X-Git-Url: http://git.salome-platform.org/gitweb/?p=modules%2Fsmesh.git;a=blobdiff_plain;f=doc%2Fsalome%2Fgui%2FSMESH%2Finput%2Fcartesian_algo.doc;h=6062aa89ea87f81f423a649ac5f0086f4d873018;hp=7bf8306905efcb201d6b21cfa1bfce3af26ea6e6;hb=d971e6ef1699b04a2cf3145b56dcd9a8abb6fea4;hpb=1176e29a2cdc54f8fc8971ee5c02539fb4cbdb1d
diff --git a/doc/salome/gui/SMESH/input/cartesian_algo.doc b/doc/salome/gui/SMESH/input/cartesian_algo.doc
index 7bf830690..6062aa89e 100644
--- a/doc/salome/gui/SMESH/input/cartesian_algo.doc
+++ b/doc/salome/gui/SMESH/input/cartesian_algo.doc
@@ -7,7 +7,7 @@ the internal part of geometry and polyhedrons and other types of
elements at the intersection of Cartesian cells with the geometrical
boundary.
-\image html cartesian3D_sphere.png "A shpere meshed by Body Fitting algorithm"
+\image html cartesian3D_sphere.png "A sphere meshed by Body Fitting algorithm"
The meshing algorithm is as follows.
@@ -29,10 +29,7 @@ nodes are inside and some outside.
To apply this algorithm when you define your mesh, select Body
- Fitting in the list of 3D algorithms and click "Add
- Hypothesis" button and "Body Fitting Parameters"" menu
-item. Dialog of Body Fitting Parameters
- hypothesis will appear.
+ Fitting in the list of 3D algorithms and add Body Fitting Parameters hypothesis. The following dialog will appear:
\anchor cartesian_hyp_anchor
@@ -43,19 +40,21 @@ item. Dialog of Body Fitting Parameters
This dialog allows to define
- \b Name of the algorithm.
+
- Minimal size of a cell truncated by the geometry boundary. If the
size of a truncated grid cell is \b Threshold times less than a
initial cell size, then a mesh element is not created.
+
- Implement Edges check-box activates incorporation of
geometrical edges in the mesh.
-\image html cartesian_implement_edge.png "'Implement Edges' switched off (left) and on (right)"
-
- Cartesian structured grid. Location of nodes along each grid axis
- is defined individually. Definition mode chooses a way of
- grid definition:
+
+\image html cartesian_implement_edge.png "Implement Edges switched off to the left and on to the right"
+
+
- Definition mode allows choosing how Cartesian structured grid is defined. Location of nodes along each grid axis is defined individually:
- You can specify the \b Coordinates of grid nodes. \b Insert button
- inserts a node at distance \b Step (negative or positive) from a
- selected node. \b Delete button removes a selected node. Double
+ 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
axes that can differ from the directions of the Global Coordinate
@@ -65,38 +64,37 @@ This dialog allows to define
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
- divides a selected range into two ones. \b Delete button adds the
+ 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
function in the list enables its edition.
- - Coordinates of a Fixed Point. They allow to exactly
- locate a grid node in a direction defined by spacing. If all the three
- directions are defined by spacing, then there will be a mesh node at
- the Fixed Point. If two directions are defined by spacing,
- then there will be at least a link between mesh nodes passing through
- the Fixed Point. If only one direction is defined by spacing,
- then there will be at least an element facet passing through
- the Fixed Point. If no directions are defined by spacing,
- Fixed Point is disabled.
- - Directions of Axes. You can set up almost any
- directions of grid axes that can help in generation of as many as
- possible hexahedral elements.
+
+
- Fixed Point group allows defining an exact location of a grid node in the direction defined by spacing. The following cases are possible:
+
+- If all three directions are defined by spacing, there will be a mesh node at the Fixed Point.
+- If two directions are defined by spacing, there will be at least a link between mesh nodes passing through the Fixed Point.
+- If only one direction is defined by spacing, there will be at least an element facet passing through the Fixed Point.
+- If no directions are defined by spacing, Fixed Point is disabled.
+
+
+
+ - Directions of Axes group allows setting the directions of grid axes.
- - Orthogonal Axes check-box, if activated, keeps the
- axes orthogonal during their modification.
+ - If Orthogonal Axes check-box is activated the
+ axes remain orthogonal during their modification.
- Selection buttons enable snapping corresponding axes to
direction of a geometrical edge selected in the Object
Browser. Edge direction is defined by coordinates of its end
points.
- Optimal Axes button runs an algorithm that tries to
- set the axes so that a number of generated hexahedra to be
- maximal.
+ set the axes to maximize the number of generated hexahedra.
- Reset button returns the axes in a default position
parallel to the axes of the Global Coordinate System.
-
-
+
+
+
See Also a sample TUI Script of a