2012-02-20 06:23:01 -06:00
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/*
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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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#include <opm/core/pressure/IncompTpfa.hpp>
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#include <opm/core/pressure/tpfa/ifs_tpfa.h>
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#include <opm/core/pressure/tpfa/trans_tpfa.h>
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#include <opm/core/pressure/mimetic/mimetic.h>
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#include <opm/core/pressure/flow_bc.h>
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#include <opm/core/linalg/LinearSolverInterface.hpp>
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#include <opm/core/linalg/sparse_sys.h>
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#include <opm/core/utility/ErrorMacros.hpp>
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#include <opm/core/newwells.h>
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namespace Opm
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{
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/// Construct solver.
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/// \param[in] g A 2d or 3d grid.
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/// \param[in] permeability Array of permeability tensors, the array
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/// should have size N*D^2, if D == g.dimensions
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/// and N == g.number_of_cells.
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/// \param[in] gravity Gravity vector. If nonzero, the array should
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/// have D elements.
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/// \param[in] wells The wells argument. Will be used in solution,
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/// is ignored if NULL
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IncompTpfa::IncompTpfa(const UnstructuredGrid& g,
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const double* permeability,
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const double* gravity,
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const LinearSolverInterface& linsolver,
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const struct Wells* wells)
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: grid_(g),
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linsolver_(linsolver),
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htrans_(g.cell_facepos[ g.number_of_cells ]),
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trans_ (g.number_of_faces),
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wells_(wells)
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{
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UnstructuredGrid* gg = const_cast<UnstructuredGrid*>(&grid_);
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tpfa_htrans_compute(gg, permeability, &htrans_[0]);
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if (gravity) {
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gpress_.resize(g.cell_facepos[ g.number_of_cells ], 0.0);
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mim_ip_compute_gpress(gg->number_of_cells, gg->dimensions, gravity,
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gg->cell_facepos, gg->cell_faces,
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gg->face_centroids, gg->cell_centroids,
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&gpress_[0]);
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}
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// gpress_omegaweighted_ is sent to assembler always, and it dislikes
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// getting a zero pointer.
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gpress_omegaweighted_.resize(g.cell_facepos[ g.number_of_cells ], 0.0);
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h_ = ifs_tpfa_construct(gg, const_cast<struct Wells*>(wells_));
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}
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/// Destructor.
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IncompTpfa::~IncompTpfa()
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{
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ifs_tpfa_destroy(h_);
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}
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/// Assemble and solve pressure system.
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/// \param[in] totmob Must contain N total mobility values (one per cell).
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/// totmob = \sum_{p} kr_p/mu_p.
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/// \param[in] omega Must be empty if constructor gravity argument was null.
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/// Otherwise must contain N mobility-weighted density values (one per cell).
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/// omega = \frac{\sum_{p} mob_p rho_p}{\sum_p rho_p}.
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/// \param[in] src Must contain N source rates (one per cell).
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/// Positive values represent total inflow rates,
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/// negative values represent total outflow rates.
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/// \param[in] bcs If non-null, specifies boundary conditions.
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/// If null, noflow conditions are assumed.
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/// \param[out] pressure Will contain N cell-pressure values.
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/// \param[out] faceflux Will contain F signed face flux values.
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/// \param[out] well_bhp Will contain bhp values for each well passed
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/// in the constructor.
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/// \param[out] well_rate Will contain rate values for each
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/// connection in all wells passed in the
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/// constructor
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void IncompTpfa::solve(const std::vector<double>& totmob,
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const std::vector<double>& omega,
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const std::vector<double>& src,
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const std::vector<double>& wdp,
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const FlowBoundaryConditions* bcs,
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std::vector<double>& pressure,
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std::vector<double>& faceflux,
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std::vector<double>& well_bhp,
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std::vector<double>& well_rate)
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{
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UnstructuredGrid* gg = const_cast<UnstructuredGrid*>(&grid_);
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tpfa_eff_trans_compute(gg, &totmob[0], &htrans_[0], &trans_[0]);
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if (!omega.empty()) {
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if (gpress_.empty()) {
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THROW("Nozero omega argument given, but gravity was null in constructor.");
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}
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mim_ip_density_update(gg->number_of_cells, gg->cell_facepos,
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&omega[0],
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&gpress_[0], &gpress_omegaweighted_[0]);
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} else {
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if (!gpress_.empty()) {
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THROW("Empty omega argument given, but gravity was non-null in constructor.");
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}
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}
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ifs_tpfa_forces F = { NULL, NULL, wells_, NULL, NULL };
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if (! src.empty()) { F.src = &src[0]; }
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F.bc = bcs;
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F.totmob = &totmob[0];
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F.wdp = &wdp[0];
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int ok = ifs_tpfa_assemble(gg, &F, &trans_[0], &gpress_omegaweighted_[0], h_);
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if (!ok) {
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THROW("Failed assembling pressure system.");
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}
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linsolver_.solve(h_->A, h_->b, h_->x);
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pressure.resize(grid_.number_of_cells);
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faceflux.resize(grid_.number_of_faces);
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ifs_tpfa_solution soln = { NULL, NULL, NULL, NULL };
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soln.cell_press = &pressure[0];
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soln.face_flux = &faceflux[0];
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if(wells_ != NULL) {
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well_bhp.resize(wells_->number_of_wells);
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well_rate.resize(wells_->well_connpos[ wells_->number_of_wells ]);
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soln.well_flux = &well_rate[0];
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soln.well_press = &well_bhp[0];
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}
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ifs_tpfa_press_flux(gg, &F, &trans_[0], h_, &soln);
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}
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/// Assemble and solve pressure system with rock compressibility (assumed constant per cell).
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/// \param[in] totmob Must contain N total mobility values (one per cell).
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/// totmob = \sum_{p} kr_p/mu_p.
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/// \param[in] omega Must be empty if constructor gravity argument was null.
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/// Otherwise must contain N fractional-flow-weighted density
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/// values (one per cell).
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/// \param[in] src Must contain N source rates (one per cell).
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/// Positive values represent total inflow rates,
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/// negative values represent total outflow rates.
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/// \param[in] bcs If non-null, specifies boundary conditions.
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/// If null, noflow conditions are assumed.
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/// \param[in] porevol Must contain N pore volumes.
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/// \param[in] rock_comp Must contain N rock compressibilities.
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/// rock_comp = (d poro / d p)*(1/poro).
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/// \param[in] dt Timestep.
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/// \param[out] pressure Will contain N cell-pressure values.
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/// \param[out] faceflux Will contain F signed face flux values.
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/// \param[out] well_bhp Will contain bhp values for each well passed
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/// in the constructor
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/// \param[out] well_rate Will contain rate values for each
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/// connection in all wells passed in the
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/// constructor
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void IncompTpfa::solve(const std::vector<double>& totmob,
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const std::vector<double>& omega,
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const std::vector<double>& src,
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const std::vector<double>& wdp,
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const FlowBoundaryConditions* bcs,
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const std::vector<double>& porevol,
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const std::vector<double>& rock_comp,
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const double dt,
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std::vector<double>& pressure,
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std::vector<double>& faceflux,
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std::vector<double>& well_bhp,
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std::vector<double>& well_rate)
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{
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UnstructuredGrid* gg = const_cast<UnstructuredGrid*>(&grid_);
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tpfa_eff_trans_compute(gg, &totmob[0], &htrans_[0], &trans_[0]);
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if (!omega.empty()) {
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if (gpress_.empty()) {
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THROW("Nozero omega argument given, but gravity was null in constructor.");
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}
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mim_ip_density_update(gg->number_of_cells, gg->cell_facepos,
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&omega[0],
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&gpress_[0], &gpress_omegaweighted_[0]);
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} else {
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if (!gpress_.empty()) {
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THROW("Empty omega argument given, but gravity was non-null in constructor.");
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}
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}
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ifs_tpfa_forces F = { NULL, NULL, wells_, NULL, NULL };
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if (! src.empty()) { F.src = &src[0]; }
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F.bc = bcs;
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F.totmob = &totmob[0];
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F.wdp = &wdp[0];
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if (rock_comp.empty()) {
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ifs_tpfa_assemble(gg, &F, &trans_[0], &gpress_omegaweighted_[0], h_);
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} else {
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ifs_tpfa_assemble_comprock(gg, &F, &trans_[0], &gpress_omegaweighted_[0],
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&porevol[0], &rock_comp[0], dt, &pressure[0], h_);
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}
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linsolver_.solve(h_->A, h_->b, h_->x);
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pressure.resize(grid_.number_of_cells);
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faceflux.resize(grid_.number_of_faces);
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ifs_tpfa_solution soln = { NULL, NULL, NULL, NULL };
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soln.cell_press = &pressure[0];
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soln.face_flux = &faceflux[0];
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2012-04-12 09:39:12 -05:00
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if(wells_ != NULL) {
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well_bhp.resize(wells_->number_of_wells);
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well_rate.resize(wells_->well_connpos[ wells_->number_of_wells ]);
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soln.well_flux = &well_rate[0];
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soln.well_press = &well_bhp[0];
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}
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ifs_tpfa_press_flux(gg, &F, &trans_[0], h_, &soln);
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}
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2012-02-20 06:23:01 -06:00
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} // namespace Opm
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