/usr/include/libwildmagic/Wm5ConvexHull.h is in libwildmagic-dev 5.13-1ubuntu1.
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// Copyright (c) 1998-2014
// Distributed under the Boost Software License, Version 1.0.
// http://www.boost.org/LICENSE_1_0.txt
// http://www.geometrictools.com/License/Boost/LICENSE_1_0.txt
//
// File Version: 5.0.2 (2013/05/12)
#ifndef WM5CONVEXHULL_H
#define WM5CONVEXHULL_H
#include "Wm5MathematicsLIB.h"
#include "Wm5FileIO.h"
#include "Wm5Query.h"
namespace Wm5
{
template <typename Real>
class WM5_MATHEMATICS_ITEM ConvexHull
{
public:
// Abstract base class.
virtual ~ConvexHull ();
// Member accessors. For notational purposes in this class documentation,
// The number of vertices is VQ and the vertex array is V.
int GetQueryType () const;
int GetNumVertices () const;
Real GetEpsilon () const;
bool GetOwner () const;
// The dimension of the result, call it d. If n is the dimension of the
// space of the input points, then 0 <= d <= n.
int GetDimension () const;
// The interpretations of the return values of these functions depends on
// the dimension. Generally, SQ = GetNumSimplices() is the number of
// simplices in the mesh. The array I is returned by GetIndices().
int GetNumSimplices () const;
const int* GetIndices () const;
// Dimension d = 0.
// SQ = 1
// I = null (use index zero for vertices)
// Dimension d = 1.
// SQ = 2
// I = array of two indices
// The segment has end points
// vertex[0] = V[I[0]]
// vertex[1] = V[I[1]]
// Dimension d = 2.
// SQ = number of convex polygon edges
// I = array of indices into V that represent the convex polygon edges
// (SQ total elements)
// The i-th edge has vertices
// vertex[0] = V[I[i]]
// vertex[1] = V[I[(i+1) % SQ]]
// Dimension d = 3.
// SQ = number of convex polyhedron triangular faces
// I = array of 3-tuples of indices into V that represent the
// triangles (3*SQ total elements)
// The i-th face has vertices
// vertex[0] = V[I[3*i+0]]
// vertex[1] = V[I[3*i+1]]
// vertex[2] = V[I[3*i+2]]
protected:
// Abstract base class. The number of vertices to be processed is
// 'numVertices'. The value of 'epsilon' is a tolerance used for
// determining the intrinsic dimension of the input set of vertices.
// Ownership of the input points to the constructors for the derived
// classes may be transferred to this class. If you want the input
// vertices to be deleted by this class, set 'owner' to 'true';
// otherwise, you own the array and must delete it yourself.
ConvexHull (int numVertices, Real epsilon, bool owner,
Query::Type queryType);
// Support for streaming to/from disk.
bool Load (FileIO& inFile);
bool Save (FileIO& outFile) const;
Query::Type mQueryType;
int mNumVertices;
int mDimension;
int mNumSimplices;
int* mIndices;
Real mEpsilon;
bool mOwner;
};
typedef ConvexHull<float> ConvexHullf;
typedef ConvexHull<double> ConvexHulld;
}
#endif
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