Re-review docs

diff --git a/doc/salome/gui/SMESH/input/1d_meshing_hypo.doc b/doc/salome/gui/SMESH/input/1d_meshing_hypo.doc
index ac0902ec139828dd71e8b5bddd5b2dd18f34099f..72d006bfcdc989afe01a5403923536937a7588a0 100644 (file)
--- a/doc/salome/gui/SMESH/input/1d_meshing_hypo.doc
+++ b/doc/salome/gui/SMESH/input/1d_meshing_hypo.doc
@@ -68,10 +68,12 @@ Lk-1 * d) starting from a given <b>Start Length</b> and  <b>Common Ratio</b>.
 
 The splitting direction is defined by the orientation of the
 underlying geometrical edge.
 
 The splitting direction is defined by the orientation of the
 underlying geometrical edge.

-<b>Reverse Edges</b> list box allows specifying the edges, for which the splitting should be made in the
-direction opposite to their orientation. This list box is filled after a geometry object is selected for meshing. In this case it is possible to select edges to be reversed either directly picking them in
-the 3D viewer or by selecting the edges or groups of edges in the
-Object Browser. 
+<b>Reverse Edges</b> list box allows specifying the edges, for which
+the splitting should be made in the direction opposite to their
+orientation. This list box is usable only if a geometry object is
+selected for meshing. In this case it is possible to select edges to
+be reversed either directly picking them in the 3D viewer or by
+selecting the edges or groups of edges in the Object Browser. 

 
 \image html a-geometric1d.png
 
 
 \image html a-geometric1d.png
 

diff --git a/doc/salome/gui/SMESH/input/cartesian_algo.doc b/doc/salome/gui/SMESH/input/cartesian_algo.doc
index 6062aa89ea87f81f423a649ac5f0086f4d873018..4d00c577f5fb45ee38fb290dd547b4b5167137c3 100644 (file)
--- a/doc/salome/gui/SMESH/input/cartesian_algo.doc
+++ b/doc/salome/gui/SMESH/input/cartesian_algo.doc
@@ -29,7 +29,8 @@ nodes are inside and some outside. </li>
 </li>
 </ol>
 To apply this algorithm when you define your mesh, select <b>Body
 </li>
 </ol>
 To apply this algorithm when you define your mesh, select <b>Body

-  Fitting</b> in the list of 3D algorithms and add <b>Body Fitting Parameters</b> hypothesis. The following dialog will appear:
+  Fitting</b> in the list of 3D algorithms and add <b>Body Fitting
+  Parameters</b> hypothesis. The following dialog will appear:

 
 <br>
 \anchor cartesian_hyp_anchor
 
 <br>
 \anchor cartesian_hyp_anchor


@@ -50,10 +51,12 @@ This dialog allows to define
   
 \image html cartesian_implement_edge.png "Implement Edges switched off to the left and on to the right"
 
   
 \image html cartesian_implement_edge.png "Implement Edges switched off to the left and on to the right"
 

-  <li> <b>Definition mode</b> allows choosing how Cartesian structured grid is defined. Location of nodes along each grid axis is defined individually:
+  <li> <b>Definition mode</b> allows choosing how Cartesian structured
+  grid is defined. Location of nodes along each grid axis is defined
+  individually:

     <ul>
       <li> You can specify the \b Coordinates of grid nodes. \b Insert button
     <ul>
       <li> You can specify the \b Coordinates of grid nodes. \b Insert button

-        inserts a node at  \b Step distance(negative or positive) from the
+        inserts a node at \b Step distance (negative or positive) from the

         selected node. \b Delete button removes the selected node. Double
         click on a coordinate in the list enables its edition. 
         \b Note that node coordinates are measured along directions of
         selected node. \b Delete button removes the selected node. Double
         click on a coordinate in the list enables its edition. 
         \b Note that node coordinates are measured along directions of


@@ -63,7 +66,7 @@ This dialog allows to define
         <em>f(t)</em> where \a t is a position along a grid axis
         normalized at [0.0,1.0]. The whole range of geometry can be
         divided into sub-ranges with their own spacing formulas to apply;
         <em>f(t)</em> where \a t is a position along a grid axis
         normalized at [0.0,1.0]. The whole range of geometry can be
         divided into sub-ranges with their own spacing formulas to apply;

-    \a t varies between 0.0 and 1.0 within each sub-range. \b Insert button
+        \a t varies between 0.0 and 1.0 within each sub-range. \b Insert button

         divides a selected range into two. \b Delete button adds the
         selected sub-range to the previous one. Double click on a range in
         the list enables edition of its right boundary. Double click on a
         divides a selected range into two. \b Delete button adds the
         selected sub-range to the previous one. Double click on a range in
         the list enables edition of its right boundary. Double click on a


@@ -71,14 +74,22 @@ This dialog allows to define
     </li> </ul>
   </li>
   
     </li> </ul>
   </li>
   

-  <li> <b> Fixed Point</b> group allows defining an exact location of a grid node in the direction defined by spacing. The following cases are possible:
-<ul>
-<li>If all three directions are defined by spacing, there will be a mesh node at  the <b> Fixed Point</b>. </li>
-<li>If two directions are defined by spacing, there will be at least a link between mesh nodes passing through    the <b> Fixed Point</b>.</li>
-<li> If only one direction is defined by spacing, there will be at least an element facet passing through the <b> Fixed Point</b>.</li> 
-<li>If no directions are defined by spacing, <b> Fixed Point</b> is disabled.</li>
-</ul>
-</li>
+  <li> <b> Fixed Point</b> group allows defining an exact location of
+  a grid node in the direction defined by spacing. The following cases
+  are possible:
+    <ul>
+      <li>If all three directions are defined by spacing, there will
+      be a mesh node at the <b> Fixed Point</b>. </li>
+      <li>If two directions are defined by spacing, there will be at
+      least a link between mesh nodes passing through the <b> Fixed
+      Point</b>.</li> 
+      <li> If only one direction is defined by spacing, there will be
+      at least an element facet passing through the <b> Fixed
+      Point</b>.</li>
+      <li>If no directions are defined by spacing, <b> Fixed Point</b>
+      is disabled.</li>
+    </ul>
+  </li>

        
   <li> <b> Directions of Axes</b> group allows setting the directions of grid axes.
     <ul>
        
   <li> <b> Directions of Axes</b> group allows setting the directions of grid axes.
     <ul>

diff --git a/doc/salome/gui/SMESH/input/double_nodes_page.doc b/doc/salome/gui/SMESH/input/double_nodes_page.doc
index 9c3983f0185ccff569e08f5da6d1707029d878da..ce643d32680cab3d465471b0b66aa2dc9f717913 100644 (file)
--- a/doc/salome/gui/SMESH/input/double_nodes_page.doc
+++ b/doc/salome/gui/SMESH/input/double_nodes_page.doc
@@ -110,19 +110,19 @@ This mode duplicates the given elements, i.e. creates new elements with the same
 
 Parameters to be defined in this mode:
 <ul>
 
 Parameters to be defined in this mode:
 <ul>

-<li><b>Group of elements to duplicate</b> (<em>mandatory</em>): these
-  elements will be duplicated.</li> 
-<li><b>Construct group with newly created elements</b> option
-  (<em>checked by default</em>): if checked - the group of newly created
-  elements will be built. The name of the created group starts from
-  "DoubleElements".</li>
+  <li><b>Group of elements to duplicate</b> (<em>mandatory</em>): these
+    elements will be duplicated.</li>
+  <li><b>Construct group with newly created elements</b> option
+    (<em>checked by default</em>): if checked - the group of newly created
+    elements will be built. The name of the created group starts from
+    "DoubleElements".</li>

 </ul>
 
 <br>
 \anchor mode_group_boundary_anchor
 <h2>Duplicate nodes on group boundaries</h2>
 
 </ul>
 
 <br>
 \anchor mode_group_boundary_anchor
 <h2>Duplicate nodes on group boundaries</h2>
 

-This mode duplicates nodes located on boundaries between given groups of volumes. 
+This mode duplicates nodes located on boundaries between given groups of volumes.

 
 <br>
 
 
 <br>
 


@@ -130,13 +130,26 @@ This mode duplicates nodes located on boundaries between given groups of volumes
 
 Parameters to be defined in this mode:
 <ul>
 
 Parameters to be defined in this mode:
 <ul>

-<li><b>Groups of volumes</b> (<em>mandatory</em>): list of volume
-  groups. These groups should be disjoint, i.e. should not have shared volumes.</li>
-<li> If <b>Create joint elements</b> option is activated, flat elements are created on the duplicated
-nodes: a triangular facet shared by two volumes of two groups generates
-a flat prism, a quadrangular facet generates a flat hexahedron.</li>
-<li> If <b>On all boundaries</b> : option is activated, the volumes, which are not
-  included into <b>Groups of volumes</b>, are considered as another group and thus the nodes on the boundary between <b>Groups of volumes</b> and the remaining mesh are also duplicated.</li>
+  <li><b>Groups of volumes</b> (<em>mandatory</em>): list of volume
+    groups. These groups should be disjoint, i.e. should not have shared
+    volumes.</li>
+  <li> If <b>Create joint elements</b> option is activated, flat
+    elements are created on the duplicated nodes: a triangular facet
+    shared by two volumes of two groups generates a flat prism, a
+    quadrangular facet generates a flat hexahedron.
+    <br>
+    The created flat volumes are stored in groups. These groups are named
+    according to the position of the group in the list of groups: group
+    "j_n_p" is a group of flat elements that are built between the group \#n
+    and the group \#p in the group list. All the flat elements are gathered
+    into the group named "joints3D". The flat element of the multiple
+    junctions between the simple junction are stored in a group named
+    "jointsMultiples".</li>
+  <li> If <b>On all boundaries</b> option is activated, the volumes,
+    which are not included into <b>Groups of volumes</b>, are considered
+    as another group and thus the nodes on the boundary
+    between <b>Groups of volumes</b> and the remaining mesh are also
+    duplicated.</li>

 </ul>
 
 <br><b>See Also</b> a sample TUI Script of a
 </ul>
 
 <br><b>See Also</b> a sample TUI Script of a

diff --git a/doc/salome/gui/SMESH/input/editing_groups.doc b/doc/salome/gui/SMESH/input/editing_groups.doc
index ca9b7a2228f5d652b2c776b5edaacf972d931582..18b8ef654b1394300db694eeeb1a3c056040a53b 100644 (file)
--- a/doc/salome/gui/SMESH/input/editing_groups.doc
+++ b/doc/salome/gui/SMESH/input/editing_groups.doc
@@ -10,14 +10,15 @@ the <b>Edit Group</b> item or <em>"Edit Group"</em> button in the toolbar.</li>
 \image html image74.gif
 <center><em>"Edit Group" button</em></center>
 
 \image html image74.gif
 <center><em>"Edit Group" button</em></center>
 

-The following dialog box will appear:
+The following dialog box will appear (if the selected group
+is <em>standalone</em>, else this dialog looks different):

 
 \image html editgroup.png
 
 In this dialog box you can modify the name and the color of your group
 
 \image html editgroup.png
 
 In this dialog box you can modify the name and the color of your group

-despite of its type. You can add or remove the elements forming a
+despite of its type. You can add or remove the elements composing a

 <em>standalone group</em>. You can change criteria of the filter of
 <em>standalone group</em>. You can change criteria of the filter of

-the <em>group on filter</em>. For more information see
+a <em>group on filter</em>. 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
 \ref creating_groups_page "Creating Groups" page.
 
 <li>Click the \b Apply or <b>Apply and Close</b> button to confirm


@@ -28,14 +29,14 @@ modification of the group.</li>
 <em>To convert an existing group on geometry or a group on filer into
 a standalone group of elements and modify:</em>
 <ol>
 <em>To convert an existing group on geometry or a group on filer into
 a standalone group of elements and modify:</em>
 <ol>

-<li>Select your group on geometry (or your group on filter) in the
+<li>Select your group on geometry (or on filter) in the

 Object Browser and in the \b Mesh menu click the <b>Edit Group as
 Object Browser and in the \b Mesh menu click the <b>Edit Group as

-Standalone</b> item.</li> 
+Standalone</b> item.</li>

 
 \image html image74.gif
 <center><em>"Edit Group as Standalone" button</em></center>
 
 
 \image html image74.gif
 <center><em>"Edit Group as Standalone" button</em></center>
 

-The selected group will be converted into a standalone group and 
+The selected group will be converted into a standalone group and

 its contents can be modified.
 
 <li>Click the \b Apply or <b>Apply and Close</b> button to confirm modification of the
 its contents can be modified.
 
 <li>Click the \b Apply or <b>Apply and Close</b> button to confirm modification of the

diff --git a/doc/salome/gui/SMESH/input/grouping_elements.doc b/doc/salome/gui/SMESH/input/grouping_elements.doc
index c6a97e16533091bcb70fc7fd4673f812fdd65da4..c6905cdcec047d189723aef78a29d1fed7494dbb 100644 (file)
--- a/doc/salome/gui/SMESH/input/grouping_elements.doc
+++ b/doc/salome/gui/SMESH/input/grouping_elements.doc
@@ -3,8 +3,9 @@
 \page grouping_elements_page Grouping elements
 
 In Mesh module it is possible to create groups of mesh elements:
 \page grouping_elements_page Grouping elements
 
 In Mesh module it is possible to create groups of mesh elements:

-nodes, edges, faces or volumes. One group contains elements of only
-one type. The following ways of creation are possible:
+nodes, edges, faces, volumes, 0D elements or balls. One group contains
+elements of only one type. The following ways of creation are
+possible:

 
 - by selecting the elements using filters and/or directly on the 
   presentation in the VTK viewer, and/or by using elements of other
 
 - by selecting the elements using filters and/or directly on the 
   presentation in the VTK viewer, and/or by using elements of other


@@ -32,11 +33,14 @@ The created groups can be later:
 - \subpage using_operations_on_groups_page "Subjected to Boolean operations"
 - \subpage deleting_groups_page "Deleted"
 
 - \subpage using_operations_on_groups_page "Subjected to Boolean operations"
 - \subpage deleting_groups_page "Deleted"
 

-If sub-meshes or groups container item has more than one child sub-object, it is possible to sort the children in ascending order. For this, select the parent object in the Object Browser and choose <b>Sort children</b> context menu item.
+In the Object Browser, if groups or sub-meshes container item has more
+than one child sub-object, it is possible to sort the children in
+ascending order. For this, select the parent object in the Object
+Browser and choose <b>Sort children</b> context menu item. 

 
 \image html smesh_sort.png "Sorting of sub-objects"
 
 An important tool, providing filters for creation of \b Standalone
 
 \image html smesh_sort.png "Sorting of sub-objects"
 
 An important tool, providing filters for creation of \b Standalone

-groups is \ref selection_filter_library_page.
+groups and groups <b>On Filter</b> is \ref selection_filter_library_page.

 
 */
 
 */

diff --git a/doc/salome/gui/SMESH/input/mesh_through_point.doc b/doc/salome/gui/SMESH/input/mesh_through_point.doc
index 679d629b49b50841ad36519eb800e9b5359c4f11..a86e6986ba832fefac8c8a2a1e2cee28c11422b7 100644 (file)
--- a/doc/salome/gui/SMESH/input/mesh_through_point.doc
+++ b/doc/salome/gui/SMESH/input/mesh_through_point.doc
@@ -21,13 +21,19 @@ The following dialog will appear:
 \image html meshtopass2.png "Automatic node selection"
 
 </li>
 \image html meshtopass2.png "Automatic node selection"
 
 </li>

-<li>Specify the way of node selection: manually (the first radio button) or automatically (the second radio button).</li>
-
-<li>If the manual method is selected, select the necessary node (X, Y, Z fields show the original coordinates of the node to move) or set the node ID.</li>
+<li>Specify the way of node selection: manually (the first radio
+  button) or automatically (the second radio button).</li>
+<li>If the manual method is selected, select the necessary node (X, Y,
+  Z fields show the original coordinates of the node to move) or type
+  the node ID.</li>

 <li>Enter the coordinates of the destination point.</li>
 <li>Enter the coordinates of the destination point.</li>

-<li>Click <b>Update Destination</b> button to update the coordinates of the destination point.</li>
-<li>Activate \b Preview check-box to show the result of move in the viewer</li>
-<li>Click the \b Apply or <b>Apply and Close</b> button to confirm the operation.</li>
+<li>Click <b>Update Destination</b> button to set the coordinates
+  of the destination point equal to the coordinates of the node to
+  move.</li>
+<li>Activate \b Preview check-box to show the result of move in the
+  viewer.</li>
+<li>Click the \b Apply or <b>Apply and Close</b> button to confirm the
+  operation.</li>

 </ol>
 
 \image html moving_nodes1.png "The initial mesh"
 </ol>
 
 \image html moving_nodes1.png "The initial mesh"

diff --git a/doc/salome/gui/SMESH/input/split_to_tetra.doc b/doc/salome/gui/SMESH/input/split_to_tetra.doc
index 187af8b895d8fc1785e3bbe1efb8438e0cb204ba..fb5c4e1651bd0be0cb9f5bdba72a4f76b35e69db 100644 (file)
--- a/doc/salome/gui/SMESH/input/split_to_tetra.doc
+++ b/doc/salome/gui/SMESH/input/split_to_tetra.doc
@@ -38,7 +38,7 @@ First it is possible to select the type of operation:
   
 <li>If \b Tetrahedron element type is selected, <b> Split hexahedron </b> group allows specifying the number of tetrahedra  a hexahedron will be split into. If the chosen method does not allow to get a conform mesh, a generic solution is applied: an additional node is created at the gravity center of a hexahedron, serving an apex of tetrahedra, all quadrangle sides of the hexahedron are split into two triangles each serving a base of a new tetrahedron.</li> 
 
   
 <li>If \b Tetrahedron element type is selected, <b> Split hexahedron </b> group allows specifying the number of tetrahedra  a hexahedron will be split into. If the chosen method does not allow to get a conform mesh, a generic solution is applied: an additional node is created at the gravity center of a hexahedron, serving an apex of tetrahedra, all quadrangle sides of the hexahedron are split into two triangles each serving a base of a new tetrahedron.</li> 
 

-<li>If \Prism element type is selected, the <b>Split hexahedron</b> group looks as follows:
+<li>If \b Prism element type is selected, the <b>Split hexahedron</b> group looks as follows:

 
 \image html split_into_prisms.png
 
 
 \image html split_into_prisms.png