15 #ifndef __vtkDataSetEdgeSubdivisionCriterion_h
16 #define __vtkDataSetEdgeSubdivisionCriterion_h
69 virtual bool EvaluateEdge(
const double* p0,
double* midpt,
const double* p1,
int field_start );
100 double* EvaluateFields(
double* vertex,
double* weights,
int field_start );
106 void EvaluatePointDataField(
double* result,
double* weights,
int field );
107 void EvaluateCellDataField(
double* result,
double* weights,
int field );
113 vtkSetMacro(ChordError2,
double);
114 vtkGetMacro(ChordError2,
double);
122 virtual void SetFieldError2(
int s,
double err );
123 double GetFieldError2(
int s )
const;
129 virtual void ResetFieldError2();
135 vtkGetMacro(ActiveFieldCriteria,
int);
172 #endif // __vtkDataSetEdgeSubdivisionCriterion_h
a subclass of vtkEdgeSubdivisionCriterion for vtkDataSet objects.
abstract class to specify dataset behavior
int GetActiveFieldCriteria() const
abstract class to specify cell behavior
a simple class to control print indentation
virtual void PrintSelf(ostream &os, vtkIndent indent)
virtual bool EvaluateEdge(const double *p0, double *p1, const double *p2, int field_start)=0
how to decide whether a linear approximation to nonlinear geometry or field should be subdivided ...
vtkCell * CurrentCellData
vtkIdType GetCellId() const