|  | VTK
    9.0.1
    | 
 
 
 
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   35 #ifndef vtkDataArray_h 
   36 #define vtkDataArray_h 
   39 #include "vtkCommonCoreModule.h"           
   40 #include "vtkVTK_USE_SCALED_SOA_ARRAYS.h"  
   87     double* weights) 
override;
 
   96   virtual double* GetTuple(
vtkIdType tupleIdx)
 
  104   virtual void GetTuple(
vtkIdType tupleIdx, 
double* tuple)
 
  116   double* GetTuple3(
vtkIdType tupleIdx) 
VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples())
 
  118   double* GetTuple4(
vtkIdType tupleIdx) 
VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples())
 
  120   double* GetTuple6(
vtkIdType tupleIdx) 
VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples())
 
  122   double* GetTuple9(
vtkIdType tupleIdx) 
VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples())
 
  134   virtual 
void SetTuple(
vtkIdType tupleIdx, const 
float* tuple)
 
  135     VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
 
  136   virtual 
void SetTuple(
vtkIdType tupleIdx, const 
double* tuple)
 
  137     VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
 
  147     VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
 
  148   void SetTuple2(
vtkIdType tupleIdx, 
double val0, 
double val1)
 
  149     VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
 
  150   void SetTuple3(
vtkIdType tupleIdx, 
double val0, 
double val1, 
double val2)
 
  151     VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
 
  152   void SetTuple4(
vtkIdType tupleIdx, 
double val0, 
double val1, 
double val2, 
double val3)
 
  153     VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
 
  154   void SetTuple6(
vtkIdType tupleIdx, 
double val0, 
double val1, 
double val2, 
double val3,
 
  155     double val4, 
double val5) 
VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
 
  156   void SetTuple9(
vtkIdType tupleIdx, 
double val0, 
double val1, 
double val2, 
double val3,
 
  157     double val4, 
double val5, 
double val6, 
double val7, 
double val8)
 
  158     VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
 
  166   virtual 
void InsertTuple(
vtkIdType tupleIdx, const 
float* tuple) 
VTK_EXPECTS(0 <= tupleIdx) = 0;
 
  167   virtual 
void InsertTuple(
vtkIdType tupleIdx, const 
double* tuple) 
VTK_EXPECTS(0 <= tupleIdx) = 0;
 
  178   void InsertTuple3(
vtkIdType tupleIdx, 
double val0, 
double val1, 
double val2)
 
  180   void InsertTuple4(
vtkIdType tupleIdx, 
double val0, 
double val1, 
double val2, 
double val3)
 
  182   void InsertTuple6(
vtkIdType tupleIdx, 
double val0, 
double val1, 
double val2, 
double val3,
 
  183     double val4, 
double val5) 
VTK_EXPECTS(0 <= tupleIdx);
 
  184   void InsertTuple9(
vtkIdType tupleIdx, 
double val0, 
double val1, 
double val2, 
double val3,
 
  185     double val4, 
double val5, 
double val6, 
double val7, 
double val8) 
VTK_EXPECTS(0 <= tupleIdx);
 
  194   virtual 
vtkIdType InsertNextTuple(const 
float* tuple) = 0;
 
  195   virtual 
vtkIdType InsertNextTuple(const 
double* tuple) = 0;
 
  204   void InsertNextTuple1(
double value);
 
  205   void InsertNextTuple2(
double val0, 
double val1);
 
  206   void InsertNextTuple3(
double val0, 
double val1, 
double val2);
 
  207   void InsertNextTuple4(
double val0, 
double val1, 
double val2, 
double val3);
 
  208   void InsertNextTuple6(
 
  209     double val0, 
double val1, 
double val2, 
double val3, 
double val4, 
double val5);
 
  210   void InsertNextTuple9(
double val0, 
double val1, 
double val2, 
double val3, 
double val4,
 
  211     double val5, 
double val6, 
double val7, 
double val8);
 
  220   virtual 
void RemoveTuple(
vtkIdType tupleIdx)
 
  221     VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples()) = 0;
 
  222   virtual 
void RemoveFirstTuple() { this->RemoveTuple(0); }
 
  223   virtual void RemoveLastTuple();
 
  240   virtual 
void SetComponent(
vtkIdType tupleIdx, 
int compIdx, 
double value)
 
  241     VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples())
 
  242       VTK_EXPECTS(0 <= compIdx && compIdx < GetNumberOfComponents());
 
  248   virtual 
void InsertComponent(
vtkIdType tupleIdx, 
int compIdx, 
double value)
 
  259   virtual 
void GetData(
 
  288   virtual 
void FillComponent(
int compIdx, 
double value)
 
  289     VTK_EXPECTS(0 <= compIdx && compIdx < GetNumberOfComponents());
 
  294   virtual 
void Fill(
double value);
 
  304   virtual 
void CopyComponent(
int dstComponent, 
vtkDataArray* src, 
int srcComponent);
 
  321   unsigned long GetActualMemorySize() const override;
 
  327   void CreateDefaultLookupTable();
 
  346   void GetRange(
double range[2], 
int comp) { this->ComputeRange(
range, comp); }
 
  359     this->GetRange(this->
Range, comp);
 
  405     this->GetFiniteRange(this->FiniteRange, comp);
 
  406     return this->FiniteRange;
 
  435   void GetDataTypeRange(
double range[2]);
 
  436   double GetDataTypeMin();
 
  437   double GetDataTypeMax();
 
  438   static void GetDataTypeRange(
int type, 
double range[2]);
 
  439   static double GetDataTypeMin(
int type);
 
  440   static double GetDataTypeMax(
int type);
 
  447   virtual double GetMaxNorm();
 
  521   virtual void ComputeRange(
double range[2], 
int comp);
 
  530   virtual void ComputeFiniteRange(
double range[2], 
int comp);
 
  538   virtual bool ComputeScalarRange(
double* ranges);
 
  544   virtual bool ComputeVectorRange(
double range[2]);
 
  552   virtual bool ComputeFiniteScalarRange(
double* ranges);
 
  558   virtual bool ComputeFiniteVectorRange(
double range[2]);
 
  566   double FiniteRange[2];
 
  581     switch (
source->GetArrayType())
 
  
represent and manipulate 3D points
auto Range(IterablePtr iterable, Options &&... opts) -> typename detail::IterableTraits< typename detail::StripPointers< IterablePtr >::type >::RangeType
Generate an iterable STL proxy object for a VTK container.
virtual int CopyInformation(vtkInformation *infoFrom, int deep=1)
Copy information instance.
virtual void InterpolateTuple(vtkIdType dstTupleIdx, vtkIdList *ptIndices, vtkAbstractArray *source, double *weights)=0
Set the tuple at dstTupleIdx in this array to the interpolated tuple value, given the ptIndices in th...
vtkLookupTable * LookupTable
vtkArrayDownCast_FastCastMacro(vtkDataArray)
int GetElementComponentSize() const override
Return the size, in bytes, of the lowest-level element of an array.
virtual void InsertTuple(vtkIdType dstTupleIdx, vtkIdType srcTupleIdx, vtkAbstractArray *source)=0
Insert the tuple at srcTupleIdx in the source array into this array at dstTupleIdx.
void PrintSelf(ostream &os, vtkIndent indent) override
Methods invoked by print to print information about the object including superclasses.
double * GetFiniteRange(int comp)
Return the range of the data array values for the given component.
virtual vtkIdType InsertNextTuple(vtkIdType srcTupleIdx, vtkAbstractArray *source)=0
Insert the tuple from srcTupleIdx in the source array at the end of this array.
void Modified() override
Removes out-of-date PER_COMPONENT() and PER_FINITE_COMPONENT() values.
virtual void InsertTuples(vtkIdList *dstIds, vtkIdList *srcIds, vtkAbstractArray *source)=0
Copy the tuples indexed in srcIds from the source array to the tuple locations indexed by dstIds in t...
abstract superclass for arrays of numeric data
vtkIdType GetNumberOfTuples() const
Get the number of complete tuples (a component group) in the array.
#define VTK_SIZEHINT(...)
void GetFiniteRange(double range[2])
The range of the data array values will be returned in the provided range array argument.
void GetFiniteRange(double range[2], int comp)
The range of the data array values for the given component will be returned in the provided range arr...
void GetRange(double range[2])
The range of the data array values will be returned in the provided range array argument.
a simple class to control print indentation
list of point or cell ids
double * GetRange(int comp)
Return the range of the data array values for the given component.
Abstract superclass for all arrays.
map scalar values into colors via a lookup table
double * GetRange()
Return the range of the data array.
int IsNumeric() const override
This method is here to make backward compatibility easier.
virtual void GetTuples(vtkIdList *tupleIds, vtkAbstractArray *output)
Given a list of tuple ids, return an array of tuples.
int GetArrayType() const override
Method for type-checking in FastDownCast implementations.
virtual int GetDataTypeSize() const =0
Return the size of the underlying data type.
dynamic, self-adjusting array of double
boost::graph_traits< vtkGraph * >::vertex_descriptor source(boost::graph_traits< vtkGraph * >::edge_descriptor e, vtkGraph *)
static vtkDataArray * FastDownCast(vtkAbstractArray *source)
Perform a fast, safe cast from a vtkAbstractArray to a vtkDataArray.
double * GetFiniteRange()
Return the range of the data array.