AIDAJNI.java example

Explorer
freehep-ncolor-pdf-master
- base
- demo
  - freehep-exportdemo
    - src
      - main
        java
        org
        freehep
        demo
        graphics
        ExportDemo.java
        SaveAsDialog.java
  - freehep-iconbrowser
    - src
      - main
        java
        org
        freehep
        demo
        iconbrowser
        IconArchive.java
        IconBrowser.java
        IconDirectory.java
        SaveAsDialog.java
        ZipAnnotate.java
        ZipInputStreamTree.java
        ZipListTree.java
        ZipTree.java
  - freehep-roothistogrambrowser
    - src
      - main
        java
        org
        freehep
        webstart
        Dummy.java
  - freehep-rootobjectbrowser
    - src
      - main
        java
        org
        freehep
        webstart
        Dummy.java
- hep
  - freehep-java3d
    - src
      - main
        java
        hep
        graphics
        j3d
        Helix.java
        geant4
        G4Box.java
        G4Cons.java
        G4Para.java
        G4Polycone.java
        G4Polyhedra.java
        G4Sphere.java
        G4Torus.java
        G4Trap.java
        G4Trd.java
        G4Tubs.java
        org
        freehep
        j3d
        ConeSegment.java
        OutlinedShape3D.java
        PolyConeSegment.java
        PolyGoneSegment.java
        PolyLine.java
        Solid.java
        SphereSegment.java
        TorusSegment.java
        Trapezoid.java
        plot
        AbstractPlotBuilder.java
        AxisBuilder.java
        AxisLabelCalculator.java
        Binned2DData.java
        DoubleNumberFormatter.java
        KeyNavigator.java
        KeyNavigatorBehavior.java
        LegoBuilder.java
        LegoPlot.java
        MouseDownUpBehavior.java
        NormalizedBinned2DData.java
        NormalizedBinned2DLogData.java
        Plot3D.java
        PlotKeyNavigatorBehavior.java
        Rainbow.java
        ScatterBuilder.java
        SurfaceBuilder.java
        SurfacePlot.java
        TimeStamp.java
        Unbinned3DData.java
        XAxisBuilder.java
        YAxisBuilder.java
        ZAxisBuilder.java
        demo
        DemoGUI.java
        LegoControlPanel.java
        TestBinned2DData.java
        TestLego.java
        TestSurface.java
      - test
        java
        hep
        graphics
        j3d
        Test.java
        geant4
        Test.java
        org
        freehep
        j3d
        Test.java
  - freehep-physics
    - src
      - main
        java
        hep
        physics
        event
        BaseEvent.java
        HEPEvent.java
        generator
        EventGenerator.java
        GeneratorEvent.java
        GeneratorFactory.java
        MCEvent.java
        diagnostic
        DiagnosticEventGenerator.java
        filter
        Filter.java
        Predicate.java
        jet
        AbstractJetFinder.java
        DurhamJetFinder.java
        EventShape.java
        FixNumberOfJetsFinder.java
        GenevaJetFinder.java
        JadeE0JetFinder.java
        JadeEJetFinder.java
        JadeJetFinder.java
        JadeP0JetFinder.java
        JadePJetFinder.java
        JetFinder.java
        matrix
        BasicMatrix.java
        Matrix.java
        MatrixOp.java
        MutableMatrix.java
        SymmetricMatrix.java
        particle
        BasicParticle.java
        Particle.java
        ParticleUtilities.java
        properties
        DefaultParticlePropertyProvider.java
        ParticlePropertyManager.java
        ParticlePropertyProvider.java
        ParticleType.java
        UnknownParticleIDException.java
        stdhep
        convert
        StdhepConverter.java
        vec
        BasicHep3Matrix.java
        BasicHep3Vector.java
        BasicHepLorentzVector.java
        Hep3Matrix.java
        Hep3Vector.java
        HepLorentzVector.java
        SpacePoint.java
        VecOp.java
      - test
        java
        hep
        physics
        event
        generator
        diagnostic
        TestEventGenerator.java
        matrix
        MatrixOpTest.java
        SymmetricMatrixTest.java
        vec
        VecOpTest.java
  - freehep-yappi
    - src
      - main
        java
        hep
        physics
        yappi
        AdditionalData.java
        Data.java
        DecayChannel.java
        DecayGroup.java
        DecayProduct.java
        DecayText.java
        Family.java
        PDGID.java
        ParticleType.java
        XMLYappi.java
        XMLYappiReader.java
        XMLYappiWriter.java
        Yappi.java
        io
        HTMLYappiWriter.java
        servlet
        CreateTexFile.java
        Lookup.java
        util
        PDGMCtoXML.java
        YappiParticlePropertyProvider.java
      - test
        java
        hep
        physics
        yappi
        io
        test
        TestHTMLYappiWriter.java
        test
        TestYappi.java
- hepio
- heprep
- jaida
- math
  - freehep-fminuit
    - src
      - main
        java
        org
        freehep
        math
        fminuit
        FMinuitCommands.java
        FMinuitFunction.java
  - freehep-jminuit
    - src
- maven-plugins
  - freehep-chartableconverter-plugin
    - src
      - main
        java
        org
        freehep
        graphics2d
        font
        encoding
        CharTableConverter.java
        CharTableConverterMojo.java
  - freehep-filter-plugin
    - src
      - main
        java
        org
        freehep
        maven
        filter
        FilterMojo.java
  - freehep-idlj-plugin
    - src
      - main
        java
        org
        freehep
        maven
        idlj
        IdljMojo.java
  - freehep-jarjar-plugin
    - src
      - main
        java
        org
        freehep
        maven
        jarjar
        InfoMojo.java
        JarJarMojo.java
        JarUnArchiver.java
  - freehep-jas-plugin
    - src
      - main
        java
        org
        freehep
        maven
        jas
        JasMojo.java
  - freehep-nar-plugin
    - plugin
      - src
        main
        java
        org
        freehep
        maven
        nar
        AOL.java
        AbstractCompileMojo.java
        AbstractDependencyMojo.java
        AbstractNarMojo.java
        AttachedNarArtifact.java
        C.java
        Compiler.java
        Cpp.java
        Executable.java
        Fortran.java
        Java.java
        Javah.java
        Lib.java
        Library.java
        Linker.java
        NarArchiver.java
        NarArtifact.java
        NarArtifactHandler.java
        NarAssemblyMojo.java
        NarCompileMojo.java
        NarConstants.java
        NarDownloadMojo.java
        NarInfo.java
        NarIntegrationTestMojo.java
        NarJavahMojo.java
        NarLogger.java
        NarManager.java
        NarPackageMojo.java
        NarResourcesMojo.java
        NarSystemGenerate.java
        NarTestCompileMojo.java
        NarTestMojo.java
        NarUnArchiver.java
        NarUnpackMojo.java
        NarUtil.java
        OS.java
        SysLib.java
        Test.java
    - tests
      - hellothirdpartyjni
        src
        test
        java
        HelloThirdPartyJNITest.java
      - helloworldjni
        src
        main
        java
        com
        mycompany
        mypackage
        HelloWorldJNI.java
        test
        java
        HelloWorldJNITest.java
      - helloworldjnilibjava
        src
        test
        java
        HelloWorldJNITest.java
      - helloworldsharedlibjni
        src
        main
        java
        com
        mycompany
        mypackage
        HelloWorldSharedLibJNI.java
        test
        java
        HelloWorldSharedLibJNITest.java
      - helloworldstaticjni
        src
        main
        java
        com
        mycompany
        mypackage
        HelloWorldStaticJNI.java
        test
        java
        HelloWorldStaticJNITest.java
      - helloworldstaticlibjni
        src
        main
        java
        com
        mycompany
        mypackage
        HelloWorldSharedLibJNI.java
        test
        java
        HelloWorldSharedLibJNITest.java
  - freehep-one-plugin
    - src
      - main
        java
        org
        freehep
        maven
        one
        OneMojo.java
  - freehep-rmic-plugin
    - src
      - main
        java
        org
        freehep
        maven
        rmic
        RmicMojo.java
  - freehep-swig-plugin
    - src
      - main
        java
        org
        freehep
        maven
        swig
        SwigMojo.java
  - freehep-wbxml-plugin
    - src
      - main
        java
        org
        freehep
        maven
        wbxml
        AbstractWBXMLMojo.java
        Attribute.java
        CppMojo.java
        DocMojo.java
        JavaMojo.java
        Tag.java
        WBXMLConstants.java
- site
  - src
    - site
      - resources
        freehep1.x
        jaida
        v3.0
        examples
        UsingJAIDAFromJava.java
        v3.0.3
        examples
        UsingJAIDAFromJava.java
        v3.2.0
        examples
        AIDAEmbed.java
        AIDAServlet.java
        UsingJAIDAFromJava.java
        v3.2.1
        examples
        AIDAEmbed.java
        AIDAServlet.java
        UsingJAIDAFromJava.java
        v3.2.2
        examples
        AIDAEmbed.java
        AIDAServlet.java
        UsingJAIDAFromJava.java
        v3.2.3
        examples
        AIDAEmbed.java
        AIDAServlet.java
        UsingJAIDAFromJava.java
        v3.2.4
        examples
        AIDAEmbed.java
        AIDAServlet.java
        UsingJAIDAFromJava.java
- tools
- vectorgraphics
  - freehep-graphics2d
    - src
      - main
        java
        org
        freehep
        graphics2d
        AbstractVectorGraphics.java
        ArrayPath.java
        BufferedPanel.java
        GenericTagHandler.java
        PixelGraphics2D.java
        PrintColor.java
        ScreenConstants.java
        SymbolShape.java
        TagHandler.java
        TagString.java
        VectorGraphics.java
        VectorGraphicsConstants.java
        WebColor.java
        font
        AbstractCharTable.java
        CharTable.java
        FontEncoder.java
        FontUtilities.java
        Lookup.java
      - test
        java
        org
        freehep
        graphics2d
        font
        test
        TestLookup.java
        test
        TestPerformance.java
  - freehep-graphicsio
    - src
      - main
        java
        org
        freehep
        graphicsio
        AbstractPathConstructor.java
        AbstractVectorGraphicsIO.java
        CubicToLinePathConstructor.java
        CubicToQuadPathConstructor.java
        DummyGraphics2D.java
        FontConstants.java
        ImageConstants.java
        ImageEncoder.java
        ImageGraphics2D.java
        ImageParamConverter.java
        InfoConstants.java
        MultiPageDocument.java
        PageConstants.java
        PathConstructor.java
        PolylinePathConstructor.java
        QuadToCubicPathConstructor.java
        VectorGraphicsIO.java
        exportchooser
        AbstractExportFileType.java
        BackgroundPanel.java
        FontPanel.java
        HeadFootDialog.java
        ImageExportFileType.java
        ImageIOExportFileType.java
        ImagePanel.java
        ImageSizePanel.java
        ImageTypePanel.java
        InfoPanel.java
        OptionButton.java
        OptionCheckBox.java
        OptionComboBox.java
        OptionFormattedTextField.java
        OptionPanel.java
        OptionRadioButton.java
        OptionTextField.java
        Options.java
        PageLayoutPanel.java
        PageMarginPanel.java
        ProgressDialog.java
        font
        CharstringEncoder.java
        FontEmbedder.java
        FontEmbedderType1.java
        FontIncluder.java
        FontTable.java
        truetype
        TTFCMapTable.java
        TTFFile.java
        TTFFileInput.java
        TTFFont.java
        TTFGlyfTable.java
        TTFHHeaTable.java
        TTFHMtxTable.java
        TTFHeadTable.java
        TTFInput.java
        TTFLocaTable.java
        TTFMaxPTable.java
        TTFMemoryInput.java
        TTFNameTable.java
        TTFOS_2Table.java
        TTFOpenType.java
        TTFPostTable.java
        TTFTable.java
        TTFVersionTable.java
        gif
        GIFColorMap.java
        GIFEncoder.java
        GIFExportFileType.java
        GIFGraphics2D.java
        GIFImageWriteParam.java
        GIFImageWriter.java
        GIFImageWriterSpi.java
        GIFNearestColorMap.java
        GIFNeuralColorMap.java
        GIFPlainColorMap.java
        ImageEncoder.java
        NeuQuant.java
        Quantize.java
        png
        PNGEncoder.java
        ppm
        ImageEncoder.java
        PPMEncoder.java
        PPMExportFileType.java
        PPMImageWriter.java
        PPMImageWriterSpi.java
        raw
        RawExportFileType.java
        RawImageWriteParam.java
        RawImageWriter.java
        RawImageWriterSpi.java
      - test
        java
        org
        freehep
        graphicsio
        font
        truetype
        test
        GlyphPanel.java
        TTFFileTest.java
  - freehep-graphicsio-cgm
    - src
      - main
        java
        org
        freehep
        graphicsio
        cgm
        AlternateCharacterSetIndex.java
        AppendText.java
        ApplicationData.java
        AspectSourceFlags.java
        AuxiliaryColor.java
        BackgroundColor.java
        BeginFigure.java
        BeginMetafile.java
        BeginPicture.java
        BeginPictureBody.java
        BeginSegment.java
        CGMDummyTag.java
        CGMExportFileType.java
        CGMGraphics2D.java
        CGMInputStream.java
        CGMOutputStream.java
        CGMPathConstructor.java
        CGMTag.java
        CGMTagSet.java
        CGMWriter.java
        CellArray.java
        CharacterCodingAnnouncer.java
        CharacterExpansionFactor.java
        CharacterHeight.java
        CharacterOrientation.java
        CharacterSetIndex.java
        CharacterSetList.java
        CharacterSpacing.java
        Circle.java
        CircularArc3Point.java
        CircularArc3PointClose.java
        CircularArcCentre.java
        CircularArcCentreClose.java
        ClipIndicator.java
        ClipRectangle.java
        ColorIndexPrecision.java
        ColorPrecision.java
        ColorSelectionMode.java
        ColorTable.java
        ColorValueExtent.java
        ConnectingEdge.java
        DisjointPolyline.java
        EdgeBundleIndex.java
        EdgeCap.java
        EdgeColor.java
        EdgeJoin.java
        EdgeType.java
        EdgeVisibility.java
        EdgeWidth.java
        EdgeWidthSpecificationMode.java
        Ellipse.java
        EllipticalArc.java
        EllipticalArcClose.java
        EndFigure.java
        EndMetafile.java
        EndPicture.java
        EndSegment.java
        Escape.java
        FillBundleIndex.java
        FillColor.java
        FillReferencePoint.java
        FontList.java
        GeneralizedDrawingPrimitive.java
        HatchIndex.java
        IndexPrecision.java
        IntegerPrecision.java
        InteriorStyle.java
        InteriorStyleSpecificationMode.java
        LineBundleIndex.java
        LineCap.java
        LineColor.java
        LineJoin.java
        LineType.java
        LineWidth.java
        LineWidthSpecificationMode.java
        MarkerBundleIndex.java
        MarkerColor.java
        MarkerSize.java
        MarkerSizeSpecificationMode.java
        MarkerType.java
        MaximumColorIndex.java
        MaximumVDCExtent.java
        Message.java
        MetafileDefaultsReplacement.java
        MetafileDescription.java
        MetafileElementList.java
        MetafileVersion.java
        MitreLimit.java
        NamePrecision.java
        NoOp.java
        PatternIndex.java
        PatternSize.java
        PatternTable.java
        Polygon.java
        PolygonSet.java
        Polyline.java
        Polymarker.java
        RealPrecision.java
        Rectangle.java
        RestrictedText.java
        ScalingMode.java
        SegmentPriorityExtent.java
        Text.java
        TextAlignment.java
        TextBundleIndex.java
        TextColor.java
        TextFontIndex.java
        TextPath.java
        TextPrecision.java
        Transparency.java
        TransparentCellColour.java
        VDCExtent.java
        VDCIntegerPrecision.java
        VDCRealPrecision.java
        VDCType.java
      - test
        java
        org
        freehep
        graphicsio
        cgm
        test
        ArcCloseTest.java
        ArcTest.java
        BigCellArrayTest.java
        CGMAnalyze.java
        CGMDump.java
        CGMTestSuite.java
        CellArrayTest.java
        EllipseTest.java
        PolygonTest.java
        PolylineTest.java
        TextTest.java
  - freehep-graphicsio-emf
    - src
      - main
        java
        org
        freehep
        graphicsio
        emf
        EMF2SVG.java
        EMFApplet.java
        EMFConstants.java
        EMFConverter.java
        EMFDisplay.java
        EMFExportFileType.java
        EMFGraphics2D.java
        EMFHandleManager.java
        EMFHeader.java
        EMFImageLoader.java
        EMFInputStream.java
        EMFOutputStream.java
        EMFPanel.java
        EMFPathConstructor.java
        EMFRenderer.java
        EMFTag.java
        EMFTagSet.java
        EMFViewer.java
        gdi
        AbortPath.java
        AbstractArc.java
        AbstractClipPath.java
        AbstractExtTextOut.java
        AbstractPen.java
        AbstractPolyPolygon.java
        AbstractPolyPolyline.java
        AbstractPolygon.java
        AlphaBlend.java
        AngleArc.java
        Arc.java
        ArcTo.java
        BeginPath.java
        BitBlt.java
        BitmapInfo.java
        BitmapInfoHeader.java
        BlendFunction.java
        Chord.java
        CloseFigure.java
        CreateBrushIndirect.java
        CreateDIBPatternBrushPt.java
        CreatePen.java
        DeleteObject.java
        EMFPolygon.java
        EMFRectangle.java
        EOF.java
        Ellipse.java
        EndPath.java
        ExcludeClipRect.java
        ExtCreateFontIndirectW.java
        ExtCreatePen.java
        ExtFloodFill.java
        ExtLogFontW.java
        ExtLogPen.java
        ExtSelectClipRgn.java
        ExtTextOutA.java
        ExtTextOutW.java
        FillPath.java
        FlattenPath.java
        GDIComment.java
        GDIObject.java
        Gradient.java
        GradientFill.java
        GradientRectangle.java
        GradientTriangle.java
        IntersectClipRect.java
        LineTo.java
        LogBrush32.java
        LogFontW.java
        LogPen.java
        ModifyWorldTransform.java
        MoveToEx.java
        OffsetClipRgn.java
        Panose.java
        Pie.java
        PolyBezier.java
        PolyBezier16.java
        PolyBezierTo.java
        PolyBezierTo16.java
        PolyDraw.java
        PolyDraw16.java
        PolyPolygon.java
        PolyPolygon16.java
        PolyPolyline.java
        PolyPolyline16.java
        Polygon16.java
        Polyline.java
        Polyline16.java
        PolylineTo.java
        PolylineTo16.java
        RealizePalette.java
        Region.java
        ResizePalette.java
        RestoreDC.java
        RoundRect.java
        SaveDC.java
        ScaleViewportExtEx.java
        ScaleWindowExtEx.java
        SelectClipPath.java
        SelectObject.java
        SelectPalette.java
        SetArcDirection.java
        SetBkColor.java
        SetBkMode.java
        SetBrushOrgEx.java
        SetICMMode.java
        SetMapMode.java
        SetMapperFlags.java
        SetMetaRgn.java
        SetMiterLimit.java
        SetPixelV.java
        SetPolyFillMode.java
        SetROP2.java
        SetStretchBltMode.java
        SetTextAlign.java
        SetTextColor.java
        SetViewportExtEx.java
        SetViewportOrgEx.java
        SetWindowExtEx.java
        SetWindowOrgEx.java
        SetWorldTransform.java
        StockObjects.java
        StretchDIBits.java
        StrokeAndFillPath.java
        StrokePath.java
        Text.java
        TextA.java
        TextW.java
        TriVertex.java
        WidenPath.java
      - test
        java
        org
        freehep
        graphicsio
        emf
        test
        EMFAnalyze.java
        EMFDump.java
        EMFTest.java
        EMFTestSuite.java
  - freehep-graphicsio-java
    - src
      - main
        java
        org
        freehep
        graphicsio
        java
        JAVAArrayMap.java
        JAVAExportFileType.java
        JAVAGeneralPath.java
        JAVAGraphics2D.java
      - test
        java
        org
        freehep
        graphicsio
        java
        test
        JAVATestSuite.java
        resources
        org
        freehep
        graphicsio
        java
        test
        TestAll.java
        TestClip.java
        TestColors.java
        TestCustomStrokes.java
        TestFontDerivation.java
        TestFonts.java
        TestGraphicsContexts.java
        TestHTML.java
        TestImage2D.java
        TestImages.java
        TestLabels.java
        TestLineStyles.java
        TestOffset.java
        TestPaint.java
        TestPrintColors.java
        TestResolution.java
        TestShapes.java
        TestSymbols2D.java
        TestTaggedString.java
        TestText2D.java
        TestTransforms.java
        TestTransparency.java
  - freehep-graphicsio-latex
    - src
      - main
        java
        org
        freehep
        graphicsio
        latex
        LatexExportFileType.java
        LatexGraphics2D.java
        LatexPathConstructor.java
      - test
        java
        org
        freehep
        graphicsio
        latex
        test
        LatexTestSuite.java
  - freehep-graphicsio-pdf
  - freehep-graphicsio-ps
    - src
      - main
        java
        org
        freehep
        graphicsio
        ps
        AbstractPSExportFileType.java
        AbstractPSGraphics2D.java
        ColorMap.java
        EPSExportFileType.java
        EPSGraphics2D.java
        EPSIEncoder.java
        MappedColor.java
        PSExportFileType.java
        PSFontEmbedder.java
        PSFontTable.java
        PSGraphics2D.java
        PSPathConstructor.java
        PSStringStyler.java
      - test
        java
        org
        freehep
        graphicsio
        ps
        test
        OffsetBug.java
        PSTestPreviewThumbnail.java
        PSTestSuite.java
        ScrollTest.java
        TestColorMap.java
        TestPSFont.java
        TestPSFontEmbedder.java
  - freehep-graphicsio-svg
    - src
      - main
        java
        org
        freehep
        graphicsio
        svg
        SVGExportFileType.java
        SVGFontTable.java
        SVGGlyph.java
        SVGGraphics2D.java
      - test
        java
        org
        freehep
        graphicsio
        svg
        test
        SVGTestSuite.java
  - freehep-graphicsio-swf
    - src
      - main
        java
        org
        freehep
        graphicsio
        swf
        ButtonCondAction.java
        ButtonRecord.java
        ClipActionRecord.java
        ClipEventFlags.java
        ColorXform.java
        ControlTag.java
        DefineBits.java
        DefineBitsJPEG2.java
        DefineBitsJPEG3.java
        DefineBitsLossless.java
        DefineBitsLossless2.java
        DefineButton.java
        DefineButton2.java
        DefineButtonCxform.java
        DefineButtonSound.java
        DefineEditText.java
        DefineFont.java
        DefineFont2.java
        DefineFontInfo.java
        DefineFontInfo2.java
        DefineMorphShape.java
        DefineMovie.java
        DefineShape.java
        DefineShape2.java
        DefineShape3.java
        DefineShape4.java
        DefineSound.java
        DefineSprite.java
        DefineText.java
        DefineText2.java
        DefineVideoStream.java
        DefinitionTag.java
        DoAction.java
        DoInitAction.java
        EnableDebugger.java
        EnableDebugger2.java
        End.java
        ExportAssets.java
        FileAttributes.java
        FillStyle.java
        FillStyleArray.java
        FrameLabel.java
        Gradient.java
        ImportAssets.java
        JPEGTables.java
        LineStyle.java
        LineStyleArray.java
        PlaceObject.java
        PlaceObject2.java
        Protect.java
        RemoveObject.java
        RemoveObject2.java
        SWFAction.java
        SWFActionSet.java
        SWFConstants.java
        SWFDictionary.java
        SWFExportFileType.java
        SWFGraphics2D.java
        SWFHeader.java
        SWFInputStream.java
        SWFOutputStream.java
        SWFPathConstructor.java
        SWFShape.java
        SWFSpriteTagSet.java
        SWFTag.java
        SWFTagSet.java
        SetBackgroundColor.java
        ShowFrame.java
        SoundEnvelope.java
        SoundInfo.java
        SoundStreamBlock.java
        SoundStreamHead.java
        SoundStreamHead2.java
        StartSound.java
        VideoFrame.java
      - test
        java
        org
        freehep
        graphicsio
        swf
        test
        SWFAnalyze.java
        SWFDump.java
        SWFTestSuite.java
  - freehep-graphicsio-tests
    - src
      - main
        java
        org
        freehep
        graphicsio
        test
        TestAll.java
        TestApplication.java
        TestClip.java
        TestColors.java
        TestCustomStrokes.java
        TestExportFileType.java
        TestFontDerivation.java
        TestFontType1.java
        TestFontType3.java
        TestFonts.java
        TestGraphicsContexts.java
        TestHTML.java
        TestHistogram.java
        TestImage2D.java
        TestImages.java
        TestLabels.java
        TestLineStyles.java
        TestMultiPage.java
        TestOffset.java
        TestPaint.java
        TestPerformance.java
        TestPreviewThumbnail.java
        TestPrintColors.java
        TestRenderingHints.java
        TestResolution.java
        TestScatterPlot.java
        TestShapes.java
        TestSuite.java
        TestSymbolPerformance.java
        TestSymbols2D.java
        TestTaggedString.java
        TestText2D.java
        TestTransforms.java
        TestTransparency.java
        TestUnicodeMap.java
        TestingFrame.java
        TestingPanel.java
      - test
        java
        org
        freehep
        graphicsio
        test
        GraphicsIOTestSuite.java
  - src
    - main
      - examples
        ExportDialogExample.java
        HeadlessExample.java
/* ----------------------------------------------------------------------------
 * This file was automatically generated by SWIG (http://www.swig.org).
 * Version 1.3.31
 *
 * Do not make changes to this file unless you know what you are doing--modify
 * the SWIG interface file instead.
 * ----------------------------------------------------------------------------- */

package hep.aida.swig;

import hep.aida.jni.AIDAJNIUtil;

class AIDAJNI {
  public final static native void delete_IAnnotation(long jarg1);
  public final static native void IAnnotation_addItem__SWIG_0(long jarg1, hep.aida.IAnnotation jarg1_, String jarg2, String jarg3, boolean jarg4);
  public final static native void IAnnotation_addItem__SWIG_1(long jarg1, hep.aida.IAnnotation jarg1_, String jarg2, String jarg3);
  public final static native void IAnnotation_removeItem(long jarg1, hep.aida.IAnnotation jarg1_, String jarg2);
  public final static native String IAnnotation_value__SWIG_0(long jarg1, hep.aida.IAnnotation jarg1_, String jarg2);
  public final static native void IAnnotation_setValue(long jarg1, hep.aida.IAnnotation jarg1_, String jarg2, String jarg3);
  public final static native void IAnnotation_setSticky(long jarg1, hep.aida.IAnnotation jarg1_, String jarg2, boolean jarg3);
  public final static native int IAnnotation_size(long jarg1, hep.aida.IAnnotation jarg1_);
  public final static native String IAnnotation_key(long jarg1, hep.aida.IAnnotation jarg1_, int jarg2);
  public final static native String IAnnotation_value__SWIG_1(long jarg1, hep.aida.IAnnotation jarg1_, int jarg2);
  public final static native void IAnnotation_reset(long jarg1, hep.aida.IAnnotation jarg1_);
  public final static native long new_IAnnotation();
  public final static native void IAnnotation_director_connect(hep.aida.IAnnotation obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IAnnotation_change_ownership(hep.aida.IAnnotation obj, long cptr, boolean take_or_release);
  public final static native String AIDA_VERSION_get();
  public final static native int AIDA_VERSION_MAJOR_get();
  public final static native int AIDA_VERSION_MINOR_get();
  public final static native void delete_IManagedObject(long jarg1);
  public final static native String IManagedObject_name(long jarg1, hep.aida.IManagedObject jarg1_);
  public final static native long new_IManagedObject();
  public final static native void IManagedObject_director_connect(hep.aida.IManagedObject obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IManagedObject_change_ownership(hep.aida.IManagedObject obj, long cptr, boolean take_or_release);
  public final static native void delete_IAxis(long jarg1);
  public final static native boolean IAxis_isFixedBinning(long jarg1, hep.aida.IAxis jarg1_);
  public final static native double IAxis_lowerEdge(long jarg1, hep.aida.IAxis jarg1_);
  public final static native double IAxis_upperEdge(long jarg1, hep.aida.IAxis jarg1_);
  public final static native int IAxis_bins(long jarg1, hep.aida.IAxis jarg1_);
  public final static native double IAxis_binLowerEdge(long jarg1, hep.aida.IAxis jarg1_, int jarg2);
  public final static native double IAxis_binUpperEdge(long jarg1, hep.aida.IAxis jarg1_, int jarg2);
  public final static native double IAxis_binWidth(long jarg1, hep.aida.IAxis jarg1_, int jarg2);
  public final static native int IAxis_coordToIndex(long jarg1, hep.aida.IAxis jarg1_, double jarg2);
  public final static native int IAxis_UNDERFLOW_BIN_get();
  public final static native int IAxis_OVERFLOW_BIN_get();
  public final static native long new_IAxis();
  public final static native void IAxis_director_connect(hep.aida.IAxis obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IAxis_change_ownership(hep.aida.IAxis obj, long cptr, boolean take_or_release);
  public final static native void delete_IBaseHistogram(long jarg1);
  public final static native String IBaseHistogram_title(long jarg1, hep.aida.IBaseHistogram jarg1_);
  public final static native void IBaseHistogram_setTitle(long jarg1, hep.aida.IBaseHistogram jarg1_, String jarg2);
  public final static native long IBaseHistogram_annotation(long jarg1, hep.aida.IBaseHistogram jarg1_);
  public final static native int IBaseHistogram_dimension(long jarg1, hep.aida.IBaseHistogram jarg1_);
  public final static native void IBaseHistogram_reset(long jarg1, hep.aida.IBaseHistogram jarg1_);
  public final static native int IBaseHistogram_entries(long jarg1, hep.aida.IBaseHistogram jarg1_);
  public final static native long new_IBaseHistogram();
  public final static native void IBaseHistogram_director_connect(hep.aida.IBaseHistogram obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IBaseHistogram_change_ownership(hep.aida.IBaseHistogram obj, long cptr, boolean take_or_release);
  public final static native void delete_IHistogram(long jarg1);
  public final static native int IHistogram_allEntries(long jarg1, hep.aida.IHistogram jarg1_);
  public final static native int IHistogram_extraEntries(long jarg1, hep.aida.IHistogram jarg1_);
  public final static native double IHistogram_equivalentBinEntries(long jarg1, hep.aida.IHistogram jarg1_);
  public final static native double IHistogram_sumBinHeights(long jarg1, hep.aida.IHistogram jarg1_);
  public final static native double IHistogram_sumAllBinHeights(long jarg1, hep.aida.IHistogram jarg1_);
  public final static native double IHistogram_sumExtraBinHeights(long jarg1, hep.aida.IHistogram jarg1_);
  public final static native double IHistogram_minBinHeight(long jarg1, hep.aida.IHistogram jarg1_);
  public final static native double IHistogram_maxBinHeight(long jarg1, hep.aida.IHistogram jarg1_);
  public final static native void IHistogram_scale(long jarg1, hep.aida.IHistogram jarg1_, double jarg2);
  public final static native long new_IHistogram();
  public final static native void IHistogram_director_connect(hep.aida.IHistogram obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IHistogram_change_ownership(hep.aida.IHistogram obj, long cptr, boolean take_or_release);
  public final static native void delete_IHistogram1D(long jarg1);
  public final static native void IHistogram1D_fill__SWIG_0(long jarg1, hep.aida.IHistogram1D jarg1_, double jarg2, double jarg3);
  public final static native void IHistogram1D_fill__SWIG_1(long jarg1, hep.aida.IHistogram1D jarg1_, double jarg2);
  public final static native double IHistogram1D_binMean(long jarg1, hep.aida.IHistogram1D jarg1_, int jarg2);
  public final static native int IHistogram1D_binEntries(long jarg1, hep.aida.IHistogram1D jarg1_, int jarg2);
  public final static native double IHistogram1D_binHeight(long jarg1, hep.aida.IHistogram1D jarg1_, int jarg2);
  public final static native double IHistogram1D_binError(long jarg1, hep.aida.IHistogram1D jarg1_, int jarg2);
  public final static native double IHistogram1D_mean(long jarg1, hep.aida.IHistogram1D jarg1_);
  public final static native double IHistogram1D_rms(long jarg1, hep.aida.IHistogram1D jarg1_);
  public final static native long IHistogram1D_axis(long jarg1, hep.aida.IHistogram1D jarg1_);
  public final static native int IHistogram1D_coordToIndex(long jarg1, hep.aida.IHistogram1D jarg1_, double jarg2);
  public final static native void IHistogram1D_add(long jarg1, hep.aida.IHistogram1D jarg1_, long jarg2, hep.aida.IHistogram1D jarg2_);
  public final static native long new_IHistogram1D();
  public final static native void IHistogram1D_director_connect(hep.aida.IHistogram1D obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IHistogram1D_change_ownership(hep.aida.IHistogram1D obj, long cptr, boolean take_or_release);
  public final static native void delete_IHistogram2D(long jarg1);
  public final static native void IHistogram2D_fill__SWIG_0(long jarg1, hep.aida.IHistogram2D jarg1_, double jarg2, double jarg3, double jarg4);
  public final static native void IHistogram2D_fill__SWIG_1(long jarg1, hep.aida.IHistogram2D jarg1_, double jarg2, double jarg3);
  public final static native double IHistogram2D_binMeanX(long jarg1, hep.aida.IHistogram2D jarg1_, int jarg2, int jarg3);
  public final static native double IHistogram2D_binMeanY(long jarg1, hep.aida.IHistogram2D jarg1_, int jarg2, int jarg3);
  public final static native int IHistogram2D_binEntries(long jarg1, hep.aida.IHistogram2D jarg1_, int jarg2, int jarg3);
  public final static native int IHistogram2D_binEntriesX(long jarg1, hep.aida.IHistogram2D jarg1_, int jarg2);
  public final static native int IHistogram2D_binEntriesY(long jarg1, hep.aida.IHistogram2D jarg1_, int jarg2);
  public final static native double IHistogram2D_binHeight(long jarg1, hep.aida.IHistogram2D jarg1_, int jarg2, int jarg3);
  public final static native double IHistogram2D_binHeightX(long jarg1, hep.aida.IHistogram2D jarg1_, int jarg2);
  public final static native double IHistogram2D_binHeightY(long jarg1, hep.aida.IHistogram2D jarg1_, int jarg2);
  public final static native double IHistogram2D_binError(long jarg1, hep.aida.IHistogram2D jarg1_, int jarg2, int jarg3);
  public final static native double IHistogram2D_meanX(long jarg1, hep.aida.IHistogram2D jarg1_);
  public final static native double IHistogram2D_meanY(long jarg1, hep.aida.IHistogram2D jarg1_);
  public final static native double IHistogram2D_rmsX(long jarg1, hep.aida.IHistogram2D jarg1_);
  public final static native double IHistogram2D_rmsY(long jarg1, hep.aida.IHistogram2D jarg1_);
  public final static native long IHistogram2D_xAxis(long jarg1, hep.aida.IHistogram2D jarg1_);
  public final static native long IHistogram2D_yAxis(long jarg1, hep.aida.IHistogram2D jarg1_);
  public final static native int IHistogram2D_coordToIndexX(long jarg1, hep.aida.IHistogram2D jarg1_, double jarg2);
  public final static native int IHistogram2D_coordToIndexY(long jarg1, hep.aida.IHistogram2D jarg1_, double jarg2);
  public final static native void IHistogram2D_add(long jarg1, hep.aida.IHistogram2D jarg1_, long jarg2, hep.aida.IHistogram2D jarg2_);
  public final static native long new_IHistogram2D();
  public final static native void IHistogram2D_director_connect(hep.aida.IHistogram2D obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IHistogram2D_change_ownership(hep.aida.IHistogram2D obj, long cptr, boolean take_or_release);
  public final static native void delete_IHistogram3D(long jarg1);
  public final static native void IHistogram3D_fill__SWIG_0(long jarg1, hep.aida.IHistogram3D jarg1_, double jarg2, double jarg3, double jarg4, double jarg5);
  public final static native void IHistogram3D_fill__SWIG_1(long jarg1, hep.aida.IHistogram3D jarg1_, double jarg2, double jarg3, double jarg4);
  public final static native double IHistogram3D_binMeanX(long jarg1, hep.aida.IHistogram3D jarg1_, int jarg2, int jarg3, int jarg4);
  public final static native double IHistogram3D_binMeanY(long jarg1, hep.aida.IHistogram3D jarg1_, int jarg2, int jarg3, int jarg4);
  public final static native double IHistogram3D_binMeanZ(long jarg1, hep.aida.IHistogram3D jarg1_, int jarg2, int jarg3, int jarg4);
  public final static native int IHistogram3D_binEntries(long jarg1, hep.aida.IHistogram3D jarg1_, int jarg2, int jarg3, int jarg4);
  public final static native int IHistogram3D_binEntriesX(long jarg1, hep.aida.IHistogram3D jarg1_, int jarg2);
  public final static native int IHistogram3D_binEntriesY(long jarg1, hep.aida.IHistogram3D jarg1_, int jarg2);
  public final static native int IHistogram3D_binEntriesZ(long jarg1, hep.aida.IHistogram3D jarg1_, int jarg2);
  public final static native double IHistogram3D_binHeight(long jarg1, hep.aida.IHistogram3D jarg1_, int jarg2, int jarg3, int jarg4);
  public final static native double IHistogram3D_binHeightX(long jarg1, hep.aida.IHistogram3D jarg1_, int jarg2);
  public final static native double IHistogram3D_binHeightY(long jarg1, hep.aida.IHistogram3D jarg1_, int jarg2);
  public final static native double IHistogram3D_binHeightZ(long jarg1, hep.aida.IHistogram3D jarg1_, int jarg2);
  public final static native double IHistogram3D_binError(long jarg1, hep.aida.IHistogram3D jarg1_, int jarg2, int jarg3, int jarg4);
  public final static native double IHistogram3D_meanX(long jarg1, hep.aida.IHistogram3D jarg1_);
  public final static native double IHistogram3D_meanY(long jarg1, hep.aida.IHistogram3D jarg1_);
  public final static native double IHistogram3D_meanZ(long jarg1, hep.aida.IHistogram3D jarg1_);
  public final static native double IHistogram3D_rmsX(long jarg1, hep.aida.IHistogram3D jarg1_);
  public final static native double IHistogram3D_rmsY(long jarg1, hep.aida.IHistogram3D jarg1_);
  public final static native double IHistogram3D_rmsZ(long jarg1, hep.aida.IHistogram3D jarg1_);
  public final static native long IHistogram3D_xAxis(long jarg1, hep.aida.IHistogram3D jarg1_);
  public final static native long IHistogram3D_yAxis(long jarg1, hep.aida.IHistogram3D jarg1_);
  public final static native long IHistogram3D_zAxis(long jarg1, hep.aida.IHistogram3D jarg1_);
  public final static native int IHistogram3D_coordToIndexX(long jarg1, hep.aida.IHistogram3D jarg1_, double jarg2);
  public final static native int IHistogram3D_coordToIndexY(long jarg1, hep.aida.IHistogram3D jarg1_, double jarg2);
  public final static native int IHistogram3D_coordToIndexZ(long jarg1, hep.aida.IHistogram3D jarg1_, double jarg2);
  public final static native void IHistogram3D_add(long jarg1, hep.aida.IHistogram3D jarg1_, long jarg2, hep.aida.IHistogram3D jarg2_);
  public final static native long new_IHistogram3D();
  public final static native void IHistogram3D_director_connect(hep.aida.IHistogram3D obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IHistogram3D_change_ownership(hep.aida.IHistogram3D obj, long cptr, boolean take_or_release);
  public final static native void delete_ICloud(long jarg1);
  public final static native double ICloud_sumOfWeights(long jarg1, hep.aida.ICloud jarg1_);
  public final static native void ICloud_convertToHistogram(long jarg1, hep.aida.ICloud jarg1_);
  public final static native boolean ICloud_isConverted(long jarg1, hep.aida.ICloud jarg1_);
  public final static native int ICloud_maxEntries(long jarg1, hep.aida.ICloud jarg1_);
  public final static native void ICloud_scale(long jarg1, hep.aida.ICloud jarg1_, double jarg2);
  public final static native long new_ICloud();
  public final static native void ICloud_director_connect(hep.aida.ICloud obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void ICloud_change_ownership(hep.aida.ICloud obj, long cptr, boolean take_or_release);
  public final static native void delete_ICloud1D(long jarg1);
  public final static native void ICloud1D_fill__SWIG_0(long jarg1, hep.aida.ICloud1D jarg1_, double jarg2, double jarg3);
  public final static native void ICloud1D_fill__SWIG_1(long jarg1, hep.aida.ICloud1D jarg1_, double jarg2);
  public final static native double ICloud1D_lowerEdge(long jarg1, hep.aida.ICloud1D jarg1_);
  public final static native double ICloud1D_upperEdge(long jarg1, hep.aida.ICloud1D jarg1_);
  public final static native double ICloud1D_value(long jarg1, hep.aida.ICloud1D jarg1_, int jarg2);
  public final static native double ICloud1D_weight(long jarg1, hep.aida.ICloud1D jarg1_, int jarg2);
  public final static native double ICloud1D_mean(long jarg1, hep.aida.ICloud1D jarg1_);
  public final static native double ICloud1D_rms(long jarg1, hep.aida.ICloud1D jarg1_);
  public final static native void ICloud1D_convert__SWIG_0(long jarg1, hep.aida.ICloud1D jarg1_, int jarg2, double jarg3, double jarg4);
  public final static native void ICloud1D_convert__SWIG_1(long jarg1, hep.aida.ICloud1D jarg1_, double[] jarg2);
  public final static native long ICloud1D_histogram(long jarg1, hep.aida.ICloud1D jarg1_);
  public final static native void ICloud1D_fillHistogram(long jarg1, hep.aida.ICloud1D jarg1_, long jarg2, hep.aida.IHistogram1D jarg2_);
  public final static native long new_ICloud1D();
  public final static native void ICloud1D_director_connect(hep.aida.ICloud1D obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void ICloud1D_change_ownership(hep.aida.ICloud1D obj, long cptr, boolean take_or_release);
  public final static native void delete_ICloud2D(long jarg1);
  public final static native void ICloud2D_fill__SWIG_0(long jarg1, hep.aida.ICloud2D jarg1_, double jarg2, double jarg3, double jarg4);
  public final static native void ICloud2D_fill__SWIG_1(long jarg1, hep.aida.ICloud2D jarg1_, double jarg2, double jarg3);
  public final static native double ICloud2D_lowerEdgeX(long jarg1, hep.aida.ICloud2D jarg1_);
  public final static native double ICloud2D_lowerEdgeY(long jarg1, hep.aida.ICloud2D jarg1_);
  public final static native double ICloud2D_upperEdgeX(long jarg1, hep.aida.ICloud2D jarg1_);
  public final static native double ICloud2D_upperEdgeY(long jarg1, hep.aida.ICloud2D jarg1_);
  public final static native double ICloud2D_valueX(long jarg1, hep.aida.ICloud2D jarg1_, int jarg2);
  public final static native double ICloud2D_valueY(long jarg1, hep.aida.ICloud2D jarg1_, int jarg2);
  public final static native double ICloud2D_weight(long jarg1, hep.aida.ICloud2D jarg1_, int jarg2);
  public final static native double ICloud2D_meanX(long jarg1, hep.aida.ICloud2D jarg1_);
  public final static native double ICloud2D_meanY(long jarg1, hep.aida.ICloud2D jarg1_);
  public final static native double ICloud2D_rmsX(long jarg1, hep.aida.ICloud2D jarg1_);
  public final static native double ICloud2D_rmsY(long jarg1, hep.aida.ICloud2D jarg1_);
  public final static native void ICloud2D_convert__SWIG_0(long jarg1, hep.aida.ICloud2D jarg1_, int jarg2, double jarg3, double jarg4, int jarg5, double jarg6, double jarg7);
  public final static native void ICloud2D_convert__SWIG_1(long jarg1, hep.aida.ICloud2D jarg1_, double[] jarg2, double[] jarg3);
  public final static native long ICloud2D_histogram(long jarg1, hep.aida.ICloud2D jarg1_);
  public final static native void ICloud2D_fillHistogram(long jarg1, hep.aida.ICloud2D jarg1_, long jarg2, hep.aida.IHistogram2D jarg2_);
  public final static native long new_ICloud2D();
  public final static native void ICloud2D_director_connect(hep.aida.ICloud2D obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void ICloud2D_change_ownership(hep.aida.ICloud2D obj, long cptr, boolean take_or_release);
  public final static native void delete_ICloud3D(long jarg1);
  public final static native void ICloud3D_fill__SWIG_0(long jarg1, hep.aida.ICloud3D jarg1_, double jarg2, double jarg3, double jarg4, double jarg5);
  public final static native void ICloud3D_fill__SWIG_1(long jarg1, hep.aida.ICloud3D jarg1_, double jarg2, double jarg3, double jarg4);
  public final static native double ICloud3D_lowerEdgeX(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native double ICloud3D_lowerEdgeY(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native double ICloud3D_lowerEdgeZ(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native double ICloud3D_upperEdgeX(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native double ICloud3D_upperEdgeY(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native double ICloud3D_upperEdgeZ(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native double ICloud3D_valueX(long jarg1, hep.aida.ICloud3D jarg1_, int jarg2);
  public final static native double ICloud3D_valueY(long jarg1, hep.aida.ICloud3D jarg1_, int jarg2);
  public final static native double ICloud3D_valueZ(long jarg1, hep.aida.ICloud3D jarg1_, int jarg2);
  public final static native double ICloud3D_weight(long jarg1, hep.aida.ICloud3D jarg1_, int jarg2);
  public final static native double ICloud3D_meanX(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native double ICloud3D_meanY(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native double ICloud3D_meanZ(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native double ICloud3D_rmsX(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native double ICloud3D_rmsY(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native double ICloud3D_rmsZ(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native void ICloud3D_convert__SWIG_0(long jarg1, hep.aida.ICloud3D jarg1_, int jarg2, double jarg3, double jarg4, int jarg5, double jarg6, double jarg7, int jarg8, double jarg9, double jarg10);
  public final static native void ICloud3D_convert__SWIG_1(long jarg1, hep.aida.ICloud3D jarg1_, double[] jarg2, double[] jarg3, double[] jarg4);
  public final static native long ICloud3D_histogram(long jarg1, hep.aida.ICloud3D jarg1_);
  public final static native void ICloud3D_fillHistogram(long jarg1, hep.aida.ICloud3D jarg1_, long jarg2, hep.aida.IHistogram3D jarg2_);
  public final static native long new_ICloud3D();
  public final static native void ICloud3D_director_connect(hep.aida.ICloud3D obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void ICloud3D_change_ownership(hep.aida.ICloud3D obj, long cptr, boolean take_or_release);
  public final static native void delete_IProfile(long jarg1);
  public final static native int IProfile_allEntries(long jarg1, hep.aida.IProfile jarg1_);
  public final static native int IProfile_extraEntries(long jarg1, hep.aida.IProfile jarg1_);
  public final static native double IProfile_sumBinHeights(long jarg1, hep.aida.IProfile jarg1_);
  public final static native double IProfile_sumAllBinHeights(long jarg1, hep.aida.IProfile jarg1_);
  public final static native double IProfile_sumExtraBinHeights(long jarg1, hep.aida.IProfile jarg1_);
  public final static native double IProfile_minBinHeight(long jarg1, hep.aida.IProfile jarg1_);
  public final static native double IProfile_maxBinHeight(long jarg1, hep.aida.IProfile jarg1_);
  public final static native long new_IProfile();
  public final static native void IProfile_director_connect(hep.aida.IProfile obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IProfile_change_ownership(hep.aida.IProfile obj, long cptr, boolean take_or_release);
  public final static native void delete_IProfile1D(long jarg1);
  public final static native void IProfile1D_fill__SWIG_0(long jarg1, hep.aida.IProfile1D jarg1_, double jarg2, double jarg3, double jarg4);
  public final static native void IProfile1D_fill__SWIG_1(long jarg1, hep.aida.IProfile1D jarg1_, double jarg2, double jarg3);
  public final static native double IProfile1D_binMean(long jarg1, hep.aida.IProfile1D jarg1_, int jarg2);
  public final static native int IProfile1D_binEntries(long jarg1, hep.aida.IProfile1D jarg1_, int jarg2);
  public final static native double IProfile1D_binHeight(long jarg1, hep.aida.IProfile1D jarg1_, int jarg2);
  public final static native double IProfile1D_binError(long jarg1, hep.aida.IProfile1D jarg1_, int jarg2);
  public final static native double IProfile1D_binRms(long jarg1, hep.aida.IProfile1D jarg1_, int jarg2);
  public final static native double IProfile1D_mean(long jarg1, hep.aida.IProfile1D jarg1_);
  public final static native double IProfile1D_rms(long jarg1, hep.aida.IProfile1D jarg1_);
  public final static native long IProfile1D_axis(long jarg1, hep.aida.IProfile1D jarg1_);
  public final static native int IProfile1D_coordToIndex(long jarg1, hep.aida.IProfile1D jarg1_, double jarg2);
  public final static native void IProfile1D_add(long jarg1, hep.aida.IProfile1D jarg1_, long jarg2, hep.aida.IProfile1D jarg2_);
  public final static native long new_IProfile1D();
  public final static native void IProfile1D_director_connect(hep.aida.IProfile1D obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IProfile1D_change_ownership(hep.aida.IProfile1D obj, long cptr, boolean take_or_release);
  public final static native void delete_IProfile2D(long jarg1);
  public final static native void IProfile2D_fill__SWIG_0(long jarg1, hep.aida.IProfile2D jarg1_, double jarg2, double jarg3, double jarg4, double jarg5);
  public final static native void IProfile2D_fill__SWIG_1(long jarg1, hep.aida.IProfile2D jarg1_, double jarg2, double jarg3, double jarg4);
  public final static native double IProfile2D_binMeanX(long jarg1, hep.aida.IProfile2D jarg1_, int jarg2, int jarg3);
  public final static native double IProfile2D_binMeanY(long jarg1, hep.aida.IProfile2D jarg1_, int jarg2, int jarg3);
  public final static native int IProfile2D_binEntries(long jarg1, hep.aida.IProfile2D jarg1_, int jarg2, int jarg3);
  public final static native int IProfile2D_binEntriesX(long jarg1, hep.aida.IProfile2D jarg1_, int jarg2);
  public final static native int IProfile2D_binEntriesY(long jarg1, hep.aida.IProfile2D jarg1_, int jarg2);
  public final static native double IProfile2D_binHeight(long jarg1, hep.aida.IProfile2D jarg1_, int jarg2, int jarg3);
  public final static native double IProfile2D_binHeightX(long jarg1, hep.aida.IProfile2D jarg1_, int jarg2);
  public final static native double IProfile2D_binHeightY(long jarg1, hep.aida.IProfile2D jarg1_, int jarg2);
  public final static native double IProfile2D_binError(long jarg1, hep.aida.IProfile2D jarg1_, int jarg2, int jarg3);
  public final static native double IProfile2D_binRms(long jarg1, hep.aida.IProfile2D jarg1_, int jarg2, int jarg3);
  public final static native double IProfile2D_meanX(long jarg1, hep.aida.IProfile2D jarg1_);
  public final static native double IProfile2D_meanY(long jarg1, hep.aida.IProfile2D jarg1_);
  public final static native double IProfile2D_rmsX(long jarg1, hep.aida.IProfile2D jarg1_);
  public final static native double IProfile2D_rmsY(long jarg1, hep.aida.IProfile2D jarg1_);
  public final static native long IProfile2D_xAxis(long jarg1, hep.aida.IProfile2D jarg1_);
  public final static native long IProfile2D_yAxis(long jarg1, hep.aida.IProfile2D jarg1_);
  public final static native int IProfile2D_coordToIndexX(long jarg1, hep.aida.IProfile2D jarg1_, double jarg2);
  public final static native int IProfile2D_coordToIndexY(long jarg1, hep.aida.IProfile2D jarg1_, double jarg2);
  public final static native void IProfile2D_add(long jarg1, hep.aida.IProfile2D jarg1_, long jarg2, hep.aida.IProfile2D jarg2_);
  public final static native long new_IProfile2D();
  public final static native void IProfile2D_director_connect(hep.aida.IProfile2D obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IProfile2D_change_ownership(hep.aida.IProfile2D obj, long cptr, boolean take_or_release);
  public final static native void delete_IHistogramFactory(long jarg1);
  public final static native void IHistogramFactory_destroy(long jarg1, hep.aida.IHistogramFactory jarg1_, long jarg2, hep.aida.IBaseHistogram jarg2_);
  public final static native long IHistogramFactory_createCloud1D__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, String jarg5);
  public final static native long IHistogramFactory_createCloud1D__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4);
  public final static native long IHistogramFactory_createCloud1D__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3);
  public final static native long IHistogramFactory_createCloud1D__SWIG_3(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2);
  public final static native long IHistogramFactory_createCopy__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.ICloud1D jarg3_);
  public final static native long IHistogramFactory_createCloud2D__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, String jarg5);
  public final static native long IHistogramFactory_createCloud2D__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4);
  public final static native long IHistogramFactory_createCloud2D__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3);
  public final static native long IHistogramFactory_createCloud2D__SWIG_3(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2);
  public final static native long IHistogramFactory_createCopy__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.ICloud2D jarg3_);
  public final static native long IHistogramFactory_createCloud3D__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, String jarg5);
  public final static native long IHistogramFactory_createCloud3D__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4);
  public final static native long IHistogramFactory_createCloud3D__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3);
  public final static native long IHistogramFactory_createCloud3D__SWIG_3(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2);
  public final static native long IHistogramFactory_createCopy__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.ICloud3D jarg3_);
  public final static native long IHistogramFactory_createHistogram1D__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6, String jarg7);
  public final static native long IHistogramFactory_createHistogram1D__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6);
  public final static native long IHistogramFactory_createHistogram1D__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, int jarg3, double jarg4, double jarg5);
  public final static native long IHistogramFactory_createHistogram1D__SWIG_3(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4, String jarg5);
  public final static native long IHistogramFactory_createHistogram1D__SWIG_4(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4);
  public final static native long IHistogramFactory_createCopy__SWIG_3(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram1D jarg3_);
  public final static native long IHistogramFactory_createHistogram2D__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6, int jarg7, double jarg8, double jarg9, String jarg10);
  public final static native long IHistogramFactory_createHistogram2D__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6, int jarg7, double jarg8, double jarg9);
  public final static native long IHistogramFactory_createHistogram2D__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, int jarg3, double jarg4, double jarg5, int jarg6, double jarg7, double jarg8);
  public final static native long IHistogramFactory_createHistogram2D__SWIG_3(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5, String jarg6);
  public final static native long IHistogramFactory_createHistogram2D__SWIG_4(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5);
  public final static native long IHistogramFactory_createCopy__SWIG_4(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_);
  public final static native long IHistogramFactory_createHistogram3D__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6, int jarg7, double jarg8, double jarg9, int jarg10, double jarg11, double jarg12, String jarg13);
  public final static native long IHistogramFactory_createHistogram3D__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6, int jarg7, double jarg8, double jarg9, int jarg10, double jarg11, double jarg12);
  public final static native long IHistogramFactory_createHistogram3D__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, int jarg3, double jarg4, double jarg5, int jarg6, double jarg7, double jarg8, int jarg9, double jarg10, double jarg11);
  public final static native long IHistogramFactory_createHistogram3D__SWIG_3(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5, double[] jarg6, String jarg7);
  public final static native long IHistogramFactory_createHistogram3D__SWIG_4(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5, double[] jarg6);
  public final static native long IHistogramFactory_createCopy__SWIG_5(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_);
  public final static native long IHistogramFactory_createProfile1D__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6, String jarg7);
  public final static native long IHistogramFactory_createProfile1D__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6);
  public final static native long IHistogramFactory_createProfile1D__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6, double jarg7, double jarg8, String jarg9);
  public final static native long IHistogramFactory_createProfile1D__SWIG_3(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6, double jarg7, double jarg8);
  public final static native long IHistogramFactory_createProfile1D__SWIG_4(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4, String jarg5);
  public final static native long IHistogramFactory_createProfile1D__SWIG_5(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4);
  public final static native long IHistogramFactory_createProfile1D__SWIG_6(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double jarg5, double jarg6, String jarg7);
  public final static native long IHistogramFactory_createProfile1D__SWIG_7(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double jarg5, double jarg6);
  public final static native long IHistogramFactory_createProfile1D__SWIG_8(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, int jarg3, double jarg4, double jarg5);
  public final static native long IHistogramFactory_createProfile1D__SWIG_9(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, int jarg3, double jarg4, double jarg5, double jarg6, double jarg7);
  public final static native long IHistogramFactory_createCopy__SWIG_6(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IProfile1D jarg3_);
  public final static native long IHistogramFactory_createProfile2D__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6, int jarg7, double jarg8, double jarg9, String jarg10);
  public final static native long IHistogramFactory_createProfile2D__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6, int jarg7, double jarg8, double jarg9);
  public final static native long IHistogramFactory_createProfile2D__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6, int jarg7, double jarg8, double jarg9, double jarg10, double jarg11, String jarg12);
  public final static native long IHistogramFactory_createProfile2D__SWIG_3(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, int jarg4, double jarg5, double jarg6, int jarg7, double jarg8, double jarg9, double jarg10, double jarg11);
  public final static native long IHistogramFactory_createProfile2D__SWIG_4(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5, String jarg6);
  public final static native long IHistogramFactory_createProfile2D__SWIG_5(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5);
  public final static native long IHistogramFactory_createProfile2D__SWIG_6(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5, double jarg6, double jarg7, String jarg8);
  public final static native long IHistogramFactory_createProfile2D__SWIG_7(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5, double jarg6, double jarg7);
  public final static native long IHistogramFactory_createProfile2D__SWIG_8(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, int jarg3, double jarg4, double jarg5, int jarg6, double jarg7, double jarg8);
  public final static native long IHistogramFactory_createProfile2D__SWIG_9(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, int jarg3, double jarg4, double jarg5, int jarg6, double jarg7, double jarg8, double jarg9, double jarg10);
  public final static native long IHistogramFactory_createCopy__SWIG_7(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IProfile2D jarg3_);
  public final static native long IHistogramFactory_add__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram1D jarg3_, long jarg4, hep.aida.IHistogram1D jarg4_);
  public final static native long IHistogramFactory_subtract__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram1D jarg3_, long jarg4, hep.aida.IHistogram1D jarg4_);
  public final static native long IHistogramFactory_multiply__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram1D jarg3_, long jarg4, hep.aida.IHistogram1D jarg4_);
  public final static native long IHistogramFactory_divide__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram1D jarg3_, long jarg4, hep.aida.IHistogram1D jarg4_);
  public final static native long IHistogramFactory_add__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_, long jarg4, hep.aida.IHistogram2D jarg4_);
  public final static native long IHistogramFactory_subtract__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_, long jarg4, hep.aida.IHistogram2D jarg4_);
  public final static native long IHistogramFactory_multiply__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_, long jarg4, hep.aida.IHistogram2D jarg4_);
  public final static native long IHistogramFactory_divide__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_, long jarg4, hep.aida.IHistogram2D jarg4_);
  public final static native long IHistogramFactory_add__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_, long jarg4, hep.aida.IHistogram3D jarg4_);
  public final static native long IHistogramFactory_subtract__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_, long jarg4, hep.aida.IHistogram3D jarg4_);
  public final static native long IHistogramFactory_multiply__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_, long jarg4, hep.aida.IHistogram3D jarg4_);
  public final static native long IHistogramFactory_divide__SWIG_2(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_, long jarg4, hep.aida.IHistogram3D jarg4_);
  public final static native long IHistogramFactory_projectionX(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_);
  public final static native long IHistogramFactory_projectionY(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_);
  public final static native long IHistogramFactory_sliceX__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_, int jarg4);
  public final static native long IHistogramFactory_sliceY__SWIG_0(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_, int jarg4);
  public final static native long IHistogramFactory_sliceX__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_, int jarg4, int jarg5);
  public final static native long IHistogramFactory_sliceY__SWIG_1(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_, int jarg4, int jarg5);
  public final static native long IHistogramFactory_projectionXY(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_);
  public final static native long IHistogramFactory_projectionXZ(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_);
  public final static native long IHistogramFactory_projectionYZ(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_);
  public final static native long IHistogramFactory_sliceXY(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_, int jarg4, int jarg5);
  public final static native long IHistogramFactory_sliceXZ(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_, int jarg4, int jarg5);
  public final static native long IHistogramFactory_sliceYZ(long jarg1, hep.aida.IHistogramFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_, int jarg4, int jarg5);
  public final static native long new_IHistogramFactory();
  public final static native void IHistogramFactory_director_connect(hep.aida.IHistogramFactory obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IHistogramFactory_change_ownership(hep.aida.IHistogramFactory obj, long cptr, boolean take_or_release);
  public final static native void delete_IDataPoint(long jarg1);
  public final static native int IDataPoint_dimension(long jarg1, hep.aida.IDataPoint jarg1_);
  public final static native long IDataPoint_coordinate(long jarg1, hep.aida.IDataPoint jarg1_, int jarg2);
  public final static native long new_IDataPoint();
  public final static native void IDataPoint_director_connect(hep.aida.IDataPoint obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IDataPoint_change_ownership(hep.aida.IDataPoint obj, long cptr, boolean take_or_release);
  public final static native void delete_IDataPointSet(long jarg1);
  public final static native long IDataPointSet_annotation(long jarg1, hep.aida.IDataPointSet jarg1_);
  public final static native String IDataPointSet_title(long jarg1, hep.aida.IDataPointSet jarg1_);
  public final static native void IDataPointSet_setTitle(long jarg1, hep.aida.IDataPointSet jarg1_, String jarg2);
  public final static native int IDataPointSet_dimension(long jarg1, hep.aida.IDataPointSet jarg1_);
  public final static native void IDataPointSet_clear(long jarg1, hep.aida.IDataPointSet jarg1_);
  public final static native int IDataPointSet_size(long jarg1, hep.aida.IDataPointSet jarg1_);
  public final static native void IDataPointSet_setCoordinate__SWIG_0(long jarg1, hep.aida.IDataPointSet jarg1_, int jarg2, double[] jarg3, double[] jarg4);
  public final static native void IDataPointSet_setCoordinate__SWIG_1(long jarg1, hep.aida.IDataPointSet jarg1_, int jarg2, double[] jarg3, double[] jarg4, double[] jarg5);
  public final static native long IDataPointSet_point(long jarg1, hep.aida.IDataPointSet jarg1_, int jarg2);
  public final static native long IDataPointSet_addPoint__SWIG_0(long jarg1, hep.aida.IDataPointSet jarg1_);
  public final static native void IDataPointSet_addPoint__SWIG_1(long jarg1, hep.aida.IDataPointSet jarg1_, long jarg2, hep.aida.IDataPoint jarg2_);
  public final static native void IDataPointSet_removePoint(long jarg1, hep.aida.IDataPointSet jarg1_, int jarg2);
  public final static native double IDataPointSet_lowerExtent(long jarg1, hep.aida.IDataPointSet jarg1_, int jarg2);
  public final static native double IDataPointSet_upperExtent(long jarg1, hep.aida.IDataPointSet jarg1_, int jarg2);
  public final static native void IDataPointSet_scale(long jarg1, hep.aida.IDataPointSet jarg1_, double jarg2);
  public final static native void IDataPointSet_scaleValues(long jarg1, hep.aida.IDataPointSet jarg1_, double jarg2);
  public final static native void IDataPointSet_scaleErrors(long jarg1, hep.aida.IDataPointSet jarg1_, double jarg2);
  public final static native long new_IDataPointSet();
  public final static native void IDataPointSet_director_connect(hep.aida.IDataPointSet obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IDataPointSet_change_ownership(hep.aida.IDataPointSet obj, long cptr, boolean take_or_release);
  public final static native void delete_IDataPointSetFactory(long jarg1);
  public final static native long IDataPointSetFactory_create__SWIG_0(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, String jarg3, int jarg4);
  public final static native long IDataPointSetFactory_create__SWIG_1(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, int jarg3);
  public final static native long IDataPointSetFactory_createY__SWIG_0(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5);
  public final static native long IDataPointSetFactory_createY__SWIG_1(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5, double[] jarg6);
  public final static native long IDataPointSetFactory_createY__SWIG_2(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, double[] jarg3, double[] jarg4);
  public final static native long IDataPointSetFactory_createY__SWIG_3(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, double[] jarg3, double[] jarg4, double[] jarg5);
  public final static native long IDataPointSetFactory_createX__SWIG_0(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5);
  public final static native long IDataPointSetFactory_createX__SWIG_1(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5, double[] jarg6);
  public final static native long IDataPointSetFactory_createX__SWIG_2(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, double[] jarg3, double[] jarg4);
  public final static native long IDataPointSetFactory_createX__SWIG_3(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, double[] jarg3, double[] jarg4, double[] jarg5);
  public final static native long IDataPointSetFactory_createXY__SWIG_0(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5, double[] jarg6, double[] jarg7, double[] jarg8, double[] jarg9);
  public final static native long IDataPointSetFactory_createXY__SWIG_1(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5, double[] jarg6, double[] jarg7);
  public final static native long IDataPointSetFactory_createXY__SWIG_2(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, double[] jarg3, double[] jarg4, double[] jarg5, double[] jarg6, double[] jarg7, double[] jarg8);
  public final static native long IDataPointSetFactory_createXY__SWIG_3(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, double[] jarg3, double[] jarg4, double[] jarg5, double[] jarg6);
  public final static native long IDataPointSetFactory_createXYZ__SWIG_0(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5, double[] jarg6, double[] jarg7, double[] jarg8, double[] jarg9, double[] jarg10, double[] jarg11, double[] jarg12);
  public final static native long IDataPointSetFactory_createXYZ__SWIG_1(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, String jarg3, double[] jarg4, double[] jarg5, double[] jarg6, double[] jarg7, double[] jarg8, double[] jarg9);
  public final static native long IDataPointSetFactory_createXYZ__SWIG_2(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, double[] jarg3, double[] jarg4, double[] jarg5, double[] jarg6, double[] jarg7, double[] jarg8, double[] jarg9, double[] jarg10, double[] jarg11);
  public final static native long IDataPointSetFactory_createXYZ__SWIG_3(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, double[] jarg3, double[] jarg4, double[] jarg5, double[] jarg6, double[] jarg7, double[] jarg8);
  public final static native long IDataPointSetFactory_createCopy(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IDataPointSet jarg3_);
  public final static native void IDataPointSetFactory_destroy(long jarg1, hep.aida.IDataPointSetFactory jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_);
  public final static native long IDataPointSetFactory_create__SWIG_2(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram1D jarg3_, String jarg4);
  public final static native long IDataPointSetFactory_create__SWIG_3(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram1D jarg3_);
  public final static native long IDataPointSetFactory_create__SWIG_4(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_, String jarg4);
  public final static native long IDataPointSetFactory_create__SWIG_5(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram2D jarg3_);
  public final static native long IDataPointSetFactory_create__SWIG_6(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_, String jarg4);
  public final static native long IDataPointSetFactory_create__SWIG_7(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IHistogram3D jarg3_);
  public final static native long IDataPointSetFactory_create__SWIG_8(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.ICloud1D jarg3_, String jarg4);
  public final static native long IDataPointSetFactory_create__SWIG_9(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.ICloud1D jarg3_);
  public final static native long IDataPointSetFactory_create__SWIG_10(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.ICloud2D jarg3_, String jarg4);
  public final static native long IDataPointSetFactory_create__SWIG_11(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.ICloud2D jarg3_);
  public final static native long IDataPointSetFactory_create__SWIG_12(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.ICloud3D jarg3_, String jarg4);
  public final static native long IDataPointSetFactory_create__SWIG_13(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.ICloud3D jarg3_);
  public final static native long IDataPointSetFactory_create__SWIG_14(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IProfile1D jarg3_, String jarg4);
  public final static native long IDataPointSetFactory_create__SWIG_15(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IProfile1D jarg3_);
  public final static native long IDataPointSetFactory_create__SWIG_16(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IProfile2D jarg3_, String jarg4);
  public final static native long IDataPointSetFactory_create__SWIG_17(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IProfile2D jarg3_);
  public final static native long IDataPointSetFactory_add(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IDataPointSet jarg3_, long jarg4, hep.aida.IDataPointSet jarg4_);
  public final static native long IDataPointSetFactory_subtract(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IDataPointSet jarg3_, long jarg4, hep.aida.IDataPointSet jarg4_);
  public final static native long IDataPointSetFactory_multiply(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IDataPointSet jarg3_, long jarg4, hep.aida.IDataPointSet jarg4_);
  public final static native long IDataPointSetFactory_divide(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IDataPointSet jarg3_, long jarg4, hep.aida.IDataPointSet jarg4_);
  public final static native long IDataPointSetFactory_weightedMean(long jarg1, hep.aida.IDataPointSetFactory jarg1_, String jarg2, long jarg3, hep.aida.IDataPointSet jarg3_, long jarg4, hep.aida.IDataPointSet jarg4_);
  public final static native long new_IDataPointSetFactory();
  public final static native void IDataPointSetFactory_director_connect(hep.aida.IDataPointSetFactory obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IDataPointSetFactory_change_ownership(hep.aida.IDataPointSetFactory obj, long cptr, boolean take_or_release);
  public final static native void delete_ITree(long jarg1);
  public final static native String ITree_storeName(long jarg1, hep.aida.ITree jarg1_);
  public final static native long ITree_find(long jarg1, hep.aida.ITree jarg1_, String jarg2);
  public final static native long ITree_findTree(long jarg1, hep.aida.ITree jarg1_, String jarg2);
  public final static native void ITree_cd(long jarg1, hep.aida.ITree jarg1_, String jarg2);
  public final static native String ITree_pwd(long jarg1, hep.aida.ITree jarg1_);
  public final static native long ITree_listObjectNames__SWIG_0(long jarg1, hep.aida.ITree jarg1_, String jarg2, boolean jarg3);
  public final static native long ITree_listObjectNames__SWIG_1(long jarg1, hep.aida.ITree jarg1_, String jarg2);
  public final static native long ITree_listObjectNames__SWIG_2(long jarg1, hep.aida.ITree jarg1_);
  public final static native long ITree_listObjectTypes__SWIG_0(long jarg1, hep.aida.ITree jarg1_, String jarg2, boolean jarg3);
  public final static native long ITree_listObjectTypes__SWIG_1(long jarg1, hep.aida.ITree jarg1_, String jarg2);
  public final static native long ITree_listObjectTypes__SWIG_2(long jarg1, hep.aida.ITree jarg1_);
  public final static native void ITree_mkdir(long jarg1, hep.aida.ITree jarg1_, String jarg2);
  public final static native void ITree_mkdirs(long jarg1, hep.aida.ITree jarg1_, String jarg2);
  public final static native void ITree_rmdir(long jarg1, hep.aida.ITree jarg1_, String jarg2);
  public final static native void ITree_rm(long jarg1, hep.aida.ITree jarg1_, String jarg2);
  public final static native String ITree_findPath(long jarg1, hep.aida.ITree jarg1_, long jarg2, hep.aida.IManagedObject jarg2_);
  public final static native void ITree_mv(long jarg1, hep.aida.ITree jarg1_, String jarg2, String jarg3);
  public final static native void ITree_commit(long jarg1, hep.aida.ITree jarg1_);
  public final static native void ITree_setOverwrite__SWIG_0(long jarg1, hep.aida.ITree jarg1_, boolean jarg2);
  public final static native void ITree_setOverwrite__SWIG_1(long jarg1, hep.aida.ITree jarg1_);
  public final static native void ITree_cp__SWIG_0(long jarg1, hep.aida.ITree jarg1_, String jarg2, String jarg3, boolean jarg4);
  public final static native void ITree_cp__SWIG_1(long jarg1, hep.aida.ITree jarg1_, String jarg2, String jarg3);
  public final static native void ITree_symlink(long jarg1, hep.aida.ITree jarg1_, String jarg2, String jarg3);
  public final static native void ITree_mount(long jarg1, hep.aida.ITree jarg1_, String jarg2, long jarg3, hep.aida.ITree jarg3_, String jarg4);
  public final static native void ITree_unmount(long jarg1, hep.aida.ITree jarg1_, String jarg2);
  public final static native void ITree_close(long jarg1, hep.aida.ITree jarg1_);
  public final static native long new_ITree();
  public final static native void ITree_director_connect(hep.aida.ITree obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void ITree_change_ownership(hep.aida.ITree obj, long cptr, boolean take_or_release);
  public final static native void delete_ITreeFactory(long jarg1);
  public final static native long ITreeFactory_create__SWIG_0(long jarg1, hep.aida.ITreeFactory jarg1_);
  public final static native long ITreeFactory_create__SWIG_1(long jarg1, hep.aida.ITreeFactory jarg1_, String jarg2, String jarg3, boolean jarg4, boolean jarg5, String jarg6);
  public final static native long ITreeFactory_create__SWIG_2(long jarg1, hep.aida.ITreeFactory jarg1_, String jarg2, String jarg3, boolean jarg4, boolean jarg5);
  public final static native long ITreeFactory_create__SWIG_3(long jarg1, hep.aida.ITreeFactory jarg1_, String jarg2, String jarg3, boolean jarg4);
  public final static native long ITreeFactory_create__SWIG_4(long jarg1, hep.aida.ITreeFactory jarg1_, String jarg2, String jarg3);
  public final static native long ITreeFactory_create__SWIG_5(long jarg1, hep.aida.ITreeFactory jarg1_, String jarg2);
  public final static native long new_ITreeFactory();
  public final static native void ITreeFactory_director_connect(hep.aida.ITreeFactory obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void ITreeFactory_change_ownership(hep.aida.ITreeFactory obj, long cptr, boolean take_or_release);
  public final static native void delete_IFilter(long jarg1);
  public final static native void IFilter_initialize(long jarg1, hep.aida.IFilter jarg1_, long jarg2, hep.aida.ITuple jarg2_);
  public final static native boolean IFilter_accept(long jarg1, hep.aida.IFilter jarg1_);
  public final static native String IFilter_expression(long jarg1, hep.aida.IFilter jarg1_);
  public final static native long new_IFilter();
  public final static native void IFilter_director_connect(hep.aida.IFilter obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IFilter_change_ownership(hep.aida.IFilter obj, long cptr, boolean take_or_release);
  public final static native void delete_ITupleEntry(long jarg1);
  public final static native long new_ITupleEntry();
  public final static native void ITupleEntry_director_connect(hep.aida.ITupleEntry obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void ITupleEntry_change_ownership(hep.aida.ITupleEntry obj, long cptr, boolean take_or_release);
  public final static native void delete_IEvaluator(long jarg1);
  public final static native void IEvaluator_initialize(long jarg1, hep.aida.IEvaluator jarg1_, long jarg2, hep.aida.ITuple jarg2_);
  public final static native double IEvaluator_evaluateDouble(long jarg1, hep.aida.IEvaluator jarg1_);
  public final static native String IEvaluator_expression(long jarg1, hep.aida.IEvaluator jarg1_);
  public final static native long new_IEvaluator();
  public final static native void IEvaluator_director_connect(hep.aida.IEvaluator obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IEvaluator_change_ownership(hep.aida.IEvaluator obj, long cptr, boolean take_or_release);
  public final static native void delete_ITuple(long jarg1);
  public final static native String ITuple_title(long jarg1, hep.aida.ITuple jarg1_);
  public final static native void ITuple_setTitle(long jarg1, hep.aida.ITuple jarg1_, String jarg2);
  public final static native long ITuple_annotation(long jarg1, hep.aida.ITuple jarg1_);
  public final static native void ITuple_fill__SWIG_0(long jarg1, hep.aida.ITuple jarg1_, int jarg2, double jarg3);
  public final static native void ITuple_fill__SWIG_1(long jarg1, hep.aida.ITuple jarg1_, int jarg2, float jarg3);
  public final static native void ITuple_fill__SWIG_2(long jarg1, hep.aida.ITuple jarg1_, int jarg2, int jarg3);
  public final static native void ITuple_fill__SWIG_3(long jarg1, hep.aida.ITuple jarg1_, int jarg2, short jarg3);
  public final static native void ITuple_fill__SWIG_4(long jarg1, hep.aida.ITuple jarg1_, int jarg2, long jarg3);
  public final static native void ITuple_fill__SWIG_5(long jarg1, hep.aida.ITuple jarg1_, int jarg2, char jarg3);
  public final static native void ITuple_fill__SWIG_6(long jarg1, hep.aida.ITuple jarg1_, int jarg2, boolean jarg3);
  public final static native void ITuple_fill__SWIG_7(long jarg1, hep.aida.ITuple jarg1_, int jarg2, String jarg3);
  public final static native void ITuple_fill__SWIG_8(long jarg1, hep.aida.ITuple jarg1_, int jarg2, long jarg3, hep.aida.ITupleEntry jarg3_);
  public final static native void ITuple_fill__SWIG_9(long jarg1, hep.aida.ITuple jarg1_, double[] jarg2);
  public final static native void ITuple_fill__SWIG_10(long jarg1, hep.aida.ITuple jarg1_, float[] jarg2);
  public final static native void ITuple_addRow(long jarg1, hep.aida.ITuple jarg1_);
  public final static native void ITuple_resetRow(long jarg1, hep.aida.ITuple jarg1_);
  public final static native void ITuple_reset(long jarg1, hep.aida.ITuple jarg1_);
  public final static native int ITuple_rows(long jarg1, hep.aida.ITuple jarg1_);
  public final static native void ITuple_start(long jarg1, hep.aida.ITuple jarg1_);
  public final static native void ITuple_skip(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native boolean ITuple_next(long jarg1, hep.aida.ITuple jarg1_);
  public final static native void ITuple_setRow(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native int ITuple_findColumn(long jarg1, hep.aida.ITuple jarg1_, String jarg2);
  public final static native double ITuple_getDouble(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native float ITuple_getFloat(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native int ITuple_getInt(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native short ITuple_getShort(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native long ITuple_getLong(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native char ITuple_getChar(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native boolean ITuple_getBoolean(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native String ITuple_getString(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native long ITuple_getObject(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native long ITuple_getTuple(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native int ITuple_columns(long jarg1, hep.aida.ITuple jarg1_);
  public final static native String ITuple_columnName(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native long ITuple_columnNames(long jarg1, hep.aida.ITuple jarg1_);
  public final static native String ITuple_columnType(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native long ITuple_columnTypes(long jarg1, hep.aida.ITuple jarg1_);
  public final static native double ITuple_columnMin(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native double ITuple_columnMax(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native double ITuple_columnMean(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native double ITuple_columnRms(long jarg1, hep.aida.ITuple jarg1_, int jarg2);
  public final static native void ITuple_project__SWIG_0(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IHistogram1D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_);
  public final static native void ITuple_project__SWIG_1(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IHistogram1D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IFilter jarg4_);
  public final static native void ITuple_project__SWIG_2(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IHistogram1D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_);
  public final static native void ITuple_project__SWIG_3(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IHistogram1D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IFilter jarg4_, long jarg5, hep.aida.IEvaluator jarg5_);
  public final static native void ITuple_project__SWIG_4(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IHistogram2D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_);
  public final static native void ITuple_project__SWIG_5(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IHistogram2D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IFilter jarg5_);
  public final static native void ITuple_project__SWIG_6(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IHistogram2D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_);
  public final static native void ITuple_project__SWIG_7(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IHistogram2D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IFilter jarg5_, long jarg6, hep.aida.IEvaluator jarg6_);
  public final static native void ITuple_project__SWIG_8(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IHistogram3D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_);
  public final static native void ITuple_project__SWIG_9(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IHistogram3D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_, long jarg6, hep.aida.IFilter jarg6_);
  public final static native void ITuple_project__SWIG_10(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IHistogram3D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_, long jarg6, hep.aida.IEvaluator jarg6_);
  public final static native void ITuple_project__SWIG_11(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IHistogram3D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_, long jarg6, hep.aida.IFilter jarg6_, long jarg7, hep.aida.IEvaluator jarg7_);
  public final static native void ITuple_project__SWIG_12(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.ICloud1D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_);
  public final static native void ITuple_project__SWIG_13(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.ICloud1D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IFilter jarg4_);
  public final static native void ITuple_project__SWIG_14(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.ICloud1D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_);
  public final static native void ITuple_project__SWIG_15(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.ICloud1D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IFilter jarg4_, long jarg5, hep.aida.IEvaluator jarg5_);
  public final static native void ITuple_project__SWIG_16(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.ICloud2D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_);
  public final static native void ITuple_project__SWIG_17(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.ICloud2D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IFilter jarg5_);
  public final static native void ITuple_project__SWIG_18(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.ICloud2D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_);
  public final static native void ITuple_project__SWIG_19(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.ICloud2D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IFilter jarg5_, long jarg6, hep.aida.IEvaluator jarg6_);
  public final static native void ITuple_project__SWIG_20(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.ICloud3D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_);
  public final static native void ITuple_project__SWIG_21(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.ICloud3D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_, long jarg6, hep.aida.IFilter jarg6_);
  public final static native void ITuple_project__SWIG_22(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.ICloud3D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_, long jarg6, hep.aida.IEvaluator jarg6_);
  public final static native void ITuple_project__SWIG_23(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.ICloud3D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_, long jarg6, hep.aida.IFilter jarg6_, long jarg7, hep.aida.IEvaluator jarg7_);
  public final static native void ITuple_project__SWIG_24(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IProfile1D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_);
  public final static native void ITuple_project__SWIG_25(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IProfile1D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IFilter jarg5_);
  public final static native void ITuple_project__SWIG_26(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IProfile1D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_);
  public final static native void ITuple_project__SWIG_27(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IProfile1D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IFilter jarg5_, long jarg6, hep.aida.IEvaluator jarg6_);
  public final static native void ITuple_project__SWIG_28(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IProfile2D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_);
  public final static native void ITuple_project__SWIG_29(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IProfile2D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_, long jarg6, hep.aida.IFilter jarg6_);
  public final static native void ITuple_project__SWIG_30(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IProfile2D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_, long jarg6, hep.aida.IEvaluator jarg6_);
  public final static native void ITuple_project__SWIG_31(long jarg1, hep.aida.ITuple jarg1_, long jarg2, hep.aida.IProfile2D jarg2_, long jarg3, hep.aida.IEvaluator jarg3_, long jarg4, hep.aida.IEvaluator jarg4_, long jarg5, hep.aida.IEvaluator jarg5_, long jarg6, hep.aida.IFilter jarg6_, long jarg7, hep.aida.IEvaluator jarg7_);
  public final static native long new_ITuple();
  public final static native void ITuple_director_connect(hep.aida.ITuple obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void ITuple_change_ownership(hep.aida.ITuple obj, long cptr, boolean take_or_release);
  public final static native void delete_ITupleFactory(long jarg1);
  public final static native long ITupleFactory_create__SWIG_0(long jarg1, hep.aida.ITupleFactory jarg1_, String jarg2, String jarg3, long jarg4, long jarg5, String jarg6);
  public final static native long ITupleFactory_create__SWIG_1(long jarg1, hep.aida.ITupleFactory jarg1_, String jarg2, String jarg3, long jarg4, long jarg5);
  public final static native long ITupleFactory_create__SWIG_2(long jarg1, hep.aida.ITupleFactory jarg1_, String jarg2, String jarg3, String jarg4, String jarg5);
  public final static native long ITupleFactory_create__SWIG_3(long jarg1, hep.aida.ITupleFactory jarg1_, String jarg2, String jarg3, String jarg4);
  public final static native long ITupleFactory_createChained__SWIG_0(long jarg1, hep.aida.ITupleFactory jarg1_, String jarg2, String jarg3, long jarg4);
  public final static native long ITupleFactory_createChained__SWIG_1(long jarg1, hep.aida.ITupleFactory jarg1_, String jarg2, String jarg3, long jarg4);
  public final static native long ITupleFactory_createFiltered__SWIG_0(long jarg1, hep.aida.ITupleFactory jarg1_, String jarg2, long jarg3, hep.aida.ITuple jarg3_, long jarg4, hep.aida.IFilter jarg4_);
  public final static native long ITupleFactory_createFiltered__SWIG_1(long jarg1, hep.aida.ITupleFactory jarg1_, String jarg2, long jarg3, hep.aida.ITuple jarg3_, long jarg4, hep.aida.IFilter jarg4_, long jarg5);
  public final static native long ITupleFactory_createFilter__SWIG_0(long jarg1, hep.aida.ITupleFactory jarg1_, String jarg2);
  public final static native long ITupleFactory_createFilter__SWIG_1(long jarg1, hep.aida.ITupleFactory jarg1_, String jarg2, int jarg3, int jarg4);
  public final static native long ITupleFactory_createFilter__SWIG_2(long jarg1, hep.aida.ITupleFactory jarg1_, String jarg2, int jarg3);
  public final static native long ITupleFactory_createEvaluator(long jarg1, hep.aida.ITupleFactory jarg1_, String jarg2);
  public final static native long new_ITupleFactory();
  public final static native void ITupleFactory_director_connect(hep.aida.ITupleFactory obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void ITupleFactory_change_ownership(hep.aida.ITupleFactory obj, long cptr, boolean take_or_release);
  public final static native void delete_IMeasurement(long jarg1);
  public final static native double IMeasurement_value(long jarg1, hep.aida.IMeasurement jarg1_);
  public final static native double IMeasurement_errorPlus(long jarg1, hep.aida.IMeasurement jarg1_);
  public final static native double IMeasurement_errorMinus(long jarg1, hep.aida.IMeasurement jarg1_);
  public final static native void IMeasurement_setValue(long jarg1, hep.aida.IMeasurement jarg1_, double jarg2);
  public final static native void IMeasurement_setErrorPlus(long jarg1, hep.aida.IMeasurement jarg1_, double jarg2);
  public final static native void IMeasurement_setErrorMinus(long jarg1, hep.aida.IMeasurement jarg1_, double jarg2);
  public final static native long new_IMeasurement();
  public final static native void IMeasurement_director_connect(hep.aida.IMeasurement obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IMeasurement_change_ownership(hep.aida.IMeasurement obj, long cptr, boolean take_or_release);
  public final static native void delete_IRangeSet(long jarg1);
  public final static native double[] IRangeSet_lowerBounds(long jarg1, hep.aida.IRangeSet jarg1_);
  public final static native double[] IRangeSet_upperBounds(long jarg1, hep.aida.IRangeSet jarg1_);
  public final static native void IRangeSet_include(long jarg1, hep.aida.IRangeSet jarg1_, double jarg2, double jarg3);
  public final static native void IRangeSet_exclude(long jarg1, hep.aida.IRangeSet jarg1_, double jarg2, double jarg3);
  public final static native void IRangeSet_includeAll(long jarg1, hep.aida.IRangeSet jarg1_);
  public final static native void IRangeSet_excludeAll(long jarg1, hep.aida.IRangeSet jarg1_);
  public final static native boolean IRangeSet_isInRange(long jarg1, hep.aida.IRangeSet jarg1_, double jarg2);
  public final static native int IRangeSet_size(long jarg1, hep.aida.IRangeSet jarg1_);
  public final static native double IRangeSet_PLUS_INF(long jarg1, hep.aida.IRangeSet jarg1_);
  public final static native double IRangeSet_MINUS_INF(long jarg1, hep.aida.IRangeSet jarg1_);
  public final static native long new_IRangeSet();
  public final static native void IRangeSet_director_connect(hep.aida.IRangeSet obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IRangeSet_change_ownership(hep.aida.IRangeSet obj, long cptr, boolean take_or_release);
  public final static native void delete_IFitData(long jarg1);
  public final static native void IFitData_create1DConnection__SWIG_0(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.IHistogram1D jarg2_);
  public final static native void IFitData_create1DConnection__SWIG_1(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.ICloud1D jarg2_);
  public final static native void IFitData_create1DConnection__SWIG_2(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.IProfile1D jarg2_);
  public final static native void IFitData_create1DConnection__SWIG_3(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_, int jarg3, int jarg4);
  public final static native void IFitData_create2DConnection__SWIG_0(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.IHistogram2D jarg2_);
  public final static native void IFitData_create2DConnection__SWIG_1(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.IHistogram2D jarg2_, int jarg3, int jarg4);
  public final static native void IFitData_create2DConnection__SWIG_2(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.ICloud2D jarg2_);
  public final static native void IFitData_create2DConnection__SWIG_3(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.ICloud2D jarg2_, int jarg3, int jarg4);
  public final static native void IFitData_create2DConnection__SWIG_4(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.IProfile2D jarg2_);
  public final static native void IFitData_create2DConnection__SWIG_5(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.IProfile2D jarg2_, int jarg3, int jarg4);
  public final static native void IFitData_create2DConnection__SWIG_6(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_, int jarg3, int jarg4, int jarg5);
  public final static native void IFitData_create3DConnection__SWIG_0(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.IHistogram3D jarg2_);
  public final static native void IFitData_create3DConnection__SWIG_1(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.IHistogram3D jarg2_, int jarg3, int jarg4, int jarg5);
  public final static native void IFitData_create3DConnection__SWIG_2(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.ICloud3D jarg2_);
  public final static native void IFitData_create3DConnection__SWIG_3(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.ICloud3D jarg2_, int jarg3, int jarg4, int jarg5);
  public final static native void IFitData_create3DConnection__SWIG_4(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_, int jarg3, int jarg4, int jarg5, int jarg6);
  public final static native void IFitData_createConnection__SWIG_0(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.ITuple jarg2_, long jarg3);
  public final static native void IFitData_createConnection__SWIG_1(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.ITuple jarg2_, long jarg3);
  public final static native void IFitData_createConnection__SWIG_2(long jarg1, hep.aida.IFitData jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_, int[] jarg3, int jarg4);
  public final static native void IFitData_reset(long jarg1, hep.aida.IFitData jarg1_);
  public final static native int IFitData_dimension(long jarg1, hep.aida.IFitData jarg1_);
  public final static native String IFitData_dataDescription(long jarg1, hep.aida.IFitData jarg1_);
  public final static native long IFitData_range(long jarg1, hep.aida.IFitData jarg1_, int jarg2);
  public final static native long new_IFitData();
  public final static native void IFitData_director_connect(hep.aida.IFitData obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IFitData_change_ownership(hep.aida.IFitData obj, long cptr, boolean take_or_release);
  public final static native void delete_IFunction(long jarg1);
  public final static native String IFunction_title(long jarg1, hep.aida.IFunction jarg1_);
  public final static native void IFunction_setTitle(long jarg1, hep.aida.IFunction jarg1_, String jarg2);
  public final static native double IFunction_value(long jarg1, hep.aida.IFunction jarg1_, double[] jarg2);
  public final static native int IFunction_dimension(long jarg1, hep.aida.IFunction jarg1_);
  public final static native boolean IFunction_isEqual(long jarg1, hep.aida.IFunction jarg1_, long jarg2, hep.aida.IFunction jarg2_);
  public final static native double[] IFunction_gradient(long jarg1, hep.aida.IFunction jarg1_, double[] jarg2);
  public final static native boolean IFunction_providesGradient(long jarg1, hep.aida.IFunction jarg1_);
  public final static native String IFunction_variableName(long jarg1, hep.aida.IFunction jarg1_, int jarg2);
  public final static native long IFunction_variableNames(long jarg1, hep.aida.IFunction jarg1_);
  public final static native void IFunction_setParameters(long jarg1, hep.aida.IFunction jarg1_, double[] jarg2);
  public final static native double[] IFunction_parameters(long jarg1, hep.aida.IFunction jarg1_);
  public final static native int IFunction_numberOfParameters(long jarg1, hep.aida.IFunction jarg1_);
  public final static native long IFunction_parameterNames(long jarg1, hep.aida.IFunction jarg1_);
  public final static native void IFunction_setParameter(long jarg1, hep.aida.IFunction jarg1_, String jarg2, double jarg3);
  public final static native double IFunction_parameter(long jarg1, hep.aida.IFunction jarg1_, String jarg2);
  public final static native int IFunction_indexOfParameter(long jarg1, hep.aida.IFunction jarg1_, String jarg2);
  public final static native long IFunction_annotation(long jarg1, hep.aida.IFunction jarg1_);
  public final static native String IFunction_codeletString(long jarg1, hep.aida.IFunction jarg1_);
  public final static native long new_IFunction();
  public final static native void IFunction_director_connect(hep.aida.IFunction obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IFunction_change_ownership(hep.aida.IFunction obj, long cptr, boolean take_or_release);
  public final static native int AIDA_IFITPARAMETERSETTINGS_H_get();
  public final static native void delete_IFitParameterSettings(long jarg1);
  public final static native String IFitParameterSettings_name(long jarg1, hep.aida.IFitParameterSettings jarg1_);
  public final static native double IFitParameterSettings_stepSize(long jarg1, hep.aida.IFitParameterSettings jarg1_);
  public final static native double IFitParameterSettings_upperBound(long jarg1, hep.aida.IFitParameterSettings jarg1_);
  public final static native double IFitParameterSettings_lowerBound(long jarg1, hep.aida.IFitParameterSettings jarg1_);
  public final static native boolean IFitParameterSettings_isBound(long jarg1, hep.aida.IFitParameterSettings jarg1_);
  public final static native boolean IFitParameterSettings_isFixed(long jarg1, hep.aida.IFitParameterSettings jarg1_);
  public final static native void IFitParameterSettings_setStepSize(long jarg1, hep.aida.IFitParameterSettings jarg1_, double jarg2);
  public final static native void IFitParameterSettings_setBounds(long jarg1, hep.aida.IFitParameterSettings jarg1_, double jarg2, double jarg3);
  public final static native void IFitParameterSettings_removeBounds(long jarg1, hep.aida.IFitParameterSettings jarg1_);
  public final static native void IFitParameterSettings_setFixed(long jarg1, hep.aida.IFitParameterSettings jarg1_, boolean jarg2);
  public final static native void IFitParameterSettings_setLowerBound(long jarg1, hep.aida.IFitParameterSettings jarg1_, double jarg2);
  public final static native void IFitParameterSettings_setUpperBound(long jarg1, hep.aida.IFitParameterSettings jarg1_, double jarg2);
  public final static native void IFitParameterSettings_reset(long jarg1, hep.aida.IFitParameterSettings jarg1_);
  public final static native long new_IFitParameterSettings();
  public final static native void IFitParameterSettings_director_connect(hep.aida.IFitParameterSettings obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IFitParameterSettings_change_ownership(hep.aida.IFitParameterSettings obj, long cptr, boolean take_or_release);
  public final static native void delete_IFitResult(long jarg1);
  public final static native boolean IFitResult_isValid(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native int IFitResult_fitStatus(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native long IFitResult_fittedFunction(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native double IFitResult_quality(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native int IFitResult_ndf(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native double IFitResult_covMatrixElement(long jarg1, hep.aida.IFitResult jarg1_, int jarg2, int jarg3);
  public final static native String IFitResult_fitMethodName(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native String IFitResult_engineName(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native String IFitResult_dataDescription(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native long IFitResult_constraints(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native long IFitResult_fitParameterSettings(long jarg1, hep.aida.IFitResult jarg1_, String jarg2);
  public final static native double[] IFitResult_fittedParameters(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native long IFitResult_fittedParameterNames(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native double IFitResult_fittedParameter(long jarg1, hep.aida.IFitResult jarg1_, String jarg2);
  public final static native double[] IFitResult_errors(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native double[] IFitResult_errorsPlus(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native double[] IFitResult_errorsMinus(long jarg1, hep.aida.IFitResult jarg1_);
  public final static native long new_IFitResult();
  public final static native void IFitResult_director_connect(hep.aida.IFitResult obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IFitResult_change_ownership(hep.aida.IFitResult obj, long cptr, boolean take_or_release);
  public final static native void delete_IFitter(long jarg1);
  public final static native long IFitter_fit__SWIG_0(long jarg1, hep.aida.IFitter jarg1_, long jarg2, hep.aida.IFitData jarg2_, long jarg3, hep.aida.IFunction jarg3_);
  public final static native long IFitter_fit__SWIG_1(long jarg1, hep.aida.IFitter jarg1_, long jarg2, hep.aida.IBaseHistogram jarg2_, long jarg3, hep.aida.IFunction jarg3_);
  public final static native long IFitter_fit__SWIG_2(long jarg1, hep.aida.IFitter jarg1_, long jarg2, hep.aida.IBaseHistogram jarg2_, String jarg3);
  public final static native long IFitter_fit__SWIG_3(long jarg1, hep.aida.IFitter jarg1_, long jarg2, hep.aida.IBaseHistogram jarg2_, String jarg3, double[] jarg4);
  public final static native long IFitter_fit__SWIG_4(long jarg1, hep.aida.IFitter jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_, long jarg3, hep.aida.IFunction jarg3_);
  public final static native long IFitter_fit__SWIG_5(long jarg1, hep.aida.IFitter jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_, String jarg3);
  public final static native long IFitter_fit__SWIG_6(long jarg1, hep.aida.IFitter jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_, String jarg3, double[] jarg4);
  public final static native long IFitter_fit__SWIG_7(long jarg1, hep.aida.IFitter jarg1_, long jarg2, hep.aida.IFitData jarg2_, String jarg3);
  public final static native long IFitter_fit__SWIG_8(long jarg1, hep.aida.IFitter jarg1_, long jarg2, hep.aida.IFitData jarg2_, String jarg3, double[] jarg4);
  public final static native void IFitter_setEngine(long jarg1, hep.aida.IFitter jarg1_, String jarg2);
  public final static native String IFitter_engineName(long jarg1, hep.aida.IFitter jarg1_);
  public final static native long IFitter_fitParameterSettings(long jarg1, hep.aida.IFitter jarg1_, String jarg2);
  public final static native long IFitter_listParameterSettings(long jarg1, hep.aida.IFitter jarg1_);
  public final static native void IFitter_resetParameterSettings(long jarg1, hep.aida.IFitter jarg1_);
  public final static native void IFitter_setConstraint(long jarg1, hep.aida.IFitter jarg1_, String jarg2);
  public final static native long IFitter_constraints(long jarg1, hep.aida.IFitter jarg1_);
  public final static native void IFitter_resetConstraints(long jarg1, hep.aida.IFitter jarg1_);
  public final static native void IFitter_setFitMethod(long jarg1, hep.aida.IFitter jarg1_, String jarg2);
  public final static native String IFitter_fitMethodName(long jarg1, hep.aida.IFitter jarg1_);
  public final static native long IFitter_createScan1D(long jarg1, hep.aida.IFitter jarg1_, long jarg2, hep.aida.IFitData jarg2_, long jarg3, hep.aida.IFunction jarg3_, String jarg4, int jarg5, double jarg6, double jarg7);
  public final static native long IFitter_createContour(long jarg1, hep.aida.IFitter jarg1_, long jarg2, hep.aida.IFitData jarg2_, long jarg3, hep.aida.IFitResult jarg3_, String jarg4, String jarg5, int jarg6, double jarg7);
  public final static native void IFitter_setUseFunctionGradient(long jarg1, hep.aida.IFitter jarg1_, boolean jarg2);
  public final static native boolean IFitter_useFunctionGradient(long jarg1, hep.aida.IFitter jarg1_);
  public final static native long new_IFitter();
  public final static native void IFitter_director_connect(hep.aida.IFitter obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IFitter_change_ownership(hep.aida.IFitter obj, long cptr, boolean take_or_release);
  public final static native void delete_IFitFactory(long jarg1);
  public final static native long IFitFactory_createFitData(long jarg1, hep.aida.IFitFactory jarg1_);
  public final static native long IFitFactory_createFitter__SWIG_0(long jarg1, hep.aida.IFitFactory jarg1_, String jarg2, String jarg3, String jarg4);
  public final static native long IFitFactory_createFitter__SWIG_1(long jarg1, hep.aida.IFitFactory jarg1_, String jarg2, String jarg3);
  public final static native long IFitFactory_createFitter__SWIG_2(long jarg1, hep.aida.IFitFactory jarg1_, String jarg2);
  public final static native long IFitFactory_createFitter__SWIG_3(long jarg1, hep.aida.IFitFactory jarg1_);
  public final static native long new_IFitFactory();
  public final static native void IFitFactory_director_connect(hep.aida.IFitFactory obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IFitFactory_change_ownership(hep.aida.IFitFactory obj, long cptr, boolean take_or_release);
  public final static native void delete_IModelFunction(long jarg1);
  public final static native boolean IModelFunction_providesNormalization(long jarg1, hep.aida.IModelFunction jarg1_);
  public final static native void IModelFunction_normalize(long jarg1, hep.aida.IModelFunction jarg1_, boolean jarg2);
  public final static native boolean IModelFunction_isNormalized(long jarg1, hep.aida.IModelFunction jarg1_);
  public final static native double[] IModelFunction_parameterGradient(long jarg1, hep.aida.IModelFunction jarg1_, double[] jarg2);
  public final static native boolean IModelFunction_providesParameterGradient(long jarg1, hep.aida.IModelFunction jarg1_);
  public final static native long IModelFunction_normalizationRange(long jarg1, hep.aida.IModelFunction jarg1_, int jarg2);
  public final static native void IModelFunction_includeNormalizationAll(long jarg1, hep.aida.IModelFunction jarg1_);
  public final static native void IModelFunction_excludeNormalizationAll(long jarg1, hep.aida.IModelFunction jarg1_);
  public final static native long new_IModelFunction();
  public final static native void IModelFunction_director_connect(hep.aida.IModelFunction obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IModelFunction_change_ownership(hep.aida.IModelFunction obj, long cptr, boolean take_or_release);
  public final static native void delete_IFunctionCatalog(long jarg1);
  public final static native boolean IFunctionCatalog_add__SWIG_0(long jarg1, hep.aida.IFunctionCatalog jarg1_, String jarg2, long jarg3, hep.aida.IFunction jarg3_);
  public final static native boolean IFunctionCatalog_add__SWIG_1(long jarg1, hep.aida.IFunctionCatalog jarg1_, String jarg2, String jarg3);
  public final static native long IFunctionCatalog_list(long jarg1, hep.aida.IFunctionCatalog jarg1_);
  public final static native void IFunctionCatalog_remove(long jarg1, hep.aida.IFunctionCatalog jarg1_, String jarg2);
  public final static native void IFunctionCatalog_storeAll(long jarg1, hep.aida.IFunctionCatalog jarg1_, String jarg2);
  public final static native void IFunctionCatalog_loadAll(long jarg1, hep.aida.IFunctionCatalog jarg1_, String jarg2);
  public final static native long new_IFunctionCatalog();
  public final static native void IFunctionCatalog_director_connect(hep.aida.IFunctionCatalog obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IFunctionCatalog_change_ownership(hep.aida.IFunctionCatalog obj, long cptr, boolean take_or_release);
  public final static native void delete_IFunctionFactory(long jarg1);
  public final static native long IFunctionFactory_createFunctionByName(long jarg1, hep.aida.IFunctionFactory jarg1_, String jarg2, String jarg3);
  public final static native long IFunctionFactory_createFunctionFromScript__SWIG_0(long jarg1, hep.aida.IFunctionFactory jarg1_, String jarg2, int jarg3, String jarg4, String jarg5, String jarg6, String jarg7);
  public final static native long IFunctionFactory_createFunctionFromScript__SWIG_1(long jarg1, hep.aida.IFunctionFactory jarg1_, String jarg2, int jarg3, String jarg4, String jarg5, String jarg6);
  public final static native long IFunctionFactory_cloneFunction(long jarg1, hep.aida.IFunctionFactory jarg1_, String jarg2, long jarg3, hep.aida.IFunction jarg3_);
  public final static native long IFunctionFactory_catalog(long jarg1, hep.aida.IFunctionFactory jarg1_);
  public final static native long new_IFunctionFactory();
  public final static native void IFunctionFactory_director_connect(hep.aida.IFunctionFactory obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IFunctionFactory_change_ownership(hep.aida.IFunctionFactory obj, long cptr, boolean take_or_release);
  public final static native void delete_IBaseStyle(long jarg1);
  public final static native void IBaseStyle_reset(long jarg1, hep.aida.IBaseStyle jarg1_);
  public final static native boolean IBaseStyle_setParameter__SWIG_0(long jarg1, hep.aida.IBaseStyle jarg1_, String jarg2, String jarg3);
  public final static native boolean IBaseStyle_setParameter__SWIG_1(long jarg1, hep.aida.IBaseStyle jarg1_, String jarg2);
  public final static native String IBaseStyle_parameterValue(long jarg1, hep.aida.IBaseStyle jarg1_, String jarg2);
  public final static native long IBaseStyle_availableParameters(long jarg1, hep.aida.IBaseStyle jarg1_);
  public final static native long IBaseStyle_availableParameterOptions(long jarg1, hep.aida.IBaseStyle jarg1_, String jarg2);
  public final static native long new_IBaseStyle();
  public final static native void IBaseStyle_director_connect(hep.aida.IBaseStyle obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IBaseStyle_change_ownership(hep.aida.IBaseStyle obj, long cptr, boolean take_or_release);
  public final static native void delete_IBrushStyle(long jarg1);
  public final static native long IBrushStyle_availableColors(long jarg1, hep.aida.IBrushStyle jarg1_);
  public final static native String IBrushStyle_color(long jarg1, hep.aida.IBrushStyle jarg1_);
  public final static native double IBrushStyle_opacity(long jarg1, hep.aida.IBrushStyle jarg1_);
  public final static native boolean IBrushStyle_setColor(long jarg1, hep.aida.IBrushStyle jarg1_, String jarg2);
  public final static native boolean IBrushStyle_setOpacity(long jarg1, hep.aida.IBrushStyle jarg1_, double jarg2);
  public final static native long new_IBrushStyle();
  public final static native void IBrushStyle_director_connect(hep.aida.IBrushStyle obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IBrushStyle_change_ownership(hep.aida.IBrushStyle obj, long cptr, boolean take_or_release);
  public final static native void delete_ILineStyle(long jarg1);
  public final static native long ILineStyle_availableLineTypes(long jarg1, hep.aida.ILineStyle jarg1_);
  public final static native String ILineStyle_lineType(long jarg1, hep.aida.ILineStyle jarg1_);
  public final static native int ILineStyle_thickness(long jarg1, hep.aida.ILineStyle jarg1_);
  public final static native boolean ILineStyle_setLineType(long jarg1, hep.aida.ILineStyle jarg1_, String jarg2);
  public final static native boolean ILineStyle_setThickness(long jarg1, hep.aida.ILineStyle jarg1_, int jarg2);
  public final static native long new_ILineStyle();
  public final static native void ILineStyle_director_connect(hep.aida.ILineStyle obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void ILineStyle_change_ownership(hep.aida.ILineStyle obj, long cptr, boolean take_or_release);
  public final static native void delete_ITextStyle(long jarg1);
  public final static native long ITextStyle_availableFonts(long jarg1, hep.aida.ITextStyle jarg1_);
  public final static native double ITextStyle_fontSize(long jarg1, hep.aida.ITextStyle jarg1_);
  public final static native boolean ITextStyle_setFontSize(long jarg1, hep.aida.ITextStyle jarg1_, double jarg2);
  public final static native String ITextStyle_font(long jarg1, hep.aida.ITextStyle jarg1_);
  public final static native boolean ITextStyle_setFont(long jarg1, hep.aida.ITextStyle jarg1_, String jarg2);
  public final static native boolean ITextStyle_isBold(long jarg1, hep.aida.ITextStyle jarg1_);
  public final static native boolean ITextStyle_isItalic(long jarg1, hep.aida.ITextStyle jarg1_);
  public final static native boolean ITextStyle_isUnderlined(long jarg1, hep.aida.ITextStyle jarg1_);
  public final static native boolean ITextStyle_setBold__SWIG_0(long jarg1, hep.aida.ITextStyle jarg1_, boolean jarg2);
  public final static native boolean ITextStyle_setBold__SWIG_1(long jarg1, hep.aida.ITextStyle jarg1_);
  public final static native boolean ITextStyle_setItalic__SWIG_0(long jarg1, hep.aida.ITextStyle jarg1_, boolean jarg2);
  public final static native boolean ITextStyle_setItalic__SWIG_1(long jarg1, hep.aida.ITextStyle jarg1_);
  public final static native boolean ITextStyle_setUnderlined__SWIG_0(long jarg1, hep.aida.ITextStyle jarg1_, boolean jarg2);
  public final static native boolean ITextStyle_setUnderlined__SWIG_1(long jarg1, hep.aida.ITextStyle jarg1_);
  public final static native long new_ITextStyle();
  public final static native void ITextStyle_director_connect(hep.aida.ITextStyle obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void ITextStyle_change_ownership(hep.aida.ITextStyle obj, long cptr, boolean take_or_release);
  public final static native void delete_IAxisStyle(long jarg1);
  public final static native long IAxisStyle_lineStyle(long jarg1, hep.aida.IAxisStyle jarg1_);
  public final static native long IAxisStyle_tickLabelStyle(long jarg1, hep.aida.IAxisStyle jarg1_);
  public final static native long IAxisStyle_labelStyle(long jarg1, hep.aida.IAxisStyle jarg1_);
  public final static native boolean IAxisStyle_setlineStyle(long jarg1, hep.aida.IAxisStyle jarg1_, long jarg2, hep.aida.ILineStyle jarg2_);
  public final static native boolean IAxisStyle_setTickLabelStyle(long jarg1, hep.aida.IAxisStyle jarg1_, long jarg2, hep.aida.ITextStyle jarg2_);
  public final static native boolean IAxisStyle_setLabelStyle(long jarg1, hep.aida.IAxisStyle jarg1_, long jarg2, hep.aida.ITextStyle jarg2_);
  public final static native void IAxisStyle_setLabel(long jarg1, hep.aida.IAxisStyle jarg1_, String jarg2);
  public final static native long new_IAxisStyle();
  public final static native void IAxisStyle_director_connect(hep.aida.IAxisStyle obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IAxisStyle_change_ownership(hep.aida.IAxisStyle obj, long cptr, boolean take_or_release);
  public final static native void delete_IFillStyle(long jarg1);
  public final static native long IFillStyle_availablePatterns(long jarg1, hep.aida.IFillStyle jarg1_);
  public final static native String IFillStyle_pattern(long jarg1, hep.aida.IFillStyle jarg1_);
  public final static native boolean IFillStyle_setPattern(long jarg1, hep.aida.IFillStyle jarg1_, String jarg2);
  public final static native long new_IFillStyle();
  public final static native void IFillStyle_director_connect(hep.aida.IFillStyle obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IFillStyle_change_ownership(hep.aida.IFillStyle obj, long cptr, boolean take_or_release);
  public final static native void delete_IMarkerStyle(long jarg1);
  public final static native long IMarkerStyle_availableShapes(long jarg1, hep.aida.IMarkerStyle jarg1_);
  public final static native String IMarkerStyle_shape(long jarg1, hep.aida.IMarkerStyle jarg1_);
  public final static native boolean IMarkerStyle_setShape(long jarg1, hep.aida.IMarkerStyle jarg1_, String jarg2);
  public final static native long new_IMarkerStyle();
  public final static native void IMarkerStyle_director_connect(hep.aida.IMarkerStyle obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IMarkerStyle_change_ownership(hep.aida.IMarkerStyle obj, long cptr, boolean take_or_release);
  public final static native void delete_IDataStyle(long jarg1);
  public final static native long IDataStyle_lineStyle(long jarg1, hep.aida.IDataStyle jarg1_);
  public final static native long IDataStyle_markerStyle(long jarg1, hep.aida.IDataStyle jarg1_);
  public final static native long IDataStyle_fillStyle(long jarg1, hep.aida.IDataStyle jarg1_);
  public final static native boolean IDataStyle_setLineStyle(long jarg1, hep.aida.IDataStyle jarg1_, long jarg2, hep.aida.ILineStyle jarg2_);
  public final static native boolean IDataStyle_setMarkerStyle(long jarg1, hep.aida.IDataStyle jarg1_, long jarg2, hep.aida.IMarkerStyle jarg2_);
  public final static native boolean IDataStyle_setFillStyle(long jarg1, hep.aida.IDataStyle jarg1_, long jarg2, hep.aida.IFillStyle jarg2_);
  public final static native long new_IDataStyle();
  public final static native void IDataStyle_director_connect(hep.aida.IDataStyle obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IDataStyle_change_ownership(hep.aida.IDataStyle obj, long cptr, boolean take_or_release);
  public final static native void delete_IInfoStyle(long jarg1);
  public final static native long IInfoStyle_textStyle(long jarg1, hep.aida.IInfoStyle jarg1_);
  public final static native boolean IInfoStyle_setTextStyle(long jarg1, hep.aida.IInfoStyle jarg1_, long jarg2, hep.aida.ITextStyle jarg2_);
  public final static native long new_IInfoStyle();
  public final static native void IInfoStyle_director_connect(hep.aida.IInfoStyle obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IInfoStyle_change_ownership(hep.aida.IInfoStyle obj, long cptr, boolean take_or_release);
  public final static native void delete_ITitleStyle(long jarg1);
  public final static native long ITitleStyle_textStyle(long jarg1, hep.aida.ITitleStyle jarg1_);
  public final static native boolean ITitleStyle_setTextStyle(long jarg1, hep.aida.ITitleStyle jarg1_, long jarg2, hep.aida.ITextStyle jarg2_);
  public final static native long new_ITitleStyle();
  public final static native void ITitleStyle_director_connect(hep.aida.ITitleStyle obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void ITitleStyle_change_ownership(hep.aida.ITitleStyle obj, long cptr, boolean take_or_release);
  public final static native void delete_IPlotterStyle(long jarg1);
  public final static native long IPlotterStyle_dataStyle(long jarg1, hep.aida.IPlotterStyle jarg1_);
  public final static native long IPlotterStyle_xAxisStyle(long jarg1, hep.aida.IPlotterStyle jarg1_);
  public final static native long IPlotterStyle_yAxisStyle(long jarg1, hep.aida.IPlotterStyle jarg1_);
  public final static native long IPlotterStyle_zAxisStyle(long jarg1, hep.aida.IPlotterStyle jarg1_);
  public final static native long IPlotterStyle_titleStyle(long jarg1, hep.aida.IPlotterStyle jarg1_);
  public final static native long IPlotterStyle_infoStyle(long jarg1, hep.aida.IPlotterStyle jarg1_);
  public final static native boolean IPlotterStyle_setDataStyle(long jarg1, hep.aida.IPlotterStyle jarg1_, long jarg2, hep.aida.IDataStyle jarg2_);
  public final static native boolean IPlotterStyle_setAxisStyleX(long jarg1, hep.aida.IPlotterStyle jarg1_, long jarg2, hep.aida.IAxisStyle jarg2_);
  public final static native boolean IPlotterStyle_setAxisStyleY(long jarg1, hep.aida.IPlotterStyle jarg1_, long jarg2, hep.aida.IAxisStyle jarg2_);
  public final static native boolean IPlotterStyle_setAxisStyleZ(long jarg1, hep.aida.IPlotterStyle jarg1_, long jarg2, hep.aida.IAxisStyle jarg2_);
  public final static native boolean IPlotterStyle_setTitleStyle(long jarg1, hep.aida.IPlotterStyle jarg1_, long jarg2, hep.aida.ITitleStyle jarg2_);
  public final static native boolean IPlotterStyle_setInfoStyle(long jarg1, hep.aida.IPlotterStyle jarg1_, long jarg2, hep.aida.IInfoStyle jarg2_);
  public final static native long new_IPlotterStyle();
  public final static native void IPlotterStyle_director_connect(hep.aida.IPlotterStyle obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IPlotterStyle_change_ownership(hep.aida.IPlotterStyle obj, long cptr, boolean take_or_release);
  public final static native void delete_IInfo(long jarg1);
  public final static native void IInfo_clear(long jarg1, hep.aida.IInfo jarg1_);
  public final static native void IInfo_addText(long jarg1, hep.aida.IInfo jarg1_, String jarg2);
  public final static native void IInfo_addLegend__SWIG_0(long jarg1, hep.aida.IInfo jarg1_, long jarg2, hep.aida.IMarkerStyle jarg2_, String jarg3);
  public final static native void IInfo_addLegend__SWIG_1(long jarg1, hep.aida.IInfo jarg1_, long jarg2, hep.aida.ILineStyle jarg2_, String jarg3);
  public final static native void IInfo_addLegend__SWIG_2(long jarg1, hep.aida.IInfo jarg1_, long jarg2, hep.aida.IFillStyle jarg2_, String jarg3);
  public final static native long new_IInfo();
  public final static native void IInfo_director_connect(hep.aida.IInfo obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IInfo_change_ownership(hep.aida.IInfo obj, long cptr, boolean take_or_release);
  public final static native void delete_IPlotterLayout(long jarg1);
  public final static native void IPlotterLayout_reset(long jarg1, hep.aida.IPlotterLayout jarg1_);
  public final static native boolean IPlotterLayout_setParameter(long jarg1, hep.aida.IPlotterLayout jarg1_, String jarg2, double jarg3);
  public final static native double IPlotterLayout_parameterValue(long jarg1, hep.aida.IPlotterLayout jarg1_, String jarg2);
  public final static native long IPlotterLayout_availableParameters(long jarg1, hep.aida.IPlotterLayout jarg1_);
  public final static native long new_IPlotterLayout();
  public final static native void IPlotterLayout_director_connect(hep.aida.IPlotterLayout obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IPlotterLayout_change_ownership(hep.aida.IPlotterLayout obj, long cptr, boolean take_or_release);
  public final static native void delete_IPlotterRegion(long jarg1);
  public final static native void IPlotterRegion_plot__SWIG_0(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IBaseHistogram jarg2_, String jarg3);
  public final static native void IPlotterRegion_plot__SWIG_1(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IBaseHistogram jarg2_);
  public final static native void IPlotterRegion_plot__SWIG_2(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IBaseHistogram jarg2_, long jarg3, hep.aida.IPlotterStyle jarg3_, String jarg4);
  public final static native void IPlotterRegion_plot__SWIG_3(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IBaseHistogram jarg2_, long jarg3, hep.aida.IPlotterStyle jarg3_);
  public final static native void IPlotterRegion_plot__SWIG_4(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IFunction jarg2_, String jarg3);
  public final static native void IPlotterRegion_plot__SWIG_5(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IFunction jarg2_);
  public final static native void IPlotterRegion_plot__SWIG_6(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IFunction jarg2_, long jarg3, hep.aida.IPlotterStyle jarg3_, String jarg4);
  public final static native void IPlotterRegion_plot__SWIG_7(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IFunction jarg2_, long jarg3, hep.aida.IPlotterStyle jarg3_);
  public final static native void IPlotterRegion_plot__SWIG_8(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_, String jarg3);
  public final static native void IPlotterRegion_plot__SWIG_9(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_);
  public final static native void IPlotterRegion_plot__SWIG_10(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_, long jarg3, hep.aida.IPlotterStyle jarg3_, String jarg4);
  public final static native void IPlotterRegion_plot__SWIG_11(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_, long jarg3, hep.aida.IPlotterStyle jarg3_);
  public final static native void IPlotterRegion_remove__SWIG_0(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IBaseHistogram jarg2_);
  public final static native void IPlotterRegion_remove__SWIG_1(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IFunction jarg2_);
  public final static native void IPlotterRegion_remove__SWIG_2(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IDataPointSet jarg2_);
  public final static native void IPlotterRegion_clear(long jarg1, hep.aida.IPlotterRegion jarg1_);
  public final static native void IPlotterRegion_setParameter__SWIG_0(long jarg1, hep.aida.IPlotterRegion jarg1_, String jarg2, String jarg3);
  public final static native void IPlotterRegion_setParameter__SWIG_1(long jarg1, hep.aida.IPlotterRegion jarg1_, String jarg2);
  public final static native String IPlotterRegion_parameterValue(long jarg1, hep.aida.IPlotterRegion jarg1_, String jarg2);
  public final static native long IPlotterRegion_availableParameterOptions(long jarg1, hep.aida.IPlotterRegion jarg1_, String jarg2);
  public final static native long IPlotterRegion_availableParameters(long jarg1, hep.aida.IPlotterRegion jarg1_);
  public final static native long IPlotterRegion_style(long jarg1, hep.aida.IPlotterRegion jarg1_);
  public final static native void IPlotterRegion_setStyle(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IPlotterStyle jarg2_);
  public final static native void IPlotterRegion_applyStyle(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IPlotterStyle jarg2_);
  public final static native void IPlotterRegion_setTitle(long jarg1, hep.aida.IPlotterRegion jarg1_, String jarg2);
  public final static native void IPlotterRegion_setXLimits__SWIG_0(long jarg1, hep.aida.IPlotterRegion jarg1_, double jarg2, double jarg3);
  public final static native void IPlotterRegion_setXLimits__SWIG_1(long jarg1, hep.aida.IPlotterRegion jarg1_, double jarg2);
  public final static native void IPlotterRegion_setXLimits__SWIG_2(long jarg1, hep.aida.IPlotterRegion jarg1_);
  public final static native void IPlotterRegion_setYLimits__SWIG_0(long jarg1, hep.aida.IPlotterRegion jarg1_, double jarg2, double jarg3);
  public final static native void IPlotterRegion_setYLimits__SWIG_1(long jarg1, hep.aida.IPlotterRegion jarg1_, double jarg2);
  public final static native void IPlotterRegion_setYLimits__SWIG_2(long jarg1, hep.aida.IPlotterRegion jarg1_);
  public final static native void IPlotterRegion_setZLimits__SWIG_0(long jarg1, hep.aida.IPlotterRegion jarg1_, double jarg2, double jarg3);
  public final static native void IPlotterRegion_setZLimits__SWIG_1(long jarg1, hep.aida.IPlotterRegion jarg1_, double jarg2);
  public final static native void IPlotterRegion_setZLimits__SWIG_2(long jarg1, hep.aida.IPlotterRegion jarg1_);
  public final static native long IPlotterRegion_layout(long jarg1, hep.aida.IPlotterRegion jarg1_);
  public final static native void IPlotterRegion_setLayout(long jarg1, hep.aida.IPlotterRegion jarg1_, long jarg2, hep.aida.IPlotterLayout jarg2_);
  public final static native long IPlotterRegion_info(long jarg1, hep.aida.IPlotterRegion jarg1_);
  public final static native long new_IPlotterRegion();
  public final static native void IPlotterRegion_director_connect(hep.aida.IPlotterRegion obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IPlotterRegion_change_ownership(hep.aida.IPlotterRegion obj, long cptr, boolean take_or_release);
  public final static native void delete_IPlotter(long jarg1);
  public final static native long IPlotter_createRegion__SWIG_0(long jarg1, hep.aida.IPlotter jarg1_, double jarg2, double jarg3, double jarg4, double jarg5);
  public final static native long IPlotter_createRegion__SWIG_1(long jarg1, hep.aida.IPlotter jarg1_, double jarg2, double jarg3, double jarg4);
  public final static native long IPlotter_createRegion__SWIG_2(long jarg1, hep.aida.IPlotter jarg1_, double jarg2, double jarg3);
  public final static native long IPlotter_createRegion__SWIG_3(long jarg1, hep.aida.IPlotter jarg1_, double jarg2);
  public final static native long IPlotter_createRegion__SWIG_4(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native void IPlotter_createRegions__SWIG_0(long jarg1, hep.aida.IPlotter jarg1_, int jarg2, int jarg3, int jarg4);
  public final static native void IPlotter_createRegions__SWIG_1(long jarg1, hep.aida.IPlotter jarg1_, int jarg2, int jarg3);
  public final static native void IPlotter_createRegions__SWIG_2(long jarg1, hep.aida.IPlotter jarg1_, int jarg2);
  public final static native void IPlotter_createRegions__SWIG_3(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native long IPlotter_currentRegion(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native int IPlotter_currentRegionNumber(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native int IPlotter_numberOfRegions(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native void IPlotter_setCurrentRegionNumber(long jarg1, hep.aida.IPlotter jarg1_, int jarg2);
  public final static native long IPlotter_next(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native long IPlotter_region(long jarg1, hep.aida.IPlotter jarg1_, int jarg2);
  public final static native void IPlotter_destroyRegions(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native void IPlotter_clearRegions(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native void IPlotter_setParameter__SWIG_0(long jarg1, hep.aida.IPlotter jarg1_, String jarg2, String jarg3);
  public final static native void IPlotter_setParameter__SWIG_1(long jarg1, hep.aida.IPlotter jarg1_, String jarg2);
  public final static native String IPlotter_parameterValue(long jarg1, hep.aida.IPlotter jarg1_, String jarg2);
  public final static native long IPlotter_availableParameterOptions(long jarg1, hep.aida.IPlotter jarg1_, String jarg2);
  public final static native long IPlotter_availableParameters(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native void IPlotter_show(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native void IPlotter_refresh(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native void IPlotter_hide(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native void IPlotter_interact(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native void IPlotter_writeToFile__SWIG_0(long jarg1, hep.aida.IPlotter jarg1_, String jarg2, String jarg3);
  public final static native void IPlotter_writeToFile__SWIG_1(long jarg1, hep.aida.IPlotter jarg1_, String jarg2);
  public final static native void IPlotter_setTitle(long jarg1, hep.aida.IPlotter jarg1_, String jarg2);
  public final static native long IPlotter_titleStyle(long jarg1, hep.aida.IPlotter jarg1_);
  public final static native void IPlotter_setTitleStyle(long jarg1, hep.aida.IPlotter jarg1_, long jarg2, hep.aida.ITitleStyle jarg2_);
  public final static native long new_IPlotter();
  public final static native void IPlotter_director_connect(hep.aida.IPlotter obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IPlotter_change_ownership(hep.aida.IPlotter obj, long cptr, boolean take_or_release);
  public final static native int AIDA_IPLOTTERFACTORY_H_get();
  public final static native void delete_IPlotterFactory(long jarg1);
  public final static native long IPlotterFactory_create__SWIG_0(long jarg1, hep.aida.IPlotterFactory jarg1_, String jarg2);
  public final static native long IPlotterFactory_create__SWIG_1(long jarg1, hep.aida.IPlotterFactory jarg1_);
  public final static native long IPlotterFactory_createMarkerStyle(long jarg1, hep.aida.IPlotterFactory jarg1_);
  public final static native long IPlotterFactory_createTextStyle(long jarg1, hep.aida.IPlotterFactory jarg1_);
  public final static native long IPlotterFactory_createLineStyle(long jarg1, hep.aida.IPlotterFactory jarg1_);
  public final static native long IPlotterFactory_createFillStyle(long jarg1, hep.aida.IPlotterFactory jarg1_);
  public final static native long IPlotterFactory_createDataStyle(long jarg1, hep.aida.IPlotterFactory jarg1_);
  public final static native long IPlotterFactory_createAxisStyle(long jarg1, hep.aida.IPlotterFactory jarg1_);
  public final static native long IPlotterFactory_createTitleStyle(long jarg1, hep.aida.IPlotterFactory jarg1_);
  public final static native long IPlotterFactory_createPlotterStyle(long jarg1, hep.aida.IPlotterFactory jarg1_);
  public final static native long new_IPlotterFactory();
  public final static native void IPlotterFactory_director_connect(hep.aida.IPlotterFactory obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IPlotterFactory_change_ownership(hep.aida.IPlotterFactory obj, long cptr, boolean take_or_release);
  public final static native void delete_IAnalysisFactory(long jarg1);
  public final static native long IAnalysisFactory_createTreeFactory(long jarg1, hep.aida.IAnalysisFactory jarg1_);
  public final static native long IAnalysisFactory_createHistogramFactory(long jarg1, hep.aida.IAnalysisFactory jarg1_, long jarg2, hep.aida.ITree jarg2_);
  public final static native long IAnalysisFactory_createDataPointSetFactory(long jarg1, hep.aida.IAnalysisFactory jarg1_, long jarg2, hep.aida.ITree jarg2_);
  public final static native long IAnalysisFactory_createTupleFactory(long jarg1, hep.aida.IAnalysisFactory jarg1_, long jarg2, hep.aida.ITree jarg2_);
  public final static native long IAnalysisFactory_createFunctionFactory(long jarg1, hep.aida.IAnalysisFactory jarg1_, long jarg2, hep.aida.ITree jarg2_);
  public final static native long IAnalysisFactory_createFitFactory(long jarg1, hep.aida.IAnalysisFactory jarg1_);
  public final static native long new_IAnalysisFactory();
  public final static native void IAnalysisFactory_director_connect(hep.aida.IAnalysisFactory obj, long cptr, boolean mem_own, boolean weak_global);
  public final static native void IAnalysisFactory_change_ownership(hep.aida.IAnalysisFactory obj, long cptr, boolean take_or_release);
  public final static native long AIDA_createAnalysisFactory();
  public final static native long getTestHistogram();
  public final static native long SWIGIHistogramUpcast(long jarg1);
  public final static native long SWIGIHistogram1DUpcast(long jarg1);
  public final static native long SWIGIHistogram2DUpcast(long jarg1);
  public final static native long SWIGIHistogram3DUpcast(long jarg1);
  public final static native long SWIGICloudUpcast(long jarg1);
  public final static native long SWIGICloud1DUpcast(long jarg1);
  public final static native long SWIGICloud2DUpcast(long jarg1);
  public final static native long SWIGICloud3DUpcast(long jarg1);
  public final static native long SWIGIProfileUpcast(long jarg1);
  public final static native long SWIGIProfile1DUpcast(long jarg1);
  public final static native long SWIGIProfile2DUpcast(long jarg1);
  public final static native long SWIGIModelFunctionUpcast(long jarg1);
  public final static native long SWIGIBrushStyleUpcast(long jarg1);
  public final static native long SWIGILineStyleUpcast(long jarg1);
  public final static native long SWIGITextStyleUpcast(long jarg1);
  public final static native long SWIGIAxisStyleUpcast(long jarg1);
  public final static native long SWIGIFillStyleUpcast(long jarg1);
  public final static native long SWIGIMarkerStyleUpcast(long jarg1);
  public final static native long SWIGIDataStyleUpcast(long jarg1);
  public final static native long SWIGIInfoStyleUpcast(long jarg1);
  public final static native long SWIGITitleStyleUpcast(long jarg1);
  public final static native long SWIGIPlotterStyleUpcast(long jarg1);

  public static void SwigDirector_IAnnotation_addItem__SWIG_0(hep.aida.IAnnotation self, String key, String value, boolean sticky) {
  try {
    self.addItem(key, value, sticky);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IAnnotation_addItem__SWIG_1(hep.aida.IAnnotation self, String key, String value) {
  try {
    self.addItem(key, value);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IAnnotation_removeItem(hep.aida.IAnnotation self, String key) {
  try {
    self.removeItem(key);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IAnnotation_value__SWIG_0(hep.aida.IAnnotation self, String key) {
  try {
    return self.value(key);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IAnnotation_setValue(hep.aida.IAnnotation self, String key, String value) {
  try {
    self.setValue(key, value);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IAnnotation_setSticky(hep.aida.IAnnotation self, String key, boolean sticky) {
  try {
    self.setSticky(key, sticky);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IAnnotation_size(hep.aida.IAnnotation self) {
  try {
    return self.size();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IAnnotation_key(hep.aida.IAnnotation self, int index) {
  try {
    return self.key(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IAnnotation_value__SWIG_1(hep.aida.IAnnotation self, int index) {
  try {
    return self.value(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IAnnotation_reset(hep.aida.IAnnotation self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IManagedObject_name(hep.aida.IManagedObject self) {
  try {
    return self.name();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IAxis_isFixedBinning(hep.aida.IAxis self) {
  try {
    return self.isFixedBinning();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IAxis_lowerEdge(hep.aida.IAxis self) {
  try {
    return self.lowerEdge();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IAxis_upperEdge(hep.aida.IAxis self) {
  try {
    return self.upperEdge();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IAxis_bins(hep.aida.IAxis self) {
  try {
    return self.bins();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IAxis_binLowerEdge(hep.aida.IAxis self, int index) {
  try {
    return self.binLowerEdge(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IAxis_binUpperEdge(hep.aida.IAxis self, int index) {
  try {
    return self.binUpperEdge(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IAxis_binWidth(hep.aida.IAxis self, int index) {
  try {
    return self.binWidth(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IAxis_coordToIndex(hep.aida.IAxis self, double coord) {
  try {
    return self.coordToIndex(coord);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IBaseHistogram_title(hep.aida.IBaseHistogram self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IBaseHistogram_setTitle(hep.aida.IBaseHistogram self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IBaseHistogram_annotation(hep.aida.IBaseHistogram self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IBaseHistogram_dimension(hep.aida.IBaseHistogram self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IBaseHistogram_reset(hep.aida.IBaseHistogram self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IBaseHistogram_entries(hep.aida.IBaseHistogram self) {
  try {
    return self.entries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IHistogram_title(hep.aida.IHistogram self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram_setTitle(hep.aida.IHistogram self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogram_annotation(hep.aida.IHistogram self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram_dimension(hep.aida.IHistogram self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram_reset(hep.aida.IHistogram self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram_entries(hep.aida.IHistogram self) {
  try {
    return self.entries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram_allEntries(hep.aida.IHistogram self) {
  try {
    return self.allEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram_extraEntries(hep.aida.IHistogram self) {
  try {
    return self.extraEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram_equivalentBinEntries(hep.aida.IHistogram self) {
  try {
    return self.equivalentBinEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram_sumBinHeights(hep.aida.IHistogram self) {
  try {
    return self.sumBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram_sumAllBinHeights(hep.aida.IHistogram self) {
  try {
    return self.sumAllBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram_sumExtraBinHeights(hep.aida.IHistogram self) {
  try {
    return self.sumExtraBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram_minBinHeight(hep.aida.IHistogram self) {
  try {
    return self.minBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram_maxBinHeight(hep.aida.IHistogram self) {
  try {
    return self.maxBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram_scale(hep.aida.IHistogram self, double scaleFactor) {
  try {
    self.scale(scaleFactor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IHistogram1D_title(hep.aida.IHistogram1D self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram1D_setTitle(hep.aida.IHistogram1D self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogram1D_annotation(hep.aida.IHistogram1D self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram1D_dimension(hep.aida.IHistogram1D self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram1D_reset(hep.aida.IHistogram1D self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram1D_entries(hep.aida.IHistogram1D self) {
  try {
    return self.entries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram1D_allEntries(hep.aida.IHistogram1D self) {
  try {
    return self.allEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram1D_extraEntries(hep.aida.IHistogram1D self) {
  try {
    return self.extraEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram1D_equivalentBinEntries(hep.aida.IHistogram1D self) {
  try {
    return self.equivalentBinEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram1D_sumBinHeights(hep.aida.IHistogram1D self) {
  try {
    return self.sumBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram1D_sumAllBinHeights(hep.aida.IHistogram1D self) {
  try {
    return self.sumAllBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram1D_sumExtraBinHeights(hep.aida.IHistogram1D self) {
  try {
    return self.sumExtraBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram1D_minBinHeight(hep.aida.IHistogram1D self) {
  try {
    return self.minBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram1D_maxBinHeight(hep.aida.IHistogram1D self) {
  try {
    return self.maxBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram1D_scale(hep.aida.IHistogram1D self, double scaleFactor) {
  try {
    self.scale(scaleFactor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram1D_fill__SWIG_0(hep.aida.IHistogram1D self, double x, double weight) {
  try {
    self.fill(x, weight);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram1D_fill__SWIG_1(hep.aida.IHistogram1D self, double x) {
  try {
    self.fill(x);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram1D_binMean(hep.aida.IHistogram1D self, int index) {
  try {
    return self.binMean(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram1D_binEntries(hep.aida.IHistogram1D self, int index) {
  try {
    return self.binEntries(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram1D_binHeight(hep.aida.IHistogram1D self, int index) {
  try {
    return self.binHeight(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram1D_binError(hep.aida.IHistogram1D self, int index) {
  try {
    return self.binError(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram1D_mean(hep.aida.IHistogram1D self) {
  try {
    return self.mean();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram1D_rms(hep.aida.IHistogram1D self) {
  try {
    return self.rms();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogram1D_axis(hep.aida.IHistogram1D self) {
  try {
    return IAxis.getCPtr((hep.aida.IAxis)self.axis());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram1D_coordToIndex(hep.aida.IHistogram1D self, double coord) {
  try {
    return self.coordToIndex(coord);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram1D_add(hep.aida.IHistogram1D self, long hist) {
  try {
    self.add(new IHistogram1D(hist, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IHistogram2D_title(hep.aida.IHistogram2D self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram2D_setTitle(hep.aida.IHistogram2D self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogram2D_annotation(hep.aida.IHistogram2D self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram2D_dimension(hep.aida.IHistogram2D self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram2D_reset(hep.aida.IHistogram2D self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram2D_entries(hep.aida.IHistogram2D self) {
  try {
    return self.entries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram2D_allEntries(hep.aida.IHistogram2D self) {
  try {
    return self.allEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram2D_extraEntries(hep.aida.IHistogram2D self) {
  try {
    return self.extraEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_equivalentBinEntries(hep.aida.IHistogram2D self) {
  try {
    return self.equivalentBinEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_sumBinHeights(hep.aida.IHistogram2D self) {
  try {
    return self.sumBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_sumAllBinHeights(hep.aida.IHistogram2D self) {
  try {
    return self.sumAllBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_sumExtraBinHeights(hep.aida.IHistogram2D self) {
  try {
    return self.sumExtraBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_minBinHeight(hep.aida.IHistogram2D self) {
  try {
    return self.minBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_maxBinHeight(hep.aida.IHistogram2D self) {
  try {
    return self.maxBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram2D_scale(hep.aida.IHistogram2D self, double scaleFactor) {
  try {
    self.scale(scaleFactor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram2D_fill__SWIG_0(hep.aida.IHistogram2D self, double x, double y, double weight) {
  try {
    self.fill(x, y, weight);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram2D_fill__SWIG_1(hep.aida.IHistogram2D self, double x, double y) {
  try {
    self.fill(x, y);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_binMeanX(hep.aida.IHistogram2D self, int indexX, int indexY) {
  try {
    return self.binMeanX(indexX, indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_binMeanY(hep.aida.IHistogram2D self, int indexX, int indexY) {
  try {
    return self.binMeanY(indexX, indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram2D_binEntries(hep.aida.IHistogram2D self, int indexX, int indexY) {
  try {
    return self.binEntries(indexX, indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram2D_binEntriesX(hep.aida.IHistogram2D self, int index) {
  try {
    return self.binEntriesX(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram2D_binEntriesY(hep.aida.IHistogram2D self, int index) {
  try {
    return self.binEntriesY(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_binHeight(hep.aida.IHistogram2D self, int indexX, int indexY) {
  try {
    return self.binHeight(indexX, indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_binHeightX(hep.aida.IHistogram2D self, int index) {
  try {
    return self.binHeightX(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_binHeightY(hep.aida.IHistogram2D self, int index) {
  try {
    return self.binHeightY(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_binError(hep.aida.IHistogram2D self, int indexX, int indexY) {
  try {
    return self.binError(indexX, indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_meanX(hep.aida.IHistogram2D self) {
  try {
    return self.meanX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_meanY(hep.aida.IHistogram2D self) {
  try {
    return self.meanY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_rmsX(hep.aida.IHistogram2D self) {
  try {
    return self.rmsX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram2D_rmsY(hep.aida.IHistogram2D self) {
  try {
    return self.rmsY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogram2D_xAxis(hep.aida.IHistogram2D self) {
  try {
    return IAxis.getCPtr((hep.aida.IAxis)self.xAxis());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogram2D_yAxis(hep.aida.IHistogram2D self) {
  try {
    return IAxis.getCPtr((hep.aida.IAxis)self.yAxis());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram2D_coordToIndexX(hep.aida.IHistogram2D self, double coord) {
  try {
    return self.coordToIndexX(coord);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram2D_coordToIndexY(hep.aida.IHistogram2D self, double coord) {
  try {
    return self.coordToIndexY(coord);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram2D_add(hep.aida.IHistogram2D self, long hist) {
  try {
    self.add(new IHistogram2D(hist, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IHistogram3D_title(hep.aida.IHistogram3D self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram3D_setTitle(hep.aida.IHistogram3D self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogram3D_annotation(hep.aida.IHistogram3D self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram3D_dimension(hep.aida.IHistogram3D self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram3D_reset(hep.aida.IHistogram3D self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram3D_entries(hep.aida.IHistogram3D self) {
  try {
    return self.entries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram3D_allEntries(hep.aida.IHistogram3D self) {
  try {
    return self.allEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram3D_extraEntries(hep.aida.IHistogram3D self) {
  try {
    return self.extraEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_equivalentBinEntries(hep.aida.IHistogram3D self) {
  try {
    return self.equivalentBinEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_sumBinHeights(hep.aida.IHistogram3D self) {
  try {
    return self.sumBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_sumAllBinHeights(hep.aida.IHistogram3D self) {
  try {
    return self.sumAllBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_sumExtraBinHeights(hep.aida.IHistogram3D self) {
  try {
    return self.sumExtraBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_minBinHeight(hep.aida.IHistogram3D self) {
  try {
    return self.minBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_maxBinHeight(hep.aida.IHistogram3D self) {
  try {
    return self.maxBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram3D_scale(hep.aida.IHistogram3D self, double scaleFactor) {
  try {
    self.scale(scaleFactor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram3D_fill__SWIG_0(hep.aida.IHistogram3D self, double x, double y, double z, double weight) {
  try {
    self.fill(x, y, z, weight);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram3D_fill__SWIG_1(hep.aida.IHistogram3D self, double x, double y, double z) {
  try {
    self.fill(x, y, z);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_binMeanX(hep.aida.IHistogram3D self, int indexX, int indexY, int indexZ) {
  try {
    return self.binMeanX(indexX, indexY, indexZ);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_binMeanY(hep.aida.IHistogram3D self, int indexX, int indexY, int indexZ) {
  try {
    return self.binMeanY(indexX, indexY, indexZ);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_binMeanZ(hep.aida.IHistogram3D self, int indexX, int indexY, int indexZ) {
  try {
    return self.binMeanZ(indexX, indexY, indexZ);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram3D_binEntries(hep.aida.IHistogram3D self, int indexX, int indexY, int indexZ) {
  try {
    return self.binEntries(indexX, indexY, indexZ);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram3D_binEntriesX(hep.aida.IHistogram3D self, int index) {
  try {
    return self.binEntriesX(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram3D_binEntriesY(hep.aida.IHistogram3D self, int index) {
  try {
    return self.binEntriesY(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram3D_binEntriesZ(hep.aida.IHistogram3D self, int index) {
  try {
    return self.binEntriesZ(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_binHeight(hep.aida.IHistogram3D self, int indexX, int indexY, int indexZ) {
  try {
    return self.binHeight(indexX, indexY, indexZ);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_binHeightX(hep.aida.IHistogram3D self, int index) {
  try {
    return self.binHeightX(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_binHeightY(hep.aida.IHistogram3D self, int index) {
  try {
    return self.binHeightY(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_binHeightZ(hep.aida.IHistogram3D self, int index) {
  try {
    return self.binHeightZ(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_binError(hep.aida.IHistogram3D self, int indexX, int indexY, int indexZ) {
  try {
    return self.binError(indexX, indexY, indexZ);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_meanX(hep.aida.IHistogram3D self) {
  try {
    return self.meanX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_meanY(hep.aida.IHistogram3D self) {
  try {
    return self.meanY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_meanZ(hep.aida.IHistogram3D self) {
  try {
    return self.meanZ();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_rmsX(hep.aida.IHistogram3D self) {
  try {
    return self.rmsX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_rmsY(hep.aida.IHistogram3D self) {
  try {
    return self.rmsY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IHistogram3D_rmsZ(hep.aida.IHistogram3D self) {
  try {
    return self.rmsZ();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogram3D_xAxis(hep.aida.IHistogram3D self) {
  try {
    return IAxis.getCPtr((hep.aida.IAxis)self.xAxis());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogram3D_yAxis(hep.aida.IHistogram3D self) {
  try {
    return IAxis.getCPtr((hep.aida.IAxis)self.yAxis());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogram3D_zAxis(hep.aida.IHistogram3D self) {
  try {
    return IAxis.getCPtr((hep.aida.IAxis)self.zAxis());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram3D_coordToIndexX(hep.aida.IHistogram3D self, double coord) {
  try {
    return self.coordToIndexX(coord);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram3D_coordToIndexY(hep.aida.IHistogram3D self, double coord) {
  try {
    return self.coordToIndexY(coord);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IHistogram3D_coordToIndexZ(hep.aida.IHistogram3D self, double coord) {
  try {
    return self.coordToIndexZ(coord);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogram3D_add(hep.aida.IHistogram3D self, long hist) {
  try {
    self.add(new IHistogram3D(hist, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ICloud_title(hep.aida.ICloud self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud_setTitle(hep.aida.ICloud self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ICloud_annotation(hep.aida.ICloud self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ICloud_dimension(hep.aida.ICloud self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud_reset(hep.aida.ICloud self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ICloud_entries(hep.aida.ICloud self) {
  try {
    return self.entries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud_sumOfWeights(hep.aida.ICloud self) {
  try {
    return self.sumOfWeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud_convertToHistogram(hep.aida.ICloud self) {
  try {
    self.convertToHistogram();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ICloud_isConverted(hep.aida.ICloud self) {
  try {
    return self.isConverted();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ICloud_maxEntries(hep.aida.ICloud self) {
  try {
    return self.maxEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud_scale(hep.aida.ICloud self, double scaleFactor) {
  try {
    self.scale(scaleFactor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ICloud1D_title(hep.aida.ICloud1D self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud1D_setTitle(hep.aida.ICloud1D self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ICloud1D_annotation(hep.aida.ICloud1D self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ICloud1D_dimension(hep.aida.ICloud1D self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud1D_reset(hep.aida.ICloud1D self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ICloud1D_entries(hep.aida.ICloud1D self) {
  try {
    return self.entries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud1D_sumOfWeights(hep.aida.ICloud1D self) {
  try {
    return self.sumOfWeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud1D_convertToHistogram(hep.aida.ICloud1D self) {
  try {
    self.convertToHistogram();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ICloud1D_isConverted(hep.aida.ICloud1D self) {
  try {
    return self.isConverted();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ICloud1D_maxEntries(hep.aida.ICloud1D self) {
  try {
    return self.maxEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud1D_scale(hep.aida.ICloud1D self, double scaleFactor) {
  try {
    self.scale(scaleFactor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud1D_fill__SWIG_0(hep.aida.ICloud1D self, double x, double weight) {
  try {
    self.fill(x, weight);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud1D_fill__SWIG_1(hep.aida.ICloud1D self, double x) {
  try {
    self.fill(x);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud1D_lowerEdge(hep.aida.ICloud1D self) {
  try {
    return self.lowerEdge();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud1D_upperEdge(hep.aida.ICloud1D self) {
  try {
    return self.upperEdge();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud1D_value(hep.aida.ICloud1D self, int index) {
  try {
    return self.value(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud1D_weight(hep.aida.ICloud1D self, int index) {
  try {
    return self.weight(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud1D_mean(hep.aida.ICloud1D self) {
  try {
    return self.mean();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud1D_rms(hep.aida.ICloud1D self) {
  try {
    return self.rms();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud1D_convert__SWIG_0(hep.aida.ICloud1D self, int nBins, double lowerEdge, double upperEdge) {
  try {
    self.convert(nBins, lowerEdge, upperEdge);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud1D_convert__SWIG_1(hep.aida.ICloud1D self, double[] binEdges) {
  try {
    self.convert(binEdges);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ICloud1D_histogram(hep.aida.ICloud1D self) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.histogram());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud1D_fillHistogram(hep.aida.ICloud1D self, long hist) {
  try {
    self.fillHistogram(new IHistogram1D(hist, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ICloud2D_title(hep.aida.ICloud2D self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud2D_setTitle(hep.aida.ICloud2D self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ICloud2D_annotation(hep.aida.ICloud2D self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ICloud2D_dimension(hep.aida.ICloud2D self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud2D_reset(hep.aida.ICloud2D self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ICloud2D_entries(hep.aida.ICloud2D self) {
  try {
    return self.entries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud2D_sumOfWeights(hep.aida.ICloud2D self) {
  try {
    return self.sumOfWeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud2D_convertToHistogram(hep.aida.ICloud2D self) {
  try {
    self.convertToHistogram();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ICloud2D_isConverted(hep.aida.ICloud2D self) {
  try {
    return self.isConverted();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ICloud2D_maxEntries(hep.aida.ICloud2D self) {
  try {
    return self.maxEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud2D_scale(hep.aida.ICloud2D self, double scaleFactor) {
  try {
    self.scale(scaleFactor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud2D_fill__SWIG_0(hep.aida.ICloud2D self, double x, double y, double weight) {
  try {
    self.fill(x, y, weight);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud2D_fill__SWIG_1(hep.aida.ICloud2D self, double x, double y) {
  try {
    self.fill(x, y);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud2D_lowerEdgeX(hep.aida.ICloud2D self) {
  try {
    return self.lowerEdgeX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud2D_lowerEdgeY(hep.aida.ICloud2D self) {
  try {
    return self.lowerEdgeY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud2D_upperEdgeX(hep.aida.ICloud2D self) {
  try {
    return self.upperEdgeX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud2D_upperEdgeY(hep.aida.ICloud2D self) {
  try {
    return self.upperEdgeY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud2D_valueX(hep.aida.ICloud2D self, int index) {
  try {
    return self.valueX(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud2D_valueY(hep.aida.ICloud2D self, int index) {
  try {
    return self.valueY(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud2D_weight(hep.aida.ICloud2D self, int index) {
  try {
    return self.weight(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud2D_meanX(hep.aida.ICloud2D self) {
  try {
    return self.meanX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud2D_meanY(hep.aida.ICloud2D self) {
  try {
    return self.meanY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud2D_rmsX(hep.aida.ICloud2D self) {
  try {
    return self.rmsX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud2D_rmsY(hep.aida.ICloud2D self) {
  try {
    return self.rmsY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud2D_convert__SWIG_0(hep.aida.ICloud2D self, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY) {
  try {
    self.convert(nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud2D_convert__SWIG_1(hep.aida.ICloud2D self, double[] binEdgesX, double[] binEdgesY) {
  try {
    self.convert(binEdgesX, binEdgesY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ICloud2D_histogram(hep.aida.ICloud2D self) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.histogram());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud2D_fillHistogram(hep.aida.ICloud2D self, long hist) {
  try {
    self.fillHistogram(new IHistogram2D(hist, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ICloud3D_title(hep.aida.ICloud3D self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud3D_setTitle(hep.aida.ICloud3D self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ICloud3D_annotation(hep.aida.ICloud3D self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ICloud3D_dimension(hep.aida.ICloud3D self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud3D_reset(hep.aida.ICloud3D self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ICloud3D_entries(hep.aida.ICloud3D self) {
  try {
    return self.entries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_sumOfWeights(hep.aida.ICloud3D self) {
  try {
    return self.sumOfWeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud3D_convertToHistogram(hep.aida.ICloud3D self) {
  try {
    self.convertToHistogram();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ICloud3D_isConverted(hep.aida.ICloud3D self) {
  try {
    return self.isConverted();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ICloud3D_maxEntries(hep.aida.ICloud3D self) {
  try {
    return self.maxEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud3D_scale(hep.aida.ICloud3D self, double scaleFactor) {
  try {
    self.scale(scaleFactor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud3D_fill__SWIG_0(hep.aida.ICloud3D self, double x, double y, double z, double weight) {
  try {
    self.fill(x, y, z, weight);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud3D_fill__SWIG_1(hep.aida.ICloud3D self, double x, double y, double z) {
  try {
    self.fill(x, y, z);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_lowerEdgeX(hep.aida.ICloud3D self) {
  try {
    return self.lowerEdgeX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_lowerEdgeY(hep.aida.ICloud3D self) {
  try {
    return self.lowerEdgeY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_lowerEdgeZ(hep.aida.ICloud3D self) {
  try {
    return self.lowerEdgeZ();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_upperEdgeX(hep.aida.ICloud3D self) {
  try {
    return self.upperEdgeX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_upperEdgeY(hep.aida.ICloud3D self) {
  try {
    return self.upperEdgeY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_upperEdgeZ(hep.aida.ICloud3D self) {
  try {
    return self.upperEdgeZ();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_valueX(hep.aida.ICloud3D self, int index) {
  try {
    return self.valueX(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_valueY(hep.aida.ICloud3D self, int index) {
  try {
    return self.valueY(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_valueZ(hep.aida.ICloud3D self, int index) {
  try {
    return self.valueZ(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_weight(hep.aida.ICloud3D self, int index) {
  try {
    return self.weight(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_meanX(hep.aida.ICloud3D self) {
  try {
    return self.meanX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_meanY(hep.aida.ICloud3D self) {
  try {
    return self.meanY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_meanZ(hep.aida.ICloud3D self) {
  try {
    return self.meanZ();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_rmsX(hep.aida.ICloud3D self) {
  try {
    return self.rmsX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_rmsY(hep.aida.ICloud3D self) {
  try {
    return self.rmsY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ICloud3D_rmsZ(hep.aida.ICloud3D self) {
  try {
    return self.rmsZ();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud3D_convert__SWIG_0(hep.aida.ICloud3D self, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY, int nBinsZ, double lowerEdgeZ, double upperEdgeZ) {
  try {
    self.convert(nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY, nBinsZ, lowerEdgeZ, upperEdgeZ);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud3D_convert__SWIG_1(hep.aida.ICloud3D self, double[] binEdgesX, double[] binEdgesY, double[] binEdgesZ) {
  try {
    self.convert(binEdgesX, binEdgesY, binEdgesZ);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ICloud3D_histogram(hep.aida.ICloud3D self) {
  try {
    return IHistogram3D.getCPtr((hep.aida.IHistogram3D)self.histogram());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ICloud3D_fillHistogram(hep.aida.ICloud3D self, long hist) {
  try {
    self.fillHistogram(new IHistogram3D(hist, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IProfile_title(hep.aida.IProfile self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IProfile_setTitle(hep.aida.IProfile self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IProfile_annotation(hep.aida.IProfile self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile_dimension(hep.aida.IProfile self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IProfile_reset(hep.aida.IProfile self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile_entries(hep.aida.IProfile self) {
  try {
    return self.entries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile_allEntries(hep.aida.IProfile self) {
  try {
    return self.allEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile_extraEntries(hep.aida.IProfile self) {
  try {
    return self.extraEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile_sumBinHeights(hep.aida.IProfile self) {
  try {
    return self.sumBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile_sumAllBinHeights(hep.aida.IProfile self) {
  try {
    return self.sumAllBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile_sumExtraBinHeights(hep.aida.IProfile self) {
  try {
    return self.sumExtraBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile_minBinHeight(hep.aida.IProfile self) {
  try {
    return self.minBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile_maxBinHeight(hep.aida.IProfile self) {
  try {
    return self.maxBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IProfile1D_title(hep.aida.IProfile1D self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IProfile1D_setTitle(hep.aida.IProfile1D self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IProfile1D_annotation(hep.aida.IProfile1D self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile1D_dimension(hep.aida.IProfile1D self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IProfile1D_reset(hep.aida.IProfile1D self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile1D_entries(hep.aida.IProfile1D self) {
  try {
    return self.entries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile1D_allEntries(hep.aida.IProfile1D self) {
  try {
    return self.allEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile1D_extraEntries(hep.aida.IProfile1D self) {
  try {
    return self.extraEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile1D_sumBinHeights(hep.aida.IProfile1D self) {
  try {
    return self.sumBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile1D_sumAllBinHeights(hep.aida.IProfile1D self) {
  try {
    return self.sumAllBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile1D_sumExtraBinHeights(hep.aida.IProfile1D self) {
  try {
    return self.sumExtraBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile1D_minBinHeight(hep.aida.IProfile1D self) {
  try {
    return self.minBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile1D_maxBinHeight(hep.aida.IProfile1D self) {
  try {
    return self.maxBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IProfile1D_fill__SWIG_0(hep.aida.IProfile1D self, double x, double y, double weight) {
  try {
    self.fill(x, y, weight);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IProfile1D_fill__SWIG_1(hep.aida.IProfile1D self, double x, double y) {
  try {
    self.fill(x, y);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile1D_binMean(hep.aida.IProfile1D self, int index) {
  try {
    return self.binMean(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile1D_binEntries(hep.aida.IProfile1D self, int index) {
  try {
    return self.binEntries(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile1D_binHeight(hep.aida.IProfile1D self, int index) {
  try {
    return self.binHeight(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile1D_binError(hep.aida.IProfile1D self, int index) {
  try {
    return self.binError(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile1D_binRms(hep.aida.IProfile1D self, int index) {
  try {
    return self.binRms(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile1D_mean(hep.aida.IProfile1D self) {
  try {
    return self.mean();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile1D_rms(hep.aida.IProfile1D self) {
  try {
    return self.rms();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IProfile1D_axis(hep.aida.IProfile1D self) {
  try {
    return IAxis.getCPtr((hep.aida.IAxis)self.axis());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile1D_coordToIndex(hep.aida.IProfile1D self, double coord) {
  try {
    return self.coordToIndex(coord);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IProfile1D_add(hep.aida.IProfile1D self, long profile) {
  try {
    self.add(new IProfile1D(profile, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IProfile2D_title(hep.aida.IProfile2D self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IProfile2D_setTitle(hep.aida.IProfile2D self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IProfile2D_annotation(hep.aida.IProfile2D self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile2D_dimension(hep.aida.IProfile2D self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IProfile2D_reset(hep.aida.IProfile2D self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile2D_entries(hep.aida.IProfile2D self) {
  try {
    return self.entries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile2D_allEntries(hep.aida.IProfile2D self) {
  try {
    return self.allEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile2D_extraEntries(hep.aida.IProfile2D self) {
  try {
    return self.extraEntries();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_sumBinHeights(hep.aida.IProfile2D self) {
  try {
    return self.sumBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_sumAllBinHeights(hep.aida.IProfile2D self) {
  try {
    return self.sumAllBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_sumExtraBinHeights(hep.aida.IProfile2D self) {
  try {
    return self.sumExtraBinHeights();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_minBinHeight(hep.aida.IProfile2D self) {
  try {
    return self.minBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_maxBinHeight(hep.aida.IProfile2D self) {
  try {
    return self.maxBinHeight();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IProfile2D_fill__SWIG_0(hep.aida.IProfile2D self, double x, double y, double z, double weight) {
  try {
    self.fill(x, y, z, weight);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IProfile2D_fill__SWIG_1(hep.aida.IProfile2D self, double x, double y, double z) {
  try {
    self.fill(x, y, z);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_binMeanX(hep.aida.IProfile2D self, int indexX, int indexY) {
  try {
    return self.binMeanX(indexX, indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_binMeanY(hep.aida.IProfile2D self, int indexX, int indexY) {
  try {
    return self.binMeanY(indexX, indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile2D_binEntries(hep.aida.IProfile2D self, int indexX, int indexY) {
  try {
    return self.binEntries(indexX, indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile2D_binEntriesX(hep.aida.IProfile2D self, int indexX) {
  try {
    return self.binEntriesX(indexX);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile2D_binEntriesY(hep.aida.IProfile2D self, int indexY) {
  try {
    return self.binEntriesY(indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_binHeight(hep.aida.IProfile2D self, int indexX, int indexY) {
  try {
    return self.binHeight(indexX, indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_binHeightX(hep.aida.IProfile2D self, int indexX) {
  try {
    return self.binHeightX(indexX);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_binHeightY(hep.aida.IProfile2D self, int indexY) {
  try {
    return self.binHeightY(indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_binError(hep.aida.IProfile2D self, int indexX, int indexY) {
  try {
    return self.binError(indexX, indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_binRms(hep.aida.IProfile2D self, int indexX, int indexY) {
  try {
    return self.binRms(indexX, indexY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_meanX(hep.aida.IProfile2D self) {
  try {
    return self.meanX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_meanY(hep.aida.IProfile2D self) {
  try {
    return self.meanY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_rmsX(hep.aida.IProfile2D self) {
  try {
    return self.rmsX();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IProfile2D_rmsY(hep.aida.IProfile2D self) {
  try {
    return self.rmsY();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IProfile2D_xAxis(hep.aida.IProfile2D self) {
  try {
    return IAxis.getCPtr((hep.aida.IAxis)self.xAxis());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IProfile2D_yAxis(hep.aida.IProfile2D self) {
  try {
    return IAxis.getCPtr((hep.aida.IAxis)self.yAxis());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile2D_coordToIndexX(hep.aida.IProfile2D self, double coordX) {
  try {
    return self.coordToIndexX(coordX);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IProfile2D_coordToIndexY(hep.aida.IProfile2D self, double coordY) {
  try {
    return self.coordToIndexY(coordY);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IProfile2D_add(hep.aida.IProfile2D self, long h) {
  try {
    self.add(new IProfile2D(h, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IHistogramFactory_destroy(hep.aida.IHistogramFactory self, long hist) {
  try {
    self.destroy(new IBaseHistogram(hist, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCloud1D__SWIG_0(hep.aida.IHistogramFactory self, String path, String title, int nMax, String options) {
  try {
    return ICloud1D.getCPtr((hep.aida.ICloud1D)self.createCloud1D(path, title, nMax, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCloud1D__SWIG_1(hep.aida.IHistogramFactory self, String path, String title, int nMax) {
  try {
    return ICloud1D.getCPtr((hep.aida.ICloud1D)self.createCloud1D(path, title, nMax));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCloud1D__SWIG_2(hep.aida.IHistogramFactory self, String path, String title) {
  try {
    return ICloud1D.getCPtr((hep.aida.ICloud1D)self.createCloud1D(path, title));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCloud1D__SWIG_3(hep.aida.IHistogramFactory self, String pathAndTitle) {
  try {
    return ICloud1D.getCPtr((hep.aida.ICloud1D)self.createCloud1D(pathAndTitle));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCopy__SWIG_0(hep.aida.IHistogramFactory self, String path, long cloud) {
  try {
    return ICloud1D.getCPtr((hep.aida.ICloud1D)self.createCopy(path, new ICloud1D(cloud, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCloud2D__SWIG_0(hep.aida.IHistogramFactory self, String path, String title, int nMax, String options) {
  try {
    return ICloud2D.getCPtr((hep.aida.ICloud2D)self.createCloud2D(path, title, nMax, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCloud2D__SWIG_1(hep.aida.IHistogramFactory self, String path, String title, int nMax) {
  try {
    return ICloud2D.getCPtr((hep.aida.ICloud2D)self.createCloud2D(path, title, nMax));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCloud2D__SWIG_2(hep.aida.IHistogramFactory self, String path, String title) {
  try {
    return ICloud2D.getCPtr((hep.aida.ICloud2D)self.createCloud2D(path, title));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCloud2D__SWIG_3(hep.aida.IHistogramFactory self, String pathAndTitle) {
  try {
    return ICloud2D.getCPtr((hep.aida.ICloud2D)self.createCloud2D(pathAndTitle));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCopy__SWIG_1(hep.aida.IHistogramFactory self, String path, long cloud) {
  try {
    return ICloud2D.getCPtr((hep.aida.ICloud2D)self.createCopy(path, new ICloud2D(cloud, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCloud3D__SWIG_0(hep.aida.IHistogramFactory self, String path, String title, int nMax, String options) {
  try {
    return ICloud3D.getCPtr((hep.aida.ICloud3D)self.createCloud3D(path, title, nMax, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCloud3D__SWIG_1(hep.aida.IHistogramFactory self, String path, String title, int nMax) {
  try {
    return ICloud3D.getCPtr((hep.aida.ICloud3D)self.createCloud3D(path, title, nMax));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCloud3D__SWIG_2(hep.aida.IHistogramFactory self, String path, String title) {
  try {
    return ICloud3D.getCPtr((hep.aida.ICloud3D)self.createCloud3D(path, title));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCloud3D__SWIG_3(hep.aida.IHistogramFactory self, String pathAndTitle) {
  try {
    return ICloud3D.getCPtr((hep.aida.ICloud3D)self.createCloud3D(pathAndTitle));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCopy__SWIG_2(hep.aida.IHistogramFactory self, String path, long cloud) {
  try {
    return ICloud3D.getCPtr((hep.aida.ICloud3D)self.createCopy(path, new ICloud3D(cloud, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram1D__SWIG_0(hep.aida.IHistogramFactory self, String path, String title, int nBins, double lowerEdge, double upperEdge, String options) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.createHistogram1D(path, title, nBins, lowerEdge, upperEdge, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram1D__SWIG_1(hep.aida.IHistogramFactory self, String path, String title, int nBins, double lowerEdge, double upperEdge) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.createHistogram1D(path, title, nBins, lowerEdge, upperEdge));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram1D__SWIG_2(hep.aida.IHistogramFactory self, String pathAndTitle, int nBins, double lowerEdge, double upperEdge) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.createHistogram1D(pathAndTitle, nBins, lowerEdge, upperEdge));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram1D__SWIG_3(hep.aida.IHistogramFactory self, String path, String title, double[] binEdges, String options) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.createHistogram1D(path, title, binEdges, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram1D__SWIG_4(hep.aida.IHistogramFactory self, String path, String title, double[] binEdges) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.createHistogram1D(path, title, binEdges));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCopy__SWIG_3(hep.aida.IHistogramFactory self, String path, long hist) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.createCopy(path, new IHistogram1D(hist, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram2D__SWIG_0(hep.aida.IHistogramFactory self, String path, String title, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY, String options) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.createHistogram2D(path, title, nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram2D__SWIG_1(hep.aida.IHistogramFactory self, String path, String title, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.createHistogram2D(path, title, nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram2D__SWIG_2(hep.aida.IHistogramFactory self, String pathAndTitle, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.createHistogram2D(pathAndTitle, nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram2D__SWIG_3(hep.aida.IHistogramFactory self, String path, String title, double[] binEdgesX, double[] binEdgesY, String options) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.createHistogram2D(path, title, binEdgesX, binEdgesY, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram2D__SWIG_4(hep.aida.IHistogramFactory self, String path, String title, double[] binEdgesX, double[] binEdgesY) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.createHistogram2D(path, title, binEdgesX, binEdgesY));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCopy__SWIG_4(hep.aida.IHistogramFactory self, String copy, long hist) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.createCopy(copy, new IHistogram2D(hist, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram3D__SWIG_0(hep.aida.IHistogramFactory self, String path, String title, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY, int nBinsZ, double lowerEdgeZ, double upperEdgeZ, String options) {
  try {
    return IHistogram3D.getCPtr((hep.aida.IHistogram3D)self.createHistogram3D(path, title, nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY, nBinsZ, lowerEdgeZ, upperEdgeZ, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram3D__SWIG_1(hep.aida.IHistogramFactory self, String path, String title, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY, int nBinsZ, double lowerEdgeZ, double upperEdgeZ) {
  try {
    return IHistogram3D.getCPtr((hep.aida.IHistogram3D)self.createHistogram3D(path, title, nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY, nBinsZ, lowerEdgeZ, upperEdgeZ));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram3D__SWIG_2(hep.aida.IHistogramFactory self, String pathAndTitle, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY, int nBinsZ, double lowerEdgeZ, double upperEdgeZ) {
  try {
    return IHistogram3D.getCPtr((hep.aida.IHistogram3D)self.createHistogram3D(pathAndTitle, nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY, nBinsZ, lowerEdgeZ, upperEdgeZ));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram3D__SWIG_3(hep.aida.IHistogramFactory self, String path, String title, double[] binEdgesX, double[] binEdgesY, double[] binEdgesZ, String options) {
  try {
    return IHistogram3D.getCPtr((hep.aida.IHistogram3D)self.createHistogram3D(path, title, binEdgesX, binEdgesY, binEdgesZ, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createHistogram3D__SWIG_4(hep.aida.IHistogramFactory self, String path, String title, double[] binEdgesX, double[] binEdgesY, double[] binEdgesZ) {
  try {
    return IHistogram3D.getCPtr((hep.aida.IHistogram3D)self.createHistogram3D(path, title, binEdgesX, binEdgesY, binEdgesZ));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCopy__SWIG_5(hep.aida.IHistogramFactory self, String path, long hist) {
  try {
    return IHistogram3D.getCPtr((hep.aida.IHistogram3D)self.createCopy(path, new IHistogram3D(hist, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile1D__SWIG_0(hep.aida.IHistogramFactory self, String path, String title, int nBins, double lowerEdge, double upperEdge, String options) {
  try {
    return IProfile1D.getCPtr((hep.aida.IProfile1D)self.createProfile1D(path, title, nBins, lowerEdge, upperEdge, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile1D__SWIG_1(hep.aida.IHistogramFactory self, String path, String title, int nBins, double lowerEdge, double upperEdge) {
  try {
    return IProfile1D.getCPtr((hep.aida.IProfile1D)self.createProfile1D(path, title, nBins, lowerEdge, upperEdge));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile1D__SWIG_2(hep.aida.IHistogramFactory self, String path, String title, int nBins, double lowerEdge, double upperEdge, double lowerValue, double upperValue, String options) {
  try {
    return IProfile1D.getCPtr((hep.aida.IProfile1D)self.createProfile1D(path, title, nBins, lowerEdge, upperEdge, lowerValue, upperValue, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile1D__SWIG_3(hep.aida.IHistogramFactory self, String path, String title, int nBins, double lowerEdge, double upperEdge, double lowerValue, double upperValue) {
  try {
    return IProfile1D.getCPtr((hep.aida.IProfile1D)self.createProfile1D(path, title, nBins, lowerEdge, upperEdge, lowerValue, upperValue));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile1D__SWIG_4(hep.aida.IHistogramFactory self, String path, String title, double[] binEdges, String options) {
  try {
    return IProfile1D.getCPtr((hep.aida.IProfile1D)self.createProfile1D(path, title, binEdges, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile1D__SWIG_5(hep.aida.IHistogramFactory self, String path, String title, double[] binEdges) {
  try {
    return IProfile1D.getCPtr((hep.aida.IProfile1D)self.createProfile1D(path, title, binEdges));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile1D__SWIG_6(hep.aida.IHistogramFactory self, String path, String title, double[] binEdges, double lowerValue, double upperValue, String options) {
  try {
    return IProfile1D.getCPtr((hep.aida.IProfile1D)self.createProfile1D(path, title, binEdges, lowerValue, upperValue, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile1D__SWIG_7(hep.aida.IHistogramFactory self, String path, String title, double[] binEdges, double lowerValue, double upperValue) {
  try {
    return IProfile1D.getCPtr((hep.aida.IProfile1D)self.createProfile1D(path, title, binEdges, lowerValue, upperValue));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile1D__SWIG_8(hep.aida.IHistogramFactory self, String pathAndTitle, int nBins, double lowerEdge, double upperEdge) {
  try {
    return IProfile1D.getCPtr((hep.aida.IProfile1D)self.createProfile1D(pathAndTitle, nBins, lowerEdge, upperEdge));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile1D__SWIG_9(hep.aida.IHistogramFactory self, String pathAndTitle, int nBins, double lowerEdge, double upperEdge, double lowerValue, double upperValue) {
  try {
    return IProfile1D.getCPtr((hep.aida.IProfile1D)self.createProfile1D(pathAndTitle, nBins, lowerEdge, upperEdge, lowerValue, upperValue));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCopy__SWIG_6(hep.aida.IHistogramFactory self, String path, long profile) {
  try {
    return IProfile1D.getCPtr((hep.aida.IProfile1D)self.createCopy(path, new IProfile1D(profile, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile2D__SWIG_0(hep.aida.IHistogramFactory self, String path, String title, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY, String options) {
  try {
    return IProfile2D.getCPtr((hep.aida.IProfile2D)self.createProfile2D(path, title, nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile2D__SWIG_1(hep.aida.IHistogramFactory self, String path, String title, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY) {
  try {
    return IProfile2D.getCPtr((hep.aida.IProfile2D)self.createProfile2D(path, title, nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile2D__SWIG_2(hep.aida.IHistogramFactory self, String path, String title, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY, double lowerValue, double upperValue, String options) {
  try {
    return IProfile2D.getCPtr((hep.aida.IProfile2D)self.createProfile2D(path, title, nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY, lowerValue, upperValue, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile2D__SWIG_3(hep.aida.IHistogramFactory self, String path, String title, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY, double lowerValue, double upperValue) {
  try {
    return IProfile2D.getCPtr((hep.aida.IProfile2D)self.createProfile2D(path, title, nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY, lowerValue, upperValue));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile2D__SWIG_4(hep.aida.IHistogramFactory self, String path, String title, double[] binEdgesX, double[] binEdgesY, String options) {
  try {
    return IProfile2D.getCPtr((hep.aida.IProfile2D)self.createProfile2D(path, title, binEdgesX, binEdgesY, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile2D__SWIG_5(hep.aida.IHistogramFactory self, String path, String title, double[] binEdgesX, double[] binEdgesY) {
  try {
    return IProfile2D.getCPtr((hep.aida.IProfile2D)self.createProfile2D(path, title, binEdgesX, binEdgesY));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile2D__SWIG_6(hep.aida.IHistogramFactory self, String path, String title, double[] binEdgesX, double[] binEdgesY, double lowerValue, double upperValue, String options) {
  try {
    return IProfile2D.getCPtr((hep.aida.IProfile2D)self.createProfile2D(path, title, binEdgesX, binEdgesY, lowerValue, upperValue, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile2D__SWIG_7(hep.aida.IHistogramFactory self, String path, String title, double[] binEdgesX, double[] binEdgesY, double lowerValue, double upperValue) {
  try {
    return IProfile2D.getCPtr((hep.aida.IProfile2D)self.createProfile2D(path, title, binEdgesX, binEdgesY, lowerValue, upperValue));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile2D__SWIG_8(hep.aida.IHistogramFactory self, String pathAndTitle, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY) {
  try {
    return IProfile2D.getCPtr((hep.aida.IProfile2D)self.createProfile2D(pathAndTitle, nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createProfile2D__SWIG_9(hep.aida.IHistogramFactory self, String pathAndTitle, int nBinsX, double lowerEdgeX, double upperEdgeX, int nBinsY, double lowerEdgeY, double upperEdgeY, double lowerValue, double upperValue) {
  try {
    return IProfile2D.getCPtr((hep.aida.IProfile2D)self.createProfile2D(pathAndTitle, nBinsX, lowerEdgeX, upperEdgeX, nBinsY, lowerEdgeY, upperEdgeY, lowerValue, upperValue));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_createCopy__SWIG_7(hep.aida.IHistogramFactory self, String path, long profile) {
  try {
    return IProfile2D.getCPtr((hep.aida.IProfile2D)self.createCopy(path, new IProfile2D(profile, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_add__SWIG_0(hep.aida.IHistogramFactory self, String path, long hist1, long hist2) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.add(path, new IHistogram1D(hist1, false), new IHistogram1D(hist2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_subtract__SWIG_0(hep.aida.IHistogramFactory self, String path, long hist1, long hist2) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.subtract(path, new IHistogram1D(hist1, false), new IHistogram1D(hist2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_multiply__SWIG_0(hep.aida.IHistogramFactory self, String path, long hist1, long hist2) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.multiply(path, new IHistogram1D(hist1, false), new IHistogram1D(hist2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_divide__SWIG_0(hep.aida.IHistogramFactory self, String path, long hist1, long hist2) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.divide(path, new IHistogram1D(hist1, false), new IHistogram1D(hist2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_add__SWIG_1(hep.aida.IHistogramFactory self, String path, long hist1, long hist2) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.add(path, new IHistogram2D(hist1, false), new IHistogram2D(hist2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_subtract__SWIG_1(hep.aida.IHistogramFactory self, String path, long hist1, long hist2) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.subtract(path, new IHistogram2D(hist1, false), new IHistogram2D(hist2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_multiply__SWIG_1(hep.aida.IHistogramFactory self, String path, long hist1, long hist2) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.multiply(path, new IHistogram2D(hist1, false), new IHistogram2D(hist2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_divide__SWIG_1(hep.aida.IHistogramFactory self, String path, long hist1, long hist2) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.divide(path, new IHistogram2D(hist1, false), new IHistogram2D(hist2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_add__SWIG_2(hep.aida.IHistogramFactory self, String path, long hist1, long hist2) {
  try {
    return IHistogram3D.getCPtr((hep.aida.IHistogram3D)self.add(path, new IHistogram3D(hist1, false), new IHistogram3D(hist2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_subtract__SWIG_2(hep.aida.IHistogramFactory self, String path, long hist1, long hist2) {
  try {
    return IHistogram3D.getCPtr((hep.aida.IHistogram3D)self.subtract(path, new IHistogram3D(hist1, false), new IHistogram3D(hist2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_multiply__SWIG_2(hep.aida.IHistogramFactory self, String path, long hist1, long hist2) {
  try {
    return IHistogram3D.getCPtr((hep.aida.IHistogram3D)self.multiply(path, new IHistogram3D(hist1, false), new IHistogram3D(hist2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_divide__SWIG_2(hep.aida.IHistogramFactory self, String path, long hist1, long hist2) {
  try {
    return IHistogram3D.getCPtr((hep.aida.IHistogram3D)self.divide(path, new IHistogram3D(hist1, false), new IHistogram3D(hist2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_projectionX(hep.aida.IHistogramFactory self, String path, long hist) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.projectionX(path, new IHistogram2D(hist, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_projectionY(hep.aida.IHistogramFactory self, String path, long hist) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.projectionY(path, new IHistogram2D(hist, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_sliceX__SWIG_0(hep.aida.IHistogramFactory self, String path, long hist, int index) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.sliceX(path, new IHistogram2D(hist, false), index));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_sliceY__SWIG_0(hep.aida.IHistogramFactory self, String path, long hist, int index) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.sliceY(path, new IHistogram2D(hist, false), index));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_sliceX__SWIG_1(hep.aida.IHistogramFactory self, String path, long hist, int index1, int index2) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.sliceX(path, new IHistogram2D(hist, false), index1, index2));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_sliceY__SWIG_1(hep.aida.IHistogramFactory self, String path, long hist, int index1, int index2) {
  try {
    return IHistogram1D.getCPtr((hep.aida.IHistogram1D)self.sliceY(path, new IHistogram2D(hist, false), index1, index2));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_projectionXY(hep.aida.IHistogramFactory self, String path, long hist) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.projectionXY(path, new IHistogram3D(hist, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_projectionXZ(hep.aida.IHistogramFactory self, String path, long hist) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.projectionXZ(path, new IHistogram3D(hist, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_projectionYZ(hep.aida.IHistogramFactory self, String path, long hist) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.projectionYZ(path, new IHistogram3D(hist, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_sliceXY(hep.aida.IHistogramFactory self, String path, long hist, int index1, int index2) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.sliceXY(path, new IHistogram3D(hist, false), index1, index2));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_sliceXZ(hep.aida.IHistogramFactory self, String path, long hist, int index1, int index2) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.sliceXZ(path, new IHistogram3D(hist, false), index1, index2));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IHistogramFactory_sliceYZ(hep.aida.IHistogramFactory self, String path, long hist, int index1, int index2) {
  try {
    return IHistogram2D.getCPtr((hep.aida.IHistogram2D)self.sliceYZ(path, new IHistogram3D(hist, false), index1, index2));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IDataPoint_dimension(hep.aida.IDataPoint self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPoint_coordinate(hep.aida.IDataPoint self, int coord) {
  try {
    return IMeasurement.getCPtr((hep.aida.IMeasurement)self.coordinate(coord));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSet_annotation(hep.aida.IDataPointSet self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IDataPointSet_title(hep.aida.IDataPointSet self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IDataPointSet_setTitle(hep.aida.IDataPointSet self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IDataPointSet_dimension(hep.aida.IDataPointSet self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IDataPointSet_clear(hep.aida.IDataPointSet self) {
  try {
    self.clear();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IDataPointSet_size(hep.aida.IDataPointSet self) {
  try {
    return self.size();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IDataPointSet_setCoordinate__SWIG_0(hep.aida.IDataPointSet self, int coord, double[] val, double[] err) {
  try {
    self.setCoordinate(coord, val, err);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IDataPointSet_setCoordinate__SWIG_1(hep.aida.IDataPointSet self, int coord, double[] val, double[] errp, double[] errm) {
  try {
    self.setCoordinate(coord, val, errp, errm);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSet_point(hep.aida.IDataPointSet self, int index) {
  try {
    return IDataPoint.getCPtr((hep.aida.IDataPoint)self.point(index));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSet_addPoint__SWIG_0(hep.aida.IDataPointSet self) {
  try {
    return IDataPoint.getCPtr((hep.aida.IDataPoint)self.addPoint());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IDataPointSet_addPoint__SWIG_1(hep.aida.IDataPointSet self, long point) {
  try {
    self.addPoint(new IDataPoint(point, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IDataPointSet_removePoint(hep.aida.IDataPointSet self, int index) {
  try {
    self.removePoint(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IDataPointSet_lowerExtent(hep.aida.IDataPointSet self, int coord) {
  try {
    return self.lowerExtent(coord);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IDataPointSet_upperExtent(hep.aida.IDataPointSet self, int coord) {
  try {
    return self.upperExtent(coord);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IDataPointSet_scale(hep.aida.IDataPointSet self, double scaleFactor) {
  try {
    self.scale(scaleFactor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IDataPointSet_scaleValues(hep.aida.IDataPointSet self, double scaleFactor) {
  try {
    self.scaleValues(scaleFactor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IDataPointSet_scaleErrors(hep.aida.IDataPointSet self, double scaleFactor) {
  try {
    self.scaleErrors(scaleFactor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_0(hep.aida.IDataPointSetFactory self, String path, String title, int dimOfPoints) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, title, dimOfPoints));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_1(hep.aida.IDataPointSetFactory self, String pathAndTitle, int dimOfPoints) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(pathAndTitle, dimOfPoints));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createY__SWIG_0(hep.aida.IDataPointSetFactory self, String path, String title, double[] y, double[] ey) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createY(path, title, y, ey));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createY__SWIG_1(hep.aida.IDataPointSetFactory self, String path, String title, double[] y, double[] eyp, double[] eym) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createY(path, title, y, eyp, eym));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createY__SWIG_2(hep.aida.IDataPointSetFactory self, String pathAndTitle, double[] y, double[] ey) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createY(pathAndTitle, y, ey));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createY__SWIG_3(hep.aida.IDataPointSetFactory self, String pathAndTitle, double[] y, double[] eyp, double[] eym) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createY(pathAndTitle, y, eyp, eym));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createX__SWIG_0(hep.aida.IDataPointSetFactory self, String path, String title, double[] x, double[] ex) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createX(path, title, x, ex));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createX__SWIG_1(hep.aida.IDataPointSetFactory self, String path, String title, double[] x, double[] exp, double[] exm) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createX(path, title, x, exp, exm));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createX__SWIG_2(hep.aida.IDataPointSetFactory self, String pathAndTitle, double[] x, double[] ex) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createX(pathAndTitle, x, ex));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createX__SWIG_3(hep.aida.IDataPointSetFactory self, String pathAndTitle, double[] x, double[] exp, double[] exm) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createX(pathAndTitle, x, exp, exm));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createXY__SWIG_0(hep.aida.IDataPointSetFactory self, String path, String title, double[] x, double[] y, double[] exp, double[] eyp, double[] exm, double[] eym) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createXY(path, title, x, y, exp, eyp, exm, eym));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createXY__SWIG_1(hep.aida.IDataPointSetFactory self, String path, String title, double[] x, double[] y, double[] ex, double[] ey) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createXY(path, title, x, y, ex, ey));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createXY__SWIG_2(hep.aida.IDataPointSetFactory self, String pathAndTitle, double[] x, double[] y, double[] exp, double[] eyp, double[] exm, double[] eym) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createXY(pathAndTitle, x, y, exp, eyp, exm, eym));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createXY__SWIG_3(hep.aida.IDataPointSetFactory self, String pathAndTitle, double[] x, double[] y, double[] ex, double[] ey) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createXY(pathAndTitle, x, y, ex, ey));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createXYZ__SWIG_0(hep.aida.IDataPointSetFactory self, String path, String title, double[] x, double[] y, double[] z, double[] exp, double[] eyp, double[] ezp, double[] exm, double[] eym, double[] ezm) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createXYZ(path, title, x, y, z, exp, eyp, ezp, exm, eym, ezm));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createXYZ__SWIG_1(hep.aida.IDataPointSetFactory self, String path, String title, double[] x, double[] y, double[] z, double[] ex, double[] ey, double[] ez) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createXYZ(path, title, x, y, z, ex, ey, ez));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createXYZ__SWIG_2(hep.aida.IDataPointSetFactory self, String pathAndTitle, double[] x, double[] y, double[] z, double[] exp, double[] eyp, double[] ezp, double[] exm, double[] eym, double[] ezm) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createXYZ(pathAndTitle, x, y, z, exp, eyp, ezp, exm, eym, ezm));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createXYZ__SWIG_3(hep.aida.IDataPointSetFactory self, String pathAndTitle, double[] x, double[] y, double[] z, double[] ex, double[] ey, double[] ez) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createXYZ(pathAndTitle, x, y, z, ex, ey, ez));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_createCopy(hep.aida.IDataPointSetFactory self, String path, long dataPointSet) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createCopy(path, new IDataPointSet(dataPointSet, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IDataPointSetFactory_destroy(hep.aida.IDataPointSetFactory self, long dataPointSet) {
  try {
    self.destroy(new IDataPointSet(dataPointSet, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_2(hep.aida.IDataPointSetFactory self, String path, long hist, String options) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new IHistogram1D(hist, false), options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_3(hep.aida.IDataPointSetFactory self, String path, long hist) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new IHistogram1D(hist, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_4(hep.aida.IDataPointSetFactory self, String path, long hist, String options) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new IHistogram2D(hist, false), options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_5(hep.aida.IDataPointSetFactory self, String path, long hist) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new IHistogram2D(hist, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_6(hep.aida.IDataPointSetFactory self, String path, long hist, String options) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new IHistogram3D(hist, false), options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_7(hep.aida.IDataPointSetFactory self, String path, long hist) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new IHistogram3D(hist, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_8(hep.aida.IDataPointSetFactory self, String path, long cloud, String options) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new ICloud1D(cloud, false), options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_9(hep.aida.IDataPointSetFactory self, String path, long cloud) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new ICloud1D(cloud, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_10(hep.aida.IDataPointSetFactory self, String path, long cloud, String options) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new ICloud2D(cloud, false), options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_11(hep.aida.IDataPointSetFactory self, String path, long cloud) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new ICloud2D(cloud, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_12(hep.aida.IDataPointSetFactory self, String path, long cloud, String options) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new ICloud3D(cloud, false), options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_13(hep.aida.IDataPointSetFactory self, String path, long cloud) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new ICloud3D(cloud, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_14(hep.aida.IDataPointSetFactory self, String path, long profile, String options) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new IProfile1D(profile, false), options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_15(hep.aida.IDataPointSetFactory self, String path, long profile) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new IProfile1D(profile, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_16(hep.aida.IDataPointSetFactory self, String path, long profile, String options) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new IProfile2D(profile, false), options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_create__SWIG_17(hep.aida.IDataPointSetFactory self, String path, long profile) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.create(path, new IProfile2D(profile, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_add(hep.aida.IDataPointSetFactory self, String path, long dataPointSet1, long dataPointSet2) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.add(path, new IDataPointSet(dataPointSet1, false), new IDataPointSet(dataPointSet2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_subtract(hep.aida.IDataPointSetFactory self, String path, long dataPointSet1, long dataPointSet2) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.subtract(path, new IDataPointSet(dataPointSet1, false), new IDataPointSet(dataPointSet2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_multiply(hep.aida.IDataPointSetFactory self, String path, long dataPointSet1, long dataPointSet2) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.multiply(path, new IDataPointSet(dataPointSet1, false), new IDataPointSet(dataPointSet2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_divide(hep.aida.IDataPointSetFactory self, String path, long dataPointSet1, long dataPointSet2) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.divide(path, new IDataPointSet(dataPointSet1, false), new IDataPointSet(dataPointSet2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataPointSetFactory_weightedMean(hep.aida.IDataPointSetFactory self, String path, long dataPointSet1, long dataPointSet2) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.weightedMean(path, new IDataPointSet(dataPointSet1, false), new IDataPointSet(dataPointSet2, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ITree_storeName(hep.aida.ITree self) {
  try {
    return self.storeName();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITree_find(hep.aida.ITree self, String path) {
  try {
    return IManagedObject.getCPtr((hep.aida.IManagedObject)self.find(path));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITree_findTree(hep.aida.ITree self, String path) {
  try {
    return ITree.getCPtr((hep.aida.ITree)self.findTree(path));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_cd(hep.aida.ITree self, String path) {
  try {
    self.cd(path);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ITree_pwd(hep.aida.ITree self) {
  try {
    return self.pwd();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITree_listObjectNames__SWIG_0(hep.aida.ITree self, String path, boolean recursive) {
  try {
    return AIDAJNIUtil.toPtr(self.listObjectNames(path, recursive));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITree_listObjectNames__SWIG_1(hep.aida.ITree self, String path) {
  try {
    return AIDAJNIUtil.toPtr(self.listObjectNames(path));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITree_listObjectNames__SWIG_2(hep.aida.ITree self) {
  try {
    return AIDAJNIUtil.toPtr(self.listObjectNames());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITree_listObjectTypes__SWIG_0(hep.aida.ITree self, String path, boolean recursive) {
  try {
    return AIDAJNIUtil.toPtr(self.listObjectTypes(path, recursive));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITree_listObjectTypes__SWIG_1(hep.aida.ITree self, String path) {
  try {
    return AIDAJNIUtil.toPtr(self.listObjectTypes(path));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITree_listObjectTypes__SWIG_2(hep.aida.ITree self) {
  try {
    return AIDAJNIUtil.toPtr(self.listObjectTypes());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_mkdir(hep.aida.ITree self, String path) {
  try {
    self.mkdir(path);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_mkdirs(hep.aida.ITree self, String path) {
  try {
    self.mkdirs(path);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_rmdir(hep.aida.ITree self, String path) {
  try {
    self.rmdir(path);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_rm(hep.aida.ITree self, String path) {
  try {
    self.rm(path);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ITree_findPath(hep.aida.ITree self, long object) {
  try {
    return self.findPath(new IManagedObject(object, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_mv(hep.aida.ITree self, String oldPath, String newPath) {
  try {
    self.mv(oldPath, newPath);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_commit(hep.aida.ITree self) {
  try {
    self.commit();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_setOverwrite__SWIG_0(hep.aida.ITree self, boolean overwrite) {
  try {
    self.setOverwrite(overwrite);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_setOverwrite__SWIG_1(hep.aida.ITree self) {
  try {
    self.setOverwrite();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_cp__SWIG_0(hep.aida.ITree self, String oldPath, String newPath, boolean recursive) {
  try {
    self.cp(oldPath, newPath, recursive);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_cp__SWIG_1(hep.aida.ITree self, String oldPath, String newPath) {
  try {
    self.cp(oldPath, newPath);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_symlink(hep.aida.ITree self, String path, String alias) {
  try {
    self.symlink(path, alias);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_mount(hep.aida.ITree self, String path, long tree, String treePath) {
  try {
    self.mount(path, new ITree(tree, false), treePath);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_unmount(hep.aida.ITree self, String path) {
  try {
    self.unmount(path);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITree_close(hep.aida.ITree self) {
  try {
    self.close();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITreeFactory_create__SWIG_0(hep.aida.ITreeFactory self) {
  try {
    return ITree.getCPtr((hep.aida.ITree)self.create());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITreeFactory_create__SWIG_1(hep.aida.ITreeFactory self, String storeName, String storeType, boolean readOnly, boolean createNew, String options) {
  try {
    return ITree.getCPtr((hep.aida.ITree)self.create(storeName, storeType, readOnly, createNew, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITreeFactory_create__SWIG_2(hep.aida.ITreeFactory self, String storeName, String storeType, boolean readOnly, boolean createNew) {
  try {
    return ITree.getCPtr((hep.aida.ITree)self.create(storeName, storeType, readOnly, createNew));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITreeFactory_create__SWIG_3(hep.aida.ITreeFactory self, String storeName, String storeType, boolean readOnly) {
  try {
    return ITree.getCPtr((hep.aida.ITree)self.create(storeName, storeType, readOnly));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITreeFactory_create__SWIG_4(hep.aida.ITreeFactory self, String storeName, String storeType) {
  try {
    return ITree.getCPtr((hep.aida.ITree)self.create(storeName, storeType));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITreeFactory_create__SWIG_5(hep.aida.ITreeFactory self, String storeName) {
  try {
    return ITree.getCPtr((hep.aida.ITree)self.create(storeName));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFilter_initialize(hep.aida.IFilter self, long tuple) {
  try {
    self.initialize(new ITuple(tuple, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFilter_accept(hep.aida.IFilter self) {
  try {
    return self.accept();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFilter_expression(hep.aida.IFilter self) {
  try {
    return self.expression();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IEvaluator_initialize(hep.aida.IEvaluator self, long tuple) {
  try {
    self.initialize(new ITuple(tuple, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IEvaluator_evaluateDouble(hep.aida.IEvaluator self) {
  try {
    return self.evaluateDouble();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IEvaluator_expression(hep.aida.IEvaluator self) {
  try {
    return self.expression();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ITuple_title(hep.aida.ITuple self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_setTitle(hep.aida.ITuple self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITuple_annotation(hep.aida.ITuple self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_fill__SWIG_0(hep.aida.ITuple self, int column, double value) {
  try {
    self.fill(column, value);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_fill__SWIG_1(hep.aida.ITuple self, int column, float value) {
  try {
    self.fill(column, value);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_fill__SWIG_2(hep.aida.ITuple self, int column, int value) {
  try {
    self.fill(column, value);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_fill__SWIG_3(hep.aida.ITuple self, int column, short value) {
  try {
    self.fill(column, value);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_fill__SWIG_4(hep.aida.ITuple self, int column, long value) {
  try {
    self.fill(column, value);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_fill__SWIG_5(hep.aida.ITuple self, int column, char value) {
  try {
    self.fill(column, value);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_fill__SWIG_6(hep.aida.ITuple self, int column, boolean value) {
  try {
    self.fill(column, value);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_fill__SWIG_7(hep.aida.ITuple self, int column, String value) {
  try {
    self.fill(column, value);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_fill__SWIG_8(hep.aida.ITuple self, int column, long value) {
  try {
    self.fill(column, new ITupleEntry(value, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_fill__SWIG_9(hep.aida.ITuple self, double[] values) {
  try {
    self.fill(values);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_fill__SWIG_10(hep.aida.ITuple self, float[] values) {
  try {
    self.fill(values);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_addRow(hep.aida.ITuple self) {
  try {
    self.addRow();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_resetRow(hep.aida.ITuple self) {
  try {
    self.resetRow();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_reset(hep.aida.ITuple self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ITuple_rows(hep.aida.ITuple self) {
  try {
    return self.rows();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_start(hep.aida.ITuple self) {
  try {
    self.start();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_skip(hep.aida.ITuple self, int rows) {
  try {
    self.skip(rows);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITuple_next(hep.aida.ITuple self) {
  try {
    return self.next();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_setRow(hep.aida.ITuple self, int rowIndex) {
  try {
    self.setRow(rowIndex);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ITuple_findColumn(hep.aida.ITuple self, String name) {
  try {
    return self.findColumn(name);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ITuple_getDouble(hep.aida.ITuple self, int column) {
  try {
    return self.getDouble(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static float SwigDirector_ITuple_getFloat(hep.aida.ITuple self, int column) {
  try {
    return self.getFloat(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ITuple_getInt(hep.aida.ITuple self, int column) {
  try {
    return self.getInt(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static short SwigDirector_ITuple_getShort(hep.aida.ITuple self, int column) {
  try {
    return self.getShort(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITuple_getLong(hep.aida.ITuple self, int column) {
  try {
    return self.getLong(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static char SwigDirector_ITuple_getChar(hep.aida.ITuple self, int column) {
  try {
    return self.getChar(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITuple_getBoolean(hep.aida.ITuple self, int column) {
  try {
    return self.getBoolean(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ITuple_getString(hep.aida.ITuple self, int column) {
  try {
    return self.getString(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITuple_getObject(hep.aida.ITuple self, int column) {
  try {
    return ITupleEntry.getCPtr((hep.aida.ITupleEntry)self.getObject(column));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITuple_getTuple(hep.aida.ITuple self, int column) {
  try {
    return ITuple.getCPtr((hep.aida.ITuple)self.getTuple(column));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ITuple_columns(hep.aida.ITuple self) {
  try {
    return self.columns();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ITuple_columnName(hep.aida.ITuple self, int column) {
  try {
    return self.columnName(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITuple_columnNames(hep.aida.ITuple self) {
  try {
    return AIDAJNIUtil.toPtr(self.columnNames());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ITuple_columnType(hep.aida.ITuple self, int column) {
  try {
    return AIDAJNIUtil.convert(self.columnType(column));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITuple_columnTypes(hep.aida.ITuple self) {
  try {
    return AIDAJNIUtil.toPtr(self.columnTypes());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ITuple_columnMin(hep.aida.ITuple self, int column) {
  try {
    return self.columnMin(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ITuple_columnMax(hep.aida.ITuple self, int column) {
  try {
    return self.columnMax(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ITuple_columnMean(hep.aida.ITuple self, int column) {
  try {
    return self.columnMean(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ITuple_columnRms(hep.aida.ITuple self, int column) {
  try {
    return self.columnRms(column);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_0(hep.aida.ITuple self, long histogram, long evaluatorX) {
  try {
    self.project(new IHistogram1D(histogram, false), new IEvaluator(evaluatorX, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_1(hep.aida.ITuple self, long histogram, long evaluatorX, long filter) {
  try {
    self.project(new IHistogram1D(histogram, false), new IEvaluator(evaluatorX, false), new IFilter(filter, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_2(hep.aida.ITuple self, long histogram, long evaluatorX, long weight) {
  try {
    self.project(new IHistogram1D(histogram, false), new IEvaluator(evaluatorX, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_3(hep.aida.ITuple self, long histogram, long evaluatorX, long filter, long weight) {
  try {
    self.project(new IHistogram1D(histogram, false), new IEvaluator(evaluatorX, false), new IFilter(filter, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_4(hep.aida.ITuple self, long histogram, long evaluatorX, long evaluatorY) {
  try {
    self.project(new IHistogram2D(histogram, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_5(hep.aida.ITuple self, long histogram, long evaluatorX, long evaluatorY, long filter) {
  try {
    self.project(new IHistogram2D(histogram, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IFilter(filter, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_6(hep.aida.ITuple self, long histogram, long evaluatorX, long evaluatorY, long weight) {
  try {
    self.project(new IHistogram2D(histogram, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_7(hep.aida.ITuple self, long histogram, long evaluatorX, long evaluatorY, long filter, long weight) {
  try {
    self.project(new IHistogram2D(histogram, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IFilter(filter, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_8(hep.aida.ITuple self, long histogram, long evaluatorX, long evaluatorY, long evaluatorZ) {
  try {
    self.project(new IHistogram3D(histogram, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(evaluatorZ, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_9(hep.aida.ITuple self, long histogram, long evaluatorX, long evaluatorY, long evaluatorZ, long filter) {
  try {
    self.project(new IHistogram3D(histogram, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(evaluatorZ, false), new IFilter(filter, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_10(hep.aida.ITuple self, long histogram, long evaluatorX, long evaluatorY, long evaluatorZ, long weight) {
  try {
    self.project(new IHistogram3D(histogram, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(evaluatorZ, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_11(hep.aida.ITuple self, long histogram, long evaluatorX, long evaluatorY, long evaluatorZ, long filter, long weight) {
  try {
    self.project(new IHistogram3D(histogram, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(evaluatorZ, false), new IFilter(filter, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_12(hep.aida.ITuple self, long cloud, long evaluatorX) {
  try {
    self.project(new ICloud1D(cloud, false), new IEvaluator(evaluatorX, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_13(hep.aida.ITuple self, long cloud, long evaluatorX, long filter) {
  try {
    self.project(new ICloud1D(cloud, false), new IEvaluator(evaluatorX, false), new IFilter(filter, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_14(hep.aida.ITuple self, long cloud, long evaluatorX, long weight) {
  try {
    self.project(new ICloud1D(cloud, false), new IEvaluator(evaluatorX, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_15(hep.aida.ITuple self, long cloud, long evaluatorX, long filter, long weight) {
  try {
    self.project(new ICloud1D(cloud, false), new IEvaluator(evaluatorX, false), new IFilter(filter, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_16(hep.aida.ITuple self, long cloud, long evaluatorX, long evaluatorY) {
  try {
    self.project(new ICloud2D(cloud, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_17(hep.aida.ITuple self, long cloud, long evaluatorX, long evaluatorY, long filter) {
  try {
    self.project(new ICloud2D(cloud, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IFilter(filter, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_18(hep.aida.ITuple self, long cloud, long evaluatorX, long evaluatorY, long weight) {
  try {
    self.project(new ICloud2D(cloud, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_19(hep.aida.ITuple self, long cloud, long evaluatorX, long evaluatorY, long filter, long weight) {
  try {
    self.project(new ICloud2D(cloud, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IFilter(filter, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_20(hep.aida.ITuple self, long cloud, long evaluatorX, long evaluatorY, long evaluatorZ) {
  try {
    self.project(new ICloud3D(cloud, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(evaluatorZ, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_21(hep.aida.ITuple self, long cloud, long evaluatorX, long evaluatorY, long evaluatorZ, long filter) {
  try {
    self.project(new ICloud3D(cloud, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(evaluatorZ, false), new IFilter(filter, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_22(hep.aida.ITuple self, long cloud, long evaluatorX, long evaluatorY, long evaluatorZ, long weight) {
  try {
    self.project(new ICloud3D(cloud, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(evaluatorZ, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_23(hep.aida.ITuple self, long cloud, long evaluatorX, long evaluatorY, long evaluatorZ, long filter, long weight) {
  try {
    self.project(new ICloud3D(cloud, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(evaluatorZ, false), new IFilter(filter, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_24(hep.aida.ITuple self, long profile, long evaluatorX, long evaluatorY) {
  try {
    self.project(new IProfile1D(profile, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_25(hep.aida.ITuple self, long profile, long evaluatorX, long evaluatorY, long filter) {
  try {
    self.project(new IProfile1D(profile, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IFilter(filter, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_26(hep.aida.ITuple self, long profile, long evaluatorX, long evaluatorY, long weight) {
  try {
    self.project(new IProfile1D(profile, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_27(hep.aida.ITuple self, long profile, long evaluatorX, long evaluatorY, long filter, long weight) {
  try {
    self.project(new IProfile1D(profile, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IFilter(filter, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_28(hep.aida.ITuple self, long profile, long evaluatorX, long evaluatorY, long evaluatorZ) {
  try {
    self.project(new IProfile2D(profile, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(evaluatorZ, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_29(hep.aida.ITuple self, long profile, long evaluatorX, long evaluatorY, long evaluatorZ, long filter) {
  try {
    self.project(new IProfile2D(profile, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(evaluatorZ, false), new IFilter(filter, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_30(hep.aida.ITuple self, long profile, long evaluatorX, long evaluatorY, long evaluatorZ, long weight) {
  try {
    self.project(new IProfile2D(profile, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(evaluatorZ, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITuple_project__SWIG_31(hep.aida.ITuple self, long profile, long evaluatorX, long evaluatorY, long evaluatorZ, long filter, long weight) {
  try {
    self.project(new IProfile2D(profile, false), new IEvaluator(evaluatorX, false), new IEvaluator(evaluatorY, false), new IEvaluator(evaluatorZ, false), new IFilter(filter, false), new IEvaluator(weight, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITupleFactory_create__SWIG_0(hep.aida.ITupleFactory self, String path, String title, long columnNames, long columnType, String options) {
  try {
    return ITuple.getCPtr((hep.aida.ITuple)self.create(path, title, AIDAJNIUtil.toStringArray(columnNames), AIDAJNIUtil.toClassArray(columnType), options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITupleFactory_create__SWIG_1(hep.aida.ITupleFactory self, String path, String title, long columnNames, long columnType) {
  try {
    return ITuple.getCPtr((hep.aida.ITuple)self.create(path, title, AIDAJNIUtil.toStringArray(columnNames), AIDAJNIUtil.toClassArray(columnType)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITupleFactory_create__SWIG_2(hep.aida.ITupleFactory self, String path, String title, String columns, String options) {
  try {
    return ITuple.getCPtr((hep.aida.ITuple)self.create(path, title, columns, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITupleFactory_create__SWIG_3(hep.aida.ITupleFactory self, String path, String title, String columns) {
  try {
    return ITuple.getCPtr((hep.aida.ITuple)self.create(path, title, columns));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITupleFactory_createChained__SWIG_0(hep.aida.ITupleFactory self, String path, String title, long set) {
  try {
    return ITuple.getCPtr((hep.aida.ITuple)self.createChained(path, title, AIDAJNIUtil.toITupleArray(set)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITupleFactory_createChained__SWIG_1(hep.aida.ITupleFactory self, String path, String title, long set) {
  try {
    return ITuple.getCPtr((hep.aida.ITuple)self.createChained(path, title, AIDAJNIUtil.toStringArray(set)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITupleFactory_createFiltered__SWIG_0(hep.aida.ITupleFactory self, String path, long tuple, long filter) {
  try {
    return ITuple.getCPtr((hep.aida.ITuple)self.createFiltered(path, new ITuple(tuple, false), new IFilter(filter, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITupleFactory_createFiltered__SWIG_1(hep.aida.ITupleFactory self, String path, long tuple, long filter, long columns) {
  try {
    return ITuple.getCPtr((hep.aida.ITuple)self.createFiltered(path, new ITuple(tuple, false), new IFilter(filter, false), AIDAJNIUtil.toStringArray(columns)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITupleFactory_createFilter__SWIG_0(hep.aida.ITupleFactory self, String expression) {
  try {
    return IFilter.getCPtr((hep.aida.IFilter)self.createFilter(expression));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITupleFactory_createFilter__SWIG_1(hep.aida.ITupleFactory self, String expression, int rowsToProcess, int startingRow) {
  try {
    return IFilter.getCPtr((hep.aida.IFilter)self.createFilter(expression, rowsToProcess, startingRow));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITupleFactory_createFilter__SWIG_2(hep.aida.ITupleFactory self, String expression, int rowsToProcess) {
  try {
    return IFilter.getCPtr((hep.aida.IFilter)self.createFilter(expression, rowsToProcess));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITupleFactory_createEvaluator(hep.aida.ITupleFactory self, String expression) {
  try {
    return IEvaluator.getCPtr((hep.aida.IEvaluator)self.createEvaluator(expression));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IMeasurement_value(hep.aida.IMeasurement self) {
  try {
    return self.value();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IMeasurement_errorPlus(hep.aida.IMeasurement self) {
  try {
    return self.errorPlus();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IMeasurement_errorMinus(hep.aida.IMeasurement self) {
  try {
    return self.errorMinus();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IMeasurement_setValue(hep.aida.IMeasurement self, double value) {
  try {
    self.setValue(value);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IMeasurement_setErrorPlus(hep.aida.IMeasurement self, double errorPlus) {
  try {
    self.setErrorPlus(errorPlus);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IMeasurement_setErrorMinus(hep.aida.IMeasurement self, double errorMinus) {
  try {
    self.setErrorMinus(errorMinus);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double[] SwigDirector_IRangeSet_lowerBounds(hep.aida.IRangeSet self) {
  try {
    return self.lowerBounds();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double[] SwigDirector_IRangeSet_upperBounds(hep.aida.IRangeSet self) {
  try {
    return self.upperBounds();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IRangeSet_include(hep.aida.IRangeSet self, double xMin, double xMax) {
  try {
    self.include(xMin, xMax);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IRangeSet_exclude(hep.aida.IRangeSet self, double xMin, double xMax) {
  try {
    self.exclude(xMin, xMax);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IRangeSet_includeAll(hep.aida.IRangeSet self) {
  try {
    self.includeAll();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IRangeSet_excludeAll(hep.aida.IRangeSet self) {
  try {
    self.excludeAll();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IRangeSet_isInRange(hep.aida.IRangeSet self, double point) {
  try {
    return self.isInRange(point);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IRangeSet_size(hep.aida.IRangeSet self) {
  try {
    return self.size();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IRangeSet_PLUS_INF(hep.aida.IRangeSet self) {
  try {
    return self.PLUS_INF();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IRangeSet_MINUS_INF(hep.aida.IRangeSet self) {
  try {
    return self.MINUS_INF();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create1DConnection__SWIG_0(hep.aida.IFitData self, long h) {
  try {
    self.create1DConnection(new IHistogram1D(h, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create1DConnection__SWIG_1(hep.aida.IFitData self, long c) {
  try {
    self.create1DConnection(new ICloud1D(c, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create1DConnection__SWIG_2(hep.aida.IFitData self, long p) {
  try {
    self.create1DConnection(new IProfile1D(p, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create1DConnection__SWIG_3(hep.aida.IFitData self, long dp, int xIndex, int valIndex) {
  try {
    self.create1DConnection(new IDataPointSet(dp, false), xIndex, valIndex);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create2DConnection__SWIG_0(hep.aida.IFitData self, long h) {
  try {
    self.create2DConnection(new IHistogram2D(h, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create2DConnection__SWIG_1(hep.aida.IFitData self, long h, int xIndex, int yIndex) {
  try {
    self.create2DConnection(new IHistogram2D(h, false), xIndex, yIndex);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create2DConnection__SWIG_2(hep.aida.IFitData self, long c) {
  try {
    self.create2DConnection(new ICloud2D(c, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create2DConnection__SWIG_3(hep.aida.IFitData self, long c, int xIndex, int yIndex) {
  try {
    self.create2DConnection(new ICloud2D(c, false), xIndex, yIndex);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create2DConnection__SWIG_4(hep.aida.IFitData self, long p) {
  try {
    self.create2DConnection(new IProfile2D(p, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create2DConnection__SWIG_5(hep.aida.IFitData self, long p, int xIndex, int yIndex) {
  try {
    self.create2DConnection(new IProfile2D(p, false), xIndex, yIndex);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create2DConnection__SWIG_6(hep.aida.IFitData self, long dp, int xIndex, int yIndex, int valIndex) {
  try {
    self.create2DConnection(new IDataPointSet(dp, false), xIndex, yIndex, valIndex);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create3DConnection__SWIG_0(hep.aida.IFitData self, long h) {
  try {
    self.create3DConnection(new IHistogram3D(h, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create3DConnection__SWIG_1(hep.aida.IFitData self, long h, int xIndex, int yIndex, int zIndex) {
  try {
    self.create3DConnection(new IHistogram3D(h, false), xIndex, yIndex, zIndex);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create3DConnection__SWIG_2(hep.aida.IFitData self, long c) {
  try {
    self.create3DConnection(new ICloud3D(c, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create3DConnection__SWIG_3(hep.aida.IFitData self, long c, int xIndex, int yIndex, int zIndex) {
  try {
    self.create3DConnection(new ICloud3D(c, false), xIndex, yIndex, zIndex);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_create3DConnection__SWIG_4(hep.aida.IFitData self, long dp, int xIndex, int yIndex, int zIndex, int valIndex) {
  try {
    self.create3DConnection(new IDataPointSet(dp, false), xIndex, yIndex, zIndex, valIndex);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_createConnection__SWIG_0(hep.aida.IFitData self, long t, long colNames) {
  try {
    self.createConnection(new ITuple(t, false), AIDAJNIUtil.toStringArray(colNames));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_createConnection__SWIG_1(hep.aida.IFitData self, long t, long evals) {
  try {
    self.createConnection(new ITuple(t, false), AIDAJNIUtil.toIEvaluatorArray(evals));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_createConnection__SWIG_2(hep.aida.IFitData self, long dp, int[] indeces, int valIndex) {
  try {
    self.createConnection(new IDataPointSet(dp, false), indeces, valIndex);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitData_reset(hep.aida.IFitData self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IFitData_dimension(hep.aida.IFitData self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFitData_dataDescription(hep.aida.IFitData self) {
  try {
    return self.dataDescription();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitData_range(hep.aida.IFitData self, int index) {
  try {
    return IRangeSet.getCPtr((hep.aida.IRangeSet)self.range(index));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFunction_title(hep.aida.IFunction self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFunction_setTitle(hep.aida.IFunction self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IFunction_value(hep.aida.IFunction self, double[] x) {
  try {
    return self.value(x);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IFunction_dimension(hep.aida.IFunction self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFunction_isEqual(hep.aida.IFunction self, long f) {
  try {
    return self.isEqual(new IFunction(f, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double[] SwigDirector_IFunction_gradient(hep.aida.IFunction self, double[] x) {
  try {
    return self.gradient(x);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFunction_providesGradient(hep.aida.IFunction self) {
  try {
    return self.providesGradient();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFunction_variableName(hep.aida.IFunction self, int i) {
  try {
    return self.variableName(i);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFunction_variableNames(hep.aida.IFunction self) {
  try {
    return AIDAJNIUtil.toPtr(self.variableNames());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFunction_setParameters(hep.aida.IFunction self, double[] params) {
  try {
    self.setParameters(params);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double[] SwigDirector_IFunction_parameters(hep.aida.IFunction self) {
  try {
    return self.parameters();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IFunction_numberOfParameters(hep.aida.IFunction self) {
  try {
    return self.numberOfParameters();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFunction_parameterNames(hep.aida.IFunction self) {
  try {
    return AIDAJNIUtil.toPtr(self.parameterNames());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFunction_setParameter(hep.aida.IFunction self, String name, double x) {
  try {
    self.setParameter(name, x);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IFunction_parameter(hep.aida.IFunction self, String name) {
  try {
    return self.parameter(name);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IFunction_indexOfParameter(hep.aida.IFunction self, String name) {
  try {
    return self.indexOfParameter(name);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFunction_annotation(hep.aida.IFunction self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFunction_codeletString(hep.aida.IFunction self) {
  try {
    return self.codeletString();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFitParameterSettings_name(hep.aida.IFitParameterSettings self) {
  try {
    return self.name();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IFitParameterSettings_stepSize(hep.aida.IFitParameterSettings self) {
  try {
    return self.stepSize();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IFitParameterSettings_upperBound(hep.aida.IFitParameterSettings self) {
  try {
    return self.upperBound();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IFitParameterSettings_lowerBound(hep.aida.IFitParameterSettings self) {
  try {
    return self.lowerBound();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFitParameterSettings_isBound(hep.aida.IFitParameterSettings self) {
  try {
    return self.isBound();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFitParameterSettings_isFixed(hep.aida.IFitParameterSettings self) {
  try {
    return self.isFixed();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitParameterSettings_setStepSize(hep.aida.IFitParameterSettings self, double step) {
  try {
    self.setStepSize(step);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitParameterSettings_setBounds(hep.aida.IFitParameterSettings self, double lo, double up) {
  try {
    self.setBounds(lo, up);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitParameterSettings_removeBounds(hep.aida.IFitParameterSettings self) {
  try {
    self.removeBounds();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitParameterSettings_setFixed(hep.aida.IFitParameterSettings self, boolean isFixed) {
  try {
    self.setFixed(isFixed);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitParameterSettings_setLowerBound(hep.aida.IFitParameterSettings self, double lowerBound) {
  try {
    self.setLowerBound(lowerBound);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitParameterSettings_setUpperBound(hep.aida.IFitParameterSettings self, double upperBound) {
  try {
    self.setUpperBound(upperBound);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitParameterSettings_reset(hep.aida.IFitParameterSettings self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFitResult_isValid(hep.aida.IFitResult self) {
  try {
    return self.isValid();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IFitResult_fitStatus(hep.aida.IFitResult self) {
  try {
    return self.fitStatus();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitResult_fittedFunction(hep.aida.IFitResult self) {
  try {
    return IFunction.getCPtr((hep.aida.IFunction)self.fittedFunction());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IFitResult_quality(hep.aida.IFitResult self) {
  try {
    return self.quality();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IFitResult_ndf(hep.aida.IFitResult self) {
  try {
    return self.ndf();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IFitResult_covMatrixElement(hep.aida.IFitResult self, int i, int j) {
  try {
    return self.covMatrixElement(i, j);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFitResult_fitMethodName(hep.aida.IFitResult self) {
  try {
    return self.fitMethodName();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFitResult_engineName(hep.aida.IFitResult self) {
  try {
    return self.engineName();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFitResult_dataDescription(hep.aida.IFitResult self) {
  try {
    return self.dataDescription();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitResult_constraints(hep.aida.IFitResult self) {
  try {
    return AIDAJNIUtil.toPtr(self.constraints());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitResult_fitParameterSettings(hep.aida.IFitResult self, String name) {
  try {
    return IFitParameterSettings.getCPtr((hep.aida.IFitParameterSettings)self.fitParameterSettings(name));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double[] SwigDirector_IFitResult_fittedParameters(hep.aida.IFitResult self) {
  try {
    return self.fittedParameters();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitResult_fittedParameterNames(hep.aida.IFitResult self) {
  try {
    return AIDAJNIUtil.toPtr(self.fittedParameterNames());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IFitResult_fittedParameter(hep.aida.IFitResult self, String name) {
  try {
    return self.fittedParameter(name);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double[] SwigDirector_IFitResult_errors(hep.aida.IFitResult self) {
  try {
    return self.errors();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double[] SwigDirector_IFitResult_errorsPlus(hep.aida.IFitResult self) {
  try {
    return self.errorsPlus();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double[] SwigDirector_IFitResult_errorsMinus(hep.aida.IFitResult self) {
  try {
    return self.errorsMinus();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_fit__SWIG_0(hep.aida.IFitter self, long fitData, long func) {
  try {
    return IFitResult.getCPtr((hep.aida.IFitResult)self.fit(new IFitData(fitData, false), new IFunction(func, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_fit__SWIG_1(hep.aida.IFitter self, long hist, long func) {
  try {
    return IFitResult.getCPtr((hep.aida.IFitResult)self.fit(new IBaseHistogram(hist, false), new IFunction(func, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_fit__SWIG_2(hep.aida.IFitter self, long hist, String model) {
  try {
    return IFitResult.getCPtr((hep.aida.IFitResult)self.fit(new IBaseHistogram(hist, false), model));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_fit__SWIG_3(hep.aida.IFitter self, long hist, String model, double[] initialParameters) {
  try {
    return IFitResult.getCPtr((hep.aida.IFitResult)self.fit(new IBaseHistogram(hist, false), model, initialParameters));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_fit__SWIG_4(hep.aida.IFitter self, long dataPointSet, long f) {
  try {
    return IFitResult.getCPtr((hep.aida.IFitResult)self.fit(new IDataPointSet(dataPointSet, false), new IFunction(f, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_fit__SWIG_5(hep.aida.IFitter self, long dataPointSet, String model) {
  try {
    return IFitResult.getCPtr((hep.aida.IFitResult)self.fit(new IDataPointSet(dataPointSet, false), model));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_fit__SWIG_6(hep.aida.IFitter self, long dataPointSet, String model, double[] initialParameters) {
  try {
    return IFitResult.getCPtr((hep.aida.IFitResult)self.fit(new IDataPointSet(dataPointSet, false), model, initialParameters));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_fit__SWIG_7(hep.aida.IFitter self, long d, String model) {
  try {
    return IFitResult.getCPtr((hep.aida.IFitResult)self.fit(new IFitData(d, false), model));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_fit__SWIG_8(hep.aida.IFitter self, long d, String model, double[] initialParameters) {
  try {
    return IFitResult.getCPtr((hep.aida.IFitResult)self.fit(new IFitData(d, false), model, initialParameters));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitter_setEngine(hep.aida.IFitter self, String name) {
  try {
    self.setEngine(name);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFitter_engineName(hep.aida.IFitter self) {
  try {
    return self.engineName();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_fitParameterSettings(hep.aida.IFitter self, String name) {
  try {
    return IFitParameterSettings.getCPtr((hep.aida.IFitParameterSettings)self.fitParameterSettings(name));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_listParameterSettings(hep.aida.IFitter self) {
  try {
    return AIDAJNIUtil.toPtr(self.listParameterSettings());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitter_resetParameterSettings(hep.aida.IFitter self) {
  try {
    self.resetParameterSettings();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitter_setConstraint(hep.aida.IFitter self, String expr) {
  try {
    self.setConstraint(expr);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_constraints(hep.aida.IFitter self) {
  try {
    return AIDAJNIUtil.toPtr(self.constraints());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitter_resetConstraints(hep.aida.IFitter self) {
  try {
    self.resetConstraints();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitter_setFitMethod(hep.aida.IFitter self, String name) {
  try {
    self.setFitMethod(name);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFitter_fitMethodName(hep.aida.IFitter self) {
  try {
    return self.fitMethodName();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_createScan1D(hep.aida.IFitter self, long d, long f, String par, int npts, double pmin, double pmax) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createScan1D(new IFitData(d, false), new IFunction(f, false), par, npts, pmin, pmax));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitter_createContour(hep.aida.IFitter self, long d, long r, String par1, String par2, int npts, double up) {
  try {
    return IDataPointSet.getCPtr((hep.aida.IDataPointSet)self.createContour(new IFitData(d, false), new IFitResult(r, false), par1, par2, npts, up));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFitter_setUseFunctionGradient(hep.aida.IFitter self, boolean useGrad) {
  try {
    self.setUseFunctionGradient(useGrad);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFitter_useFunctionGradient(hep.aida.IFitter self) {
  try {
    return self.useFunctionGradient();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitFactory_createFitData(hep.aida.IFitFactory self) {
  try {
    return IFitData.getCPtr((hep.aida.IFitData)self.createFitData());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitFactory_createFitter__SWIG_0(hep.aida.IFitFactory self, String fitterType, String engineType, String options) {
  try {
    return IFitter.getCPtr((hep.aida.IFitter)self.createFitter(fitterType, engineType, options));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitFactory_createFitter__SWIG_1(hep.aida.IFitFactory self, String fitterType, String engineType) {
  try {
    return IFitter.getCPtr((hep.aida.IFitter)self.createFitter(fitterType, engineType));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitFactory_createFitter__SWIG_2(hep.aida.IFitFactory self, String fitterType) {
  try {
    return IFitter.getCPtr((hep.aida.IFitter)self.createFitter(fitterType));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFitFactory_createFitter__SWIG_3(hep.aida.IFitFactory self) {
  try {
    return IFitter.getCPtr((hep.aida.IFitter)self.createFitter());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IModelFunction_title(hep.aida.IModelFunction self) {
  try {
    return self.title();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IModelFunction_setTitle(hep.aida.IModelFunction self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IModelFunction_value(hep.aida.IModelFunction self, double[] x) {
  try {
    return self.value(x);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IModelFunction_dimension(hep.aida.IModelFunction self) {
  try {
    return self.dimension();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IModelFunction_isEqual(hep.aida.IModelFunction self, long f) {
  try {
    return self.isEqual(new IFunction(f, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double[] SwigDirector_IModelFunction_gradient(hep.aida.IModelFunction self, double[] x) {
  try {
    return self.gradient(x);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IModelFunction_providesGradient(hep.aida.IModelFunction self) {
  try {
    return self.providesGradient();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IModelFunction_variableName(hep.aida.IModelFunction self, int i) {
  try {
    return self.variableName(i);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IModelFunction_variableNames(hep.aida.IModelFunction self) {
  try {
    return AIDAJNIUtil.toPtr(self.variableNames());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IModelFunction_setParameters(hep.aida.IModelFunction self, double[] params) {
  try {
    self.setParameters(params);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double[] SwigDirector_IModelFunction_parameters(hep.aida.IModelFunction self) {
  try {
    return self.parameters();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IModelFunction_numberOfParameters(hep.aida.IModelFunction self) {
  try {
    return self.numberOfParameters();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IModelFunction_parameterNames(hep.aida.IModelFunction self) {
  try {
    return AIDAJNIUtil.toPtr(self.parameterNames());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IModelFunction_setParameter(hep.aida.IModelFunction self, String name, double x) {
  try {
    self.setParameter(name, x);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IModelFunction_parameter(hep.aida.IModelFunction self, String name) {
  try {
    return self.parameter(name);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IModelFunction_indexOfParameter(hep.aida.IModelFunction self, String name) {
  try {
    return self.indexOfParameter(name);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IModelFunction_annotation(hep.aida.IModelFunction self) {
  try {
    return IAnnotation.getCPtr((hep.aida.IAnnotation)self.annotation());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IModelFunction_codeletString(hep.aida.IModelFunction self) {
  try {
    return self.codeletString();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IModelFunction_providesNormalization(hep.aida.IModelFunction self) {
  try {
    return self.providesNormalization();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IModelFunction_normalize(hep.aida.IModelFunction self, boolean on) {
  try {
    self.normalize(on);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IModelFunction_isNormalized(hep.aida.IModelFunction self) {
  try {
    return self.isNormalized();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double[] SwigDirector_IModelFunction_parameterGradient(hep.aida.IModelFunction self, double[] x) {
  try {
    return self.parameterGradient(x);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IModelFunction_providesParameterGradient(hep.aida.IModelFunction self) {
  try {
    return self.providesParameterGradient();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IModelFunction_normalizationRange(hep.aida.IModelFunction self, int iAxis) {
  try {
    return IRangeSet.getCPtr((hep.aida.IRangeSet)self.normalizationRange(iAxis));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IModelFunction_includeNormalizationAll(hep.aida.IModelFunction self) {
  try {
    self.includeNormalizationAll();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IModelFunction_excludeNormalizationAll(hep.aida.IModelFunction self) {
  try {
    self.excludeNormalizationAll();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFunctionCatalog_add__SWIG_0(hep.aida.IFunctionCatalog self, String nameId, long f) {
  try {
    return self.add(nameId, new IFunction(f, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFunctionCatalog_add__SWIG_1(hep.aida.IFunctionCatalog self, String nameId, String codelet) {
  try {
    return self.add(nameId, codelet);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFunctionCatalog_list(hep.aida.IFunctionCatalog self) {
  try {
    return AIDAJNIUtil.toPtr(self.list());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFunctionCatalog_remove(hep.aida.IFunctionCatalog self, String nameId) {
  try {
    self.remove(nameId);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFunctionCatalog_storeAll(hep.aida.IFunctionCatalog self, String nameOnDisk) {
  try {
    self.storeAll(nameOnDisk);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFunctionCatalog_loadAll(hep.aida.IFunctionCatalog self, String nameOnDisk) {
  try {
    self.loadAll(nameOnDisk);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFunctionFactory_createFunctionByName(hep.aida.IFunctionFactory self, String path, String model) {
  try {
    return IFunction.getCPtr((hep.aida.IFunction)self.createFunctionByName(path, model));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFunctionFactory_createFunctionFromScript__SWIG_0(hep.aida.IFunctionFactory self, String name, int dim, String valexpr, String parameters, String description, String gradexpr) {
  try {
    return IFunction.getCPtr((hep.aida.IFunction)self.createFunctionFromScript(name, dim, valexpr, parameters, description, gradexpr));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFunctionFactory_createFunctionFromScript__SWIG_1(hep.aida.IFunctionFactory self, String name, int dim, String valexpr, String parameters, String description) {
  try {
    return IFunction.getCPtr((hep.aida.IFunction)self.createFunctionFromScript(name, dim, valexpr, parameters, description));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFunctionFactory_cloneFunction(hep.aida.IFunctionFactory self, String path, long f) {
  try {
    return IFunction.getCPtr((hep.aida.IFunction)self.cloneFunction(path, new IFunction(f, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFunctionFactory_catalog(hep.aida.IFunctionFactory self) {
  try {
    return IFunctionCatalog.getCPtr((hep.aida.IFunctionCatalog)self.catalog());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IBaseStyle_reset(hep.aida.IBaseStyle self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IBaseStyle_setParameter__SWIG_0(hep.aida.IBaseStyle self, String paramName, String options) {
  try {
    return self.setParameter(paramName, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IBaseStyle_setParameter__SWIG_1(hep.aida.IBaseStyle self, String paramName) {
  try {
    return self.setParameter(paramName);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IBaseStyle_parameterValue(hep.aida.IBaseStyle self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IBaseStyle_availableParameters(hep.aida.IBaseStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IBaseStyle_availableParameterOptions(hep.aida.IBaseStyle self, String paramName) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(paramName));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IBrushStyle_reset(hep.aida.IBrushStyle self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IBrushStyle_setParameter__SWIG_0(hep.aida.IBrushStyle self, String paramName, String options) {
  try {
    return self.setParameter(paramName, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IBrushStyle_setParameter__SWIG_1(hep.aida.IBrushStyle self, String paramName) {
  try {
    return self.setParameter(paramName);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IBrushStyle_parameterValue(hep.aida.IBrushStyle self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IBrushStyle_availableParameters(hep.aida.IBrushStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IBrushStyle_availableParameterOptions(hep.aida.IBrushStyle self, String paramName) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(paramName));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IBrushStyle_availableColors(hep.aida.IBrushStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableColors());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IBrushStyle_color(hep.aida.IBrushStyle self) {
  try {
    return self.color();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IBrushStyle_opacity(hep.aida.IBrushStyle self) {
  try {
    return self.opacity();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IBrushStyle_setColor(hep.aida.IBrushStyle self, String newColor) {
  try {
    return self.setColor(newColor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IBrushStyle_setOpacity(hep.aida.IBrushStyle self, double newOpacity) {
  try {
    return self.setOpacity(newOpacity);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ILineStyle_reset(hep.aida.ILineStyle self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ILineStyle_setParameter__SWIG_0(hep.aida.ILineStyle self, String paramName, String options) {
  try {
    return self.setParameter(paramName, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ILineStyle_setParameter__SWIG_1(hep.aida.ILineStyle self, String paramName) {
  try {
    return self.setParameter(paramName);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ILineStyle_parameterValue(hep.aida.ILineStyle self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ILineStyle_availableParameters(hep.aida.ILineStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ILineStyle_availableParameterOptions(hep.aida.ILineStyle self, String paramName) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(paramName));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ILineStyle_availableColors(hep.aida.ILineStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableColors());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ILineStyle_color(hep.aida.ILineStyle self) {
  try {
    return self.color();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ILineStyle_opacity(hep.aida.ILineStyle self) {
  try {
    return self.opacity();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ILineStyle_setColor(hep.aida.ILineStyle self, String newColor) {
  try {
    return self.setColor(newColor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ILineStyle_setOpacity(hep.aida.ILineStyle self, double newOpacity) {
  try {
    return self.setOpacity(newOpacity);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ILineStyle_availableLineTypes(hep.aida.ILineStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableLineTypes());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ILineStyle_lineType(hep.aida.ILineStyle self) {
  try {
    return self.lineType();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_ILineStyle_thickness(hep.aida.ILineStyle self) {
  try {
    return self.thickness();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ILineStyle_setLineType(hep.aida.ILineStyle self, String newLineType) {
  try {
    return self.setLineType(newLineType);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ILineStyle_setThickness(hep.aida.ILineStyle self, int newThickness) {
  try {
    return self.setThickness(newThickness);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITextStyle_reset(hep.aida.ITextStyle self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_setParameter__SWIG_0(hep.aida.ITextStyle self, String paramName, String options) {
  try {
    return self.setParameter(paramName, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_setParameter__SWIG_1(hep.aida.ITextStyle self, String paramName) {
  try {
    return self.setParameter(paramName);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ITextStyle_parameterValue(hep.aida.ITextStyle self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITextStyle_availableParameters(hep.aida.ITextStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITextStyle_availableParameterOptions(hep.aida.ITextStyle self, String paramName) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(paramName));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITextStyle_availableColors(hep.aida.ITextStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableColors());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ITextStyle_color(hep.aida.ITextStyle self) {
  try {
    return self.color();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ITextStyle_opacity(hep.aida.ITextStyle self) {
  try {
    return self.opacity();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_setColor(hep.aida.ITextStyle self, String newColor) {
  try {
    return self.setColor(newColor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_setOpacity(hep.aida.ITextStyle self, double newOpacity) {
  try {
    return self.setOpacity(newOpacity);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITextStyle_availableFonts(hep.aida.ITextStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableFonts());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_ITextStyle_fontSize(hep.aida.ITextStyle self) {
  try {
    return self.fontSize();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_setFontSize(hep.aida.ITextStyle self, double size) {
  try {
    return self.setFontSize(size);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ITextStyle_font(hep.aida.ITextStyle self) {
  try {
    return self.font();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_setFont(hep.aida.ITextStyle self, String font) {
  try {
    return self.setFont(font);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_isBold(hep.aida.ITextStyle self) {
  try {
    return self.isBold();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_isItalic(hep.aida.ITextStyle self) {
  try {
    return self.isItalic();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_isUnderlined(hep.aida.ITextStyle self) {
  try {
    return self.isUnderlined();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_setBold__SWIG_0(hep.aida.ITextStyle self, boolean bold) {
  try {
    return self.setBold(bold);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_setBold__SWIG_1(hep.aida.ITextStyle self) {
  try {
    return self.setBold();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_setItalic__SWIG_0(hep.aida.ITextStyle self, boolean italic) {
  try {
    return self.setItalic(italic);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_setItalic__SWIG_1(hep.aida.ITextStyle self) {
  try {
    return self.setItalic();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_setUnderlined__SWIG_0(hep.aida.ITextStyle self, boolean underlined) {
  try {
    return self.setUnderlined(underlined);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITextStyle_setUnderlined__SWIG_1(hep.aida.ITextStyle self) {
  try {
    return self.setUnderlined();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IAxisStyle_reset(hep.aida.IAxisStyle self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IAxisStyle_setParameter__SWIG_0(hep.aida.IAxisStyle self, String paramName, String options) {
  try {
    return self.setParameter(paramName, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IAxisStyle_setParameter__SWIG_1(hep.aida.IAxisStyle self, String paramName) {
  try {
    return self.setParameter(paramName);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IAxisStyle_parameterValue(hep.aida.IAxisStyle self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IAxisStyle_availableParameters(hep.aida.IAxisStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IAxisStyle_availableParameterOptions(hep.aida.IAxisStyle self, String paramName) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(paramName));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IAxisStyle_lineStyle(hep.aida.IAxisStyle self) {
  try {
    return ILineStyle.getCPtr((hep.aida.ILineStyle)self.lineStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IAxisStyle_tickLabelStyle(hep.aida.IAxisStyle self) {
  try {
    return ITextStyle.getCPtr((hep.aida.ITextStyle)self.tickLabelStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IAxisStyle_labelStyle(hep.aida.IAxisStyle self) {
  try {
    return ITextStyle.getCPtr((hep.aida.ITextStyle)self.labelStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IAxisStyle_setlineStyle(hep.aida.IAxisStyle self, long lineStyle) {
  try {
    return self.setlineStyle(new ILineStyle(lineStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IAxisStyle_setTickLabelStyle(hep.aida.IAxisStyle self, long tickLabelStyle) {
  try {
    return self.setTickLabelStyle(new ITextStyle(tickLabelStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IAxisStyle_setLabelStyle(hep.aida.IAxisStyle self, long labelStyle) {
  try {
    return self.setLabelStyle(new ITextStyle(labelStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IAxisStyle_setLabel(hep.aida.IAxisStyle self, String label) {
  try {
    self.setLabel(label);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IFillStyle_reset(hep.aida.IFillStyle self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFillStyle_setParameter__SWIG_0(hep.aida.IFillStyle self, String paramName, String options) {
  try {
    return self.setParameter(paramName, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFillStyle_setParameter__SWIG_1(hep.aida.IFillStyle self, String paramName) {
  try {
    return self.setParameter(paramName);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFillStyle_parameterValue(hep.aida.IFillStyle self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFillStyle_availableParameters(hep.aida.IFillStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFillStyle_availableParameterOptions(hep.aida.IFillStyle self, String paramName) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(paramName));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFillStyle_availableColors(hep.aida.IFillStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableColors());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFillStyle_color(hep.aida.IFillStyle self) {
  try {
    return self.color();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IFillStyle_opacity(hep.aida.IFillStyle self) {
  try {
    return self.opacity();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFillStyle_setColor(hep.aida.IFillStyle self, String newColor) {
  try {
    return self.setColor(newColor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFillStyle_setOpacity(hep.aida.IFillStyle self, double newOpacity) {
  try {
    return self.setOpacity(newOpacity);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IFillStyle_availablePatterns(hep.aida.IFillStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availablePatterns());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IFillStyle_pattern(hep.aida.IFillStyle self) {
  try {
    return self.pattern();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IFillStyle_setPattern(hep.aida.IFillStyle self, String pattern) {
  try {
    return self.setPattern(pattern);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IMarkerStyle_reset(hep.aida.IMarkerStyle self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IMarkerStyle_setParameter__SWIG_0(hep.aida.IMarkerStyle self, String paramName, String options) {
  try {
    return self.setParameter(paramName, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IMarkerStyle_setParameter__SWIG_1(hep.aida.IMarkerStyle self, String paramName) {
  try {
    return self.setParameter(paramName);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IMarkerStyle_parameterValue(hep.aida.IMarkerStyle self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IMarkerStyle_availableParameters(hep.aida.IMarkerStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IMarkerStyle_availableParameterOptions(hep.aida.IMarkerStyle self, String paramName) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(paramName));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IMarkerStyle_availableColors(hep.aida.IMarkerStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableColors());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IMarkerStyle_color(hep.aida.IMarkerStyle self) {
  try {
    return self.color();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IMarkerStyle_opacity(hep.aida.IMarkerStyle self) {
  try {
    return self.opacity();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IMarkerStyle_setColor(hep.aida.IMarkerStyle self, String newColor) {
  try {
    return self.setColor(newColor);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IMarkerStyle_setOpacity(hep.aida.IMarkerStyle self, double newOpacity) {
  try {
    return self.setOpacity(newOpacity);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IMarkerStyle_availableShapes(hep.aida.IMarkerStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableShapes());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IMarkerStyle_shape(hep.aida.IMarkerStyle self) {
  try {
    return self.shape();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IMarkerStyle_setShape(hep.aida.IMarkerStyle self, String shape) {
  try {
    return self.setShape(shape);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IDataStyle_reset(hep.aida.IDataStyle self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IDataStyle_setParameter__SWIG_0(hep.aida.IDataStyle self, String paramName, String options) {
  try {
    return self.setParameter(paramName, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IDataStyle_setParameter__SWIG_1(hep.aida.IDataStyle self, String paramName) {
  try {
    return self.setParameter(paramName);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IDataStyle_parameterValue(hep.aida.IDataStyle self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataStyle_availableParameters(hep.aida.IDataStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataStyle_availableParameterOptions(hep.aida.IDataStyle self, String paramName) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(paramName));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataStyle_lineStyle(hep.aida.IDataStyle self) {
  try {
    return ILineStyle.getCPtr((hep.aida.ILineStyle)self.lineStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataStyle_markerStyle(hep.aida.IDataStyle self) {
  try {
    return IMarkerStyle.getCPtr((hep.aida.IMarkerStyle)self.markerStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IDataStyle_fillStyle(hep.aida.IDataStyle self) {
  try {
    return IFillStyle.getCPtr((hep.aida.IFillStyle)self.fillStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IDataStyle_setLineStyle(hep.aida.IDataStyle self, long lineStyle) {
  try {
    return self.setLineStyle(new ILineStyle(lineStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IDataStyle_setMarkerStyle(hep.aida.IDataStyle self, long markerStyle) {
  try {
    return self.setMarkerStyle(new IMarkerStyle(markerStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IDataStyle_setFillStyle(hep.aida.IDataStyle self, long fillStyle) {
  try {
    return self.setFillStyle(new IFillStyle(fillStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IInfoStyle_reset(hep.aida.IInfoStyle self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IInfoStyle_setParameter__SWIG_0(hep.aida.IInfoStyle self, String paramName, String options) {
  try {
    return self.setParameter(paramName, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IInfoStyle_setParameter__SWIG_1(hep.aida.IInfoStyle self, String paramName) {
  try {
    return self.setParameter(paramName);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IInfoStyle_parameterValue(hep.aida.IInfoStyle self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IInfoStyle_availableParameters(hep.aida.IInfoStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IInfoStyle_availableParameterOptions(hep.aida.IInfoStyle self, String paramName) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(paramName));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IInfoStyle_textStyle(hep.aida.IInfoStyle self) {
  try {
    return ITextStyle.getCPtr((hep.aida.ITextStyle)self.textStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IInfoStyle_setTextStyle(hep.aida.IInfoStyle self, long textStyle) {
  try {
    return self.setTextStyle(new ITextStyle(textStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_ITitleStyle_reset(hep.aida.ITitleStyle self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITitleStyle_setParameter__SWIG_0(hep.aida.ITitleStyle self, String paramName, String options) {
  try {
    return self.setParameter(paramName, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITitleStyle_setParameter__SWIG_1(hep.aida.ITitleStyle self, String paramName) {
  try {
    return self.setParameter(paramName);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_ITitleStyle_parameterValue(hep.aida.ITitleStyle self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITitleStyle_availableParameters(hep.aida.ITitleStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITitleStyle_availableParameterOptions(hep.aida.ITitleStyle self, String paramName) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(paramName));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_ITitleStyle_textStyle(hep.aida.ITitleStyle self) {
  try {
    return ITextStyle.getCPtr((hep.aida.ITextStyle)self.textStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_ITitleStyle_setTextStyle(hep.aida.ITitleStyle self, long textStyle) {
  try {
    return self.setTextStyle(new ITextStyle(textStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterStyle_reset(hep.aida.IPlotterStyle self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IPlotterStyle_setParameter__SWIG_0(hep.aida.IPlotterStyle self, String paramName, String options) {
  try {
    return self.setParameter(paramName, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IPlotterStyle_setParameter__SWIG_1(hep.aida.IPlotterStyle self, String paramName) {
  try {
    return self.setParameter(paramName);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IPlotterStyle_parameterValue(hep.aida.IPlotterStyle self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterStyle_availableParameters(hep.aida.IPlotterStyle self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterStyle_availableParameterOptions(hep.aida.IPlotterStyle self, String paramName) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(paramName));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterStyle_dataStyle(hep.aida.IPlotterStyle self) {
  try {
    return IDataStyle.getCPtr((hep.aida.IDataStyle)self.dataStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterStyle_xAxisStyle(hep.aida.IPlotterStyle self) {
  try {
    return IAxisStyle.getCPtr((hep.aida.IAxisStyle)self.xAxisStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterStyle_yAxisStyle(hep.aida.IPlotterStyle self) {
  try {
    return IAxisStyle.getCPtr((hep.aida.IAxisStyle)self.yAxisStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterStyle_zAxisStyle(hep.aida.IPlotterStyle self) {
  try {
    return IAxisStyle.getCPtr((hep.aida.IAxisStyle)self.zAxisStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterStyle_titleStyle(hep.aida.IPlotterStyle self) {
  try {
    return ITitleStyle.getCPtr((hep.aida.ITitleStyle)self.titleStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterStyle_infoStyle(hep.aida.IPlotterStyle self) {
  try {
    return IInfoStyle.getCPtr((hep.aida.IInfoStyle)self.infoStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IPlotterStyle_setDataStyle(hep.aida.IPlotterStyle self, long dataStyle) {
  try {
    return self.setDataStyle(new IDataStyle(dataStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IPlotterStyle_setAxisStyleX(hep.aida.IPlotterStyle self, long xAxisStyle) {
  try {
    return self.setAxisStyleX(new IAxisStyle(xAxisStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IPlotterStyle_setAxisStyleY(hep.aida.IPlotterStyle self, long yAxisStyle) {
  try {
    return self.setAxisStyleY(new IAxisStyle(yAxisStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IPlotterStyle_setAxisStyleZ(hep.aida.IPlotterStyle self, long zAxisStyle) {
  try {
    return self.setAxisStyleZ(new IAxisStyle(zAxisStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IPlotterStyle_setTitleStyle(hep.aida.IPlotterStyle self, long textStyle) {
  try {
    return self.setTitleStyle(new ITitleStyle(textStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IPlotterStyle_setInfoStyle(hep.aida.IPlotterStyle self, long infoStyle) {
  try {
    return self.setInfoStyle(new IInfoStyle(infoStyle, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IInfo_clear(hep.aida.IInfo self) {
  try {
    self.clear();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IInfo_addText(hep.aida.IInfo self, String text) {
  try {
    self.addText(text);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IInfo_addLegend__SWIG_0(hep.aida.IInfo self, long style, String description) {
  try {
    self.addLegend(new IMarkerStyle(style, false), description);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IInfo_addLegend__SWIG_1(hep.aida.IInfo self, long style, String description) {
  try {
    self.addLegend(new ILineStyle(style, false), description);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IInfo_addLegend__SWIG_2(hep.aida.IInfo self, long style, String description) {
  try {
    self.addLegend(new IFillStyle(style, false), description);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterLayout_reset(hep.aida.IPlotterLayout self) {
  try {
    self.reset();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static boolean SwigDirector_IPlotterLayout_setParameter(hep.aida.IPlotterLayout self, String paramName, double paramValue) {
  try {
    return self.setParameter(paramName, paramValue);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static double SwigDirector_IPlotterLayout_parameterValue(hep.aida.IPlotterLayout self, String paramName) {
  try {
    return self.parameterValue(paramName);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterLayout_availableParameters(hep.aida.IPlotterLayout self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_plot__SWIG_0(hep.aida.IPlotterRegion self, long histogram, String options) {
  try {
    self.plot(new IBaseHistogram(histogram, false), options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_plot__SWIG_1(hep.aida.IPlotterRegion self, long histogram) {
  try {
    self.plot(new IBaseHistogram(histogram, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_plot__SWIG_2(hep.aida.IPlotterRegion self, long histogram, long style, String options) {
  try {
    self.plot(new IBaseHistogram(histogram, false), new IPlotterStyle(style, false), options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_plot__SWIG_3(hep.aida.IPlotterRegion self, long histogram, long style) {
  try {
    self.plot(new IBaseHistogram(histogram, false), new IPlotterStyle(style, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_plot__SWIG_4(hep.aida.IPlotterRegion self, long function, String options) {
  try {
    self.plot(new IFunction(function, false), options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_plot__SWIG_5(hep.aida.IPlotterRegion self, long function) {
  try {
    self.plot(new IFunction(function, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_plot__SWIG_6(hep.aida.IPlotterRegion self, long function, long style, String options) {
  try {
    self.plot(new IFunction(function, false), new IPlotterStyle(style, false), options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_plot__SWIG_7(hep.aida.IPlotterRegion self, long function, long style) {
  try {
    self.plot(new IFunction(function, false), new IPlotterStyle(style, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_plot__SWIG_8(hep.aida.IPlotterRegion self, long dataPointSet, String options) {
  try {
    self.plot(new IDataPointSet(dataPointSet, false), options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_plot__SWIG_9(hep.aida.IPlotterRegion self, long dataPointSet) {
  try {
    self.plot(new IDataPointSet(dataPointSet, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_plot__SWIG_10(hep.aida.IPlotterRegion self, long dataPointSet, long style, String options) {
  try {
    self.plot(new IDataPointSet(dataPointSet, false), new IPlotterStyle(style, false), options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_plot__SWIG_11(hep.aida.IPlotterRegion self, long dataPointSet, long style) {
  try {
    self.plot(new IDataPointSet(dataPointSet, false), new IPlotterStyle(style, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_remove__SWIG_0(hep.aida.IPlotterRegion self, long histogram) {
  try {
    self.remove(new IBaseHistogram(histogram, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_remove__SWIG_1(hep.aida.IPlotterRegion self, long function) {
  try {
    self.remove(new IFunction(function, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_remove__SWIG_2(hep.aida.IPlotterRegion self, long dataPointSet) {
  try {
    self.remove(new IDataPointSet(dataPointSet, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_clear(hep.aida.IPlotterRegion self) {
  try {
    self.clear();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setParameter__SWIG_0(hep.aida.IPlotterRegion self, String parameter, String options) {
  try {
    self.setParameter(parameter, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setParameter__SWIG_1(hep.aida.IPlotterRegion self, String parameter) {
  try {
    self.setParameter(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IPlotterRegion_parameterValue(hep.aida.IPlotterRegion self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterRegion_availableParameterOptions(hep.aida.IPlotterRegion self, String parameter) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(parameter));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterRegion_availableParameters(hep.aida.IPlotterRegion self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterRegion_style(hep.aida.IPlotterRegion self) {
  try {
    return IPlotterStyle.getCPtr((hep.aida.IPlotterStyle)self.style());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setStyle(hep.aida.IPlotterRegion self, long style) {
  try {
    self.setStyle(new IPlotterStyle(style, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_applyStyle(hep.aida.IPlotterRegion self, long style) {
  try {
    self.applyStyle(new IPlotterStyle(style, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setTitle(hep.aida.IPlotterRegion self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setXLimits__SWIG_0(hep.aida.IPlotterRegion self, double min, double max) {
  try {
    self.setXLimits(min, max);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setXLimits__SWIG_1(hep.aida.IPlotterRegion self, double min) {
  try {
    self.setXLimits(min);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setXLimits__SWIG_2(hep.aida.IPlotterRegion self) {
  try {
    self.setXLimits();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setYLimits__SWIG_0(hep.aida.IPlotterRegion self, double min, double max) {
  try {
    self.setYLimits(min, max);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setYLimits__SWIG_1(hep.aida.IPlotterRegion self, double min) {
  try {
    self.setYLimits(min);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setYLimits__SWIG_2(hep.aida.IPlotterRegion self) {
  try {
    self.setYLimits();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setZLimits__SWIG_0(hep.aida.IPlotterRegion self, double min, double max) {
  try {
    self.setZLimits(min, max);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setZLimits__SWIG_1(hep.aida.IPlotterRegion self, double min) {
  try {
    self.setZLimits(min);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setZLimits__SWIG_2(hep.aida.IPlotterRegion self) {
  try {
    self.setZLimits();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterRegion_layout(hep.aida.IPlotterRegion self) {
  try {
    return IPlotterLayout.getCPtr((hep.aida.IPlotterLayout)self.layout());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotterRegion_setLayout(hep.aida.IPlotterRegion self, long layout) {
  try {
    self.setLayout(new IPlotterLayout(layout, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterRegion_info(hep.aida.IPlotterRegion self) {
  try {
    return IInfo.getCPtr((hep.aida.IInfo)self.info());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotter_createRegion__SWIG_0(hep.aida.IPlotter self, double x, double y, double w, double h) {
  try {
    return IPlotterRegion.getCPtr((hep.aida.IPlotterRegion)self.createRegion(x, y, w, h));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotter_createRegion__SWIG_1(hep.aida.IPlotter self, double x, double y, double w) {
  try {
    return IPlotterRegion.getCPtr((hep.aida.IPlotterRegion)self.createRegion(x, y, w));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotter_createRegion__SWIG_2(hep.aida.IPlotter self, double x, double y) {
  try {
    return IPlotterRegion.getCPtr((hep.aida.IPlotterRegion)self.createRegion(x, y));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotter_createRegion__SWIG_3(hep.aida.IPlotter self, double x) {
  try {
    return IPlotterRegion.getCPtr((hep.aida.IPlotterRegion)self.createRegion(x));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotter_createRegion__SWIG_4(hep.aida.IPlotter self) {
  try {
    return IPlotterRegion.getCPtr((hep.aida.IPlotterRegion)self.createRegion());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_createRegions__SWIG_0(hep.aida.IPlotter self, int columns, int rows, int index) {
  try {
    self.createRegions(columns, rows, index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_createRegions__SWIG_1(hep.aida.IPlotter self, int columns, int rows) {
  try {
    self.createRegions(columns, rows);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_createRegions__SWIG_2(hep.aida.IPlotter self, int columns) {
  try {
    self.createRegions(columns);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_createRegions__SWIG_3(hep.aida.IPlotter self) {
  try {
    self.createRegions();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotter_currentRegion(hep.aida.IPlotter self) {
  try {
    return IPlotterRegion.getCPtr((hep.aida.IPlotterRegion)self.currentRegion());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IPlotter_currentRegionNumber(hep.aida.IPlotter self) {
  try {
    return self.currentRegionNumber();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static int SwigDirector_IPlotter_numberOfRegions(hep.aida.IPlotter self) {
  try {
    return self.numberOfRegions();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_setCurrentRegionNumber(hep.aida.IPlotter self, int index) {
  try {
    self.setCurrentRegionNumber(index);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotter_next(hep.aida.IPlotter self) {
  try {
    return IPlotterRegion.getCPtr((hep.aida.IPlotterRegion)self.next());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotter_region(hep.aida.IPlotter self, int index) {
  try {
    return IPlotterRegion.getCPtr((hep.aida.IPlotterRegion)self.region(index));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_destroyRegions(hep.aida.IPlotter self) {
  try {
    self.destroyRegions();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_clearRegions(hep.aida.IPlotter self) {
  try {
    self.clearRegions();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_setParameter__SWIG_0(hep.aida.IPlotter self, String parameter, String options) {
  try {
    self.setParameter(parameter, options);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_setParameter__SWIG_1(hep.aida.IPlotter self, String parameter) {
  try {
    self.setParameter(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static String SwigDirector_IPlotter_parameterValue(hep.aida.IPlotter self, String parameter) {
  try {
    return self.parameterValue(parameter);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotter_availableParameterOptions(hep.aida.IPlotter self, String parameter) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameterOptions(parameter));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotter_availableParameters(hep.aida.IPlotter self) {
  try {
    return AIDAJNIUtil.toPtr(self.availableParameters());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_show(hep.aida.IPlotter self) {
  try {
    self.show();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_refresh(hep.aida.IPlotter self) {
  try {
    self.refresh();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_hide(hep.aida.IPlotter self) {
  try {
    self.hide();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_interact(hep.aida.IPlotter self) {
  try {
    self.interact();
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_writeToFile__SWIG_0(hep.aida.IPlotter self, String filename, String type) {
  try {
    self.writeToFile(filename, type);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_writeToFile__SWIG_1(hep.aida.IPlotter self, String filename) {
  try {
    self.writeToFile(filename);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_setTitle(hep.aida.IPlotter self, String title) {
  try {
    self.setTitle(title);
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotter_titleStyle(hep.aida.IPlotter self) {
  try {
    return ITitleStyle.getCPtr((hep.aida.ITitleStyle)self.titleStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static void SwigDirector_IPlotter_setTitleStyle(hep.aida.IPlotter self, long style) {
  try {
    self.setTitleStyle(new ITitleStyle(style, false));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterFactory_create__SWIG_0(hep.aida.IPlotterFactory self, String name) {
  try {
    return IPlotter.getCPtr((hep.aida.IPlotter)self.create(name));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterFactory_create__SWIG_1(hep.aida.IPlotterFactory self) {
  try {
    return IPlotter.getCPtr((hep.aida.IPlotter)self.create());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterFactory_createMarkerStyle(hep.aida.IPlotterFactory self) {
  try {
    return IMarkerStyle.getCPtr((hep.aida.IMarkerStyle)self.createMarkerStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterFactory_createTextStyle(hep.aida.IPlotterFactory self) {
  try {
    return ITextStyle.getCPtr((hep.aida.ITextStyle)self.createTextStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterFactory_createLineStyle(hep.aida.IPlotterFactory self) {
  try {
    return ILineStyle.getCPtr((hep.aida.ILineStyle)self.createLineStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterFactory_createFillStyle(hep.aida.IPlotterFactory self) {
  try {
    return IFillStyle.getCPtr((hep.aida.IFillStyle)self.createFillStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterFactory_createDataStyle(hep.aida.IPlotterFactory self) {
  try {
    return IDataStyle.getCPtr((hep.aida.IDataStyle)self.createDataStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterFactory_createAxisStyle(hep.aida.IPlotterFactory self) {
  try {
    return IAxisStyle.getCPtr((hep.aida.IAxisStyle)self.createAxisStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterFactory_createTitleStyle(hep.aida.IPlotterFactory self) {
  try {
    return ITitleStyle.getCPtr((hep.aida.ITitleStyle)self.createTitleStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IPlotterFactory_createPlotterStyle(hep.aida.IPlotterFactory self) {
  try {
    return IPlotterStyle.getCPtr((hep.aida.IPlotterStyle)self.createPlotterStyle());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IAnalysisFactory_createTreeFactory(hep.aida.IAnalysisFactory self) {
  try {
    return ITreeFactory.getCPtr((hep.aida.ITreeFactory)self.createTreeFactory());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IAnalysisFactory_createHistogramFactory(hep.aida.IAnalysisFactory self, long tree) {
  try {
    return IHistogramFactory.getCPtr((hep.aida.IHistogramFactory)self.createHistogramFactory(new ITree(tree, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IAnalysisFactory_createDataPointSetFactory(hep.aida.IAnalysisFactory self, long tree) {
  try {
    return IDataPointSetFactory.getCPtr((hep.aida.IDataPointSetFactory)self.createDataPointSetFactory(new ITree(tree, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IAnalysisFactory_createTupleFactory(hep.aida.IAnalysisFactory self, long tree) {
  try {
    return ITupleFactory.getCPtr((hep.aida.ITupleFactory)self.createTupleFactory(new ITree(tree, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IAnalysisFactory_createFunctionFactory(hep.aida.IAnalysisFactory self, long tree) {
  try {
    return IFunctionFactory.getCPtr((hep.aida.IFunctionFactory)self.createFunctionFactory(new ITree(tree, false)));
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }
  public static long SwigDirector_IAnalysisFactory_createFitFactory(hep.aida.IAnalysisFactory self) {
  try {
    return IFitFactory.getCPtr((hep.aida.IFitFactory)self.createFitFactory());
  } catch (Exception e) {
    System.err.println("Unhandled exception (rethrown) "+e);
    throw new RuntimeException("Unhandled exception ", e);
  }
  }

  private final static native void swig_module_init();

  static {
    try {
       swig_module_init();
    } catch (UnsatisfiedLinkError e) {
       System.err.println("swig_module_init() from java ignored, will be initialized from C++");
    }
  }

}