X-Git-Url: http://git.salome-platform.org/gitweb/?a=blobdiff_plain;f=doc%2Fsalome%2Fgui%2FSMESH%2Finput%2Fconstructing_submeshes.doc;h=43f99e5c599e71976cd33d0a38dfb9377b32dd54;hb=b8f76a6e3fc33d70c79b0052682a71f3e899964e;hp=8e750f6a25579c5b85d29b8e197cc1972d19d548;hpb=066f625a46b60642f228a0c10fc6c2dcdc20d304;p=modules%2Fsmesh.git

diff --git a/doc/salome/gui/SMESH/input/constructing_submeshes.doc b/doc/salome/gui/SMESH/input/constructing_submeshes.doc
index 8e750f6a2..43f99e5c5 100644
--- a/doc/salome/gui/SMESH/input/constructing_submeshes.doc
+++ b/doc/salome/gui/SMESH/input/constructing_submeshes.doc
@@ -11,8 +11,8 @@ and/or hypotheses than those used to generate the mesh on other
 sub-shapes.
 
 Creation of a sub-mesh allows to control individually meshing of a
-certain sub-shape, thus allowing to get mesh locally coarser or finer, to get
-elements of different types in the same mesh etc.
+certain sub-shape, thus to get a locally coarser or finer mesh, to get
+elements of different types in the same mesh, etc.
 
 A sub-shape to create a sub-mesh on should be retrieved from the main shape
 in one of the following ways: <ul>
@@ -33,7 +33,7 @@ compound of solids, starts from searching an algorithm, 1D as for the
 edge. The following sub-shapes are sequentially checked for presence
 of a sub-mesh where 1D algorithm is assigned:
 <ul>
-<li> the \b edge it-self</li>
+<li> the \b edge itself</li>
 <li> <b>groups of edges</b> containing the edge, if any</li>
 <li> \b wires sharing the edge</li>
 <li> \b faces sharing the edge</li>
@@ -43,29 +43,28 @@ of a sub-mesh where 1D algorithm is assigned:
 <li> <b>groups of solids</b> sharing the edge, if any</li>
 <li> the <b>main shape</b></li>
 </ul>
-(This sequence of sub-shapes defines priority of sub-meshes. Thus more
+(This sequence of sub-shapes defines the priority of sub-meshes. Thus more
 local, i.e. assigned to sub-shape of lower dimension, algorithms and
 hypotheses have higher priority during the search of hypotheses to
 apply.)
 
-As soon as an 1D algorithm is found the search stops and the same
-sequence of sub-shapes is checked to find a main and additional 1D
-hypotheses the found 1D algorithm can take into account. 
+As soon as a 1D algorithm is found, the search stops and the same
+sequence of sub-shapes is checked to find the main and additional 1D
+hypotheses, which can be taken into account by the found 1D algorithm. 
 
-The multi-dimensional algorithms have higher priority than
-uni-dimensional algorithms if they are assigned to sub-meshes of the
+The multi-dimensional algorithms have a higher priority than
+uni-dimensional ones if they are assigned to sub-meshes of the
 same priority.
 
 If meshing parameters are defined on sub-meshes of the same priority,
-for example different 1D hypotheses are assigned to two faces sharing
+for example, different 1D hypotheses are assigned to two faces sharing
 an edge, the hypothesis assigned to a sub-shape with a lower ID will
 be used for meshing. You can \ref submesh_order_anchor "change" mutual
 priority of such concurrent sub-meshes. 
 
-
 \n Construction of a sub-mesh consists of:
 <ul>
-<li>Selecting a mesh which will encapsulate your sub-mesh</li>
+<li>Selecting a mesh which will encapsulate the sub-mesh</li>
 <li>Selecting a sub-shape for meshing</li>
 <li>Applying one or several
 \ref about_hypo_page "hypotheses" and 
@@ -89,13 +88,15 @@ The following dialog box will appear:
 \par
 \image html createmesh-inv2.png
 
-\par
 It allows to define the \b Name, the parent \b Mesh and the \b
 Geometry (e.g. a face if the parent mesh has been built on box) of the
 sub-mesh. You can define meshing algorithms and hypotheses in the same way as
-in \ref constructing_meshes_page "Create mesh" dialog.
+in \ref constructing_meshes_page "Create mesh" dialog. 
+
+Later you can change the applied hypotheses or their parameters in 
+\ref editing_meshes_page "Edit mesh/sub-mesh" dialog. Mesh entities
+generated using changed hypotheses are automatically removed.
 
-\par
 \anchor subshape_by_mesh_elem
 If the parent mesh is already computed, then you can define the
 \b Geometry by picking mesh elements computed on a sub-shape of interest
@@ -106,18 +107,14 @@ already down, then click it to release and then click it again. The
 following pop-up menu allowing to choose a way of geometry definition will
 appear.
 
-\par
 \image html choose_geom_selection_way.png
 
-\par
 <b>Direct geometry selection</b> enables selecting the sub-shape in the Object
 Browser.
 <b>Find geometry by mesh element selection</b> activates the following dialog.
 
-\par
 \image html find_geom_by_mesh_elem.png
 
-\par
 In this dialog, <b> Element Type </b> defines a kind of element to pick in the
 Viewer.
 Instead of picking an element in the Viewer, you can type its
@@ -126,22 +123,20 @@ ID in <b> Element ID</b> field.
 with which the sub-shape will appear in the Object Browser (if not yet
 there).
 
-\par
 In the Object Browser the structure of the new sub-mesh will be
 displayed as follows:
 
 \image html image10.jpg
 
-\par
 It contains:
 <ul>
 <li>a sub-mesh name (\a SubMeshFace1)
 <li>a reference to the geometrical object on the basis of which the
   sub-mesh has been constructed (<em>Cylindrical Face_1</em>);</li>
-<li><b>Applied hypotheses</b> folder containing the references to the
-hypotheses selected at the construction of the sub-mesh;</li>
-<li><b>Applied algorithms</b> folder containing the references to the
-algorithms selected at the construction of the sub-mesh.</li>
+<li><em>Applied hypotheses</em> folder containing the references to the
+hypotheses assigned to the sub-mesh;</li>
+<li><em>Applied algorithms</em> folder containing the references to the
+algorithms assigned to the sub-mesh.</li>
 </ul>
 
 <br><b>See Also</b> a sample TUI Script of a