map field data to concrete dataset More...
#include <vtkDataObjectToDataSetFilter.h>
Detailed Description
map field data to concrete dataset
vtkDataObjectToDataSetFilter is an class that maps a data object (i.e., a field) into a concrete dataset, i.e., gives structure to the field by defining a geometry and topology.
To use this filter you associate components in the input field data with portions of the output dataset. (A component is an array of values from the field.) For example, you would specify x-y-z points by assigning components from the field for the x, then y, then z values of the points. You may also have to specify component ranges (for each z-y-z) to make sure that the number of x, y, and z values is the same. Also, you may want to normalize the components which helps distribute the data uniformly. Once you've setup the filter to combine all the pieces of data into a specified dataset (the geometry, topology, point and cell data attributes), the various output methods (e.g., GetPolyData()) are used to retrieve the final product.
This filter is often used in conjunction with vtkFieldDataToAttributeDataFilter. vtkFieldDataToAttributeDataFilter takes field data and transforms it into attribute data (e.g., point and cell data attributes such as scalars and vectors). To do this, use this filter which constructs a concrete dataset and passes the input data object field data to its output. and then use vtkFieldDataToAttributeDataFilter to generate the attribute data associated with the dataset.
- Warning:
- Make sure that the data you extract is consistent. That is, if you have N points, extract N x, y, and z components. Also, all the information necessary to define a dataset must be given. For example, vtkPolyData requires points at a minimum; vtkStructuredPoints requires setting the dimensions; vtkStructuredGrid requires defining points and dimensions; vtkUnstructuredGrid requires setting points; and vtkRectilinearGrid requires that you define the x, y, and z-coordinate arrays (by specifying points) as well as the dimensions.
- If you wish to create a dataset of just points (i.e., unstructured points dataset), create vtkPolyData consisting of points. There will be no cells in such a dataset.
- See also:
- vtkDataObject vtkFieldData vtkDataSet vtkPolyData vtkStructuredPoints vtkStructuredGrid vtkUnstructuredGrid vtkRectilinearGrid vtkDataSetAttributes vtkDataArray
Definition at line 86 of file vtkDataObjectToDataSetFilter.h.
Member Typedef Documentation
Reimplemented from vtkDataSetAlgorithm.
Definition at line 90 of file vtkDataObjectToDataSetFilter.h.
Constructor & Destructor Documentation
| vtkDataObjectToDataSetFilter::vtkDataObjectToDataSetFilter | ( | ) | [protected] |
| vtkDataObjectToDataSetFilter::~vtkDataObjectToDataSetFilter | ( | ) | [protected] |
Member Function Documentation
| static vtkDataObjectToDataSetFilter* vtkDataObjectToDataSetFilter::New | ( | ) | [static] |
Create an object with Debug turned off, modified time initialized to zero, and reference counting on.
Reimplemented from vtkDataSetAlgorithm.
| static int vtkDataObjectToDataSetFilter::IsTypeOf | ( | const char * | name | ) | [static] |
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.
Reimplemented from vtkDataSetAlgorithm.
| virtual int vtkDataObjectToDataSetFilter::IsA | ( | const char * | name | ) | [virtual] |
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.
Reimplemented from vtkDataSetAlgorithm.
| static vtkDataObjectToDataSetFilter* vtkDataObjectToDataSetFilter::SafeDownCast | ( | vtkObjectBase * | o | ) | [static] |
Reimplemented from vtkDataSetAlgorithm.
| virtual vtkObjectBase* vtkDataObjectToDataSetFilter::NewInstanceInternal | ( | ) | const [protected, virtual] |
Reimplemented from vtkDataSetAlgorithm.
Reimplemented from vtkDataSetAlgorithm.
| void vtkDataObjectToDataSetFilter::PrintSelf | ( | ostream & | os, |
| vtkIndent | indent | ||
| ) | [virtual] |
Methods invoked by print to print information about the object including superclasses. Typically not called by the user (use Print() instead) but used in the hierarchical print process to combine the output of several classes.
Reimplemented from vtkDataSetAlgorithm.
Get the input to the filter.
Reimplemented from vtkDataSetAlgorithm.
Control what type of data is generated for output.
| virtual int vtkDataObjectToDataSetFilter::GetDataSetType | ( | ) | [virtual] |
Control what type of data is generated for output.
| void vtkDataObjectToDataSetFilter::SetDataSetTypeToPolyData | ( | ) | [inline] |
Control what type of data is generated for output.
Definition at line 100 of file vtkDataObjectToDataSetFilter.h.
| void vtkDataObjectToDataSetFilter::SetDataSetTypeToStructuredPoints | ( | ) | [inline] |
Control what type of data is generated for output.
Definition at line 102 of file vtkDataObjectToDataSetFilter.h.
| void vtkDataObjectToDataSetFilter::SetDataSetTypeToStructuredGrid | ( | ) | [inline] |
Control what type of data is generated for output.
Definition at line 104 of file vtkDataObjectToDataSetFilter.h.
| void vtkDataObjectToDataSetFilter::SetDataSetTypeToRectilinearGrid | ( | ) | [inline] |
Control what type of data is generated for output.
Definition at line 106 of file vtkDataObjectToDataSetFilter.h.
| void vtkDataObjectToDataSetFilter::SetDataSetTypeToUnstructuredGrid | ( | ) | [inline] |
Control what type of data is generated for output.
Definition at line 108 of file vtkDataObjectToDataSetFilter.h.
Get the output in different forms. The particular method invoked should be consistent with the SetDataSetType() method. (Note: GetOutput() will always return a type consistent with SetDataSetType(). Also, GetOutput() will return NULL if the filter aborted due to inconsistent data.)
Reimplemented from vtkDataSetAlgorithm.
Get the output in different forms. The particular method invoked should be consistent with the SetDataSetType() method. (Note: GetOutput() will always return a type consistent with SetDataSetType(). Also, GetOutput() will return NULL if the filter aborted due to inconsistent data.)
Reimplemented from vtkDataSetAlgorithm.
Get the output in different forms. The particular method invoked should be consistent with the SetDataSetType() method. (Note: GetOutput() will always return a type consistent with SetDataSetType(). Also, GetOutput() will return NULL if the filter aborted due to inconsistent data.)
Reimplemented from vtkDataSetAlgorithm.
Get the output in different forms. The particular method invoked should be consistent with the SetDataSetType() method. (Note: GetOutput() will always return a type consistent with SetDataSetType(). Also, GetOutput() will return NULL if the filter aborted due to inconsistent data.)
Reimplemented from vtkDataSetAlgorithm.
Get the output in different forms. The particular method invoked should be consistent with the SetDataSetType() method. (Note: GetOutput() will always return a type consistent with SetDataSetType(). Also, GetOutput() will return NULL if the filter aborted due to inconsistent data.)
Reimplemented from vtkDataSetAlgorithm.
Get the output in different forms. The particular method invoked should be consistent with the SetDataSetType() method. (Note: GetOutput() will always return a type consistent with SetDataSetType(). Also, GetOutput() will return NULL if the filter aborted due to inconsistent data.)
Reimplemented from vtkDataSetAlgorithm.
Get the output in different forms. The particular method invoked should be consistent with the SetDataSetType() method. (Note: GetOutput() will always return a type consistent with SetDataSetType(). Also, GetOutput() will return NULL if the filter aborted due to inconsistent data.)
Reimplemented from vtkDataSetAlgorithm.
| void vtkDataObjectToDataSetFilter::SetPointComponent | ( | int | comp, |
| char * | arrayName, | ||
| int | arrayComp, | ||
| int | min, | ||
| int | max, | ||
| int | normalize | ||
| ) |
Define the component of the field to be used for the x, y, and z values of the points. Note that the parameter comp must lie between (0,2) and refers to the x-y-z (i.e., 0,1,2) components of the points. To define the field component to use you can specify an array name and the component in that array. The (min,max) values are the range of data in the component you wish to extract. (This method should be used for vtkPolyData, vtkUnstructuredGrid, vtkStructuredGrid, and vtkRectilinearGrid.) A convenience method, SetPointComponent(),is also provided which does not require setting the (min,max) component range or the normalize flag (normalize is set to DefaulatNormalize value).
| void vtkDataObjectToDataSetFilter::SetPointComponent | ( | int | comp, |
| char * | arrayName, | ||
| int | arrayComp | ||
| ) | [inline] |
Define the component of the field to be used for the x, y, and z values of the points. Note that the parameter comp must lie between (0,2) and refers to the x-y-z (i.e., 0,1,2) components of the points. To define the field component to use you can specify an array name and the component in that array. The (min,max) values are the range of data in the component you wish to extract. (This method should be used for vtkPolyData, vtkUnstructuredGrid, vtkStructuredGrid, and vtkRectilinearGrid.) A convenience method, SetPointComponent(),is also provided which does not require setting the (min,max) component range or the normalize flag (normalize is set to DefaulatNormalize value).
Definition at line 141 of file vtkDataObjectToDataSetFilter.h.
| const char* vtkDataObjectToDataSetFilter::GetPointComponentArrayName | ( | int | comp | ) |
Define the component of the field to be used for the x, y, and z values of the points. Note that the parameter comp must lie between (0,2) and refers to the x-y-z (i.e., 0,1,2) components of the points. To define the field component to use you can specify an array name and the component in that array. The (min,max) values are the range of data in the component you wish to extract. (This method should be used for vtkPolyData, vtkUnstructuredGrid, vtkStructuredGrid, and vtkRectilinearGrid.) A convenience method, SetPointComponent(),is also provided which does not require setting the (min,max) component range or the normalize flag (normalize is set to DefaulatNormalize value).
Define the component of the field to be used for the x, y, and z values of the points. Note that the parameter comp must lie between (0,2) and refers to the x-y-z (i.e., 0,1,2) components of the points. To define the field component to use you can specify an array name and the component in that array. The (min,max) values are the range of data in the component you wish to extract. (This method should be used for vtkPolyData, vtkUnstructuredGrid, vtkStructuredGrid, and vtkRectilinearGrid.) A convenience method, SetPointComponent(),is also provided which does not require setting the (min,max) component range or the normalize flag (normalize is set to DefaulatNormalize value).
Define the component of the field to be used for the x, y, and z values of the points. Note that the parameter comp must lie between (0,2) and refers to the x-y-z (i.e., 0,1,2) components of the points. To define the field component to use you can specify an array name and the component in that array. The (min,max) values are the range of data in the component you wish to extract. (This method should be used for vtkPolyData, vtkUnstructuredGrid, vtkStructuredGrid, and vtkRectilinearGrid.) A convenience method, SetPointComponent(),is also provided which does not require setting the (min,max) component range or the normalize flag (normalize is set to DefaulatNormalize value).
Define the component of the field to be used for the x, y, and z values of the points. Note that the parameter comp must lie between (0,2) and refers to the x-y-z (i.e., 0,1,2) components of the points. To define the field component to use you can specify an array name and the component in that array. The (min,max) values are the range of data in the component you wish to extract. (This method should be used for vtkPolyData, vtkUnstructuredGrid, vtkStructuredGrid, and vtkRectilinearGrid.) A convenience method, SetPointComponent(),is also provided which does not require setting the (min,max) component range or the normalize flag (normalize is set to DefaulatNormalize value).
Define the component of the field to be used for the x, y, and z values of the points. Note that the parameter comp must lie between (0,2) and refers to the x-y-z (i.e., 0,1,2) components of the points. To define the field component to use you can specify an array name and the component in that array. The (min,max) values are the range of data in the component you wish to extract. (This method should be used for vtkPolyData, vtkUnstructuredGrid, vtkStructuredGrid, and vtkRectilinearGrid.) A convenience method, SetPointComponent(),is also provided which does not require setting the (min,max) component range or the normalize flag (normalize is set to DefaulatNormalize value).
| void vtkDataObjectToDataSetFilter::SetVertsComponent | ( | char * | arrayName, |
| int | arrayComp, | ||
| int | min, | ||
| int | max | ||
| ) |
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
| void vtkDataObjectToDataSetFilter::SetVertsComponent | ( | char * | arrayName, |
| int | arrayComp | ||
| ) | [inline] |
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Definition at line 159 of file vtkDataObjectToDataSetFilter.h.
| const char* vtkDataObjectToDataSetFilter::GetVertsComponentArrayName | ( | ) |
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
| void vtkDataObjectToDataSetFilter::SetLinesComponent | ( | char * | arrayName, |
| int | arrayComp, | ||
| int | min, | ||
| int | max | ||
| ) |
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
| void vtkDataObjectToDataSetFilter::SetLinesComponent | ( | char * | arrayName, |
| int | arrayComp | ||
| ) | [inline] |
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Definition at line 166 of file vtkDataObjectToDataSetFilter.h.
| const char* vtkDataObjectToDataSetFilter::GetLinesComponentArrayName | ( | ) |
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
| void vtkDataObjectToDataSetFilter::SetPolysComponent | ( | char * | arrayName, |
| int | arrayComp, | ||
| int | min, | ||
| int | max | ||
| ) |
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
| void vtkDataObjectToDataSetFilter::SetPolysComponent | ( | char * | arrayName, |
| int | arrayComp | ||
| ) | [inline] |
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Definition at line 173 of file vtkDataObjectToDataSetFilter.h.
| const char* vtkDataObjectToDataSetFilter::GetPolysComponentArrayName | ( | ) |
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
| void vtkDataObjectToDataSetFilter::SetStripsComponent | ( | char * | arrayName, |
| int | arrayComp, | ||
| int | min, | ||
| int | max | ||
| ) |
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
| void vtkDataObjectToDataSetFilter::SetStripsComponent | ( | char * | arrayName, |
| int | arrayComp | ||
| ) | [inline] |
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Definition at line 180 of file vtkDataObjectToDataSetFilter.h.
| const char* vtkDataObjectToDataSetFilter::GetStripsComponentArrayName | ( | ) |
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell connectivity when creating vtkPolyData. You can define vertices, lines, polygons, and/or triangle strips via these methods. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of values that (for each cell) includes the number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
| void vtkDataObjectToDataSetFilter::SetCellTypeComponent | ( | char * | arrayName, |
| int | arrayComp, | ||
| int | min, | ||
| int | max | ||
| ) |
Define cell types and cell connectivity when creating unstructured grid data. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of cell types (an integer value per cell), and another array consisting (for each cell) of a number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
| void vtkDataObjectToDataSetFilter::SetCellTypeComponent | ( | char * | arrayName, |
| int | arrayComp | ||
| ) | [inline] |
Define cell types and cell connectivity when creating unstructured grid data. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of cell types (an integer value per cell), and another array consisting (for each cell) of a number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Definition at line 198 of file vtkDataObjectToDataSetFilter.h.
| const char* vtkDataObjectToDataSetFilter::GetCellTypeComponentArrayName | ( | ) |
Define cell types and cell connectivity when creating unstructured grid data. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of cell types (an integer value per cell), and another array consisting (for each cell) of a number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell types and cell connectivity when creating unstructured grid data. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of cell types (an integer value per cell), and another array consisting (for each cell) of a number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell types and cell connectivity when creating unstructured grid data. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of cell types (an integer value per cell), and another array consisting (for each cell) of a number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell types and cell connectivity when creating unstructured grid data. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of cell types (an integer value per cell), and another array consisting (for each cell) of a number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
| void vtkDataObjectToDataSetFilter::SetCellConnectivityComponent | ( | char * | arrayName, |
| int | arrayComp, | ||
| int | min, | ||
| int | max | ||
| ) |
Define cell types and cell connectivity when creating unstructured grid data. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of cell types (an integer value per cell), and another array consisting (for each cell) of a number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
| void vtkDataObjectToDataSetFilter::SetCellConnectivityComponent | ( | char * | arrayName, |
| int | arrayComp | ||
| ) | [inline] |
Define cell types and cell connectivity when creating unstructured grid data. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of cell types (an integer value per cell), and another array consisting (for each cell) of a number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Definition at line 206 of file vtkDataObjectToDataSetFilter.h.
Define cell types and cell connectivity when creating unstructured grid data. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of cell types (an integer value per cell), and another array consisting (for each cell) of a number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell types and cell connectivity when creating unstructured grid data. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of cell types (an integer value per cell), and another array consisting (for each cell) of a number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell types and cell connectivity when creating unstructured grid data. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of cell types (an integer value per cell), and another array consisting (for each cell) of a number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
Define cell types and cell connectivity when creating unstructured grid data. These methods are similar to those for defining points, except that no normalization of the data is possible. Basically, you need to define an array of cell types (an integer value per cell), and another array consisting (for each cell) of a number of points per cell, and then the cell connectivity. (This is the vtk file format described in in the textbook or User's Guide.)
| virtual void vtkDataObjectToDataSetFilter::SetDefaultNormalize | ( | int | ) | [virtual] |
Set the default Normalize() flag for those methods setting a default Normalize value (e.g., SetPointComponent).
| virtual int vtkDataObjectToDataSetFilter::GetDefaultNormalize | ( | ) | [virtual] |
Set the default Normalize() flag for those methods setting a default Normalize value (e.g., SetPointComponent).
| virtual void vtkDataObjectToDataSetFilter::DefaultNormalizeOn | ( | ) | [virtual] |
Set the default Normalize() flag for those methods setting a default Normalize value (e.g., SetPointComponent).
| virtual void vtkDataObjectToDataSetFilter::DefaultNormalizeOff | ( | ) | [virtual] |
Set the default Normalize() flag for those methods setting a default Normalize value (e.g., SetPointComponent).
| virtual void vtkDataObjectToDataSetFilter::SetDimensions | ( | int | , |
| int | , | ||
| int | |||
| ) | [virtual] |
Specify the dimensions to use if generating a dataset that requires dimensions specification (vtkStructuredPoints, vtkStructuredGrid, vtkRectilinearGrid).
| virtual void vtkDataObjectToDataSetFilter::SetDimensions | ( | int | [3] | ) | [virtual] |
Specify the dimensions to use if generating a dataset that requires dimensions specification (vtkStructuredPoints, vtkStructuredGrid, vtkRectilinearGrid).
| virtual int* vtkDataObjectToDataSetFilter::GetDimensions | ( | ) | [virtual] |
Specify the dimensions to use if generating a dataset that requires dimensions specification (vtkStructuredPoints, vtkStructuredGrid, vtkRectilinearGrid).
| virtual void vtkDataObjectToDataSetFilter::GetDimensions | ( | int | data[3] | ) | [virtual] |
Specify the dimensions to use if generating a dataset that requires dimensions specification (vtkStructuredPoints, vtkStructuredGrid, vtkRectilinearGrid).
| virtual void vtkDataObjectToDataSetFilter::SetOrigin | ( | double | , |
| double | , | ||
| double | |||
| ) | [virtual] |
Specify the origin to use if generating a dataset whose origin can be set (i.e., a vtkStructuredPoints dataset).
| virtual void vtkDataObjectToDataSetFilter::SetOrigin | ( | double | [3] | ) | [virtual] |
Specify the origin to use if generating a dataset whose origin can be set (i.e., a vtkStructuredPoints dataset).
| virtual double* vtkDataObjectToDataSetFilter::GetOrigin | ( | ) | [virtual] |
Specify the origin to use if generating a dataset whose origin can be set (i.e., a vtkStructuredPoints dataset).
| virtual void vtkDataObjectToDataSetFilter::GetOrigin | ( | double | data[3] | ) | [virtual] |
Specify the origin to use if generating a dataset whose origin can be set (i.e., a vtkStructuredPoints dataset).
| virtual void vtkDataObjectToDataSetFilter::SetSpacing | ( | double | , |
| double | , | ||
| double | |||
| ) | [virtual] |
Specify the spacing to use if generating a dataset whose spacing can be set (i.e., a vtkStructuredPoints dataset).
| virtual void vtkDataObjectToDataSetFilter::SetSpacing | ( | double | [3] | ) | [virtual] |
Specify the spacing to use if generating a dataset whose spacing can be set (i.e., a vtkStructuredPoints dataset).
| virtual double* vtkDataObjectToDataSetFilter::GetSpacing | ( | ) | [virtual] |
Specify the spacing to use if generating a dataset whose spacing can be set (i.e., a vtkStructuredPoints dataset).
| virtual void vtkDataObjectToDataSetFilter::GetSpacing | ( | double | data[3] | ) | [virtual] |
Specify the spacing to use if generating a dataset whose spacing can be set (i.e., a vtkStructuredPoints dataset).
| void vtkDataObjectToDataSetFilter::SetDimensionsComponent | ( | char * | arrayName, |
| int | arrayComp, | ||
| int | min, | ||
| int | max | ||
| ) |
Alternative methods to specify the dimensions, spacing, and origin for those datasets requiring this information. You need to specify the name of an array; the component of the array, and the range of the array (min,max). These methods will override the information given by the previous methods.
| void vtkDataObjectToDataSetFilter::SetDimensionsComponent | ( | char * | arrayName, |
| int | arrayComp | ||
| ) | [inline] |
Alternative methods to specify the dimensions, spacing, and origin for those datasets requiring this information. You need to specify the name of an array; the component of the array, and the range of the array (min,max). These methods will override the information given by the previous methods.
Definition at line 251 of file vtkDataObjectToDataSetFilter.h.
| void vtkDataObjectToDataSetFilter::SetSpacingComponent | ( | char * | arrayName, |
| int | arrayComp, | ||
| int | min, | ||
| int | max | ||
| ) |
Alternative methods to specify the dimensions, spacing, and origin for those datasets requiring this information. You need to specify the name of an array; the component of the array, and the range of the array (min,max). These methods will override the information given by the previous methods.
| void vtkDataObjectToDataSetFilter::SetSpacingComponent | ( | char * | arrayName, |
| int | arrayComp | ||
| ) | [inline] |
Alternative methods to specify the dimensions, spacing, and origin for those datasets requiring this information. You need to specify the name of an array; the component of the array, and the range of the array (min,max). These methods will override the information given by the previous methods.
Definition at line 254 of file vtkDataObjectToDataSetFilter.h.
| void vtkDataObjectToDataSetFilter::SetOriginComponent | ( | char * | arrayName, |
| int | arrayComp, | ||
| int | min, | ||
| int | max | ||
| ) |
Alternative methods to specify the dimensions, spacing, and origin for those datasets requiring this information. You need to specify the name of an array; the component of the array, and the range of the array (min,max). These methods will override the information given by the previous methods.
| void vtkDataObjectToDataSetFilter::SetOriginComponent | ( | char * | arrayName, |
| int | arrayComp | ||
| ) | [inline] |
Alternative methods to specify the dimensions, spacing, and origin for those datasets requiring this information. You need to specify the name of an array; the component of the array, and the range of the array (min,max). These methods will override the information given by the previous methods.
Definition at line 257 of file vtkDataObjectToDataSetFilter.h.
| virtual int vtkDataObjectToDataSetFilter::RequestData | ( | vtkInformation * | , |
| vtkInformationVector ** | , | ||
| vtkInformationVector * | |||
| ) | [protected, virtual] |
This is called within ProcessRequest when a request asks the algorithm to do its work. This is the method you should override to do whatever the algorithm is designed to do. This happens during the fourth pass in the pipeline execution process.
Reimplemented from vtkDataSetAlgorithm.
| virtual int vtkDataObjectToDataSetFilter::RequestInformation | ( | vtkInformation * | , |
| vtkInformationVector ** | , | ||
| vtkInformationVector * | |||
| ) | [protected, virtual] |
This is called within ProcessRequest when a request asks for Information. Typically an algorithm provides whatever lightweight information about its output that it can here without doing any lengthy computations. This happens in the first pass of the pipeline execution.
Reimplemented from vtkDataSetAlgorithm.
| virtual int vtkDataObjectToDataSetFilter::RequestUpdateExtent | ( | vtkInformation * | , |
| vtkInformationVector ** | , | ||
| vtkInformationVector * | |||
| ) | [protected, virtual] |
This is called within ProcessRequest when each filter in the pipeline decides what portion of its input is needed to create the portion of its output that the downstream filter asks for. This happens during the second pass in the pipeline execution process.
Reimplemented from vtkDataSetAlgorithm.
| virtual int vtkDataObjectToDataSetFilter::FillInputPortInformation | ( | int | port, |
| vtkInformation * | info | ||
| ) | [protected, virtual] |
Fill the input port information objects for this algorithm. This is invoked by the first call to GetInputPortInformation for each port so subclasses can specify what they can handle.
Reimplemented from vtkDataSetAlgorithm.
| virtual int vtkDataObjectToDataSetFilter::RequestDataObject | ( | vtkInformation * | request, |
| vtkInformationVector ** | inputVector, | ||
| vtkInformationVector * | outputVector | ||
| ) | [protected, virtual] |
This is called within ProcessRequest to when a request asks the algorithm to create empty output data objects. This typically happens early on in the execution of the pipeline. The default behavior is to create an output DataSet of the same type as the input for each output port. This method can be overridden to change the output data type of an algorithm. This happens in the third pass of the pipeline execution.
Reimplemented from vtkDataSetAlgorithm.
| void vtkDataObjectToDataSetFilter::SetArrayName | ( | char *& | name, |
| char * | newName | ||
| ) | [protected] |
| vtkIdType vtkDataObjectToDataSetFilter::ConstructPoints | ( | vtkDataObject * | input, |
| vtkPointSet * | ps | ||
| ) | [protected] |
| vtkIdType vtkDataObjectToDataSetFilter::ConstructPoints | ( | vtkDataObject * | input, |
| vtkRectilinearGrid * | rg | ||
| ) | [protected] |
| int vtkDataObjectToDataSetFilter::ConstructCells | ( | vtkDataObject * | input, |
| vtkPolyData * | pd | ||
| ) | [protected] |
| int vtkDataObjectToDataSetFilter::ConstructCells | ( | vtkDataObject * | input, |
| vtkUnstructuredGrid * | ug | ||
| ) | [protected] |
| vtkCellArray* vtkDataObjectToDataSetFilter::ConstructCellArray | ( | vtkDataArray * | da, |
| int | comp, | ||
| vtkIdType | compRange[2] | ||
| ) | [protected] |
| void vtkDataObjectToDataSetFilter::ConstructDimensions | ( | vtkDataObject * | input | ) | [protected] |
| void vtkDataObjectToDataSetFilter::ConstructSpacing | ( | vtkDataObject * | input | ) | [protected] |
| void vtkDataObjectToDataSetFilter::ConstructOrigin | ( | vtkDataObject * | input | ) | [protected] |
Member Data Documentation
char vtkDataObjectToDataSetFilter::Updating [protected] |
Definition at line 272 of file vtkDataObjectToDataSetFilter.h.
int vtkDataObjectToDataSetFilter::DataSetType [protected] |
Definition at line 275 of file vtkDataObjectToDataSetFilter.h.
char* vtkDataObjectToDataSetFilter::PointArrays[3] [protected] |
Definition at line 278 of file vtkDataObjectToDataSetFilter.h.
int vtkDataObjectToDataSetFilter::PointArrayComponents[3] [protected] |
Definition at line 279 of file vtkDataObjectToDataSetFilter.h.
vtkIdType vtkDataObjectToDataSetFilter::PointComponentRange[3][2] [protected] |
Definition at line 280 of file vtkDataObjectToDataSetFilter.h.
int vtkDataObjectToDataSetFilter::PointNormalize[3] [protected] |
Definition at line 281 of file vtkDataObjectToDataSetFilter.h.
char* vtkDataObjectToDataSetFilter::VertsArray [protected] |
Definition at line 284 of file vtkDataObjectToDataSetFilter.h.
int vtkDataObjectToDataSetFilter::VertsArrayComponent [protected] |
Definition at line 285 of file vtkDataObjectToDataSetFilter.h.
vtkIdType vtkDataObjectToDataSetFilter::VertsComponentRange[2] [protected] |
Definition at line 286 of file vtkDataObjectToDataSetFilter.h.
char* vtkDataObjectToDataSetFilter::LinesArray [protected] |
Definition at line 288 of file vtkDataObjectToDataSetFilter.h.
int vtkDataObjectToDataSetFilter::LinesArrayComponent [protected] |
Definition at line 289 of file vtkDataObjectToDataSetFilter.h.
vtkIdType vtkDataObjectToDataSetFilter::LinesComponentRange[2] [protected] |
Definition at line 290 of file vtkDataObjectToDataSetFilter.h.
char* vtkDataObjectToDataSetFilter::PolysArray [protected] |
Definition at line 292 of file vtkDataObjectToDataSetFilter.h.
int vtkDataObjectToDataSetFilter::PolysArrayComponent [protected] |
Definition at line 293 of file vtkDataObjectToDataSetFilter.h.
vtkIdType vtkDataObjectToDataSetFilter::PolysComponentRange[2] [protected] |
Definition at line 294 of file vtkDataObjectToDataSetFilter.h.
char* vtkDataObjectToDataSetFilter::StripsArray [protected] |
Definition at line 296 of file vtkDataObjectToDataSetFilter.h.
Definition at line 297 of file vtkDataObjectToDataSetFilter.h.
vtkIdType vtkDataObjectToDataSetFilter::StripsComponentRange[2] [protected] |
Definition at line 298 of file vtkDataObjectToDataSetFilter.h.
char* vtkDataObjectToDataSetFilter::CellTypeArray [protected] |
Definition at line 301 of file vtkDataObjectToDataSetFilter.h.
Definition at line 302 of file vtkDataObjectToDataSetFilter.h.
vtkIdType vtkDataObjectToDataSetFilter::CellTypeComponentRange[2] [protected] |
Definition at line 303 of file vtkDataObjectToDataSetFilter.h.
char* vtkDataObjectToDataSetFilter::CellConnectivityArray [protected] |
Definition at line 305 of file vtkDataObjectToDataSetFilter.h.
Definition at line 306 of file vtkDataObjectToDataSetFilter.h.
Definition at line 307 of file vtkDataObjectToDataSetFilter.h.
int vtkDataObjectToDataSetFilter::DefaultNormalize [protected] |
Definition at line 319 of file vtkDataObjectToDataSetFilter.h.
int vtkDataObjectToDataSetFilter::Dimensions[3] [protected] |
Definition at line 322 of file vtkDataObjectToDataSetFilter.h.
double vtkDataObjectToDataSetFilter::Origin[3] [protected] |
Definition at line 323 of file vtkDataObjectToDataSetFilter.h.
double vtkDataObjectToDataSetFilter::Spacing[3] [protected] |
Definition at line 324 of file vtkDataObjectToDataSetFilter.h.
char* vtkDataObjectToDataSetFilter::DimensionsArray [protected] |
Definition at line 326 of file vtkDataObjectToDataSetFilter.h.
Definition at line 327 of file vtkDataObjectToDataSetFilter.h.
vtkIdType vtkDataObjectToDataSetFilter::DimensionsComponentRange[2] [protected] |
Definition at line 328 of file vtkDataObjectToDataSetFilter.h.
char* vtkDataObjectToDataSetFilter::OriginArray [protected] |
Definition at line 330 of file vtkDataObjectToDataSetFilter.h.
Definition at line 331 of file vtkDataObjectToDataSetFilter.h.
vtkIdType vtkDataObjectToDataSetFilter::OriginComponentRange[2] [protected] |
Definition at line 332 of file vtkDataObjectToDataSetFilter.h.
char* vtkDataObjectToDataSetFilter::SpacingArray [protected] |
Definition at line 334 of file vtkDataObjectToDataSetFilter.h.
Definition at line 335 of file vtkDataObjectToDataSetFilter.h.
vtkIdType vtkDataObjectToDataSetFilter::SpacingComponentRange[2] [protected] |
Definition at line 336 of file vtkDataObjectToDataSetFilter.h.
The documentation for this class was generated from the following file:
- dox/Filters/Core/vtkDataObjectToDataSetFilter.h
