From: Luca Heltai Date: Wed, 2 May 2018 06:33:49 +0000 (+0200) Subject: Fixed comments by JP and TH X-Git-Tag: v9.0.0-rc1~36^2 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=148936e7b868b533725248bba15147450de083b4;p=dealii.git Fixed comments by JP and TH --- diff --git a/doc/doxygen/headers/boundary.h b/doc/doxygen/headers/boundary.h index e46484ce46..3945fd131b 100644 --- a/doc/doxygen/headers/boundary.h +++ b/doc/doxygen/headers/boundary.h @@ -79,8 +79,8 @@ * boundary_id that uniquely identifies which part of the * boundary this face is on. If nothing is specified at creation time, * each boundary face has a zero boundary id and each triangulation - * object has an flat manifold id. On the other hand, the boundary - * id of faces and the manifold id of objects can be set either at + * object has a flat_manifold_id. On the other hand, the boundary + * id of faces and the manifold_id of objects can be set either at * creation time or later by looping over all cells and querying their * faces. * @@ -100,18 +100,18 @@ * faces is ignored by Manifold objects, and Manifold descriptors can only be * attached to manifold ids. * - * The behavior of the Triangulation class w.r.t. geometry descriptions is the - * following: Triangulation::set_manifold() attaches a manifold descriptor to - * the specified manifold id. The function expects a Manifold descriptor, and - * you could describe both the interior and the boundary of the domain using the - * same object. + * The behavior of the Triangulation class with respect to geometry descriptions + * is the following: Triangulation::set_manifold() attaches a manifold + * descriptor to the specified manifold_id. The function expects a Manifold + * descriptor, and you could describe both the interior and the boundary of the + * domain using the same object. * * Whenever a new vertex is needed in an object, the Triangulation queries the * manifold_id of the object which needs refinement. If the query resulted in a * number different from numbers::flat_manifold_id, then the Triangulation looks * whether a previous call to Triangulation::set_manifold() was performed with - * the given id, and if yes, it uses the stored object to obtain new vertices, - * otherwise it uses a FlatManifold object. + * the given id. If it was, then the triangulation uses the stored object to + * obtain new vertices, otherwise it uses a FlatManifold object. * * @note This behavior is **not** backward compatible to that of deal.II * versions prior to 9.0. If one ignores the manifold_id of an object (i.e., if diff --git a/doc/doxygen/headers/manifold.h b/doc/doxygen/headers/manifold.h index 2b3de6f16c..b658e941c9 100644 --- a/doc/doxygen/headers/manifold.h +++ b/doc/doxygen/headers/manifold.h @@ -39,18 +39,18 @@ * thing to do. The classes derived from the Manifold base class therefore * describe the geometry of a domain. One can then attach an object of a class * derived from this base class to the Triangulation object using the - * Triangulation::set_manifold() function associating it with a manifold id - * (see types::manifold_id), use this manifold id on the cells, faces or edges + * Triangulation::set_manifold() function associating it with a manifold_id + * (see types::manifold_id), use this manifold_id on the cells, faces or edges * of the triangulation that should be described by this manifold using the * TriaAccessor::set_manifold_id() function, and then the Triangulation will * ask the manifold object where a new vertex to be located on a cell, face or * edge so attributed should be located upon mesh refinement. Several classes * already exist to support the most common geometries, e.g., - * CylinderManifold, or PolarManifold, which represent respectively the + * CylindricalManifold, or PolarManifold, which represent respectively the * geometry obtained when describing your space in cylindrical coordinates or - * in polar coordinates, and by default, all curved geometries generated using - * functions in the GridGenerator namespace attach by default the correct - * Manifold object to the curved parts of the domain. + * in polar coordinates. By default, all curved geometries generated using + * functions in the GridGenerator namespace attach the correct Manifold object + * to the curved parts of the domain. * *
  • Integration: When using higher order finite element methods, it is * often necessary to compute cell terms (like cell contributions to the