// David Eberly, Geometric Tools, Redmond WA 98052
// Copyright (c) 1998-2020
// Distributed under the Boost Software License, Version 1.0.
// https://www.boost.org/LICENSE_1_0.txt
// https://www.geometrictools.com/License/Boost/LICENSE_1_0.txt
// Version: 4.0.2019.08.13
#pragma once
#include <Mathematics/DCPQuery.h>
#include <Mathematics/AlignedBox.h>
#include <Mathematics/IntrIntervals.h>
namespace WwiseGTE
{
template <int N, typename Real>
class DCPQuery<Real, AlignedBox<N, Real>, AlignedBox<N, Real>>
{
public:
struct Result
{
Real distance, sqrDistance;
// To compute a single closest point on each box, use
// Vector<N, Real> closest0 =
// (closestPoints[0].min + closestPoints[0].max)/2;
// Vector<N, Real> closest1 =
// (closestPoints[1].min + closestPoints[1].max)/2;
AlignedBox<N, Real> closestPoints[2];
};
Result operator()(AlignedBox<N, Real> const& box0, AlignedBox<N, Real> const& box1)
{
Result result;
result.sqrDistance = (Real)0;
for (int i = 0; i < N; ++i)
{
if (box0.min[i] >= box1.max[i])
{
Real delta = box0.min[i] - box1.min[i];
result.sqrDistance += delta * delta;
result.closestPoints[0].min[i] = box0.min[i];
result.closestPoints[0].max[i] = box0.min[i];
result.closestPoints[1].min[i] = box1.max[i];
result.closestPoints[1].max[i] = box1.max[i];
}
else if (box1.min[i] >= box0.max[i])
{
Real delta = box1.min[i] - box0.max[i];
result.sqrDistance += delta * delta;
result.closestPoints[0].min[i] = box0.max[i];
result.closestPoints[0].max[i] = box0.max[i];
result.closestPoints[1].min[i] = box1.min[i];
result.closestPoints[1].max[i] = box1.min[i];
}
else
{
std::array<Real, 2> intr0 = { box0.min[i], box0.max[i] };
std::array<Real, 2> intr1 = { box1.min[i], box1.max[i] };
FIQuery<Real, std::array<Real, 2>, std::array<Real, 2>> query;
auto iiResult = query(intr0, intr1);
for (int j = 0; j < 2; ++j)
{
result.closestPoints[j].min[i] = iiResult.overlap[0];
result.closestPoints[j].max[i] = iiResult.overlap[1];
}
}
}
result.distance = std::sqrt(result.sqrDistance);
return result;
}
};
}