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/*
Copyright 2015 Statoil ASA.
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/>.
*/
#define BOOST_TEST_MODULE TuningTests
#include <optional>
#include <boost/test/unit_test.hpp>
#include <opm/input/eclipse/Python/Python.hpp>
#include <opm/input/eclipse/Deck/Deck.hpp>
#include <opm/input/eclipse/Parser/Parser.hpp>
#include <opm/input/eclipse/EclipseState/Grid/EclipseGrid.hpp>
#include <opm/input/eclipse/EclipseState/Grid/FieldPropsManager.hpp>
#include <opm/input/eclipse/EclipseState/Runspec.hpp>
#include <opm/input/eclipse/EclipseState/Tables/TableManager.hpp>
#include <opm/input/eclipse/Schedule/Schedule.hpp>
#include <opm/input/eclipse/Schedule/Tuning.hpp>
#include <opm/input/eclipse/Parser/ParserKeywords/W.hpp>
#include <opm/input/eclipse/Units/Units.hpp>
using namespace Opm;
const std::string& deckStr = R"(
START
21 MAY 1981 /
SCHEDULE
NEXTSTEP
5 YES /
TSTEP
1 2 3 4 5 /
TUNING
2 300 0.3 0.30 6 0.6 0.2 2.25 2E20 /
0.2 0.002 2E-7 0.0002 11 0.02 2.0E-6 0.002 0.002 0.035 66 0.02 2/
13 2 26 2 9 9 4.0E6 4.0E6 4.0E6 1/
DATES
1 JAN 1982 / -- 6
1 JAN 1982 13:55:44 / --7
3 JAN 1982 14:56:45.123 / -- 8
/
NEXTSTEP
10 /
TSTEP
9 10 /
TUNING
2 300 0.3 0.30 6 0.6 0.2 2.25 2E20 10.0/
/
/
WSEGITER
/
)";
static Deck createDeck(const std::string& input) {
Opm::Parser parser;
return parser.parseString(input);
}
BOOST_AUTO_TEST_CASE(TuningTest) {
auto deck = createDeck(deckStr);
auto python = std::make_shared<Python>();
EclipseGrid grid(10,10,10);
TableManager table ( deck );
FieldPropsManager fp(deck, Phases{true, true, true}, grid, table);
Runspec runspec (deck);
Schedule schedule( deck, grid , fp, runspec, python);
const double diff = 1.0e-14;
/*** TIMESTEP 4***/
/********* Record 1 ***********/
{
size_t timestep = 4;
const auto& event = schedule[timestep].events();
// Because NEXTSTEP is persistent a tuning event is triggered at each report step
BOOST_CHECK(event.hasEvent(ScheduleEvents::TUNING_CHANGE));
const auto& tuning = schedule[timestep].tuning();
std::optional<double> TSINIT_default = tuning.TSINIT;
BOOST_CHECK(TSINIT_default == std::nullopt);
BOOST_CHECK_CLOSE(schedule[timestep].max_next_tstep(), 5*Metric::Time, diff);
double TSMAXZ_default = tuning.TSMAXZ;
BOOST_CHECK_CLOSE(TSMAXZ_default, 365 * Metric::Time, diff);
double TSMINZ_default = tuning.TSMINZ;
BOOST_CHECK_CLOSE(TSMINZ_default, 0.1 * Metric::Time, diff);
double TSMCHP_default = tuning.TSMCHP;
BOOST_CHECK_CLOSE(TSMCHP_default, 0.15 * Metric::Time, diff);
double TSFMAX_default = tuning.TSFMAX;
BOOST_CHECK_CLOSE(TSFMAX_default, 3.0, diff);
double TSFMIN_default = tuning.TSFMIN;
BOOST_CHECK_CLOSE(TSFMIN_default, 0.3, diff);
double TSFCNV_default = tuning.TSFCNV;
BOOST_CHECK_CLOSE(TSFCNV_default, 0.1, diff);
double TFDIFF_default = tuning.TFDIFF;
BOOST_CHECK_CLOSE(TFDIFF_default, 1.25, diff);
double THRUPT_default = tuning.THRUPT;
BOOST_CHECK_CLOSE(THRUPT_default, 1E20, diff);
bool TMAXWC_has_value = tuning.TMAXWC_has_value;
double TMAXWC_default = tuning.TMAXWC;
BOOST_CHECK_EQUAL(false, TMAXWC_has_value);
BOOST_CHECK_CLOSE(TMAXWC_default, 0.0 * Metric::Time, diff);
/********* Record 2 ************/
double TRGTTE_default = tuning.TRGTTE;
BOOST_CHECK_CLOSE(TRGTTE_default, 0.1, diff);
double TRGCNV_default = tuning.TRGCNV;
BOOST_CHECK_CLOSE(TRGCNV_default, 0.001, diff);
double TRGMBE_default = tuning.TRGMBE;
BOOST_CHECK_CLOSE(TRGMBE_default, 1e-7, diff);
double TRGLCV_default = tuning.TRGLCV;
BOOST_CHECK_CLOSE(TRGLCV_default, 0.0001, diff);
double XXXTTE_default = tuning.XXXTTE;
BOOST_CHECK_CLOSE(XXXTTE_default, 10.0, diff);
double XXXCNV_default = tuning.XXXCNV;
BOOST_CHECK_CLOSE(XXXCNV_default, 0.01, diff);
double XXXMBE_default = tuning.XXXMBE;
BOOST_CHECK_CLOSE(XXXMBE_default, 1.0E-6, diff);
double XXXLCV_default = tuning.XXXLCV;
BOOST_CHECK_CLOSE(XXXLCV_default, 0.001, diff);
double XXXWFL_default = tuning.XXXWFL;
BOOST_CHECK_CLOSE(XXXWFL_default, 0.001, diff);
double TRGFIP_default = tuning.TRGFIP;
BOOST_CHECK_CLOSE(TRGFIP_default, 0.025, diff);
bool TRGSFT_has_value = tuning.TRGSFT_has_value;
double TRGSFT_default = tuning.TRGSFT;
BOOST_CHECK_EQUAL(false, TRGSFT_has_value);
BOOST_CHECK_CLOSE(TRGSFT_default, 0.0, diff);
double THIONX_default = tuning.THIONX;
BOOST_CHECK_CLOSE(THIONX_default, 0.01, diff);
int TRWGHT_default = tuning.TRWGHT;
BOOST_CHECK_EQUAL(TRWGHT_default, 1);
/********* Record 3 ************/
int NEWTMX_default = tuning.NEWTMX;
BOOST_CHECK_EQUAL(NEWTMX_default, 12);
int NEWTMN_default = tuning.NEWTMN;
BOOST_CHECK_EQUAL(NEWTMN_default, 1);
int LITMAX_default = tuning.LITMAX;
BOOST_CHECK_EQUAL(LITMAX_default, 25);
int LITMIN_default = tuning.LITMIN;
BOOST_CHECK_EQUAL(LITMIN_default, 1);
int MXWSIT_default = tuning.MXWSIT;
BOOST_CHECK_EQUAL(MXWSIT_default, 8);
int MXWPIT_default = tuning.MXWPIT;
BOOST_CHECK_EQUAL(MXWPIT_default, 8);
double DDPLIM_default = tuning.DDPLIM;
BOOST_CHECK_CLOSE(DDPLIM_default, 1.0E6 * Metric::Pressure, diff);
double DDSLIM_default = tuning.DDSLIM;
BOOST_CHECK_CLOSE(DDSLIM_default, 1.0E6, diff);
double TRGDPR_default = tuning.TRGDPR;
BOOST_CHECK_CLOSE(TRGDPR_default, 1.0E6 * Metric::Pressure, diff);
bool XXXDPR_has_value = tuning.XXXDPR_has_value;
double XXXDPR_default = tuning.XXXDPR;
BOOST_CHECK_EQUAL(false, XXXDPR_has_value);
BOOST_CHECK_CLOSE(XXXDPR_default, 0.0, diff);
}
/*** TIMESTEP 5***/
/********* Record 1 ***********/
{
std::size_t timeStep = 5;
const auto& event = schedule[timeStep].events();
const auto& tuning = schedule[timeStep].tuning();
BOOST_CHECK(event.hasEvent(ScheduleEvents::TUNING_CHANGE));
std::optional<double> TSINIT = tuning.TSINIT;
BOOST_CHECK_CLOSE(TSINIT.value(), 2 * Metric::Time, diff);
BOOST_CHECK_CLOSE(schedule[timeStep].max_next_tstep(), 5*Metric::Time, diff);
double TSMAXZ = tuning.TSMAXZ;
BOOST_CHECK_CLOSE(TSMAXZ, 300 * Metric::Time, diff);
double TSMINZ = tuning.TSMINZ;
BOOST_CHECK_CLOSE(TSMINZ, 0.3 * Metric::Time, diff);
double TSMCHP = tuning.TSMCHP;
BOOST_CHECK_CLOSE(TSMCHP, 0.30 * Metric::Time, diff);
double TSFMAX = tuning.TSFMAX;
BOOST_CHECK_CLOSE(TSFMAX, 6.0, 1.0);
double TSFMIN = tuning.TSFMIN;
BOOST_CHECK_CLOSE(TSFMIN, 0.6, 1.0);
double TSFCNV = tuning.TSFCNV;
BOOST_CHECK_CLOSE(TSFCNV, 0.2, diff);
double TFDIFF = tuning.TFDIFF;
BOOST_CHECK_CLOSE(TFDIFF, 2.25, diff);
double THRUPT = tuning.THRUPT;
BOOST_CHECK_CLOSE(THRUPT, 2E20, diff);
BOOST_CHECK_EQUAL(false, tuning.TMAXWC_has_value);
BOOST_CHECK_CLOSE(tuning.TMAXWC, 0.0 * Metric::Time, diff);
/********* Record 2 ***********/
double TRGTTE = tuning.TRGTTE;
BOOST_CHECK_CLOSE(TRGTTE, 0.2, diff);
double TRGCNV = tuning.TRGCNV;
BOOST_CHECK_CLOSE(TRGCNV, 0.002, diff);
double TRGMBE = tuning.TRGMBE;
BOOST_CHECK_CLOSE(TRGMBE, 2.0E-7, diff);
double TRGLCV = tuning.TRGLCV;
BOOST_CHECK_CLOSE(TRGLCV, 0.0002, diff);
double XXXTTE = tuning.XXXTTE;
BOOST_CHECK_CLOSE(XXXTTE, 11.0, diff);
double XXXCNV = tuning.XXXCNV;
BOOST_CHECK_CLOSE(XXXCNV, 0.02, diff);
double XXXMBE = tuning.XXXMBE;
BOOST_CHECK_CLOSE(XXXMBE, 2.0E-6, diff);
double XXXLCV = tuning.XXXLCV;
BOOST_CHECK_CLOSE(XXXLCV, 0.002, diff);
double XXXWFL = tuning.XXXWFL;
BOOST_CHECK_CLOSE(XXXWFL, 0.002, diff);
double TRGFIP = tuning.TRGFIP;
BOOST_CHECK_CLOSE(TRGFIP, 0.035, diff);
BOOST_CHECK_EQUAL(true, tuning.TRGSFT_has_value);
BOOST_CHECK_CLOSE(tuning.TRGSFT, 66.0, diff);
double THIONX = tuning.THIONX;
BOOST_CHECK_CLOSE(THIONX, 0.02, diff);
int TRWGHT = tuning.TRWGHT;
BOOST_CHECK_EQUAL(TRWGHT, 2);
/********* Record 3 ***********/
int NEWTMX = tuning.NEWTMX;
BOOST_CHECK_EQUAL(NEWTMX, 13);
int NEWTMN = tuning.NEWTMN;
BOOST_CHECK_EQUAL(NEWTMN, 2);
int LITMAX = tuning.LITMAX;
BOOST_CHECK_EQUAL(LITMAX, 26);
int LITMIN = tuning.LITMIN;
BOOST_CHECK_EQUAL(LITMIN, 2);
int MXWSIT = tuning.MXWSIT;
BOOST_CHECK_EQUAL(MXWSIT, 9);
int MXWPIT = tuning.MXWPIT;
BOOST_CHECK_EQUAL(MXWPIT, 9);
double DDPLIM = tuning.DDPLIM;
BOOST_CHECK_CLOSE(DDPLIM, 4.0E6 * Metric::Pressure, diff);
double DDSLIM = tuning.DDSLIM;
BOOST_CHECK_CLOSE(DDSLIM, 4.0E6, diff);
double TRGDPR = tuning.TRGDPR;
BOOST_CHECK_CLOSE(TRGDPR, 4.0E6 * Metric::Pressure, diff);
BOOST_CHECK_EQUAL(true, tuning.XXXDPR_has_value);
BOOST_CHECK_CLOSE(tuning.XXXDPR, 1.0 * Metric::Pressure, diff);
}
/*** TIMESTEP 7 ***/
{
std::size_t timestep = 7;
const auto& event = schedule[timestep].events();
// Because NEXTSTEP is persistent a tuning event is triggered at each report step
BOOST_CHECK(event.hasEvent(ScheduleEvents::TUNING_CHANGE));
}
/*** TIMESTEP 8 ***/
{
std::size_t timestep = 8;
const auto& event = schedule[timestep].events();
BOOST_CHECK(event.hasEvent(ScheduleEvents::TUNING_CHANGE));
BOOST_CHECK_CLOSE(schedule[timestep].max_next_tstep(), 10*Metric::Time, diff);
}
/*** TIMESTEP 9 ***/
{
std::size_t timestep = 9;
const auto& event = schedule[timestep].events();
BOOST_CHECK(event.hasEvent(ScheduleEvents::TUNING_CHANGE));
/* Assume --enable-tuning=true, so the next time step spec in TUNING has an effect */
BOOST_CHECK_CLOSE(schedule[timestep].max_next_tstep(true), -1.0, diff);
}
/*** TIMESTEP 10 ***/
{
/********* Record 1 ***********/
std::size_t timestep = 10;
const auto& tuning = schedule[timestep].tuning();
const auto& event = schedule[timestep].events();
BOOST_CHECK(event.hasEvent(ScheduleEvents::TUNING_CHANGE));
BOOST_CHECK_EQUAL(true, tuning.TMAXWC_has_value);
BOOST_CHECK_CLOSE(tuning.TMAXWC, 10.0 * Metric::Time, diff);
BOOST_CHECK_EQUAL(tuning.MXWSIT, ParserKeywords::WSEGITER::MAX_WELL_ITERATIONS::defaultValue);
/********* Record 2 [and 3] (should be unchanged) ***********/
double TRGTTE = tuning.TRGTTE;
BOOST_CHECK_CLOSE(TRGTTE, 0.2, diff);
int NEWTMX = tuning.NEWTMX;
BOOST_CHECK_EQUAL(NEWTMX, 13);
}
}
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