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opm-common/tests/parser/WellTests.cpp
Joakim Hove ff69737b99 Add start_time argument to SummaryState
2019-09-19 22:09:15 +02:00

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/*
Copyright 2013 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/>.
*/
#include <stdexcept>
#include <iostream>
#include <boost/filesystem.hpp>
#define BOOST_TEST_MODULE WellTest
#include <boost/test/unit_test.hpp>
#include <boost/date_time/posix_time/posix_time.hpp>
#include <opm/parser/eclipse/Units/Units.hpp>
#include <opm/parser/eclipse/Units/UnitSystem.hpp>
#include <opm/parser/eclipse/Deck/Deck.hpp>
#include <opm/parser/eclipse/Deck/DeckItem.hpp>
#include <opm/parser/eclipse/Deck/DeckRecord.hpp>
#include <opm/parser/eclipse/EclipseState/EclipseState.hpp>
#include <opm/parser/eclipse/EclipseState/Grid/EclipseGrid.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/Schedule.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/SummaryState.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/UDQ/UDQActive.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/Well/Connection.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/Well/WellConnections.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/TimeMap.hpp>
#include <opm/parser/eclipse/Parser/ParseContext.hpp>
#include <opm/parser/eclipse/Parser/Parser.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/Well/WellProductionProperties.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/Well/WellInjectionProperties.hpp>
using namespace Opm;
namespace Opm {
inline std::ostream& operator<<( std::ostream& stream, const Connection& c ) {
return stream << "(" << c.getI() << "," << c.getJ() << "," << c.getK() << ")";
}
inline std::ostream& operator<<( std::ostream& stream, const Well2& well ) {
return stream << "(" << well.name() << ")";
}
}
BOOST_AUTO_TEST_CASE(WellCOMPDATtestTRACK) {
Opm::Parser parser;
std::string input =
"START -- 0 \n"
"19 JUN 2007 / \n"
"SCHEDULE\n"
"DATES -- 1\n"
" 10 OKT 2008 / \n"
"/\n"
"WELSPECS\n"
" 'OP_1' 'OP' 9 9 1* 'OIL' 1* 1* 1* 1* 1* 1* 1* / \n"
"/\n"
"COMPORD\n"
" OP_1 TRACK / \n"
"/\n"
"COMPDAT\n"
" 'OP_1' 9 9 1 1 'OPEN' 1* 32.948 0.311 3047.839 1* 1* 'X' 22.100 / \n"
" 'OP_1' 9 9 3 9 'OPEN' 1* 32.948 0.311 3047.839 1* 1* 'X' 22.100 / \n"
" 'OP_1' 9 9 2 2 'OPEN' 1* 46.825 0.311 4332.346 1* 1* 'X' 22.123 / \n"
"/\n"
"DATES -- 2\n"
" 20 JAN 2010 / \n"
"/\n";
auto deck = parser.parseString(input);
Opm::EclipseGrid grid(10,10,10);
TableManager table ( deck );
Eclipse3DProperties eclipseProperties ( deck , table, grid);
Opm::Runspec runspec (deck);
Opm::Schedule schedule(deck, grid , eclipseProperties, runspec);
const auto& op_1 = schedule.getWell2("OP_1", 2);
const auto& completions = op_1.getConnections();
BOOST_CHECK_EQUAL(9U, completions.size());
//Verify TRACK completion ordering
for (size_t k = 0; k < completions.size(); ++k) {
BOOST_CHECK_EQUAL(completions.get( k ).getK(), k);
}
}
BOOST_AUTO_TEST_CASE(WellCOMPDATtestDefaultTRACK) {
Opm::Parser parser;
std::string input =
"START -- 0 \n"
"19 JUN 2007 / \n"
"SCHEDULE\n"
"DATES -- 1\n"
" 10 OKT 2008 / \n"
"/\n"
"WELSPECS\n"
" 'OP_1' 'OP' 9 9 1* 'OIL' 1* 1* 1* 1* 1* 1* 1* / \n"
"/\n"
"COMPDAT\n"
" 'OP_1' 9 9 1 1 'OPEN' 1* 32.948 0.311 3047.839 1* 1* 'X' 22.100 / \n"
" 'OP_1' 9 9 3 9 'OPEN' 1* 32.948 0.311 3047.839 1* 1* 'X' 22.100 / \n"
" 'OP_1' 9 9 2 2 'OPEN' 1* 46.825 0.311 4332.346 1* 1* 'X' 22.123 / \n"
"/\n"
"DATES -- 2\n"
" 20 JAN 2010 / \n"
"/\n";
auto deck = parser.parseString(input);
Opm::EclipseGrid grid(10,10,10);
TableManager table ( deck );
Eclipse3DProperties eclipseProperties ( deck , table, grid);
Opm::Runspec runspec (deck);
Opm::Schedule schedule(deck, grid , eclipseProperties, runspec);
const auto& op_1 = schedule.getWell2("OP_1", 2);
const auto& completions = op_1.getConnections();
BOOST_CHECK_EQUAL(9U, completions.size());
//Verify TRACK completion ordering
for (size_t k = 0; k < completions.size(); ++k) {
BOOST_CHECK_EQUAL(completions.get( k ).getK(), k);
}
}
BOOST_AUTO_TEST_CASE(WellCOMPDATtestINPUT) {
Opm::Parser parser;
std::string input =
"START -- 0 \n"
"19 JUN 2007 / \n"
"SCHEDULE\n"
"DATES -- 1\n"
" 10 OKT 2008 / \n"
"/\n"
"WELSPECS\n"
" 'OP_1' 'OP' 9 9 1* 'OIL' 1* 1* 1* 1* 1* 1* 1* / \n"
"/\n"
"COMPORD\n"
" OP_1 INPUT / \n"
"/\n"
"COMPDAT\n"
" 'OP_1' 9 9 1 1 'OPEN' 1* 32.948 0.311 3047.839 1* 1* 'X' 22.100 / \n"
" 'OP_1' 9 9 3 9 'OPEN' 1* 32.948 0.311 3047.839 1* 1* 'X' 22.100 / \n"
" 'OP_1' 9 9 2 2 'OPEN' 1* 46.825 0.311 4332.346 1* 1* 'X' 22.123 / \n"
"/\n"
"DATES -- 2\n"
" 20 JAN 2010 / \n"
"/\n";
auto deck = parser.parseString(input);
Opm::EclipseGrid grid(10,10,10);
Opm::ErrorGuard errors;
TableManager table ( deck );
Eclipse3DProperties eclipseProperties ( deck , table, grid);
Opm::Runspec runspec (deck);
Opm::Schedule schedule(deck, grid , eclipseProperties, runspec, Opm::ParseContext(), errors);
const auto& op_1 = schedule.getWell2("OP_1", 2);
const auto& completions = op_1.getConnections();
BOOST_CHECK_EQUAL(9U, completions.size());
//Verify INPUT completion ordering
BOOST_CHECK_EQUAL(completions.get( 0 ).getK(), 0);
BOOST_CHECK_EQUAL(completions.get( 1 ).getK(), 2);
BOOST_CHECK_EQUAL(completions.get( 2 ).getK(), 3);
BOOST_CHECK_EQUAL(completions.get( 3 ).getK(), 4);
BOOST_CHECK_EQUAL(completions.get( 4 ).getK(), 5);
BOOST_CHECK_EQUAL(completions.get( 5 ).getK(), 6);
BOOST_CHECK_EQUAL(completions.get( 6 ).getK(), 7);
BOOST_CHECK_EQUAL(completions.get( 7 ).getK(), 8);
BOOST_CHECK_EQUAL(completions.get( 8 ).getK(), 1);
}
BOOST_AUTO_TEST_CASE(NewWellZeroCompletions) {
Opm::Well2 well("WELL1", "GROUP", 0, 1, 0, 0, 0.0, Opm::Phase::OIL, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
BOOST_CHECK_EQUAL( 0U , well.getConnections( ).size() );
}
BOOST_AUTO_TEST_CASE(isProducerCorrectlySet) {
// HACK: This test checks correctly setting of isProducer/isInjector. This property depends on which of
// WellProductionProperties/WellInjectionProperties is set last, independent of actual values.
{
Opm::Well2 well("WELL1" , "GROUP", 0, 1, 0, 0, 0.0, Opm::Phase::OIL, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
/* 1: Well is created as producer */
BOOST_CHECK_EQUAL( false , well.isInjector());
BOOST_CHECK_EQUAL( true , well.isProducer());
/* Set a surface injection rate => Well becomes an Injector */
auto injectionProps1 = std::make_shared<Opm::Well2::WellInjectionProperties>(well.getInjectionProperties());
injectionProps1->surfaceInjectionRate.reset(100);
well.updateInjection(injectionProps1);
BOOST_CHECK_EQUAL( true , well.isInjector());
BOOST_CHECK_EQUAL( false , well.isProducer());
BOOST_CHECK_EQUAL( 100 , well.getInjectionProperties().surfaceInjectionRate.get<double>());
}
{
Opm::Well2 well("WELL1" , "GROUP", 0, 1, 0, 0, 0.0, Opm::Phase::OIL, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
/* Set a reservoir injection rate => Well becomes an Injector */
auto injectionProps2 = std::make_shared<Opm::Well2::WellInjectionProperties>(well.getInjectionProperties());
injectionProps2->reservoirInjectionRate.reset(200);
well.updateInjection(injectionProps2);
BOOST_CHECK_EQUAL( false , well.isProducer());
BOOST_CHECK_EQUAL( 200 , well.getInjectionProperties().reservoirInjectionRate.get<double>());
}
{
Opm::Well2 well("WELL1" , "GROUP", 0, 1, 0, 0, 0.0, Opm::Phase::OIL, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
/* Set rates => Well becomes a producer; injection rate should be set to 0. */
auto injectionProps3 = std::make_shared<Opm::Well2::WellInjectionProperties>(well.getInjectionProperties());
well.updateInjection(injectionProps3);
auto properties = std::make_shared<Opm::Well2::WellProductionProperties>( well.getProductionProperties() );
properties->OilRate.reset(100);
properties->GasRate.reset(200);
properties->WaterRate.reset(300);
well.updateProduction(properties);
BOOST_CHECK_EQUAL( false , well.isInjector());
BOOST_CHECK_EQUAL( true , well.isProducer());
BOOST_CHECK_EQUAL( 0 , well.getInjectionProperties().surfaceInjectionRate.get<double>());
BOOST_CHECK_EQUAL( 0 , well.getInjectionProperties().reservoirInjectionRate.get<double>());
BOOST_CHECK_EQUAL( 100 , well.getProductionProperties().OilRate.get<double>());
BOOST_CHECK_EQUAL( 200 , well.getProductionProperties().GasRate.get<double>());
BOOST_CHECK_EQUAL( 300 , well.getProductionProperties().WaterRate.get<double>());
}
}
BOOST_AUTO_TEST_CASE(GroupnameCorretlySet) {
Opm::Well2 well("WELL1" , "G1", 0, 1, 0, 0, 0.0, Opm::Phase::OIL, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
BOOST_CHECK_EQUAL("G1" , well.groupName());
well.updateGroup( "GROUP2");
BOOST_CHECK_EQUAL("GROUP2" , well.groupName());
}
BOOST_AUTO_TEST_CASE(addWELSPECS_setData_dataSet) {
Opm::Well2 well("WELL1", "GROUP", 0, 1, 23, 42, 2334.32, Opm::Phase::WATER, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
BOOST_CHECK_EQUAL(23, well.getHeadI());
BOOST_CHECK_EQUAL(42, well.getHeadJ());
BOOST_CHECK_EQUAL(2334.32, well.getRefDepth());
BOOST_CHECK_EQUAL(Opm::Phase::WATER, well.getPreferredPhase());
}
BOOST_AUTO_TEST_CASE(XHPLimitDefault) {
Opm::Well2 well("WELL1", "GROUP", 0, 1, 23, 42, 2334.32, Opm::Phase::WATER, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
auto productionProps = std::make_shared<Opm::Well2::WellProductionProperties>(well.getProductionProperties());
productionProps->BHPLimit.reset(100);
productionProps->addProductionControl(Opm::Well2::ProducerCMode::BHP);
well.updateProduction(productionProps);
BOOST_CHECK_EQUAL( 100 , well.getProductionProperties().BHPLimit.get<double>());
BOOST_CHECK_EQUAL( true, well.getProductionProperties().hasProductionControl( Opm::Well2::ProducerCMode::BHP ));
auto injProps = std::make_shared<Opm::Well2::WellInjectionProperties>(well.getInjectionProperties());
injProps->THPLimit.reset(200);
well.updateInjection(injProps);
BOOST_CHECK_EQUAL( 200 , well.getInjectionProperties().THPLimit.get<double>());
BOOST_CHECK( !well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::THP ));
}
BOOST_AUTO_TEST_CASE(InjectorType) {
Opm::Well2 well("WELL1", "GROUP", 0, 1, 23, 42, 2334.32, Opm::Phase::WATER, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
auto injectionProps = std::make_shared<Opm::Well2::WellInjectionProperties>(well.getInjectionProperties());
injectionProps->injectorType = Opm::Well2::InjectorType::WATER;
well.updateInjection(injectionProps);
// TODO: Should we test for something other than wate here, as long as
// the default value for InjectorType is WellInjector::WATER?
BOOST_CHECK( Opm::Well2::InjectorType::WATER == well.getInjectionProperties().injectorType);
}
/*****************************************************************/
BOOST_AUTO_TEST_CASE(WellHaveProductionControlLimit) {
Opm::Well2 well("WELL1", "GROUP", 0, 1, 23, 42, 2334.32, Opm::Phase::WATER, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
BOOST_CHECK( !well.getProductionProperties().hasProductionControl( Opm::Well2::ProducerCMode::ORAT ));
BOOST_CHECK( !well.getProductionProperties().hasProductionControl( Opm::Well2::ProducerCMode::RESV ));
auto properties1 = std::make_shared<Opm::Well2::WellProductionProperties>(well.getProductionProperties());
properties1->OilRate.reset(100);
properties1->addProductionControl(Opm::Well2::ProducerCMode::ORAT);
well.updateProduction(properties1);
BOOST_CHECK( well.getProductionProperties().hasProductionControl( Opm::Well2::ProducerCMode::ORAT ));
BOOST_CHECK( !well.getProductionProperties().hasProductionControl( Opm::Well2::ProducerCMode::RESV ));
auto properties2 = std::make_shared<Opm::Well2::WellProductionProperties>(well.getProductionProperties());
properties2->ResVRate.reset( 100 );
properties2->addProductionControl(Opm::Well2::ProducerCMode::RESV);
well.updateProduction(properties2);
BOOST_CHECK( well.getProductionProperties().hasProductionControl( Opm::Well2::ProducerCMode::RESV ));
auto properties3 = std::make_shared<Opm::Well2::WellProductionProperties>(well.getProductionProperties());
properties3->OilRate.reset(100);
properties3->WaterRate.reset(100);
properties3->GasRate.reset(100);
properties3->LiquidRate.reset(100);
properties3->ResVRate.reset(100);
properties3->BHPLimit.reset(100);
properties3->THPLimit.reset(100);
properties3->addProductionControl(Opm::Well2::ProducerCMode::ORAT);
properties3->addProductionControl(Opm::Well2::ProducerCMode::LRAT);
properties3->addProductionControl(Opm::Well2::ProducerCMode::BHP);
well.updateProduction(properties3);
BOOST_CHECK( well.getProductionProperties().hasProductionControl( Opm::Well2::ProducerCMode::ORAT ));
BOOST_CHECK( well.getProductionProperties().hasProductionControl( Opm::Well2::ProducerCMode::LRAT ));
BOOST_CHECK( well.getProductionProperties().hasProductionControl( Opm::Well2::ProducerCMode::BHP ));
auto properties4 = std::make_shared<Opm::Well2::WellProductionProperties>(well.getProductionProperties());
properties4->dropProductionControl( Opm::Well2::ProducerCMode::LRAT );
well.updateProduction(properties4);
BOOST_CHECK( well.getProductionProperties().hasProductionControl( Opm::Well2::ProducerCMode::ORAT ));
BOOST_CHECK(!well.getProductionProperties().hasProductionControl( Opm::Well2::ProducerCMode::LRAT ));
BOOST_CHECK( well.getProductionProperties().hasProductionControl( Opm::Well2::ProducerCMode::BHP ));
}
BOOST_AUTO_TEST_CASE(WellHaveInjectionControlLimit) {
Opm::Well2 well("WELL1", "GROUP", 0, 1, 23, 42, 2334.32, Opm::Phase::WATER, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
BOOST_CHECK( !well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::RATE ));
BOOST_CHECK( !well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::RESV ));
auto injProps1 = std::make_shared<Opm::Well2::WellInjectionProperties>(well.getInjectionProperties());
injProps1->surfaceInjectionRate.reset(100);
injProps1->addInjectionControl(Opm::Well2::InjectorCMode::RATE);
well.updateInjection(injProps1);
BOOST_CHECK( well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::RATE ));
BOOST_CHECK( !well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::RESV ));
auto injProps2 = std::make_shared<Opm::Well2::WellInjectionProperties>(well.getInjectionProperties());
injProps2->reservoirInjectionRate.reset(100);
injProps2->addInjectionControl(Opm::Well2::InjectorCMode::RESV);
well.updateInjection(injProps2);
BOOST_CHECK( well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::RESV ));
auto injProps3 = std::make_shared<Opm::Well2::WellInjectionProperties>(well.getInjectionProperties());
injProps3->BHPLimit.reset(100);
injProps3->addInjectionControl(Opm::Well2::InjectorCMode::BHP);
injProps3->THPLimit.reset(100);
injProps3->addInjectionControl(Opm::Well2::InjectorCMode::THP);
well.updateInjection(injProps3);
BOOST_CHECK( well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::RATE ));
BOOST_CHECK( well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::RESV ));
BOOST_CHECK( well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::THP ));
BOOST_CHECK( well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::BHP ));
auto injProps4 = std::make_shared<Opm::Well2::WellInjectionProperties>(well.getInjectionProperties());
injProps4->dropInjectionControl( Opm::Well2::InjectorCMode::RESV );
well.updateInjection(injProps4);
BOOST_CHECK( well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::RATE ));
BOOST_CHECK( !well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::RESV ));
BOOST_CHECK( well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::THP ));
BOOST_CHECK( well.getInjectionProperties().hasInjectionControl( Opm::Well2::InjectorCMode::BHP ));
}
/*********************************************************************/
BOOST_AUTO_TEST_CASE(WellGuideRatePhase_GuideRatePhaseSet) {
Opm::Well2 well("WELL1" , "GROUP", 0, 1, 0, 0, 0.0, Opm::Phase::OIL, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
BOOST_CHECK(Opm::Well2::GuideRateTarget::UNDEFINED == well.getGuideRatePhase());
BOOST_CHECK(well.updateWellGuideRate(true, 100, Opm::Well2::GuideRateTarget::RAT, 66.0));
BOOST_CHECK(Opm::Well2::GuideRateTarget::RAT == well.getGuideRatePhase());
BOOST_CHECK_EQUAL(100, well.getGuideRate());
BOOST_CHECK_EQUAL(66.0, well.getGuideRateScalingFactor());
}
BOOST_AUTO_TEST_CASE(WellEfficiencyFactorSet) {
Opm::Well2 well("WELL1" , "GROUP", 0, 1, 0, 0, 0.0, Opm::Phase::OIL, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
BOOST_CHECK_EQUAL(1.0, well.getEfficiencyFactor());
BOOST_CHECK( well.updateEfficiencyFactor(0.9));
BOOST_CHECK_EQUAL(0.9, well.getEfficiencyFactor());
}
namespace {
namespace WCONHIST {
std::string all_specified_CMODE_THP() {
const std::string input =
"WCONHIST\n"
"'P' 'OPEN' 'THP' 1 2 3/\n/\n";
return input;
}
std::string all_specified() {
const std::string input =
"WCONHIST\n"
"'P' 'OPEN' 'ORAT' 1 2 3/\n/\n";
return input;
}
std::string orat_defaulted() {
const std::string input =
"WCONHIST\n"
"'P' 'OPEN' 'WRAT' 1* 2 3/\n/\n";
return input;
}
std::string owrat_defaulted() {
const std::string input =
"WCONHIST\n"
"'P' 'OPEN' 'GRAT' 1* 1* 3/\n/\n";
return input;
}
std::string all_defaulted() {
const std::string input =
"WCONHIST\n"
"'P' 'OPEN' 'LRAT'/\n/\n";
return input;
}
std::string all_defaulted_with_bhp() {
const std::string input =
"WCONHIST\n"
"-- 1 2 3 4-9 10\n"
" 'P' 'OPEN' 'RESV' 6* 500/\n/\n";
return input;
}
std::string bhp_defaulted() {
const std::string input =
"WCONHIST\n"
"-- 1 2 3 4-9 10\n"
" 'P' 'OPEN' 'BHP' 6* 500/\n/\n";
return input;
}
std::string all_defaulted_with_bhp_vfp_table() {
const std::string input =
"WCONHIST\n"
"-- 1 2 3 4-6 7 8 9 10\n"
" 'P' 'OPEN' 'RESV' 3* 3 10. 1* 500/\n/\n";
return input;
}
Opm::Well2::WellProductionProperties properties(const std::string& input) {
Opm::Parser parser;
auto deck = parser.parseString(input);
const auto& record = deck.getKeyword("WCONHIST").getRecord(0);
Opm::Well2::WellProductionProperties hist("W");
hist.handleWCONHIST(record);
return hist;
}
} // namespace WCONHIST
namespace WCONPROD {
std::string
all_specified_CMODE_BHP()
{
const std::string input =
"WCONHIST\n"
"'P' 'OPEN' 'BHP' 1 2 3/\n/\n";
return input;
}
std::string orat_CMODE_other_defaulted()
{
const std::string input =
"WCONPROD\n"
"'P' 'OPEN' 'ORAT' 1 2 3/\n/\n";
return input;
}
std::string thp_CMODE()
{
const std::string input =
"WCONPROD\n"
"'P' 'OPEN' 'THP' 1 2 3 3* 10. 8 13./\n/\n";
return input;
}
std::string bhp_CMODE()
{
const std::string input =
"WCONPROD\n"
"'P' 'OPEN' 'BHP' 1 2 3 2* 20. 10. 8 13./\n/\n";
return input;
}
Opm::Well2::WellProductionProperties properties(const std::string& input)
{
Opm::Parser parser;
auto deck = parser.parseString(input);
const auto& kwd = deck.getKeyword("WCONPROD");
const auto& record = kwd.getRecord(0);
Opm::Well2::WellProductionProperties pred("W");
pred.handleWCONPROD("WELL", record);
return pred;
}
}
} // namespace anonymous
BOOST_AUTO_TEST_CASE(WCH_All_Specified_BHP_Defaulted)
{
const Opm::Well2::WellProductionProperties& p =
WCONHIST::properties(WCONHIST::all_specified());
BOOST_CHECK(p.hasProductionControl(Opm::Well2::ProducerCMode::ORAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::WRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::GRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::LRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::RESV));
BOOST_CHECK(p.controlMode == Opm::Well2::ProducerCMode::ORAT);
BOOST_CHECK(p.hasProductionControl(Opm::Well2::ProducerCMode::BHP));
BOOST_CHECK_EQUAL(p.BHPLimit.get<double>(), 101325.);
}
BOOST_AUTO_TEST_CASE(WCH_ORAT_Defaulted_BHP_Defaulted)
{
const Opm::Well2::WellProductionProperties& p =
WCONHIST::properties(WCONHIST::orat_defaulted());
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::ORAT));
BOOST_CHECK(p.hasProductionControl(Opm::Well2::ProducerCMode::WRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::GRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::LRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::RESV));
BOOST_CHECK(p.controlMode == Opm::Well2::ProducerCMode::WRAT);
BOOST_CHECK(p.hasProductionControl(Opm::Well2::ProducerCMode::BHP));
BOOST_CHECK_EQUAL(p.BHPLimit.get<double>(), 101325.);
}
BOOST_AUTO_TEST_CASE(WCH_OWRAT_Defaulted_BHP_Defaulted)
{
const Opm::Well2::WellProductionProperties& p =
WCONHIST::properties(WCONHIST::owrat_defaulted());
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::ORAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::WRAT));
BOOST_CHECK(p.hasProductionControl(Opm::Well2::ProducerCMode::GRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::LRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::RESV));
BOOST_CHECK(p.controlMode == Opm::Well2::ProducerCMode::GRAT);
BOOST_CHECK(p.hasProductionControl(Opm::Well2::ProducerCMode::BHP));
BOOST_CHECK_EQUAL(p.BHPLimit.get<double>(), 101325.);
}
BOOST_AUTO_TEST_CASE(WCH_Rates_Defaulted_BHP_Defaulted)
{
const Opm::Well2::WellProductionProperties& p =
WCONHIST::properties(WCONHIST::all_defaulted());
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::ORAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::WRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::GRAT));
BOOST_CHECK(p.hasProductionControl(Opm::Well2::ProducerCMode::LRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::RESV));
BOOST_CHECK(p.controlMode == Opm::Well2::ProducerCMode::LRAT);
BOOST_CHECK(p.hasProductionControl(Opm::Well2::ProducerCMode::BHP));
BOOST_CHECK_EQUAL(p.BHPLimit.get<double>(), 101325.);
}
BOOST_AUTO_TEST_CASE(WCH_Rates_Defaulted_BHP_Specified)
{
const Opm::Well2::WellProductionProperties& p =
WCONHIST::properties(WCONHIST::all_defaulted_with_bhp());
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::ORAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::WRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::GRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::LRAT));
BOOST_CHECK(p.hasProductionControl(Opm::Well2::ProducerCMode::RESV));
BOOST_CHECK(p.controlMode == Opm::Well2::ProducerCMode::RESV);
BOOST_CHECK_EQUAL(true, p.hasProductionControl(Opm::Well2::ProducerCMode::BHP));
BOOST_CHECK_EQUAL(p.BHPLimit.get<double>(), 101325.);
}
BOOST_AUTO_TEST_CASE(WCH_Rates_NON_Defaulted_VFP)
{
const Opm::Well2::WellProductionProperties& p =
WCONHIST::properties(WCONHIST::all_defaulted_with_bhp_vfp_table());
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::ORAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::WRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::GRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::LRAT));
BOOST_CHECK(p.hasProductionControl(Opm::Well2::ProducerCMode::RESV));
BOOST_CHECK(p.controlMode == Opm::Well2::ProducerCMode::RESV);
BOOST_CHECK_EQUAL(true, p.hasProductionControl(Opm::Well2::ProducerCMode::BHP));
BOOST_CHECK_EQUAL(p.VFPTableNumber, 3);
BOOST_CHECK_EQUAL(p.ALQValue, 10.);
BOOST_CHECK_EQUAL(p.BHPLimit.get<double>(), 101325.);
}
BOOST_AUTO_TEST_CASE(WCH_BHP_Specified)
{
const Opm::Well2::WellProductionProperties& p =
WCONHIST::properties(WCONHIST::bhp_defaulted());
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::ORAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::WRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::GRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::LRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::RESV));
BOOST_CHECK(p.controlMode == Opm::Well2::ProducerCMode::BHP);
BOOST_CHECK_EQUAL(true, p.hasProductionControl(Opm::Well2::ProducerCMode::BHP));
BOOST_CHECK_EQUAL(p.BHPLimit.get<double>(), 5.e7); // 500 barsa
}
BOOST_AUTO_TEST_CASE(WCONPROD_ORAT_CMode)
{
const Opm::Well2::WellProductionProperties& p = WCONPROD::properties(WCONPROD::orat_CMODE_other_defaulted());
BOOST_CHECK( p.hasProductionControl(Opm::Well2::ProducerCMode::ORAT));
BOOST_CHECK( p.hasProductionControl(Opm::Well2::ProducerCMode::WRAT));
BOOST_CHECK( p.hasProductionControl(Opm::Well2::ProducerCMode::GRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::LRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::RESV));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::THP));
BOOST_CHECK(p.controlMode == Opm::Well2::ProducerCMode::ORAT);
BOOST_CHECK_EQUAL(true, p.hasProductionControl(Opm::Well2::ProducerCMode::BHP));
BOOST_CHECK_EQUAL(p.VFPTableNumber, 0);
BOOST_CHECK_EQUAL(p.ALQValue, 0.);
}
BOOST_AUTO_TEST_CASE(WCONPROD_THP_CMode)
{
const Opm::Well2::WellProductionProperties& p =
WCONPROD::properties(WCONPROD::thp_CMODE());
BOOST_CHECK( p.hasProductionControl(Opm::Well2::ProducerCMode::ORAT));
BOOST_CHECK( p.hasProductionControl(Opm::Well2::ProducerCMode::WRAT));
BOOST_CHECK( p.hasProductionControl(Opm::Well2::ProducerCMode::GRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::LRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::RESV));
BOOST_CHECK( p.hasProductionControl(Opm::Well2::ProducerCMode::THP));
BOOST_CHECK(p.controlMode == Opm::Well2::ProducerCMode::THP);
BOOST_CHECK_EQUAL(true, p.hasProductionControl(Opm::Well2::ProducerCMode::BHP));
BOOST_CHECK_EQUAL(p.VFPTableNumber, 8);
BOOST_CHECK_EQUAL(p.ALQValue, 13.);
BOOST_CHECK_EQUAL(p.THPLimit.get<double>(), 1000000.); // 10 barsa
BOOST_CHECK_EQUAL(p.BHPLimit.get<double>(), 101325.); // 1 atm.
}
BOOST_AUTO_TEST_CASE(WCONPROD_BHP_CMode)
{
const Opm::Well2::WellProductionProperties& p =
WCONPROD::properties(WCONPROD::bhp_CMODE());
BOOST_CHECK( p.hasProductionControl(Opm::Well2::ProducerCMode::ORAT));
BOOST_CHECK( p.hasProductionControl(Opm::Well2::ProducerCMode::WRAT));
BOOST_CHECK( p.hasProductionControl(Opm::Well2::ProducerCMode::GRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::LRAT));
BOOST_CHECK( !p.hasProductionControl(Opm::Well2::ProducerCMode::RESV));
BOOST_CHECK( p.hasProductionControl(Opm::Well2::ProducerCMode::THP));
BOOST_CHECK(p.controlMode == Opm::Well2::ProducerCMode::BHP);
BOOST_CHECK_EQUAL(true, p.hasProductionControl(Opm::Well2::ProducerCMode::BHP));
BOOST_CHECK_EQUAL(p.VFPTableNumber, 8);
BOOST_CHECK_EQUAL(p.ALQValue, 13.);
BOOST_CHECK_EQUAL(p.THPLimit.get<double>(), 1000000.); // 10 barsa
BOOST_CHECK_EQUAL(p.BHPLimit.get<double>(), 2000000.); // 20 barsa
}
BOOST_AUTO_TEST_CASE(BHP_CMODE)
{
BOOST_CHECK_THROW( WCONHIST::properties(WCONHIST::all_specified_CMODE_THP()) , std::invalid_argument);
BOOST_CHECK_THROW( WCONPROD::properties(WCONPROD::all_specified_CMODE_BHP()) , std::invalid_argument);
}
BOOST_AUTO_TEST_CASE(CMODE_DEFAULT) {
const Opm::Well2::WellProductionProperties Pproperties("W");
const Opm::Well2::WellInjectionProperties Iproperties("W");
BOOST_CHECK( Pproperties.controlMode == Opm::Well2::ProducerCMode::CMODE_UNDEFINED );
BOOST_CHECK( Iproperties.controlMode == Opm::Well2::InjectorCMode::CMODE_UNDEFINED );
}
BOOST_AUTO_TEST_CASE(WELL_CONTROLS) {
Opm::Well2 well("WELL", "GROUP", 0, 0, 0, 0, 1000, Opm::Phase::OIL, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Opm::Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
Opm::Well2::WellProductionProperties prod("OP1");
Opm::SummaryState st(std::chrono::system_clock::now());
well.productionControls(st);
// Use a scalar FIELD variable - that should work; although it is a bit weird.
st.update("FUX", 1);
prod.OilRate = UDAValue("FUX");
BOOST_CHECK_EQUAL(1, prod.controls(st, 0).oil_rate);
// Use the wellrate WUX for well OP1; the well is now added with
// SummaryState::update_well_var() and we should automatically fetch the
// correct well value.
prod.OilRate = UDAValue("WUX");
st.update_well_var("OP1", "WUX", 10);
BOOST_CHECK_EQUAL(10, prod.controls(st, 0).oil_rate);
}
BOOST_AUTO_TEST_CASE(ExtraAccessors) {
Opm::Well2 inj("WELL1" , "GROUP", 0, 1, 0, 0, 0.0, Opm::Phase::OIL, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
Opm::Well2 prod("WELL1" , "GROUP", 0, 1, 0, 0, 0.0, Opm::Phase::OIL, Opm::Well2::ProducerCMode::CMODE_UNDEFINED, Connection::Order::DEPTH, UnitSystem::newMETRIC(), 0);
auto inj_props= std::make_shared<Opm::Well2::WellInjectionProperties>(inj.getInjectionProperties());
inj_props->VFPTableNumber = 100;
inj.updateInjection(inj_props);
auto prod_props = std::make_shared<Opm::Well2::WellProductionProperties>( prod.getProductionProperties() );
prod_props->VFPTableNumber = 200;
prod.updateProduction(prod_props);
BOOST_CHECK_THROW(inj.alq_value(), std::runtime_error);
BOOST_CHECK_THROW(prod.temperature(), std::runtime_error);
BOOST_CHECK_EQUAL(inj.vfp_table_number(), 100);
BOOST_CHECK_EQUAL(prod.vfp_table_number(), 200);
}
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