h3.whs1 { margin-top:0pt; margin-bottom:0pt; }\r
h4.whs2 { margin-top:0pt; margin-bottom:0pt; }\r
p.whs3 { font-family:'Lucida Console' , monospace; margin-top:0pt; margin-bottom:0pt; }\r
-p.whs4 { margin-top:0pt; margin-bottom:0pt; }\r
-p.whs5 { margin-top:0pt; margin-bottom:0pt; font-family:'Lucida Console' , monospace; }\r
+p.whs4 { margin-top:0pt; margin-bottom:0pt; font-family:'Lucida Console' , monospace; }\r
+p.whs5 { margin-top:0pt; margin-bottom:0pt; font-family:'Times New Roman' , serif; }\r
+p.whs6 { margin-top:0pt; margin-bottom:0pt; }\r
-->\r
</style><script type="text/javascript" language="JavaScript">\r
<!--\r
strNSS += "p.whs3 {margin-top:1pt;margin-bottom:1pt; }";\r
strNSS += "p.whs4 {margin-top:1pt;margin-bottom:1pt; }";\r
strNSS += "p.whs5 {margin-top:1pt;margin-bottom:1pt; }";\r
+ strNSS += "p.whs6 {margin-top:1pt;margin-bottom:1pt; }";\r
strNSS +="</style>";\r
document.write(strNSS);\r
}\r
\r
<p class="whs3"> </p>\r
\r
-<p class="whs3">import SMESH</p>\r
+<p class="whs4">import SMESH_mechanic</p>\r
\r
-<p class="whs3">import SMESH_mechanic</p>\r
-\r
-<p class="whs3"> </p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs3">mesh = \r
- SMESH_mechanic.mesh</p>\r
+<p class="whs4"><span style="font-family: 'Lucida Console', monospace;">smesh \r
+ = SMESH_mechanic.smesh </span></p>\r
\r
-<p class="whs3">salome = SMESH_mechanic.salome</p>\r
+<p class="whs4">mesh = SMESH_mechanic.mesh \r
+ </p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># translate a mesh</p>\r
+<p class="whs5"># define translation \r
+ vector</p>\r
\r
-<p class="whs3">anEditor = mesh.GetMeshEditor()</p>\r
+<p class="whs4"><span style="font-family: 'Lucida Console', monospace;">point \r
+ = smesh.PointStruct(-150., -150., 0.)</span></p>\r
\r
-<p class="whs3">point = SMESH.PointStruct(-150, -150, \r
- 0)</p>\r
+<p class="whs4">vector =smesh.DirStruct(point) \r
+ </p>\r
+\r
+<p class="whs4"> </p>\r
\r
-<p class="whs3">vector = SMESH.DirStruct(point) </p>\r
+<p class="whs5"># translate a mesh</p>\r
\r
-<p class="whs3">anEditor.TranslateObject(mesh, vector, \r
- 1)</p>\r
+<p class="whs4">doCopy = 1</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"><span style="font-family: 'Lucida Console', monospace;">salome.sg.updateObjBrowser(1)</span> \r
- </p>\r
+<p class="whs4">mesh.Translate([], \r
+ vector, doCopy) </p>\r
\r
-<p class="whs4"> </p>\r
+<p class="whs6"> </p>\r
\r
<h4 class="whs2"><a name=bookmark1>Rotation</a></h4>\r
\r
<p class="whs3"> </p>\r
\r
-<p class="whs3">import SMESH</p>\r
+<p class="whs3">import math</p>\r
\r
<p class="whs3">import SMESH_mechanic</p>\r
\r
<p class="whs3"> </p>\r
\r
-<p class="whs3">import math</p>\r
-\r
-<p class="whs3">mesh = \r
- SMESH_mechanic.mesh</p>\r
-\r
-<p class="whs3">salome = SMESH_mechanic.salome</p>\r
-\r
-<p class="whs4"> </p>\r
+<p class="whs3"><span style="font-family: 'Lucida Console', monospace;">smesh \r
+ = SMESH_mechanic.smesh</span></p>\r
\r
-<p class="whs4"># rotate a mesh </p>\r
+<p class="whs3">mesh = SMESH_mechanic.mesh </p>\r
\r
-<p class="whs3">anEditor = mesh.GetMeshEditor()</p>\r
+<p class="whs3"> </p>\r
\r
-<p class="whs3">axisXYZ = SMESH.AxisStruct(0, 0, 0, 5, \r
- 5, 20)</p>\r
+<p class="whs5"># define rotation axis \r
+ and angle</p>\r
\r
-<p class="whs3">angle180 = 1.5*math.pi</p>\r
+<p class="whs3">axisXYZ = smesh.AxisStruct(0., 0., 0., \r
+ 5., 5., 20.)</p>\r
\r
-<p class="whs3">anEditor.RotateObject(mesh, axisXYZ, angle180, \r
- 1)</p>\r
+<p class="whs3">angle270 = 1.5 * math.pi</p>\r
\r
<p class="whs3"> </p>\r
\r
-<p class="whs5">salome.sg.updateObjBrowser(1)</p>\r
+<p class="whs5"># rotate a mesh</p>\r
\r
-<p class="whs4"> </p>\r
+<p class="whs4">mesh.Rotate([], \r
+ axisXYZ, angle270, 1) </p>\r
\r
-<p class="whs4"> </p>\r
+<p class="whs6"> </p>\r
\r
<h4 class="whs2"><a name=bookmark2>Symmetry</a></h4>\r
\r
<p class="whs3"> </p>\r
\r
-<p class="whs3">import SMESH</p>\r
+<p class="whs3">import math</p>\r
+\r
+<p class="whs3"> </p>\r
\r
<p class="whs3">import SMESH_mechanic</p>\r
\r
<p class="whs3"> </p>\r
\r
-<p class="whs3">import math</p>\r
-\r
-<p class="whs3">mesh = \r
- SMESH_mechanic.mesh</p>\r
+<p class="whs3"><span style="font-family: 'Lucida Console', monospace;">smesh \r
+ = SMESH_mechanic.smesh</span></p>\r
\r
-<p class="whs3">salome = SMESH_mechanic.salome</p>\r
+<p class="whs3">mesh = SMESH_mechanic.mesh </p>\r
\r
-<p class="whs4"> </p>\r
+<p class="whs3"> </p>\r
\r
-<p class="whs4"># create a symmetrical \r
+<p class="whs5"># create a symmetrical \r
copy of the mesh mirrored through a point</p>\r
\r
-<p class="whs3">anEditor = mesh.GetMeshEditor()</p>\r
-\r
-<p class="whs3">anEditor.MirrorObject(mesh, SMESH.AxisStruct(0, \r
- 0, 0, 0, 0, 0), SMESH.SMESH_MeshEditor.POINT, 1) </p>\r
+<p class="whs3">axis = SMESH.AxisStruct(0, 0, 0, 0, 0, \r
+ 0)</p>\r
\r
<p class="whs3"> </p>\r
\r
-<p class="whs4"><span style="font-family: 'Lucida Console', monospace;">salome.sg.updateObjBrowser(1)</span> \r
+<p class="whs3">mesh.Mirror([], axis, smesh.POINT, 1) \r
</p>\r
\r
-<p class="whs4"> </p>\r
-\r
-<p class="whs4"> </p>\r
+<p class="whs6"> </p>\r
\r
<h4 class="whs2"><a name=bookmark3>Merging \r
Nodes</a></h4>\r
\r
<p class="whs3"> </p>\r
\r
-<p class="whs3">import SMESH</p>\r
-\r
-<p class="whs3">import SMESH_mechanic</p>\r
-\r
-<p class="whs3"> </p>\r
-\r
-<p class="whs3">smesh = \r
- SMESH_mechanic.smesh</p>\r
-\r
-<p class="whs3">mesh = \r
- SMESH_mechanic.mesh</p>\r
+<p class="whs4">import SMESH_mechanic</p>\r
\r
-<p class="whs3">salome = SMESH_mechanic.salome</p>\r
+<p class="whs4">mesh = SMESH_mechanic.mesh</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># merge nodes</p>\r
-\r
-<p class="whs3">aMeshEditor = mesh.GetMeshEditor()</p>\r
+<p class="whs5"># merge nodes</p>\r
\r
-<p class="whs3">Tolerance = 25.0</p>\r
+<p class="whs4">Tolerance = 25.0</p>\r
\r
-<p class="whs3"> </p>\r
-\r
-<p class="whs3">GroupsOfNodes = aMeshEditor.FindCoincidentNodes(Tolerance)</p>\r
-\r
-<p class="whs3">aMeshEditor.MergeNodes(GroupsOfNodes)</p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs3"> </p>\r
+<p class="whs4">GroupsOfNodes = \r
+ mesh.FindCoincidentNodes(Tolerance)</p>\r
\r
-<p class="whs4"><span style="font-family: 'Lucida Console', monospace;">salome.sg.updateObjBrowser(1)</span> \r
- </p>\r
+<p class="whs4">mesh.MergeNodes(GroupsOfNodes) \r
+ </p>\r
\r
-<p class="whs4"> </p>\r
+<p class="whs6"> </p>\r
\r
<h4><a name=bookmark8>Merging Elements</a></h4>\r
\r
-<p class="whs5">import geompy</p>\r
-\r
-<p class="whs5">import smesh</p>\r
+<p class="whs4">import salome</p>\r
\r
-<p class="whs5">import salome</p>\r
+<p class="whs4">import geompy</p>\r
\r
-<p class="whs5">import SMESH</p>\r
+<p class="whs4">import smesh</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create a face to be meshed</p>\r
+<p class="whs5"># create a face to \r
+ be meshed</p>\r
\r
-<p class="whs5">px = geompy.MakeVertex(100., \r
+<p class="whs4">px = geompy.MakeVertex(100., \r
0. , 0. \r
)</p>\r
\r
-<p class="whs5">py = geompy.MakeVertex(0. \r
+<p class="whs4">py = geompy.MakeVertex(0. \r
, 100., \r
0. )</p>\r
\r
-<p class="whs5">pz = geompy.MakeVertex(0. \r
+<p class="whs4">pz = geompy.MakeVertex(0. \r
, 0. , \r
100.)</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs5">vxy = geompy.MakeVector(px, \r
+<p class="whs4">vxy = geompy.MakeVector(px, \r
py)</p>\r
\r
-<p class="whs5">arc = geompy.MakeArc(py, \r
+<p class="whs4">arc = geompy.MakeArc(py, \r
pz, px)</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs5">wire = geompy.MakeWire([vxy, \r
+<p class="whs4">wire = geompy.MakeWire([vxy, \r
arc])</p>\r
\r
-<p class="whs5">isPlanarFace = 1</p>\r
+<p class="whs4">isPlanarFace = 1</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs5">face1 = geompy.MakeFace(wire, \r
+<p class="whs4">face1 = geompy.MakeFace(wire, \r
isPlanarFace)</p>\r
\r
-<p class="whs5">id_face1 = geompy.addToStudy(face1, \r
+<p class="whs4">id_face1 = geompy.addToStudy(face1, \r
"Face1")</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create a 2D mesh on the \r
- face</p>\r
-\r
-<p class="whs5">trias = smesh.Mesh(face1, \r
- "Face : 2D mesh")</p>\r
-\r
-<p class="whs5"> </p>\r
+<p class="whs5"># create a circle to \r
+ be an extrusion path</p>\r
\r
-<p class="whs5">algo = trias.Segment()</p>\r
+<p class="whs4">px1 = geompy.MakeVertex( \r
+ 100., 100., \r
+ 0.)</p>\r
\r
-<p class="whs5">algo.NumberOfSegments(6)</p>\r
+<p class="whs4">py1 = geompy.MakeVertex(-100., \r
+ -100., 0.)</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4">pz1 = geompy.MakeVertex( \r
+ 0., \r
+ 0., \r
+ 50.)</p>\r
\r
-<p class="whs5">algo = trias.Triangle()</p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs5">algo.LengthFromEdges()</p>\r
+<p class="whs4">circle = geompy.MakeCircleThreePnt(py1, \r
+ pz1, px1)</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4">id_circle = geompy.addToStudy(circle, \r
+ "Path")</p>\r
\r
-<p class="whs5">trias.Compute()</p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs5"># create a 2D mesh \r
+ on the face</p>\r
\r
-<p class="whs5">tri_mesh = trias.GetMesh()</p>\r
+<p class="whs4">trias = smesh.Mesh(face1, \r
+ "Face : 2D mesh")</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create a path mesh</p>\r
-\r
-<p class="whs5">px1 = geompy.MakeVertex(100., \r
- 100. , \r
- 0. )</p>\r
+<p class="whs4">algo1D = trias.Segment()</p>\r
\r
-<p class="whs5">py1 = geompy.MakeVertex(-100. \r
- , -100., \r
- 0. )</p>\r
+<p class="whs4">algo1D.NumberOfSegments(6)</p>\r
\r
-<p class="whs5">pz1 = geompy.MakeVertex(0. \r
- , 0. , \r
- 50.)</p>\r
+<p class="whs4">algo2D = trias.Triangle()</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4">algo2D.LengthFromEdges()</p>\r
\r
-<p class="whs5">circle = geompy.MakeCircleThreePnt(py1, \r
- pz1, px1)</p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs5">id_circle = geompy.addToStudy(circle, \r
- "Path")</p>\r
+<p class="whs4">trias.Compute()</p>\r
\r
<p class="whs5"> </p>\r
\r
-<p class="whs5">circlemesh = smesh.Mesh(circle, \r
+<p class="whs5"># create a path mesh</p>\r
+\r
+<p class="whs4">circlemesh = smesh.Mesh(circle, \r
"Path mesh")</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4">algo = circlemesh.Segment()</p>\r
\r
-<p class="whs5">algo = circlemesh.Segment()</p>\r
+<p class="whs4">algo.NumberOfSegments(10)</p>\r
\r
-<p class="whs5">algo.NumberOfSegments(10)</p>\r
+<p class="whs4">circlemesh.Compute()</p>\r
\r
<p class="whs5"> </p>\r
\r
-<p class="whs5">circlemesh.Compute()</p>\r
-\r
-<p class="whs4"> </p>\r
-\r
-<p class="whs4"># extrusion of the mesh</p>\r
+<p class="whs5"># extrusion of the \r
+ mesh</p>\r
\r
-<p class="whs5">aMeshEditor = tri_mesh.GetMeshEditor()</p>\r
+<p class="whs4"><span style="font-family: 'Lucida Console', monospace;">trias.ExtrusionAlongPath([], \r
+ circlemesh, circle,</span></p>\r
\r
-<p class="whs5">aMeshEditor.ExtrusionAlongPathObject(tri_mesh, \r
- circlemesh.GetMesh(), circle, 1, 0, [], 0, SMESH.PointStruct(0, 0, 0))</p>\r
+<p class="whs4"> 1, \r
+ 0, [], 0, smesh.PointStruct(0, 0, 0))</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># merge nodes</p>\r
+<p class="whs5"># merge nodes</p>\r
\r
-<p class="whs5">print "Number \r
- of nodes before MergeNodes:", tri_mesh.NbNodes()</p>\r
+<p class="whs4">print "Number \r
+ of nodes before MergeNodes:", </p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4">trias.NbNodes()</p>\r
\r
-<p class="whs5">tolerance = 0.001</p>\r
+<p class="whs4">tolerance = 0.001</p>\r
\r
-<p class="whs5">array_of_nodes_groups \r
- = aMeshEditor.FindCoincidentNodes(tolerance)</p>\r
+<p class="whs4">array_of_nodes_groups \r
+ = trias.FindCoincidentNodes(tolerance)</p>\r
\r
-<p class="whs5">aMeshEditor.MergeNodes(array_of_nodes_groups)</p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4">trias.MergeNodes(array_of_nodes_groups)</p>\r
\r
-<p class="whs5">print "Number \r
- of nodes after MergeNodes:", tri_mesh.NbNodes()</p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs5">print ""</p>\r
+<p class="whs4">print "Number \r
+ of nodes after MergeNodes:", trias.NbNodes()</p>\r
\r
-<p class="whs5">print "Number \r
+<p class="whs4">print ""</p>\r
+\r
+<p class="whs4">print "Number \r
of elements before MergeEqualElements:"</p>\r
\r
-<p class="whs5">print "Edges \r
+<p class="whs4">print "Edges \r
: \r
- ", tri_mesh.NbEdges()</p>\r
+ ", trias.NbEdges()</p>\r
\r
-<p class="whs5">print "Triangles \r
+<p class="whs4">print "Triangles \r
: ", \r
- tri_mesh.NbTriangles()</p>\r
+ trias.NbTriangles()</p>\r
\r
-<p class="whs5">print "Quadrangles: \r
- ", tri_mesh.NbQuadrangles()</p>\r
+<p class="whs4">print "Quadrangles: \r
+ ", trias.NbQuadrangles()</p>\r
\r
-<p class="whs5">print "Volumes \r
+<p class="whs4">print "Volumes \r
: \r
- ", tri_mesh.NbVolumes()</p>\r
+ ", trias.NbVolumes()</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># merge elements</p>\r
-\r
-<p class="whs5">aMeshEditor.MergeEqualElements()</p>\r
+<p class="whs5"># merge elements</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4">trias.MergeEqualElements()</p>\r
\r
-<p class="whs5">print "Number \r
+<p class="whs4">print "Number \r
of elements after MergeEqualElements:"</p>\r
\r
-<p class="whs5">print "Edges \r
+<p class="whs4">print "Edges \r
: \r
- ", tri_mesh.NbEdges()</p>\r
+ ", trias.NbEdges()</p>\r
\r
-<p class="whs5">print "Triangles \r
+<p class="whs4">print "Triangles \r
: ", \r
- tri_mesh.NbTriangles()</p>\r
+ trias.NbTriangles()</p>\r
\r
-<p class="whs5">print "Quadrangles: \r
- ", tri_mesh.NbQuadrangles()</p>\r
+<p class="whs4">print "Quadrangles: \r
+ ", trias.NbQuadrangles()</p>\r
\r
-<p class="whs5">print "Volumes \r
+<p class="whs4">print "Volumes \r
: \r
- ", tri_mesh.NbVolumes()</p>\r
+ ", trias.NbVolumes()</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs4"><span style="font-family: 'Lucida Console', monospace;">salome.sg.updateObjBrowser(1)</span> \r
+<p class="whs4">salome.sg.updateObjBrowser(1) \r
</p>\r
\r
+<p class="whs4"> </p>\r
+\r
<h3>Sewing Meshes</h3>\r
\r
<h4><a name=bookmark4>Sew Meshes Border to Border</a></h4>\r
\r
-<p class="whs5">import salome</p>\r
-\r
-<p class="whs5">import geompy</p>\r
+<p class="whs4">import geompy</p>\r
\r
-<p class="whs5">import smesh</p>\r
+<p class="whs4">import smesh</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create two faces of a \r
- box</p>\r
+<p class="whs5"># create two faces \r
+ of a box</p>\r
\r
-<p class="whs5">box1 = geompy.MakeBox(0., \r
+<p class="whs4">box1 = geompy.MakeBox(0., \r
0., -10., 30., 20., 25.)</p>\r
\r
-<p class="whs5">subShapeList1 = \r
- geompy.SubShapeAll(box1, geompy.ShapeType["FACE"])</p>\r
-\r
-<p class="whs5"> </p>\r
-\r
-<p class="whs5">box2 = geompy.MakeBox(0., \r
- 5., 0., 20., 20., 15.)</p>\r
-\r
-<p class="whs5">subShapeList2 = \r
- geompy.SubShapeAll(box2, geompy.ShapeType["FACE"])</p>\r
-\r
-<p class="whs5">EdgesList = geompy.SubShapeAll(subShapeList2[ \r
- 1 ], geompy.ShapeType["EDGE"])</p>\r
-\r
-<p class="whs5"> </p>\r
+<p class="whs4">facesList1 = geompy.SubShapeAll(box1, \r
+ geompy.ShapeType["FACE"])</p>\r
\r
-<p class="whs5">aComp = geompy.MakeCompound( \r
- [subShapeList1[ 2 ], subShapeList2[ 1 ]] )</p>\r
+<p class="whs4">face1 = facesList1[2]</p>\r
\r
-<p class="whs5">idComp = geompy.addToStudy( \r
- aComp, "Two faces" )</p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs5">aCompobj = \r
- salome.IDToObject( idComp )</p>\r
+<p class="whs4">box2 = geompy.MakeBox(0., \r
+ 5., 0., 20., 20., 15.)</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4">facesList2 = geompy.SubShapeAll(box2, \r
+ geompy.ShapeType["FACE"])</p>\r
\r
-<p class="whs4"># create a mesh on two \r
- faces</p>\r
+<p class="whs4">face2 = facesList2[1]</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs5">mesh = smesh.Mesh(aCompobj, \r
- "Two faces : quadrangle mesh")</p>\r
+<p class="whs4">edgesList = geompy.SubShapeAll(face2, \r
+ geompy.ShapeType["EDGE"])</p>\r
\r
-<p class="whs5">algo = mesh.Segment()</p>\r
+<p class="whs4">edge1 = edgesList[2]</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs4"># define "NumberOfSegments" \r
- hypothesis to cut an edge in a fixed number of segments</p>\r
+<p class="whs4">aComp = geompy.MakeCompound([face1, \r
+ face2])</p>\r
\r
-<p class="whs5">algo.NumberOfSegments(9)</p>\r
+<p class="whs4">geompy.addToStudy(aComp, \r
+ "Two faces")</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create a quadrangle 2D \r
- algorithm for faces</p>\r
+<p class="whs5"># create a mesh on \r
+ two faces</p>\r
\r
-<p class="whs5">mesh.Quadrangle()</p>\r
+<p class="whs4">mesh = smesh.Mesh(aComp, \r
+ "Two faces : quadrangle mesh")</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create a local hypothesis</p>\r
+<p class="whs4">algo1D = mesh.Segment()</p>\r
+\r
+<p class="whs4">algo1D.NumberOfSegments(9)</p>\r
\r
-<p class="whs5">algo = mesh.Segment(EdgesList[2])</p>\r
+<p class="whs4">algo2D = mesh.Quadrangle()</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># define "Arithmetic1D" \r
- hypothesis to cut an edge in several segments with increasing arithmetic \r
- length </p>\r
+<p class="whs4">algo_local = mesh.Segment(edge1)</p>\r
\r
-<p class="whs5">algo.Arithmetic1D(1, \r
+<p class="whs4">algo_local.Arithmetic1D(1, \r
4)</p>\r
\r
-<p class="whs4"> </p>\r
-\r
-<p class="whs4"># define "Propagation" \r
- hypothesis that propagates all other hypothesis on all edges on the opposite \r
- side in case of quadrangular faces</p>\r
+<p class="whs4">algo_local.Propagation()</p>\r
\r
-<p class="whs5">algo.Propagation()</p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs5">mesh.Compute()</p>\r
+<p class="whs4">mesh.Compute()</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># sew free borders</p>\r
-\r
-<p class="whs5">anEditor = mesh.GetMesh().GetMeshEditor()</p>\r
+<p class="whs5"># sew border to side</p>\r
\r
-<p class="whs5">anEditor.SewBorderToSide(5, \r
- 45, 6, 113, 109, 0, 0)</p>\r
+<p class="whs5"># FirstNodeIDOnFreeBorder, \r
+ SecondNodeIDOnFreeBorder, LastNodeIDOnFreeBorder,</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs5"># FirstNodeIDOnSide, \r
+ LastNodeIDOnSide,</p>\r
\r
-<p class="whs4"><span style="font-family: 'Lucida Console', monospace;">salome.sg.updateObjBrowser(1)</span> \r
- </p>\r
+<p class="whs5"># CreatePolygons, CreatePolyedrs</p>\r
\r
-<p class="whs4"> </p>\r
+<p class="whs4">mesh.SewBorderToSide(5, \r
+ 45, 6, 113, 109, 0, 0) </p>\r
\r
<h4><a name=bookmark5>Sew Conform Free Borders</a></h4>\r
\r
-<p class="whs5">import salome</p>\r
-\r
-<p class="whs5">import geompy</p>\r
+<p class="whs4">import geompy</p>\r
\r
-<p class="whs5">import smesh</p>\r
+<p class="whs4">import smesh</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create two faces of the \r
- box</p>\r
+<p class="whs5"># create two faces \r
+ of the box</p>\r
\r
-<p class="whs5">box1 = geompy.MakeBox(0., \r
+<p class="whs4">box1 = geompy.MakeBox(0., \r
0., -10., 20., 20., 15.)</p>\r
\r
-<p class="whs5">subShapeList1 = \r
- geompy.SubShapeAll(box1, geompy.ShapeType["FACE"])</p>\r
-\r
-<p class="whs5"> </p>\r
-\r
-<p class="whs5">box2 = geompy.MakeBox(0., \r
- 5., 0., 20., 20., 15.)</p>\r
-\r
-<p class="whs5">subShapeList2 = \r
- geompy.SubShapeAll(box2, geompy.ShapeType["FACE"])</p>\r
+<p class="whs4">facesList1 = geompy.SubShapeAll(box1, \r
+ geompy.ShapeType["FACE"])</p>\r
\r
-<p class="whs5">EdgesList = geompy.SubShapeAll(subShapeList2[ \r
- 1 ], geompy.ShapeType["EDGE"])</p>\r
-\r
-<p class="whs5"> </p>\r
-\r
-<p class="whs5">aComp = geompy.MakeCompound( \r
- [subShapeList1[ 2 ], subShapeList2[ 1 ]] )</p>\r
-\r
-<p class="whs5">idComp = geompy.addToStudy( \r
- aComp, "Two faces" )</p>\r
-\r
-<p class="whs5">aCompobj = \r
- salome.IDToObject( idComp )</p>\r
+<p class="whs4">face1 = facesList1[2]</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create a mesh on two \r
- faces</p>\r
+<p class="whs4">box2 = geompy.MakeBox(0., \r
+ 5., 0., 20., 20., 15.)</p>\r
\r
-<p class="whs5">mesh = smesh.Mesh(aCompobj, \r
- "Two faces : quadrangle mesh")</p>\r
+<p class="whs4">facesList2 = geompy.SubShapeAll(box2, \r
+ geompy.ShapeType["FACE"])</p>\r
\r
-<p class="whs5">algo = mesh.Segment()</p>\r
+<p class="whs4">face2 = facesList2[1]</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># define "NumberOfSegments" \r
- hypothesis to cut an edge in a fixed number of segments</p>\r
+<p class="whs4">edgesList = geompy.SubShapeAll(face2, \r
+ geompy.ShapeType["EDGE"])</p>\r
\r
-<p class="whs5">algo.NumberOfSegments(9)</p>\r
+<p class="whs4">edge1 = edgesList[2]</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create a quadrangle 2D \r
- algorithm for faces</p>\r
+<p class="whs4">aComp = geompy.MakeCompound([face1, \r
+ face2])</p>\r
\r
-<p class="whs5">mesh.Quadrangle()</p>\r
+<p class="whs4">geompy.addToStudy(aComp, \r
+ "Two faces")</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create a local hypothesis</p>\r
+<p class="whs5"># create a mesh on \r
+ two faces</p>\r
\r
-<p class="whs5">algo = mesh.Segment(EdgesList[2])</p>\r
+<p class="whs4">mesh = smesh.Mesh(aComp, \r
+ "Two faces : quadrangle mesh")</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># define "Arithmetic1D" \r
- hypothesis to cut an edge in several segments with increasing arithmetic \r
- length </p>\r
+<p class="whs4">algo1D = mesh.Segment()</p>\r
\r
-<p class="whs5">algo.Arithmetic1D(1, \r
- 4)</p>\r
+<p class="whs4">algo1D.NumberOfSegments(9)</p>\r
+\r
+<p class="whs4">algo2D = mesh.Quadrangle()</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># define "Propagation" \r
- hypothesis that propagate all other hypothesis on all edges on<span style="margin-top: 0pt; margin-bottom: 0pt;"> \r
- the opposite side in case of quadrangular faces</span></p>\r
+<p class="whs4">algo_local = mesh.Segment(edge1)</p>\r
\r
-<p class="whs5">algo.Propagation()</p>\r
+<p class="whs4">algo_local.Arithmetic1D(1, \r
+ 4)</p>\r
\r
-<p class="whs5">mesh.Compute()</p>\r
+<p class="whs4">algo_local.Propagation()</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># sew free borders</p>\r
+<p class="whs4">mesh.Compute()</p>\r
\r
-<p class="whs5">anEditor = mesh.GetMesh().GetMeshEditor()</p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs5">anEditor.SewConformFreeBorders(5, \r
- 45, 6, 3, 24)</p>\r
+<p class="whs5"># sew conform free \r
+ borders</p>\r
\r
-<p class="whs4"><span style="font-family: 'Lucida Console', monospace;">salome.sg.updateObjBrowser(1)</span> \r
- </p>\r
+<p class="whs5"># FirstNodeID1, SecondNodeID1, \r
+ LastNodeID1, FirstNodeID2, SecondNodeID2</p>\r
\r
-<p class="whs4"> </p>\r
+<p class="whs4">mesh.SewConformFreeBorders(5, \r
+ 45, 6, 3, 24) </p>\r
\r
<h4><a name=bookmark6>Sew Free Borders</a></h4>\r
\r
-<p class="whs5">import salome</p>\r
-\r
-<p class="whs5">import geompy</p>\r
+<p class="whs4">import geompy</p>\r
\r
-<p class="whs5">import smesh</p>\r
+<p class="whs4">import smesh</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create two faces of the \r
- box</p>\r
+<p class="whs5"># create two faces \r
+ of the box</p>\r
\r
-<p class="whs5">box1 = geompy.MakeBox(0., \r
+<p class="whs4">box1 = geompy.MakeBox(0., \r
0., 0., 20., 20., 15.)</p>\r
\r
-<p class="whs5">subShapeList1 = \r
- geompy.SubShapeAll(box1, geompy.ShapeType["FACE"])</p>\r
+<p class="whs4">facesList1 = geompy.SubShapeAll(box1, \r
+ geompy.ShapeType["FACE"])</p>\r
+\r
+<p class="whs4">face1 = facesList1[2]</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs5">box2 = geompy.MakeBox(0., \r
+<p class="whs4">box2 = geompy.MakeBox(0., \r
5., 0., 20., 20., 15.)</p>\r
\r
-<p class="whs5">subShapeList2 = \r
- geompy.SubShapeAll(box2, geompy.ShapeType["FACE"])</p>\r
-\r
-<p class="whs5">EdgesList = geompy.SubShapeAll(subShapeList2[ \r
- 1 ], geompy.ShapeType["EDGE"])</p>\r
-\r
-<p class="whs5"> </p>\r
-\r
-<p class="whs5">aComp = geompy.MakeCompound( \r
- [subShapeList1[ 2 ], subShapeList2[ 1 ]] )</p>\r
-\r
-<p class="whs5">idComp = geompy.addToStudy( \r
- aComp, "Two faces" )</p>\r
+<p class="whs4">facesList2 = geompy.SubShapeAll(box2, \r
+ geompy.ShapeType["FACE"])</p>\r
\r
-<p class="whs5">aCompobj = \r
- salome.IDToObject( idComp )</p>\r
-\r
-<p class="whs5"> </p>\r
-\r
-<p class="whs4"># create a mesh on two \r
- faces</p>\r
-\r
-<p class="whs5">mesh = smesh.Mesh(aCompobj, \r
- "Two faces : quadrangle mesh")</p>\r
-\r
-<p class="whs5">algo = mesh.Segment()</p>\r
+<p class="whs4">face2 = facesList2[1]</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># define "NumberOfSegments" \r
- hypothesis to cut an edge in a fixed number of segments</p>\r
+<p class="whs4">edgesList = geompy.SubShapeAll(face2, \r
+ geompy.ShapeType["EDGE"])</p>\r
\r
-<p class="whs5">algo.NumberOfSegments(4)</p>\r
+<p class="whs4">edge1 = edgesList[2]</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># creates a quadrangle \r
- 2D algorithm for faces</p>\r
+<p class="whs4">aComp = geompy.MakeCompound([face1, \r
+ face2])</p>\r
\r
-<p class="whs5">mesh.Quadrangle()</p>\r
+<p class="whs4">geompy.addToStudy(aComp, \r
+ "Two faces")</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create a local hypothesis</p>\r
+<p class="whs5"># create a mesh on \r
+ two faces</p>\r
\r
-<p class="whs5">algo = mesh.Segment(EdgesList[2])</p>\r
+<p class="whs4">mesh = smesh.Mesh(aComp, \r
+ "Two faces : quadrangle mesh")</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># define "Arithmetic1D" \r
- hypothesis to cut an edge in several segments with increasing \r
- arithmetic length</p>\r
+<p class="whs4">algo1D = mesh.Segment()</p>\r
\r
-<p class="whs5">algo.Arithmetic1D(1, \r
- 4)</p>\r
+<p class="whs4">algo1D.NumberOfSegments(4)</p>\r
+\r
+<p class="whs4">algo2D = mesh.Quadrangle()</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># define "Propagation" \r
- hypothesis that propagate all other hypothesis on all edges on<span style="margin-top: 0pt; margin-bottom: 0pt;"> \r
- the opposite side in case of quadrangular faces</span></p>\r
+<p class="whs4">algo_local = mesh.Segment(edge1)</p>\r
\r
-<p class="whs5">algo.Propagation()</p>\r
+<p class="whs4">algo_local.Arithmetic1D(1, \r
+ 4)</p>\r
\r
-<p class="whs5">mesh.Compute()</p>\r
+<p class="whs4">algo_local.Propagation()</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># sew free borders</p>\r
+<p class="whs4">mesh.Compute()</p>\r
\r
-<p class="whs5">anEditor = mesh.GetMesh().GetMeshEditor()</p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs5">anEditor.SewFreeBorders(6, \r
- 21, 5, 1, 12, 3, 0, 0)</p>\r
+<p class="whs5"># sew free borders</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs5"># FirstNodeID1, SecondNodeID1, \r
+ LastNodeID1,</p>\r
\r
-<p class="whs4"><span style="font-family: 'Lucida Console', monospace;">salome.sg.updateObjBrowser(1)</span> \r
- </p>\r
+<p class="whs5"># FirstNodeID2, SecondNodeID2, \r
+ LastNodeID2, CreatePolygons, CreatePolyedrs</p>\r
\r
-<p class="whs4"> </p>\r
+<p class="whs6">mesh.SewFreeBorders(6, \r
+ 21, 5, 1, 12, 3, 0, 0) </p>\r
\r
<h4><a name=bookmark7>Sew Side Elements</a></h4>\r
\r
-<p class="whs5">import salome</p>\r
-\r
-<p class="whs5">import geompy</p>\r
+<p class="whs4">import geompy</p>\r
\r
-<p class="whs5">import smesh</p>\r
+<p class="whs4">import smesh</p>\r
\r
-<p class="whs5"> </p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs4"># create two faces of the \r
- box</p>\r
+<p class="whs5"># create two boxes</p>\r
\r
-<p class="whs5">box1 = geompy.MakeBox(0., \r
+<p class="whs4">box1 = geompy.MakeBox(0., \r
0., 0., \r
10., 10., 10.)</p>\r
\r
-<p class="whs5">box2 = geompy.MakeBox(0., \r
+<p class="whs4">box2 = geompy.MakeBox(0., \r
15., 0., 20., 25., 10.)</p>\r
\r
-<p class="whs5">EdgesList = geompy.SubShapeAll(box2, \r
+<p class="whs4"> </p>\r
+\r
+<p class="whs4">EdgesList = geompy.SubShapeAll(box2, \r
geompy.ShapeType["EDGE"])</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs5">aComp = geompy.MakeCompound( \r
- [box1, box2] )</p>\r
+<p class="whs4">aComp = geompy.MakeCompound([box1, \r
+ box2])</p>\r
\r
-<p class="whs5">idComp = geompy.addToStudy( \r
- aComp, "Two faces" )</p>\r
+<p class="whs4">geompy.addToStudy(aComp, \r
+ "Two boxes")</p>\r
\r
-<p class="whs5">aCompobj = \r
- salome.IDToObject( idComp )</p>\r
-\r
-<p class="whs5"> </p>\r
+<p class="whs4"> </p>\r
\r
-<p class="whs4"># create a mesh on two \r
- faces</p>\r
+<p class="whs5"># create a mesh on \r
+ two boxes</p>\r
\r
-<p class="whs5">mesh = smesh.Mesh(aCompobj, \r
+<p class="whs4">mesh = smesh.Mesh(aComp, \r
"Two faces : quadrangle mesh")</p>\r
\r
-<p class="whs5">algo = mesh.Segment()</p>\r
-\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># define "NumberOfSegments" \r
- hypothesis to cut an edge in a fixed number of segments</p>\r
-\r
-<p class="whs5">algo.NumberOfSegments(2)</p>\r
+<p class="whs4">algo1D = mesh.Segment()</p>\r
\r
-<p class="whs4"> </p>\r
-\r
-<p class="whs4"># create a quadrangle 2D \r
- algorithm for faces</p>\r
+<p class="whs4">algo1D.NumberOfSegments(2)</p>\r
\r
-<p class="whs5">mesh.Quadrangle()</p>\r
+<p class="whs4">algo2D = mesh.Quadrangle()</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># create a local hypothesis</p>\r
+<p class="whs4">algo_local = mesh.Segment(EdgesList[8])</p>\r
\r
-<p class="whs5">algo = mesh.Segment(EdgesList[8])</p>\r
+<p class="whs4">algo_local.NumberOfSegments(4)</p>\r
\r
-<p class="whs4"> </p>\r
-\r
-<p class="whs4"># define "Arithmetic1D" \r
- hypothesis to cut an edge in several segments with increasing arithmetic \r
- length </p>\r
-\r
-<p class="whs5">algo.NumberOfSegments(4)</p>\r
+<p class="whs4">algo_local.Propagation()</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># define "Propagation" \r
- hypothesis that propagates all other hypothesis on all edges on <span \r
- style="margin-top: 0pt; margin-bottom: 0pt;">the opposite side in case \r
- of quadrangular faces</span></p>\r
-\r
-<p class="whs5">algo.Propagation()</p>\r
-\r
-<p class="whs5">mesh.Compute()</p>\r
+<p class="whs4">mesh.Compute()</p>\r
\r
<p class="whs4"> </p>\r
\r
-<p class="whs4"># sew free borders</p>\r
+<p class="whs5"># sew side elements</p>\r
\r
-<p class="whs5">anEditor = mesh.GetMesh().GetMeshEditor()</p>\r
+<p class="whs5"># IDsOfSide1Elements, \r
+ IDsOfSide2Elements,</p>\r
\r
-<p class="whs5">anEditor.SewSideElements([69, \r
- 70, 71, 72], [91, 92, 89, 90], 8, 38, 23, 58)</p>\r
+<p class="whs5"># NodeID1OfSide1ToMerge, \r
+ NodeID1OfSide2ToMerge, NodeID2OfSide1ToMerge, NodeID2OfSide2ToMerge</p>\r
\r
-<p class="whs4"><span style="font-family: 'Lucida Console', monospace;">salome.sg.updateObjBrowser(1)</span> \r
- </p>\r
+<p class="whs4">mesh.SewSideElements([69, \r
+ 70, 71, 72], [91, 92, 89, 90], 8, 38, 23, 58) </p>\r
\r
<script type="text/javascript" language="javascript1.2">\r
<!--\r
