Teko: Teko_DiagnosticLinearOp.cpp Source File

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00006 //      Teko: A package for block and physics based preconditioning
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00046 
00047 #include "Teko_DiagnosticLinearOp.hpp"
00048 
00049 #include "Teuchos_TimeMonitor.hpp"
00050 
00051 #include "Thyra_MultiVectorStdOps.hpp"
00052 
00053 namespace Teko {
00054 
00059 DiagnosticLinearOp::DiagnosticLinearOp(const Teuchos::RCP<std::ostream> & ostrm, const ModifiableLinearOp & A,const std::string & diagnosticString)
00060    : outputStream_(ostrm), wrapOpA_(A), diagString_(diagnosticString), timer_(diagnosticString)
00061 {
00062 }
00063 
00068 DiagnosticLinearOp::DiagnosticLinearOp(const Teuchos::RCP<std::ostream> & ostrm,const LinearOp & fwdOp,
00069                                        const ModifiableLinearOp & A,const std::string & diagnosticString)
00070    : outputStream_(ostrm), wrapOpA_(A), fwdOp_(fwdOp), diagString_(diagnosticString), timer_(diagnosticString)
00071 {
00072 }
00073 
00074 DiagnosticLinearOp::~DiagnosticLinearOp()
00075 {
00076    double elapsedTime = totalTime();
00077    int applications = numApplications();
00078 
00079    (*outputStream_) << "DiagnosticLinearOp \"" << diagString_ << "\": "
00080                     << "elapsed = " << elapsedTime << ", "
00081                     << "applications = " << applications << ", ";
00082    if(applications>0)
00083       (*outputStream_) << "timer/app = " << elapsedTime / double(applications) << std::endl;
00084    else
00085       (*outputStream_) << "timer/app = " << "none" << std::endl;
00086 }
00087 
00100 void DiagnosticLinearOp::implicitApply(const MultiVector & x, MultiVector & y,
00101                                        const double alpha, const double beta) const
00102 {
00103    Teko_DEBUG_SCOPE("DiagnosticLinearOp::implicityApply",10);
00104 
00105    // start timer on construction, end on destruction
00106    Teuchos::TimeMonitor monitor(timer_,false);  
00107 
00108    MultiVector z; // for temporary storage dealing with nozero beta
00109    if(beta!=0.0)
00110       z = deepcopy(y);
00111 
00112    wrapOpA_->apply(Thyra::NOTRANS,*x,y.ptr(),alpha,beta);
00113 
00114    // print residual if there is a fwd Op
00115    bool printResidual = (fwdOp_!=Teuchos::null); 
00116    if(printResidual) {
00117       // compute residual
00118       MultiVector residual = Teko::deepcopy(x);
00119       // fwdOp_->apply(Thyra::NOTRANS,*y,residual.ptr(),-1.0,1.0);
00120           
00121       fwdOp_->apply(Thyra::NOTRANS,*y,residual.ptr(),-1.0,alpha);
00122       if(beta!=0.0)
00123          fwdOp_->apply(Thyra::NOTRANS,*z,residual.ptr(),beta,1.0);
00124 
00125       // calculate norms
00126       std::vector<double> norms(y->domain()->dim());    // size of column count
00127       std::vector<double> rhsNorms(x->domain()->dim()); // size of column count
00128       Thyra::norms_2<double>(*residual,Teuchos::arrayViewFromVector(norms));
00129       Thyra::norms_2<double>(*x,Teuchos::arrayViewFromVector(rhsNorms));
00130 
00131       // print out residual norms
00132       (*outputStream_) << "DiagnosticLinearOp \"" << diagString_ << "\": residual = [";
00133       for(std::size_t i=0;i<norms.size();++i) 
00134   (*outputStream_) << " " << std::scientific << std::setprecision(4) << norms[i]/rhsNorms[i];// << " (" <<rhsNorms[i]<<") ";
00135       (*outputStream_) << " ]" << std::endl;
00136 
00137       residualNorm_ = norms[0];
00138    }
00139 }
00140 
00141 } // end namespace Teko