/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include #include #include #include #include #include #include #include #include #include #include using namespace css; namespace { class SwarmSolverTest : public CalcUnoApiTest { uno::Reference mxComponent; void testUnconstrained(); void testVariableBounded(); void testVariableConstrained(); void testTwoVariables(); void testMultipleVariables(); public: SwarmSolverTest() : CalcUnoApiTest("sccomp/qa/unit/data") { } virtual void tearDown() override; CPPUNIT_TEST_SUITE(SwarmSolverTest); CPPUNIT_TEST(testUnconstrained); CPPUNIT_TEST(testVariableBounded); CPPUNIT_TEST(testVariableConstrained); CPPUNIT_TEST(testMultipleVariables); CPPUNIT_TEST(testTwoVariables); CPPUNIT_TEST_SUITE_END(); }; void SwarmSolverTest::tearDown() { if (mxComponent.is()) closeDocument(mxComponent); } void SwarmSolverTest::testUnconstrained() { CPPUNIT_ASSERT(!mxComponent.is()); OUString aFileURL; createFileURL("Simple.ods", aFileURL); mxComponent = loadFromDesktop(aFileURL); CPPUNIT_ASSERT_MESSAGE("Component not loaded", mxComponent.is()); uno::Reference xDocument(mxComponent, uno::UNO_QUERY_THROW); uno::Reference xIndex(xDocument->getSheets(), uno::UNO_QUERY_THROW); uno::Reference xSheet(xIndex->getByIndex(0), uno::UNO_QUERY_THROW); uno::Reference xCell; uno::Reference xSolver; const OUString sSolverName("com.sun.star.comp.Calc.SwarmSolver"); xSolver.set(m_xContext->getServiceManager()->createInstanceWithContext(sSolverName, m_xContext), uno::UNO_QUERY_THROW); table::CellAddress aObjective(0, 1, 1); // "changing cells" - unknown variables uno::Sequence aVariables(1); aVariables[0] = table::CellAddress(0, 1, 0); // constraints uno::Sequence aConstraints; // initialize solver xSolver->setDocument(xDocument); xSolver->setObjective(aObjective); xSolver->setVariables(aVariables); xSolver->setConstraints(aConstraints); xSolver->setMaximize(false); // test results xSolver->solve(); CPPUNIT_ASSERT(xSolver->getSuccess()); uno::Sequence aSolution = xSolver->getSolution(); CPPUNIT_ASSERT_EQUAL(aVariables.getLength(), aSolution.getLength()); // It happens that the unconstrained test does not find a solution in the // timeframe or number of generations it has available as the search space is // too big and the values might not converge to solution. So for now just run // the test so we know for sure the algorithm is guaranteed to finish // and doesn't cause any seg faults. //CPPUNIT_ASSERT_DOUBLES_EQUAL(3.0, aSolution[0], .9); } void SwarmSolverTest::testVariableBounded() { CPPUNIT_ASSERT(!mxComponent.is()); OUString aFileURL; createFileURL("Simple.ods", aFileURL); mxComponent = loadFromDesktop(aFileURL); CPPUNIT_ASSERT_MESSAGE("Component not loaded", mxComponent.is()); uno::Reference xDocument(mxComponent, uno::UNO_QUERY_THROW); uno::Reference xIndex(xDocument->getSheets(), uno::UNO_QUERY_THROW); uno::Reference xSheet(xIndex->getByIndex(0), uno::UNO_QUERY_THROW); uno::Reference xCell; uno::Reference xSolver; const OUString sSolverName("com.sun.star.comp.Calc.SwarmSolver"); xSolver.set(m_xContext->getServiceManager()->createInstanceWithContext(sSolverName, m_xContext), uno::UNO_QUERY_THROW); table::CellAddress aObjective(0, 1, 1); // "changing cells" - unknown variables uno::Sequence aVariables(1); aVariables[0] = table::CellAddress(0, 1, 0); // constraints uno::Sequence aConstraints(2); aConstraints[0].Left = table::CellAddress(0, 1, 0); aConstraints[0].Operator = sheet::SolverConstraintOperator_LESS_EQUAL; aConstraints[0].Right <<= 100.0; aConstraints[1].Left = table::CellAddress(0, 1, 0); aConstraints[1].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[1].Right <<= -100.0; // initialize solver xSolver->setDocument(xDocument); xSolver->setObjective(aObjective); xSolver->setVariables(aVariables); xSolver->setConstraints(aConstraints); xSolver->setMaximize(false); // test results xSolver->solve(); CPPUNIT_ASSERT(xSolver->getSuccess()); uno::Sequence aSolution = xSolver->getSolution(); CPPUNIT_ASSERT_EQUAL(aVariables.getLength(), aSolution.getLength()); CPPUNIT_ASSERT_DOUBLES_EQUAL(3.0, aSolution[0], 1E-5); } void SwarmSolverTest::testVariableConstrained() { CPPUNIT_ASSERT(!mxComponent.is()); OUString aFileURL; createFileURL("Simple.ods", aFileURL); mxComponent = loadFromDesktop(aFileURL); CPPUNIT_ASSERT_MESSAGE("Component not loaded", mxComponent.is()); uno::Reference xDocument(mxComponent, uno::UNO_QUERY_THROW); uno::Reference xIndex(xDocument->getSheets(), uno::UNO_QUERY_THROW); uno::Reference xSheet(xIndex->getByIndex(0), uno::UNO_QUERY_THROW); uno::Reference xCell; uno::Reference xSolver; const OUString sSolverName("com.sun.star.comp.Calc.SwarmSolver"); xSolver.set(m_xContext->getServiceManager()->createInstanceWithContext(sSolverName, m_xContext), uno::UNO_QUERY_THROW); table::CellAddress aObjective(0, 1, 1); // "changing cells" - unknown variables uno::Sequence aVariables(1); aVariables[0] = table::CellAddress(0, 1, 0); // constraints uno::Sequence aConstraints(3); aConstraints[0].Left = table::CellAddress(0, 1, 0); aConstraints[0].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[0].Right <<= -50000.0; aConstraints[1].Left = table::CellAddress(0, 1, 0); aConstraints[1].Operator = sheet::SolverConstraintOperator_LESS_EQUAL; aConstraints[1].Right <<= 0.0; aConstraints[2].Left = table::CellAddress(0, 1, 1); aConstraints[2].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[2].Right <<= 10.0; // initialize solver xSolver->setDocument(xDocument); xSolver->setObjective(aObjective); xSolver->setVariables(aVariables); xSolver->setConstraints(aConstraints); xSolver->setMaximize(false); // test results xSolver->solve(); CPPUNIT_ASSERT(xSolver->getSuccess()); uno::Sequence aSolution = xSolver->getSolution(); CPPUNIT_ASSERT_EQUAL(aVariables.getLength(), aSolution.getLength()); CPPUNIT_ASSERT_DOUBLES_EQUAL(-0.741657, aSolution[0], 1E-5); } void SwarmSolverTest::testTwoVariables() { CPPUNIT_ASSERT(!mxComponent.is()); OUString aFileURL; createFileURL("TwoVariables.ods", aFileURL); mxComponent = loadFromDesktop(aFileURL); CPPUNIT_ASSERT_MESSAGE("Component not loaded", mxComponent.is()); uno::Reference xDocument(mxComponent, uno::UNO_QUERY_THROW); uno::Reference xIndex(xDocument->getSheets(), uno::UNO_QUERY_THROW); uno::Reference xSheet(xIndex->getByIndex(0), uno::UNO_QUERY_THROW); uno::Reference xCell; uno::Reference xSolver; const OUString sSolverName("com.sun.star.comp.Calc.SwarmSolver"); xSolver.set(m_xContext->getServiceManager()->createInstanceWithContext(sSolverName, m_xContext), uno::UNO_QUERY_THROW); table::CellAddress aObjective(0, 1, 5); // "changing cells" - unknown variables uno::Sequence aVariables(2); aVariables[0] = table::CellAddress(0, 1, 2); aVariables[1] = table::CellAddress(0, 1, 3); // constraints uno::Sequence aConstraints(4); aConstraints[0].Left = table::CellAddress(0, 1, 2); aConstraints[0].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[0].Right <<= -100.0; aConstraints[1].Left = table::CellAddress(0, 1, 3); aConstraints[1].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[1].Right <<= -100.0; aConstraints[2].Left = table::CellAddress(0, 1, 2); aConstraints[2].Operator = sheet::SolverConstraintOperator_LESS_EQUAL; aConstraints[2].Right <<= 100.0; aConstraints[3].Left = table::CellAddress(0, 1, 3); aConstraints[3].Operator = sheet::SolverConstraintOperator_LESS_EQUAL; aConstraints[3].Right <<= 100.0; // initialize solver xSolver->setDocument(xDocument); xSolver->setObjective(aObjective); xSolver->setVariables(aVariables); xSolver->setConstraints(aConstraints); xSolver->setMaximize(true); // test results xSolver->solve(); CPPUNIT_ASSERT(xSolver->getSuccess()); uno::Sequence aSolution = xSolver->getSolution(); CPPUNIT_ASSERT_EQUAL(aVariables.getLength(), aSolution.getLength()); CPPUNIT_ASSERT_DOUBLES_EQUAL(0.666667, aSolution[0], 1E-5); CPPUNIT_ASSERT_DOUBLES_EQUAL(-1.666667, aSolution[1], 1E-5); } void SwarmSolverTest::testMultipleVariables() { CPPUNIT_ASSERT(!mxComponent.is()); OUString aFileURL; createFileURL("MultiVariable.ods", aFileURL); mxComponent = loadFromDesktop(aFileURL); CPPUNIT_ASSERT_MESSAGE("Component not loaded", mxComponent.is()); uno::Reference xDocument(mxComponent, uno::UNO_QUERY_THROW); uno::Reference xIndex(xDocument->getSheets(), uno::UNO_QUERY_THROW); uno::Reference xSheet(xIndex->getByIndex(0), uno::UNO_QUERY_THROW); uno::Reference xCell; uno::Reference xSolver; const OUString sSolverName("com.sun.star.comp.Calc.SwarmSolver"); xSolver.set(m_xContext->getServiceManager()->createInstanceWithContext(sSolverName, m_xContext), uno::UNO_QUERY_THROW); uno::Reference xPropSet(xSolver, uno::UNO_QUERY_THROW); xPropSet->setPropertyValue("Integer", uno::makeAny(true)); table::CellAddress aObjective(0, 5, 7); // "changing cells" - unknown variables uno::Sequence aVariables(4); aVariables[0] = table::CellAddress(0, 6, 1); aVariables[1] = table::CellAddress(0, 6, 2); aVariables[2] = table::CellAddress(0, 6, 3); aVariables[3] = table::CellAddress(0, 6, 4); // constraints uno::Sequence aConstraints(12); aConstraints[0].Left = table::CellAddress(0, 1, 5); aConstraints[0].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[0].Right <<= table::CellAddress(0, 1, 6); aConstraints[1].Left = table::CellAddress(0, 2, 5); aConstraints[1].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[1].Right <<= table::CellAddress(0, 2, 6); aConstraints[2].Left = table::CellAddress(0, 3, 5); aConstraints[2].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[2].Right <<= table::CellAddress(0, 3, 6); aConstraints[3].Left = table::CellAddress(0, 4, 5); aConstraints[3].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[3].Right <<= table::CellAddress(0, 4, 6); aConstraints[4].Left = table::CellAddress(0, 6, 1); aConstraints[4].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[4].Right <<= 0.0; aConstraints[5].Left = table::CellAddress(0, 6, 2); aConstraints[5].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[5].Right <<= 0.0; aConstraints[6].Left = table::CellAddress(0, 6, 3); aConstraints[6].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[6].Right <<= 0.0; aConstraints[7].Left = table::CellAddress(0, 6, 4); aConstraints[7].Operator = sheet::SolverConstraintOperator_GREATER_EQUAL; aConstraints[7].Right <<= 0.0; aConstraints[8].Left = table::CellAddress(0, 6, 1); aConstraints[8].Operator = sheet::SolverConstraintOperator_LESS_EQUAL; aConstraints[8].Right <<= 10000.0; aConstraints[9].Left = table::CellAddress(0, 6, 2); aConstraints[9].Operator = sheet::SolverConstraintOperator_LESS_EQUAL; aConstraints[9].Right <<= 10000.0; aConstraints[10].Left = table::CellAddress(0, 6, 3); aConstraints[10].Operator = sheet::SolverConstraintOperator_LESS_EQUAL; aConstraints[10].Right <<= 10000.0; aConstraints[11].Left = table::CellAddress(0, 6, 4); aConstraints[11].Operator = sheet::SolverConstraintOperator_LESS_EQUAL; aConstraints[11].Right <<= 10000.0; // initialize solver xSolver->setDocument(xDocument); xSolver->setObjective(aObjective); xSolver->setVariables(aVariables); xSolver->setConstraints(aConstraints); xSolver->setMaximize(false); // test results xSolver->solve(); CPPUNIT_ASSERT(xSolver->getSuccess()); uno::Sequence aSolution = xSolver->getSolution(); CPPUNIT_ASSERT_EQUAL(aVariables.getLength(), aSolution.getLength()); #if 0 // Disable for now, needs algorithm stability improvements CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, aSolution[0], 1E-5); CPPUNIT_ASSERT_DOUBLES_EQUAL(3.0, aSolution[1], 1E-5); CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, aSolution[2], 1E-5); CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, aSolution[3], 1E-5); #endif } CPPUNIT_TEST_SUITE_REGISTRATION(SwarmSolverTest); } CPPUNIT_PLUGIN_IMPLEMENT(); /* vim:set shiftwidth=4 softtabstop=4 expandtab: */