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https://github.com/OPM/opm-simulators.git
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191 lines
9.6 KiB
C++
191 lines
9.6 KiB
C++
/*
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Copyright 2012 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_TOFDISCGALREORDER_HEADER_INCLUDED
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#define OPM_TOFDISCGALREORDER_HEADER_INCLUDED
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#include <opm/core/transport/reorder/ReorderSolverInterface.hpp>
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#include <memory>
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#include <vector>
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#include <map>
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#include <ostream>
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struct UnstructuredGrid;
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namespace Opm
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{
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class IncompPropertiesInterface;
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class VelocityInterpolationInterface;
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class DGBasisInterface;
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namespace parameter { class ParameterGroup; }
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template <typename T> class SparseTable;
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/// Implements a discontinuous Galerkin solver for
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/// (single-phase) time-of-flight using reordering.
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/// The equation solved is:
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/// \f[v \cdot \nabla\tau = \phi\f]
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/// in which \f$ v \f$ is the fluid velocity, \f$ \tau \f$ is time-of-flight and
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/// \f$ \phi \f$ is the porosity. This is a boundary value problem, and
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/// \f$ \tau \f$ is specified to be zero on all inflow boundaries.
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/// The user may specify the polynomial degree of the basis function space
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/// used, but only degrees 0 and 1 are supported so far.
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class TofDiscGalReorder : public ReorderSolverInterface
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{
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public:
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/// Construct solver.
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/// \param[in] grid A 2d or 3d grid.
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/// \param[in] param Parameters for the solver.
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/// The following parameters are accepted (defaults):\n
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/// - \c dg_degree (0) -- Polynomial degree of basis functions.
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/// - \c use_tensorial_basis (false) -- Use tensor-product basis, interpreting dg_degree as
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/// bi/tri-degree not total degree.
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/// - \c use_cvi (false) -- Use ECVI velocity interpolation.
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/// - \c use_limiter (false) -- Use a slope limiter. If true, the next three parameters are used.
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/// - \c limiter_relative_flux_threshold (1e-3) -- Ignore upstream fluxes below this threshold,
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/// relative to total cell flux.
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/// - \c limiter_method ("MinUpwindFace") -- Limiter method used. Accepted methods are:
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/// - MinUpwindFace -- Limit cell tof to >= inflow face tofs.
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/// - MinUpwindAverage -- Limit cell tof to >= inflow cell average tofs.
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/// - \c limiter_usage ("DuringComputations") -- Usage pattern for limiter. Accepted choices are:
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/// - DuringComputations -- Apply limiter to cells as they are computed,
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/// so downstream cells' solutions may be affected
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/// by limiting in upstream cells.
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/// - AsPostProcess -- Apply in dependency order, but only after
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/// computing (unlimited) solution.
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/// - AsSimultaneousPostProcess -- Apply to each cell independently, using un-
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/// limited solution in neighbouring cells.
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TofDiscGalReorder(const UnstructuredGrid& grid,
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const parameter::ParameterGroup& param);
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/// Solve for time-of-flight.
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/// \param[in] darcyflux Array of signed face fluxes.
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/// \param[in] porevolume Array of pore volumes.
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/// \param[in] source Source term. Sign convention is:
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/// (+) inflow flux,
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/// (-) outflow flux.
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/// \param[out] tof_coeff Array of time-of-flight solution coefficients.
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/// The values are ordered by cell, meaning that
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/// the K coefficients corresponding to the first
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/// cell come before the K coefficients corresponding
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/// to the second cell etc.
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/// K depends on degree and grid dimension.
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void solveTof(const double* darcyflux,
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const double* porevolume,
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const double* source,
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std::vector<double>& tof_coeff);
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/// Solve for time-of-flight and a number of tracers.
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/// \param[in] darcyflux Array of signed face fluxes.
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/// \param[in] porevolume Array of pore volumes.
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/// \param[in] source Source term. Sign convention is:
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/// (+) inflow flux,
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/// (-) outflow flux.
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/// \param[in] tracerheads Table containing one row per tracer, and each
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/// row contains the source cells for that tracer.
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/// \param[out] tof_coeff Array of time-of-flight solution coefficients.
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/// The values are ordered by cell, meaning that
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/// the K coefficients corresponding to the first
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/// cell comes before the K coefficients corresponding
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/// to the second cell etc.
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/// K depends on degree and grid dimension.
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/// \param[out] tracer_coeff Array of tracer solution coefficients. N*K per cell,
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/// where N is equal to tracerheads.size(). All K coefs
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/// for a tracer are consecutive, and all tracers' coefs
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/// for a cell come before those for the next cell.
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void solveTofTracer(const double* darcyflux,
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const double* porevolume,
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const double* source,
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const SparseTable<int>& tracerheads,
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std::vector<double>& tof_coeff,
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std::vector<double>& tracer_coeff);
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private:
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virtual void solveSingleCell(const int cell);
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virtual void solveMultiCell(const int num_cells, const int* cells);
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void cellContribs(const int cell);
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void faceContribs(const int cell);
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void solveLinearSystem(const int cell);
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private:
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// Disable copying and assignment.
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TofDiscGalReorder(const TofDiscGalReorder&);
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TofDiscGalReorder& operator=(const TofDiscGalReorder&);
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// Data members
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const UnstructuredGrid& grid_;
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std::shared_ptr<VelocityInterpolationInterface> velocity_interpolation_;
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bool use_cvi_;
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bool use_limiter_;
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double limiter_relative_flux_threshold_;
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enum LimiterMethod { MinUpwindFace, MinUpwindAverage };
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LimiterMethod limiter_method_;
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enum LimiterUsage { DuringComputations, AsPostProcess, AsSimultaneousPostProcess };
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LimiterUsage limiter_usage_;
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const double* darcyflux_; // one flux per grid face
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const double* porevolume_; // one volume per cell
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const double* source_; // one volumetric source term per cell
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std::shared_ptr<DGBasisInterface> basis_func_;
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double* tof_coeff_;
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// For tracers.
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double* tracer_coeff_;
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int num_tracers_;
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enum { NoTracerHead = -1 };
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std::vector<int> tracerhead_by_cell_;
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bool tracers_ensure_unity_;
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// Used by solveSingleCell().
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std::vector<double> rhs_; // single-cell right-hand-sides
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std::vector<double> jac_; // single-cell jacobian
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std::vector<double> orig_rhs_; // single-cell right-hand-sides (copy)
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std::vector<double> orig_jac_; // single-cell jacobian (copy)
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std::vector<double> coord_;
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mutable std::vector<double> basis_;
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mutable std::vector<double> basis_nb_;
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std::vector<double> grad_basis_;
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std::vector<double> velocity_;
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int num_singlesolves_;
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// Used by solveMultiCell():
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double gauss_seidel_tol_;
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int num_multicell_;
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int max_size_multicell_;
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int max_iter_multicell_;
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// Private methods
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// Apply some limiter, writing to array tof
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// (will read data from tof_coeff_, it is ok to call
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// with tof_coeff as tof argument.
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void applyLimiter(const int cell, double* tof);
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void applyMinUpwindLimiter(const int cell, const bool face_min, double* tof);
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void applyLimiterAsPostProcess();
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void applyLimiterAsSimultaneousPostProcess();
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double totalFlux(const int cell) const;
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double minCornerVal(const int cell, const int face) const;
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// Apply a simple (restrict to [0,1]) limiter.
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// Intended for tracers.
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void applyTracerLimiter(const int cell, double* local_coeff);
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};
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} // namespace Opm
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#endif // OPM_TRANSPORTMODELTRACERTOFDISCGAL_HEADER_INCLUDED
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