientations
Cmitk::DICOMTagPath	Class is used to identify (nested) attributes in a DICOM dataset. In contrast to the class DICOMTag, which only specifies one specific tag, the tag path can identify nested attributes (like items in a DICOM sequence). In addition you may also specify wildcards for the selection index or complete elements of the path
Cmitk::DICOMTagPath::NodeInfo
Cmitk::DiffusionCoreIOMimeTypes
Cmitk::DiffusionDICOMFileReaderHelper
►Cmitk::DiffusionImageDICOMHeaderInformation	The DiffusionImageHeaderInformation struct
Cmitk::DiffusionImageMosaicDICOMHeaderInformation
Cmitk::DiffusionImageHeaderDescriptor	The DiffusionImageHeaderDescriptor struct bundles the necessary diffusion-weighted image header meta information
Cmitk::DiffusionIOMimeTypes
►Cmitk::DiffusionNoiseModel< ScalarType >	Abstract class for diffusion noise models
Cmitk::ChiSquareNoiseModel< ScalarType >	Implementation of noise following a chi-squared distribution
Cmitk::RicianNoiseModel< ScalarType >	Implementation of noise following a rician distribution
Cmitk::DiffusionPropertyHelper	Helper class for mitk::Images containing diffusion weighted data
►Cmitk::DiffusionSignalModel< ScalarType >	Abstract class for diffusion signal models
Cmitk::AstroStickModel< ScalarType >	Generates the diffusion signal using a collection of idealised cylinder with zero radius: e^(-bd(ng)²)
Cmitk::BallModel< ScalarType >	Generates direction independent diffusion measurement employing a scalar diffusion constant d: e^(-bd)
Cmitk::DotModel< ScalarType >	Generates constant direction independent signal
Cmitk::RawShModel< ScalarType >	The spherical harmonic representation of a prototype diffusion weighted MR signal is used to obtain the direction dependent signal
Cmitk::StickModel< ScalarType >	Generates the diffusion signal using an idealised cylinder with zero radius: e^(-bd(ng)²)
Cmitk::TensorModel< ScalarType >	Generates diffusion measurement employing a second rank tensor model: e^(-bg^TDg)
Cmitk::EmptyType
Cmitk::EndoDebug
Cmitk::EndPoint
Cmitk::EquiDistantBlocksSorter::SliceGroupingAnalysisResult	Return type of AnalyzeFileForITKImageSeriesReaderSpacingAssumption()
Cmitk::EventConfig	Configuration Object for Statemachines
Cmitk::EventFactory	Generates InteractionEvent-Objects/XML
Cmitk::EventInformerService
Cmitk::ExampleIOMimeTypes
Cmitk::Exception::ReThrowData
Cmitk::FiberBuilder	Gnerates actual fiber structure (vtkPolyData) from the particle grid content
Cmitk::FiberfoxParameters< ScalarType >	Datastructure to manage the Fiberfox signal generation parameters
Cmitk::FiberGenerationParameters
►Cmitk::FileReader	Interface class of readers that read from files
►Cmitk::FileSeriesReader
Cmitk::DataNodeFactory	Factory, which creates instances of mitk::DataNodes filled with data read from a given file
Cmitk::ItkImageFileReader	Reader to read file formats supported by itk
Cmitk::NrrdTbssImageReader
Cmitk::NrrdTbssRoiImageReader
Cmitk::PlanarFigureReader	Reads xml representations of mitk::PlanarFigure from a file
Cmitk::PointSetReader	Reads xml representations of mitk::PointSets from a file
Cmitk::RawImageFileReader	Reader to read raw image files
Cmitk::VtiFileReader	Reader to read image files in vtk file format
Cmitk::VtkImageReader	Reader to read image files in vtk file format
Cmitk::FileReaderRegistry
Cmitk::FileReaderSelector
Cmitk::FileReaderSelector::Item
Cmitk::FileReaderWriterBase
Cmitk::FileWriterRegistry
Cmitk::FileWriterSelector
Cmitk::FileWriterSelector::Item
Cmitk::GantryTiltInformation	Gantry tilt analysis result
Cmitk::GeneralizedLinearModel	Generalized Linear Model that allows linear models for non-gaussian data
Cmitk::GenericLookupTable< T >	Template class for generating lookup-tables
Cmitk::Geometry3DToXML
Cmitk::GeometryTransformHolder
Cmitk::GetComponentType< T >	Compile time resolving of the type of a component
Cmitk::GetPixelType< TypeList, Index, Step, Stop, OutOfRange >
Cmitk::GetPixelType< TypeList, Index, Step, Stop, true >
Cmitk::GetPixelType< TypeList, Index, Step, true, OutOfRange >
Cmitk::GetSuperclassType< T, bool >
Cmitk::GetSuperclassType< T, true >
Cmitk::GIFCooccurenceMatrix::GIFCooccurenceMatrixConfiguration
Cmitk::GIFFirstOrderStatistics::ParameterStruct
Cmitk::GIFGrayLevelRunLength::ParameterStruct
Cmitk::GPGPU	GPGPU
Cmitk::GPGPU::Shader
Cmitk::GPGPU::Texture
Cmitk::gradients
Cmitk::Handle	Helper Class for realizing the handles of bounding object encapsulated by a geometry data
Cmitk::HasMethodGetStaticNameOfClass< T >
Cmitk::HasTypeSuperclass< T >
Cmitk::HistogramStatisticsCalculator	Computes basic histogram statistics such as Uniformity, UPP (Uniformity of positive entries), Entropy and Median (approximation)
Cmitk::HotspotMaskGenerator::ImageExtrema
Cmitk::IContextMenuAction
Cmitk::IDataNodeReader
Cmitk::IDataStorageService
►Cmitk::IDICOMTagsOfInterest	Interface of DICOM tags of interest service
Cmitk::DICOMTagsOfInterestService	DICOM tags of interest service
►Cmitk::IFileIO	Common interface for all MITK file reader and writer
►Cmitk::IFileReader	The common interface for all MITK file readers
►Cmitk::AbstractFileReader	Base class for creating mitk::BaseData objects from files or streams
►Cmitk::AbstractFileIOReader
►Cmitk::AbstractFileIO	Abstract class for implementing a reader and writer
Cmitk::ImageVtkLegacyIO
Cmitk::ImageVtkXmlIO
Cmitk::ItkImageIO
Cmitk::LabelSetImageIO
Cmitk::MAPRegistrationWrapperIO
Cmitk::RandomForestFileIO
Cmitk::SimulationIO
►Cmitk::SurfaceVtkIO
Cmitk::SurfaceStlIO
Cmitk::SurfaceVtkLegacyIO
Cmitk::SurfaceVtkXmlIO
Cmitk::TubeGraphIO	Reader and writer for xml representations of mitk::TubeGraph
►Cmitk::BaseDICOMReaderService
Cmitk::AutoSelectingDICOMReaderService
Cmitk::ClassicDICOMSeriesReaderService
Cmitk::ConnectomicsNetworkReader	The reader for connectomics network files (.cnf)
Cmitk::ContourModelReader
Cmitk::ContourModelSetReader
Cmitk::DicomSeriesReaderService
Cmitk::DiffusionImageNiftiReaderService
Cmitk::DiffusionImageNrrdReaderService
Cmitk::DummyLsetFileReader
Cmitk::ExampleDataStructureReaderService	The reader service for the MITK example data type
Cmitk::FiberBundleTrackVisReader
Cmitk::FiberBundleVtkReader
Cmitk::GeometryDataReaderService
Cmitk::LegacyFileReaderService
Cmitk::NavigationDataReaderCSV
Cmitk::NavigationDataReaderXML
Cmitk::NrrdQBallImageReader
Cmitk::NrrdTensorImageReader
Cmitk::PlanarFigureCompositeReader
Cmitk::PointSetReaderService
Cmitk::RawImageFileReaderService
Cmitk::RTDoseReader	RTDoseReader reads DICOM files of modality RTDOSE
►Cmitk::IFileWriter	The common interface of all MITK file writers
►Cmitk::AbstractFileWriter	Base class for writing mitk::BaseData objects to files or streams
►Cmitk::AbstractFileIOWriter
Cmitk::AbstractFileIO	Abstract class for implementing a reader and writer
Cmitk::ConnectomicsNetworkCSVWriter
Cmitk::ConnectomicsNetworkMatrixWriter
Cmitk::ConnectomicsNetworkWriter
Cmitk::ContourModelSetWriter	XML-based writer for mitk::ContourModelSet
Cmitk::ContourModelWriter
Cmitk::DiffusionImageNiftiWriterService
Cmitk::DiffusionImageNrrdWriterService
Cmitk::ExampleDataStructureWriterService
Cmitk::FiberBundleTrackVisWriter
Cmitk::FiberBundleVtkWriter
Cmitk::GeometryDataWriterService
Cmitk::LegacyFileWriterService
Cmitk::NavigationDataSetWriterCSV
Cmitk::NavigationDataSetWriterXML
Cmitk::NrrdQBallImageWriter
Cmitk::NrrdTensorImageWriter
Cmitk::PlanarFigureCompositeWriter
Cmitk::PointSetWriterService
Cmitk::IGTMimeTypes
Cmitk::IInputDeviceRegistry
►Cmitk::ILifecycleAwarePart	Interface for a MITK Workbench part which wants to be notified about lifecycle changes
Cmitk::IZombieViewPart	Interface for MITK Workbench Views with special Zombie state handling
►Cmitk::ImageAccessorBase
Cmitk::ImageReadAccessor	ImageReadAccessor class to get locked read access for a particular image part
Cmitk::ImageVtkReadAccessor	ImageVtkReadAccessor class provides any image read access which is required by Vtk methods
►Cmitk::ImageVtkWriteAccessor	ImageVtkWriteAccessor class provides any image write access which is required by Vtk methods
Cmitk::ImageVtkAccessor	ImageVtkAccessor class provides any image read access which is required by Vtk methods
Cmitk::ImageWriteAccessor	ImageWriteAccessor class to get locked write-access for a particular image part
Cmitk::ImageAccessorWaitLock	This struct allows to make ImageAccessors wait for this particular ImageAccessor object
Cmitk::ImageCaster	This class is just a proxy for global functions which are needed by the python wrapping process since global functions cannnot be wrapped. Static method can be wrapped though
Cmitk::ImageGenerator	Generator for synthetic MITK images This is a helper class to generate synthetic MITK images (random or gradient)
Cmitk::ImageMappingInterpolator
►Cmitk::ImagePixelAccessor< TPixel, VDimension >	Provides templated image access for all inheriting classes
Cmitk::ImagePixelReadAccessor< TPixel, VDimension >	Gives locked and index-based read access for a particular image part. The class provides several set- and get-methods, which allow an easy pixel access. It needs to know about pixel type and dimension of its image at compile time
Cmitk::ImagePixelWriteAccessor< TPixel, VDimension >	Gives locked and index-based write access for a particular image part. The class provides several set- and get-methods, which allow an easy pixel access. It needs to know about pixel type and dimension of its image at compile time
Cmitk::ImageRegistrationMethodAccessFunctor
Cmitk::ImageSource::ThreadStruct	Internal structure used for passing image data into the threading library
Cmitk::ImageStatisticsCalculator::ImageExtrema
Cmitk::ImageStatisticsCalculator::Statistics	Class for common statistics, includig hotspot properties
Cmitk::ImageStatisticsHolder	Class holding the statistics informations about a single mitk::Image
Cmitk::ImageTypeTrait< TPixelType, VDimension >
Cmitk::ImageTypeTrait< itk::VariableLengthVector< TPixelType >, VDimension >
Cmitk::ImageTypeTrait< itk::VectorImage< TPixelType, VDimension >, 0 >
Cmitk::ImageTypeTrait< T, 0 >
►Cmitk::IMimeTypeProvider	The IMimeTypeProvider service interface allows to query all registered mime types
Cmitk::MimeTypeProvider
Cmitk::ImpurityLoss< TLossFunction, TLabelContainer, TWeightContainer >
Cmitk::InteractionEventConst	Constants to describe Mouse Events and special Key Events
►Cmitk::InteractionEventObserver	Base class to implement InteractionEventObservers
Cmitk::DisplayInteractor	Observer that manages the interaction with the display
Cmitk::EventRecorder	Observer that enables recoding of all user interaction with the render windows and storing it in an XML file
Cmitk::Tool	Base class of all tools used by mitk::ToolManager
CQmitkFreeSurferParcellationHandler	This handler returns either the pixelvalue or anatomical label of the current position of the crosshair inside a visible parcellation. If no parcellation is visible no data is thrown
Cmitk::InteractionTestHelper	Creates everything needed to load and playback interaction events
Cmitk::IOConstants	The IOConstants struct
Cmitk::IOMimeTypes	The IOMimeTypes class
►Cmitk::IOUtil	A utility class to load and save data from/to the local file system
CQmitkIOUtil	QmitkIOUtil Provides static helper methods to open and save files with Qt dialogs
Cmitk::IOUtil::LoadInfo
Cmitk::IOUtil::ReaderOptionsFunctorBase
Cmitk::IOUtil::SaveInfo
Cmitk::IOUtil::WriterOptionsFunctorBase
Cmitk::IPersistable
►Cmitk::IPersistenceService
Cmitk::PersistenceService
►Cmitk::IPropertyAliases	Interface of property aliases service
Cmitk::PropertyAliases
►Cmitk::IPropertyDescriptions	Interface of property descriptions service
Cmitk::PropertyDescriptions
►Cmitk::IPropertyExtensions	Interface of property extensions service
Cmitk::PropertyExtensions
►Cmitk::IPropertyFilters	Interface of property filters service
Cmitk::PropertyFilters
►Cmitk::IPropertyPersistence	Interface of property persistence service
Cmitk::PropertyPersistence
►Cmitk::IPythonService
Cmitk::PythonService
Cmitk::IRenderingManager	An interface for accessing a mitk::RenderingManager instance
►Cmitk::IRenderWindowPart	Interface for a MITK Workbench Part providing a render window
►Cmitk::ILinkedRenderWindowPart	Extends the IRenderWindowPart interface with methods for controlling linked render windows
CQmitkStdMultiWidgetEditor
CQmitkAbstractRenderEditor	A convenient base class for MITK render window BlueBerry Editors
Cmitk::IRenderWindowPartListener	Interface for berry::IViewPart implementations to be notified about mitk::IRenderWindowPart lifecycle changes
►Cmitk::IShaderRepository	Management class for vtkShader XML descriptions
Cmitk::VtkShaderRepository	Management class for vtkShader XML descriptions
►Cmitk::ISimulationService
Cmitk::SimulationService
Cmitk::IsoDoseLevelSet::ConstIterator
Cmitk::isPrimitiveType< T >	This is an implementation of a type trait to provide a compile-time check for PixelType used in the instantiation of an itk::Image
Cmitk::isPrimitiveType< char >	Partial specialization (char) for the isPrimitiveType object
Cmitk::isPrimitiveType< double >	Partial specialization (double) for the isPrimitiveType object
Cmitk::isPrimitiveType< float >	Partial specialization (float) for the isPrimitiveType object
Cmitk::isPrimitiveType< int >	Partial specialization (int) for the isPrimitiveType object
Cmitk::isPrimitiveType< long int >	Partial specialization (long int) for the isPrimitiveType object
Cmitk::isPrimitiveType< long unsigned int >	Partial specialization (long unsigned int) for the isPrimitiveType object
Cmitk::isPrimitiveType< short >	Partial specialization (short) for the isPrimitiveType object
Cmitk::isPrimitiveType< signed char >	Partial specialization (signed char) for the isPrimitiveType object
Cmitk::isPrimitiveType< unsigned char >	Partial specialization (unsigned char) for the isPrimitiveType object
Cmitk::isPrimitiveType< unsigned int >	Partial specialization (unsigned int) for the isPrimitiveType object
Cmitk::isPrimitiveType< unsigned short >	Partial specialization (unsigned short) for the isPrimitiveType object
Cmitk::ITKDICOMSeriesReaderHelper
►Cmitk::IToFDeviceFactory	This is the base of class for all ToFDeviceFactories
►Cmitk::AbstractToFDeviceFactory	Virtual interface and base class for all Time-of-Flight device factories. The basic interface is in the base class: IToFDeviceFactory. This AbstractToFDeviceFactory implements some generic function which are useful for every device and not specific
Cmitk::KinectDeviceFactory	KinectDeviceFactory is an implementation of the factory pattern to generate Microsoft Kinect devices. KinectDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new KinectDevices via a global instance of this factory
Cmitk::KinectV2DeviceFactory	KinectDeviceFactory is an implementation of the factory pattern to generate Microsoft Kinect V2 devices. KinectDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new KinectDevices via a global instance of this factory
Cmitk::ToFCameraMESASR4000DeviceFactory	ToFCameraMESASR4000DeviceFactory is an implementation of the factory pattern to generate MESASR4000Devices. ToFCameraMESASR4000DeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new MESA SR4000 Devices via a global instance of this factory
Cmitk::ToFCameraMITKPlayerDeviceFactory	ToFPlayerDeviceFactory is an implementation of the factory pattern to generate ToFPlayer devices. ToFPlayerDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new ToFPlayerDevices via a global instance of this factory
Cmitk::ToFCameraPMDCamBoardDeviceFactory	ToFPMDCamBoardDeviceFactory is an implementation of the factory pattern to generate CamBoard devices. ToFPMDCamBoardDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new CamBoard Devices via a global instance of this factory
Cmitk::ToFCameraPMDCamCubeDeviceFactory	ToFPMDCamBoardDeviceFactory is an implementation of the factory pattern to generate Cam Cube Devices. ToFPMDCamCubeDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new Cam Cube Devices via a global instance of this factory
Cmitk::ToFCameraPMDO3DeviceFactory	ToFCameraPMDO3DeviceFactory is an implementation of the factory pattern to generate Do3 Devices. ToFPMDCamCubeDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new Cam Cube Devices via a global instance of this factory
Cmitk::ToFCameraPMDPlayerDeviceFactory	ToFPMDPlayerDeviceFactory is an implementation of the factory pattern to generate PMD Player Devices. ToFPMDPlayerDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new PMD Player Devices via a global instance of this factory
Cmitk::ToFCameraPMDRawDataCamBoardDeviceFactory	ToFPMDRawPlayerDeviceFactory is an implementation of the factory pattern to generate Raw Player Devices. ToFPMDRawPlayerDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new Raw Player Devices via a global instance of this factory
Cmitk::ToFCameraPMDRawDataCamCubeDeviceFactory	ToFPMDRawPlayerDeviceFactory is an implementation of the factory pattern to generate Raw Player Devices. ToFPMDRawPlayerDeviceFactory inherits from AbstractToFDeviceFactory which is a MicroService interface. This offers users the oppertunity to generate new Raw Player Devices via a global instance of this factory
Cmitk::LabelSetIOHelper	The LabelSetIOHelper is a static helper class that supports serialization of mitk::LabelSetImage
Cmitk::LevelWindow	Class to store level/window values
Cmitk::Line< TCoordRep, NPointDimension >	Descibes a line
Cmitk::LinearSplitting< TLossAccumulator >
Cmitk::LocaleSwitch	Convenience class to temporarily change the current locale
Cmitk::LookupTablePropertySerializerRegistrationMethod
Cmitk::LRDensityEstimation
Cmitk::MapCompositePixelType< T >	Object for compile-time translation of a composite pixel type into an itk::ImageIOBase::IOPixelType information
Cmitk::MapCompositePixelType< itk::CovariantVector< C, N > >
Cmitk::MapCompositePixelType< itk::DiffusionTensor3D< C > >
Cmitk::MapCompositePixelType< itk::FixedArray< C, N > >
Cmitk::MapCompositePixelType< itk::Matrix< C, N > >
Cmitk::MapCompositePixelType< itk::RGBAPixel< C > >
Cmitk::MapCompositePixelType< itk::RGBPixel< C > >
Cmitk::MapCompositePixelType< itk::VariableLengthVector< C > >
Cmitk::MapCompositePixelType< itk::Vector< C, N > >
►Cmitk::Mapper::BaseLocalStorage	Base class for mapper specific rendering ressources
Cmitk::ContourModelMapper2D::LocalStorage
Cmitk::ContourModelMapper3D::LocalStorage
Cmitk::ContourModelSetMapper3D::LocalStorage
Cmitk::DoseImageVtkMapper2D::LocalStorage	Internal class holding the mapper, actor, etc. for each of the 3 2D render windows
Cmitk::FiberBundleMapper2D::FBXLocalStorage
Cmitk::FiberBundleMapper3D::FBXLocalStorage3D
Cmitk::GPUVolumeMapper3D::LocalStorage
Cmitk::ImageVtkMapper2D::LocalStorage	Internal class holding the mapper, actor, etc. for each of the 3 2D render windows
Cmitk::LabelSetImageVtkMapper2D::LocalStorage	Internal class holding the mapper, actor, etc. for each of the 3 2D render windows
Cmitk::MITKRegistrationWrapperMapperBase::RegWrapperLocalStorage
Cmitk::OdfVtkMapper2D< TPixelType, NrOdfDirections >::LocalStorage
Cmitk::PlaneGeometryDataMapper2D::LocalStorage	Internal class holding the mapper, actor, etc. for each of the 3 2D render windows
Cmitk::PointSetVtkMapper2D::LocalStorage	Internal class holding the mapper, actor, etc. for each of the 3 2D render windows
Cmitk::RegEvaluationMapper2D::LocalStorage	Internal class holding the mapper, actor, etc. for each of the 3 2D render windows
Cmitk::SurfaceVtkMapper2D::LocalStorage	Internal class holding the mapper, actor, etc. for each of the 3 2D render windows
Cmitk::SurfaceVtkMapper3D::LocalStorage
Cmitk::VtkGLMapperWrapper::LocalStorage	Internal class holding the mapper, actor, etc. for each of the 3 2D render windows
Cmitk::VtkMapper::VtkMapperLocalStorage
Cmitk::MapPixelComponentType< T >
Cmitk::MapPixelType< T, Primitive >	Object for compile-time translation of a pixel type into an itk::ImageIOBase::IOPixelType information
Cmitk::MapPixelType< T, true >	Partial specialization for setting the IOPixelType for primitive types to SCALAR
Cmitk::MaskedAlgorithmHelper	MaskedAlgorithmHelper Helper class as an easy bridge to set mitk images as masks for registration algorithms. It is assumed that the Image indicates the mask by pixel values != 0
Cmitk::MemoryUtilities
►Cmitk::MessageAbstractDelegate< A >
Cmitk::MessageDelegate< R, A >
►Cmitk::MessageAbstractDelegate1< T, A >
Cmitk::MessageDelegate1< R, T, A >
►Cmitk::MessageAbstractDelegate2< T, U, A >
Cmitk::MessageDelegate2< R, T, U, A >
►Cmitk::MessageAbstractDelegate3< T, U, V, A >
Cmitk::MessageDelegate3< R, T, U, V, A >
►Cmitk::MessageAbstractDelegate4< T, U, V, W, A >
Cmitk::MessageDelegate4< R, T, U, V, W, A >
Cmitk::MessageBase< AbstractDelegate >
Cmitk::MetropolisHastingsSampler	Generates ne proposals of particle configurations
Cmitk::MimeType	Represens a registered mime-type. It is an immutable wrapper for mitk::CustomMimeType that makes memory handling easier by providing a stack-object for the user
Cmitk::MiscFiberfoxParameters
Cmitk::MITKAlgorithmHelper	MITKAlgorithmHelper
Cmitk::MITKAlgorithmHelper::CheckError
Cmitk::MITKRegistrationHelper	MITKRegistrationHelper
Cmitk::ModifiedLock	ModifiedLock manages the calls of Modified() functions
Cmitk::MorphologicalOperations	Encapsulates several morphological operations that can be performed on segmentations
Cmitk::MosaicDescriptor	The MosaicDescriptor struct is a help struct holding the necessary information for loading a mosaic DICOM file into an MITK file with correct geometry information
Cmitk::NavigationToolStorageTestHelper
Cmitk::NonBlockingAlgorithm::ThreadParameters
Cmitk::Observable
►Cmitk::OclFilter	Superclass for all OpenCL based filter
►Cmitk::OclImageFilter	The OclImageFilter is the topmost class for all filter which take images as input
►Cmitk::OclImageToImageFilter	The OclImageToImageFilter is the base class for all OpenCL image filter generating images
Cmitk::OclBinaryThresholdImageFilter	The OclBinaryThresholdImageFilter computes a binary segmentation based on given threshold values
►Cmitk::Operation	Base class of all Operation-classes
Cmitk::ApplyDiffImageOperation	Operation, that holds information about some image difference
Cmitk::ApplyTransformMatrixOperation
►Cmitk::CellOperation	Operation, that holds everything necessary for an operation on a cell
Cmitk::LineOperation	Operation, that holds everything necessary for an operation on a line
Cmitk::DiffSliceOperation	An Operation for applying an edited slice to the volume
Cmitk::DisplayCoordinateOperation	Operation with informations necessary for operations of DisplayVectorInteractor
►Cmitk::PointOperation	Operation that handles all actions on one Point
Cmitk::PlaneOperation	Operation for setting a plane (defined by its origin and normal)
Cmitk::RestorePlanePositionOperation
Cmitk::RotationOperation	Operation, that holds everything necessary for an rotation operation on mitk::BaseData
Cmitk::ScaleOperation	The ScaleOperation is an operation to scale any mitk::BaseGeometry
Cmitk::SurfaceOperation
►Cmitk::OperationActor	Abstract class, that can be used by Undo to undo an operation
Cmitk::BaseController	Baseclass for renderer slice-/camera-control
Cmitk::BaseData	Base of all data objects
Cmitk::BaseGeometry	BaseGeometry Describes the geometry of a data object
Cmitk::DiffImageApplier	Applies difference images to 3D images
Cmitk::DiffSliceOperationApplier	Executes a DiffSliceOperation
Cmitk::TimeGeometry
Cmitk::OptitrackErrorMessages
►Cmitk::Overlay::BaseLocalStorage	Base class for mapper specific rendering ressources
Cmitk::ColorBarOverlay::LocalStorage
Cmitk::LabelOverlay3D::LocalStorage	Internal class holding the vtkActor, etc. for each of the render windows
Cmitk::LogoOverlay::LocalStorage
Cmitk::ScaleLegendOverlay::LocalStorage
Cmitk::TextOverlay2D::LocalStorage
Cmitk::TextOverlay3D::LocalStorage	Internal class holding the mapper, actor, etc. for each of the render windows
Cmitk::Overlay::Bounds	Container for position and size on the display
Cmitk::PartialVolumeAnalysisClusteringCalculator::ClusterResultType
Cmitk::PartialVolumeAnalysisClusteringCalculator::HelperStructClusteringResults
Cmitk::PartialVolumeAnalysisClusteringCalculator::HelperStructPerformClusteringRetval
Cmitk::PartialVolumeAnalysisClusteringCalculator::HelperStructPerformRGBClusteringRetval
Cmitk::PartialVolumeAnalysisClusteringCalculator::HelperStructRGBChannels
Cmitk::PartialVolumeAnalysisClusteringCalculator::HistType
Cmitk::PartialVolumeAnalysisClusteringCalculator::ParamsType
Cmitk::PartialVolumeAnalysisHistogramCalculator::Statistics
Cmitk::Particle	A particle is the basic element of the Gibbs fiber tractography method
Cmitk::ParticleGrid	Contains and manages particles
Cmitk::ParticleGrid::NeighborTracker
Cmitk::PixelType	Class for defining the data type of pixels
Cmitk::PixelTypeLength< TypeList >
Cmitk::PixelTypeList< T0, T1, T2, T3, T4, T5, T6, T7, T8, T9 >
Cmitk::PixelTypeList< EmptyType, EmptyType, EmptyType, EmptyType, EmptyType, EmptyType, EmptyType, EmptyType, EmptyType, EmptyType >
Cmitk::PixelTypeSwitch< TypeList, Index, Stop >
Cmitk::PixelTypeSwitch< TypeList, Index, true >
Cmitk::PixelTypeTrait< flag, T >	Compile-time trait for resolving the ValueType from an ItkImageType
Cmitk::PixelTypeTrait< false, T >	Partial specialization for the PixelTypeTrait
Cmitk::PlaneGeometryDataVtkMapper3D::ActorInfo
Cmitk::PlaneIntersectionVisitor::Edge
Cmitk::PlaneIntersectionVisitor::Intersection
Cmitk::PlanePositionManagerService
Cmitk::PlaneProposer	The PlaneProposer creates a new plane based on an input point cloud
Cmitk::PlaneProposer::PlaneInfo	Encapsulates the geometrical information needed to descripe a PlaneInfo
Cmitk::PointSet::CellDataType
Cmitk::PointSet::PointDataType	Struct for data of a point
►Cmitk::ProgressBarImplementation	GUI indepentent Interface for all Gui depentent implementations of a ProgressBar
CQmitkProgressBar	QT-Toolkit/GUI dependent class that provides the QT's ProgressBar
Cmitk::PropertyFilter	Consists of blacklist and whitelist entries
►Cmitk::PropertyListReplacedObserver
CQmitkOpenCVVideoControls	Offers widgets to play/pause/stop a video on a certain render window with the use of an !initialized! QmitkVideoBackground. The QmitkVideoBackground should contain an OpenCVVideoSource is then owned by this widget (and deleted)
►Cmitk::PropertyObserver
►Cmitk::PropertyEditor
CQmitkNumberPropertyEditor
CQmitkStringPropertyEditor
CQmitkStringPropertyOnDemandEdit
►Cmitk::PropertyView
CQmitkBasePropertyView
►CQmitkColorPropertyView
CQmitkColorPropertyEditor
CQmitkNumberPropertyView
CQmitkStringPropertyView
Cmitk::ProportionalTimeGeometryToXML
Cmitk::ProvisioningInfo
Cmitk::PyramidalRegistrationMethodAccessFunctor
►Cmitk::PythonCommandObserver
CQmitkPythonVariableStackTableModel
Cmitk::PythonVariable
Cmitk::RandomParcellationGenerator< TPixel, VImageDimension >
Cmitk::RdfNode
Cmitk::RdfStore
Cmitk::RdfTriple
Cmitk::RdfUri
Cmitk::ReduceContourSetFilter::LineSegment
Cmitk::RegionVoxelCounter< TPixel, VImageDimension >
Cmitk::RegistrationWrapper	Wraps the pyramid registration to calculate and apply a reference transformation to several images
Cmitk::RendererAccess
Cmitk::RenderingManager::RenderWindowCallbacks
►Cmitk::RenderingManagerFactory	Factory interface for facilitating the usage of a platform-specific mitk::RenderingManager instance
Cmitk::TestingRenderingManagerFactory
CQmitkRenderingManagerFactory	Qt specific implementation of mitk::RenderingManagerFactory
CQmlMitkRenderingManagerFactory	Qt specific implementation of mitk::RenderingManagerFactory
Cmitk::RenderingTestHelper
Cmitk::RenderingTestHelper::ArgcHelperClass	Convinience class to convert a vector of strings to the standard c++ argv and argc arguments. This is necessary for the vtkTesting::Test, since is requires the reference image (and other optional parameters) via command line
►Cmitk::RenderWindowBase	Base class of MITK RenderWindows
Cmitk::RenderWindow	MitkRenderWindow integrates the MITK rendering mechanism into VTK and is NOT QT dependent
CQmitkRenderWindow	MITK implementation of the QVTKWidget
CQmlMitkRenderWindowItem
Cmitk::RTConstants
Cmitk::RTCTKEventConstants
Cmitk::RTUIConstants
Cmitk::SceneIOTestScenarioProvider	Provides DataStorages that serve as test scenarios
Cmitk::SceneIOTestScenarioProvider::Scenario
►Cmitk::SchedulableProcess
Cmitk::Simulation
Cmitk::Scheduler
►Cmitk::SchedulingAlgorithmBase
Cmitk::RoundRobinSchedulingAlgorithm
Cmitk::WeightedRoundRobinSchedulingAlgorithm
Cmitk::SegmentationInterpolationController::SetChangedSliceOptions	Protected class of mitk::SegmentationInterpolationController. Don't use (you shouldn't be able to do so)!
Cmitk::SegTool2D::SliceInformation
Cmitk::sh
Cmitk::ShaderProperty::Element
Cmitk::Siemens_Header_Format
Cmitk::SignalGenerationParameters
►Cmitk::SimpleHistogram	Abstract superclass for histograms with double values. Classes which are deriving from this class can be cached in the same way
►Cmitk::ConnectomicsHistogramBase	Superclass for histograms working with connectomic networks
Cmitk::ConnectomicsBetweennessHistogram	A class to calculate and store the betweenness of each node
Cmitk::ConnectomicsDegreeHistogram	A class to calculate and store the degree of each node
Cmitk::ConnectomicsShortestPathHistogram	A class to calculate and store the shortest path between each pair of nodes
Cmitk::SimpleImageHistogram
Cmitk::SimpleUnstructuredGridHistogram
►Cmitk::SimpleHistogramCache
Cmitk::ConnectomicsHistogramCache
Cmitk::SimpleHistogramCache::Element
Cmitk::SimpSamp	Samples new tract from surrounding fiber segments
Cmitk::SliceBasedInterpolationController::SetChangedSliceOptions	Protected class of mitk::SliceBasedInterpolationController. Don't use (you shouldn't be able to do so)!
Cmitk::SpectroCamController	Controller for Pixelteq SpectroCam
Cmitk::StateMachineCondition	Represents a condition, that has to be fulfilled in order to execute a state machine transition after a certain event
Cmitk::StaticIGTHelperFunctions
Cmitk::StaticNameOfClass< T, bool >
Cmitk::StaticNameOfClass< T, true >
Cmitk::StatisticData
►Cmitk::StatusBarImplementation	GUI indepentent Interface for all Gui depentent implementations of a StatusBar
CQmitkStatusBar	QT-Toolkit/GUI dependent class that provides to send a Message to the QT's StatusBar
Cmitk::SurfaceInterpolationController::ContourPositionInformation
Cmitk::TActionFunctor	Base class of ActionFunctors, to provide an easy to connect actions with functions
Cmitk::TestDCMLoading
Cmitk::TestDICOMLoading
Cmitk::TestManager
Cmitk::ThreadDataStruct
Cmitk::TimeSlicedGeometry
Cmitk::ToFDebugHelper
Cmitk::ToFProcessingCommon	Helper class providing functions which are useful for multiple usage
Cmitk::ToFTestingCommon
Cmitk::Track
Cmitk::TrackingDeviceData
Cmitk::TrackingDeviceTypeCollection	This class is a collection for information of all Tracking Device Types (derived from abstract TrackingDeviceTypeInformation) The Collection is avaiable via Microservice. If you want to add your own tracking device (e.g. to the Tracking Toolbox), you should register information about your tracking device in this collection using the RegisterTrackingDeviceType function
►Cmitk::TrackingDeviceTypeInformation	Abstract class containing
Cmitk::MicronTrackerTypeInformation	Type information for Micron Tracking Devices
Cmitk::NDIAuroraTypeInformation	Type information for NDI Aurora
Cmitk::NDIPolarisTypeInformation	Type information for NDI Polaris
Cmitk::NPOptitrackTrackingTypeInformation	Type information for NP Optitrack
Cmitk::OpenIGTLinkTypeInformation	Type information for tracking devices using OpenIGTLink
Cmitk::UnspecifiedTrackingTypeInformation	Type information for unspecified or invalid tracking devices. This is often used as default or for testing
Cmitk::VirtualTrackerTypeInformation	Type information for a virtual tracker
Cmitk::TrackingDeviceWidgetCollection	This class is a collection for all TrackingDeviceWidgets (derived from AbstractTrackingDeviceWidget) The Collection is avaiable via Microservice. If you want to add your own tracking device to the Tracking Toolbox, you should register your widget configuring your device to this collection using the RegisterTrackingDeviceWidget function
Cmitk::TrackingForestHandler< ShOrder, NumberOfSignalFeatures >	Manages random forests for fiber tractography. The preparation of the features from the inputa data and the training process are handled here. The data preprocessing and actual prediction for the tracking process is also performed here. The tracking itself is performed in MLBSTrackingFilter
Cmitk::TractAnalyzer	Creates a region of interest for tract-specific analysis of existing TBSS data
►Cmitk::TubeElement	Abstract class for elements which describes tubular structur
Cmitk::CircularProfileTubeElement	Class for elements which describes tubular structur with a circular cross section
Cmitk::TubeGraphDefinitions	The XML consts for reading and writing
Cmitk::TubeGraphEdge	Base Class for Tube Graph Edges
Cmitk::TubeGraphPicker
Cmitk::TubeGraphProperty::Annotation
Cmitk::TubeGraphProperty::LabelGroup
Cmitk::TubeGraphProperty::LabelGroup::Label
Cmitk::TubeGraphVertex	Base Class for Tube Graph Vertices
Cmitk::TumorInvasionClassification	The TumorInvasionAnalysis class - Classifies Tumor progression using RF and predicts on new cases
Cmitk::UIDGenerator	Generated unique IDs
Cmitk::UndoController
►Cmitk::UndoStackItem	Represents an entry of the undo or redo stack
Cmitk::OperationEvent	Represents a pair of operations: undo and the according redo
Cmitk::USDevice::PropertyKeys	These constants are used in conjunction with Microservices. The constants aren't defined as static member attributes to avoid the "static initialization order fiasco", which would occur when objects of this class are used in module activators (for restoring stored device, for example)
Cmitk::USDevice::USImageCropArea
Cmitk::USImageVideoSource::USImageCropping	Defines a region of interest by distances to the four image borders
Cmitk::USImageVideoSource::USImageRoi	Defines a region of interest by top left and bottom right corner
►Cmitk::ValueToIndexMapper
Cmitk::BinaryValueToIndexMapper
Cmitk::MultiClassValueToIndexMapper
Cmitk::ProgressionValueToIndexMapper
Cmitk::VectorPropertyDataType< D >	Helper for VectorProperty to determine a good ITK ClassName
Cmitk::VectorPropertyDataType< double >
Cmitk::VectorPropertyDataType< int >
Cmitk::VtkEventAdapter
Cmitk::VtkLayerController
►CBaseLocalStorage
Cmitk::AxisOverlay::LocalStorage
Cmitk::WeakPointer< TObjectType >	Implements a weak reference to an object
Cmitk::WorkbenchUtil	Utility class for loading data, opening editors and other tasks in a MITK Workbench
►Cmitk::XMLSerializable	Interface for all classes able to write themselves to XML files
Cmitk::CameraIntrinsics	Class representing camera intrinsics and related functions
Cmitk::Transform	Class representing a transfrom in 3D
CmitkCommandLineParser
CmitkIpPicAnnotation
CmitkIpPicAnnotation_t
CmitkIpPicDescriptor
CmitkIpPicTSV_t
CModuleContext
►CModuleResourceBuffer
Cus::ModuleResourceStream
►CNullScalarAccessor< MeshType >
CMeanCurvatureAccessor< MeshType >
CSimplexMeshAccessor< MeshType >
CoclImageFormats	A class handling the (un)supported OpenCL Image formats
COclResourceService	Declaration of the OpenCL Resources micro-service
►CPathSource
►Citk::ImageToPathFilter< TInputImage, PolyLineParametricPath< 2 > >
Citk::ContourExtractor2DImageFilter< TInputImage >	Computes a list of PolyLineParametricPath objects from the contours in a 2D image
Citk::ImageToPathFilter< TInputImage, TOutputPath >	Base class for filters that take an image as input and produce an path as output
►CPersistentState
Cberry::RadioState
►Cberry::ToggleState
Cberry::RegistryToggleState
►CActiveRunnableBase
Cberry::AsyncRunnable< ArgType, OwnerType >
►CApplication
Cmitk::BaseApplication
►CPolyLineParametricPath
Citk::SlowPolyLineParametricPath< VDimension >	Represent a path of line segments through ND Space
►CProcessObject
Citk::FslPeakImageConverter< PixelType >
Citk::Statistics::EnhancedHistogramToRunLengthFeaturesFilter< THistogram >	This class computes texture feature coefficients from a grey level run-length matrix
►CQAbstractItemModel
Cberry::ViewTreeModel
CQmitkDataStorageTreeModel
CQmitkPropertyItemModel
►CQAbstractListModel
Cberry::PerspectiveListModel
CQmitkDataStorageListModel
CQmitkPointListModel
►CQAbstractTableModel
Cmitk::QMAPAlgorithmModel
CQmitkAlgorithmListModel
CQmitkAlgorithmListModel
CQmitkDataStorageTableModel	Own includes
CQmitkIsoDoseLevelSetModel
CQmitkLevelWindowPresetDefinitionDialog::PresetTableModel
CQmitkMAPAlgorithmModel
CQmitkModuleTableModel
CQmitkPropertiesTableModel	Header guard
CQmitkPythonVariableStackTableModel
►CQAction
CQmitkCloseProjectAction
CQmitkExtFileSaveProjectAction
CQmitkFileExitAction
CQmitkFileOpenAction
CQmitkFileSaveAction
CQmitkOpenDicomEditorAction
CQmitkOpenXnatEditorAction
CQmitkRedoAction
CQmitkUndoAction
►CQApplication
CQmitkSafeApplication
►CQCheckBox
CQmitkAnyBoolWidget
CQmitkBoolPropertyWidget
►CQComboBox
CQmitkAnyVectorWidget
CQmitkComboBoxStepThrough	Extension of QComboBox which offers stepping through the values
►CQmitkDataStorageComboBox	Displays all or a subset (defined by a predicate) of nodes of the Data Storage
CQmitkDataStorageComboBoxWithSelectNone	Displays all or a subset (defined by a predicate) of nodes of the Data Storage, and additionally, index 0 is always "please select", indicating no selection, and will hence always return a NULL mitk::DataNode* if asked for the node at index 0
CQmitkEnumerationPropertyWidget
CQmitkUGCombinedRepresentationPropertyWidget
►CQDialog
CBlueBerryExampleLauncherDialog
CQmitkAboutDialog
CQmitkConfirmSegmentationDialog
CQmitkCopyToClipBoardDialog	Displays read-only QTextEdit
CQmitkEditPointDialog	A dialog for editing points directly (coordinates) via TextEdits
CQmitkFileReaderOptionsDialog
CQmitkFileWriterOptionsDialog
CQmitkLevelWindowPresetDefinitionDialog
CQmitkLevelWindowRangeChangeDialog
CQmitkModulesDialog
CQmitkNavigationToolCreationAdvancedWidget	An object of this class offers an UI to modify a tooltip of an IGT navigation tool
CQmitkNewSegmentationDialog	Dialog for QmitkInteractiveSegmentation
CQmitkPlotDialog
CQmitkPreferencesDialog
CQmitkSearchLabelDialog
CQmitkSelectXnatUploadDestinationDialog
CQmitkXnatCreateObjectDialog
CQmitkXnatUploadFromDataStorageDialog
►CQDoubleSpinBox
CQmitkAnyDoubleWidget
CQmitkAnyFloatWidget
►CQEvent
CQmitkRenderingRequestEvent
CQmlMitkRenderingRequestEvent
►CQFrame
CQmitkPopupColorChooser
CQmitkStringPropertyOnDemandEdit
►CQGraphicsView
CQmitkResidualViewWidget	Widget for displaying the residual between an original dwi image and the dwi estimated from a tensor image
►CQHash
Cberry::ObjectStringMap
►CQLabel
CQClickableLabel	A QLabel with multiple hotspots, that can be clicked
CQClickableLabel2
CQmitkBasePropertyView
CQmitkColorPropertyView
CQmitkCrossWidget
CQmitkInvalidAnyWidget
CQmitkNumberPropertyView
CQmitkStringPropertyView
►CQLineEdit
CQmitkAnyStringWidget
CQmitkHotkeyLineEdit
CQmitkStringPropertyEditor
►CQList
Cberry::ObjectList< T >
►CQListView
CQmitkComboBoxListView
CQmitkPointListView	GUI widget for handling mitk::PointSet
►CQListWidget
CQmitkPointListViewWidget	GUI widget for handling mitk::PointSet
CQmitkToolWorkingDataSelectionBox	Display the data selection of a ToolManager
►CQmitkAnyAdapter
CQmitkAnyBoolWidget
CQmitkAnyDoubleWidget
CQmitkAnyFloatWidget
CQmitkAnyIntWidget
CQmitkAnyShortWidget
CQmitkAnyStringWidget
CQmitkAnyUIntWidget
CQmitkAnyUShortWidget
CQmitkAnyVectorWidget
CQmitkInvalidAnyWidget
►CQmitkBaseFunctionalityComponent
CQmitkFunctionalityComponentContainer	ContainerClass for components
CQmitkDataStorageTreeModel::TreeItem
CQmitkEventAdapter
CQmitkHttpStatusCodeHandler
CQmitkIOUtil::SaveFilter
CQmitkLevelWindowPresetDefinitionDialog::PresetTableModel::Entry
►CQmitkMappingJobSettings
CQmitkFramesRegistrationJob
CQmitkMappingJob
CQmitkMimeTypes	Prov
CQmitkPropertyItem
CQmitkPropertyListPopUp	Displays the properties from a mitk::PropertyList
CQmitkPropertyViewFactory
CQmitkServiceListWidget::ServiceListLink	Internal structure used to link ServiceReferences to their QListWidgetItems
CQmitkSliceNavigationListener::ObserverInfo
CQmitkVideoBackground::VideoBackgroundVectorInfo
►CQObject
Cberry::AbstractHandler
Cberry::CommandContributionItem
Cberry::CoreTestApplication
Cberry::EmptyPerspective
Cberry::ExtensionFactory
Cberry::IntroPart
Cberry::MenuManager
Cberry::Plugin
Cberry::PropertyTester
Cberry::QtSelectionProvider
Cberry::UITestApplication
Cberry::WorkbenchPart
Cmitk::XnatSessionTracker
CQmitkC3Data
CQmitkC3Data
CQmitkCallbackFromGUIThread	Qt specific implementation of mitk::CallbackFromGUIThreadImplementation
CQmitkDataManagerHotkeysPrefPage
CQmitkDataManagerPreferencePage
CQmitkDiffusionImagingAppApplication
CQmitkExtWorkbenchWindowAdvisor
CQmitkFFmpegWriter
CQmitkFramesRegistrationJob
CQmitkFreeSurferParcellationHandler	This handler returns either the pixelvalue or anatomical label of the current position of the crosshair inside a visible parcellation. If no parcellation is visible no data is thrown
CQmitkIGTLStreamingConnector	This class is used to stream messages from a IGTL message source into the sending queue of a message provider
CQmitkMappingJob
CQmitkMultiLabelSegmentationPreferencePage
CQmitkNodeDescriptor	QmitkNodeQmitkNodeDescriptor is Decorator class for the mitk::DataNode which enhances certain mitk::DataNode by additional infos needed by the GUI (Icon, ...)
CQmitkNodeDescriptorManager	QmitkNodeDescriptorManager manages a set of QmitkNodeDescriptors
►CQmitkOverlay	Abstract base class for all overlay-objects in MITK
CQmitkCustomWidgetOverlay	Object representing a custom widget that is handled and positioned as an overlay
CQmitkScalarBarOverlay	Object representing a text that is drawn as an overlay
CQmitkTextOverlay	Object representing a text that is drawn as an overlay
CQmitkOverlayController	Controller that manages the positioning and stacking of QmitkOverlays
CQmitkPropertyListPopup
CQmitkRegistrationJob
CQmitkRenderingManager	Qt specific implementation of mitk::RenderingManager
CQmitkSegmentationPreferencePage
CQmitkSliceNavigationListener	Helper class to allow QmitkAbstractView and derived classes to react on changes of the slice/time navigation. Purpose of the class to be used in view and to give the respective view class (by composition) the posibility to react on changes of the currently selected timepoint or position in the world geometry. In order to setup this class properly the following things must be regarded:
CQmitkStepperAdapter	Helper class to connect Qt-based navigators to instances of Stepper
CQmitkTrackingDeviceConfigurationWidgetConnectionWorker
CQmitkTrackingDeviceConfigurationWidgetScanPortsWorker
CQmitkVideoBackground
CQmlMitkBigRenderLock	Workaround lock around MITK rendering
CQmlMitkRenderingManager	Qt/Qml specific implementation of mitk::RenderingManager
CQmlMitkStdMultiItem
CQVTKMitkInteractorAdapter
CvtkQtConnection
►CQProgressBar
CQmitkProgressBar	QT-Toolkit/GUI dependent class that provides the QT's ProgressBar
►CQQuickFramebufferObject
►CQVTKQuickItem
CQmlMitkRenderWindowItem
►CRenderer
CQVTKFramebufferObjectRenderer
►CQQuickItem
CQmlMitkDatamanager
CQmlMitkImageNavigator	Provides a means to scan quickly through a dataset via Axial, Coronal and Sagittal sliders, displaying millimetre location and stepper position
CQmlMitkProperties
CQmlMitkSliderNavigatorItem
CQmlMitkTransferFunctionItem
►CQQuickPaintedItem
CQmlMitkSliderLevelWindowItem
►CQmlMitkTransferFunctionCanvas
CQmlMitkColorTransferFunctionCanvas
CQmlMitkPiecewiseFunctionCanvas
►CQRunnable
CQmitkFramesRegistrationJob
CQmitkMappingJob
CQmitkRegistrationJob
CQSharedPointer< T >
CQSharedPointer< berry::IParameterValueConverter >
►CQSlider
CQmitkNumberPropertySlider
►CQSortFilterProxyModel
CQmitkDataStorageFilterProxyModel
►CQSpinBox
CQmitkAnyIntWidget
CQmitkAnyShortWidget
CQmitkAnyUIntWidget
CQmitkAnyUShortWidget
CQmitkNumberPropertyEditor
►CQStandardItem
Cmitk::QtPerspectiveItem
Cmitk::QtViewItem
►CQString
Cberry::ObjectString
►CQStyledItemDelegate
CQmitkDoseColorDelegate	An item delegate for rendering and editing dose color in a QTableView
CQmitkDoseValueDelegate	An item delegate for rendering and editing dose values. The delegate assumes that the model uses the role Qt::UserRole+1 to indicate if the returned dose value is an absolute (data(Qt::UserRole+1) == true) or an relative dose (data(Qt::UserRole+1) == false)
CQmitkDoseVisualStyleDelegate	Toolkit includes
CQmitkMapPropertyDelegate
CQmitkMapPropertyDelegate
CQmitkNDIToolDelegate	An item delegate for rendering and editing mitk::Properties in a QTableView
CQmitkPropertyDelegate	Own includes
CQmitkPropertyItemDelegate
►CQSyntaxHighlighter
CQmitkPythonScriptEditorHighlighter	A script highlighter for Python Scripts
►CQTableView
CQmitkPythonVariableStackTableView
►CQToolBar
CQmitkMouseModeSwitcher	Qt toolbar representing mitk::MouseModeSwitcher
►CQtSingleApplication
CQmitkSingleApplication
►CQVTKWidget
CQmitkRenderWindow	MITK implementation of the QVTKWidget
►CQWidget
CQDiffusionImagingSplashScreen
►CQmitkAbstractTrackingDeviceWidget	Abstract class to configure a tracking device. Inherited widgets should be registered in the Microservice (TrackingDeviceCollectionWidget), If done so, they will be included in the QmitkTrackingDeviceConfigurationWidget of the Tracking Toolbox
CQmitkMicronTrackerWidget	Implementation of a configuration widget for Micron Tracking Devices
►CQmitkNDIAbstractDeviceWidget	Abstract class of a configuration widget for NDI Devices. For implementations see NDIAuroraWidget or NDIPolarisWidget
CQmitkNDIAuroraWidget	Implementation of a configuration widget for NDI Aurora Devices
CQmitkNDIPolarisWidget	Implementation of a configuration widget for NDI Polaris Devices
CQmitkNPOptitrackWidget	Implementation of a configuration widget for NP Optitrack Tracking Devices
CQmitkOpenIGTLinkWidget	Implementation of a configuration widget to use an Open IGT Link connection to track any device
CQmitkVirtualTrackerWidget	Implementation of a configuration widget for a Vitrual Tracking Device
CQmitkAlgorithmProfileViewer	Widget that views the information and profile of an algorithm stored in an DLLInfo object
CQmitkAlgorithmProfileViewer	Widget that views the information and profile of an algorithm stored in an DLLInfo object
CQmitkAlgorithmSettingsConfig	Widget that views the information and profile of an algorithm stored in an DLLInfo object
CQmitkAlgorithmSettingsConfig	Widget that views the information and profile of an algorithm stored in an DLLInfo object
CQmitkAstrosticksModelParametersWidget
CQmitkBallModelParametersWidget
CQmitkBoundingObjectWidget
CQmitkBSplineRegistrationView	Widget for deformable demons registration
CQmitkC3jsWidget
CQmitkColorWidget
CQmitkDemonsRegistrationView	Widget for deformable demons registration
CQmitkDicomExternalDataWidget	QmitkDicomExternalDataWidget is a QWidget providing functionality for dicom import
CQmitkDicomLocalStorageWidget	QmitkDicomLocalStorageWidget is a QWidget providing functionality for dicom storage and import
CQmitkDnDFrameWidget	Enables loading data into a MITK application via Drag'n Drop
CQmitkDotModelParametersWidget
CQmitkFiducialRegistrationWidget	IGT Fiducial Registration Widget
CQmitkFileChooser	Convenience Widget showing a line edit with the path of a file or directory and a button which invokes a file choose dialog
CQmitkFileReaderWriterOptionsWidget
CQmitkFreeIsoDoseLevelWidget	Widget that allows to show and edit the content of an mitk::IsoDoseLevel instance
CQmitkFreeSurferParcellationWidget
CQmitkGnuplotWidget
CQmitkIGTConnectionWidget	Simple and fast access to a pre-configured TrackingDeviceSource
CQmitkIGTLDeviceCommandWidget	An object of this class offers an UI to send OpenIGTLink commands
CQmitkIGTLDeviceSetupConnectionWidget	An object of this class offers an UI to setup the connection of an OpenIGTLink device
CQmitkIGTLDeviceSourceManagementWidget	An object of this class offers an UI to manage OpenIGTLink Device Sources and OpenIGTLink Devices
CQmitkIGTLDeviceSourceSelectionWidget	This widget allows the user to select a OpenIGTLink device source
CQmitkIGTLMessageSourceSelectionWidget	This widget allows the user to select a OpenIGTLink message source
CQmitkIGTLoggerWidget	GUI to access the IGT recorder. User can specify the file name where the output shall be stored and how long the recording shall be performed
CQmitkIGTLStreamingManagementWidget	An object of this class offers an UI to manage the streaming of message sources
CQmitkIGTPlayerWidget	GUI to access the IGT Player. User must specify the file name where the input xml-file is located. The NavigationDatas from the xml-file can be played in normal mode or in PointSet mode
CQmitkInteractiveTransformationWidget	An object of this class offers an UI to create a widget to access the advance tool creation options
CQmitkKinectParameterWidget	Widget for configuring the Kinect device
CQmitkLabelSetWidget
CQmitkLevelWindowWidget
CQmitkLevelWindowWidgetContextMenu	Provides a contextmenu for Level/Window functionality
CQmitkLineEditLevelWindowWidget	Provides a widget with two lineedit fields, one to change the window value of the current image and one to change the level value of the current image
CQmitkMapperSettingsWidget	Widget that views the information and profile of an algorithm stored in an DLLInfo object
CQmitkMaskStampWidget	GUI for mask stamp functionality
CQmitkMemoryUsageIndicatorView
CQmitkMlbstTrainingDataWidget
CQmitkNavigationDataPlayerControlWidget
CQmitkNavigationDataSequentialPlayerControlWidget
CQmitkNavigationDataSourceSelectionWidget	This widget allows the user to select a NavigationDataSource. Tools of this Source are also shown and the user can select one of these tools
CQmitkNavigationToolCreationWidget	An object of this class offers an UI to create or modify NavigationTools
CQmitkNavigationToolManagementWidget	An object of this class offers an UI to manage NavigationTools and NavigationToolStorages. This means a user may create, save and load single NavigationTools and/or NavigationToolStorages with this widget
CQmitkNavigationToolStorageSelectionWidget	This widget allows the user to select a navigation tool storage
CQmitkNDIConfigurationWidget
CQmitkODFRenderWidget
CQmitkOpenCVVideoControls	Offers widgets to play/pause/stop a video on a certain render window with the use of an !initialized! QmitkVideoBackground. The QmitkVideoBackground should contain an OpenCVVideoSource is then owned by this widget (and deleted)
CQmitkOverlayContainerWidget	Widget that overrides the paintEvent method to correctly display the Qt based overlays when using the system-environment variable QT_DEVIDE_PIXEL_RATIO
►CQmitkPlotWidget
CQmitkIVIMWidget	Widget for displaying image histograms based on the vtkQtChart framework
CQmitkKurtosisWidget
CQmitkODFDetailsWidget	Widget for displaying image histograms based on the vtkQtChart framework
CQmitkPartialVolumeAnalysisWidget	Widget for displaying image histograms based on the vtkQtChart framework
CQmitkResidualAnalysisWidget	Widget for displaying boxplots framework
CQmitkTbssRoiAnalysisWidget	Plot widget for TBSS Data This widget can plot regions of interest on TBSS projection data. The projection data is created by importing FSL TBSS subject data and completing it with patient data using the QmitkTractbasedSpatialStatisticsView. The region of interest is a vector of indices from which data for plotting should be obtained
CQmitkPointListWidget	Widget for regular operations on point sets
CQmitkPrimitiveMovieNavigatorWidget
CQmitkPropertiesTableEditor	Combines a QTableView along with a QmitkPropertiesTableModel to a reusable Property Editor component
CQmitkPrototypeSignalParametersWidget
CQmitkPythonSnippets	Widget that holds snippets and serializes the snippets to a certain places
CQmitkPythonTextEditor	This is a python text editor with syntax highlightning
CQmitkRegEvalSettingsWidget	Widget that views the information and profile of an algorithm stored in an DLLInfo object
CQmitkRenderWindowMenu	The QmitkRenderWindowMenu is a popup Widget which shows up when the mouse curser enter a QmitkRenderWindow. The Menu Widget is located in the right top corner of each RenderWindow. It includes different settings. For example the layout design can be changed with the setting button. Switching between full-screen mode and layout design can be done with the full-screen button. Splitting the Widget horizontal or vertical as well closing the Widget is not implemented yet. The popup Widget can be deactivated with ActivateMenuWidget(false) in QmitkRenderWindow
►CQmitkRigidRegistrationMetricsGUIBase	Widget for rigid registration
CQmitkCorrelationCoefficientHistogramMetricView	Widget for rigid registration
CQmitkGradientDifferenceMetricView	Widget for rigid registration
CQmitkKappaStatisticMetricView	Widget for rigid registration
CQmitkKullbackLeiblerCompareHistogramMetricView	Widget for rigid registration
CQmitkMatchCardinalityMetricView	Widget for rigid registration
CQmitkMattesMutualInformationMetricView	Widget for rigid registration
CQmitkMeanReciprocalSquareDifferenceMetricView	Widget for rigid registration
CQmitkMeanSquaresHistogramMetricView	Widget for rigid registration
CQmitkMeanSquaresMetricView	Widget for rigid registration
CQmitkMutualInformationHistogramMetricView	Widget for rigid registration
CQmitkMutualInformationMetricView	Widget for rigid registration
CQmitkNormalizedCorrelationMetricView	Widget for rigid registration
CQmitkNormalizedMutualInformationHistogramMetricView	Widget for rigid registration
►CQmitkRigidRegistrationOptimizerGUIBase	Widget for rigid registration
CQmitkAmoebaOptimizerView	Widget for rigid registration
CQmitkConjugateGradientOptimizerView	Widget for rigid registration
CQmitkExhaustiveOptimizerView	Widget for rigid registration
CQmitkFRPROptimizerView	Widget for rigid registration
CQmitkGradientDescentOptimizerView	Widget for rigid registration
CQmitkLBFGSBOptimizerView	Widget for rigid registration
CQmitkLBFGSOptimizerView	Widget for rigid registration
CQmitkOnePlusOneEvolutionaryOptimizerView	Widget for rigid registration
CQmitkPowellOptimizerView	Widget for rigid registration
CQmitkQuaternionRigidTransformGradientDescentOptimizerView	Widget for rigid registration
CQmitkRegularStepGradientDescentOptimizerView	Widget for rigid registration
CQmitkSPSAOptimizerView	Widget for rigid registration
CQmitkVersorRigid3DTransformOptimizerView	Widget for rigid registration
CQmitkVersorTransformOptimizerView	Widget for rigid registration
►CQmitkRigidRegistrationTransformsGUIBase	Widget for rigid registration
CQmitkAffineTransformView	Widget for rigid registration
CQmitkCenteredEuler3DTransformView	Widget for rigid registration
CQmitkCenteredRigid2DTransformView	Widget for rigid registration
CQmitkCenteredSimilarity2DTransformView	Widget for rigid registration
CQmitkEuler2DTransformView	Widget for rigid registration
CQmitkEuler3DTransformView	Widget for rigid registration
CQmitkFixedCenterOfRotationAffineTransformView	Widget for rigid registration
CQmitkQuaternionRigidTransformView	Widget for rigid registration
CQmitkRigid2DTransformView	Widget for rigid registration
CQmitkRigid3DTransformView	Widget for rigid registration
CQmitkScaleLogarithmicTransformView	Widget for rigid registration
CQmitkScaleSkewVersor3DTransformView	Widget for rigid registration
CQmitkScaleTransformView	Widget for rigid registration
CQmitkSimilarity2DTransformView	Widget for rigid registration
CQmitkSimilarity3DTransformView	Widget for rigid registration
CQmitkTranslationTransformView	Widget for rigid registration
CQmitkVersorRigid3DTransformView	Widget for rigid registration
CQmitkVersorTransformView	Widget for rigid registration
CQmitkScalarBar
CQmitkSelectableGLWidget
CQmitkServiceListWidget	This widget provides abstraction for the handling of MicroServices
CQmitkSliceBasedInterpolatorWidget	GUI for slices interpolation
CQmitkSlicesInterpolator	GUI for slices interpolation
CQmitkSliceWidget
CQmitkSliderLevelWindowWidget	Provides a widget with a slider to change the level and window value of the current image
CQmitkSliderNavigatorWidget
CQmitkStandardViews
CQmitkStdMultiWidget
CQmitkStickModelParametersWidget
CQmitkStructureSensorParameterWidget	Widget for configuring the Structure Sensor device (Occipital, Inc.)
CQmitkSurfaceBasedInterpolatorWidget	GUI for surface-based interpolation
CQmitkSurfaceStampWidget	GUI for surface-based interpolation
CQmitkTensorModelParametersWidget
CQmitkToFCompositeFilterWidget	Widget for controlling the ToFCompositeFilter (located in module ToFProcessing)
CQmitkToFConnectionWidget	Widget allowing to connect to different ToF / range cameras (located in module ToFProcessing)
CQmitkToFMESAParameterWidget	Widget allowing to connect to different ToF / range cameras (located in module ToFProcessing)
CQmitkToFPMDParameterWidget	Widget allowing to connect to different ToF / range cameras (located in module ToFProcessing)
CQmitkToFPointSetWidget	Widget allowing interaction with point sets for measurement and PointSet definition
CQmitkToFRecorderWidget	Widget allowing to play / record ToF data
CQmitkToFSurfaceGenerationWidget
CQmitkToFVisualisationSettingsWidget
CQmitkToolDistanceWidget	QmitkToolDistanceWidget
CQmitkToolGUI	Base class for GUIs belonging to mitk::Tool classes
CQmitkToolGUIArea	Dummy class for putting into a GUI (mainly using Qt Designer)
CQmitkToolReferenceDataSelectionBox	Display the data selection of a ToolManager
CQmitkToolRoiDataSelectionBox	Widget for defining a ROI inside the Interactive Segmentation Framwork
CQmitkToolSelectionBox	Display the tool selection state of a mitk::ToolManager
CQmitkToolSelectionWidget	QmitkToolSelectionWidget
CQmitkToolTrackingStatusWidget	QmitkToolTrackingStatusWidget
CQmitkTrackingDeviceConfigurationWidget	An object of this class offers an UI to configurate a tracking device. If the user finished the configuration process and a fully configurated tracking device is availiabe the object emits a signal "TrackingDeviceConfigurationFinished()". You can then get the tracking device by calling the method GetTrackingDevice()
CQmitkTrackingDeviceWidget
CQmitkTrackingSourcesCheckBoxPanelWidget	QmitkTrackingSourcesCheckBoxPanelWidget
►CQmitkTransferFunctionCanvas
CQmitkColorTransferFunctionCanvas
CQmitkPiecewiseFunctionCanvas
CQmitkTransferFunctionGeneratorWidget
CQmitkTransferFunctionWidget
CQmitkUpdateTimerWidget	QmitkUpdateTimerWidget
►CQmitkUSAbstractCustomWidget	Abstract superclass for all custom control widgets of mitk::USDevice classes
CQmitkUSControlsCustomVideoDeviceWidget	Widget for custom controls of mitk::USVideoDevice. This class handles the itk::USVideoDeviceCustomControls of video device objects
CQmitkUSControlsBModeWidget	Widget for b mode controls of ultrasound devices. This class handles the mitk::USControlInterfaceBMode of mitk::USDevice objects
CQmitkUSControlsDopplerWidget	Widget for b mode controls of ultrasound devices. This class handles the mitk::USControlInterfaceDoppler of mitk::USDevice objects
CQmitkUSControlsProbesWidget	Widget for probes controls of ultrasound devices. This class handles the mitk::USControlInterfaceProbes of mitk::USDevice objects
CQmitkUSDeviceManagerWidget	This Widget is used to manage available Ultrasound Devices
CQmitkUSNewVideoDeviceWidget	This Widget enables the USer to create and connect Video Devices
CQmitkViewNavigatorWidget
CQmitkXnatExperimentWidget
CQmitkXnatProjectWidget
CQmitkXnatSubjectWidget
CQmitkZeppelinModelParametersWidget
►CStep6
CStep7
CStep8
►CQwtPlotItem
CQmitkHistogram	Used to create a histogram that can be shown in a Qwt Plot. See QmitkHistogramWidget for an example of its usage
CServiceEventListenerHook
CServiceObjects< S >
Cus::ServiceReference< mitk::IFileReader >
Cus::ServiceReference< mitk::IFileWriter >
Cus::ServiceReference< mitk::IPythonService >
Cus::ServiceReference< mitk::IToFDeviceFactory >
Cus::ServiceTrackerCustomizer< ctkXnatSession, TrackedTypeTraits< ctkXnatSession, ctkXnatSession * >::TrackedType >
►Cus::ServiceTrackerCustomizer< CustomMimeType, MimeType >
Cmitk::MimeTypeProvider
►Cus::ServiceTrackerCustomizer< mitk::CustomMimeType, mitk::MimeTypeTrackerTypeTraits::TrackedType >
Cus::ServiceTracker< mitk::CustomMimeType, mitk::MimeTypeTrackerTypeTraits >
Cus::ServiceTrackerCustomizer< mitk::InteractionEventObserver, TrackedTypeTraits< mitk::InteractionEventObserver, mitk::InteractionEventObserver * >::TrackedType >
Cus::ServiceTrackerCustomizer< mitk::IShaderRepository, TrackedTypeTraits< mitk::IShaderRepository, mitk::IShaderRepository * >::TrackedType >
►Cus::ServiceTrackerCustomizer< S, TTT::TrackedType >
Cus::ServiceTracker< S, TTT >
Cus::SharedDataPointer< const Impl >
Cus::SharedDataPointer< EventConfigPrivate >
Cus::SharedDataPointer< Impl >
Cus::SharedDataPointer< LDAPFilterData >
Cus::SharedDataPointer< ModuleEventData >
Cus::SharedDataPointer< ServiceEventData >
Cberry::SmartPointer< berry::Command >
Cberry::SmartPointer< berry::CommandCategory >
Cberry::SmartPointer< berry::Expression >
Cberry::SmartPointer< berry::IActionBarConfigurer >
Cberry::SmartPointer< berry::IContributionManagerOverrides >
Cberry::SmartPointer< berry::IElementReference >
Cberry::SmartPointer< berry::IHandler >
Cberry::SmartPointer< berry::ISelectionProvider >
Cberry::SmartPointer< berry::IServiceLocator >
Cberry::SmartPointer< berry::IStatus >
Cberry::SmartPointer< berry::IWorkbenchWindowConfigurer >
Cberry::SmartPointer< berry::MenuManager >
Cberry::SmartPointer< berry::ParameterizedCommand >
Cberry::SmartPointer< berry::ParameterType >
Cberry::SmartPointer< berry::Shell >
Cberry::SmartPointer< berry::State >
Cberry::SmartPointer< const berry::EvaluationResult >
Cberry::SmartPointer< const berry::IParameter >
Cberry::SmartPointer< const berry::ISelection >
Cberry::SmartPointer< const Self >
Citk::SmartPointer< const Self >
Citk::SmartPointer< DataStorage >
Citk::SmartPointer< FunctionType >
Citk::SmartPointer< ImageDataItem >
Citk::SmartPointer< ImageType >
Citk::SmartPointer< InteractionEvent >
Citk::SmartPointer< itk::ConditionVariable >
Citk::SmartPointer< itk::FastMutexLock >
Citk::SmartPointer< itk::MultiThreader >
Citk::SmartPointer< Mapper >
Citk::SmartPointer< mitk::CameraController >
Citk::SmartPointer< mitk::Image >
Citk::SmartPointer< mitk::mitk::Mapper >
Citk::SmartPointer< mitk::mitk::NavigationDataDelayFilter >
Citk::SmartPointer< mitk::mitk::NavigationDataSmoothingFilter >
Citk::SmartPointer< mitk::mitk::NavigationDataSource >
Citk::SmartPointer< mitk::mitk::PersistenceService >
Citk::SmartPointer< mitk::mitk::PythonService >
Citk::SmartPointer< mitk::mitk::SliceNavigationController >
Citk::SmartPointer< mitk::mitk::TextOverlay2D >
Citk::SmartPointer< mitk::mitk::UnstructuredGrid >
Citk::SmartPointer< mitk::NavigationDataSource >
Citk::SmartPointer< mitk::NonBlockingAlgorithm >
Citk::SmartPointer< mitk::OverlayManager >
Citk::SmartPointer< mitk::PointSet >
Citk::SmartPointer< mitk::SliceNavigationController >
Citk::SmartPointer< mitk::Surface >
Citk::SmartPointer< mitk::USDevice >
Citk::SmartPointer< mitk::USTelemedDevice >
Citk::SmartPointer< mitk::USVideoDeviceCustomControls >
Citk::SmartPointer< mitk::WeightedPointTransform >
Cberry::SmartPointer< Self >
Citk::SmartPointer< Self >
Citk::SmartPointer< StateMachineState >
►CVisualModelImpl
Cmitk::VtkModel
►CDataEngine
Cmitk::IndexROI
►CMeshLoader
Cmitk::MeshMitkLoader
►CVisitor
Cmitk::ExportMitkVisitor
Cmitk::PlaneIntersectionVisitor
Cmitk::SetVtkRendererVisitor
CSphereInterpolator	Lookuptable based trilinear interpolation of spherically arranged scalar values
►CStatisticsImageFilter
Citk::ExtendedStatisticsImageFilter< TInputImage >	Extension of the itkStatisticsImageFilter that also calculates the Skewness and Kurtosis
Citk::ExtendedStatisticsImageFilter< TInputImage >	Extension of the itkStatisticsImageFilter that also calculates the Skewness and Kurtosis
►Cbinary_function
CQmitkDataStorageTableModel::DataNodeCompareFunction	A struct that inherits from std::binary_function. You can use it in std::sort algorithm for sorting the node list elements
CQmitkPropertiesTableModel::PropertyDataSetCompareFunction	A struct that inherits from std::binary_function. You can use it in std::sort algorithm for sorting the property list elements
►Cstd::exception	STL class
Cmitk::TestFailedException	Indicate a failed test
►Cstd::bad_cast	STL class
Cus::BadAnyCastException
►Cstd::runtime_error	STL class
Cmitk::AccessByItkException	Exception class thrown in AccessByItk macros
Cus::ServiceException
►Cstd::ios_base	STL class
►Cstd::basic_ios< Char >	STL class
►Cstd::basic_istream< Char >	STL class
►Cstd::istream	STL class
Cmitk::AbstractFileReader::InputStream	An input stream wrapper
Cus::ModuleResourceStream
►Cstd::basic_ostream< Char >	STL class
►Cstd::ostream	STL class
Cmitk::AbstractFileWriter::OutputStream	An output stream wrapper
►Cunary_function
CQmitkPropertiesTableModel::PropertyListElementFilterFunction
Csvm_model
Csvm_node
Csvm_parameter
Csvm_problem
Ctest::bla
►CToolEvent
Cmitk::ParameterToolEvent< T >	Tool event with 1 parameter
Cmitk::TwoParameterToolEvent< T, U >	Tool event with 1 parameter
►Cus::TrackedTypeTraitsBase< MimeType, MimeTypeTrackerTypeTraits >
Cmitk::MimeTypeTrackerTypeTraits
►Cus::TrackedTypeTraitsBase< T *, TrackedTypeTraits< S, T * > >
Cus::TrackedTypeTraits< S, T * >
Cmitk::TrackingForestHandler< ShOrder >
CTrackVis_header
CTrackVisFiberReader
CTSpecificActionFunctor
►CTTransformType
Cmitk::ItkMatrixHack< TTransformType >	Internal hack to set m_MatrixMTime of itk::MatrixOffsetTransformBase correctly after changing the matrix. For internal use only
►CQmitkAlgorithmProfileViewer
CQmitkAlgorithmProfileViewer	Widget that views the information and profile of an algorithm stored in an DLLInfo object
CQmitkAlgorithmProfileViewer	Widget that views the information and profile of an algorithm stored in an DLLInfo object
►CQmitkAlgorithmSettingsConfig
CQmitkAlgorithmSettingsConfig	Widget that views the information and profile of an algorithm stored in an DLLInfo object
CQmitkAlgorithmSettingsConfig	Widget that views the information and profile of an algorithm stored in an DLLInfo object
►CQmitkFreeIsoDoseLevelWidget
CQmitkFreeIsoDoseLevelWidget	Widget that allows to show and edit the content of an mitk::IsoDoseLevel instance
►CQmitkLevelWindow
CQmitkLevelWindowWidget
►CQmitkLevelWindowPresetDefinition
CQmitkLevelWindowPresetDefinitionDialog
►CQmitkLevelWindowRangeChange
CQmitkLevelWindowRangeChangeDialog
►CQmitkMapperSettingsWidget
CQmitkMapperSettingsWidget	Widget that views the information and profile of an algorithm stored in an DLLInfo object
►CQmitkMemoryUsageIndicator
CQmitkMemoryUsageIndicatorView
►CQmitkRegEvalSettingsWidget
CQmitkRegEvalSettingsWidget	Widget that views the information and profile of an algorithm stored in an DLLInfo object
►CQmitkSliceWidgetUi
CQmitkSliceWidget
►CQmitkSliderNavigator
CQmitkSliderNavigatorWidget
►CQmitkTransferFunctionGeneratorWidget
CQmitkTransferFunctionGeneratorWidget
►CQmitkTransferFunctionWidget
CQmitkTransferFunctionWidget
►CUnaryFunctorImageFilter
Citk::CartesianToPolarVectorImageFilter< TInputImage, TOutputImage, symmetric >
Citk::PolarToCartesianVectorImageFilter< TInputImage, TOutputImage, symmetric >
Cus::Any
Cus::ExplicitlySharedDataPointer< T >
Cus::InterfaceType< Interface >
Cus::LDAPFilter
Cus::LDAPProp
Cus::MakeInterfaceMap< I1, I2, I3 >
Cus::Module
►Cus::ModuleActivator
Cmitk::DICOMReaderServicesActivator
Cmitk::IGTActivator	The load function of this class is executed every time, the module is loaded. Attention: no static variables of any class in IGT Module are initialized at this moment!
Cmitk::IGTUIActivator	The load function of this class is executed every time, the module is loaded. Attention: don't do any qt initialization during autoload. keep it as simple as possible! And be careful with static variables, they might not be initialized yet..
Cmitk::IOExtActivator
Cmitk::PersistenceActivator
Cmitk::USActivator	Module activator for the US module. Loads mitk::USVideoDevice objects from hard disk on module load and write them to hard disk on module unload
Cmitk::USTelemedActivator
Cmitk::USUIActivator	Module activator for the USUI module. Registers custom widget for mitk::USVideoDevice as microservice
CMitkCoreActivator
COpenCLActivator	Custom activator for the OpenCL Module in order to register and provide the OclResourceService
Cus::ModuleEvent
Cus::ModuleEventHook
Cus::ModuleFindHook
Cus::ModuleInfo
Cus::ModuleRegistry
Cus::ModuleResource
Cus::ModuleSettings
Cus::ModuleVersion
Cus::ServiceEvent
►Cus::ServiceFactory
►Cus::PrototypeServiceFactory
Cmitk::USUICustomWidgetFactory	Prototype service factory for creating unique instances of QmitUSAbstractCustomWidget
Cus::ServiceFindHook
►Cus::ServiceObjectsBase
Cus::ServiceObjects< mitk::IFileWriter >
Cus::ServiceObjects< mitk::mitk::IFileReader >
Cus::ServiceObjects< S >
Cus::ServiceObjects< void >
Cus::ServiceReference< S >
Cus::ServiceReferenceBase
►Cus::ServiceRegistrationBase
Cus::ServiceRegistration< InteractionEventObserver >
Cus::ServiceRegistration< mitk::CustomMimeType >
Cus::ServiceRegistration< mitk::IFileReader >
Cus::ServiceRegistration< mitk::IFileWriter >
Cus::ServiceRegistration< mitk::IGTLMeasurements >
Cus::ServiceRegistration< mitk::IMimeTypeProvider >
Cus::ServiceRegistration< mitk::InteractionEventObserver >
Cus::ServiceRegistration< mitk::mitk::IFileReader >
Cus::ServiceRegistration< mitk::mitk::IPersistenceService >
Cus::ServiceRegistration< mitk::PythonService >
Cus::ServiceRegistration< mitk::ToFCameraDevice >
Cus::ServiceRegistration< mitk::TrackingDeviceTypeCollection >
Cus::ServiceRegistration< mitk::TrackingDeviceWidgetCollection >
Cus::ServiceRegistration< QmitkUSAbstractCustomWidget >
Cus::ServiceRegistration< Self >
Cus::ServiceRegistration< I1, I2, I3 >
►Cus::ServiceTrackerCustomizer< S, T >
►Cus::ServiceTracker< ctkXnatSession >
Cmitk::XnatSessionTracker
Cus::ServiceTracker< mitk::InteractionEventObserver >
Cus::ServiceTracker< mitk::IShaderRepository >
Cus::ServiceTrackerPrivate< S, T >
Cus::SharedData
Cus::SharedDataPointer< T >
Cus::SharedLibrary
Cus::ShrinkableMap< Key, T >
Cus::ShrinkableVector< E >
Cus::TrackedService< S, T >
Cus::TrackedTypeTraitsBase< T, TTT >
CUsed
►CIUsgDeviceChangeSink
Cmitk::USTelemedDevice	Implementation of mitk::USDevice for Telemed API devices. Connects to a Telemed API device through its COM library interface
CVectorTraits< T >
CVectorTraits< double[3]>
CVectorTraits< double[4]>
CVectorTraits< float[3]>
CVectorTraits< float[4]>
CVectorTraits< itk::Index< 3 > >
CVectorTraits< itk::Index< 5 > >
CVectorTraits< itk::Point< double, 3 > >
CVectorTraits< itk::Point< double, 4 > >
CVectorTraits< itk::Point< float, 3 > >
CVectorTraits< itk::Point< float, 4 > >
CVectorTraits< itk::Vector< double, 3 > >
CVectorTraits< itk::Vector< float, 3 > >
CVectorTraits< itk::Vector< int, 3 > >
CVectorTraits< long int[3]>
CVectorTraits< long unsigned int[3]>
CVectorTraits< mitk::Point< double, 3 > >
CVectorTraits< mitk::Point< double, 4 > >
CVectorTraits< mitk::Point< float, 3 > >
CVectorTraits< mitk::Point< float, 4 > >
CVectorTraits< mitk::Point< int, 3 > >
CVectorTraits< mitk::Vector< double, 3 > >
CVectorTraits< mitk::VnlVector >
CVectorTraits< unsigned int * >
CVectorTraits< vnl_vector_fixed< mitk::ScalarType, 3 > >
►CSplitBase
Cmitk::ThresholdSplit< TColumnDecisionFunctor, TFeatureCalculator, TTag >
►Cvnl_least_squares_function
Citk::ADCFitFunctor::lestSquaresFunction	The lestSquaresFunction struct for Non-Linear-Least-Squres fit of monoexponential model
Citk::BiExpFitFunctor::lestSquaresFunction	The lestSquaresFunction struct for Non-Linear-Least-Squres fit of Biexponential model
Citk::IVIM_3param
Citk::IVIM_d_and_f
Citk::IVIM_dstar_only
Citk::IVIM_fixd
Citk::IVIM_fixdstar
►Citk::kurtosis_fit_lsq_function
Citk::kurtosis_fit_omit_unweighted	A fitting function handling the unweighted signal b_0 as a fitted parameter
Citk::KurtosisFitFunctor::lestSquaresFunction	The lestSquaresFunction struct for Non-Linear-Least-Squres fit of Kurtosis
►CvtkActor2D
CvtkMitkRectangleProp	The vtkMitkRectangleProp2 class Renders a rectangle into a renderwindow as a frame
►CvtkGenericOpenGLRenderWindow
CvtkInternalOpenGLRenderWindow
►CvtkGlyph2D
CvtkMaskedGlyph2D
►CvtkGlyph3D
CvtkMaskedGlyph3D
►CvtkImageReslice
CmitkVtkImageOverwrite	A vtk Filter based on vtkImageReslice with the aditional feature to write a slice into the given input volume. All optimizations for e.g. the plane directions or interpolation are stripped away, the algorithm only interpolates nearest neighbor and uses the non optimized execute function of vtkImageReslice. Note that any interpolation doesn't make sense for round trip use extract->edit->overwrite, because it is nearly impossible to invert the interolation. There are two use cases for the Filter which are specified by the overwritemode property:
►CvtkImplicitFunction
CvtkThickPlane
►CvtkInteractorObserver
Cmitk::vtkEventProvider	Integrates into the VTK event mechanism to generate MITK specific events. This class is NON-QT dependent pandon to the current MITK event handling code in QmitkRenderWindow
►CvtkInteractorStyleUser
CmitkVtkInteractorStyle	Implements the handling of events that are missing for MITK interaction
►CvtkLogoRepresentation
CmitkVtkLogoRepresentation
►CvtkMapper
CvtkUnstructuredGridMapper
►CvtkObject
CvtkXMLMaterial
CvtkXMLShader
►CvtkObjectFactory
CvtkNeverTranslucentTextureFactory	Factory for vtkNeverTranslucentTexture (see this class!)
►CvtkOpenGLTexture
CvtkNeverTranslucentTexture	VTK Fix to speed up our image rendering
►CvtkOutputWindow
Cmitk::VtkLoggingAdapter	Adapter that overwrites the standard vtk logging output window and sends the logging messages to the MITK logging instead
►CvtkPolyDataAlgorithm
CvtkOdfSource
CvtkPointSetSlicer
►CvtkPolyDataMapper
Cmitk::vtkSimulationPolyDataMapper2D
Cmitk::vtkSimulationPolyDataMapper3D
►CvtkProgrammableGlyphFilter
CvtkMaskedProgrammableGlyphFilter
►CvtkProp
CvtkGLMapperProp	VtkProp, wrapping a GLMapper
CvtkMitkRenderProp	VtkMitkRenderProp
►CvtkThreadedImageAlgorithm
CvtkMitkLevelWindowFilter	Applies the grayvalue or color/opacity level window to scalar or RGB(A) images
CvtkMitkThickSlicesFilter
►CvtkVolumeMapper
►CvtkMitkVolumeTextureMapper3D
CvtkMitkOpenGLVolumeTextureMapper3D
►CvtkXMLParser
Cmitk::AnatomicalStructureColorPresets
Cmitk::CollectionReader
Cmitk::LevelWindowPreset
Cmitk::RigidRegistrationPreset	Class to load and save parameter presets for rigid registration
Cmitk::StateMachineContainer
Cmitk::vtkPointSetXMLParser	Implementation of the vtkXMLParser interface for reading mitk::PointSets
Cmitk::XML2EventParser
CvtkXMLMaterialParser
Cmitk::WeakPointer< DataInteractor >
Cmitk::WeakPointer< mitk::BaseData >
Cmitk::WeakPointer< mitk::DataInteractor >
Cmitk::WeakPointer< mitk::DataNode >
Cmitk::WeakPointer< mitk::DataStorage >
Cmitk::WeakPointer< mitk::DICOMTagCache >
Cmitk::WeakPointer< mitk::mitk::BaseRenderer >
Cmitk::WeakPointer< mitk::mitk::DataNode >
Cmitk::WeakPointer< mitk::mitk::DataStorage >
Cmitk::WeakPointer< mitk::mitk::Image >
Cmitk::WeakPointer< mitk::PointSet >
Cmitk::WeakPointer< mitk::PropertyList >
Cberry::WeakPointer< Self >