/usr/include/libwildmagic/Wm5IntervalManager.h is in libwildmagic-dev 5.13-1+b2.
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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: 5.0.1 (2010/10/01)
#ifndef WM5INTERVALMANAGER_H
#define WM5INTERVALMANAGER_H
#include "Wm5PhysicsLIB.h"
#include "Wm5EdgeKey.h"
#include "Wm5Vector2.h"
namespace Wm5
{
template <typename Real>
class WM5_PHYSICS_ITEM IntervalManager
{
public:
// Intervals are of the form [b,e] where b is the beginning value and e
// is the ending value with b < e. The end points are stored as a
// Vector2.
// Construction and destruction.
IntervalManager (std::vector<Vector2<Real> >& interval);
~IntervalManager ();
// This function is called by the constructor and does the sort-and-sweep
// to initialize the update system. However, if you add or remove items
// from the array of intervals after the constructor call, you will need
// to call this function once before you start the multiple calls of the
// update function.
void Initialize ();
// After the system is initialized, you can move the intervals using this
// function. It is not enough to modify the input array of intervals
// since the end point values stored internally by this class must also
// change. You can also retrieve the current interval information.
void SetInterval (int i, Real minValue, Real maxValue);
void GetInterval (int i, Real& minValue, Real& maxValue) const;
// When you are finished moving intervals, call this function to determine
// the overlapping intervals. An incremental update is applied to
// determine the new set of overlapping intervals.
void Update ();
// If (i,j) is in the overlap set, then interval i and interval j are
// overlapping. The indices are those for the the input array. The
// set elements (i,j) are stored so that i < j.
const std::set<EdgeKey>& GetOverlap () const;
private:
class Endpoint
{
public:
Real Value; // endpoint value
int Type; // '0' if interval min, '1' if interval max.
int Index; // index of interval containing this endpoint
// Support for sorting of endpoints.
bool operator< (const Endpoint& endpoint) const;
};
std::vector<Vector2<Real> >* mInterval;
std::vector<Endpoint> mEndpoint;
std::set<EdgeKey> mOverlap;
// The intervals are indexed 0 <= i < n. The endpoint array has 2*n
// entries. The original 2*n interval values are ordered as b[0], e[0],
// b[1], e[1], ..., b[n-1], e[n-1]. When the endpoint array is sorted,
// the mapping between interval values and endpoints is lost. In order
// to modify interval values that are stored in the endpoint array, we
// need to maintain the mapping. This is done by the following lookup
// table of 2*n entries. The value mLookup[2*i] is the index of b[i]
// in the endpoint array. The value mLookup[2*i+1] is the index of
// e[i] in the endpoint array.
std::vector<int> mLookup;
};
typedef IntervalManager<float> IntervalManagerf;
typedef IntervalManager<double> IntervalManagerd;
}
#endif
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