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occt/src/BOPTools/BOPTools_PairSelector.hxx

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// Created by: Eugeny MALTCHIKOV
// Copyright (c) 2017 OPEN CASCADE SAS
//
// This file is part of Open CASCADE Technology software library.
//
// This library is free software; you can redistribute it and/or modify it under
// the terms of the GNU Lesser General Public License version 2.1 as published
// by the Free Software Foundation, with special exception defined in the file
// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
// distribution for complete text of the license and disclaimer of any warranty.
//
// Alternatively, this file may be used under the terms of Open CASCADE
// commercial license or contractual agreement.
#ifndef BOPTools_PairSelector_HeaderFile
#define BOPTools_PairSelector_HeaderFile
#include <BVH_Traverse.hxx>
#include <BVH_BoxSet.hxx>
#include <Standard_Integer.hxx>
#include <algorithm>
//! Template Selector for selection of the elements from two BVH trees.
template <int Dimension>
class BOPTools_PairSelector :
public BVH_PairTraverse <Standard_Real, Dimension, BVH_BoxSet <Standard_Real, Dimension, Standard_Integer>>
{
public: //! @name public types
//! Auxiliary structure to keep the pair of indices
struct PairIDs
{
PairIDs (const Standard_Integer theId1 = -1,
const Standard_Integer theId2 = -1)
: ID1 (theId1), ID2 (theId2)
{}
Standard_Boolean operator< (const PairIDs& theOther) const
{
return ID1 < theOther.ID1 ||
(ID1 == theOther.ID1 && ID2 < theOther.ID2);
}
Standard_Integer ID1;
Standard_Integer ID2;
};
typedef typename BVH::VectorType<Standard_Real, Dimension>::Type BVH_VecNd;
public: //! @name Constructor
//! Empty constructor
BOPTools_PairSelector()
: mySameBVHs (Standard_False)
{}
public: //! @name public interfaces
//! Clears the indices
void Clear()
{
myPairs.Clear();
}
//! Sorts the indices
void Sort()
{
std::sort (myPairs.begin(), myPairs.end());
}
//! Tells to selector that BVH trees are the same.
//! If the flag is set to true the resulting vector will contain
//! only unique pairs (mirrored pairs will be rejected,
//! e.g. (1, 2) will be taken, (2, 1) will be rejected) and will
//! not contain pairs in which IDs are the same (pair (1, 1) will be rejected).
//! If it is required to have a full vector of pairs even
//! for the same BVH trees, just keep the false value of this flag.
void SetSame (const Standard_Boolean theIsSame)
{
mySameBVHs = theIsSame;
}
//! Returns the list of accepted indices
const std::vector<PairIDs>& Pairs() const
{
return myPairs;
}
public: //! @name Rejection/Acceptance rules
//! Basing on the bounding boxes of the nodes checks if the pair of nodes should be rejected.
virtual Standard_Boolean RejectNode (const BVH_VecNd& theCMin1,
const BVH_VecNd& theCMax1,
const BVH_VecNd& theCMin2,
const BVH_VecNd& theCMax2,
Standard_Real&) const Standard_OVERRIDE
{
return BVH_Box<Standard_Real, 3> (theCMin1, theCMax1).IsOut (theCMin2, theCMax2);
}
//! Checks if the pair of elements should be rejected.
Standard_Boolean RejectElement (const Standard_Integer theID1,
const Standard_Integer theID2)
{
return (mySameBVHs && theID1 >= theID2) ||
this->myBVHSet1->Box (theID1).IsOut(
this->myBVHSet2->Box (theID2));
}
//! Checks and accepts the pair of elements.
virtual Standard_Boolean Accept (const Standard_Integer theID1,
const Standard_Integer theID2) Standard_OVERRIDE
{
if (!RejectElement (theID1, theID2))
{
myPairs.push_back (PairIDs (this->myBVHSet1->Element (theID1),
this->myBVHSet2->Element (theID2)));
return Standard_True;
}
return Standard_False;
}
protected: //! @name Fields
std::vector<PairIDs> myPairs; //!< Selected pairs of indices
Standard_Boolean mySameBVHs; //!< Selection is performed from the same BVH trees
};
#endif
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