// example: construct a linear program from given iterators // the LP below is the first linear program example in the user manual #include #include #include #include // choose exact integral type #ifdef CGAL_USE_GMP #include typedef CGAL::Gmpz ET; #else #include typedef CGAL::MP_Float ET; #endif // program and solution types typedef CGAL::Linear_program_from_iterators , // for r bool*, // for fl int*, // for l bool*, // for fu int*, // for u int*> // for c Program; typedef CGAL::Quadratic_program_solution Solution; int main() { int Ax[] = {1, -1}; // column for x int Ay[] = {1, 2}; // column for y int* A[] = {Ax, Ay}; // A comes columnwise int b[] = {7, 4}; // right-hand side CGAL::Const_oneset_iterator r( CGAL::SMALLER); // constraints are "<=" bool fl[] = {true, true}; // both x, y are lower-bounded int l[] = {0, 0}; bool fu[] = {false, true}; // only y is upper-bounded int u[] = {0, 4}; // x's u-entry is ignored int c[] = {0, -32}; int c0 = 64; // constant term // now construct the linear program; the first two parameters are // the number of variables and the number of constraints (rows of A) Program lp (2, 2, A, b, r, fl, l, fu, u, c, c0); // solve the program, using ET as the exact type Solution s = CGAL::solve_linear_program(lp, ET()); // output solution std::cout << s; return 0; }