From: Reza Rastak Date: Tue, 20 Oct 2020 18:25:23 +0000 (-0700) Subject: doc of FeFieldFunction fixed to include better cross-references X-Git-Tag: v9.3.0-rc1~989^2 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=9f5309aa04b804ca039508784b0eeb909494cd60;p=dealii.git doc of FeFieldFunction fixed to include better cross-references --- diff --git a/include/deal.II/numerics/fe_field_function.h b/include/deal.II/numerics/fe_field_function.h index 6950786715..87797dde7e 100644 --- a/include/deal.II/numerics/fe_field_function.h +++ b/include/deal.II/numerics/fe_field_function.h @@ -56,11 +56,12 @@ namespace Functions * needs to find out where the points lie. * * If you know in advance in which cell your points lie, you can accelerate - * things a bit, by calling set_active_cell before asking for values or + * things a bit, by calling set_active_cell() before asking for values or * gradients of the function. If you don't do this, and your points don't * lie in the cell that is currently stored, the function - * GridTools::find_cell_around_point is called to find out where the point - * is. You can specify an optional mapping to use when looking for points in + * GridTools::find_active_cell_around_point is called to find out where the + * point is. + * You can specify an optional mapping to use when looking for points in * the grid. If you don't do so, this function uses a Q1 mapping. * * Once the FEFieldFunction knows where the points lie, it creates a @@ -70,7 +71,7 @@ namespace Functions * * If you only need the quadrature points but not the values of the finite * element function (you might want this for the adjoint interpolation), you - * can also use the function @p compute_point_locations alone. + * can also use the function compute_point_locations() alone. * * An example of how to use this function is the following: * @@ -99,7 +100,7 @@ namespace Functions * // Finally, project the solution on the first domain onto the * // second domain, assuming that this does not require querying * // values from outside the first domain: - * FEFieldFunction fe_function_1 (dh_1, solution_1); + * Functions::FEFieldFunction fe_function_1 (dh_1, solution_1); * VectorTools::project (dh_2, constraints_2, quad, * fe_function_1, solution_2); * @@ -215,7 +216,7 @@ namespace Functions * only one component (i.e. the function is scalar), you should state the * component you want to have evaluated; it defaults to zero, i.e. the * first component. It is inefficient to use single points. If you need - * more than one at a time, use the vector_value_list function. For + * more than one at a time, use the vector_value_list() function. For * efficiency reasons, it is better if all the points lie on the same * cell. This is not mandatory, however it does speed things up. * @@ -274,7 +275,7 @@ namespace Functions /** * Return the gradient of all components of the function at the given * point. It is inefficient to use single points. If you need more than - * one at a time, use the vector_value_list function. For efficiency + * one at a time, use the vector_value_list() function. For efficiency * reasons, it is better if all the points lie on the same cell. This is * not mandatory, however it does speed things up. * @@ -294,7 +295,7 @@ namespace Functions /** * Return the gradient of the specified component of the function at the * given point. It is inefficient to use single points. If you need more - * than one at a time, use the vector_value_list function. For efficiency + * than one at a time, use the vector_value_list() function. For efficiency * reasons, it is better if all the points lie on the same cell. This is * not mandatory, however it does speed things up. *