TEUCHOS_UNIT_TEST_TEMPLATE_1_DECL( SpmdLocalDataAccess, getNonconstLocalSubMultiVectorView_empty_p0, Scalar ) { typedef typename ScalarTraits<Scalar>::magnitudeType ScalarMag; const RCP<const DefaultSpmdVectorSpace<Scalar> > vs = createZeroEleProcVS<Scalar>(g_localDim); const RCP<const Teuchos::Comm<Ordinal> > comm = vs->getComm(); const int procRank = comm->getRank(); PRINT_VAR(procRank); const int numProcs = comm->getSize(); PRINT_VAR(numProcs); const RCP<MultiVectorBase<Scalar> > mv = createMembers<Scalar>(vs, g_numCols); const Scalar val = as<Scalar>(1.5); PRINT_VAR(val); assign<Scalar>(mv.ptr(), val); { out << "*** Test that we get and change the nonconst view correctly ...\n"; RTOpPack::SubMultiVectorView<Scalar> lsmv = getNonconstLocalSubMultiVectorView<Scalar>(mv); if (procRank == 0) { TEST_EQUALITY_CONST(lsmv.globalOffset(), 0); TEST_EQUALITY_CONST(lsmv.subDim(), 0); TEST_EQUALITY_CONST(lsmv.values(), null); } else { TEST_EQUALITY(lsmv.globalOffset(), as<Ordinal>((procRank-1)*g_localDim)); TEST_EQUALITY(lsmv.subDim(), g_localDim); } TEST_EQUALITY_CONST(lsmv.colOffset(), 0); TEST_EQUALITY(lsmv.leadingDim(), lsmv.subDim()); TEST_EQUALITY(lsmv.numSubCols(), g_numCols); for (int i = 0; i < lsmv.subDim(); ++i) { for (int j = 0; j < lsmv.numSubCols(); ++j) { lsmv(i,j) = lsmv.globalOffset() + i + 0.1 * j; } } } { out << "*** Test that we get the same values when we grab const view ...\n"; RTOpPack::ConstSubMultiVectorView<Scalar> lsmv = getLocalSubMultiVectorView<Scalar>(mv); for (int i = 0; i < lsmv.subDim(); ++i) { for (int j = 0; j < lsmv.numSubCols(); ++j) { TEST_EQUALITY(lsmv(i,j), as<Scalar>(lsmv.globalOffset() + i + 0.1 * j)); } } } }
TEUCHOS_UNIT_TEST_TEMPLATE_1_DECL( SpmdLocalDataAccess, getNonconstLocalSubMultiVectorView_procRankLocalDim, Scalar ) { typedef typename ScalarTraits<Scalar>::magnitudeType ScalarMag; const RCP<const DefaultSpmdVectorSpace<Scalar> > vs = createProcRankLocalDimVS<Scalar>(); const RCP<const Teuchos::Comm<Ordinal> > comm = vs->getComm(); const int procRank = comm->getRank(); PRINT_VAR(procRank); const int numProcs = comm->getSize(); PRINT_VAR(numProcs); out << "*** A) Test getting nonconst MV view directly from SPMD MultiVector ...\n"; { const RCP<MultiVectorBase<Scalar> > mv = createMembers<Scalar>(vs, g_numCols); const Scalar val = as<Scalar>(1.5); PRINT_VAR(val); assign<Scalar>(mv.ptr(), val); { out << "*** A.1) Get and change the nonconst view ...\n"; RTOpPack::SubMultiVectorView<Scalar> lsmv = getNonconstLocalSubMultiVectorView<Scalar>(mv); TEST_EQUALITY(lsmv.globalOffset(), as<Ordinal>((procRank*(procRank+1))/2)); TEST_EQUALITY(lsmv.subDim(), procRank+1); TEST_EQUALITY(lsmv.leadingDim(), lsmv.subDim()); TEST_EQUALITY_CONST(lsmv.colOffset(), 0); TEST_EQUALITY(lsmv.numSubCols(), g_numCols); for (int i = 0; i < lsmv.subDim(); ++i) { for (int j = 0; j < lsmv.numSubCols(); ++j) { lsmv(i,j) = lsmv.globalOffset() + i + 0.1 * j; } } } { out << "*** A.2) Get the same values when we grab const view ...\n"; RTOpPack::ConstSubMultiVectorView<Scalar> lsmv = getLocalSubMultiVectorView<Scalar>(mv); for (int i = 0; i < lsmv.subDim(); ++i) { for (int j = 0; j < lsmv.numSubCols(); ++j) { TEST_EQUALITY(lsmv(i,j), as<Scalar>(lsmv.globalOffset() + i + 0.1 * j)); } } } } out << "*** B) Test getting nonconst MV view indirectly from one-block" << " Product MultiVector ...\n"; { const RCP<const VectorSpaceBase<Scalar> > pvs = productVectorSpace<Scalar>(tuple<RCP<const VectorSpaceBase<Scalar> > >(vs)()); const RCP<MultiVectorBase<Scalar> > pmv = createMembers<Scalar>(pvs, g_numCols); const Scalar val = as<Scalar>(1.8); PRINT_VAR(val); assign<Scalar>(pmv.ptr(), val); { out << "*** B.1) Get and change the nonconst view ...\n"; RTOpPack::SubMultiVectorView<Scalar> lsmv = getNonconstLocalSubMultiVectorView<Scalar>(pmv); TEST_EQUALITY(lsmv.globalOffset(), as<Ordinal>((procRank*(procRank+1))/2)); TEST_EQUALITY(lsmv.subDim(), procRank+1); TEST_EQUALITY(lsmv.leadingDim(), lsmv.subDim()); TEST_EQUALITY_CONST(lsmv.colOffset(), 0); TEST_EQUALITY(lsmv.numSubCols(), g_numCols); for (int i = 0; i < lsmv.subDim(); ++i) { for (int j = 0; j < lsmv.numSubCols(); ++j) { lsmv(i,j) = lsmv.globalOffset() + i + 0.1 * j; } } } { out << "*** B.2) Get the same values when we grab const view ...\n"; RTOpPack::ConstSubMultiVectorView<Scalar> lsmv = getLocalSubMultiVectorView<Scalar>(pmv); TEST_EQUALITY(lsmv.globalOffset(), as<Ordinal>((procRank*(procRank+1))/2)); TEST_EQUALITY(lsmv.subDim(), procRank+1); TEST_EQUALITY(lsmv.leadingDim(), lsmv.subDim()); TEST_EQUALITY_CONST(lsmv.colOffset(), 0); TEST_EQUALITY(lsmv.numSubCols(), g_numCols); for (int i = 0; i < lsmv.subDim(); ++i) { for (int j = 0; j < lsmv.numSubCols(); ++j) { TEST_EQUALITY(lsmv(i,j), as<Scalar>(lsmv.globalOffset() + i + 0.1 * j)); } } } } out << "*** C) Test getting nonconst MV view directly from SPMD Vector ...\n"; if (1) { const RCP<VectorBase<Scalar> > v = createMember<Scalar>(vs); const Scalar val = as<Scalar>(2.1); PRINT_VAR(val); assign<Scalar>(v.ptr(), val); { out << "*** C.1) Get and change the nonconst MV view ...\n"; RTOpPack::SubMultiVectorView<Scalar> lsmv = getNonconstLocalSubMultiVectorView<Scalar>(v); TEST_EQUALITY(lsmv.globalOffset(), as<Ordinal>((procRank*(procRank+1))/2)); TEST_EQUALITY(lsmv.subDim(), procRank+1); TEST_EQUALITY(lsmv.leadingDim(), lsmv.subDim()); TEST_EQUALITY_CONST(lsmv.colOffset(), 0); TEST_EQUALITY_CONST(lsmv.numSubCols(), 1); for (int i = 0; i < lsmv.subDim(); ++i) { lsmv(i,0) = lsmv.globalOffset() + i; } } { out << "*** C.2) Get the same values when we grab const MV view ...\n"; RTOpPack::ConstSubMultiVectorView<Scalar> lsmv = getLocalSubMultiVectorView<Scalar>(v); TEST_EQUALITY(lsmv.globalOffset(), as<Ordinal>((procRank*(procRank+1))/2)); TEST_EQUALITY(lsmv.subDim(), procRank+1); TEST_EQUALITY(lsmv.leadingDim(), lsmv.subDim()); TEST_EQUALITY_CONST(lsmv.colOffset(), 0); TEST_EQUALITY_CONST(lsmv.numSubCols(), 1); for (int i = 0; i < lsmv.subDim(); ++i) { TEST_EQUALITY(lsmv(i,0), as<Scalar>(lsmv.globalOffset() + i)); } } } out << "*** D) Test getting nonconst MV view indirectly from one-block" << " Product MultiVector ...\n"; { const RCP<const VectorSpaceBase<Scalar> > pvs = productVectorSpace<Scalar>(tuple<RCP<const VectorSpaceBase<Scalar> > >(vs)()); const RCP<VectorBase<Scalar> > pv = createMember<Scalar>(pvs); const Scalar val = as<Scalar>(1.8); PRINT_VAR(val); assign<Scalar>(pv.ptr(), val); { out << "*** D.1) Get and change the nonconst view ...\n"; RTOpPack::SubMultiVectorView<Scalar> lsmv = getNonconstLocalSubMultiVectorView<Scalar>(pv); TEST_EQUALITY(lsmv.globalOffset(), as<Ordinal>((procRank*(procRank+1))/2)); TEST_EQUALITY(lsmv.subDim(), procRank+1); TEST_EQUALITY(lsmv.leadingDim(), lsmv.subDim()); TEST_EQUALITY_CONST(lsmv.colOffset(), 0); TEST_EQUALITY(lsmv.numSubCols(), 1); for (int i = 0; i < lsmv.subDim(); ++i) { lsmv(i,0) = lsmv.globalOffset() + i; } } { out << "*** D.2) Get the same values when we grab const view ...\n"; RTOpPack::ConstSubMultiVectorView<Scalar> lsmv = getLocalSubMultiVectorView<Scalar>(pv); TEST_EQUALITY(lsmv.globalOffset(), as<Ordinal>((procRank*(procRank+1))/2)); TEST_EQUALITY(lsmv.subDim(), procRank+1); TEST_EQUALITY(lsmv.leadingDim(), lsmv.subDim()); TEST_EQUALITY_CONST(lsmv.colOffset(), 0); TEST_EQUALITY(lsmv.numSubCols(), 1); for (int i = 0; i < lsmv.subDim(); ++i) { TEST_EQUALITY(lsmv(i,0), as<Scalar>(lsmv.globalOffset() + i)); } } } }