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130 lines
5.0 KiB
C++
130 lines
5.0 KiB
C++
/*
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Copyright 2018 SINTEF Digital, Mathematics and Cybernetics.
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Copyright 2018 Equinor.
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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 <config.h>
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#define BOOST_TEST_MODULE ConvergenceReportTest
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#include <boost/test/unit_test.hpp>
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#include <opm/simulators/timestepping/ConvergenceReport.hpp>
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using CR = Opm::ConvergenceReport;
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BOOST_AUTO_TEST_CASE(DefaultConstructor)
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{
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Opm::ConvergenceReport s;
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BOOST_CHECK(s.converged());
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BOOST_CHECK(!s.reservoirFailed());
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BOOST_CHECK(!s.wellFailed());
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BOOST_CHECK(s.severityOfWorstFailure() == CR::Severity::None);
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}
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BOOST_AUTO_TEST_CASE(Failures)
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{
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Opm::ConvergenceReport s1;
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s1.setReservoirFailed({CR::ReservoirFailure::Type::Cnv, CR::Severity::Normal, 2});
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{
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BOOST_CHECK(!s1.converged());
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BOOST_CHECK(s1.reservoirFailed());
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BOOST_CHECK(!s1.wellFailed());
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BOOST_REQUIRE(s1.reservoirFailures().size() == 1);
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const auto f = s1.reservoirFailures()[0];
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BOOST_CHECK(f.type() == CR::ReservoirFailure::Type::Cnv);
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BOOST_CHECK(f.severity() == CR::Severity::Normal);
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BOOST_CHECK(f.phase() == 2);
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BOOST_CHECK(s1.wellFailures().empty());
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BOOST_CHECK(s1.severityOfWorstFailure() == CR::Severity::Normal);
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}
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Opm::ConvergenceReport s2;
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s2.setWellFailed({CR::WellFailure::Type::ControlTHP, CR::Severity::Normal, -1, "PRODUCER-123"});
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s2.setWellFailed({CR::WellFailure::Type::MassBalance, CR::Severity::TooLarge, 2, "INJECTOR-XYZ"});
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{
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BOOST_CHECK(!s2.converged());
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BOOST_CHECK(!s2.reservoirFailed());
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BOOST_CHECK(s2.wellFailed());
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BOOST_CHECK(s2.reservoirFailures().empty());
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BOOST_REQUIRE(s2.wellFailures().size() == 2);
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const auto f0 = s2.wellFailures()[0];
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BOOST_CHECK(f0.type() == CR::WellFailure::Type::ControlTHP);
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BOOST_CHECK(f0.severity() == CR::Severity::Normal);
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BOOST_CHECK(f0.phase() == -1);
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BOOST_CHECK(f0.wellName() == "PRODUCER-123");
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const auto f1 = s2.wellFailures()[1];
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BOOST_CHECK(f1.type() == CR::WellFailure::Type::MassBalance);
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BOOST_CHECK(f1.severity() == CR::Severity::TooLarge);
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BOOST_CHECK(f1.phase() == 2);
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BOOST_CHECK(f1.wellName() == "INJECTOR-XYZ");
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BOOST_CHECK(s2.severityOfWorstFailure() == CR::Severity::TooLarge);
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}
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s1 += s2;
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{
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BOOST_CHECK(!s1.converged());
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BOOST_CHECK(s1.reservoirFailed());
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BOOST_CHECK(s1.wellFailed());
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BOOST_REQUIRE(s1.reservoirFailures().size() == 1);
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const auto f = s1.reservoirFailures()[0];
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BOOST_CHECK(f.type() == CR::ReservoirFailure::Type::Cnv);
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BOOST_CHECK(f.severity() == CR::Severity::Normal);
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BOOST_CHECK(f.phase() == 2);
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BOOST_REQUIRE(s1.wellFailures().size() == 2);
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const auto f0 = s1.wellFailures()[0];
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BOOST_CHECK(f0.type() == CR::WellFailure::Type::ControlTHP);
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BOOST_CHECK(f0.severity() == CR::Severity::Normal);
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BOOST_CHECK(f0.phase() == -1);
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BOOST_CHECK(f0.wellName() == "PRODUCER-123");
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const auto f1 = s1.wellFailures()[1];
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BOOST_CHECK(f1.type() == CR::WellFailure::Type::MassBalance);
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BOOST_CHECK(f1.severity() == CR::Severity::TooLarge);
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BOOST_CHECK(f1.phase() == 2);
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BOOST_CHECK(f1.wellName() == "INJECTOR-XYZ");
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BOOST_CHECK(s1.severityOfWorstFailure() == CR::Severity::TooLarge);
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}
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s1.clear();
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{
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BOOST_CHECK(s1.converged());
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BOOST_CHECK(!s1.reservoirFailed());
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BOOST_CHECK(!s1.wellFailed());
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BOOST_CHECK(s1.severityOfWorstFailure() == CR::Severity::None);
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}
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s1 += s2;
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{
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BOOST_CHECK(!s1.converged());
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BOOST_CHECK(!s1.reservoirFailed());
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BOOST_CHECK(s1.wellFailed());
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BOOST_CHECK(s1.reservoirFailures().empty());
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BOOST_REQUIRE(s1.wellFailures().size() == 2);
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const auto f0 = s1.wellFailures()[0];
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BOOST_CHECK(f0.type() == CR::WellFailure::Type::ControlTHP);
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BOOST_CHECK(f0.severity() == CR::Severity::Normal);
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BOOST_CHECK(f0.phase() == -1);
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BOOST_CHECK(f0.wellName() == "PRODUCER-123");
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const auto f1 = s1.wellFailures()[1];
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BOOST_CHECK(f1.type() == CR::WellFailure::Type::MassBalance);
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BOOST_CHECK(f1.severity() == CR::Severity::TooLarge);
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BOOST_CHECK(f1.phase() == 2);
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BOOST_CHECK(f1.wellName() == "INJECTOR-XYZ");
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BOOST_CHECK(s1.severityOfWorstFailure() == CR::Severity::TooLarge);
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}
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}
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