/usr/include/vtk-7.1/vtkPoints.h is in libvtk7-dev 7.1.1+dfsg1-2.
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Program: Visualization Toolkit
Module: vtkPoints.h
Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
All rights reserved.
See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notice for more information.
=========================================================================*/
/**
* @class vtkPoints
* @brief represent and manipulate 3D points
*
* vtkPoints represents 3D points. The data model for vtkPoints is an
* array of vx-vy-vz triplets accessible by (point or cell) id.
*/
#ifndef vtkPoints_h
#define vtkPoints_h
#include "vtkCommonCoreModule.h" // For export macro
#include "vtkObject.h"
#include "vtkDataArray.h" // Needed for inline methods
class vtkIdList;
class VTKCOMMONCORE_EXPORT vtkPoints : public vtkObject
{
public:
static vtkPoints *New(int dataType);
static vtkPoints *New();
vtkTypeMacro(vtkPoints,vtkObject);
void PrintSelf(ostream& os, vtkIndent indent) VTK_OVERRIDE;
/**
* Allocate initial memory size. ext is no longer used.
*/
virtual int Allocate(const vtkIdType sz, const vtkIdType ext = 1000);
/**
* Return object to instantiated state.
*/
virtual void Initialize();
/**
* Set/Get the underlying data array. This function must be implemented
* in a concrete subclass to check for consistency. (The tuple size must
* match the type of data. For example, 3-tuple data array can be assigned to
* a vector, normal, or points object, but not a tensor object, which has a
* tuple dimension of 9. Scalars, on the other hand, can have tuple dimension
* from 1-4, depending on the type of scalar.)
*/
virtual void SetData(vtkDataArray *);
vtkDataArray *GetData() { return this->Data; }
/**
* Return the underlying data type. An integer indicating data type is
* returned as specified in vtkSetGet.h.
*/
virtual int GetDataType();
/**
* Specify the underlying data type of the object.
*/
virtual void SetDataType(int dataType);
void SetDataTypeToBit() { this->SetDataType(VTK_BIT); }
void SetDataTypeToChar() { this->SetDataType(VTK_CHAR); }
void SetDataTypeToUnsignedChar() { this->SetDataType(VTK_UNSIGNED_CHAR); }
void SetDataTypeToShort() { this->SetDataType(VTK_SHORT); }
void SetDataTypeToUnsignedShort() { this->SetDataType(VTK_UNSIGNED_SHORT); }
void SetDataTypeToInt() { this->SetDataType(VTK_INT); }
void SetDataTypeToUnsignedInt() { this->SetDataType(VTK_UNSIGNED_INT); }
void SetDataTypeToLong() { this->SetDataType(VTK_LONG); }
void SetDataTypeToUnsignedLong() { this->SetDataType(VTK_UNSIGNED_LONG); }
void SetDataTypeToFloat() { this->SetDataType(VTK_FLOAT); }
void SetDataTypeToDouble() { this->SetDataType(VTK_DOUBLE); }
/**
* Return a void pointer. For image pipeline interface and other
* special pointer manipulation.
*/
void *GetVoidPointer(const int id) { return this->Data->GetVoidPointer(id); }
/**
* Reclaim any extra memory.
*/
virtual void Squeeze() { this->Data->Squeeze(); }
/**
* Make object look empty but do not delete memory.
*/
virtual void Reset();
//@{
/**
* Different ways to copy data. Shallow copy does reference count (i.e.,
* assigns pointers and updates reference count); deep copy runs through
* entire data array assigning values.
*/
virtual void DeepCopy(vtkPoints *ad);
virtual void ShallowCopy(vtkPoints *ad);
//@}
/**
* Return the memory in kibibytes (1024 bytes) consumed by this attribute data.
* Used to support streaming and reading/writing data. The value
* returned is guaranteed to be greater than or equal to the
* memory required to actually represent the data represented
* by this object. The information returned is valid only after
* the pipeline has been updated.
*/
unsigned long GetActualMemorySize();
/**
* Return number of points in array.
*/
vtkIdType GetNumberOfPoints() { return this->Data->GetNumberOfTuples(); }
/**
* Return a pointer to a double point x[3] for a specific id.
* WARNING: Just don't use this error-prone method, the returned pointer
* and its values are only valid as long as another method invocation is not
* performed. Prefer GetPoint() with the return value in argument.
*/
double *GetPoint(vtkIdType id) { return this->Data->GetTuple(id); }
/**
* Copy point components into user provided array v[3] for specified
* id.
*/
void GetPoint(vtkIdType id, double x[3]) { this->Data->GetTuple(id,x); }
/**
* Insert point into object. No range checking performed (fast!).
* Make sure you use SetNumberOfPoints() to allocate memory prior
* to using SetPoint().
*/
void SetPoint(vtkIdType id, const float x[3]) { this->Data->SetTuple(id,x); }
void SetPoint(vtkIdType id, const double x[3]) { this->Data->SetTuple(id,x); }
void SetPoint(vtkIdType id, double x, double y, double z);
//@{
/**
* Insert point into object. Range checking performed and memory
* allocated as necessary.
*/
void InsertPoint(vtkIdType id, const float x[3])
{ this->Data->InsertTuple(id,x);};
void InsertPoint(vtkIdType id, const double x[3])
{this->Data->InsertTuple(id,x);};
void InsertPoint(vtkIdType id, double x, double y, double z);
//@}
/**
* Copy the points indexed in srcIds from the source array to the tuple
* locations indexed by dstIds in this array.
* Note that memory allocation is performed as necessary to hold the data.
*/
void InsertPoints(vtkIdList *dstIds, vtkIdList *srcIds, vtkPoints *source)
{ this->Data->InsertTuples(dstIds, srcIds, source->Data); }
/**
* Copy n consecutive points starting at srcStart from the source array to
* this array, starting at the dstStart location.
* Note that memory allocation is performed as necessary to hold the data.
*/
void InsertPoints(vtkIdType dstStart, vtkIdType n, vtkIdType srcStart,
vtkPoints* source)
{ this->Data->InsertTuples(dstStart, n, srcStart, source->Data); }
/**
* Insert point into next available slot. Returns id of slot.
*/
vtkIdType InsertNextPoint(const float x[3])
{ return this->Data->InsertNextTuple(x); }
vtkIdType InsertNextPoint(const double x[3])
{ return this->Data->InsertNextTuple(x); }
vtkIdType InsertNextPoint(double x, double y, double z);
/**
* Specify the number of points for this object to hold. Does an
* allocation as well as setting the MaxId ivar. Used in conjunction with
* SetPoint() method for fast insertion.
*/
void SetNumberOfPoints(vtkIdType numPoints);
/**
* Resize the internal array while conserving the data. Returns 1 if
* resizing succeeded and 0 otherwise.
*/
int Resize(vtkIdType numPoints);
/**
* Given a list of pt ids, return an array of points.
*/
void GetPoints(vtkIdList *ptId, vtkPoints *fp);
/**
* Determine (xmin,xmax, ymin,ymax, zmin,zmax) bounds of points.
*/
virtual void ComputeBounds();
/**
* Return the bounds of the points.
*/
double *GetBounds();
/**
* Return the bounds of the points.
*/
void GetBounds(double bounds[6]);
/**
* The modified time of the points.
*/
vtkMTimeType GetMTime() VTK_OVERRIDE;
protected:
vtkPoints(int dataType = VTK_FLOAT);
~vtkPoints() VTK_OVERRIDE;
double Bounds[6];
vtkTimeStamp ComputeTime; // Time at which bounds computed
vtkDataArray *Data; // Array which represents data
private:
vtkPoints(const vtkPoints&) VTK_DELETE_FUNCTION;
void operator=(const vtkPoints&) VTK_DELETE_FUNCTION;
};
inline void vtkPoints::Reset()
{
this->Data->Reset();
this->Modified();
}
inline void vtkPoints::SetNumberOfPoints(vtkIdType numPoints)
{
this->Data->SetNumberOfComponents(3);
this->Data->SetNumberOfTuples(numPoints);
this->Modified();
}
inline int vtkPoints::Resize(vtkIdType numPoints)
{
this->Data->SetNumberOfComponents(3);
this->Modified();
return this->Data->Resize(numPoints);
}
inline void vtkPoints::SetPoint(vtkIdType id, double x, double y, double z)
{
double p[3] = { x, y, z };
this->Data->SetTuple(id, p);
}
inline void vtkPoints::InsertPoint(vtkIdType id, double x, double y, double z)
{
double p[3] = { x, y, z };
this->Data->InsertTuple(id, p);
}
inline vtkIdType vtkPoints::InsertNextPoint(double x, double y, double z)
{
double p[3] = { x, y, z };
return this->Data->InsertNextTuple(p);
}
#endif
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