img_whs2 { border:none; width:30px; height:29px; border-style:none; }\r
p.whs3 { margin-left:40px; }\r
img_whs4 { border:none; width:270px; height:285px; float:none; border-style:none; }\r
-img_whs5 { border:none; width:30px; height:29px; border-style:none; }\r
-img_whs6 { border:none; width:280px; height:351px; float:none; }\r
-p.whs7 { margin-left:0px; }\r
+img_whs5 { border:none; width:280px; height:351px; float:none; border-style:none; }\r
+p.whs6 { margin-left:0px; }\r
-->\r
</style><script type="text/javascript" language="JavaScript">\r
<!--\r
{\r
var strNSS = "<style type='text/css'>";\r
strNSS += "p.whs1 {margin-top:1pt;margin-bottom:1pt; }";\r
- strNSS += "p.whs7 {margin-left:1pt; }";\r
+ strNSS += "p.whs6 {margin-left:1pt; }";\r
strNSS +="</style>";\r
document.write(strNSS);\r
}\r
<p class="whs1"> </p>\r
\r
<p class="whs1"><span style="font-weight: bold;"><B>Projection \r
- 1D</B></span> algorithm permits to define the mesh of an edge by the projection \r
- of another already meshed edge.</p>\r
+ 1D</B></span> algorithm permits to define the mesh of an edge(or group of \r
+ edges) by the projection of another already meshed edge (or group of edges).</p>\r
\r
<p class="whs1">To apply this algorithm \r
select the edge to be meshed (indicated in the field <span style="font-weight: bold;"><B>Geometry</B></span> \r
be necessary to define the orientation of edges, which is done by indicating \r
the <span style="font-weight: bold;"><B>Source Vertex</B></span> being the first \r
point of the Source Edge and the <span style="font-weight: bold;"><B>Target \r
- Vertex </B></span>being the first point of the created <span style="font-weight: bold;"><B>Edge.</B></span></p>\r
+ Vertex </B></span>being the first point of the created <span style="font-weight: bold;"><B>Edge. \r
+ </B></span>For a group of edges, <span style="font-weight: bold;"><B>Source</B></span> \r
+ and <span style="font-weight: bold;"><B>Target</B></span> vertices should be \r
+ shared by only one edge of the group. If <span style="font-weight: bold;"><B>Source</B></span> \r
+ and <span style="font-weight: bold;"><B>Target</B></span> vectors are specified, \r
+ the elements of the group must be adjacent.</p>\r
\r
<p><span style="font-weight: bold;"><B>Projection 2D</B></span> algorithm<span \r
style="font-weight: bold;"> <B></B></span>permits to define the mesh of a face \r
- by the projection of another already meshed face. This algorithm works \r
- only if all edges of the<span style="font-weight: bold;"> <B></B></span>target \r
- face have been meshed as 1D Projections of the edges of the source face.</p>\r
+ (or group of faces) by the projection of another already meshed face (or \r
+ group of faces). This algorithm works only if all edges of the<span style="font-weight: bold;"> \r
+ <B></B></span>target face have been meshed as 1D Projections of the edges of \r
+ the source face.</p>\r
\r
<p>To apply this algorithm select the face to be meshed (indicated in the \r
field <span style="font-weight: bold;"><B>Geometry</B></span> of<span style="font-weight: bold;"><B> \r
Create mesh</B></span> dialog box), <span style="font-weight: bold;"><B>Projection \r
- 2D</B></span> in the list of 2D algorithms and click the <img src="image122.gif" width="30px" height="29px" border="0" class="img_whs5"> button. \r
+ 2D</B></span> in the list of 2D algorithms and click the <img src="image122.gif" width="30px" height="29px" border="0" class="img_whs2"> button. \r
The following dialog box will appear: </p>\r
\r
-<p class="whs3"><img src="pics/projection_2d.png" x-maintain-ratio="TRUE" width="280px" height="351px" border="0" class="img_whs6"></p>\r
+<p class="whs3"><img src="pics/projection_2d.png" x-maintain-ratio="TRUE" width="280px" height="351px" border="0" class="img_whs5"></p>\r
\r
<p>In this menu you can define the <span style="font-weight: bold;"><B>Name</B></span> \r
of the algorithm, the algeady meshed source <span style="font-weight: bold;"><B>Face</B></span> \r
<p>To apply this algorithm select the solid to be meshed (indicated in \r
the field <span style="font-weight: bold;"><B>Geometry</B></span> of<span style="font-weight: bold;"><B> \r
Create mesh</B></span> dialog box), <span style="font-weight: bold;"><B>Projection \r
- 3D</B></span> in the list of 3D algorithms and click the <img src="image122.gif" width="30px" height="29px" border="0" class="img_whs5"> button. \r
+ 3D</B></span> in the list of 3D algorithms and click the <img src="image122.gif" width="30px" height="29px" border="0" class="img_whs2"> button. \r
The following dialog box will appear: </p>\r
\r
-<p class="whs3"><img src="pics/projection_3d.png" x-maintain-ratio="TRUE" width="280px" height="351px" border="0" class="img_whs6"></p>\r
+<p class="whs3"><img src="pics/projection_3d.png" x-maintain-ratio="TRUE" width="280px" height="351px" border="0" class="img_whs5"></p>\r
\r
-<p class="whs7">In this menu you can define the <span style="font-weight: bold;"><B>Name</B></span> \r
+<p class="whs6">In this menu you can define the <span style="font-weight: bold;"><B>Name</B></span> \r
of the algorithm, the algeady meshed source <span style="font-weight: bold;"><B>3D \r
shape</B></span> and the <span style="font-weight: bold;"><B>Mesh</B></span> (optional, \r
use it if there are several different meshes on the same shape). It could \r
