From: bangerth Date: Wed, 23 Jun 2010 23:27:26 +0000 (+0000) Subject: Rename a few variables. X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=abc0459258052a100e2832b453caaf27be1c828e;p=dealii-svn.git Rename a few variables. git-svn-id: https://svn.dealii.org/trunk@21298 0785d39b-7218-0410-832d-ea1e28bc413d --- diff --git a/deal.II/examples/step-45/step-45.cc b/deal.II/examples/step-45/step-45.cc index 3d1aae1165..4a1c66d9a5 100644 --- a/deal.II/examples/step-45/step-45.cc +++ b/deal.II/examples/step-45/step-45.cc @@ -10,22 +10,33 @@ /* to the file deal.II/doc/license.html for the text and */ /* further information on this license. */ - // The include files are already known. + + // @sect3{Include files} + + // The include files are already known. The + // one critical for the current program is + // the one that contains the ConstraintMatrix + // in the lac/ directory: #include #include -#include -#include -#include -#include -#include -#include -#include + #include #include #include #include #include #include + +#include +#include + +#include +#include +#include + +#include +#include + #include #include @@ -33,6 +44,40 @@ using namespace dealii; + + // @sect3{The LaplaceProblem class template} + + // The class LaplaceProblem is + // the main class of this problem. As + // mentioned in the introduction, it is + // fashioned after the corresponding class in + // step-3. +class LaplaceProblem +{ + public: + LaplaceProblem (); + void run (); + + private: + Triangulation<2> triangulation; + + FE_Q<2> fe; + DoFHandler<2> dof_handler; + + ConstraintMatrix constraints; + + SparsityPattern sparsity_pattern; + SparseMatrix system_matrix; + Vector system_rhs; + Vector solution; + + void assemble_system (); + void output_results (); + void setup_system (); + void solve (); +}; + + // The RightHandSide class is a function // object representing the right-hand side of // the problem. @@ -51,37 +96,19 @@ double RightHandSide::value (const Point<2>&p, const unsigned int) const { // Here comes the constructor of the class // RightHandSide. -RightHandSide::RightHandSide (): Function<2> () { -} - - // The class LaplaceProblem is - // the main class, which solves the problem. -class LaplaceProblem { - private: - ConstraintMatrix constraints; - const RightHandSide right_hand_side; - Triangulation<2> triangulation; - DoFHandler<2> dof_handler; - FE_Q<2> fe; - SparseMatrix A; - SparsityPattern sparsity_pattern; - Vector b; - Vector u; - void assemble_system (); - void output_results (); - void setup_system (); - void solve (); - - public: - LaplaceProblem (); - void run (); -}; +RightHandSide::RightHandSide () + : + Function<2> () +{} // The constructor of the class, where the // DoFHandler and the finite // element object are initialized. -LaplaceProblem::LaplaceProblem (): dof_handler (triangulation), fe (1) { -} +LaplaceProblem::LaplaceProblem () + : + fe (1), + dof_handler (triangulation) +{} //Assembling the system matrix and the //right-hand side vector is done as in other @@ -96,7 +123,9 @@ void LaplaceProblem::assemble_system () { std::vector > quadrature_points; std::vector cell_dof_indices (dofs_per_cell); Vector cell_rhs (dofs_per_cell); - + + const RightHandSide right_hand_side; + for (DoFHandler<2>::active_cell_iterator cell = dof_handler.begin_active (); cell != dof_handler.end (); ++cell) { cell_rhs = 0; fe_values.reinit (cell); @@ -112,7 +141,7 @@ void LaplaceProblem::assemble_system () { } cell->get_dof_indices (cell_dof_indices); - constraints.distribute_local_to_global (cell_matrix, cell_rhs, cell_dof_indices, A, b); + constraints.distribute_local_to_global (cell_matrix, cell_rhs, cell_dof_indices, system_matrix, system_rhs); } } @@ -232,9 +261,9 @@ void LaplaceProblem::setup_system () { sparsity_pattern.reinit (n_dofs, n_dofs, dof_handler.max_couplings_between_dofs ()); DoFTools::make_sparsity_pattern (dof_handler, sparsity_pattern, constraints, false); sparsity_pattern.compress (); - A.reinit (sparsity_pattern); - b.reinit (n_dofs); - u.reinit (n_dofs); + system_matrix.reinit (sparsity_pattern); + system_rhs.reinit (n_dofs); + solution.reinit (n_dofs); } // To solve the linear system of equations // $Au=b$ we use the CG solver with an @@ -243,12 +272,12 @@ void LaplaceProblem::solve () { SolverControl solver_control (dof_handler.n_dofs (), 1e-15); PreconditionSSOR > precondition; - precondition.initialize (A); + precondition.initialize (system_matrix); SolverCG<> cg (solver_control); - cg.solve (A, u, b, precondition); - constraints.distribute (u); + cg.solve (system_matrix, solution, system_rhs, precondition); + constraints.distribute (solution); } void LaplaceProblem::output_results () { @@ -257,7 +286,7 @@ void LaplaceProblem::output_results () { DataOut<2> data_out; data_out.attach_dof_handler (dof_handler); - data_out.add_data_vector (u, "u"); + data_out.add_data_vector (solution, "u"); data_out.build_patches (); std::ofstream output ("solution.vtk");