/usr/include/vtk-6.3/vtkArrayExtents.h is in libvtk6-dev 6.3.0+dfsg1-11build1.
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Program: Visualization Toolkit
Module: vtkArrayExtents.h
-------------------------------------------------------------------------
Copyright 2008 Sandia Corporation.
Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation,
the U.S. Government retains certain rights in this software.
-------------------------------------------------------------------------
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.
=========================================================================*/
// .NAME vtkArrayExtents - Stores the number of dimensions and valid
// coordinate ranges along each dimension for vtkArray.
//
// .SECTION Description
// vtkArrayExtents describes the number of dimensions and coordinate
// ranges along each dimension of an N-way collection of values. It is
// used to retrieve and update the extents of a vtkArray object.
//
// Conceptually, vtkArrayExtents is a collection of vtkArrayRange
// objects, one per dimension, that store the half-open range of valid
// coordinates (the "extent") for that dimension. Because each extent is
// stored as a range rather than a size, you can: create arrays that use
// one-based coordinates for consistency with mathematics and tools such
// as MATLAB; easily represent arbitrary subsets of an array; and easily
// store and manipulate distributed arrays using "global" coordinates.
//
// Convenience constructors are provided for creating extents along one,
// two, and three dimensions. For higher dimensions, you can:
//
// Use the static Uniform() factory method to create extents that have
// the same size along an arbitrary number of dimensions.
//
// Use the default constructor and the Append() method to "grow" your
// extents to the correct number of dimensions.
//
// Use the default constructuor, SetDimensions() and operator[] to assign
// a size along each dimension.
//
// .SECTION See Also
// vtkArray, vtkArrayRange, vtkArrayCoordinates
//
// .SECTION Thanks
// Developed by Timothy M. Shead (tshead@sandia.gov) at Sandia National
// Laboratories.
#ifndef vtkArrayExtents_h
#define vtkArrayExtents_h
#include "vtkCommonCoreModule.h" // For export macro
#include "vtkSystemIncludes.h"
#include "vtkArrayRange.h"
#include <vector> // STL Header
class VTKCOMMONCORE_EXPORT vtkArrayExtents
{
public:
typedef vtkArrayCoordinates::DimensionT DimensionT;
typedef vtkArrayCoordinates::CoordinateT CoordinateT;
typedef vtkTypeUInt64 SizeT;
// Description:
// Create zero-dimensional extents.
vtkArrayExtents();
// Description:
// Create zero-based one-dimensional extents. This constructor is shorthand for
// vtkArrayExtents(vtkArrayRange(0, i)).
explicit vtkArrayExtents(const CoordinateT i);
// Description:
// Create one-dimensional extents.
explicit vtkArrayExtents(const vtkArrayRange& i);
// Description:
// Create zero-based two-dimensional extents. This constructor is shorthand for
// vtkArrayExtents(vtkArrayRange(0, i), vtkArrayRange(0, j)).
vtkArrayExtents(const CoordinateT i, const CoordinateT j);
// Description:
// Create two-dimensional extents.
vtkArrayExtents(const vtkArrayRange& i, const vtkArrayRange& j);
// Description:
// Create zero-based three-dimensional extents. This constructor is shorthand for
// vtkArrayExtents(vtkArrayRange(0, i), vtkArrayRange(0, j),
// vtkArrayRange(0, k)).
vtkArrayExtents(const CoordinateT i, const CoordinateT j, const CoordinateT k);
// Description:
// Create three-dimensional extents.
vtkArrayExtents(const vtkArrayRange& i, const vtkArrayRange& j, const vtkArrayRange& k);
// Description:
// Create n-dimensional extents with extent [0, m) along each dimension.
// This is useful for creating e.g: a square matrix.
static const vtkArrayExtents Uniform(DimensionT n, CoordinateT m);
// Description:
// Grow the number of dimensions by one, specifying the extent
// of the new dimension.
void Append(const vtkArrayRange& extent);
// Description:
// Return the current number of dimensions.
DimensionT GetDimensions() const;
// Description:
// Return the number of values that *could* be stored using the
// current extents. This is equal to the product of the size of the
// extent along each dimension.
SizeT GetSize() const;
// Description:
// Set the current number of dimensions. Note that this method
// resets the extent along each dimension to an empty range, so you
// must assign each dimension's extent explicitly using operator[]
// after calling SetDimensions().
void SetDimensions(DimensionT dimensions);
// Description:
// Accesses the extent of the i-th dimension.
vtkArrayRange& operator[](DimensionT i);
// Description:
// Accesses the extent of the i-th dimension.
const vtkArrayRange& operator[](DimensionT i) const;
// Description:
// Get the extent of the i-th dimension.
vtkArrayRange GetExtent(DimensionT i) const;
// Description:
// Set the extent of the i-th dimension.
void SetExtent(DimensionT i, const vtkArrayRange&);
// Description:
// Equality comparison
bool operator==(const vtkArrayExtents& rhs) const;
// Description:
// Inequality comparison
bool operator!=(const vtkArrayExtents& rhs) const;
// Description:
// Returns true iff every range in the current extents is zero-based.
// This is useful as a precondition test for legacy filters/operations
// that predate the switch to range-based extents and assume that all
// extents are zero-based. In general, new code should be written to
// work with arbitrary range extents, so won't need to perform this
// check.
bool ZeroBased() const;
// Description:
// Returns true iff the given extents have the same number of
// dimensions and size along each dimension. Note that the ranges
// along each dimension may have different values, so long as their
// sizes match.
bool SameShape(const vtkArrayExtents& rhs) const;
// Description:
// Returns coordinates that reference the n-th value in the extents,
// where n is in the range [0, GetSize()). The returned coordinates
// will be ordered so that the left-most indices vary fastest. This is
// equivalent to column-major ordering for matrices, and corresponds to
// the order in which consecutive array values would be stored in
// languages such as Fortran, MATLAB, Octave, and R.
void GetLeftToRightCoordinatesN(SizeT n, vtkArrayCoordinates& coordinates) const;
// Description:
// Returns coordinates that reference the n-th value in the extents,
// where n is in the range [0, GetSize()). The returned coordinates
// will be ordered so that the right-most indices vary fastest. This is
// equivalent to row-major ordering for matrices, and corresponds to
// the order in which consecutive array values would be stored in
// languages including C and C++.
void GetRightToLeftCoordinatesN(SizeT n, vtkArrayCoordinates& coordinates) const;
// Description:
// Returns true if the given extents are a non-overlapping subset of
// the current extents. Returns false if any of the given extents fall
// outside the current extents, or there is a mismatch in the number of
// dimensions.
bool Contains(const vtkArrayExtents& extents) const;
// Description:
// Returns true if the given array coordinates are completely contained
// by the current extents (i.e. extent begin <= coordinate and
// coordinate < extent end along every dimension). Returns false if
// the array coordinates are outside the current extents, or contain a
// different number of dimensions.
bool Contains(const vtkArrayCoordinates& coordinates) const;
VTKCOMMONCORE_EXPORT friend ostream& operator<<(
ostream& stream, const vtkArrayExtents& rhs);
private:
//BTX
std::vector<vtkArrayRange> Storage;
//ETX
};
#endif
// VTK-HeaderTest-Exclude: vtkArrayExtents.h
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