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release/2020.10
opm-common/tests/test_AggregateGroupData.cpp
Bård Skaflestad 317d1ba14e Restart: Prepare to Output Well/Group Guide Rates 
This commit identifies vector items in XWEL and XGRP that hold guide
rate values at the well and group levels, and adds functionality to
output those values to the restart file.  We do not identify such
value at the FIELD level.  As with other summary-like quantities, we
expect to pick up the fully converted values from a SummaryState
object.

Calculating and storing the guide rate quantities in SummaryState is
the subject of future work.
2020-05-18 21:56:57 +02:00

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/*
Copyright 2018 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 Aggregate_Group_Data
#include <opm/output/eclipse/AggregateGroupData.hpp>
#include <boost/test/unit_test.hpp>
#include <opm/output/eclipse/AggregateWellData.hpp>
#include <opm/output/eclipse/VectorItems/intehead.hpp>
#include <opm/output/eclipse/VectorItems/group.hpp>
#include <opm/output/eclipse/VectorItems/well.hpp>
#include <opm/parser/eclipse/Python/Python.hpp>
#include <opm/output/data/Wells.hpp>
#include <opm/parser/eclipse/Deck/Deck.hpp>
#include <opm/parser/eclipse/Parser/Parser.hpp>
#include <opm/parser/eclipse/EclipseState/EclipseState.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/Schedule.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/SummaryState.hpp>
#include <exception>
#include <stdexcept>
#include <utility>
#include <vector>
#include <iostream>
#include <cstddef>
struct MockIH
{
MockIH(const int numWells,
const int igrpPerGrp = 101, // no of data elements per group in IGRP array
const int sgrpPerGrp = 112, // number of data elements per group in SGRP array
const int xgrpPerGrp = 180, // number of data elements per group in XGRP array
const int zgrpPerGrp = 5); // number of data elements per group in XGRP array
std::vector<int> value;
using Sz = std::vector<int>::size_type;
Sz nwells;
Sz nwgmax;
Sz ngmaxz;
Sz nigrpz;
Sz nsgrpz;
Sz nxgrpz;
Sz nzgrpz;
};
MockIH::MockIH(const int numWells,
const int igrpPerGrp,
const int sgrpPerGrp,
const int xgrpPerGrp,
const int zgrpPerGrp)
: value(411, 0)
{
using Ix = ::Opm::RestartIO::Helpers::VectorItems::intehead;
this->nwells = this->value[Ix::NWELLS] = numWells;
this->ngmaxz = this->value[Ix::NGMAXZ] = 5;
this->nwgmax = this->value[Ix::NWGMAX] = 4;
this->nigrpz = this->value[Ix::NIGRPZ] = igrpPerGrp;
this->nsgrpz = this->value[Ix::NSGRPZ] = sgrpPerGrp;
this->nxgrpz = this->value[Ix::NXGRPZ] = xgrpPerGrp;
this->nzgrpz = this->value[Ix::NZGRPZ] = zgrpPerGrp;
}
namespace {
Opm::Deck first_sim()
{
// Mostly copy of tests/FIRST_SIM.DATA
const std::string input = std::string {
R"~(
RUNSPEC
TITLE
2 PRODUCERS AND INJECTORS, 2 WELL GROUPS AND ONE INTERMEDIATE GROUP LEVEL BELOW THE FIELD LEVEL
DIMENS
10 5 10 /
OIL
WATER
GAS
DISGAS
FIELD
TABDIMS
1 1 15 15 2 15 /
EQLDIMS
2 /
WELLDIMS
4 20 4 2 /
UNIFIN
UNIFOUT
--FMTIN
--FMTOUT
START
1 'JAN' 2015 /
-- RPTRUNSP
GRID =========================================================
--NOGGF
BOX
1 10 1 5 1 1 /
TOPS
50*7000 /
BOX
1 10 1 5 1 10 /
DXV
10*100 /
DYV
5*100 /
DZV
2*20 100 7*20 /
EQUALS
-- 'DX' 100 /
-- 'DY' 100 /
'PERMX' 50 /
'PERMZ' 5 /
-- 'DZ' 20 /
'PORO' 0.2 /
-- 'TOPS' 7000 1 10 1 5 1 1 /
-- 'DZ' 100 1 10 1 5 3 3 /
-- 'PORO' 0.0 1 10 1 5 3 3 /
/
COPY
PERMX PERMY /
/
RPTGRID
-- Report Levels for Grid Section Data
--
/
PROPS ==========================================================
-- WATER RELATIVE PERMEABILITY AND CAPILLARY PRESSURE ARE TABULATED AS
-- A FUNCTION OF WATER SATURATION.
--
-- SWAT KRW PCOW
SWFN
0.12 0 0
1.0 0.00001 0 /
-- SIMILARLY FOR GAS
--
-- SGAS KRG PCOG
SGFN
0 0 0
0.02 0 0
0.05 0.005 0
0.12 0.025 0
0.2 0.075 0
0.25 0.125 0
0.3 0.19 0
0.4 0.41 0
0.45 0.6 0
0.5 0.72 0
0.6 0.87 0
0.7 0.94 0
0.85 0.98 0
1.0 1.0 0
/
-- OIL RELATIVE PERMEABILITY IS TABULATED AGAINST OIL SATURATION
-- FOR OIL-WATER AND OIL-GAS-CONNATE WATER CASES
--
-- SOIL KROW KROG
SOF3
0 0 0
0.18 0 0
0.28 0.0001 0.0001
0.38 0.001 0.001
0.43 0.01 0.01
0.48 0.021 0.021
0.58 0.09 0.09
0.63 0.2 0.2
0.68 0.35 0.35
0.76 0.7 0.7
0.83 0.98 0.98
0.86 0.997 0.997
0.879 1 1
0.88 1 1 /
-- PVT PROPERTIES OF WATER
--
-- REF. PRES. REF. FVF COMPRESSIBILITY REF VISCOSITY VISCOSIBILITY
PVTW
4014.7 1.029 3.13D-6 0.31 0 /
-- ROCK COMPRESSIBILITY
--
-- REF. PRES COMPRESSIBILITY
ROCK
14.7 3.0D-6 /
-- SURFACE DENSITIES OF RESERVOIR FLUIDS
--
-- OIL WATER GAS
DENSITY
49.1 64.79 0.06054 /
-- PVT PROPERTIES OF DRY GAS (NO VAPOURISED OIL)
-- WE WOULD USE PVTG TO SPECIFY THE PROPERTIES OF WET GAS
--
-- PGAS BGAS VISGAS
PVDG
14.7 166.666 0.008
264.7 12.093 0.0096
514.7 6.274 0.0112
1014.7 3.197 0.014
2014.7 1.614 0.0189
2514.7 1.294 0.0208
3014.7 1.080 0.0228
4014.7 0.811 0.0268
5014.7 0.649 0.0309
9014.7 0.386 0.047 /
-- PVT PROPERTIES OF LIVE OIL (WITH DISSOLVED GAS)
-- WE WOULD USE PVDO TO SPECIFY THE PROPERTIES OF DEAD OIL
--
-- FOR EACH VALUE OF RS THE SATURATION PRESSURE, FVF AND VISCOSITY
-- ARE SPECIFIED. FOR RS=1.27 AND 1.618, THE FVF AND VISCOSITY OF
-- UNDERSATURATED OIL ARE DEFINED AS A FUNCTION OF PRESSURE. DATA
-- FOR UNDERSATURATED OIL MAY BE SUPPLIED FOR ANY RS, BUT MUST BE
-- SUPPLIED FOR THE HIGHEST RS (1.618).
--
-- RS POIL FVFO VISO
PVTO
0.001 14.7 1.062 1.04 /
0.0905 264.7 1.15 0.975 /
0.18 514.7 1.207 0.91 /
0.371 1014.7 1.295 0.83 /
0.636 2014.7 1.435 0.695 /
0.775 2514.7 1.5 0.641 /
0.93 3014.7 1.565 0.594 /
1.270 4014.7 1.695 0.51
5014.7 1.671 0.549
9014.7 1.579 0.74 /
1.618 5014.7 1.827 0.449
9014.7 1.726 0.605 /
/
RPTPROPS
-- PROPS Reporting Options
--
/
REGIONS ===========================================================
FIPNUM
100*1
400*2
/
EQLNUM
100*1
400*2
/
RPTREGS
/
SOLUTION ============================================================
EQUIL
7020.00 2700.00 7990.00 .00000 7020.00 .00000 0 0 5 /
7200.00 3700.00 7300.00 .00000 7000.00 .00000 1 0 5 /
RSVD 2 TABLES 3 NODES IN EACH FIELD 12:00 17 AUG 83
7000.0 1.0000
7990.0 1.0000
/
7000.0 1.0000
7400.0 1.0000
/
RPTRST
-- Restart File Output Control
--
'BASIC=2' 'FLOWS' 'POT' 'PRES' /
SUMMARY ===========================================================
FOPR
WOPR
/
FGPR
FWPR
FWIR
FWCT
FGOR
--RUNSUM
ALL
MSUMLINS
MSUMNEWT
SEPARATE
SCHEDULE ===========================================================
DEBUG
1 3 /
DRSDT
1.0E20 /
RPTSCHED
'PRES' 'SWAT' 'SGAS' 'RESTART=1' 'RS' 'WELLS=2' 'SUMMARY=2'
'CPU=2' 'WELSPECS' 'NEWTON=2' /
NOECHO
ECHO
GRUPTREE
'GRP1' 'FIELD' /
'WGRP1' 'GRP1' /
'WGRP2' 'GRP1' /
/
WELSPECS
'PROD1' 'WGRP1' 1 5 7030 'OIL' 0.0 'STD' 'STOP' /
'PROD2' 'WGRP2' 1 5 7030 'OIL' 0.0 'STD' 'STOP' /
'WINJ1' 'WGRP1' 10 1 7030 'WAT' 0.0 'STD' 'STOP' /
'WINJ2' 'WGRP2' 10 1 7030 'WAT' 0.0 'STD' 'STOP' /
/
COMPDAT
'PROD1' 1 5 2 2 3* 0.2 3* 'X' /
'PROD1' 2 5 2 2 3* 0.2 3* 'X' /
'PROD1' 3 5 2 2 3* 0.2 3* 'X' /
'PROD2' 4 5 2 2 3* 0.2 3* 'X' /
'PROD2' 5 5 2 2 3* 0.2 3* 'X' /
'WINJ1' 10 1 9 9 3* 0.2 3* 'X' /
'WINJ1' 9 1 9 9 3* 0.2 3* 'X' /
'WINJ1' 8 1 9 9 3* 0.2 3* 'X' /
'WINJ2' 7 1 9 9 3* 0.2 3* 'X' /
'WINJ2' 6 1 9 9 3* 0.2 3* 'X' /
/
WCONPROD
'PROD1' 'OPEN' 'LRAT' 3* 1200 1* 2500 1* /
'PROD2' 'OPEN' 'LRAT' 3* 800 1* 2500 1* /
/
WCONINJE
'WINJ1' 'WAT' 'OPEN' 'BHP' 1* 1200 3500 1* /
'WINJ2' 'WAT' 'OPEN' 'BHP' 1* 800 3500 1* /
/
TUNING
/
/
/
TSTEP
4
/
END
)~" };
return Opm::Parser{}.parseString(input);
}
Opm::SummaryState sim_state()
{
auto state = Opm::SummaryState{std::chrono::system_clock::now()};
state.update("GOPR:GRP1", 235.);
state.update("GGPR:GRP1", 100237.);
state.update("GWPR:GRP1", 239.);
state.update("GOPGR:GRP1", 345.6);
state.update("GWPGR:GRP1", 456.7);
state.update("GGPGR:GRP1", 567.8);
state.update("GVPGR:GRP1", 678.9);
state.update("GOIGR:GRP1", 0.123);
state.update("GWIGR:GRP1", 1234.5);
state.update("GGIGR:GRP1", 2345.6);
state.update("GOPR:WGRP1", 23.);
state.update("GGPR:WGRP1", 50237.);
state.update("GWPR:WGRP1", 29.);
state.update("GOPGR:WGRP1", 456.7);
state.update("GWPGR:WGRP1", 567.8);
state.update("GGPGR:WGRP1", 678.9);
state.update("GVPGR:WGRP1", 789.1);
state.update("GOIGR:WGRP1", 1.23);
state.update("GWIGR:WGRP1", 2345.6);
state.update("GGIGR:WGRP1", 3456.7);
state.update("GOPR:WGRP2", 43.);
state.update("GGPR:WGRP2", 70237.);
state.update("GWPR:WGRP2", 59.);
state.update("GOPGR:WGRP2", 56.7);
state.update("GWPGR:WGRP2", 67.8);
state.update("GGPGR:WGRP2", 78.9);
state.update("GVPGR:WGRP2", 89.1);
state.update("GOIGR:WGRP2", 12.3);
state.update("GWIGR:WGRP2", 345.6);
state.update("GGIGR:WGRP2", 456.7);
state.update("FOPR", 3456.);
state.update("FGPR", 2003456.);
state.update("FWPR", 5678.);
return state;
}
}
struct SimulationCase
{
explicit SimulationCase(const Opm::Deck& deck)
: es ( deck )
, python( std::make_shared<Opm::Python>() )
, sched (deck, es, python )
{}
// Order requirement: 'es' must be declared/initialised before 'sched'.
Opm::EclipseState es;
std::shared_ptr<Opm::Python> python;
Opm::Schedule sched;
};
// =====================================================================
BOOST_AUTO_TEST_SUITE(Aggregate_Group)
// test dimensions of multisegment data
BOOST_AUTO_TEST_CASE (Constructor)
{
const auto ih = MockIH{ 5 };
const auto agrpd = Opm::RestartIO::Helpers::AggregateGroupData{ ih.value };
BOOST_CHECK_EQUAL(agrpd.getIGroup().size(), ih.ngmaxz * ih.nigrpz);
BOOST_CHECK_EQUAL(agrpd.getSGroup().size(), ih.ngmaxz * ih.nsgrpz);
BOOST_CHECK_EQUAL(agrpd.getXGroup().size(), ih.ngmaxz * ih.nxgrpz);
BOOST_CHECK_EQUAL(agrpd.getZGroup().size(), ih.ngmaxz * ih.nzgrpz);
}
BOOST_AUTO_TEST_CASE (Declared_Group_Data)
{
const auto simCase = SimulationCase{first_sim()};
// Report Step 1: 2115-01-01 --> 2015-01-05
const auto rptStep = std::size_t{1};
const auto ih = MockIH {
static_cast<int>(simCase.sched.getWells(rptStep).size())
};
BOOST_CHECK_EQUAL(ih.nwells, MockIH::Sz{4});
const auto smry = sim_state();
const auto& units = simCase.es.getUnits();
auto agrpd = Opm::RestartIO::Helpers::AggregateGroupData{ih.value};
agrpd.captureDeclaredGroupData(simCase.sched, units, rptStep, smry,
ih.value);
// IGRP (PROD)
{
auto start = 0*ih.nigrpz;
const auto& iGrp = agrpd.getIGroup();
BOOST_CHECK_EQUAL(iGrp[start + 0] , 2); // Group GRP1 - Child group number one - equal to group WGRP1 (no 2)
BOOST_CHECK_EQUAL(iGrp[start + 1] , 3); // Group GRP1 - Child group number two - equal to group WGRP2 (no 3)
BOOST_CHECK_EQUAL(iGrp[start + 4] , 2); // Group GRP1 - No of child groups
BOOST_CHECK_EQUAL(iGrp[start + ih.nwgmax + 26] , 1); // Group GRP1 - Group type (well group = 0, node group = 1)
BOOST_CHECK_EQUAL(iGrp[start + ih.nwgmax + 27] , 1); // Group GRP1 - Group level (FIELD level is 0)
BOOST_CHECK_EQUAL(iGrp[start + ih.nwgmax + 28] , 5); // Group GRP1 - index of parent group (= 0 for FIELD)
start = 1*ih.nigrpz;
BOOST_CHECK_EQUAL(iGrp[start + 0] , 1); // Group WGRP1 - Child well number one - equal to well PROD1 (no 1)
BOOST_CHECK_EQUAL(iGrp[start + 1] , 3); // Group WGRP1 - Child well number two - equal to well WINJ1 (no 3)
BOOST_CHECK_EQUAL(iGrp[start + 4] , 2); // Group WGRP1 - No of child wells
BOOST_CHECK_EQUAL(iGrp[start + ih.nwgmax + 26] , 0); // Group WGRP1 - Group type (well group = 0, node group = 1)
BOOST_CHECK_EQUAL(iGrp[start + ih.nwgmax + 27] , 2); // Group WGRP1 - Group level (FIELD level is 0)
BOOST_CHECK_EQUAL(iGrp[start + ih.nwgmax + 28] , 1); // Group GRP1 - index of parent group (= 0 for FIELD)
start = (ih.ngmaxz-1)*ih.nigrpz;
BOOST_CHECK_EQUAL(iGrp[start + 0] , 1); // Group FIELD - Child group number one - equal to group GRP1
BOOST_CHECK_EQUAL(iGrp[start + 4] , 1); // Group FIELD - No of child groups
BOOST_CHECK_EQUAL(iGrp[start + ih.nwgmax + 26] , 1); // Group FIELD - Group type (well group = 0, node group = 1)
BOOST_CHECK_EQUAL(iGrp[start + ih.nwgmax + 27] , 0); // Group FIELD - Group level (FIELD level is 0)
}
// XGRP (PROD)
{
using Ix = ::Opm::RestartIO::Helpers::VectorItems::XGroup::index;
auto start = 0*ih.nxgrpz;
const auto& xGrp = agrpd.getXGroup();
BOOST_CHECK_EQUAL(xGrp[start + 0] , 235.); // Group GRP1 - GOPR
BOOST_CHECK_EQUAL(xGrp[start + 1] , 239.); // Group GRP1 - GWPR
BOOST_CHECK_EQUAL(xGrp[start + 2] , 100237.); // Group GRP1 - GGPR
BOOST_CHECK_CLOSE(xGrp[start + Ix::OilPrGuideRate], 345.6, 1.0e-10);
BOOST_CHECK_EQUAL(xGrp[start + Ix::OilPrGuideRate],
xGrp[start + Ix::OilPrGuideRate_2]);
BOOST_CHECK_CLOSE(xGrp[start + Ix::WatPrGuideRate], 456.7, 1.0e-10);
BOOST_CHECK_EQUAL(xGrp[start + Ix::WatPrGuideRate],
xGrp[start + Ix::WatPrGuideRate_2]);
BOOST_CHECK_CLOSE(xGrp[start + Ix::GasPrGuideRate], 567.8, 1.0e-10);
BOOST_CHECK_EQUAL(xGrp[start + Ix::GasPrGuideRate],
xGrp[start + Ix::GasPrGuideRate_2]);
BOOST_CHECK_CLOSE(xGrp[start + Ix::VoidPrGuideRate], 678.9, 1.0e-10);
BOOST_CHECK_EQUAL(xGrp[start + Ix::VoidPrGuideRate],
xGrp[start + Ix::VoidPrGuideRate_2]);
BOOST_CHECK_CLOSE(xGrp[start + Ix::OilInjGuideRate], 0.123, 1.0e-10);
BOOST_CHECK_CLOSE(xGrp[start + Ix::WatInjGuideRate], 1234.5, 1.0e-10);
BOOST_CHECK_EQUAL(xGrp[start + Ix::WatInjGuideRate],
xGrp[start + Ix::WatInjGuideRate_2]);
BOOST_CHECK_CLOSE(xGrp[start + Ix::GasInjGuideRate], 2345.6, 1.0e-10);
start = 1*ih.nxgrpz;
BOOST_CHECK_EQUAL(xGrp[start + 0] , 23.); // Group WGRP1 - GOPR
BOOST_CHECK_EQUAL(xGrp[start + 1] , 29.); // Group WGRP1 - GWPR
BOOST_CHECK_EQUAL(xGrp[start + 2] , 50237.); // Group WGRP1 - GGPR
BOOST_CHECK_CLOSE(xGrp[start + Ix::OilPrGuideRate], 456.7, 1.0e-10);
BOOST_CHECK_EQUAL(xGrp[start + Ix::OilPrGuideRate],
xGrp[start + Ix::OilPrGuideRate_2]);
BOOST_CHECK_CLOSE(xGrp[start + Ix::WatPrGuideRate], 567.8, 1.0e-10);
BOOST_CHECK_EQUAL(xGrp[start + Ix::WatPrGuideRate],
xGrp[start + Ix::WatPrGuideRate_2]);
BOOST_CHECK_CLOSE(xGrp[start + Ix::GasPrGuideRate], 678.9, 1.0e-10);
BOOST_CHECK_EQUAL(xGrp[start + Ix::GasPrGuideRate],
xGrp[start + Ix::GasPrGuideRate_2]);
BOOST_CHECK_CLOSE(xGrp[start + Ix::VoidPrGuideRate], 789.1, 1.0e-10);
BOOST_CHECK_EQUAL(xGrp[start + Ix::VoidPrGuideRate],
xGrp[start + Ix::VoidPrGuideRate_2]);
BOOST_CHECK_CLOSE(xGrp[start + Ix::OilInjGuideRate], 1.23, 1.0e-10);
BOOST_CHECK_CLOSE(xGrp[start + Ix::WatInjGuideRate], 2345.6, 1.0e-10);
BOOST_CHECK_EQUAL(xGrp[start + Ix::WatInjGuideRate],
xGrp[start + Ix::WatInjGuideRate_2]);
BOOST_CHECK_CLOSE(xGrp[start + Ix::GasInjGuideRate], 3456.7, 1.0e-10);
start = 2*ih.nxgrpz;
BOOST_CHECK_EQUAL(xGrp[start + 0] , 43.); // Group WGRP2 - GOPR
BOOST_CHECK_EQUAL(xGrp[start + 1] , 59.); // Group WGRP2 - GWPR
BOOST_CHECK_EQUAL(xGrp[start + 2] , 70237.); // Group WGRP2 - GGPR
start = (ih.ngmaxz-1)*ih.nxgrpz;
BOOST_CHECK_EQUAL(xGrp[start + 0] , 3456.); // Group FIELD - FOPR
BOOST_CHECK_EQUAL(xGrp[start + 1] , 5678.); // Group FIELD - FWPR
BOOST_CHECK_EQUAL(xGrp[start + 2] , 2003456.); // Group FIELD - FGPR
}
// ZGRP (PROD)
{
auto start = 0*ih.nzgrpz;
const auto& zGrp = agrpd.getZGroup();
BOOST_CHECK_EQUAL(zGrp[start + 0].c_str() , "GRP1 "); // Group GRP1 - GOPR
start = 1*ih.nzgrpz;
BOOST_CHECK_EQUAL(zGrp[start + 0].c_str() , "WGRP1 "); // Group WGRP1 - GOPR
start = 2*ih.nzgrpz;
BOOST_CHECK_EQUAL(zGrp[start + 0].c_str() , "WGRP2 "); // Group WGRP2 - GOPR
start = (ih.ngmaxz-1)*ih.nzgrpz;
BOOST_CHECK_EQUAL(zGrp[start + 0].c_str() , "FIELD "); // Group FIELD - FOPR
}
}
BOOST_AUTO_TEST_SUITE_END()
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