Thyra Package Browser (Single Doxygen Collection): EpetraLinearOpParallel

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00005 //    Thyra: Interfaces and Support for Abstract Numerical Algorithms
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00043 
00044 #include "Thyra_EpetraLinearOp.hpp"
00045 #include "Thyra_LinearOpTester.hpp"
00046 #include "Thyra_DefaultBlockedLinearOp.hpp"
00047 #include "Thyra_MultiVectorBase.hpp"
00048 #include "Thyra_MultiVectorStdOps.hpp"
00049 #include "EpetraThyraAdaptersTestHelpers.hpp"
00050 
00051 #include "Teuchos_UnitTestHarness.hpp"
00052 
00053 
00054 namespace Thyra {
00055 
00056 
00057 //
00058 // Unit Tests
00059 //
00060 
00061 
00062 TEUCHOS_UNIT_TEST( EpetraLinearOpParallel, blocked_op )
00063 {
00064 
00065   using Teuchos::describe;
00066 
00067   const int scale=30;
00068   
00069   // build sub operators
00070   RCP<const LinearOpBase<double> > A00 = epetraLinearOp(getEpetraMatrix(scale*4,scale*4,0));
00071   RCP<const LinearOpBase<double> > A01 = epetraLinearOp(getEpetraMatrix(scale*4,scale*3,1));
00072   RCP<const LinearOpBase<double> > A02 = epetraLinearOp(getEpetraMatrix(scale*4,scale*2,2));
00073   RCP<const LinearOpBase<double> > A10 = epetraLinearOp(getEpetraMatrix(scale*3,scale*4,3));
00074   RCP<const LinearOpBase<double> > A11 = epetraLinearOp(getEpetraMatrix(scale*3,scale*3,4));
00075   RCP<const LinearOpBase<double> > A12 = epetraLinearOp(getEpetraMatrix(scale*3,scale*2,5));
00076   RCP<const LinearOpBase<double> > A20 = epetraLinearOp(getEpetraMatrix(scale*2,scale*4,6));
00077   RCP<const LinearOpBase<double> > A21 = epetraLinearOp(getEpetraMatrix(scale*2,scale*3,8));
00078   RCP<const LinearOpBase<double> > A22 = epetraLinearOp(getEpetraMatrix(scale*2,scale*2,8));
00079   
00080   out << "Sub operators built" << std::endl;
00081 
00082   typedef double S;
00083   const RCP<PhysicallyBlockedLinearOpBase<S> > M00 = defaultBlockedLinearOp<S>();
00084   M00->beginBlockFill(2,2);
00085   M00->setBlock(0,0,A00);
00086   M00->setBlock(0,1,A02);
00087   M00->setBlock(1,0,A20);
00088   M00->setBlock(1,1,A22);
00089   M00->endBlockFill();
00090 
00091   out << "Built M00" << std::endl;
00092 
00093   const RCP<PhysicallyBlockedLinearOpBase<S> > M10 = defaultBlockedLinearOp<S>();
00094   M10->beginBlockFill(2,1);
00095   M10->setBlock(0,0,A01);
00096   M10->setBlock(1,0,A21);
00097   M10->endBlockFill();
00098 
00099   out << "Built M10" << std::endl;
00100 
00101   const RCP<PhysicallyBlockedLinearOpBase<S> > M01 = defaultBlockedLinearOp<S>();
00102   M01->beginBlockFill(1,2);
00103   M01->setBlock(0,0,A10);
00104   M01->setBlock(0,1,A12);
00105   M01->endBlockFill();
00106 
00107   out << "Built M01" << std::endl;
00108 
00109   const RCP<PhysicallyBlockedLinearOpBase<S> > M = defaultBlockedLinearOp<S>();
00110   M->beginBlockFill(2,2);
00111   M->setBlock(0,0,A11);
00112   M->setBlock(0,1,M01);
00113   M->setBlock(1,0,M10);
00114   M->setBlock(1,1,M00);
00115   M->endBlockFill();
00116 
00117   out << "Built M" << std::endl;
00118 
00119   out << "M = " << describe(*M, Teuchos::VERB_MEDIUM);
00120   out << "M->range() = " << describe(*M->range(), Teuchos::VERB_MEDIUM);
00121   out << "M->domain() = " << describe(*M->range(), Teuchos::VERB_MEDIUM);
00122 
00123   out << "Test complete" << std::endl;
00124 
00125 }
00126 
00127 
00128 } // namespace Thyra