*/
/**
- * Return total number of used lines,
+ * Return the total number of used lines,
* active or not.
*/
unsigned int n_lines () const;
/**
- * Return total number of used lines,
+ * Return the total number of used lines,
* active or not on level @p level.
*/
unsigned int n_lines (const unsigned int level) const;
/**
- * Return total number of active lines.
+ * Return the total number of active lines.
*/
unsigned int n_active_lines () const;
/**
- * Return total number of active lines,
+ * Return the total number of active lines,
* on level @p level.
*/
unsigned int n_active_lines (const unsigned int level) const;
/**
- * Return total number of used quads,
+ * Return the total number of used quads,
* active or not.
*/
unsigned int n_quads () const;
/**
- * Return total number of used quads,
+ * Return the total number of used quads,
* active or not on level @p level.
*/
unsigned int n_quads (const unsigned int level) const;
/**
- * Return total number of active quads,
+ * Return the total number of active quads,
* active or not.
*/
unsigned int n_active_quads () const;
/**
- * Return total number of active quads,
+ * Return the total number of active quads,
* active or not on level @p level.
*/
unsigned int n_active_quads (const unsigned int level) const;
/**
- * Return total number of used
+ * Return the total number of used
* hexahedra, active or not.
*/
unsigned int n_hexs() const;
/**
- * Return total number of used
+ * Return the total number of used
* hexahedra, active or not on level @p
* level.
*/
unsigned int n_hexs(const unsigned int level) const;
/**
- * Return total number of active
+ * Return the total number of active
* hexahedra, active or not.
*/
unsigned int n_active_hexs() const;
/**
- * Return total number of active
+ * Return the total number of active
* hexahedra, active or not on level @p
* level.
*/
unsigned int n_active_hexs(const unsigned int level) const;
/**
- * Return total number of used cells,
+ * Return the total number of used cells,
* active or not. Maps to
* <tt>n_lines()</tt> in one space
* dimension and so on.
unsigned int n_cells () const;
/**
- * Return total number of used cells,
+ * Return the total number of used cells,
* active or not, on level @p level.
* Maps to <tt>n_lines(level)</tt> in
* one space dimension and so on.
unsigned int n_cells (const unsigned int level) const;
/**
- * Return total number of active cells.
+ * Return the total number of active cells.
* Maps to <tt>n_active_lines()</tt> in
* one space dimension and so on.
*/
/**
- * Return total number of active cells on
+ * Return the total number of active cells on
* level @p level. Maps to
* <tt>n_active_lines(level)</tt> in one
* space dimension and so on.
unsigned int n_active_cells (const unsigned int level) const;
/**
- * Return total number of used faces,
+ * Return the total number of used faces,
* active or not. In 2D, the result
* equals n_lines(), while in 3D it
* equals n_quads(). Since there are no
unsigned int n_faces () const;
/**
- * Return total number of active faces,
+ * Return the total number of active faces,
* active or not. In 2D, the result
* equals n_active_lines(), while in 3D
* it equals n_active_quads(). Since
/**
* Total number of lines, used or
* unused.
- *
+ *
* @note This function really
* exports internal information
* about the triangulation. It
unsigned int n_raw_cells (const unsigned int level) const;
/**
- * Return total number of faces,
+ * Return the total number of faces,
* used or not. In 2d, the result
* equals n_raw_lines(), while in 3d it
* equals n_raw_quads().