From: vsr <vsr@opencascade.com>
Date: Wed, 11 Nov 2009 15:09:39 +0000 (+0000)
Subject: Fix documentation problems (reported as doxygen warnings)
X-Git-Tag: V5_1_3rc3~10
X-Git-Url: http://git.salome-platform.org/gitweb/?p=modules%2Fsmesh.git;a=commitdiff_plain;h=b363a7ea2b631dd89e0926514ee0a67439db6e64

Fix documentation problems (reported as doxygen warnings)
---

diff --git a/doc/salome/gui/SMESH/input/basic_meshing_algos.doc b/doc/salome/gui/SMESH/input/basic_meshing_algos.doc
index 9a0fd91f5..a83a64f9f 100644
--- a/doc/salome/gui/SMESH/input/basic_meshing_algos.doc
+++ b/doc/salome/gui/SMESH/input/basic_meshing_algos.doc
@@ -47,7 +47,7 @@ tetrahedral (pyramidal) elements.</li>
 \image html image126.gif "Example of a hexahedral 3D mesh"
 </ul>
 
-\Note that BLSURF and GHS3D are commercial meshers and require a
+\note BLSURF and GHS3D are commercial meshers and require a
 license to be used within the Mesh module.
 
 There is also a number of more specific algorithms:
diff --git a/doc/salome/gui/SMESH/input/constructing_meshes.doc b/doc/salome/gui/SMESH/input/constructing_meshes.doc
index be7def6a8..625cff3bd 100644
--- a/doc/salome/gui/SMESH/input/constructing_meshes.doc
+++ b/doc/salome/gui/SMESH/input/constructing_meshes.doc
@@ -126,7 +126,7 @@ visualizing the geometrical entity that causes it.
 
 \image html failed_computation.png "Example of the invalid input mesh"
 
-\Note Mesh Computation Information box does not appear if you set
+\note Mesh Computation Information box does not appear if you set
 "Mesh computation/Show a computation result notification" preference 
 to the "Never" value. This option gives the possibility to control mesh
 computation reporting. There are the following possibilities: always
diff --git a/doc/salome/gui/SMESH/input/editing_groups.doc b/doc/salome/gui/SMESH/input/editing_groups.doc
index b5031468a..6cbe5ceb4 100644
--- a/doc/salome/gui/SMESH/input/editing_groups.doc
+++ b/doc/salome/gui/SMESH/input/editing_groups.doc
@@ -2,7 +2,7 @@
 
 \page editing_groups_page Editing groups
 
-\n <em>To edit an existing group of elements:</em>
+<em>To edit an existing group of elements:</em>
 <ol>
 <li>Select your group in the Object Browser and in the \b Mesh menu click
 the <b>Edit Group</b> item or <em>"Edit Group"</em> button in the toolbar.</li>
@@ -17,11 +17,12 @@ The following dialog box will appear:
 In this dialog box you can modify the name of your group and add or
 remove the elements forming it. For more information see 
 \ref creating_groups_page "Creating Groups" page.
+
 <li>Click the \b Apply or <b>Apply and Close</b> button to confirm modification of the
 group.</li>
 </ol>
 
-\n <em>To convert an existing group on geometry into standalone group
+<em>To convert an existing group on geometry into standalone group
 of elements and modify:</em>
 <ol>
 <li>Select your group on geometry in the Object Browser and in the \b Mesh menu click
@@ -31,11 +32,12 @@ the <b>Edit Group as Standalone</b> item.</li>
 <center><em>"Edit Group as Standalone" button</em></center>
 
 The group on geometry will be converted into standalone group and can
-be modified as group of elements
+be modified as group of elements.
+
 <li>Click the \b Apply or <b>Apply and Close</b> button to confirm modification of the
 group.</li>
+</ol>
 
-<br><b>See Also</b> a sample TUI Script of an 
-\ref tui_edit_group "Edit Group" operation.  
+\sa A sample TUI Script of an \ref tui_edit_group "Edit Group" operation.  
 
 */
diff --git a/doc/salome/gui/SMESH/input/free_faces.doc b/doc/salome/gui/SMESH/input/free_faces.doc
index 0c852f32c..d35caa9ac 100644
--- a/doc/salome/gui/SMESH/input/free_faces.doc
+++ b/doc/salome/gui/SMESH/input/free_faces.doc
@@ -2,16 +2,17 @@
 
 \page free_faces_page Free faces
 
-\n This mesh quality control highlights the faces connected to
+This mesh quality control highlights the faces connected to
 less than two mesh volume elements. The free faces are shown with a
 color different from the color of shared faces.
 
 \image html free_faces.png
-<center>In this picture some volume mesh elements have been removed, as
+
+In this picture some volume mesh elements have been removed, as
 a result some faces became connected only to one
 volume. i.e. became free.
 
-<br><b>See Also</b> a sample TUI Script of a 
-\ref tui_free_faces "Free Faces quality control" operation.  
+\sa A sample TUI Script of a \ref tui_free_faces "Free Faces quality control"
+operation.
 
 */
diff --git a/doc/salome/gui/SMESH/input/free_nodes.doc b/doc/salome/gui/SMESH/input/free_nodes.doc
index 1caaf9e4b..8a06fe3de 100644
--- a/doc/salome/gui/SMESH/input/free_nodes.doc
+++ b/doc/salome/gui/SMESH/input/free_nodes.doc
@@ -2,14 +2,15 @@
 
 \page free_nodes_page Free nodes
 
-\n This mesh quality control highlights the nodes which are not connected
+This mesh quality control highlights the nodes which are not connected
 to any  mesh element. 
 
 \image html free_nodes.png
-<center>In this picture some nodes are not connected to any mesh
+
+In this picture some nodes are not connected to any mesh
 element after deleting some elements and adding several isolated nodes.
 
-<br><b>See Also</b> a sample TUI Script of a 
-\ref tui_free_nodes "Free Nodes quality control" operation.  
+\sa A sample TUI Script of a \ref tui_free_nodes "Free Nodes quality control"
+operation.
 
 */
diff --git a/doc/salome/gui/SMESH/input/grouping_elements.doc b/doc/salome/gui/SMESH/input/grouping_elements.doc
index f5c7fed67..638d70112 100644
--- a/doc/salome/gui/SMESH/input/grouping_elements.doc
+++ b/doc/salome/gui/SMESH/input/grouping_elements.doc
@@ -12,19 +12,15 @@ dialog.</li>
 <li> by creating a group of elements of the selected type from all
 such elements of the chosen geometrical object - <b>Group on
 geometry</b> tab of  \ref creating_groups_page "Create group" dialog.</li>
-
 <li> by creating a group including all types of elements from an
 existing geometrical object - using \subpage create_groups_from_geometry_page "Create Groups from Geometry" dialog.</li>
-
 <li> by creating several groups of elements (nodes,
 edges, faces and volumes) from the chosen submesh - using <b>Mesh -> Construct
 Group</b> Menu item. In this case groups of elements are created
 automatically.</li>
-
 <li> by creating groups of entities from existing groups of superior
 dimensions - using \subpage group_of_underlying_elements_page "Create Group of Underlying Elements"
 dialog.</li>
-
 </ul>
 
 
@@ -32,12 +28,12 @@ The created groups can be later:
 
 <ul>
 <li>\subpage editing_groups_page "Edited"</li>
-<li>\subpage using_operations_on_groups_page "Subjected to Boolean operations", or</li>
+<li>\subpage using_operations_on_groups_page "Subjected to Boolean operations"</li>
 <li>\subpage deleting_groups_page "Deleted"</li>
 </ul>
 
 An important tool, providing filters for creation of \b Standalone
-groups is  \subpage selection_filter_library_page</li>.
+groups is \subpage selection_filter_library_page.
 
 
 */
diff --git a/doc/salome/gui/SMESH/input/netgen_2d_3d_hypo.doc b/doc/salome/gui/SMESH/input/netgen_2d_3d_hypo.doc
index 0c872d32b..bbb7c59ff 100644
--- a/doc/salome/gui/SMESH/input/netgen_2d_3d_hypo.doc
+++ b/doc/salome/gui/SMESH/input/netgen_2d_3d_hypo.doc
@@ -2,7 +2,7 @@
 
 \page netgen_2d_3d_hypo_page Netgen 2D and 3D hypotheses
 
-\n <b>Netgen 2D</b> and <b>Netgen 3D</b> hypotheses work only with <b>Netgen 1D-2D</b> and
+<b>Netgen 2D</b> and <b>Netgen 3D</b> hypotheses work only with <b>Netgen 1D-2D</b> and
 <b>Netgen 1D-2D-3D</b> algorithms. These algorithms do not require
 definition of lower-level  hypotheses and algorithms (2D and 1D for
 meshing 3D objects and 1D for meshing 2D objects). They prove to be
@@ -11,68 +11,64 @@ of the meshed object.
 
 \image html netgen2d.png
 
-<ul>
-<li><b>Name</b> - allows to define the name for the algorithm (Netgen
-2D (or 3D) Parameters by default).</li>
-<li><b>Max Size</b> - maximum linear dimensions for mesh cells.</li>
-<li><b>Second Order</b> - if this box is checked in, the algorithm will
+- <b>Name</b> - allows to define the name for the algorithm (Netgen
+2D (or 3D) Parameters by default).
+- <b>Max Size</b> - maximum linear dimensions for mesh cells.
+- <b>Second Order</b> - if this box is checked in, the algorithm will
 create second order nodes on the mesh, which actually will become
-\ref adding_quadratic_elements_page "Quadratic".</li>
-<li><b>Fineness</b> - ranging from Very Coarse to Very Fine allows to set the
+\ref adding_quadratic_elements_page "Quadratic".
+- <b>Fineness</b> - ranging from Very Coarse to Very Fine allows to set the
 level of meshing detalization using the three parameters below. You
-can select Custom to define them manually.</li>
-<li><b>Growth rate</b> - allows to define how much the linear dimensions of
-two adjacent cells can differ (i.e. 0.3 means 30%).</li>
-<li><b>Nb. Segs per Edge</b> and <b>Nb Segs per Radius</b> - allows to define the
+can select Custom to define them manually.
+- <b>Growth rate</b> - allows to define how much the linear dimensions of
+two adjacent cells can differ (i.e. 0.3 means 30%).
+- <b>Nb. Segs per Edge</b> and <b>Nb Segs per Radius</b> - allows to define the
 minimum number of mesh segments in which edges and radiuses will be
-split.</li>
-<li><b>Allow Quadrangles</b> - allows to use quadrangle elements in a
+split.
+- <b>Allow Quadrangles</b> - allows to use quadrangle elements in a
 triangle 2D mesh. This checkbox is not present in Netgen 3D parameters
 because currently building a tetrahedral mesh with quadrangle faces is
-not possible.</li>
-<li><b>Optimize</b> - if this box is checked in, the algorithm will try to
-create regular (possessing even sides) elements.</li>
-</ul>
+not possible.
+- <b>Optimize</b> - if this box is checked in, the algorithm will try to
+create regular (possessing even sides) elements.
 
 \image html netgen3d_simple.png
 
-<b>Netgen 2D simple parameters</b> and <b>Netgen 3D simple parameters</b> allow defining the size of elements for each dimension. <br>
+<b>Netgen 2D simple parameters</b> and <b>Netgen 3D simple
+parameters</b> allow defining the size of elements for each
+dimension.
 
 \b 1D group allows defining the size of 1D elements in either of two ways: 
-<ul>
-<li><b>Number of Segments</b> has the same sense as \ref
+- <b>Number of Segments</b> has the same sense as \ref
 number_of_segments_anchor "Number of segments" hypothesis with
-equidistant distribution.</li>
-<li><b>Average Length</b> has the same sense as \ref 
-average_length_anchor "Average Length" hypothesis.</li>
-</ul>
+equidistant distribution.
+- <b>Average Length</b> has the same sense as \ref 
+average_length_anchor "Average Length" hypothesis.
 
 \b 2D group allows defining the size of 2D elements 
-<ul>
-<li><b>Length from edges</b> if checked in, acts like \ref
-length_from_edges_anchor "Length from Edges" hypothesis, else </li>
-<li><b>Max. Element Area</b> defines the maximum element area like \ref
-max_element_area_anchor "Max Element Area" hypothesis. </li>
-</ul>
+- <b>Length from edges</b> if checked in, acts like \ref
+length_from_edges_anchor "Length from Edges" hypothesis, else
+- <b>Max. Element Area</b> defines the maximum element area like \ref
+max_element_area_anchor "Max Element Area" hypothesis.
 
 \b 3D groups allows defining the size of 3D elements.
-<ul>
-<li><b>Length from faces</b> if checked in, the area of sides of
-volumic elements will be equal to an average area of 2D elements, else </li>
-<li><b>Max. Element Volume</b> defines the maximum element volume like
+- <b>Length from faces</b> if checked in, the area of sides of
+volumic elements will be equal to an average area of 2D elements, else
+- <b>Max. Element Volume</b> defines the maximum element volume like
 \ref max_element_volume_hypo_page "Max Element Volume"
-hypothesis.</li>
-<ul>
+hypothesis.
 
-\n Note that Netgen algorithm does not strictly follow the input
-parameters. The actual mesh can be more or less dense than required. There are several factors in it:
-<ol>
-<li> NETGEN does not actually use "NbOfSegments" parameter for discretization of
-edge. This parameter is used  only to define the local element size (size at the given point), so local sizes of adjacent edges influence each other. </li>
-<li> NETGEN additionally restricts the element size according to edge curvature.</li>
-<li> The local size of edges influences the size of close triangles.</li>
-<li> The order of elements and their size in the 1D mesh generated by
+\note Netgen algorithm does not strictly follow the input
+parameters. The actual mesh can be more or less dense than
+required. There are several factors in it:
+- NETGEN does not actually use "NbOfSegments" parameter for discretization of
+edge. This parameter is used  only to define the local element size
+(size at the given point), so local sizes of adjacent edges influence
+each other.
+- NETGEN additionally restricts the element size according to edge curvature.
+- The local size of edges influences the size of close triangles.
+- The order of elements and their size in the 1D mesh generated by
 NETGEN differ from those in the 1D mesh generated by Regular_1D
-algorithm, resulting in different 2D and 3D meshes.</li>
-</ol>
-*/
\ No newline at end of file
+algorithm, resulting in different 2D and 3D meshes.
+
+*/
diff --git a/doc/salome/gui/SMESH/input/radial_quadrangle_1D2D_algo.doc b/doc/salome/gui/SMESH/input/radial_quadrangle_1D2D_algo.doc
index 24bd883a9..9f54f3eef 100644
--- a/doc/salome/gui/SMESH/input/radial_quadrangle_1D2D_algo.doc
+++ b/doc/salome/gui/SMESH/input/radial_quadrangle_1D2D_algo.doc
@@ -17,4 +17,6 @@ of mesh layers along the radius. The distribution of layers can be set with any
 
 \image html mesh_radquad_02.png "Radial Quadrangle 2D mesh on a part of circle"
 
+\sa A sample \ref tui_radial_quadrangle "TUI Script".
+
 */
diff --git a/doc/salome/gui/SMESH/input/smeshpy_interface.doc b/doc/salome/gui/SMESH/input/smeshpy_interface.doc
index efbafc617..e0fe78ec9 100644
--- a/doc/salome/gui/SMESH/input/smeshpy_interface.doc
+++ b/doc/salome/gui/SMESH/input/smeshpy_interface.doc
@@ -2,129 +2,140 @@
 
 \page smeshpy_interface_page Python interface
 
-\n Python package smesh defines several classes, destined for easy and
+Python package smesh defines several classes, destined for easy and
 clear mesh creation and edition.
 
-\n Documentation for smesh package is available in two forms:
-
-\n The <a href="smeshpy_doc/modules.html"> structured
-   documentation for smesh package</a>, where all methods and
-   classes are grouped by their functionality, like it is done in the GUI documentation
-\n and the \ref smeshDC "linear documentation for smesh package"
-   grouped only by classes, declared in the smesh.py file.
-
-\n The main page of the \ref smeshDC "linear documentation for smesh package"
-   contains a list of data structures and a list of
-   functions, provided by the package smesh.py. The first item in
-   the list of data structures (\ref smeshDC::smeshDC "class smesh")
-   also represents documentation for the methods of the package smesh.py itself.
-
-\n The package smesh.py provides an interface to create and handle
-   meshes. Use it to create an empty mesh or to import it from the data file.
-
-\n Once a mesh has been created, it is possible to  manage it via its own
-   methods, described at \ref smeshDC::Mesh "class Mesh" documentation
-   (it is also accessible by the second item "class Mesh" in the list of data structures).
-
-\n Class Mesh allows assigning algorithms to a mesh.
-\n Please note, that some algorithms,
-   included in the standard Salome installation are always available:
-      - REGULAR(1D), COMPOSITE(1D), MEFISTO(2D), Quadrangle(2D), Hexa(3D), etc.
-
-\n There are also some algorithms, which can be installed optionally,
-\n some of them are based on open-source meshers:
-         - NETGEN(1D-2D,2D,1D-2D-3D,3D),
-
-\n others are based on commercial meshers:
-         - GHS3D(3D), BLSURF(2D).
-
-\n    To add hypotheses, use the interfaces, provided by the assigned
+Documentation for smesh package is available in two forms:
+
+The <a href="smeshpy_doc/modules.html"> structured
+documentation for smesh package</a>, where all methods and
+classes are grouped by their functionality, like it is done in the GUI documentation
+and the \ref smeshDC "linear documentation for smesh package"
+grouped only by classes, declared in the smesh.py file.
+
+The main page of the \ref smeshDC "linear documentation for smesh package"
+contains a list of data structures and a list of
+functions, provided by the package smesh.py. The first item in
+the list of data structures (\ref smeshDC::smeshDC "class smesh")
+also represents documentation for the methods of the package smesh.py itself.
+
+The package smesh.py provides an interface to create and handle
+meshes. Use it to create an empty mesh or to import it from the data file.
+
+Once a mesh has been created, it is possible to  manage it via its own
+methods, described at \ref smeshDC::Mesh "class Mesh" documentation
+(it is also accessible by the second item "class Mesh" in the list of data structures).
+
+Class \b Mesh allows assigning algorithms to a mesh.
+Please note, that some algorithms, included in the standard SALOME
+distribution are always available:
+- REGULAR (1D)
+- COMPOSITE (1D)
+- MEFISTO (2D)
+- Quadrangle (2D)
+- Hexa(3D)
+- etc...
+
+There are also some algorithms, which can be installed optionally,
+some of them are based on open-source meshers:
+- NETGEN (1D-2D, 2D, 1D-2D-3D, 3D)
+
+... and others are based on commercial meshers:
+- GHS3D (3D)
+- BLSURF (2D)
+
+To add hypotheses, use the interfaces, provided by the assigned
 algorithms.
 
-\n Below you can see an example of usage of the package smesh for 3d mesh generation. 
+Below you can see an example of usage of the package smesh for 3d mesh generation. 
 
+\anchor example_3d_mesh
 <h2>Example of 3d mesh generation with NETGEN:</h2>
 
-\n from geompy import * 
-\n import smesh 
+\code
+from geompy import * 
+import smesh 
 
-<b># Geometry</b>
-\n <b># an assembly of a box, a cylinder and a truncated cone meshed with tetrahedral</b>. 
+###
+# Geometry: an assembly of a box, a cylinder and a truncated cone
+# meshed with tetrahedral 
+###
 
-<b># Define values</b>
-\n name = "ex21_lamp" 
-\n cote = 60 
-\n section = 20 
-\n size = 200 
-\n radius_1 = 80 
-\n radius_2 = 40 
-\n height = 100 
+# Define values
+name = "ex21_lamp" 
+cote = 60 
+section = 20 
+size = 200 
+radius_1 = 80 
+radius_2 = 40 
+height = 100 
 
-<b># Build a box</b>
-\n box = MakeBox(-cote, -cote, -cote, +cote, +cote, +cote) 
+# Build a box
+box = MakeBox(-cote, -cote, -cote, +cote, +cote, +cote) 
 
-<b># Build a cylinder</b>
-\n pt1 = MakeVertex(0, 0, cote/3) 
-\n di1 = MakeVectorDXDYDZ(0, 0, 1) 
-\n cyl = MakeCylinder(pt1, di1, section, size) 
+# Build a cylinder
+pt1 = MakeVertex(0, 0, cote/3) 
+di1 = MakeVectorDXDYDZ(0, 0, 1) 
+cyl = MakeCylinder(pt1, di1, section, size) 
 
-<b># Build a truncated cone</b>
-\n pt2 = MakeVertex(0, 0, size) 
-\n cone = MakeCone(pt2, di1, radius_1, radius_2, height) 
+# Build a truncated cone
+pt2 = MakeVertex(0, 0, size) 
+cone = MakeCone(pt2, di1, radius_1, radius_2, height) 
 
-<b># Fuse </b>
-\n box_cyl = MakeFuse(box, cyl) 
-\n piece = MakeFuse(box_cyl, cone) 
+# Fuse
+box_cyl = MakeFuse(box, cyl) 
+piece = MakeFuse(box_cyl, cone) 
 
-<b># Add in study</b>
-\n addToStudy(piece, name) 
+# Add to the study
+addToStudy(piece, name) 
 
-<b># Create a group of faces</b>
-\n group = CreateGroup(piece, ShapeType["FACE"]) 
-\n group_name = name + "_grp" 
-\n addToStudy(group, group_name) 
-\n group.SetName(group_name) 
+# Create a group of faces
+group = CreateGroup(piece, ShapeType["FACE"]) 
+group_name = name + "_grp" 
+addToStudy(group, group_name) 
+group.SetName(group_name) 
 
-<b># Add faces in the group</b>
-\n faces = SubShapeAllIDs(piece, ShapeType["FACE"]) 
-\n UnionIDs(group, faces) 
+# Add faces to the group
+faces = SubShapeAllIDs(piece, ShapeType["FACE"]) 
+UnionIDs(group, faces) 
 
-<b># Create a mesh</b>
+###
+# Create a mesh
+###
 
-<b># Define a mesh on a geometry</b>
-\n tetra = smesh.Mesh(piece, name) 
+# Define a mesh on a geometry
+tetra = smesh.Mesh(piece, name) 
 
-<b># Define 1D hypothesis</b>
-\n algo1d = tetra.Segment() 
-\n algo1d.LocalLength(10) 
+# Define 1D hypothesis
+algo1d = tetra.Segment() 
+algo1d.LocalLength(10) 
 
-<b># Define 2D hypothesis</b>
-\n algo2d = tetra.Triangle() 
-\n algo2d.LengthFromEdges() 
+# Define 2D hypothesis
+algo2d = tetra.Triangle() 
+algo2d.LengthFromEdges() 
 
-<b># Define 3D hypothesis</b>
-\n algo3d = tetra.Tetrahedron(smesh.NETGEN) 
-\n algo3d.MaxElementVolume(100) 
+# Define 3D hypothesis
+algo3d = tetra.Tetrahedron(smesh.NETGEN) 
+algo3d.MaxElementVolume(100) 
 
-<b># Compute the mesh</b>
-\n tetra.Compute() 
+# Compute the mesh
+tetra.Compute() 
 
-<b># Create a groupe of faces</b>
-\n tetra.Group(group)
+# Create a groupe of faces
+tetra.Group(group)
 
-\n Examples of Python scripts for all Mesh operations are available by
-the following links:
+\endcode
 
-<ul>
-<li>\subpage tui_creating_meshes_page</li>
-<li>\subpage tui_viewing_meshes_page</li>
-<li>\subpage tui_defining_hypotheses_page</li>
-<li>\subpage tui_quality_controls_page</li>
-<li>\subpage tui_grouping_elements_page</li>
-<li>\subpage tui_modifying_meshes_page</li>
-<li>\subpage tui_transforming_meshes_page</li>
-<li>\subpage tui_notebook_smesh_page</li>
-</ul>
+Examples of Python scripts for all Mesh operations are available by
+the following links:
 
+- \subpage tui_creating_meshes_page
+- \subpage tui_viewing_meshes_page
+- \subpage tui_defining_hypotheses_page
+- \subpage tui_quality_controls_page
+- \subpage tui_grouping_elements_page
+- \subpage tui_modifying_meshes_page
+- \subpage tui_transforming_meshes_page
+- \subpage tui_notebook_smesh_page
 
 */
diff --git a/doc/salome/gui/SMESH/input/translation.doc b/doc/salome/gui/SMESH/input/translation.doc
index e4589b5a6..2f0f0743e 100644
--- a/doc/salome/gui/SMESH/input/translation.doc
+++ b/doc/salome/gui/SMESH/input/translation.doc
@@ -64,13 +64,9 @@ name in the adjacent box);</li>
 </ul>
 </li>
 
-<li>Click \b Apply or <b> Apply and Close</b> button to confirm the
-operation.</li>
-
+<li>Click \b Apply or <b> Apply and Close</b> button to confirm the operation.</li>
 </ol>
 
-
-<br><b>See Also</b> a sample TUI Script of a 
-\ref tui_translation "Translation" operation.  
+<br><b>See Also</b> a sample TUI Script of a \ref tui_translation "Translation" operation.  
 
 */
diff --git a/doc/salome/gui/SMESH/input/tui_creating_meshes.doc b/doc/salome/gui/SMESH/input/tui_creating_meshes.doc
index 9048afef1..87f740e98 100644
--- a/doc/salome/gui/SMESH/input/tui_creating_meshes.doc
+++ b/doc/salome/gui/SMESH/input/tui_creating_meshes.doc
@@ -2,7 +2,7 @@
 
 \page tui_creating_meshes_page Creating Meshes
 
-\n First of all see \ref introduction_to_mesh_python_page "Example of 3d mesh generation",
+\n First of all see \ref example_3d_mesh "Example of 3d mesh generation",
  which is an example of good python script style for Mesh module.
 
 <br>
diff --git a/doc/salome/gui/SMESH/input/tui_grouping_elements.doc b/doc/salome/gui/SMESH/input/tui_grouping_elements.doc
index e03433f1c..b77edd21e 100644
--- a/doc/salome/gui/SMESH/input/tui_grouping_elements.doc
+++ b/doc/salome/gui/SMESH/input/tui_grouping_elements.doc
@@ -1,4 +1,4 @@
-/*!
+	/*!
 
 \page tui_grouping_elements_page Grouping Elements
 
@@ -318,13 +318,13 @@ salome.sg.updateObjBrowser(1)
 \endcode
 
 \image html dimgroup_tui1.png
-<center>Source groups of faces<\center>
+<center>Source groups of faces</center>
 
 \image html dimgroup_tui2.png
-<center>Result groups of edges and nodes<\center>
+<center>Result groups of edges and nodes</center>
 
 
 
 
 
-*/
\ No newline at end of file
+*/
diff --git a/doc/salome/gui/SMESH/input/viewing_meshes_overview.doc b/doc/salome/gui/SMESH/input/viewing_meshes_overview.doc
index 01a272de2..ee4c6dd4a 100644
--- a/doc/salome/gui/SMESH/input/viewing_meshes_overview.doc
+++ b/doc/salome/gui/SMESH/input/viewing_meshes_overview.doc
@@ -38,7 +38,7 @@ meshes.</li>
 <li>\subpage transparency_page "Transparency" - allows to change the
 transparency of mesh elements.</li>
 <li>\subpage clipping_page "Clipping" - allows to create cross-sections of the selected objects.</li>
-<li>\ref about_quality_controls_page "Controls" - graphically
+<li>\ref quality_page "Controls" - graphically
 presents various information about meshes.</li>
 <li><b>Hide</b> - allows to hide the selected mesh from the viewer.</li>
 <li><b>Show Only</b> -allows to display only the selected mesh, hiding all other from the viewer.</li>
diff --git a/src/SMESH_SWIG/smeshDC.py b/src/SMESH_SWIG/smeshDC.py
index a9babb02f..a2b797088 100644
--- a/src/SMESH_SWIG/smeshDC.py
+++ b/src/SMESH_SWIG/smeshDC.py
@@ -810,8 +810,8 @@ class smeshDC(SMESH._objref_SMESH_Gen):
             print "Error: given parameter is not numerucal functor type."
 
     ## Creates hypothesis
-    #  @param 
-    #  @param 
+    #  @param theHType mesh hypothesis type (string)
+    #  @param theLibName mesh plug-in library name
     #  @return created hypothesis instance
     def CreateHypothesis(self, theHType, theLibName="libStdMeshersEngine.so"):
         return SMESH._objref_SMESH_Gen.CreateHypothesis(self, theHType, theLibName )
@@ -1320,6 +1320,8 @@ class Mesh:
     #  Exports the mesh in a file in MED format and chooses the \a version of MED format
     #  @param f the file name
     #  @param version values are SMESH.MED_V2_1, SMESH.MED_V2_2
+    #  @param opt boolean parameter for creating/not creating
+    #  the groups Group_On_All_Nodes, Group_On_All_Faces, ...
     #  @ingroup l2_impexp
     def ExportToMED(self, f, version, opt=0):
         self.mesh.ExportToMED(f, opt, version)
@@ -2190,6 +2192,8 @@ class Mesh:
     #  @param x  the X coordinate of a point
     #  @param y  the Y coordinate of a point
     #  @param z  the Z coordinate of a point
+    #  @param NodeID if specified (>0), the node with this ID is moved,
+    #  otherwise, the node closest to point (@a x,@a y,@a z) is moved
     #  @return the ID of a node
     #  @ingroup l2_modif_throughp
     def MoveClosestNodeToPoint(self, x, y, z, NodeID):
@@ -5175,7 +5179,7 @@ omniORB.registerObjref(StdMeshers._objref_StdMeshers_MaxElementArea._NP_Reposito
 class MaxElementVolume(StdMeshers._objref_StdMeshers_MaxElementVolume):
     
     ## Set Max Element Volume parameter value
-    #  @param area  numerical value or name of variable from notebook
+    #  @param volume numerical value or name of variable from notebook
     def SetMaxElementVolume(self, volume):
         volume ,parameters = ParseParameters(StdMeshers._objref_StdMeshers_MaxElementVolume.GetLastParameters(self),1,1,volume)
         StdMeshers._objref_StdMeshers_MaxElementVolume.SetParameters(self,parameters)