#include #include #include #include #if HAVE_DYNAMIC_BOOST_TEST #define BOOST_TEST_DYN_LINK #endif #define NVERBOSE // to suppress our messages when throwing #define BOOST_TEST_MODULE BlackoilStateTest #define BOOST_TEST_MAIN #include #include #include #include #include #include #include "opm/core/grid/GridManager.hpp" #include "opm/core/simulator/BlackoilState.hpp" using namespace Opm; using namespace std; BOOST_AUTO_TEST_CASE(EqualsDifferentDeckReturnFalse) { const string filename1 = "testBlackoilState1.DATA"; const string filename2 = "testBlackoilState2.DATA"; const EclipseGridParser deck1 (filename1); const EclipseGridParser deck2 (filename2); GridManager gridManager1(deck1); const UnstructuredGrid* grid1 = gridManager1.c_grid(); GridManager gridManager2(deck2); const UnstructuredGrid* grid2 = gridManager2.c_grid(); BlackoilState state1; state1.init(*grid1, 3); BlackoilState state2; state2.init(*grid2, 3); BOOST_CHECK_EQUAL( false , state1.equals(state2) ); } BOOST_AUTO_TEST_CASE(EqualsDifferentNumPhasesReturnFalse) { const string filename = "testBlackoilState1.DATA"; const EclipseGridParser deck (filename); GridManager gridManager(deck); const UnstructuredGrid* grid = gridManager.c_grid(); BlackoilState state1; state1.init(*grid, 3); BlackoilState state2; state2.init(*grid, 2); BOOST_CHECK_EQUAL( false , state1.equals(state2) ); } BOOST_AUTO_TEST_CASE(EqualsNumericalDifferenceReturnFalse) { const string filename = "testBlackoilState1.DATA"; const EclipseGridParser deck (filename); GridManager gridManager(deck); const UnstructuredGrid* grid = gridManager.c_grid(); BlackoilState state1; state1.init(*grid, 3); BlackoilState state2; state2.init(*grid, 3); BOOST_CHECK_EQUAL( true , state1.equals(state2) ); { std::vector& p1 = state1.pressure(); std::vector& p2 = state2.pressure(); p1[0] = p1[0] * 2 + 1; BOOST_CHECK_EQUAL( false , state1.equals(state2) ); p1[0] = p2[0]; BOOST_CHECK_EQUAL( true , state1.equals(state2) ); } { std::vector& gor1 = state1.gasoilratio(); std::vector& gor2 = state2.gasoilratio(); gor1[0] = gor1[0] * 2 + 1; BOOST_CHECK_EQUAL( false , state1.equals(state2) ); gor1[0] = gor2[0]; BOOST_CHECK_EQUAL( true , state1.equals(state2) ); } { std::vector& p1 = state1.facepressure(); std::vector& p2 = state2.facepressure(); p1[0] = p1[0] * 2 + 1; BOOST_CHECK_EQUAL( false , state1.equals(state2) ); p1[0] = p2[0]; BOOST_CHECK_EQUAL( true , state1.equals(state2) ); } { std::vector& f1 = state1.faceflux(); std::vector& f2 = state2.faceflux(); if (f1.size() > 0 ) { f1[0] = f1[0] * 2 + 1; BOOST_CHECK_EQUAL( false , state1.equals(state2) ); f1[0] = f2[0]; BOOST_CHECK_EQUAL( true , state1.equals(state2) ); } } { std::vector& sv1 = state1.surfacevol(); std::vector& sv2 = state2.surfacevol(); if (sv1.size() > 0) { sv1[0] = sv1[0] * 2 + 1; BOOST_CHECK_EQUAL( false , state1.equals(state2) ); sv1[0] = sv2[0]; BOOST_CHECK_EQUAL( true , state1.equals(state2) ); } } { std::vector& sat1 = state1.saturation(); std::vector& sat2 = state2.saturation(); sat1[0] = sat1[0] * 2 + 1; BOOST_CHECK_EQUAL( false , state1.equals(state2) ); sat1[0] = sat2[0]; BOOST_CHECK_EQUAL( true , state1.equals(state2) ); } }