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/* This file is part of the Palabos library.
 *
 * Copyright (C) 2011-2015 FlowKit Sarl
 * Route d'Oron 2
 * 1010 Lausanne, Switzerland
 * E-mail contact: contact@flowkit.com
 *
 * The most recent release of Palabos can be downloaded at 
 * <http://www.palabos.org/>
 *
 * The library Palabos is free software: you can redistribute it and/or
 * modify it under the terms of the GNU Affero General Public License as
 * published by the Free Software Foundation, either version 3 of the
 * License, or (at your option) any later version.
 *
 * The library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU Affero General Public License for more details.
 *
 * You should have received a copy of the GNU Affero General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
*/

#ifndef FLOW_TO_WALL_3D_HH
#define FLOW_TO_WALL_3D_HH

#include "core/globalDefs.h"
#include "offLattice/flowToWall3D.h"
#include "core/util.h"
#include <algorithm>

namespace plb {

template<typename T, template<typename U> class Descriptor, class ValueT>
ValueT optimalInterpolate( Lattice<T,Descriptor>& lattice, T x, T y, T z,
                           ExtrapolateValue3D<T,Descriptor,ValueT> const& extrapValue,
                           bool& success, float& quality )
{
    Array<ValueT, 4> values;
    Array<int, 4> ok;
    values[0] = extrapValue(lattice, -2, x, y, z, ok[0]);
    values[1] = extrapValue(lattice, -1, x, y, z, ok[1]);
    values[2] = extrapValue(lattice, +1, x, y, z, ok[2]);
    values[3] = extrapValue(lattice, +2, x, y, z, ok[3]);

    ValueT value = ValueT();
    quality = 0;  // By default, success failed.
    if (ok[1]) {                                  //  ? x ? ?
        if (ok[2]) {                              //  ? x x ?
            if (ok[3]) {                          //  ? x x x
                if (ok[0]) {                      //  x x x x ####
                    // O(4) interpolate: excellent quality.
                    quality = 4;
                }
                else {                            //  . x x x ####
                    // O(3) interpolate: good quality.
                    quality = 3;
                }
            }
            else {                                //  ? x x .
                if (ok[0]) {                      //  x x x . ####
                    // O(3) interpolate: good quality.
                    quality = 3;
                }
                else {                            //  . x x . ####
                    // O(2) interpolate: fair quality.
                    quality = 2;
                }
            }
        }
        else {                                    //  ? x . ?
            if (ok[0]) {                          //  x x . ? ####
                // Extrapolate: bad quality.
                quality = 1;
            }
        }
    }
    else {                                        //  ? . ? ?
        if (ok[2] && ok[3]) {                     //  ? . x x ####
            // Extrapolate: bad quality.
            quality = 1;
        }
    }
    return value;
}

template<typename T, template<typename U> class Descriptor, class ValueT>
ExtrapolateValue3D<T,Descriptor,ValueT>::ExtrapolateValue3D(ComputeValue3D<T,Descriptor,ValueT>* computeValue_)
    : computeValue(computeValue_)
{ }

template<typename T, template<typename U> class Descriptor, class ValueT>
ExtrapolateValue3D<T,Descriptor,ValueT>::ExtrapolateValue3D(ExtrapolateValue3D<T,Descriptor,ValueT> const& rhs)
    computeValue(rhs.computeValue->clone())
{ }

template<typename T, template<typename U> class Descriptor, class ValueT>
ExtrapolateValue3D<T,Descriptor,ValueT>& 
    ExtrapolateValue3D<T,Descriptor,ValueT>::operator=(ExtrapolateValue3D<T,Descriptor,ValueT> const& rhs);
{
    ExtrapolateValue3D<T,Descriptor,ValueT>(rhs).swap(*this);
    return *this;
}

template<typename T, template<typename U> class Descriptor, class ValueT>
void ExtrapolateValue3D<T,Descriptor,ValueT>::swap(ExtrapolateValue3D<T,Descriptor,ValueT>& rhs) {
    std::swap(computeValue, rhs.computeValue);
}

template<typename T, template<typename U> class Descriptor, class ValueT>
ExtrapolateValue3D<T,Descriptor,ValueT>::~ExtrapolateValue3D() {
    delete computeValue;
}


template<typename T, template<typename U> class Descriptor, class ValueT>
TerminalExtrapolateValue3D::TerminalExtrapolateValue3D(ComputeValue3D<T,Descriptor,ValueT>* computeValue_)
    : ExtrapolateValue3D<T,Descriptor,ValueT>(computeValue_)
{ }

template<typename T, template<typename U> class Descriptor, class ValueT>
std::vector<T> TerminalExtrapolateValue3D::operator() (
        BlockLattice3D<T,Descriptor> const& lattice, plint increment,
        T x, T y, T z ) const
{
    PLB_ASSERT( increment==0 );
    plint iX = util::roundToInt(x);
    plint iY = util::roundToInt(y);
    plint iZ = util::roundToInt(z);
    this->compute(lattice, iX,iY,iZ);
}

template<typename T, template<typename U> class Descriptor, class ValueT>
TerminalExtrapolateValue3D<T,Descriptor,ValueT>* TerminalExtrapolateValue3D<T,Descriptor,ValueT>::clone() const
{
    return new TerminalExtrapolateValue3D<T,Descriptor,ValueT>(*this);
}


template<typename T, template<typename U> class Descriptor, class ValueT>
X_ExtrapolateValue3D<T,Descriptor,ValueT>::X_ExtrapolateValue3D (
          ComputeValue3D<T,Descriptor,ValueT>* computeValue_,
          X_ExtrapolateValue3D<T,Descriptor,ValueT>* recurseValue_ )
    : ExtrapolateValue3D<T,Descriptor,ValueT>(computeValue_),
      recurseValue(recurseValue_)
{ }

template<typename T, template<typename U> class Descriptor, class ValueT>
X_ExtrapolateValue3D<T,Descriptor,ValueT>::X_ExtrapolateValue3D(X_ExtrapolateValue3D<T,Descriptor,ValueT> const& rhs)
    : ExtrapolateValue3D<T,Descriptor,ValueT>(rhs),
      recurseValue(rhs.recurseValue->clone())
{ }

template<typename T, template<typename U> class Descriptor, class ValueT>
X_ExtrapolateValue3D<T,Descriptor,ValueT>&
    X_ExtrapolateValue3D<T,Descriptor,ValueT>::operator=(X_ExtrapolateValue3D<T,Descriptor,ValueT> const& rhs)
{
    X_ExtrapolateValue3D<T,Descriptor,ValueT>(rhs).swap(*this);
    return *this;
}

template<typename T, template<typename U> class Descriptor, class ValueT>
void X_ExtrapolateValue3D<T,Descriptor,ValueT>::swap(X_ExtrapolateValue3D<T,Descriptor,ValueT>& rhs) {
    ExtrapolateValue3D<T,Descriptor,ValueT>::swap(rhs);
    std::swap(recurseValue, rhs.recurseValue);
}

template<typename T, template<typename U> class Descriptor, class ValueT>
X_ExtrapolateValue3D<T,Descriptor,ValueT>::~X_ExtrapolateValue3D() {
    delete recurseValue;
}

template<typename T, template<typename U> class Descriptor, class ValueT>
std::vector<T> X_ExtrapolateValue3D<T,Descriptor,ValueT>::operator() (
            BlockLattice3D<T,Descriptor> const& lattice, plint increment,
            T x, T y, T z ) const
{
    plint iX = util::roundDown(x);
    switch(increment) {
        case -1:          break;
        case -2: iX -= 1; break;
        case +1: iX += 1; break;
        case +2: iX += 2; break;
        defaul: PLB_ASSERT( false );
    }
    BLA
}

template<typename T, template<typename U> class Descriptor, class ValueT>
X_ExtrapolateValue3D<T,Descriptor,ValueT>* X_ExtrapolateValue3D<T,Descriptor,ValueT>::clone() const
{
    return new X_ExtrapolateValue3D<T,Descriptor,ValueT>(*this);
}

}  // namespace plb

#endif  // FLOW_TO_WALL_3D_HH