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Also allows display of primal-grid sphere. The variables that have time dim are available to ParaView. Assume all variables are of interest if they have dims (Time, nCells|nVertices, nVertLevels, [nTracers]). Does not deal with edge data. When using this reader, it is important that you remember to do the following: 1. When changing a selected variable, remember to select it also in the drop down box to "color by". It doesn't color by that variable automatically. 2. When selecting multilayer sphere view, make layer thickness around 100,000. 3. When selecting multilayer lat/lon view, make layer thickness around 10. 4. Always click the -Z orientation after making a switch from lat/lon to sphere, from single to multilayer or changing thickness. 5. Be conservative on the number of changes you make before hitting Apply, since there may be bugs in this reader. Just make one change and then hit Apply. Christine Ahrens (cahrens@lanl.gov) Version 1.3 IsTypeOfV.IsTypeOf(string) -> int C++: static vtkTypeBool IsTypeOf(const char *type) Return 1 if this class type is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h. IsAV.IsA(string) -> int C++: vtkTypeBool IsA(const char *type) override; Return 1 if this class is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h. SafeDownCastV.SafeDownCast(vtkObjectBase) -> vtkMPASReader C++: static vtkMPASReader *SafeDownCast(vtkObjectBase *o) NewInstanceV.NewInstance() -> vtkMPASReader C++: vtkMPASReader *NewInstance() SetFileNameV.SetFileName(string) C++: virtual void SetFileName(const char *_arg) Specify file name of MPAS data file to read. GetFileNameV.GetFileName() -> string C++: virtual char *GetFileName() Specify file name of MPAS data file to read. GetMaximumCellsV.GetMaximumCells() -> int C++: virtual int GetMaximumCells() Get the number of data cells GetMaximumPointsV.GetMaximumPoints() -> int C++: virtual int GetMaximumPoints() Get the number of points GetNumberOfCellVarsV.GetNumberOfCellVars() -> int C++: virtual int GetNumberOfCellVars() Get the number of data variables at the cell centers and points GetNumberOfPointVarsV.GetNumberOfPointVars() -> int C++: virtual int GetNumberOfPointVars() Get the number of data variables at the cell centers and points GetOutputV.GetOutput() -> vtkUnstructuredGrid C++: vtkUnstructuredGrid *GetOutput() V.GetOutput(int) -> vtkUnstructuredGrid C++: vtkUnstructuredGrid *GetOutput(int index) Get the reader's output SetUseDimensionedArrayNamesV.SetUseDimensionedArrayNames(bool) C++: virtual void SetUseDimensionedArrayNames(bool _arg) If true, dimension info is included in the array name. For instance, "tracers" will become "tracers(Time, nCells, nVertLevels, nTracers)". This is useful for user-visible array selection, but is disabled by default for backwards compatibility. GetUseDimensionedArrayNamesV.GetUseDimensionedArrayNames() -> bool C++: virtual bool GetUseDimensionedArrayNames() If true, dimension info is included in the array name. For instance, "tracers" will become "tracers(Time, nCells, nVertLevels, nTracers)". This is useful for user-visible array selection, but is disabled by default for backwards compatibility. UseDimensionedArrayNamesOnV.UseDimensionedArrayNamesOn() C++: virtual void UseDimensionedArrayNamesOn() If true, dimension info is included in the array name. For instance, "tracers" will become "tracers(Time, nCells, nVertLevels, nTracers)". This is useful for user-visible array selection, but is disabled by default for backwards compatibility. UseDimensionedArrayNamesOffV.UseDimensionedArrayNamesOff() C++: virtual void UseDimensionedArrayNamesOff() If true, dimension info is included in the array name. For instance, "tracers" will become "tracers(Time, nCells, nVertLevels, nTracers)". This is useful for user-visible array selection, but is disabled by default for backwards compatibility. GetNumberOfPointArraysV.GetNumberOfPointArrays() -> int C++: int GetNumberOfPointArrays() The following methods allow selective reading of solutions fields. By default, ALL data fields on the nodes are read, but this can be modified. GetPointArrayNameV.GetPointArrayName(int) -> string C++: const char *GetPointArrayName(int index) The following methods allow selective reading of solutions fields. By default, ALL data fields on the nodes are read, but this can be modified. GetPointArrayStatusV.GetPointArrayStatus(string) -> int C++: int GetPointArrayStatus(const char *name) The following methods allow selective reading of solutions fields. By default, ALL data fields on the nodes are read, but this can be modified. SetPointArrayStatusV.SetPointArrayStatus(string, int) C++: void SetPointArrayStatus(const char *name, int status) The following methods allow selective reading of solutions fields. By default, ALL data fields on the nodes are read, but this can be modified. DisableAllPointArraysV.DisableAllPointArrays() C++: void DisableAllPointArrays() The following methods allow selective reading of solutions fields. By default, ALL data fields on the nodes are read, but this can be modified. EnableAllPointArraysV.EnableAllPointArrays() C++: void EnableAllPointArrays() The following methods allow selective reading of solutions fields. By default, ALL data fields on the nodes are read, but this can be modified. GetNumberOfCellArraysV.GetNumberOfCellArrays() -> int C++: int GetNumberOfCellArrays() GetCellArrayNameV.GetCellArrayName(int) -> string C++: const char *GetCellArrayName(int index) GetCellArrayStatusV.GetCellArrayStatus(string) -> int C++: int GetCellArrayStatus(const char *name) SetCellArrayStatusV.SetCellArrayStatus(string, int) C++: void SetCellArrayStatus(const char *name, int status) DisableAllCellArraysV.DisableAllCellArrays() C++: void DisableAllCellArrays() EnableAllCellArraysV.EnableAllCellArrays() C++: void EnableAllCellArrays() GetNumberOfDimensionsV.GetNumberOfDimensions() -> int C++: int GetNumberOfDimensions() If the point/cell arrays contain dimensions other than Time, nCells, or nVertices, they are configured here. Use GetNumberOfDimensions to get the number of arbitrary dimensions in the loaded arrays and GetDimensionName to retrieve the dimension names. GetDimensionSize returns the number of values in the dimensions, and Set/GetDimensionCurrentIndex controls the value to fix a given dimension at when extracting slices of data. GetDimensionNameV.GetDimensionName(int) -> string C++: std::string GetDimensionName(int idx) If the point/cell arrays contain dimensions other than Time, nCells, or nVertices, they are configured here. Use GetNumberOfDimensions to get the number of arbitrary dimensions in the loaded arrays and GetDimensionName to retrieve the dimension names. GetDimensionSize returns the number of values in the dimensions, and Set/GetDimensionCurrentIndex controls the value to fix a given dimension at when extracting slices of data. GetAllDimensionsV.GetAllDimensions() -> vtkStringArray C++: vtkStringArray *GetAllDimensions() If the point/cell arrays contain dimensions other than Time, nCells, or nVertices, they are configured here. Use GetNumberOfDimensions to get the number of arbitrary dimensions in the loaded arrays and GetDimensionName to retrieve the dimension names. GetDimensionSize returns the number of values in the dimensions, and Set/GetDimensionCurrentIndex controls the value to fix a given dimension at when extracting slices of data. GetDimensionCurrentIndexV.GetDimensionCurrentIndex(string) -> int C++: int GetDimensionCurrentIndex(const std::string &dim) If the point/cell arrays contain dimensions other than Time, nCells, or nVertices, they are configured here. Use GetNumberOfDimensions to get the number of arbitrary dimensions in the loaded arrays and GetDimensionName to retrieve the dimension names. GetDimensionSize returns the number of values in the dimensions, and Set/GetDimensionCurrentIndex controls the value to fix a given dimension at when extracting slices of data. SetDimensionCurrentIndexV.SetDimensionCurrentIndex(string, int) C++: void SetDimensionCurrentIndex(const std::string &dim, int idx) If the point/cell arrays contain dimensions other than Time, nCells, or nVertices, they are configured here. Use GetNumberOfDimensions to get the number of arbitrary dimensions in the loaded arrays and GetDimensionName to retrieve the dimension names. GetDimensionSize returns the number of values in the dimensions, and Set/GetDimensionCurrentIndex controls the value to fix a given dimension at when extracting slices of data. GetDimensionSizeV.GetDimensionSize(string) -> int C++: int GetDimensionSize(const std::string &dim) If the point/cell arrays contain dimensions other than Time, nCells, or nVertices, they are configured here. Use GetNumberOfDimensions to get the number of arbitrary dimensions in the loaded arrays and GetDimensionName to retrieve the dimension names. GetDimensionSize returns the number of values in the dimensions, and Set/GetDimensionCurrentIndex controls the value to fix a given dimension at when extracting slices of data. SetVerticalDimensionV.SetVerticalDimension(string) C++: virtual void SetVerticalDimension(std::string _arg) Get/Set the name to the dimension that identifies the vertical dimension. Defaults to "nVertLevels". GetVerticalDimensionV.GetVerticalDimension() -> string C++: virtual std::string GetVerticalDimension() Get/Set the name to the dimension that identifies the vertical dimension. Defaults to "nVertLevels". SetVerticalLevelV.SetVerticalLevel(int) C++: void SetVerticalLevel(int level) Convenience functon for setting/querying [GS]etDimensionCurrentIndex for the dimension returned by GetVerticalDimension. GetVerticalLevelV.GetVerticalLevel() -> int C++: int GetVerticalLevel() Convenience functon for setting/querying [GS]etDimensionCurrentIndex for the dimension returned by GetVerticalDimension. GetVerticalLevelRangeV.GetVerticalLevelRange() -> (int, int) C++: int *GetVerticalLevelRange() SetLayerThicknessV.SetLayerThickness(int) C++: virtual void SetLayerThickness(int _arg) GetLayerThicknessV.GetLayerThickness() -> int C++: virtual int GetLayerThickness() GetLayerThicknessRangeV.GetLayerThicknessRange() -> (int, int) C++: int *GetLayerThicknessRange() SetCenterLonV.SetCenterLon(int) C++: void SetCenterLon(int val) GetCenterLonRangeV.GetCenterLonRange() -> (int, int) C++: int *GetCenterLonRange() SetProjectLatLonV.SetProjectLatLon(bool) C++: virtual void SetProjectLatLon(bool _arg) GetProjectLatLonV.GetProjectLatLon() -> bool C++: virtual bool GetProjectLatLon() SetIsAtmosphereV.SetIsAtmosphere(bool) C++: virtual void SetIsAtmosphere(bool _arg) GetIsAtmosphereV.GetIsAtmosphere() -> bool C++: virtual bool GetIsAtmosphere() SetIsZeroCenteredV.SetIsZeroCentered(bool) C++: virtual void SetIsZeroCentered(bool _arg) GetIsZeroCenteredV.GetIsZeroCentered() -> bool C++: virtual bool GetIsZeroCentered() SetShowMultilayerViewV.SetShowMultilayerView(bool) C++: virtual void SetShowMultilayerView(bool _arg) GetShowMultilayerViewV.GetShowMultilayerView() -> bool C++: virtual bool GetShowMultilayerView() CanReadFileV.CanReadFile(string) -> int C++: static int CanReadFile(const char *filename) Returns true if the given file can be read. GetMTimeV.GetMTime() -> int C++: vtkMTimeType GetMTime() override; Return this object's modified time. vtkUnstructuredGridAlgorithmvtkAlgorithmvtkObjectvtkObjectBase(i)vtkNetCDFCAMReaderVerticalDimensionVERTICAL_DIMENSION_SINGLE_LAYERVERTICAL_DIMENSION_MIDPOINT_LAYERSVERTICAL_DIMENSION_INTERFACE_LAYERSVERTICAL_DIMENSION_COUNTvtkIONetCDFPython.vtkNetCDFCAMReader.VerticalDimensionvtkIONetCDFPython.vtkNetCDFCAMReadervtkNetCDFCAMReader - Read unstructured NetCDF CAM files. Superclass: vtkUnstructuredGridAlgorithm Reads in a NetCDF CAM (Community Atmospheric Model) file and produces and unstructured grid. The grid is actually unstructured in the X and Y directions and rectilinear in the Z direction. If we read one layer we produce quad cells otherwise we produce hex cells. The reader requires 2 NetCDF files: the main file has all attributes, the connectivity file has point positions and cell connectivity information. V.SafeDownCast(vtkObjectBase) -> vtkNetCDFCAMReader C++: static vtkNetCDFCAMReader *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkNetCDFCAMReader C++: vtkNetCDFCAMReader *NewInstance() V.CanReadFile(string) -> int C++: static int CanReadFile(const char *fileName) Returns 1 if this file can be read and 0 if the file cannot be read. Because NetCDF CAM files come in pairs and we only check one of the files, the result is not definitive. Invalid files may still return 1 although a valid file will never return 0. V.SetFileName(string) C++: void SetFileName(const char *fileName) V.GetFileName() -> string C++: virtual char *GetFileName() SetConnectivityFileNameV.SetConnectivityFileName(string) C++: void SetConnectivityFileName(const char *fileName) GetConnectivityFileNameV.GetConnectivityFileName() -> string C++: virtual char *GetConnectivityFileName() V.SetVerticalDimension(int) C++: virtual void SetVerticalDimension(int _arg) Set whether to read a single layer, midpoint layers or interface layers. VERTICAL_DIMENSION_SINGLE_LAYER (0) indicates that only a single layer will be read in. The NetCDF variables loaded will be the ones with dimensions (time, ncol). VERTICAL_DIMENSION_MIDPOINT_LAYERS (1) indicates that variables defined on midpoint layers will be read in. These are variables with dimensions (time, lev, ncol). VERTICAL_DIMENSION_INTERFACE_LAYERS (2) indicates that variables defined on interface layers will be read in. These are variables with dimensions (time, ilev, ncol). GetVerticalDimensionMinValueV.GetVerticalDimensionMinValue() -> int C++: virtual int GetVerticalDimensionMinValue() Set whether to read a single layer, midpoint layers or interface layers. VERTICAL_DIMENSION_SINGLE_LAYER (0) indicates that only a single layer will be read in. The NetCDF variables loaded will be the ones with dimensions (time, ncol). VERTICAL_DIMENSION_MIDPOINT_LAYERS (1) indicates that variables defined on midpoint layers will be read in. These are variables with dimensions (time, lev, ncol). VERTICAL_DIMENSION_INTERFACE_LAYERS (2) indicates that variables defined on interface layers will be read in. These are variables with dimensions (time, ilev, ncol). GetVerticalDimensionMaxValueV.GetVerticalDimensionMaxValue() -> int C++: virtual int GetVerticalDimensionMaxValue() Set whether to read a single layer, midpoint layers or interface layers. VERTICAL_DIMENSION_SINGLE_LAYER (0) indicates that only a single layer will be read in. The NetCDF variables loaded will be the ones with dimensions (time, ncol). VERTICAL_DIMENSION_MIDPOINT_LAYERS (1) indicates that variables defined on midpoint layers will be read in. These are variables with dimensions (time, lev, ncol). VERTICAL_DIMENSION_INTERFACE_LAYERS (2) indicates that variables defined on interface layers will be read in. These are variables with dimensions (time, ilev, ncol). V.GetVerticalDimension() -> int C++: virtual int GetVerticalDimension() Set whether to read a single layer, midpoint layers or interface layers. VERTICAL_DIMENSION_SINGLE_LAYER (0) indicates that only a single layer will be read in. The NetCDF variables loaded will be the ones with dimensions (time, ncol). VERTICAL_DIMENSION_MIDPOINT_LAYERS (1) indicates that variables defined on midpoint layers will be read in. These are variables with dimensions (time, lev, ncol). VERTICAL_DIMENSION_INTERFACE_LAYERS (2) indicates that variables defined on interface layers will be read in. These are variables with dimensions (time, ilev, ncol). SingleMidpointLayerOnV.SingleMidpointLayerOn() C++: virtual void SingleMidpointLayerOn() If SingleXXXLayer is 1, we'll load only the layer specified by XXXLayerIndex. Otherwise, we load all layers. We do that for midpoint layer variables ( which have dimension 'lev') or for interface layer variables (which have dimension 'ilev'). SingleMidpointLayerOffV.SingleMidpointLayerOff() C++: virtual void SingleMidpointLayerOff() If SingleXXXLayer is 1, we'll load only the layer specified by XXXLayerIndex. Otherwise, we load all layers. We do that for midpoint layer variables ( which have dimension 'lev') or for interface layer variables (which have dimension 'ilev'). SetSingleMidpointLayerV.SetSingleMidpointLayer(int) C++: virtual void SetSingleMidpointLayer(int _arg) If SingleXXXLayer is 1, we'll load only the layer specified by XXXLayerIndex. Otherwise, we load all layers. We do that for midpoint layer variables ( which have dimension 'lev') or for interface layer variables (which have dimension 'ilev'). GetSingleMidpointLayerV.GetSingleMidpointLayer() -> int C++: virtual int GetSingleMidpointLayer() If SingleXXXLayer is 1, we'll load only the layer specified by XXXLayerIndex. Otherwise, we load all layers. We do that for midpoint layer variables ( which have dimension 'lev') or for interface layer variables (which have dimension 'ilev'). SetMidpointLayerIndexV.SetMidpointLayerIndex(int) C++: virtual void SetMidpointLayerIndex(int _arg) If SingleXXXLayer is 1, we'll load only the layer specified by XXXLayerIndex. Otherwise, we load all layers. We do that for midpoint layer variables ( which have dimension 'lev') or for interface layer variables (which have dimension 'ilev'). GetMidpointLayerIndexV.GetMidpointLayerIndex() -> int C++: virtual int GetMidpointLayerIndex() If SingleXXXLayer is 1, we'll load only the layer specified by XXXLayerIndex. Otherwise, we load all layers. We do that for midpoint layer variables ( which have dimension 'lev') or for interface layer variables (which have dimension 'ilev'). GetMidpointLayersRangeV.GetMidpointLayersRange() -> (int, int) C++: int *GetMidpointLayersRange() SingleInterfaceLayerOnV.SingleInterfaceLayerOn() C++: virtual void SingleInterfaceLayerOn() If SingleXXXLayer is 1, we'll load only the layer specified by XXXLayerIndex. Otherwise, we load all layers. We do that for midpoint layer variables ( which have dimension 'lev') or for interface layer variables (which have dimension 'ilev'). SingleInterfaceLayerOffV.SingleInterfaceLayerOff() C++: virtual void SingleInterfaceLayerOff() If SingleXXXLayer is 1, we'll load only the layer specified by XXXLayerIndex. Otherwise, we load all layers. We do that for midpoint layer variables ( which have dimension 'lev') or for interface layer variables (which have dimension 'ilev'). SetSingleInterfaceLayerV.SetSingleInterfaceLayer(int) C++: virtual void SetSingleInterfaceLayer(int _arg) If SingleXXXLayer is 1, we'll load only the layer specified by XXXLayerIndex. Otherwise, we load all layers. We do that for midpoint layer variables ( which have dimension 'lev') or for interface layer variables (which have dimension 'ilev'). GetSingleInterfaceLayerV.GetSingleInterfaceLayer() -> int C++: virtual int GetSingleInterfaceLayer() If SingleXXXLayer is 1, we'll load only the layer specified by XXXLayerIndex. Otherwise, we load all layers. We do that for midpoint layer variables ( which have dimension 'lev') or for interface layer variables (which have dimension 'ilev'). SetInterfaceLayerIndexV.SetInterfaceLayerIndex(int) C++: virtual void SetInterfaceLayerIndex(int _arg) If SingleXXXLayer is 1, we'll load only the layer specified by XXXLayerIndex. Otherwise, we load all layers. We do that for midpoint layer variables ( which have dimension 'lev') or for interface layer variables (which have dimension 'ilev'). GetInterfaceLayerIndexV.GetInterfaceLayerIndex() -> int C++: virtual int GetInterfaceLayerIndex() If SingleXXXLayer is 1, we'll load only the layer specified by XXXLayerIndex. Otherwise, we load all layers. We do that for midpoint layer variables ( which have dimension 'lev') or for interface layer variables (which have dimension 'ilev'). GetInterfaceLayersRangeV.GetInterfaceLayersRange() -> (int, int) C++: int *GetInterfaceLayersRange() V.GetNumberOfPointArrays() -> int C++: int GetNumberOfPointArrays() The following methods allow selective reading of variables. By default, ALL data variables on the nodes are read. V.GetPointArrayName(int) -> string C++: const char *GetPointArrayName(int index) The following methods allow selective reading of variables. By default, ALL data variables on the nodes are read. V.GetPointArrayStatus(string) -> int C++: int GetPointArrayStatus(const char *name) The following methods allow selective reading of variables. By default, ALL data variables on the nodes are read. V.SetPointArrayStatus(string, int) C++: void SetPointArrayStatus(const char *name, int status) The following methods allow selective reading of variables. By default, ALL data variables on the nodes are read. V.DisableAllPointArrays() C++: void DisableAllPointArrays() The following methods allow selective reading of variables. By default, ALL data variables on the nodes are read. V.EnableAllPointArrays() C++: void EnableAllPointArrays() The following methods allow selective reading of variables. By default, ALL data variables on the nodes are read. vtkNetCDFCFReadervtkIONetCDFPython.vtkNetCDFCFReadervtkNetCDFCFReader - Reads netCDF files that follow the CF convention. Superclass: vtkNetCDFReader Details on this convention can be found at . V.SafeDownCast(vtkObjectBase) -> vtkNetCDFCFReader C++: static vtkNetCDFCFReader *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkNetCDFCFReader C++: vtkNetCDFCFReader *NewInstance() GetSphericalCoordinatesV.GetSphericalCoordinates() -> int C++: virtual int GetSphericalCoordinates() If on (the default), then 3D data with latitude/longitude dimensions will be read in as curvilinear data shaped like spherical coordinates. If false, then the data will always be read in Cartesian coordinates. SetSphericalCoordinatesV.SetSphericalCoordinates(int) C++: virtual void SetSphericalCoordinates(int _arg) If on (the default), then 3D data with latitude/longitude dimensions will be read in as curvilinear data shaped like spherical coordinates. If false, then the data will always be read in Cartesian coordinates. SphericalCoordinatesOnV.SphericalCoordinatesOn() C++: virtual void SphericalCoordinatesOn() If on (the default), then 3D data with latitude/longitude dimensions will be read in as curvilinear data shaped like spherical coordinates. If false, then the data will always be read in Cartesian coordinates. SphericalCoordinatesOffV.SphericalCoordinatesOff() C++: virtual void SphericalCoordinatesOff() If on (the default), then 3D data with latitude/longitude dimensions will be read in as curvilinear data shaped like spherical coordinates. If false, then the data will always be read in Cartesian coordinates. GetVerticalScaleV.GetVerticalScale() -> float C++: virtual double GetVerticalScale() The scale and bias of the vertical component of spherical coordinates. It is common to write the vertical component with respect to something other than the center of the sphere (for example, the surface). In this case, it might be necessary to scale and/or bias the vertical height. The height will become height*scale + bias. Keep in mind that if the positive attribute of the vertical dimension is down, then the height is negated. By default the scale is 1 and the bias is 0 (that is, no change). The scaling will be adjusted if it results in invalid (negative) vertical values. SetVerticalScaleV.SetVerticalScale(float) C++: virtual void SetVerticalScale(double _arg) The scale and bias of the vertical component of spherical coordinates. It is common to write the vertical component with respect to something other than the center of the sphere (for example, the surface). In this case, it might be necessary to scale and/or bias the vertical height. The height will become height*scale + bias. Keep in mind that if the positive attribute of the vertical dimension is down, then the height is negated. By default the scale is 1 and the bias is 0 (that is, no change). The scaling will be adjusted if it results in invalid (negative) vertical values. GetVerticalBiasV.GetVerticalBias() -> float C++: virtual double GetVerticalBias() The scale and bias of the vertical component of spherical coordinates. It is common to write the vertical component with respect to something other than the center of the sphere (for example, the surface). In this case, it might be necessary to scale and/or bias the vertical height. The height will become height*scale + bias. Keep in mind that if the positive attribute of the vertical dimension is down, then the height is negated. By default the scale is 1 and the bias is 0 (that is, no change). The scaling will be adjusted if it results in invalid (negative) vertical values. SetVerticalBiasV.SetVerticalBias(float) C++: virtual void SetVerticalBias(double _arg) The scale and bias of the vertical component of spherical coordinates. It is common to write the vertical component with respect to something other than the center of the sphere (for example, the surface). In this case, it might be necessary to scale and/or bias the vertical height. The height will become height*scale + bias. Keep in mind that if the positive attribute of the vertical dimension is down, then the height is negated. By default the scale is 1 and the bias is 0 (that is, no change). The scaling will be adjusted if it results in invalid (negative) vertical values. GetOutputTypeV.GetOutputType() -> int C++: virtual int GetOutputType() Set/get the data type of the output. The index used is taken from the list of VTK data types in vtkType.h. Valid types are VTK_IMAGE_DATA, VTK_RECTILINEAR_GRID, VTK_STRUCTURED_GRID, and VTK_UNSTRUCTURED_GRID. In addition you can set the type to -1 (the default), and this reader will pick the data type best suited for the dimensions being read. SetOutputTypeV.SetOutputType(int) C++: virtual void SetOutputType(int type) Set/get the data type of the output. The index used is taken from the list of VTK data types in vtkType.h. Valid types are VTK_IMAGE_DATA, VTK_RECTILINEAR_GRID, VTK_STRUCTURED_GRID, and VTK_UNSTRUCTURED_GRID. In addition you can set the type to -1 (the default), and this reader will pick the data type best suited for the dimensions being read. SetOutputTypeToAutomaticV.SetOutputTypeToAutomatic() C++: void SetOutputTypeToAutomatic() Set/get the data type of the output. The index used is taken from the list of VTK data types in vtkType.h. Valid types are VTK_IMAGE_DATA, VTK_RECTILINEAR_GRID, VTK_STRUCTURED_GRID, and VTK_UNSTRUCTURED_GRID. In addition you can set the type to -1 (the default), and this reader will pick the data type best suited for the dimensions being read. SetOutputTypeToImageV.SetOutputTypeToImage() C++: void SetOutputTypeToImage() Set/get the data type of the output. The index used is taken from the list of VTK data types in vtkType.h. Valid types are VTK_IMAGE_DATA, VTK_RECTILINEAR_GRID, VTK_STRUCTURED_GRID, and VTK_UNSTRUCTURED_GRID. In addition you can set the type to -1 (the default), and this reader will pick the data type best suited for the dimensions being read. SetOutputTypeToRectilinearV.SetOutputTypeToRectilinear() C++: void SetOutputTypeToRectilinear() Set/get the data type of the output. The index used is taken from the list of VTK data types in vtkType.h. Valid types are VTK_IMAGE_DATA, VTK_RECTILINEAR_GRID, VTK_STRUCTURED_GRID, and VTK_UNSTRUCTURED_GRID. In addition you can set the type to -1 (the default), and this reader will pick the data type best suited for the dimensions being read. SetOutputTypeToStructuredV.SetOutputTypeToStructured() C++: void SetOutputTypeToStructured() Set/get the data type of the output. The index used is taken from the list of VTK data types in vtkType.h. Valid types are VTK_IMAGE_DATA, VTK_RECTILINEAR_GRID, VTK_STRUCTURED_GRID, and VTK_UNSTRUCTURED_GRID. In addition you can set the type to -1 (the default), and this reader will pick the data type best suited for the dimensions being read. SetOutputTypeToUnstructuredV.SetOutputTypeToUnstructured() C++: void SetOutputTypeToUnstructured() Set/get the data type of the output. The index used is taken from the list of VTK data types in vtkType.h. Valid types are VTK_IMAGE_DATA, VTK_RECTILINEAR_GRID, VTK_STRUCTURED_GRID, and VTK_UNSTRUCTURED_GRID. In addition you can set the type to -1 (the default), and this reader will pick the data type best suited for the dimensions being read. vtkNetCDFReadervtkDataObjectAlgorithmvtkNetCDFPOPReadervtkIONetCDFPython.vtkNetCDFPOPReadervtkNetCDFPOPReader - read NetCDF files .Author Joshua Wu 09.15.2009 Superclass: vtkRectilinearGridAlgorithm vtkNetCDFPOPReader is a source object that reads NetCDF files. It should be able to read most any NetCDF file that wants to output a rectilinear grid. The ordering of the variables is changed such that the NetCDF x, y, z directions correspond to the vtkRectilinearGrid z, y, x directions, respectively. The striding is done with respect to the vtkRectilinearGrid ordering. Additionally, the z coordinates of the vtkRectilinearGrid are negated so that the first slice/plane has the highest z-value and the last slice/plane has the lowest z-value. V.SafeDownCast(vtkObjectBase) -> vtkNetCDFPOPReader C++: static vtkNetCDFPOPReader *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkNetCDFPOPReader C++: vtkNetCDFPOPReader *NewInstance() V.SetFileName(string) C++: virtual void SetFileName(const char *_arg) The file to open V.GetFileName() -> string C++: virtual char *GetFileName() The file to open SetStrideV.SetStride(int, int, int) C++: void SetStride(int, int, int) V.SetStride((int, int, int)) C++: void SetStride(int a[3]) GetStrideV.GetStride() -> (int, int, int) C++: int *GetStride() GetNumberOfVariableArraysV.GetNumberOfVariableArrays() -> int C++: virtual int GetNumberOfVariableArrays() Variable array selection. GetVariableArrayNameV.GetVariableArrayName(int) -> string C++: virtual const char *GetVariableArrayName(int idx) Variable array selection. GetVariableArrayStatusV.GetVariableArrayStatus(string) -> int C++: virtual int GetVariableArrayStatus(const char *name) Variable array selection. SetVariableArrayStatusV.SetVariableArrayStatus(string, int) C++: virtual void SetVariableArrayStatus(const char *name, int status) Variable array selection. vtkRectilinearGridAlgorithmvtkIONetCDFPython.vtkNetCDFReadervtkNetCDFReader - A superclass for reading netCDF files. Superclass: vtkDataObjectAlgorithm Subclass add conventions to the reader. This class just outputs data into a multi block data set with a vtkImageData at each block. A block is created for each variable except that variables with matching dimensions will be placed in the same block. V.SafeDownCast(vtkObjectBase) -> vtkNetCDFReader C++: static vtkNetCDFReader *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkNetCDFReader C++: vtkNetCDFReader *NewInstance() V.SetFileName(string) C++: virtual void SetFileName(const char *filename) UpdateMetaDataV.UpdateMetaData() -> int C++: int UpdateMetaData() Update the meta data from the current file. Automatically called during the RequestInformation pipeline update stage. GetAllVariableArrayNamesV.GetAllVariableArrayNames() -> vtkStringArray C++: virtual vtkStringArray *GetAllVariableArrayNames() Convenience method to get a list of variable arrays. The length of the returned list is the same as GetNumberOfVariableArrays, and the string at each index i is the same as returned from GetVariableArrayname(i). GetVariableDimensionsV.GetVariableDimensions() -> vtkStringArray C++: virtual vtkStringArray *GetVariableDimensions() Returns an array with string encodings for the dimensions used in each of the variables. The indices in the returned array correspond to those used in the GetVariableArrayName method. Two arrays with the same dimensions will have the same encoded string returned by this method. SetDimensionsV.SetDimensions(string) C++: virtual void SetDimensions(const char *dimensions) Loads the grid with the given dimensions. The dimensions are encoded in a string that conforms to the same format as returned by GetVariableDimensions and GetAllDimensions. This method is really a convenience method for SetVariableArrayStatus. It turns on all variables that have the given dimensions and turns off all other variables. V.GetAllDimensions() -> vtkStringArray C++: virtual vtkStringArray *GetAllDimensions() Returns an array with string encodings for the dimension combinations used in the variables. The result is the same as GetVariableDimensions except that each entry in the array is unique (a set of dimensions is only given once even if it occurs for multiple variables) and the order is meaningless. GetReplaceFillValueWithNanV.GetReplaceFillValueWithNan() -> int C++: virtual int GetReplaceFillValueWithNan() If on, any float or double variable read that has a _FillValue attribute will have that fill value replaced with a not-a-number (NaN) value. The advantage of setting these to NaN values is that, if implemented properly by the system and careful math operations are used, they can implicitly be ignored by calculations like finding the range of the values. That said, this option should be used with caution as VTK does not fully support NaN values and therefore odd calculations may occur. By default this is off. SetReplaceFillValueWithNanV.SetReplaceFillValueWithNan(int) C++: virtual void SetReplaceFillValueWithNan(int _arg) If on, any float or double variable read that has a _FillValue attribute will have that fill value replaced with a not-a-number (NaN) value. The advantage of setting these to NaN values is that, if implemented properly by the system and careful math operations are used, they can implicitly be ignored by calculations like finding the range of the values. That said, this option should be used with caution as VTK does not fully support NaN values and therefore odd calculations may occur. By default this is off. ReplaceFillValueWithNanOnV.ReplaceFillValueWithNanOn() C++: virtual void ReplaceFillValueWithNanOn() If on, any float or double variable read that has a _FillValue attribute will have that fill value replaced with a not-a-number (NaN) value. The advantage of setting these to NaN values is that, if implemented properly by the system and careful math operations are used, they can implicitly be ignored by calculations like finding the range of the values. That said, this option should be used with caution as VTK does not fully support NaN values and therefore odd calculations may occur. By default this is off. ReplaceFillValueWithNanOffV.ReplaceFillValueWithNanOff() C++: virtual void ReplaceFillValueWithNanOff() If on, any float or double variable read that has a _FillValue attribute will have that fill value replaced with a not-a-number (NaN) value. The advantage of setting these to NaN values is that, if implemented properly by the system and careful math operations are used, they can implicitly be ignored by calculations like finding the range of the values. That said, this option should be used with caution as VTK does not fully support NaN values and therefore odd calculations may occur. By default this is off. GetTimeUnitsV.GetTimeUnits() -> string C++: virtual char *GetTimeUnits() Access to the time dimensions units. Can be used by the udunits library to convert raw numerical time values into meaningful representations. GetCalendarV.GetCalendar() -> string C++: virtual char *GetCalendar() Access to the time dimensions units. Can be used by the udunits library to convert raw numerical time values into meaningful representations. QueryArrayUnitsV.QueryArrayUnits(string) -> string C++: std::string QueryArrayUnits(const char *ArrayName) Get units attached to a particular array in the netcdf file. vtkSLACParticleReadervtkIONetCDFPython.vtkSLACParticleReadervtkSLACParticleReader - A reader for a data format used by Omega3p, Tau3p, and several other tools used at the Standford Linear Accelerator Center (SLAC). Superclass: vtkPolyDataAlgorithm The underlying format uses netCDF to store arrays, but also imposes some conventions to store a list of particles in 3D space. This reader supports pieces, but in actuality only loads anything in piece 0. All other pieces are empty. V.SafeDownCast(vtkObjectBase) -> vtkSLACParticleReader C++: static vtkSLACParticleReader *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkSLACParticleReader C++: vtkSLACParticleReader *NewInstance() V.SetFileName(string) C++: virtual void SetFileName(const char *_arg) V.CanReadFile(string) -> int C++: static int CanReadFile(const char *filename) Returns true if the given file can be read by this reader. vtkPolyDataAlgorithmvtkSLACReaderSURFACE_OUTPUTVOLUME_OUTPUTNUM_OUTPUTSvtkIONetCDFPython.vtkSLACReadervtkSLACReader - A reader for a data format used by Omega3p, Tau3p, and several other tools used at the Standford Linear Accelerator Center (SLAC). Superclass: vtkMultiBlockDataSetAlgorithm The underlying format uses netCDF to store arrays, but also imposes several conventions to form an unstructured grid of elements. V.SafeDownCast(vtkObjectBase) -> vtkSLACReader C++: static vtkSLACReader *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkSLACReader C++: vtkSLACReader *NewInstance() GetMeshFileNameV.GetMeshFileName() -> string C++: virtual char *GetMeshFileName() SetMeshFileNameV.SetMeshFileName(string) C++: virtual void SetMeshFileName(const char *_arg) AddModeFileNameV.AddModeFileName(string) C++: virtual void AddModeFileName(const char *fname) There may be one mode file (usually for actual modes) or multiple mode files (which usually actually represent time series). These methods set and clear the list of mode files (which can be a single mode file). RemoveAllModeFileNamesV.RemoveAllModeFileNames() C++: virtual void RemoveAllModeFileNames() There may be one mode file (usually for actual modes) or multiple mode files (which usually actually represent time series). These methods set and clear the list of mode files (which can be a single mode file). GetNumberOfModeFileNamesV.GetNumberOfModeFileNames() -> int C++: virtual unsigned int GetNumberOfModeFileNames() There may be one mode file (usually for actual modes) or multiple mode files (which usually actually represent time series). These methods set and clear the list of mode files (which can be a single mode file). GetModeFileNameV.GetModeFileName(int) -> string C++: virtual const char *GetModeFileName(unsigned int idx) There may be one mode file (usually for actual modes) or multiple mode files (which usually actually represent time series). These methods set and clear the list of mode files (which can be a single mode file). GetReadInternalVolumeV.GetReadInternalVolume() -> int C++: virtual int GetReadInternalVolume() If on, reads the internal volume of the data set. Set to off by default. SetReadInternalVolumeV.SetReadInternalVolume(int) C++: virtual void SetReadInternalVolume(int _arg) If on, reads the internal volume of the data set. Set to off by default. ReadInternalVolumeOnV.ReadInternalVolumeOn() C++: virtual void ReadInternalVolumeOn() If on, reads the internal volume of the data set. Set to off by default. ReadInternalVolumeOffV.ReadInternalVolumeOff() C++: virtual void ReadInternalVolumeOff() If on, reads the internal volume of the data set. Set to off by default. GetReadExternalSurfaceV.GetReadExternalSurface() -> int C++: virtual int GetReadExternalSurface() If on, reads the external surfaces of the data set. Set to on by default. SetReadExternalSurfaceV.SetReadExternalSurface(int) C++: virtual void SetReadExternalSurface(int _arg) If on, reads the external surfaces of the data set. Set to on by default. ReadExternalSurfaceOnV.ReadExternalSurfaceOn() C++: virtual void ReadExternalSurfaceOn() If on, reads the external surfaces of the data set. Set to on by default. ReadExternalSurfaceOffV.ReadExternalSurfaceOff() C++: virtual void ReadExternalSurfaceOff() If on, reads the external surfaces of the data set. Set to on by default. GetReadMidpointsV.GetReadMidpoints() -> int C++: virtual int GetReadMidpoints() If on, reads midpoint information for external surfaces and builds quadratic surface triangles. Set to on by default. SetReadMidpointsV.SetReadMidpoints(int) C++: virtual void SetReadMidpoints(int _arg) If on, reads midpoint information for external surfaces and builds quadratic surface triangles. Set to on by default. ReadMidpointsOnV.ReadMidpointsOn() C++: virtual void ReadMidpointsOn() If on, reads midpoint information for external surfaces and builds quadratic surface triangles. Set to on by default. ReadMidpointsOffV.ReadMidpointsOff() C++: virtual void ReadMidpointsOff() If on, reads midpoint information for external surfaces and builds quadratic surface triangles. Set to on by default. ResetFrequencyScalesV.ResetFrequencyScales() C++: virtual void ResetFrequencyScales() Sets the scale factor for each mode. Each scale factor is reset to 1. SetFrequencyScaleV.SetFrequencyScale(int, float) C++: virtual void SetFrequencyScale(int index, double scale) Sets the scale factor for each mode. Each scale factor is reset to 1. ResetPhaseShiftsV.ResetPhaseShifts() C++: virtual void ResetPhaseShifts() Sets the phase offset for each mode. Each shift is reset to 0. SetPhaseShiftV.SetPhaseShift(int, float) C++: virtual void SetPhaseShift(int index, double shift) Sets the phase offset for each mode. Each shift is reset to 0. GetFrequencyScalesV.GetFrequencyScales() -> vtkDoubleArray C++: virtual vtkDoubleArray *GetFrequencyScales() NOTE: This is not thread-safe. GetPhaseShiftsV.GetPhaseShifts() -> vtkDoubleArray C++: virtual vtkDoubleArray *GetPhaseShifts() NOTE: This is not thread-safe. IS_INTERNAL_VOLUMEV.IS_INTERNAL_VOLUME() -> vtkInformationIntegerKey C++: static vtkInformationIntegerKey *IS_INTERNAL_VOLUME() This key is attached to the metadata information of all data sets in the output that are part of the internal volume. IS_EXTERNAL_SURFACEV.IS_EXTERNAL_SURFACE() -> vtkInformationIntegerKey C++: static vtkInformationIntegerKey *IS_EXTERNAL_SURFACE() This key is attached to the metadata information of all data sets in the output that are part of the external surface. POINTSV.POINTS() -> vtkInformationObjectBaseKey C++: static vtkInformationObjectBaseKey *POINTS() All the data sets stored in the multiblock output share the same point data. For convienience, the point coordinates (vtkPoints) and point data (vtkPointData) are saved under these keys in the vtkInformation of the output data set. POINT_DATAV.POINT_DATA() -> vtkInformationObjectBaseKey C++: static vtkInformationObjectBaseKey *POINT_DATA() All the data sets stored in the multiblock output share the same point data. 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