# informational; use java -jar sezpoz.jar to see authoritative contents
de.unihalle.informatik.MiToBo.apps.biofilms.ArealParameterExtractor{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.apps.biofilms.TexturalParameterExtractor{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.apps.cellMorphology.paceQuant.FeatureColorMapper{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.apps.cellMorphology.paceQuant.PaCeQuant{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.apps.cells2D.CellBoundaryExtractor2D{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.apps.cells2D.Mica2D{genericExecutionMode=ALL, level=APPLICATION, shortDescription=Operator for integrated cell image analysis.}
de.unihalle.informatik.MiToBo.apps.cytoplasm2D.CytoplasmAnalyzer2D{genericExecutionMode=ALL, level=APPLICATION, shortDescription=Segment cell contours from a given single-layer image.}
de.unihalle.informatik.MiToBo.apps.cytoskeleton.ActinAnalyzer2D{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION, shortDescription=Performs an unsupervised analysis of actin microfilament structures in sets of microscopy images.}
de.unihalle.informatik.MiToBo.apps.cytoskeleton.CytoskeletonAnalyzer2D{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION, shortDescription=Extracts quantative global features of cytoskeletons.}
de.unihalle.informatik.MiToBo.apps.cytoskeleton.CytoskeletonFeatureExtractorEigenStructures{allowBatchMode=false, genericExecutionMode=SWING, level=STANDARD, shortDescription=Extracts Eigen structures as features for the ActinAnalyzer2D.}
de.unihalle.informatik.MiToBo.apps.cytoskeleton.CytoskeletonFeatureExtractorHaralickMeasures{allowBatchMode=false, genericExecutionMode=SWING, level=STANDARD, shortDescription=Extracts Haralick texture measures from co-occurrence matrices as features for the ActinAnalyzer2D.}
de.unihalle.informatik.MiToBo.apps.cytoskeleton.CytoskeletonFeatureExtractorLBPs{allowBatchMode=false, genericExecutionMode=SWING, level=STANDARD, shortDescription=Extracts LBP features for the ActinAnalyzer2D.}
de.unihalle.informatik.MiToBo.apps.cytoskeleton.CytoskeletonFeatureExtractorLBPsRIU{allowBatchMode=false, genericExecutionMode=SWING, level=STANDARD, shortDescription=Extracts LBP rotation-invariant and unified features for the ActinAnalyzer2D.}
de.unihalle.informatik.MiToBo.apps.neurites2D.NeuriteDetector2D{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.apps.neurites2D.NeuriteExtractor2D{allowBatchMode=false, genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.apps.neurites2D.NeuriteMolProfExtractor2D{allowBatchMode=false, genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.apps.neurites2D.NeuriteParticleDetector2D{allowBatchMode=true, genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.apps.neurons2D.NeuronAnalyzer2D{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION, shortDescription=Analyzes 2D fluorescence microscope images of neurons.}
de.unihalle.informatik.MiToBo.apps.nuclei2D.NuclearParticleDetector2D{allowBatchMode=true, genericExecutionMode=ALL, level=APPLICATION, shortDescription=Detects nuclei and particles inside these nuclei.}
de.unihalle.informatik.MiToBo.apps.nuclei2D.NucleusDetector2D{genericExecutionMode=ALL, shortDescription=Operator for segmenting cell nuclei in 2D images.}
de.unihalle.informatik.MiToBo.apps.nuclei2D.NucleusSeparator2D{genericExecutionMode=ALL, level=APPLICATION, shortDescription=Routines for separating conglomerates of cell nuclei in 2D.}
de.unihalle.informatik.MiToBo.apps.nuclei2D.NucleusSeparator2DBeamCut{genericExecutionMode=ALL, shortDescription=Routines for separating conglomerates of cell nuclei in 2D.}
de.unihalle.informatik.MiToBo.apps.nuclei2D.NucleusSeparator2DPeakSearch{genericExecutionMode=ALL, level=STANDARD, shortDescription=Operator for separating merged nuclei regions in images.}
de.unihalle.informatik.MiToBo.apps.nuclei2D.NucleusSeparator2DPeakSearch_RegionSeparator{genericExecutionMode=NONE}
de.unihalle.informatik.MiToBo.apps.particles2D.HyperStackParticleDetectorUWT2D{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.apps.particles2D.MultiChannelParticleAnalyzer2D{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.apps.particles2D.ParticleDetectorUWT2D{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION, shortDescription=Detects spotlike structures in 2D based on the undecimated wavelet transform.}
de.unihalle.informatik.MiToBo.apps.plantCells.plastids.PlastidDetector2DParticlesUWT{allowBatchMode=true, genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.apps.plantCells.plastids.PlastidNucleiDistanceAnalyzer2D{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.apps.plantCells.stromules.StromulesDetector2D{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.apps.scratchAssay.ScratchAssayAnalyzer{allowBatchMode=true, genericExecutionMode=ALL, level=APPLICATION, shortDescription=Analyzes the scratch areas in a scratch assay/ gap closure/ wound closure assays.}
de.unihalle.informatik.MiToBo.apps.scratchAssay.ScratchAssaySVMTrainer{allowBatchMode=false, genericExecutionMode=SWING, level=STANDARD, shortDescription=Training and cross validation of support vector machines for classifying scratch assays.}
de.unihalle.informatik.MiToBo.apps.scratchAssay.ScratchAssaySegmenter{genericExecutionMode=SWING, level=STANDARD, shortDescription=Segments the wound area of a scratch assay image.}
de.unihalle.informatik.MiToBo.apps.singleCellTracking2D.CellMigrationAnalyzer{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION, shortDescription=Operator for segmenting, tracking and analyzing 2D image sequences of fluorescently labeled cells.}
de.unihalle.informatik.MiToBo.apps.singleCellTracking2D.CellSegmentationPostprocessing{genericExecutionMode=SWING, level=STANDARD, shortDescription=Performs post-processing tasks on already segmented cell images.}
de.unihalle.informatik.MiToBo.apps.singleCellTracking2D.CellTrackerBipartite{genericExecutionMode=ALL, level=STANDARD, shortDescription=Assigns unique labels to regions representing individual cells in the input binary image sequence.}
de.unihalle.informatik.MiToBo.apps.singleCellTracking2D.FluorescentCellSegmenter{genericExecutionMode=ALL, level=STANDARD, shortDescription=Segments images or image sequences containing fluorescently labeled cells.}
de.unihalle.informatik.MiToBo.apps.singleCellTracking2D.ManualTrackingMigrationAnalyzer{genericExecutionMode=ALL, level=STANDARD, shortDescription=Migration analyzer based on manual tracking.}
de.unihalle.informatik.MiToBo.apps.singleCellTracking2D.MigrationAnalyzer{genericExecutionMode=ALL, level=STANDARD, shortDescription=Analyzes the movement pattern of cells as well as changes in morphology and fluorescence intensity}
de.unihalle.informatik.MiToBo.apps.xylem.XylemDetector{genericExecutionMode=ALL, level=APPLICATION, shortDescription=Implements xylem detection in RGB or HSX images.}
de.unihalle.informatik.MiToBo.apps.xylem.XylemGrower{genericExecutionMode=ALL, level=APPLICATION, shortDescription=Implements region growing for xylem segmentation.}
de.unihalle.informatik.MiToBo.apps.xylem.XylemInitialSegmentation{genericExecutionMode=ALL, level=APPLICATION, shortDescription=Makes an initial segmentation of Xylem Cell Images}
de.unihalle.informatik.MiToBo.clustering.KMeans{genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.color.conversion.HSIToRGBPixelConverter{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.color.conversion.RGBToHSXConverter{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.color.tools.DistinctColorListGenerator{genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.core.imageJ.RoiFileToCSVConverter{allowBatchMode=false, genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.core.imageJ.RoiWriter{allowBatchMode=false, genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.enhance.GammaCorrection2D{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.enhance.GlobalContrastStretching{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.enhance.HistogramEqualization{allowBatchMode=true, genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.enhance.IlluminationCorrection{allowBatchMode=true, genericExecutionMode=ALL, level=STANDARD, shortDescription=Correction of uneven illumination.}
de.unihalle.informatik.MiToBo.enhance.LocallyAdaptiveContrastEnhancement{genericExecutionMode=ALL, level=APPLICATION, shortDescription=Locally adaptive contrast enhancement for microscopy images. }
de.unihalle.informatik.MiToBo.enhance.TopHatContrastEnhancement{allowBatchMode=true, genericExecutionMode=ALL, level=STANDARD, shortDescription=Enhances the contrast by top-hat operations.}
de.unihalle.informatik.MiToBo.features.MorphologyAnalyzer2D{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.features.MorphologyAnalyzer3D{allowBatchMode=true, genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.features.SurfaceExtraction{genericExecutionMode=SWING, level=STANDARD}
de.unihalle.informatik.MiToBo.features.TileFeatureCalculator{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION, shortDescription=Calculates features tile-wise on images for given feature extractors.}
de.unihalle.informatik.MiToBo.features.contours.Contour2DConcavityCalculator{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.features.contours.Contour2DCurvatureCalculator{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.features.regions.Region2DSkeletonAnalyzer{allowBatchMode=false, genericExecutionMode=ALL, level=STANDARD, shortDescription=Analyzes skeletons of a given set of regions.}
de.unihalle.informatik.MiToBo.features.statistical.FeatureCalculatorIntensityStats{allowBatchMode=false, genericExecutionMode=ALL, level=STANDARD, shortDescription=Calculates statistical features tile-wise on images.}
de.unihalle.informatik.MiToBo.features.texture.FeatureCalculatorHaralickMeasures{allowBatchMode=false, genericExecutionMode=ALL, level=STANDARD, shortDescription=Calculates set of Haralick co-occurrence texture features from an image.}
de.unihalle.informatik.MiToBo.features.texture.lbp.FeatureCalculatorLBP{allowBatchMode=false, genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.features.texture.lbp.FeatureCalculatorLBPOriginal{allowBatchMode=false, genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.features.texture.lbp.FeatureCalculatorLBPRIU{allowBatchMode=false, genericExecutionMode=SWING, level=STANDARD}
de.unihalle.informatik.MiToBo.fields.FieldOperations2D{allowBatchMode=false, genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.fields.GVFFieldCalculator2D{genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.fields.GradientFieldCalculator2D{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.fields.GradientFieldNonMaxSuppression{allowBatchMode=true, genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.filters.linear.GaussFilter{genericExecutionMode=ALL, level=APPLICATION, shortDescription=Convolves an image with a multi-dimensional Gaussian filter.}
de.unihalle.informatik.MiToBo.filters.linear.LinearFilter{genericExecutionMode=ALL, shortDescription=Convolves an image with a user-specified kernel.}
de.unihalle.informatik.MiToBo.filters.linear.MeanFilter{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.filters.linear.anisotropic.ChaudhuriMatchedFilter2D{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.filters.linear.anisotropic.GaborFilter2D{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.filters.linear.anisotropic.GaussPDxFilter2D{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.filters.linear.anisotropic.GaussPDxxFilter2D{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.filters.linear.anisotropic.OrientedFilter2DBatchAnalyzer{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.filters.nonlinear.RankOperator{genericExecutionMode=ALL, shortDescription=Applies a non-linear rank operator to the image.}
de.unihalle.informatik.MiToBo.filters.nonlinear.StatisticsFilter{genericExecutionMode=ALL, shortDescription=Extracts statistical values over local neighborhoods of given image.}
de.unihalle.informatik.MiToBo.filters.vesselness.MFFDOGFilter2D{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.filters.vesselness.MFFDOGMultiScaleFilter2D{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.filters.vesselness.MPMFFilter2D{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.filters.vesselness.MedialnessMultiScaleFilter2D{allowBatchMode=true, genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.filters.vesselness.StegerRidgeDetection2DWrapper{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.imageJ.plugins.cellCounter.operators.CellCounterDetectOperatorParticlesUWT{genericExecutionMode=NONE}
de.unihalle.informatik.MiToBo.imageJ.plugins.cellCounter.operators.CellCounterDetectOperatorStromules{genericExecutionMode=NONE}
de.unihalle.informatik.MiToBo.io.files.GraphvizWriter{genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.io.images.ImageReaderMTB{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.io.images.ImageWriterMTB{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.io.importer.GetMTBContour2DSetFromXSVFiles{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.io.importer.rsml.MTBRSMLProjectImporter{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.math.arrays.filter.GaussFilterDouble1D{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.math.fitting.FitEllipseToPointSet{genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.math.fitting.FitQuadraticCurveToPointSet{genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.math.graphs.DijkstraShortestPixelPathFinder{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.math.images.ImageArithmetics{genericExecutionMode=ALL, level=STANDARD, shortDescription=Image arithmetics class for MTBImage objects.}
de.unihalle.informatik.MiToBo.math.images.ImageStatistics{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.math.statistics.PCA{allowBatchMode=false, genericExecutionMode=ALL, level=STANDARD, shortDescription=This class implements the Karhunen-Loeve transformation, also known as PCA.}
de.unihalle.informatik.MiToBo.morphology.BasicMorphology{genericExecutionMode=ALL, level=APPLICATION, shortDescription=Basic morphological operations on binary and grayscale images.}
de.unihalle.informatik.MiToBo.morphology.ComponentPostprocess{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.morphology.ConvexHullExtraction{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.morphology.DistanceTransform{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.morphology.HDomeTransform3D{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.morphology.ImgClose{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.morphology.ImgDilate{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.morphology.ImgErode{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.morphology.ImgOpen{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.morphology.ImgTophat{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.morphology.SkeletonExtractor{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.morphology.SkeletonPostprocessor{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.morphology.WatershedBinary{allowBatchMode=true, genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.segmentation.basics.CalcSegmentationStatistics{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.segmentation.basics.SegmentationInitializer{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.segmentation.contours.extraction.BordersOnLabeledComponents{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.segmentation.contours.extraction.ContourOnLabeledComponents{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.segmentation.evaluation.GroundtruthEvaluation{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.segmentation.helpers.LabelImageConverter{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.segmentation.levelset.PDE.solver.LevelsetSolverPDE{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.segmentation.levelset.nonPDE.LevelsetSegmentationNonPDE{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.segmentation.levelset.nonPDE.LevelsetSolveNonPDE{genericExecutionMode=NONE}
de.unihalle.informatik.MiToBo.segmentation.regions.convert.Region2DSetFromLabelimage{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.segmentation.regions.filling.FillHoles2D{genericExecutionMode=ALL, level=STANDARD, shortDescription=Fills holes in connected components of binary or label images.}
de.unihalle.informatik.MiToBo.segmentation.regions.labeling.LabelComponentsSequential{genericExecutionMode=ALL, level=APPLICATION, shortDescription=Sequential component labeling for binarized 2D images.}
de.unihalle.informatik.MiToBo.segmentation.regions.mser.DetectMSERs{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.segmentation.snakes.optimize.SnakeOptimizerCoupled{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.segmentation.snakes.optimize.SnakeOptimizerSingleGreedy{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.segmentation.snakes.optimize.SnakeOptimizerSingleVarCalc{genericExecutionMode=ALL, level=STANDARD, shortDescription=Image contour segmentation with parametric snakes.}
de.unihalle.informatik.MiToBo.segmentation.thresholds.CalcGlobalThreshOtsu{genericExecutionMode=ALL, shortDescription=Otsu's method for calculating global thresholds for image binarization.}
de.unihalle.informatik.MiToBo.segmentation.thresholds.HysteresisThresholding{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.segmentation.thresholds.ImgThresh{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.segmentation.thresholds.ImgThreshNiblack{genericExecutionMode=ALL, shortDescription=Image binarization based on local Niblack thresholding.}
de.unihalle.informatik.MiToBo.tools.FilenameGenerator{genericExecutionMode=SWING, level=STANDARD}
de.unihalle.informatik.MiToBo.tools.image.CropImage{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.tools.image.ImageContrastReducer{allowBatchMode=true, genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.tools.image.ImageConverter{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.tools.image.ImageDimensionReducer{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.tools.image.ImageToTilesSplitter{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.tools.image.ImageValueTools{genericExecutionMode=NONE}
de.unihalle.informatik.MiToBo.tools.interactive.LabelImageEditor{allowBatchMode=false, genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.tracking.multitarget.algo.MultiObservationGenerator{genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.tracking.multitarget.algo.MultiObservationTrackerRBMCDAIMM{genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.transforms.UndecimatedWaveletTransform{genericExecutionMode=NONE}
de.unihalle.informatik.MiToBo.visualization.colormappings.ArrayToColorMapImage{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.visualization.colormappings.GrayscaleImageToHeatmap{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.visualization.colormappings.GrayscaleToGrayscaleMapping{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.visualization.drawing.DrawContour2DSet{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.visualization.drawing.DrawEllipse{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.visualization.drawing.DrawLine{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.visualization.drawing.DrawMask2D{genericExecutionMode=ALL, level=APPLICATION}
de.unihalle.informatik.MiToBo.visualization.drawing.DrawPolygon2DSet{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.visualization.drawing.DrawRegion2DSet{genericExecutionMode=ALL, shortDescription=Visualizes 2D regions.}
de.unihalle.informatik.MiToBo.visualization.drawing.DrawStringToImage{genericExecutionMode=ALL, level=STANDARD}
de.unihalle.informatik.MiToBo.visualization.drawing.DrawTracks2D{genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.visualization.drawing.MTBPlotHistogram{genericExecutionMode=ALL}
de.unihalle.informatik.MiToBo.visualization.plots.BoxWhiskerChartPlotter{allowBatchMode=false, genericExecutionMode=NONE, level=STANDARD}
de.unihalle.informatik.MiToBo.visualization.plots.StackedBarChartPlotter{allowBatchMode=false, genericExecutionMode=NONE, level=STANDARD}
