38 #ifndef vtkDataArray_h
39 #define vtkDataArray_h
42 #include "vtkCommonCoreModule.h"
43 #include "vtkVTK_USE_SCALED_SOA_ARRAYS.h"
45 VTK_ABI_NAMESPACE_BEGIN
101 double* weights)
override;
146 virtual
void SetTuple(
vtkIdType tupleIdx, const
float* tuple)
147 VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
148 virtual
void SetTuple(
vtkIdType tupleIdx, const
double* tuple)
149 VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
159 VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
160 void SetTuple2(
vtkIdType tupleIdx,
double val0,
double val1)
161 VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
162 void SetTuple3(
vtkIdType tupleIdx,
double val0,
double val1,
double val2)
163 VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
164 void SetTuple4(
vtkIdType tupleIdx,
double val0,
double val1,
double val2,
double val3)
165 VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
166 void SetTuple6(
vtkIdType tupleIdx,
double val0,
double val1,
double val2,
double val3,
167 double val4,
double val5)
VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
168 void SetTuple9(
vtkIdType tupleIdx,
double val0,
double val1,
double val2,
double val3,
169 double val4,
double val5,
double val6,
double val7,
double val8)
170 VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples());
190 void InsertTuple3(
vtkIdType tupleIdx,
double val0,
double val1,
double val2)
192 void InsertTuple4(
vtkIdType tupleIdx,
double val0,
double val1,
double val2,
double val3)
194 void InsertTuple6(
vtkIdType tupleIdx,
double val0,
double val1,
double val2,
double val3,
195 double val4,
double val5)
VTK_EXPECTS(0 <= tupleIdx);
196 void InsertTuple9(
vtkIdType tupleIdx,
double val0,
double val1,
double val2,
double val3,
197 double val4,
double val5,
double val6,
double val7,
double val8)
VTK_EXPECTS(0 <= tupleIdx);
206 virtual
vtkIdType InsertNextTuple(const
float* tuple) = 0;
207 virtual
vtkIdType InsertNextTuple(const
double* tuple) = 0;
216 void InsertNextTuple1(
double value);
217 void InsertNextTuple2(
double val0,
double val1);
218 void InsertNextTuple3(
double val0,
double val1,
double val2);
219 void InsertNextTuple4(
double val0,
double val1,
double val2,
double val3);
220 void InsertNextTuple6(
221 double val0,
double val1,
double val2,
double val3,
double val4,
double val5);
222 void InsertNextTuple9(
double val0,
double val1,
double val2,
double val3,
double val4,
223 double val5,
double val6,
double val7,
double val8);
233 VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples()) = 0;
234 virtual
void RemoveFirstTuple() { this->RemoveTuple(0); }
253 VTK_EXPECTS(0 <= tupleIdx && tupleIdx < GetNumberOfTuples())
254 VTK_EXPECTS(0 <= compIdx && compIdx < GetNumberOfComponents());
300 virtual
void FillComponent(
int compIdx,
double value)
301 VTK_EXPECTS(0 <= compIdx && compIdx < GetNumberOfComponents());
316 virtual
void CopyComponent(
int dstComponent,
vtkDataArray* src,
int srcComponent);
333 unsigned long GetActualMemorySize() const override;
339 void CreateDefaultLookupTable();
367 void GetRange(
double range[2],
int comp) { this->ComputeRange(
range, comp); }
368 void GetRange(
double range[2],
int comp,
const unsigned char* ghosts,
unsigned char ghostsToSkip)
370 this->ComputeRange(
range, comp, ghosts, ghostsToSkip);
385 this->GetRange(this->
Range, comp);
430 double range[2],
int comp,
const unsigned char* ghosts,
unsigned char ghostsToSkip)
432 this->ComputeFiniteRange(
range, comp, ghosts, ghostsToSkip);
447 this->GetFiniteRange(this->FiniteRange, comp);
448 return this->FiniteRange;
576 double range[2],
int comp,
const unsigned char* ghosts,
unsigned char ghostsToSkip = 0xff);
598 double range[2],
int comp,
const unsigned char* ghosts,
unsigned char ghostsToSkip = 0xff);
619 double* ranges,
const unsigned char* ghosts,
unsigned char ghostsToSkip = 0xff);
637 double range[2],
const unsigned char* ghosts,
unsigned char ghostsToSkip = 0xff);
657 double* ranges,
const unsigned char* ghosts,
unsigned char ghostsToSkip = 0xff);
675 double range[2],
const unsigned char* ghosts,
unsigned char ghostsToSkip = 0xff);
684 double FiniteRange[2];
698 switch (
source->GetArrayType())
715 VTK_ABI_NAMESPACE_END
721 VTK_ABI_NAMESPACE_BEGIN
728 VTK_ABI_NAMESPACE_END
Abstract superclass for all arrays.
vtkIdType GetNumberOfTuples() const
Get the number of complete tuples (a component group) in the array.
virtual int GetDataTypeSize() const =0
Return the size of the underlying data type.
abstract superclass for arrays of numeric data
virtual void ComputeRange(double range[2], int comp, const unsigned char *ghosts, unsigned char ghostsToSkip=0xff)
Compute the range for a specific component.
static double GetDataTypeMin(int type)
These methods return the Min and Max possible range of the native data type.
void InterpolateTuple(vtkIdType dstTupleIdx, vtkIdList *ptIndices, vtkAbstractArray *source, double *weights) override
Set the tuple at dstTupleIdx in this array to the interpolated tuple value, given the ptIndices in th...
static vtkInformationDoubleVectorKey * L2_NORM_RANGE()
This key is used to hold tight bounds on the $L_2$ norm of tuples in the array.
virtual bool ComputeScalarRange(double *ranges, const unsigned char *ghosts, unsigned char ghostsToSkip=0xff)
Computes the range for each component of an array, the length of ranges must be two times the number ...
virtual bool ComputeVectorRange(double range[2])
Returns true if the range was computed.
int IsNumeric() const override
This method is here to make backward compatibility easier.
void SetTuple(vtkIdType dstTupleIdx, vtkIdType srcTupleIdx, vtkAbstractArray *source) override
See documentation from parent class.
void GetDataTypeRange(double range[2])
These methods return the Min and Max possible range of the native data type.
void InterpolateTuple(vtkIdType dstTupleIdx, vtkIdType srcTupleIdx1, vtkAbstractArray *source1, vtkIdType srcTupleIdx2, vtkAbstractArray *source2, double t) override
Insert the tuple at dstTupleIdx in this array to the tuple interpolated from the two tuple indices,...
virtual void ComputeRange(double range[2], int comp)
Compute the range for a specific component.
virtual bool ComputeScalarRange(double *ranges)
Computes the range for each component of an array, the length of ranges must be two times the number ...
double * GetFiniteRange(int comp)
Return the range of the data array values for the given component.
void InsertTuples(vtkIdList *dstIds, vtkIdList *srcIds, vtkAbstractArray *source) override
See documentation from parent class.
virtual bool ComputeFiniteVectorRange(double range[2], const unsigned char *ghosts, unsigned char ghostsToSkip=0xff)
Returns true if the range was computed.
void PrintSelf(ostream &os, vtkIndent indent) override
Methods invoked by print to print information about the object including superclasses.
virtual bool ComputeVectorRange(double range[2], const unsigned char *ghosts, unsigned char ghostsToSkip=0xff)
Returns true if the range was computed.
int GetArrayType() const override
Method for type-checking in FastDownCast implementations.
int GetElementComponentSize() const override
Return the size, in bytes, of the lowest-level element of an array.
virtual bool ComputeFiniteVectorRange(double range[2])
Returns true if the range was computed.
virtual void RemoveLastTuple()
These methods remove tuples from the data array.
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...
double * GetRange(int comp)
Return the range of the data array values for the given component.
static vtkInformationStringKey * UNITS_LABEL()
A human-readable string indicating the units for the array data.
void GetTuples(vtkIdType p1, vtkIdType p2, vtkAbstractArray *output) override
Get the tuples for the range of tuple ids specified (i.e., p1->p2 inclusive).
double GetDataTypeMin()
These methods return the Min and Max possible range of the native data type.
void InsertTuplesStartingAt(vtkIdType dstStart, vtkIdList *srcIds, vtkAbstractArray *source) override
See documentation from parent class.
void GetTuples(vtkIdList *tupleIds, vtkAbstractArray *output) override
Given a list of tuple ids, return an array of tuples.
virtual void GetTuple(vtkIdType tupleIdx, double *tuple)=0
Get the data tuple at tupleIdx by filling in a user-provided array, Make sure that your array is larg...
double GetTuple1(vtkIdType tupleIdx)
These methods are included as convenience for the wrappers.
double GetDataTypeMax()
These methods return the Min and Max possible range of the native data type.
static vtkInformationDoubleVectorKey * COMPONENT_RANGE()
This key is used to hold tight bounds on the range of one component over all tuples of the array.
void GetRange(double range[2])
The range of the data array values will be returned in the provided range array argument.
virtual double * GetTuple(vtkIdType tupleIdx)=0
Get the data tuple at tupleIdx.
static vtkDataArray * FastDownCast(vtkAbstractArray *source)
Perform a fast, safe cast from a vtkAbstractArray to a vtkDataArray.
double * GetRange()
Return the range of the data array.
double * GetFiniteRange()
Return the range of the data array.
static vtkInformationDoubleVectorKey * L2_NORM_FINITE_RANGE()
This key is used to hold tight bounds on the $L_2$ norm of tuples in the array.
virtual double GetComponent(vtkIdType tupleIdx, int compIdx)
Return the data component at the location specified by tupleIdx and compIdx.
int CopyInformation(vtkInformation *infoFrom, vtkTypeBool deep=1) override
Copy information instance.
vtkIdType InsertNextTuple(vtkIdType srcTupleIdx, vtkAbstractArray *source) override
See documentation from parent class.
virtual void ComputeFiniteRange(double range[2], int comp)
Compute the range for a specific component.
virtual double GetMaxNorm()
Return the maximum norm for the tuples.
double * GetTuple2(vtkIdType tupleIdx)
These methods are included as convenience for the wrappers.
void InsertTuple(vtkIdType dstTupleIdx, vtkIdType srcTupleIdx, vtkAbstractArray *source) override
See documentation from parent class.
void GetRange(double range[2], int comp, const unsigned char *ghosts, unsigned char ghostsToSkip)
The range of the data array values for the given component will be returned in the provided range arr...
static void GetDataTypeRange(int type, double range[2])
These methods return the Min and Max possible range of the native data type.
virtual bool ComputeFiniteScalarRange(double *ranges, const unsigned char *ghosts, unsigned char ghostsToSkip=0xff)
Computes the range for each component of an array, the length of ranges must be two times the number ...
virtual void ComputeFiniteRange(double range[2], int comp, const unsigned char *ghosts, unsigned char ghostsToSkip=0xff)
Compute the range for a specific component.
void GetFiniteRange(double range[2], int comp, const unsigned char *ghosts, unsigned char ghostsToSkip)
The range of the data array values for the given component will be returned in the provided range arr...
void GetFiniteRange(double range[2])
The range of the data array values will be returned in the provided range array argument.
static vtkDataArray * CreateDataArray(int dataType)
Creates an array for dataType where dataType is one of VTK_BIT, VTK_CHAR, VTK_SIGNED_CHAR,...
void InsertTuples(vtkIdType dstStart, vtkIdType n, vtkIdType srcStart, vtkAbstractArray *source) override
See documentation from parent class.
virtual bool ComputeFiniteScalarRange(double *ranges)
Computes the range for each component of an array, the length of ranges must be two times the number ...
void Modified() override
Removes out-of-date L2_NORM_RANGE() and L2_NORM_FINITE_RANGE() values.
static double GetDataTypeMax(int type)
These methods return the Min and Max possible range of the native data type.
vtkLookupTable * LookupTable
dynamic, self-adjusting array of double
represent and manipulate fields of data
list of point or cell ids
a simple class to control print indentation
map scalar values into colors via a lookup table
represent and manipulate 3D points
vtkSmartPointer< vtkDataArray > GetData(const Ioss::GroupingEntity *entity, const std::string &fieldname, Ioss::Transform *transform=nullptr, Cache *cache=nullptr, const std::string &cachekey=std::string())
Returns a VTK array for a given field (fieldname) on the chosen block (or set) entity.
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.
boost::graph_traits< vtkGraph * >::vertex_descriptor source(boost::graph_traits< vtkGraph * >::edge_descriptor e, vtkGraph *)
vtkArrayDownCast_FastCastMacro(vtkDataArray)
#define VTK_SIZEHINT(...)