Format examples/cpp
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Corentin Le Molgat
@@ -17,71 +17,72 @@
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#include "ortools/linear_solver/linear_solver.h"
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namespace operations_research {
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void RunIntegerProgrammingExample(
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MPSolver::OptimizationProblemType optimization_problem_type) {
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MPSolver solver("IntegerProgrammingExample", optimization_problem_type);
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const double infinity = solver.infinity();
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// x and y are integer non-negative variables.
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MPVariable* const x = solver.MakeIntVar(0.0, infinity, "x");
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MPVariable* const y = solver.MakeIntVar(0.0, infinity, "y");
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void RunIntegerProgrammingExample(
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MPSolver::OptimizationProblemType optimization_problem_type) {
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MPSolver solver("IntegerProgrammingExample", optimization_problem_type);
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const double infinity = solver.infinity();
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// x and y are integer non-negative variables.
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MPVariable* const x = solver.MakeIntVar(0.0, infinity, "x");
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MPVariable* const y = solver.MakeIntVar(0.0, infinity, "y");
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// Maximize x + 10 * y.
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MPObjective* const objective = solver.MutableObjective();
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objective->SetCoefficient(x, 1);
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objective->SetCoefficient(y, 10);
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objective->SetMaximization();
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// Maximize x + 10 * y.
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MPObjective* const objective = solver.MutableObjective();
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objective->SetCoefficient(x, 1);
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objective->SetCoefficient(y, 10);
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objective->SetMaximization();
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// x + 7 * y <= 17.5.
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MPConstraint* const c0 = solver.MakeRowConstraint(-infinity, 17.5);
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c0->SetCoefficient(x, 1);
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c0->SetCoefficient(y, 7);
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// x + 7 * y <= 17.5.
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MPConstraint* const c0 = solver.MakeRowConstraint(-infinity, 17.5);
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c0->SetCoefficient(x, 1);
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c0->SetCoefficient(y, 7);
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// x <= 3.5
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MPConstraint* const c1 = solver.MakeRowConstraint(-infinity, 3.5);
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c1->SetCoefficient(x, 1);
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c1->SetCoefficient(y, 0);
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// x <= 3.5
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MPConstraint* const c1 = solver.MakeRowConstraint(-infinity, 3.5);
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c1->SetCoefficient(x, 1);
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c1->SetCoefficient(y, 0);
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LOG(INFO) << "Number of variables = " << solver.NumVariables();
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LOG(INFO) << "Number of constraints = " << solver.NumConstraints();
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LOG(INFO) << "Number of variables = " << solver.NumVariables();
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LOG(INFO) << "Number of constraints = " << solver.NumConstraints();
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const MPSolver::ResultStatus result_status = solver.Solve();
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// Check that the problem has an optimal solution.
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if (result_status != MPSolver::OPTIMAL) {
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LOG(FATAL) << "The problem does not have an optimal solution!";
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}
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LOG(INFO) << "Solution:";
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LOG(INFO) << "x = " << x->solution_value();
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LOG(INFO) << "y = " << y->solution_value();
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LOG(INFO) << "Optimal objective value = " << objective->Value();
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LOG(INFO) << "";
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LOG(INFO) << "Advanced usage:";
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LOG(INFO) << "Problem solved in " << solver.wall_time() << " milliseconds";
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LOG(INFO) << "Problem solved in " << solver.iterations() << " iterations";
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LOG(INFO) << "Problem solved in " << solver.nodes() << " branch-and-bound nodes";
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const MPSolver::ResultStatus result_status = solver.Solve();
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// Check that the problem has an optimal solution.
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if (result_status != MPSolver::OPTIMAL) {
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LOG(FATAL) << "The problem does not have an optimal solution!";
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}
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LOG(INFO) << "Solution:";
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LOG(INFO) << "x = " << x->solution_value();
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LOG(INFO) << "y = " << y->solution_value();
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LOG(INFO) << "Optimal objective value = " << objective->Value();
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LOG(INFO) << "";
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LOG(INFO) << "Advanced usage:";
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LOG(INFO) << "Problem solved in " << solver.wall_time() << " milliseconds";
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LOG(INFO) << "Problem solved in " << solver.iterations() << " iterations";
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LOG(INFO) << "Problem solved in " << solver.nodes()
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<< " branch-and-bound nodes";
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}
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void RunAllExamples() {
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void RunAllExamples() {
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#if defined(USE_CBC)
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LOG(INFO) << "---- Integer programming example with CBC ----";
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RunIntegerProgrammingExample(MPSolver::CBC_MIXED_INTEGER_PROGRAMMING);
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LOG(INFO) << "---- Integer programming example with CBC ----";
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RunIntegerProgrammingExample(MPSolver::CBC_MIXED_INTEGER_PROGRAMMING);
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#endif
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#if defined(USE_GLPK)
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LOG(INFO) << "---- Integer programming example with GLPK ----";
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RunIntegerProgrammingExample(MPSolver::GLPK_MIXED_INTEGER_PROGRAMMING);
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LOG(INFO) << "---- Integer programming example with GLPK ----";
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RunIntegerProgrammingExample(MPSolver::GLPK_MIXED_INTEGER_PROGRAMMING);
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#endif
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#if defined(USE_SCIP)
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LOG(INFO) << "---- Integer programming example with SCIP ----";
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RunIntegerProgrammingExample(MPSolver::SCIP_MIXED_INTEGER_PROGRAMMING);
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LOG(INFO) << "---- Integer programming example with SCIP ----";
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RunIntegerProgrammingExample(MPSolver::SCIP_MIXED_INTEGER_PROGRAMMING);
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#endif
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#if defined(USE_GUROBI)
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LOG(INFO) << "---- Integer programming example with Gurobi ----";
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RunIntegerProgrammingExample(MPSolver::GUROBI_MIXED_INTEGER_PROGRAMMING);
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LOG(INFO) << "---- Integer programming example with Gurobi ----";
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RunIntegerProgrammingExample(MPSolver::GUROBI_MIXED_INTEGER_PROGRAMMING);
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#endif // USE_GUROBI
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#if defined(USE_CPLEX)
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LOG(INFO) << "---- Integer programming example with CPLEX ----";
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RunIntegerProgrammingExample(MPSolver::CPLEX_MIXED_INTEGER_PROGRAMMING);
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LOG(INFO) << "---- Integer programming example with CPLEX ----";
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RunIntegerProgrammingExample(MPSolver::CPLEX_MIXED_INTEGER_PROGRAMMING);
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#endif // USE_CPLEX
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}
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}
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} // namespace operations_research
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int main(int argc, char** argv) {
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