Update user documentation

diff --git a/doc/salome/gui/SMESH/input/about_quality_controls.doc b/doc/salome/gui/SMESH/input/about_quality_controls.doc
index 7854d5e49e97a6467b571c662149f93ff8e48c69..1e170e440bd0e15ecf80d7bfdeae228b887845e9 100644 (file)
--- a/doc/salome/gui/SMESH/input/about_quality_controls.doc
+++ b/doc/salome/gui/SMESH/input/about_quality_controls.doc
@@ -45,7 +45,7 @@ Face quality controls:
 <li>\subpage warping_page "Warping"</li>
 <li>\subpage skew_page "Skew"</li>
 <li>\subpage max_element_length_2d_page "Element Diameter 2D"</li>
 <li>\subpage warping_page "Warping"</li>
 <li>\subpage skew_page "Skew"</li>
 <li>\subpage max_element_length_2d_page "Element Diameter 2D"</li>

-<li>\subpage double_elements_page "Double faces"</li>
+<li>\ref double_elements_page "Double faces"</li>

 </ul>
 
 Volume quality controls:
 </ul>
 
 Volume quality controls:


@@ -55,7 +55,7 @@ Volume quality controls:
 <li>\subpage max_element_length_3d_page "Element Diameter 3D"</li>
 <li>\subpage bare_border_volumes_page "Bare border volumes"</li>
 <li>\subpage over_constrained_volumes_page "Over-constrained volumes"</li>
 <li>\subpage max_element_length_3d_page "Element Diameter 3D"</li>
 <li>\subpage bare_border_volumes_page "Bare border volumes"</li>
 <li>\subpage over_constrained_volumes_page "Over-constrained volumes"</li>

-<li>\subpage double_elements_page "Double volumes"</li>
+<li>\ref double_elements_page "Double volumes"</li>

 </ul>
 
 To manage the quality controls call pop-up in the VTK viewer and select "Controls" sub-menu
 </ul>
 
 To manage the quality controls call pop-up in the VTK viewer and select "Controls" sub-menu

diff --git a/doc/salome/gui/SMESH/input/cartesian_algo.doc b/doc/salome/gui/SMESH/input/cartesian_algo.doc
index 89b11e94781f7c81241fa382918d0d27527d66d1..3240150c77f9e90999780667fd9e03fda5c5e771 100644 (file)
--- a/doc/salome/gui/SMESH/input/cartesian_algo.doc
+++ b/doc/salome/gui/SMESH/input/cartesian_algo.doc
@@ -3,7 +3,7 @@
 \page cartesian_algo_page Body Fitting 3D meshing algorithm
 
 Body Fitting algorithm generates hexahedrons of a Cartesian grid in
 \page cartesian_algo_page Body Fitting 3D meshing algorithm
 
 Body Fitting algorithm generates hexahedrons of a Cartesian grid in

-the internal part of geometry and polyhedra and other types of
+the internal part of geometry and polyhedrons and other types of

 elements at the intersection of Cartesian cells with the geometrical
 boundary.
 
 elements at the intersection of Cartesian cells with the geometrical
 boundary.
 


@@ -21,7 +21,7 @@ of the geometry boundary. Depending on a result of this check
 <ul>
 <li> skip a cell, if all its nodes are outside </li>
 <li> skip a cell, if it is too small according to <b> Size
 <ul>
 <li> skip a cell, if all its nodes are outside </li>
 <li> skip a cell, if it is too small according to <b> Size

-    Threshold </b> paremeter</li>
+    Threshold </b> parameter</li>

 <li> add a hexahedron in the mesh, if all nodes are inside </li>
 <li> add a polyhedron or another cell type in the mesh, if some
 nodes are inside and some outside. </li> 
 <li> add a hexahedron in the mesh, if all nodes are inside </li>
 <li> add a polyhedron or another cell type in the mesh, if some
 nodes are inside and some outside. </li> 


@@ -55,10 +55,10 @@ This dialog allows to define
     click on a coordinate in the list enables its edition. A grid
     defined by \b Coordinates should enclose the geometry, else the
     algorithm will fail. </li>
     click on a coordinate in the list enables its edition. A grid
     defined by \b Coordinates should enclose the geometry, else the
     algorithm will fail. </li>

-  <li> You can define the \b Spacing of a grid as an algebraic formular 
-    <em>f(t)</em> where \a t is a position along a grid axiz
+  <li> You can define the \b Spacing of a grid as an algebraic formula 
+    <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
     normalized at [0.0,1.0]. The whole range of geometry can be

-    divided into sub-ranges with their own spacing formulars to apply;
+    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
     divides a selected range into two ones. \b Delete button adds the
     selected sub-range to the previous one. Double click on a range in
     \a t varies between 0.0 and 1.0 within each sub-range. \b Insert button
     divides a selected range into two ones. \b Delete button adds the
     selected sub-range to the previous one. Double click on a range in

diff --git a/doc/salome/gui/SMESH/input/double_nodes_page.doc b/doc/salome/gui/SMESH/input/double_nodes_page.doc
index 1ac96910f953770c694d5462cea2b5845f0aae18..a8a93d1f94190d39c78ff91586e7b0bd15ad711f 100644 (file)
--- a/doc/salome/gui/SMESH/input/double_nodes_page.doc
+++ b/doc/salome/gui/SMESH/input/double_nodes_page.doc
@@ -2,7 +2,7 @@
 
 \page double_nodes_page Duplicate Nodes
 
 
 \page double_nodes_page Duplicate Nodes
 

-\n This operation allows to duplicate nodes of your mesh that is
+\n This operation allows to duplicate nodes of your mesh, which can be

 useful to emulate a crack in the model.
 Duplication consists in replacement of an existing mesh element by another one.
 Lower level elements of the duplicated ones are cloned automatically. 
 useful to emulate a crack in the model.
 Duplication consists in replacement of an existing mesh element by another one.
 Lower level elements of the duplicated ones are cloned automatically. 

diff --git a/doc/salome/gui/SMESH/input/mesh_preferences.doc b/doc/salome/gui/SMESH/input/mesh_preferences.doc
index aad8ef38619865a6e2fd8d1230ba0b03273b5e9d..1b1b2f96ce9d56290aa6bb939b995cdce7bc8f1b 100644 (file)
--- a/doc/salome/gui/SMESH/input/mesh_preferences.doc
+++ b/doc/salome/gui/SMESH/input/mesh_preferences.doc
@@ -28,8 +28,8 @@ object will be displayed in the viewer by default.</li>
 <b>Quality Control</b> diagrams at the necessary level of precision.</li>
 <li><b>Number of digits after point</b> - defines precision for <b>Quality Controls</b>. By default, numbers in <b>Quality Control</b>
 diagrams are presented as integers.</li>
 <b>Quality Control</b> diagrams at the necessary level of precision.</li>
 <li><b>Number of digits after point</b> - defines precision for <b>Quality Controls</b>. By default, numbers in <b>Quality Control</b>
 diagrams are presented as integers.</li>

-<li><b>Double nodes tolerance</b> defines maximal distance between two
-mesh nodes at which they are considered coincident by <b>Double nodes</b>
+<li><b>Double nodes tolerance</b> defines the maximal distance between two
+mesh nodes, at which they are considered coincident by <b>Double nodes</b>

 quality control.
 </ul>
 <li><b>Display mode</b> - allows to set Wireframe, Shading, Nodes or Shrink
 quality control.
 </ul>
 <li><b>Display mode</b> - allows to set Wireframe, Shading, Nodes or Shrink


@@ -84,12 +84,10 @@ number of segments on each edge</li>
 </li></ul>
 <li><b>Mesh loading</b></li>
 <ul>
 </li></ul>
 <li><b>Mesh loading</b></li>
 <ul>

-<li>If you toggle <b>No mesh loading from study file at hypothesis modification</b>
-  checkbox, then mesh data won't be loaded from the study file
-  provided that your first action on a mesh after study opening is
-  modification of hypotheses. This can save your time by omitting
-  loading data of a large mesh that your are going to recompute with
-  other parameters.</li>
+<li>If <b>No mesh loading from study file at hypothesis modification</b>
+  checkbox is on, the mesh data will not be loaded from the study file
+  when a hypothesis is modified. This allows  saving time by omitting
+  loading data of a large mesh that is planned to be recomputed with other parameters.</li>

 </ul>
 <li><b>Input fields precision</b></li>
 <ul>
 </ul>
 <li><b>Input fields precision</b></li>
 <ul>


@@ -102,12 +100,12 @@ number of segments on each edge</li>
 </ul>
 <li><b>Python Dump</b></li>
 <ul>
 </ul>
 <li><b>Python Dump</b></li>
 <ul>

-<li><b>Historical python dump</b> checkbox switches Python Dump from
-  \a Historical to \a Snapshot mode and backward. In the \a
-  Historical mode, the Python Dump script includes all commands
-  performed by SMESH engine. In the \a Snapshot mode, commands
-  relating to objects removed from the Study are excluded from the
-  script as well as commands not influencing the current state of meshes.</li>
+<li><b>Historical python dump</b> checkbox allows switching between 
+  \a Historical and \a Snapshot dump mode. In \a
+  Historical mode, Python Dump script includes all commands
+  performed by SMESH engine. In \a Snapshot mode, the commands
+  relating to objects removed from the Study as well as the commands
+  not influencing the current state of meshes are excluded from the script.</li>

 </ul>
 </ul>
 
 </ul>
 </ul>
 

diff --git a/doc/salome/gui/SMESH/input/selection_filter_library.doc b/doc/salome/gui/SMESH/input/selection_filter_library.doc
index 1b46bcc0a7908054d797cf5ce5e2f70e3a81106f..4e58dcee09fefe4ee60d516553e7508f5f582372 100644 (file)
--- a/doc/salome/gui/SMESH/input/selection_filter_library.doc
+++ b/doc/salome/gui/SMESH/input/selection_filter_library.doc
@@ -106,17 +106,17 @@ specified arbitrary surface within a given <b>Tolerance</b>.
 </li>
 </ul>
 
 </li>
 </ul>
 

-Additional criteria to select mesh <b>Nodes</b> are the following:
+The following criteria allow selecting mesh <b>Nodes</b>:

 <ul><li>
 <ul><li>

-<b>Free nodes</b> selects nodes belonging to none mesh element.
+<b>Free nodes</b> selects nodes not belonging to any mesh element.

 </li><li>
 </li><li>

-<b>Double nodes</b> selects node coincident with other nodes 
+<b>Double nodes</b> selects a node coincident with other nodes 

 (within a given <b>Tolerance</b>). 
 See also \ref tui_double_nodes_control "Double Nodes quality control".
 </li>
 </ul>
 
 (within a given <b>Tolerance</b>). 
 See also \ref tui_double_nodes_control "Double Nodes quality control".
 </li>
 </ul>
 

-Additional criteria to select mesh <b>Edges</b> are the following:
+The following criteria allow selecting mesh <b>Edges</b>:

 <ul><li>
 <b>Free Borders</b> selects free 1D mesh elements, i.e. edges belonging to 
 one face only. See also a
 <ul><li>
 <b>Free Borders</b> selects free 1D mesh elements, i.e. edges belonging to 
 one face only. See also a


@@ -137,7 +137,7 @@ See also a
 </li>
 </ul>
 
 </li>
 </ul>
 

-Additional criteria to select mesh <b>Faces</b> are the following:
+The following criteria allow selecting mesh <b>Faces</b>:

 <ul><li>
 <b>Aspect ratio</b> selects 2D mesh elements with an aspect ratio (see also an
 \ref aspect_ratio_page "Aspect Ratio quality control"), which is more, less or equal
 <ul><li>
 <b>Aspect ratio</b> selects 2D mesh elements with an aspect ratio (see also an
 \ref aspect_ratio_page "Aspect Ratio quality control"), which is more, less or equal


@@ -203,7 +203,7 @@ diagonals with a value of length, which is more, less or equal
 </li>
 </ul>
 
 </li>
 </ul>
 

-Additional criteria to select mesh <b>Volumes</b> are the following:
+The following criteria allow selecting  mesh <b>Volumes</b>:

 <ul><li>
 <b>Aspect ratio 3D</b> selects 3D mesh elements with an aspect ratio (see also an
 \ref aspect_ratio_3d_page "Aspect Ratio 3D quality control"), which is more, less or equal
 <ul><li>
 <b>Aspect ratio 3D</b> selects 3D mesh elements with an aspect ratio (see also an
 \ref aspect_ratio_3d_page "Aspect Ratio 3D quality control"), which is more, less or equal