* boundary where $x=0$, get indicator 0, 1, and 2, respectively. Otherwise
* all indicators are set to 0.
*
- * All manifold ids are set to zero, and a SphericalManifold is attached
+ * All manifold ids are set to zero, and a SphericalManifold is attached
* to the triangulation.
*
* @note The triangulation passed as argument needs to be empty when calling this function.
* indicators are set to 0. In 3d indicator 2 is at the face x=0, 3 at y=0,
* 4 at z=0.
*
+ * All manifold ids are set to zero, and a SphericalManifold is attached
+ * to the triangulation.
+ *
* @note The triangulation passed as argument needs to be empty when calling this function.
*/
template <int dim>
* sense in 1D and 2D. Also keep in mind that this object is rotated
* and positioned differently than the one created by cylinder().
*
+ * All manifold ids are set to zero, and a CylindricalManifold is attached
+ * to the triangulation.
+ *
* @note The triangulation passed as argument needs to be empty when calling this function.
*/
template <int dim>
const double R,
const double r);
-
-
/**
* This class produces a square in the <i>xy</i>-plane with a cylindrical
* hole in the middle. The square and the circle are centered at the