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https://github.com/OPM/opm-simulators.git
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e0c85a2fdb
Specifically, - #include <config.h> where appropriate (all .cpp files) - Adjust include statements to account for sub-directory locations of .hpp files.
307 lines
9.5 KiB
C++
307 lines
9.5 KiB
C++
/*
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Copyright 2013 SINTEF ICT, Applied Mathematics.
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This file is part of the Open Porous Media project (OPM).
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OPM is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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OPM is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with OPM. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef OPM_AUTODIFFHELPERS_HEADER_INCLUDED
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#define OPM_AUTODIFFHELPERS_HEADER_INCLUDED
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#include <opm/autodiff/AutoDiffBlock.hpp>
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#include <opm/core/grid.h>
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// -------------------- class HelperOps --------------------
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/// Contains vectors and sparse matrices that represent subsets or
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/// operations on (AD or regular) vectors of data.
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struct HelperOps
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{
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typedef AutoDiff::ForwardBlock<double>::M M;
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typedef AutoDiff::ForwardBlock<double>::V V;
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/// A list of internal faces.
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typedef Eigen::Array<int, Eigen::Dynamic, 1> IFaces;
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IFaces internal_faces;
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/// Extract for each face the difference of its adjacent cells'values.
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M ngrad;
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/// Extract for each face the average of its adjacent cells' values.
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M caver;
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/// Extract for each cell the sum of its adjacent faces' (signed) values.
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M div;
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/// Constructs all helper vectors and matrices.
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HelperOps(const UnstructuredGrid& grid)
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{
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const int nc = grid.number_of_cells;
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const int nf = grid.number_of_faces;
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// Define some neighbourhood-derived helper arrays.
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typedef Eigen::Array<int, Eigen::Dynamic, 1> OneColInt;
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typedef Eigen::Array<bool, Eigen::Dynamic, 1> OneColBool;
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typedef Eigen::Array<int, Eigen::Dynamic, 2, Eigen::RowMajor> TwoColInt;
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typedef Eigen::Array<bool, Eigen::Dynamic, 2, Eigen::RowMajor> TwoColBool;
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TwoColInt nb = Eigen::Map<TwoColInt>(grid.face_cells, nf, 2);
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// std::cout << "nb = \n" << nb << std::endl;
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TwoColBool nbib = nb >= 0;
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OneColBool ifaces = nbib.rowwise().all();
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const int num_internal = ifaces.cast<int>().sum();
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// std::cout << num_internal << " internal faces." << std::endl;
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TwoColInt nbi(num_internal, 2);
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internal_faces.resize(num_internal);
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int fi = 0;
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for (int f = 0; f < nf; ++f) {
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if (ifaces[f]) {
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internal_faces[fi] = f;
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nbi.row(fi) = nb.row(f);
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++fi;
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}
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}
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// std::cout << "nbi = \n" << nbi << std::endl;
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// Create matrices.
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ngrad.resize(num_internal, nc);
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caver.resize(num_internal, nc);
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typedef Eigen::Triplet<double> Tri;
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std::vector<Tri> ngrad_tri;
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std::vector<Tri> caver_tri;
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ngrad_tri.reserve(2*num_internal);
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caver_tri.reserve(2*num_internal);
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for (int i = 0; i < num_internal; ++i) {
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ngrad_tri.emplace_back(i, nbi(i,0), 1.0);
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ngrad_tri.emplace_back(i, nbi(i,1), -1.0);
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caver_tri.emplace_back(i, nbi(i,0), 0.5);
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caver_tri.emplace_back(i, nbi(i,1), 0.5);
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}
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ngrad.setFromTriplets(ngrad_tri.begin(), ngrad_tri.end());
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caver.setFromTriplets(caver_tri.begin(), caver_tri.end());
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div = ngrad.transpose();
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}
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};
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// -------------------- debugger output helpers --------------------
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#if !defined(NDEBUG)
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#include <cstdio>
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#endif // !defined(NDEBUG)
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namespace {
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#if !defined(NDEBUG)
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void
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printSparseMatrix(const Eigen::SparseMatrix<double>& A,
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std::FILE* fp)
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{
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typedef Eigen::SparseMatrix<double>::Index Index;
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const Index osize = A.outerSize();
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for (Index k = 0; k < osize; ++k) {
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for (Eigen::SparseMatrix<double>::InnerIterator
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i(A, k); i ; ++i) {
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std::fprintf(fp, "%lu %lu %26.18e\n",
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static_cast<unsigned long>(i.row() + 1),
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static_cast<unsigned long>(i.col() + 1),
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i.value());
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}
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}
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}
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void
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printSparseMatrix(const Eigen::SparseMatrix<double>& A ,
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const char* const fn)
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{
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std::FILE* fp;
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fp = std::fopen(fn, "w");
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if (fp != 0) {
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printSparseMatrix(A, fp);
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}
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std::fclose(fp);
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}
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#endif // !defined(NDEBUG)
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// -------------------- upwinding helper class --------------------
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/// Upwind selection in absence of counter-current flow (i.e.,
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/// without effects of gravity and/or capillary pressure).
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template <typename Scalar>
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class UpwindSelector {
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public:
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typedef AutoDiff::ForwardBlock<Scalar> ADB;
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UpwindSelector(const UnstructuredGrid& g,
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const HelperOps& h,
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const typename ADB::V& ifaceflux)
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{
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typedef HelperOps::IFaces::Index IFIndex;
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const IFIndex nif = h.internal_faces.size();
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assert(nif == ifaceflux.size());
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// Define selector structure.
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typedef typename Eigen::Triplet<Scalar> Triplet;
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std::vector<Triplet> s; s.reserve(nif);
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for (IFIndex iface = 0; iface < nif; ++iface) {
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const int f = h.internal_faces[iface];
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const int c1 = g.face_cells[2*f + 0];
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const int c2 = g.face_cells[2*f + 1];
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assert ((c1 >= 0) && (c2 >= 0));
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// Select upwind cell.
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const int c = (ifaceflux[iface] >= 0) ? c1 : c2;
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s.push_back(Triplet(iface, c, Scalar(1)));
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}
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// Assemble explicit selector operator.
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select_.resize(nif, g.number_of_cells);
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select_.setFromTriplets(s.begin(), s.end());
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}
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/// Apply selector to multiple per-cell quantities.
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std::vector<ADB>
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select(const std::vector<ADB>& xc) const
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{
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// Absence of counter-current flow means that the same
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// selector applies to all quantities, 'x', defined per
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// cell.
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std::vector<ADB> xf; xf.reserve(xc.size());
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for (typename std::vector<ADB>::const_iterator
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b = xc.begin(), e = xc.end(); b != e; ++b)
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{
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xf.push_back(select_ * (*b));
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}
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return xf;
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}
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/// Apply selector to single per-cell ADB quantity.
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ADB select(const ADB& xc) const
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{
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return select_*xc;
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}
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/// Apply selector to single per-cell constant quantity.
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typename ADB::V select(const typename ADB::V& xc) const
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{
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return (select_*xc.matrix()).array();
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}
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private:
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typename ADB::M select_;
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};
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}
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namespace {
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template <typename Scalar, class IntVec>
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Eigen::SparseMatrix<Scalar>
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constructSubsetSparseMatrix(const int full_size, const IntVec& indices)
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{
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typedef Eigen::Triplet<Scalar> Tri;
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const int subset_size = indices.size();
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std::vector<Tri> triplets(subset_size);
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for (int i = 0; i < subset_size; ++i) {
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triplets[i] = Tri(i, indices[i], 1);
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}
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Eigen::SparseMatrix<Scalar> sub(subset_size, full_size);
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sub.setFromTriplets(triplets.begin(), triplets.end());
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return sub;
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}
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template <typename Scalar, class IntVec>
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Eigen::SparseMatrix<Scalar>
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constructSupersetSparseMatrix(const int full_size, const IntVec& indices)
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{
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return constructSubsetSparseMatrix<Scalar>(full_size, indices).transpose();
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}
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} // anon namespace
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/// Returns x(indices).
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template <typename Scalar, class IntVec>
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AutoDiff::ForwardBlock<Scalar>
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subset(const AutoDiff::ForwardBlock<Scalar>& x,
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const IntVec& indices)
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{
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return ::constructSubsetSparseMatrix<Scalar>(x.value().size(), indices) * x;
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}
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/// Returns x(indices).
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template <typename Scalar, class IntVec>
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Eigen::Array<Scalar, Eigen::Dynamic, 1>
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subset(const Eigen::Array<Scalar, Eigen::Dynamic, 1>& x,
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const IntVec& indices)
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{
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return (::constructSubsetSparseMatrix<Scalar>(x.size(), indices) * x.matrix()).array();
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}
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/// Returns v where v(indices) == x, v(!indices) == 0 and v.size() == n.
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template <typename Scalar, class IntVec>
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AutoDiff::ForwardBlock<Scalar>
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superset(const AutoDiff::ForwardBlock<Scalar>& x,
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const IntVec& indices,
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const int n)
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{
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return ::constructSupersetSparseMatrix<Scalar>(n, indices) * x;
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}
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/// Returns v where v(indices) == x, v(!indices) == 0 and v.size() == n.
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template <typename Scalar, class IntVec>
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Eigen::Array<Scalar, Eigen::Dynamic, 1>
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superset(const Eigen::Array<Scalar, Eigen::Dynamic, 1>& x,
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const IntVec& indices,
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const int n)
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{
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return ::constructSupersetSparseMatrix<Scalar>(n, indices) * x;
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}
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/// Construct square sparse matrix with the
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/// elements of d on the diagonal.
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/// Need to mark this as inline since it is defined in a header and not a template.
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inline
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AutoDiff::ForwardBlock<double>::M
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spdiag(const AutoDiff::ForwardBlock<double>::V& d)
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{
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typedef AutoDiff::ForwardBlock<double>::M M;
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const int n = d.size();
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M mat(n, n);
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mat.reserve(Eigen::ArrayXi::Ones(n, 1));
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for (M::Index i = 0; i < n; ++i) {
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mat.insert(i, i) = d[i];
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}
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return mat;
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}
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#endif // OPM_AUTODIFFHELPERS_HEADER_INCLUDED
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