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opm-simulators/tests/test_GasSatfuncConsistencyChecks.cpp

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Add Gas Phase Saturation Function Consistency Checks This commit introduces a set of consistency checks for the gas phase saturation functions. These plug into the framework introduced in commit c3939c544 (PR #5438). We implement the following three checks - 0 <= SGL < 1 - 0 <= SGU < 1 - SGL <= SGCR < SGU which collectively enable a non-negative oil saturation in the two phase gas/oil system.
2024-09-03 08:30:22 -05:00
/*
Copyright 2024 Equinor AS
This file is part of the Open Porous Media project (OPM).
OPM is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
OPM 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with OPM. If not, see <http://www.gnu.org/licenses/>.
*/
#include <config.h>
#define BOOST_TEST_MODULE TestGasPhaseConsistencyChecks
#ifndef HAVE_MPI
// Suppress GCC diagnostics of the form
//
// warning: "HAVE_MPI" is not defined, evaluates to 0
//
// when compiling with "-Wundef".
#define HAVE_MPI 0
#endif // HAVE_MPI
#include <boost/test/unit_test.hpp>
#include <opm/simulators/utils/satfunc/GasPhaseConsistencyChecks.hpp>
#include <opm/material/fluidmatrixinteractions/EclEpsScalingPoints.hpp>
#include <limits>
#include <string>
#include <vector>
// ###########################################################################
namespace Checks = Opm::Satfunc::PhaseChecks::Gas;
// ===========================================================================
BOOST_AUTO_TEST_SUITE(Sg_min)
BOOST_AUTO_TEST_CASE(All_Good)
{
auto check = Checks::SGmin<float>{};
BOOST_CHECK_EQUAL(check.numExportedCheckValues(), std::size_t{1});
{
auto column = std::string{};
check.columnNames(&column);
BOOST_CHECK_EQUAL(column, "SGL");
}
{
auto endPoints = Opm::EclEpsScalingPointsInfo<float>{};
endPoints.Sgl = 0.125f; // >= 0 && < 1
check.test(endPoints);
}
{
auto value = -0.1f;
check.exportCheckValues(&value);
BOOST_CHECK_CLOSE(value, 0.125f, 1.0e-6f);
}
BOOST_CHECK_MESSAGE(! check.isViolated(), "Test must not be violated");
BOOST_CHECK_MESSAGE(! check.isCritical(), "Test must not be violated at critical level");
}
BOOST_AUTO_TEST_CASE(Non_Finite)
{
// NaN
if constexpr (std::numeric_limits<float>::has_quiet_NaN) {
auto endPoints = Opm::EclEpsScalingPointsInfo<float>{};
endPoints.Sgl = std::numeric_limits<float>::quiet_NaN();
auto check = Checks::SGmin<float>{};
check.test(endPoints);
auto value = -0.1f;
check.exportCheckValues(&value);
BOOST_CHECK_MESSAGE(std::isnan(value), "Sgl value must be NaN");
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
// Inf
if constexpr (std::numeric_limits<float>::has_infinity) {
auto endPoints = Opm::EclEpsScalingPointsInfo<float>{};
endPoints.Sgl = std::numeric_limits<float>::infinity();
auto check = Checks::SGmin<float>{};
check.test(endPoints);
auto value = -0.1f;
check.exportCheckValues(&value);
BOOST_CHECK_MESSAGE(std::isinf(value), "Sgl value must be Inf");
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
}
BOOST_AUTO_TEST_CASE(Negative)
{
auto check = Checks::SGmin<double>{};
auto endPoints = Opm::EclEpsScalingPointsInfo<double>{};
endPoints.Sgl = -0.01; // < 0
check.test(endPoints);
{
auto value = 1.0;
check.exportCheckValues(&value);
BOOST_CHECK_CLOSE(value, -0.01, 1.0e-8);
}
BOOST_CHECK_MESSAGE(check.isViolated(), "Test must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Test must be violated at critical level");
}
BOOST_AUTO_TEST_CASE(Is_One)
{
auto check = Checks::SGmin<double>{};
auto endPoints = Opm::EclEpsScalingPointsInfo<double>{};
endPoints.Sgl = 1.0; // >= 1
check.test(endPoints);
{
auto value = 0.0;
check.exportCheckValues(&value);
BOOST_CHECK_CLOSE(value, 1.0, 1.0e-8);
}
BOOST_CHECK_MESSAGE(check.isViolated(), "Test must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Test must be violated at critical level");
}
BOOST_AUTO_TEST_CASE(Exceeds_One)
{
auto check = Checks::SGmin<double>{};
auto endPoints = Opm::EclEpsScalingPointsInfo<double>{};
endPoints.Sgl = 1.2; // >= 1
check.test(endPoints);
{
auto value = 0.0;
check.exportCheckValues(&value);
BOOST_CHECK_CLOSE(value, 1.2, 1.0e-8);
}
BOOST_CHECK_MESSAGE(check.isViolated(), "Test must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Test must be violated at critical level");
}
BOOST_AUTO_TEST_SUITE_END() // Sg_min
// ---------------------------------------------------------------------------
BOOST_AUTO_TEST_SUITE(Sg_max)
BOOST_AUTO_TEST_CASE(All_Good)
{
auto check = Checks::SGmax<float>{};
BOOST_CHECK_EQUAL(check.numExportedCheckValues(), std::size_t{1});
{
auto column = std::string{};
check.columnNames(&column);
BOOST_CHECK_EQUAL(column, "SGU");
}
{
auto endPoints = Opm::EclEpsScalingPointsInfo<float>{};
Fix Consistency Check for Maximum Gas Saturation The earlier condition 0 <= SGU < 1 was not appropriate and would, for instance, fail the NORNE_ATW2013 test case in which SGU = 1 in the unscaled table for saturation region 1. Revise the condition to be more in line with that of SWU, i.e., as 0 < SGU <= 1 Pointy Hat: [at]bska
2024-09-10 08:32:24 -05:00
endPoints.Sgu = 0.125f; // > 0 && <= 1
Add Gas Phase Saturation Function Consistency Checks This commit introduces a set of consistency checks for the gas phase saturation functions. These plug into the framework introduced in commit c3939c544 (PR #5438). We implement the following three checks - 0 <= SGL < 1 - 0 <= SGU < 1 - SGL <= SGCR < SGU which collectively enable a non-negative oil saturation in the two phase gas/oil system.
2024-09-03 08:30:22 -05:00
check.test(endPoints);
}
{
auto value = -0.1f;
check.exportCheckValues(&value);
BOOST_CHECK_CLOSE(value, 0.125f, 1.0e-6f);
}
BOOST_CHECK_MESSAGE(! check.isViolated(), "Test must not be violated");
BOOST_CHECK_MESSAGE(! check.isCritical(), "Test must not be violated at critical level");
}
BOOST_AUTO_TEST_CASE(Non_Finite)
{
// NaN
if constexpr (std::numeric_limits<float>::has_quiet_NaN) {
auto endPoints = Opm::EclEpsScalingPointsInfo<float>{};
endPoints.Sgu = std::numeric_limits<float>::quiet_NaN();
auto check = Checks::SGmax<float>{};
check.test(endPoints);
auto value = -0.1f;
check.exportCheckValues(&value);
BOOST_CHECK_MESSAGE(std::isnan(value), "Sgu value must be NaN");
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
// Inf
if constexpr (std::numeric_limits<float>::has_infinity) {
auto endPoints = Opm::EclEpsScalingPointsInfo<float>{};
endPoints.Sgu = std::numeric_limits<float>::infinity();
auto check = Checks::SGmax<float>{};
check.test(endPoints);
auto value = -0.1f;
check.exportCheckValues(&value);
BOOST_CHECK_MESSAGE(std::isinf(value), "Sgu value must be Inf");
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
}
BOOST_AUTO_TEST_CASE(Negative)
{
auto check = Checks::SGmax<double>{};
auto endPoints = Opm::EclEpsScalingPointsInfo<double>{};
endPoints.Sgu = -0.01; // < 0
check.test(endPoints);
{
auto value = 1.0;
check.exportCheckValues(&value);
BOOST_CHECK_CLOSE(value, -0.01, 1.0e-8);
}
BOOST_CHECK_MESSAGE(check.isViolated(), "Test must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Test must be violated at critical level");
}
BOOST_AUTO_TEST_CASE(Is_One)
{
auto check = Checks::SGmax<double>{};
auto endPoints = Opm::EclEpsScalingPointsInfo<double>{};
Fix Consistency Check for Maximum Gas Saturation The earlier condition 0 <= SGU < 1 was not appropriate and would, for instance, fail the NORNE_ATW2013 test case in which SGU = 1 in the unscaled table for saturation region 1. Revise the condition to be more in line with that of SWU, i.e., as 0 < SGU <= 1 Pointy Hat: [at]bska
2024-09-10 08:32:24 -05:00
endPoints.Sgu = 1.0; // <= 1
Add Gas Phase Saturation Function Consistency Checks This commit introduces a set of consistency checks for the gas phase saturation functions. These plug into the framework introduced in commit c3939c544 (PR #5438). We implement the following three checks - 0 <= SGL < 1 - 0 <= SGU < 1 - SGL <= SGCR < SGU which collectively enable a non-negative oil saturation in the two phase gas/oil system.
2024-09-03 08:30:22 -05:00
check.test(endPoints);
{
auto value = 0.0;
check.exportCheckValues(&value);
BOOST_CHECK_CLOSE(value, 1.0, 1.0e-8);
}
Fix Consistency Check for Maximum Gas Saturation The earlier condition 0 <= SGU < 1 was not appropriate and would, for instance, fail the NORNE_ATW2013 test case in which SGU = 1 in the unscaled table for saturation region 1. Revise the condition to be more in line with that of SWU, i.e., as 0 < SGU <= 1 Pointy Hat: [at]bska
2024-09-10 08:32:24 -05:00
BOOST_CHECK_MESSAGE(! check.isViolated(), "Test must not be violated");
BOOST_CHECK_MESSAGE(! check.isCritical(), "Test must not be violated at critical level");
Add Gas Phase Saturation Function Consistency Checks This commit introduces a set of consistency checks for the gas phase saturation functions. These plug into the framework introduced in commit c3939c544 (PR #5438). We implement the following three checks - 0 <= SGL < 1 - 0 <= SGU < 1 - SGL <= SGCR < SGU which collectively enable a non-negative oil saturation in the two phase gas/oil system.
2024-09-03 08:30:22 -05:00
}
BOOST_AUTO_TEST_CASE(Exceeds_One)
{
auto check = Checks::SGmax<double>{};
auto endPoints = Opm::EclEpsScalingPointsInfo<double>{};
endPoints.Sgu = 1.2; // >= 1
check.test(endPoints);
{
auto value = 0.0;
check.exportCheckValues(&value);
BOOST_CHECK_CLOSE(value, 1.2, 1.0e-8);
}
BOOST_CHECK_MESSAGE(check.isViolated(), "Test must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Test must be violated at critical level");
}
BOOST_AUTO_TEST_SUITE_END() // Sg_max
// ---------------------------------------------------------------------------
BOOST_AUTO_TEST_SUITE(Sg_cr)
BOOST_AUTO_TEST_CASE(All_Good)
{
auto check = Checks::SGcr<double>{};
BOOST_CHECK_EQUAL(check.numExportedCheckValues(), std::size_t{3});
{
auto columns = std::vector<std::string>(3);
check.columnNames(columns.data());
BOOST_CHECK_EQUAL(columns[0], "SGL");
BOOST_CHECK_EQUAL(columns[1], "SGCR");
BOOST_CHECK_EQUAL(columns[2], "SGU");
}
{
auto endPoints = Opm::EclEpsScalingPointsInfo<double>{};
endPoints.Sgl = 0.09;
endPoints.Sgcr = 0.12;
endPoints.Sgu = 0.9;
check.test(endPoints);
}
{
auto values = std::vector<double>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_CLOSE(values[0], 0.09, 1.0e-8);
BOOST_CHECK_CLOSE(values[1], 0.12, 1.0e-8);
BOOST_CHECK_CLOSE(values[2], 0.90, 1.0e-8);
}
BOOST_CHECK_MESSAGE(! check.isViolated(), "Test must not be violated");
BOOST_CHECK_MESSAGE(! check.isCritical(), "Test must not be violated at critical level");
}
BOOST_AUTO_TEST_CASE(All_Good_Sgcr_Same_As_Sgl)
{
auto check = Checks::SGcr<double>{};
{
auto endPoints = Opm::EclEpsScalingPointsInfo<double>{};
endPoints.Sgl = 0.01;
endPoints.Sgcr = 0.01;
endPoints.Sgu = 0.9;
check.test(endPoints);
}
{
auto values = std::vector<double>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_CLOSE(values[0], 0.01, 1.0e-8);
BOOST_CHECK_CLOSE(values[1], 0.01, 1.0e-8);
BOOST_CHECK_CLOSE(values[2], 0.90, 1.0e-8);
}
BOOST_CHECK_MESSAGE(! check.isViolated(), "Test must not be violated");
BOOST_CHECK_MESSAGE(! check.isCritical(), "Test must not be violated at critical level");
}
BOOST_AUTO_TEST_CASE(Non_Finite)
{
// NaN
if constexpr (std::numeric_limits<float>::has_quiet_NaN) {
auto endPoints = Opm::EclEpsScalingPointsInfo<float>{};
endPoints.Sgl = std::numeric_limits<float>::quiet_NaN();
endPoints.Sgcr = 0.125f;
endPoints.Sgu = 0.75f;
auto check = Checks::SGcr<float>{};
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_MESSAGE(std::isnan(values[0]), "Sgl value must be NaN");
BOOST_CHECK_CLOSE (values[1], 0.125f, 1.0e-6f);
BOOST_CHECK_CLOSE (values[2], 0.75f, 1.0e-6f);
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
endPoints.Sgl = 0.01f;
endPoints.Sgcr = std::numeric_limits<float>::quiet_NaN();
endPoints.Sgu = 0.75;
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_CLOSE (values[0], 0.01f, 1.0e-6f);
BOOST_CHECK_MESSAGE(std::isnan(values[1]), "Sgcr value must be NaN");
BOOST_CHECK_CLOSE (values[2], 0.75f, 1.0e-6f);
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
endPoints.Sgl = 0.01f;
endPoints.Sgcr = 0.125f;
endPoints.Sgu = std::numeric_limits<float>::quiet_NaN();
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_CLOSE (values[0], 0.01f, 1.0e-6f);
BOOST_CHECK_CLOSE (values[1], 0.125f, 1.0e-6f);
BOOST_CHECK_MESSAGE(std::isnan(values[2]), "Sgu value must be NaN");
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
endPoints.Sgl = std::numeric_limits<float>::quiet_NaN();
endPoints.Sgcr = std::numeric_limits<float>::quiet_NaN();
endPoints.Sgu = 0.75f;
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_MESSAGE(std::isnan(values[0]), "Sgl value must be NaN");
BOOST_CHECK_MESSAGE(std::isnan(values[1]), "Sgcr value must be NaN");
BOOST_CHECK_CLOSE (values[2], 0.75f, 1.0e-6f);
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
endPoints.Sgl = std::numeric_limits<float>::quiet_NaN();
endPoints.Sgcr = 0.125f;
endPoints.Sgu = std::numeric_limits<float>::quiet_NaN();;
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_MESSAGE(std::isnan(values[0]), "Sgl value must be NaN");
BOOST_CHECK_CLOSE (values[1], 0.125f, 1.0e-6f);
BOOST_CHECK_MESSAGE(std::isnan(values[2]), "Sgu value must be NaN");
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
endPoints.Sgl = 0.01f;
endPoints.Sgcr = std::numeric_limits<float>::quiet_NaN();
endPoints.Sgu = std::numeric_limits<float>::quiet_NaN();;
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_CLOSE (values[0], 0.01f, 1.0e-6f);
BOOST_CHECK_MESSAGE(std::isnan(values[1]), "Sgcr value must be NaN");
BOOST_CHECK_MESSAGE(std::isnan(values[2]), "Sgu value must be NaN");
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
endPoints.Sgl = std::numeric_limits<float>::quiet_NaN();
endPoints.Sgcr = std::numeric_limits<float>::quiet_NaN();
endPoints.Sgu = std::numeric_limits<float>::quiet_NaN();;
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_MESSAGE(std::isnan(values[0]), "Sgcr value must be NaN");
BOOST_CHECK_MESSAGE(std::isnan(values[1]), "Sgcr value must be NaN");
BOOST_CHECK_MESSAGE(std::isnan(values[2]), "Sgu value must be NaN");
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
}
// Inf
if constexpr (std::numeric_limits<float>::has_infinity) {
auto endPoints = Opm::EclEpsScalingPointsInfo<float>{};
endPoints.Sgl = std::numeric_limits<float>::infinity();
endPoints.Sgcr = 0.125f;
endPoints.Sgu = 0.75f;
auto check = Checks::SGcr<float>{};
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_MESSAGE(std::isinf(values[0]), "Sgl value must be Inf");
BOOST_CHECK_CLOSE (values[1], 0.125f, 1.0e-6f);
BOOST_CHECK_CLOSE (values[2], 0.75f, 1.0e-6f);
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
endPoints.Sgl = 0.01f;
endPoints.Sgcr = std::numeric_limits<float>::infinity();
endPoints.Sgu = 0.75;
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_CLOSE (values[0], 0.01f, 1.0e-6f);
BOOST_CHECK_MESSAGE(std::isinf(values[1]), "Sgcr value must be Inf");
BOOST_CHECK_CLOSE (values[2], 0.75f, 1.0e-6f);
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
endPoints.Sgl = 0.01f;
endPoints.Sgcr = 0.125f;
endPoints.Sgu = std::numeric_limits<float>::infinity();
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_CLOSE (values[0], 0.01f, 1.0e-6f);
BOOST_CHECK_CLOSE (values[1], 0.125f, 1.0e-6f);
BOOST_CHECK_MESSAGE(std::isinf(values[2]), "Sgu value must be Inf");
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
endPoints.Sgl = std::numeric_limits<float>::infinity();
endPoints.Sgcr = std::numeric_limits<float>::infinity();
endPoints.Sgu = 0.75f;
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_MESSAGE(std::isinf(values[0]), "Sgl value must be Inf");
BOOST_CHECK_MESSAGE(std::isinf(values[1]), "Sgcr value must be Inf");
BOOST_CHECK_CLOSE (values[2], 0.75f, 1.0e-6f);
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
endPoints.Sgl = std::numeric_limits<float>::infinity();
endPoints.Sgcr = 0.125f;
endPoints.Sgu = std::numeric_limits<float>::infinity();;
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_MESSAGE(std::isinf(values[0]), "Sgl value must be Inf");
BOOST_CHECK_CLOSE (values[1], 0.125f, 1.0e-6f);
BOOST_CHECK_MESSAGE(std::isinf(values[2]), "Sgu value must be Inf");
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
endPoints.Sgl = 0.01f;
endPoints.Sgcr = std::numeric_limits<float>::infinity();
endPoints.Sgu = std::numeric_limits<float>::infinity();;
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_CLOSE (values[0], 0.01f, 1.0e-6f);
BOOST_CHECK_MESSAGE(std::isinf(values[1]), "Sgcr value must be Inf");
BOOST_CHECK_MESSAGE(std::isinf(values[2]), "Sgu value must be Inf");
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
endPoints.Sgl = std::numeric_limits<float>::infinity();
endPoints.Sgcr = std::numeric_limits<float>::infinity();
endPoints.Sgu = std::numeric_limits<float>::infinity();;
check.test(endPoints);
{
auto values = std::vector<float>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_MESSAGE(std::isinf(values[0]), "Sgcr value must be Inf");
BOOST_CHECK_MESSAGE(std::isinf(values[1]), "Sgcr value must be Inf");
BOOST_CHECK_MESSAGE(std::isinf(values[2]), "Sgu value must be Inf");
BOOST_CHECK_MESSAGE(check.isViolated(), "Check must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Check must be violated at critical level");
}
}
}
BOOST_AUTO_TEST_CASE(Sgcr_TooSmall)
{
auto check = Checks::SGcr<double>{};
{
auto endPoints = Opm::EclEpsScalingPointsInfo<double>{};
endPoints.Sgl = 0.15;
endPoints.Sgcr = 0.125;
endPoints.Sgu = 0.9;
check.test(endPoints);
}
{
auto values = std::vector<double>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_CLOSE(values[0], 0.15, 1.0e-8);
BOOST_CHECK_CLOSE(values[1], 0.125, 1.0e-8);
BOOST_CHECK_CLOSE(values[2], 0.9, 1.0e-8);
}
BOOST_CHECK_MESSAGE(check.isViolated(), "Test must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Test must not be violated at critical level");
}
BOOST_AUTO_TEST_CASE(Sgcr_TooLarge)
{
auto check = Checks::SGcr<double>{};
{
auto endPoints = Opm::EclEpsScalingPointsInfo<double>{};
endPoints.Sgl = 0.15;
endPoints.Sgcr = 0.65;
endPoints.Sgu = 0.6;
check.test(endPoints);
}
{
auto values = std::vector<double>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_CLOSE(values[0], 0.15, 1.0e-8);
BOOST_CHECK_CLOSE(values[1], 0.65, 1.0e-8);
BOOST_CHECK_CLOSE(values[2], 0.6, 1.0e-8);
}
BOOST_CHECK_MESSAGE(check.isViolated(), "Test must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Test must not be violated at critical level");
}
BOOST_AUTO_TEST_CASE(Sgcr_Same_As_Sgu)
{
auto check = Checks::SGcr<double>{};
{
auto endPoints = Opm::EclEpsScalingPointsInfo<double>{};
endPoints.Sgl = 0.15;
endPoints.Sgcr = 0.65;
endPoints.Sgu = 0.65;
check.test(endPoints);
}
{
auto values = std::vector<double>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_CLOSE(values[0], 0.15, 1.0e-8);
BOOST_CHECK_CLOSE(values[1], 0.65, 1.0e-8);
BOOST_CHECK_CLOSE(values[2], 0.65, 1.0e-8);
}
BOOST_CHECK_MESSAGE(check.isViolated(), "Test must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Test must not be violated at critical level");
}
BOOST_AUTO_TEST_CASE(Sgu_TooSmall)
{
auto check = Checks::SGcr<double>{};
{
auto endPoints = Opm::EclEpsScalingPointsInfo<double>{};
endPoints.Sgl = 0.15;
endPoints.Sgcr = 0.15;
endPoints.Sgu = 0.10;
check.test(endPoints);
}
{
auto values = std::vector<double>(3);
check.exportCheckValues(values.data());
BOOST_CHECK_CLOSE(values[0], 0.15, 1.0e-8);
BOOST_CHECK_CLOSE(values[1], 0.15, 1.0e-8);
BOOST_CHECK_CLOSE(values[2], 0.10, 1.0e-8);
}
BOOST_CHECK_MESSAGE(check.isViolated(), "Test must be violated");
BOOST_CHECK_MESSAGE(check.isCritical(), "Test must not be violated at critical level");
}
BOOST_AUTO_TEST_SUITE_END() // So_min
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