From: Martin Kronbichler Date: Fri, 8 Nov 2024 19:39:01 +0000 (+0100) Subject: Merge pull request #17851 from kronbichler/fix_bug_step_59 X-Git-Tag: v9.6.1~2^2 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=75328b2ad8494181b42b60430b1931f02a88d559;p=dealii.git Merge pull request #17851 from kronbichler/fix_bug_step_59 step-59: Do not adjust ghost ranges --- diff --git a/examples/step-59/step-59.cc b/examples/step-59/step-59.cc index ee53c1c8d3..36804c470c 100644 --- a/examples/step-59/step-59.cc +++ b/examples/step-59/step-59.cc @@ -178,6 +178,9 @@ namespace Step59 std::shared_ptr> get_matrix_free() const; + std::shared_ptr + get_vector_partitioner() const; + void vmult(LinearAlgebra::distributed::Vector &dst, const LinearAlgebra::distributed::Vector &src) const; @@ -251,43 +254,6 @@ namespace Step59 - // This free-standing function is used in both the `LaplaceOperator` and - // `%PreconditionBlockJacobi` classes to adjust the ghost range. This function - // is necessary because some of the vectors that the `vmult()` functions are - // supplied with are not initialized properly with - // `LaplaceOperator::initialize_dof_vector` that includes the correct layout - // of ghost entries, but instead comes from the MGTransferMatrixFree class - // that has no notion on the ghost selection of the matrix-free classes. To - // avoid index confusion, we must adjust the ghost range before actually - // doing something with these vectors. Since the vectors are kept around in - // the multigrid smoother and transfer classes, a vector whose ghost range - // has once been adjusted will remain in this state throughout the lifetime - // of the object, so we can use a shortcut at the start of the function to - // see whether the partitioner object of the distributed vector, which is - // stored as a shared pointer, is the same as the layout expected by - // MatrixFree, which is stored in a data structure accessed by - // MatrixFree::get_dof_info(0), where the 0 indicates the DoFHandler number - // from which this was extracted; we only use a single DoFHandler in - // MatrixFree, so the only valid number is 0 here. - - template - void adjust_ghost_range_if_necessary( - const MatrixFree &data, - const LinearAlgebra::distributed::Vector &vec) - { - if (vec.get_partitioner().get() == - data.get_dof_info(0).vector_partitioner.get()) - return; - - LinearAlgebra::distributed::Vector copy_vec(vec); - const_cast &>(vec).reinit( - data.get_dof_info(0).vector_partitioner); - const_cast &>(vec) - .copy_locally_owned_data_from(copy_vec); - } - - - // The next five functions to clear and initialize the `LaplaceOperator` // class, to return the shared pointer holding the MatrixFree data // container, as well as the correct initialization of the vector and @@ -319,6 +285,15 @@ namespace Step59 + template + std::shared_ptr + LaplaceOperator::get_vector_partitioner() const + { + return data->get_dof_info().vector_partitioner; + } + + + template void LaplaceOperator::initialize_dof_vector( LinearAlgebra::distributed::Vector &vec) const @@ -339,13 +314,9 @@ namespace Step59 // This function implements the action of the LaplaceOperator on a vector // `src` and stores the result in the vector `dst`. When compared to - // step-37, there are four new features present in this call. - // - // The first new feature is the `adjust_ghost_range_if_necessary` function - // mentioned above that is needed to fit the vectors to the layout expected - // by FEEvaluation and FEFaceEvaluation in the cell and face functions. + // step-37, there are three new features present in this call. // - // The second new feature is the fact that we do not implement a + // The first new feature is the fact that we do not implement a // `vmult_add()` function as we did in step-37 (through the virtual function // MatrixFreeOperators::Base::vmult_add()), but directly implement a // `vmult()` functionality. Since both cell and face integrals will sum into @@ -373,7 +344,7 @@ namespace Step59 // available for MatrixFree::cell_loop and for continuous bases, even though // it was not used in the step-37 or step-48 tutorial programs. // - // The third new feature is the way we provide the functions to compute on + // The second new feature is the way we provide the functions to compute on // cells, inner faces, and boundary faces: The class MatrixFree has a // function called `loop` that takes three function pointers to the three // cases, allowing to separate the implementations of different things. As @@ -429,8 +400,6 @@ namespace Step59 LinearAlgebra::distributed::Vector &dst, const LinearAlgebra::distributed::Vector &src) const { - adjust_ghost_range_if_necessary(*data, dst); - adjust_ghost_range_if_necessary(*data, src); data->loop(&LaplaceOperator::apply_cell, &LaplaceOperator::apply_face, &LaplaceOperator::apply_boundary, @@ -877,9 +846,6 @@ namespace Step59 LinearAlgebra::distributed::Vector &dst, const LinearAlgebra::distributed::Vector &src) const { - adjust_ghost_range_if_necessary(*data, dst); - adjust_ghost_range_if_necessary(*data, src); - FEEvaluation phi(*data); for (unsigned int cell = 0; cell < data->n_cell_batches(); ++cell) { @@ -1197,8 +1163,10 @@ namespace Step59 // The `solve()` function is copied almost verbatim from step-37. We set up // the same multigrid ingredients, namely the level transfer, a smoother, - // and a coarse grid solver. The only difference is the fact that we do not - // use the diagonal of the Laplacian for the preconditioner of the Chebyshev + // and a coarse grid solver. The only two differences are that we supply the + // transfer object with the underlying partitioners (since we do not use the + // MatrixFreeOperators::Base infrastructure) and that we do not use the + // diagonal of the Laplacian for the preconditioner of the Chebyshev // iteration used for smoothing, but instead our newly resolved class // `%PreconditionBlockJacobi`. The mechanisms are the same, though. template @@ -1206,7 +1174,12 @@ namespace Step59 { Timer time; MGTransferMatrixFree mg_transfer; - mg_transfer.build(dof_handler); + std::vector> + partitioners(dof_handler.get_triangulation().n_global_levels()); + for (unsigned int level = 0; level < partitioners.size(); ++level) + partitioners[level] = mg_matrices[level].get_vector_partitioner(); + + mg_transfer.build(dof_handler, partitioners); setup_time += time.wall_time(); time_details << "MG build transfer time " << time.wall_time() << " s\n";