OilfieldToolsNet/opm-common
4
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
release/2020.10
opm-common/tests/parser/AquiferTests.cpp
Williham Williham Totland 6d2f8cca5c Adds type information to integer literals.
2020-09-29 13:54:21 +02:00

557 lines
13 KiB
C++
Raw Permalink Blame History

/*
Copyright 2017 TNO.
Copyright 2020 Equinor.
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 AquiferCTTest
#include <boost/test/unit_test.hpp>
#include <opm/parser/eclipse/Parser/Parser.hpp>
#include <opm/parser/eclipse/EclipseState/Aquancon.hpp>
#include <opm/parser/eclipse/EclipseState/AquiferCT.hpp>
#include <opm/parser/eclipse/EclipseState/Aquifetp.hpp>
#include <opm/parser/eclipse/EclipseState/AquiferConfig.hpp>
using namespace Opm;
EclipseGrid makeGrid() {
EclipseGrid grid(3,3,3);
std::vector<int> actnum(27,1);
actnum[0] = 0;
actnum[9] = 0;
actnum[18] = 0;
grid.resetACTNUM(actnum);
return grid;
}
inline Deck createAquiferCTDeck() {
const char *deckData =
"DIMENS\n"
"3 3 3 /\n"
"\n"
"AQUDIMS\n"
"1* 1* 2 100 1 1000 /\n"
"GRID\n"
"\n"
"ACTNUM\n"
" 0 8*1 0 8*1 0 8*1 /\n"
"DXV\n"
"1 1 1 /\n"
"\n"
"DYV\n"
"1 1 1 /\n"
"\n"
"DZV\n"
"1 1 1 /\n"
"\n"
"TOPS\n"
"9*100 /\n"
"\n"
"PORO\n"
" 27*0.15 /\n"
"PROPS\n"
"AQUTAB\n"
" 0.01 0.112 \n"
" 0.05 0.229 /\n"
"SOLUTION\n"
"\n"
"AQUCT\n"
" 1 2000.0 1.5 100 .3 3.0e-5 330 10 360.0 1 2 /\n"
"/ \n";
Parser parser;
return parser.parseString(deckData);
}
inline Deck createAquiferCTDeckDefaultP0() {
const char *deckData =
"DIMENS\n"
"3 3 3 /\n"
"\n"
"AQUDIMS\n"
"1* 1* 2 100 1 1000 /\n"
"GRID\n"
"\n"
"ACTNUM\n"
" 0 8*1 0 8*1 0 8*1 /\n"
"DXV\n"
"1 1 1 /\n"
"\n"
"DYV\n"
"1 1 1 /\n"
"\n"
"DZV\n"
"1 1 1 /\n"
"\n"
"TOPS\n"
"9*100 /\n"
"\n"
"PORO\n"
" 27*0.15 /\n"
"PROPS\n"
"AQUTAB\n"
" 0.01 0.112 \n"
" 0.05 0.229 /\n"
"SOLUTION\n"
"\n"
"AQUCT\n"
" 1 2000.0 1* 100 .3 3.0e-5 330 10 360.0 1 2 /\n"
"/ \n";
Parser parser;
return parser.parseString(deckData);
}
AquiferCT init_aquiferct(const Deck& deck){
EclipseState eclState( deck );
return AquiferCT(eclState.getTableManager(), deck);
}
BOOST_AUTO_TEST_CASE(AquiferCTTest){
auto deck = createAquiferCTDeck();
{
auto aquiferct = init_aquiferct(deck);
for (const auto& it : aquiferct){
BOOST_CHECK_EQUAL(it.aquiferID , 1);
BOOST_CHECK_EQUAL(it.phi_aq , 0.3);
BOOST_CHECK_EQUAL(it.inftableID , 2);
BOOST_CHECK(it.p0.first == true);
BOOST_CHECK_CLOSE(it.p0.second, 1.5e5, 1e-6);
}
BOOST_CHECK_EQUAL(aquiferct.size(), 1U);
}
auto deck_default_p0 = createAquiferCTDeckDefaultP0();
{
auto aquiferct = init_aquiferct(deck_default_p0);
for (const auto& it : aquiferct){
BOOST_CHECK_EQUAL(it.aquiferID , 1);
BOOST_CHECK_EQUAL(it.phi_aq , 0.3);
BOOST_CHECK_EQUAL(it.inftableID , 2);
BOOST_CHECK(it.p0.first == false);
}
auto data = aquiferct.data();
AquiferCT aq2(data);
BOOST_CHECK( aq2 == aquiferct );
}
}
inline Deck createAQUANCONDeck_DEFAULT_INFLUX2() {
const char *deckData =
"DIMENS\n"
"3 3 3 /\n"
"\n"
"GRID\n"
"\n"
"ACTNUM\n"
" 0 8*1 0 8*1 0 8*1 /\n"
"DXV\n"
"1 1 1 /\n"
"\n"
"DYV\n"
"1 1 1 /\n"
"\n"
"DZV\n"
"1 1 1 /\n"
"\n"
"TOPS\n"
"9*100 /\n"
"\n"
"PORO\n"
" 27*0.15 /\n"
"SOLUTION\n"
"\n"
"AQUANCON\n"
" 1 2 2 1 1 1 1 J- 1.0 /\n"
" 1 2 2 1 1 1 1 J- /\n"
"/ \n";
Parser parser;
return parser.parseString(deckData);
}
inline Deck createAQUANCONDeck_DEFAULT_INFLUX1() {
const char *deckData =
"DIMENS\n"
"3 3 3 /\n"
"\n"
"GRID\n"
"\n"
"ACTNUM\n"
" 0 8*1 0 8*1 0 8*1 /\n"
"DXV\n"
"1 1 1 /\n"
"\n"
"DYV\n"
"1 1 1 /\n"
"\n"
"DZV\n"
"1 1 1 /\n"
"\n"
"TOPS\n"
"9*100 /\n"
"PORO\n"
" 27*0.15 /\n"
"\n"
"SOLUTION\n"
"\n"
"AQUANCON\n"
" 1 1 3 1 1 1 1 J- /\n"
"/\n"
"AQUANCON\n"
" 2 1 1 2 2 1 1 J- /\n"
"/ \n";
Parser parser;
return parser.parseString(deckData);
}
inline Deck createAQUANCONDeck_DEFAULT_ILLEGAL() {
const char *deckData =
"DIMENS\n"
"3 3 3 /\n"
"\n"
"GRID\n"
"\n"
"ACTNUM\n"
" 0 8*1 0 8*1 0 8*1 /\n"
"DXV\n"
"1 1 1 /\n"
"\n"
"DYV\n"
"1 1 1 /\n"
"\n"
"DZV\n"
"1 1 1 /\n"
"\n"
"TOPS\n"
"9*100 /\n"
"PORO\n"
" 27*0.15 /\n"
"\n"
"SOLUTION\n"
"\n"
"AQUANCON\n"
" 1 1 3 1 1 1 1 J- /\n"
"/\n"
"AQUANCON\n"
" 2 1 2 1 2 1 1 J- /\n"
"/ \n";
Parser parser;
return parser.parseString(deckData);
}
inline Deck createAQUANCONDeck() {
const char *deckData =
"DIMENS\n"
"3 3 3 /\n"
"\n"
"GRID\n"
"\n"
"ACTNUM\n"
" 0 8*1 0 8*1 0 8*1 /\n"
"DXV\n"
"1 1 1 /\n"
"\n"
"DYV\n"
"1 1 1 /\n"
"\n"
"DZV\n"
"1 1 1 /\n"
"\n"
"TOPS\n"
"9*100 /\n"
"\n"
"PORO\n"
" 27*0.15 /\n"
"SOLUTION\n"
"\n"
"AQUANCON\n"
" 1 1 1 1 1 1 1 J- 1.0 1.0 NO /\n"
" 1 1 3 1 3 3 3 I+ 0.5 1.0 NO /\n"
" 1 1 3 1 3 3 3 J+ 0.75 1.0 NO /\n"
" 1 1 3 1 3 3 3 J- 2.75 1.0 NO /\n"
" 1 2 3 2 3 1 1 I+ 2.75 1.0 NO /\n"
"/ \n";
Parser parser;
return parser.parseString(deckData);
}
BOOST_AUTO_TEST_CASE(AquanconTest_DEFAULT_INFLUX) {
auto deck1 = createAQUANCONDeck_DEFAULT_INFLUX1();
const auto& grid = makeGrid();
Aquancon aqcon(grid, deck1);
const auto& cells_aq1 = aqcon[1];
/*
The cells I = 0..2 are connected to aquifer 1; cell I==0 is inactive and
not counted here ==> a total of 2 cells are connected to aquifer 1.
*/
BOOST_CHECK_EQUAL(cells_aq1.size(), 2U);
const auto& cells_aq2 = aqcon[2];
BOOST_CHECK_EQUAL(cells_aq2.size(), 1U);
BOOST_CHECK(aqcon.active());
auto deck2 = createAQUANCONDeck_DEFAULT_INFLUX2();
BOOST_CHECK_THROW(Aquancon( grid, deck2), std::invalid_argument);
// The cell (2,1,1) is attached to both aquifer 1 and aquifer 2 - that is illegal.
auto deck3 = createAQUANCONDeck_DEFAULT_ILLEGAL();
BOOST_CHECK_THROW(Aquancon( grid, deck3), std::invalid_argument);
}
// allowing aquifer exists inside the reservoir
inline Deck createAQUANCONDeck_ALLOW_INSIDE_AQUAN_OR_NOT() {
const char *deckData =
"DIMENS\n"
"3 3 3 /\n"
"\n"
"GRID\n"
"\n"
"ACTNUM\n"
" 0 8*1 0 8*1 0 8*1 /\n"
"DXV\n"
"1 1 1 /\n"
"\n"
"DYV\n"
"1 1 1 /\n"
"\n"
"DZV\n"
"1 1 1 /\n"
"\n"
"TOPS\n"
"9*100 /\n"
"\n"
"PORO\n"
" 27*0.15 /\n"
"SOLUTION\n"
"\n"
"AQUFETP\n"
" 1 20.0 1000.0 2000. 0.000001 200.0 /\n"
" 2 20.0 1000.0 2000. 0.000001 200.0 /\n"
"/\n"
"AQUANCON\n"
" 1 1 1 1 1 1 1 J- 2* YES /\n"
" 1 2 2 1 1 1 1 J- 2* YES /\n"
" 1 2 2 2 2 1 1 J- 2* YES /\n"
" 2 1 1 1 1 3 3 J- 2* NO /\n"
" 2 2 2 1 1 3 3 J- 2* NO /\n"
" 2 2 2 2 2 3 3 J- 2* NO /\n"
"/ \n";
Parser parser;
return parser.parseString(deckData);
}
BOOST_AUTO_TEST_CASE(AquanconTest_ALLOW_AQUIFER_INSIDE_OR_NOT) {
auto deck = createAQUANCONDeck_ALLOW_INSIDE_AQUAN_OR_NOT();
const EclipseState eclState( deck );
const Aquancon aqucon( eclState.getInputGrid(), deck);
const auto& data = aqucon.data();
const Aquancon aq2(data);
BOOST_CHECK(aqucon == aq2);
auto cells1 = aqucon[1];
auto cells2 = aqucon[2];
BOOST_CHECK_EQUAL(cells1.size() , 2U);
BOOST_CHECK_EQUAL(cells2.size() , 1U);
}
inline Deck createAquifetpDeck() {
const char *deckData =
"DIMENS\n"
"3 3 3 /\n"
"\n"
"AQUDIMS\n"
"1* 1* 2 100 1 1000 /\n"
"GRID\n"
"\n"
"ACTNUM\n"
" 0 8*1 0 8*1 0 8*1 /\n"
"DXV\n"
"1 1 1 /\n"
"\n"
"DYV\n"
"1 1 1 /\n"
"\n"
"DZV\n"
"1 1 1 /\n"
"\n"
"TOPS\n"
"9*100 /\n"
"\n"
"PROPS\n"
"AQUTAB\n"
" 0.01 0.112 \n"
" 0.05 0.229 /\n"
"SOLUTION\n"
"\n"
"AQUFETP\n"
"1 70000.0 4.0e3 2.0e9 1.0e-5 500 1 0 0 /\n"
"/\n";
Parser parser;
return parser.parseString(deckData);
}
inline Deck createNullAquifetpDeck(){
const char *deckData =
"DIMENS\n"
"3 3 3 /\n"
"\n"
"AQUDIMS\n"
"1* 1* 2 100 1 1000 /\n"
"GRID\n"
"\n"
"ACTNUM\n"
" 0 8*1 0 8*1 0 8*1 /\n"
"DXV\n"
"1 1 1 /\n"
"\n"
"DYV\n"
"1 1 1 /\n"
"\n"
"DZV\n"
"1 1 1 /\n"
"\n"
"TOPS\n"
"9*100 /\n"
"\n"
"PROPS\n"
"AQUTAB\n"
" 0.01 0.112 \n"
" 0.05 0.229 /\n"
"SOLUTION\n"
;
Parser parser;
return parser.parseString(deckData);
}
inline Deck createAquifetpDeck_defaultPressure(){
const char *deckData =
"DIMENS\n"
"3 3 3 /\n"
"\n"
"AQUDIMS\n"
"1* 1* 2 100 1 1000 /\n"
"GRID\n"
"\n"
"ACTNUM\n"
" 0 8*1 0 8*1 0 8*1 /\n"
"DXV\n"
"1 1 1 /\n"
"\n"
"DYV\n"
"1 1 1 /\n"
"\n"
"DZV\n"
"1 1 1 /\n"
"\n"
"TOPS\n"
"9*100 /\n"
"\n"
"PROPS\n"
"AQUTAB\n"
" 0.01 0.112 \n"
" 0.05 0.229 /\n"
"SOLUTION\n"
"\n"
"AQUFETP\n"
"1 70000.0 1* 2.0e9 1.0e-5 500 1 0 0 /\n"
"/\n";
Parser parser;
return parser.parseString(deckData);
}
inline Aquifetp init_aquifetp(Deck& deck){
Aquifetp aqufetp(deck);
return aqufetp;
}
BOOST_AUTO_TEST_CASE(AquifetpTest){
auto aqufetp_deck = createAquifetpDeck();
const auto& aquifetp = init_aquifetp(aqufetp_deck);
for (const auto& it : aquifetp){
BOOST_CHECK_EQUAL(it.aquiferID , 1);
BOOST_CHECK_EQUAL(it.V0, 2.0e9);
BOOST_CHECK_EQUAL(it.J, 500/86400e5);
BOOST_CHECK( it.p0.first );
}
const auto& data = aquifetp.data();
Aquifetp aq2(data);
BOOST_CHECK(aq2 == aquifetp);
auto aqufetp_deck_null = createNullAquifetpDeck();
const auto& aquifetp_null = init_aquifetp(aqufetp_deck_null);
BOOST_CHECK_EQUAL(aquifetp_null.size(), 0U);
auto aqufetp_deck_default = createAquifetpDeck_defaultPressure();
const auto& aquifetp_default = init_aquifetp(aqufetp_deck_default);
for (const auto& it : aquifetp_default){
BOOST_CHECK_EQUAL(it.aquiferID , 1);
BOOST_CHECK_EQUAL(it.V0, 2.0e9);
BOOST_CHECK_EQUAL(it.J, 500/86400e5);
BOOST_CHECK( !it.p0.first );
}
}
BOOST_AUTO_TEST_CASE(TEST_CREATE) {
Opm::Aqudims aqudims;
BOOST_CHECK_EQUAL( aqudims.getNumAqunum() , 1U );
BOOST_CHECK_EQUAL( aqudims.getNumConnectionNumericalAquifer() , 1U );
BOOST_CHECK_EQUAL( aqudims.getNumInfluenceTablesCT() , 1U );
BOOST_CHECK_EQUAL( aqudims.getNumRowsInfluenceTable() , 36U );
BOOST_CHECK_EQUAL( aqudims.getNumAnalyticAquifers() , 1U );
BOOST_CHECK_EQUAL( aqudims.getNumRowsAquancon() , 1U );
BOOST_CHECK_EQUAL( aqudims.getNumAquiferLists() , 0U );
BOOST_CHECK_EQUAL( aqudims.getNumAnalyticAquifersSingleList() , 0U );
}
BOOST_AUTO_TEST_CASE(Test_Aquifer_Config) {
const std::string deck_string = R"(
DIMENS
3 3 3 /
)";
Opm::Parser parser;
Opm::Deck deck = parser.parseString(deck_string);
Opm::TableManager tables;
Opm::EclipseGrid grid(10,10,10);
Opm::AquiferConfig conf(tables, grid, deck);
BOOST_CHECK(!conf.active());
const auto& fetp = conf.fetp();
const auto& ct = conf.ct();
const auto& conn = conf.connections();
Opm::AquiferConfig conf2(fetp, ct, conn);
BOOST_CHECK( conf == conf2 );
}
Reference in New Issue View Git Blame Copy Permalink