ROL
function/test_04.cpp
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43 
48 #include "Teuchos_oblackholestream.hpp"
49 #include "Teuchos_XMLParameterListHelpers.hpp"
50 #include "Teuchos_GlobalMPISession.hpp"
51 #include "Teuchos_Comm.hpp"
52 #include "Teuchos_DefaultComm.hpp"
53 #include "Teuchos_CommHelpers.hpp"
54 
55 #include <iostream>
56 #include <fstream>
57 #include <algorithm>
58 
59 #include "test_04.hpp"
60 
61 typedef double RealT;
68 
69 int main(int argc, char *argv[]) {
70 
71  Teuchos::GlobalMPISession mpiSession(&argc, &argv);
72 
73  // This little trick lets us print to std::cout only if a (dummy) command-line argument is provided.
74  int iprint = argc - 1;
75  bool print = (iprint>0);
76  Teuchos::RCP<std::ostream> outStream;
77  Teuchos::oblackholestream bhs; // outputs nothing
78  if (print)
79  outStream = Teuchos::rcp(&std::cout, false);
80  else
81  outStream = Teuchos::rcp(&bhs, false);
82 
83  int errorFlag = 0;
84 
85  // *** Example body.
86 
87  try {
88  /*************************************************************************/
89  /************* INITIALIZE BURGERS FEM CLASS ******************************/
90  /*************************************************************************/
91  int nx = 512; // Set spatial discretization.
92  RealT nl = 1.0; // Nonlinearity parameter (1 = Burgers, 0 = linear).
93  RealT cH1 = 1.0; // Scale for derivative term in H1 norm.
94  RealT cL2 = 0.0; // Scale for mass term in H1 norm.
95  Teuchos::RCP<BurgersFEM<RealT> > fem
96  = Teuchos::rcp(new BurgersFEM<RealT>(nx,nl,cH1,cL2));
97  fem->test_inverse_mass(*outStream);
98  fem->test_inverse_H1(*outStream);
99  /*************************************************************************/
100  /************* INITIALIZE SIMOPT EQUALITY CONSTRAINT *********************/
101  /*************************************************************************/
102  bool hess = true;
103  Teuchos::RCP<ROL::EqualityConstraint_SimOpt<RealT> > con
104  = Teuchos::rcp(new EqualityConstraint_BurgersControl<RealT>(fem,hess));
105  /*************************************************************************/
106  /************* INITIALIZE VECTOR STORAGE *********************************/
107  /*************************************************************************/
108  // INITIALIZE CONTROL VECTORS
109  Teuchos::RCP<std::vector<RealT> > z_rcp
110  = Teuchos::rcp( new std::vector<RealT> (nx+2, 0.0) );
111  Teuchos::RCP<ROL::Vector<RealT> > zp
112  = Teuchos::rcp(new PrimalControlVector(z_rcp,fem));
113  // INITIALIZE STATE VECTORS
114  Teuchos::RCP<std::vector<RealT> > u_rcp
115  = Teuchos::rcp( new std::vector<RealT> (nx, 1.0) );
116  Teuchos::RCP<ROL::Vector<RealT> > up
117  = Teuchos::rcp(new PrimalStateVector(u_rcp,fem));
118  // INITIALIZE CONSTRAINT VECTORS
119  Teuchos::RCP<std::vector<RealT> > c_rcp
120  = Teuchos::rcp( new std::vector<RealT> (nx, 1.0) );
121  Teuchos::RCP<ROL::Vector<RealT> > cp
122  = Teuchos::rcp(new PrimalConstraintVector(c_rcp,fem));
123  /*************************************************************************/
124  /************* CHECK DERIVATIVES AND CONSISTENCY *************************/
125  /*************************************************************************/
126  RealT tol = std::sqrt(ROL::ROL_EPSILON);
127  con->solve(*cp,*up,*zp,tol);
128  RealT rnorm = cp->norm();
129  con->value(*cp,*up,*zp,tol);
130  RealT cnorm = cp->norm();
131  errorFlag += ((cnorm > tol) ? 1 : 0) + ((rnorm > tol) ? 1 : 0);
132  *outStream << std::scientific << std::setprecision(8);
133  *outStream << "\nTest SimOpt solve at feasible (u,z):\n";
134  *outStream << " Solver Residual = " << rnorm << "\n";
135  *outStream << " ||c(u,z)|| = " << cnorm;
136  *outStream << "\n\n";
137  }
138  catch (std::logic_error err) {
139  *outStream << err.what() << "\n";
140  errorFlag = -1000;
141  }; // end try
142 
143  if (errorFlag != 0)
144  std::cout << "End Result: TEST FAILED\n";
145  else
146  std::cout << "End Result: TEST PASSED\n";
147 
148  return 0;
149 }
L2VectorPrimal< RealT > PrimalControlVector
H1VectorDual< RealT > DualStateVector
L2VectorDual< RealT > DualControlVector
H1VectorDual< RealT > PrimalConstraintVector
double RealT
double RealT
H1VectorPrimal< RealT > PrimalStateVector
int main(int argc, char *argv[])
H1VectorPrimal< RealT > DualConstraintVector
static const double ROL_EPSILON
Platform-dependent machine epsilon.
Definition: ROL_Types.hpp:118