ROL
step/test_03.cpp
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43 
48 #define USE_HESSVEC 1
49 
50 #include "ROL_GetTestProblems.hpp"
52 #include "ROL_Stream.hpp"
53 #include "Teuchos_GlobalMPISession.hpp"
54 
55 
56 #include <iostream>
57 
58 typedef double RealT;
59 
60 int main(int argc, char *argv[]) {
61 
62  Teuchos::GlobalMPISession mpiSession(&argc, &argv);
63 
64  // This little trick lets us print to std::cout only if a (dummy) command-line argument is provided.
65  int iprint = argc - 1;
66  ROL::Ptr<std::ostream> outStream;
67  ROL::nullstream bhs; // outputs nothing
68  if (iprint > 0)
69  outStream = ROL::makePtrFromRef(std::cout);
70  else
71  outStream = ROL::makePtrFromRef(bhs);
72 
73  int errorFlag = 0;
74 
75  // *** Test body.
76 
77  try {
78 
79  std::string filename = "input.xml";
80 
81  auto parlist = ROL::getParametersFromXmlFile( filename );
82  parlist->sublist("General").set("Inexact Hessian-Times-A-Vector",true);
83 #if USE_HESSVEC
84  parlist->sublist("General").set("Inexact Hessian-Times-A-Vector",false);
85 #endif
86  parlist->sublist("Step").set("Type","Line Search");
87 
89  // Get Objective Function
90  ROL::Ptr<ROL::Vector<RealT> > x0;
91  std::vector<ROL::Ptr<ROL::Vector<RealT> > > z;
92  ROL::Ptr<ROL::OptimizationProblem<RealT> > problem;
93  ROL::GetTestProblem<RealT>(problem,x0,z,prob);
94 
95  if (problem->getProblemType() == ROL::TYPE_B) {
96  *outStream << "\n\n" << ROL:: ETestOptProblemToString(prob) << "\n\n";
97 
98  // Get Dimension of Problem
99  int dim = x0->dimension();
100  parlist->sublist("General").sublist("Krylov").set("Iteration Limit", 2*dim);
101 
102  // Check Derivatives
103  problem->check(*outStream);
104 
105  // Error Vector
106  ROL::Ptr<ROL::Vector<RealT> > e = x0->clone();
107  e->zero();
108 
109  //ROL::EDescent desc = ROL::DESCENT_STEEPEST;
111  parlist->sublist("Step").sublist("Line Search").sublist("Descent Method").set("Type", ROL::EDescentToString(desc));
112  *outStream << std::endl << std::endl << ROL::EDescentToString(desc) << std::endl << std::endl;
113 
114  // Define Solver
115  ROL::OptimizationSolver<RealT> solver(*problem,*parlist);
116 
117  // Run Solver
118  solver.solve(*outStream);
119 
120  // Compute Error
121  RealT err(0);
122  for (int i = 0; i < static_cast<int>(z.size()); ++i) {
123  e->set(*x0);
124  e->axpy(-1.0,*z[i]);
125  if (i == 0) {
126  err = e->norm();
127  }
128  else {
129  err = std::min(err,e->norm());
130  }
131  }
132  *outStream << std::endl << "Norm of Error: " << err << std::endl;
133  }
134  }
135  }
136  catch (std::logic_error err) {
137  *outStream << err.what() << std::endl;
138  errorFlag = -1000;
139  }; // end try
140 
141  if (errorFlag != 0)
142  std::cout << "End Result: TEST FAILED" << std::endl;
143  else
144  std::cout << "End Result: TEST PASSED" << std::endl;
145 
146  return 0;
147 
148 }
ETestOptProblem
Enumeration of test optimization problems.
Contains definitions of test objective functions.
std::string EDescentToString(EDescent tr)
Definition: ROL_Types.hpp:418
Defines a no-output stream class ROL::NullStream and a function makeStreamPtr which either wraps a re...
std::string ETestOptProblemToString(ETestOptProblem to)
Provides a simplified interface for solving a wide range of optimization problems.
basic_nullstream< char, char_traits< char >> nullstream
Definition: ROL_Stream.hpp:72
int main(int argc, char *argv[])
int solve(const ROL::Ptr< StatusTest< Real > > &status=ROL::nullPtr, const bool combineStatus=true)
Solve optimization problem with no iteration output.
EDescent
Enumeration of descent direction types.
Definition: ROL_Types.hpp:409