From 40b02226e6f840860d53ac3b88b41595c3f579fb Mon Sep 17 00:00:00 2001 From: Timo Heister Date: Wed, 12 Mar 2014 15:15:19 +0000 Subject: [PATCH] fix doxygen formatting problem git-svn-id: https://svn.dealii.org/trunk@32646 0785d39b-7218-0410-832d-ea1e28bc413d --- deal.II/doc/doxygen/headers/main.h | 18 ------------------ 1 file changed, 18 deletions(-) diff --git a/deal.II/doc/doxygen/headers/main.h b/deal.II/doc/doxygen/headers/main.h index b859bd40c5..e4dcafc3e1 100644 --- a/deal.II/doc/doxygen/headers/main.h +++ b/deal.II/doc/doxygen/headers/main.h @@ -68,7 +68,6 @@ * to the documentation pertaining to each of them: * *
    - * *
  1. %Triangulation: Triangulations are collections of * cells and their lower-dimensional boundary objects. Cells are * images of the reference hypercube [0,1]dim under a @@ -95,8 +94,6 @@ * The classes that describe triangulations and cells are located * and documented in the @ref grid module. Iterators are described * in the @ref Iterators module. - * - * *
  2. Finite Element: Finite element classes describe the * properties of a finite element space as defined on the unit * cell. This includes, for example, how many degrees of freedom are @@ -106,8 +103,6 @@ * points on the unit cell. * * The finite element classes are described in the @ref feall module. - * - * *
  3. %Quadrature: As with finite elements, quadrature * objects are defined on the unit cell. They only describe the * location of quadrature points on the unit cell, and the weights @@ -115,8 +110,6 @@ * * The documentation of the classes describing particular quadrature * formulas is found in the @ref Quadrature module. - * - * *
  4. %DoFHandler: %DoFHandler objects are the confluence * of triangulations and finite elements: the finite element class * describes how many degrees of freedom it needs per vertex, line, @@ -162,8 +155,6 @@ * imply constraints on degrees of freedom, such as for hanging nodes * or nodes at which boundary conditions apply; dealing with such * constraints is described in the @ref constraints module. - * - * *
  5. %Mapping: The next step in a finite element program * is that one would want to compute matrix and right hand side * entries or other quantities on each cell of a triangulation, @@ -177,8 +168,6 @@ * derivative and Jacobian determinants. * * These classes are all described in the @ref mapping module. - * - * *
  6. %FEValues: The next step is to actually take a finite * element and evaluate its shape functions and their gradients at * the points defined by a quadrature formula when mapped to the @@ -206,8 +195,6 @@ * cells, and FESubfaceValues for evaluation on parts of faces of * cells. All these classes are described in the @ref feaccess * module. - * - * *
  7. Linear Systems: If one knows how to evaluate the * values and gradients of shape functions on individual cells using * FEValues and friends, and knows how to get the global numbers of @@ -222,16 +209,12 @@ * of classes for this purpose, as well as with interfaces to other * software packages that offer similar functionality. Documentation * to this end can be found in the @ref LAC module. - * - * *
  8. Linear Solvers: In order to determine the solution of * a finite-dimensional, linear system of equations, one needs * linear solvers. In finite element applications, they are * frequently iterative, but sometimes one may also want to use * direct or sparse direct solvers. deal.II has quite a number of * these. They are documented in the @ref Solvers module. - * - * *
  9. Output: Finally, once one has obtained a solution of * a finite element problem on a given triangulation, one will often * want to postprocess it using a visualization program. This @@ -241,7 +224,6 @@ * * A description of the classes that do so is given in the @ref * output module. - * *
* * In addition, deal.II has a number of groups of classes that go -- 2.39.5