From: vsr <vsr@opencascade.com>
Date: Wed, 25 Aug 2010 10:17:59 +0000 (+0000)
Subject: Issue: 0020935: A group created with a type of element criteria is empty
X-Git-Tag: end_translate_resources_09Jul10~6
X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=17cc504ac1052587bdf44e0a37747f8de3773b9a;p=modules%2Fsmesh.git

Issue: 0020935: A group created with a type of element criteria is empty
- Improve documentation for the filters functionality
---

diff --git a/doc/salome/gui/SMESH/input/about_filters.doc b/doc/salome/gui/SMESH/input/about_filters.doc
new file mode 100644
index 000000000..0b5b1fd8f
--- /dev/null
+++ b/doc/salome/gui/SMESH/input/about_filters.doc
@@ -0,0 +1,32 @@
+/*!
+
+\page filters_page About filters
+
+\b Filters allows to pick only those mesh elements which satisfy to
+specific condition or set of conditions. Filters can be used to create
+or edit mesh groups, remove elements from the mesh object, control
+mesh quality by different parameters, etc.
+
+Several filters can be combined together by using logical operators \a
+AND and \a OR. In addition, applied filter criterion can be reverted
+using logical operator \a NOT.
+
+Mesh filters use the functionality of \ref quality_page "mesh quality controls"
+to filter mesh nodes / elements by specific characteristic (Area, Length, etc).
+
+The functinality of mesh filters is available in both GUI and TUI
+modes:
+
+- In GUI, filters are available in some dialog boxes via an additional
+"Set Filtes" button, clicking on which opens specific dialog box
+allowing to specify the list of filter criterions to be applied to the
+current selection. Follow to the \subpage selection_filter_library_page page to learn more
+about selection filters and their usage in GUI.
+
+- In Python scripts, filters can be used to choose only some of mesh
+  enitities (nodes and/or elements) for the operations which require
+  list of the entities as input parameter (create/modify group, remove
+  nodes/elements, etc). The page \ref tui_filters_page provides
+  examples of the filters usage in the Python scripts.
+
+*/
diff --git a/doc/salome/gui/SMESH/input/grouping_elements.doc b/doc/salome/gui/SMESH/input/grouping_elements.doc
index 638d70112..3ec4117c4 100644
--- a/doc/salome/gui/SMESH/input/grouping_elements.doc
+++ b/doc/salome/gui/SMESH/input/grouping_elements.doc
@@ -33,7 +33,7 @@ The created groups can be later:
 </ul>
 
 An important tool, providing filters for creation of \b Standalone
-groups is \subpage selection_filter_library_page.
+groups is \ref selection_filter_library_page.
 
 
 */
diff --git a/doc/salome/gui/SMESH/input/index.doc b/doc/salome/gui/SMESH/input/index.doc
index 7e18d2b68..af0f76f16 100644
--- a/doc/salome/gui/SMESH/input/index.doc
+++ b/doc/salome/gui/SMESH/input/index.doc
@@ -14,6 +14,8 @@ the VTK viewer;</li>
 <li>\subpage grouping_elements_page "creating groups of mesh elements";</li>
 <li>applying to meshes \subpage quality_page "Quality Controls" , 
 allowing to highlight important elements:
+<li>filtering sub-sets of mesh entities (nodes elements) using
+\subpage filters_page "Filters" functionality.</li>
 <li>\subpage modifying_meshes_page "modifying meshes" with a vast
 array of dedicated operations.</li> 
 <li>easily setting parameters via the variables predefined in
diff --git a/doc/salome/gui/SMESH/input/smeshpy_interface.doc b/doc/salome/gui/SMESH/input/smeshpy_interface.doc
index e0fe78ec9..5e1fe6ebd 100644
--- a/doc/salome/gui/SMESH/input/smeshpy_interface.doc
+++ b/doc/salome/gui/SMESH/input/smeshpy_interface.doc
@@ -133,6 +133,7 @@ the following links:
 - \subpage tui_viewing_meshes_page
 - \subpage tui_defining_hypotheses_page
 - \subpage tui_quality_controls_page
+- \subpage tui_filters_page
 - \subpage tui_grouping_elements_page
 - \subpage tui_modifying_meshes_page
 - \subpage tui_transforming_meshes_page
diff --git a/doc/salome/gui/SMESH/input/tui_filters.doc b/doc/salome/gui/SMESH/input/tui_filters.doc
new file mode 100755
index 000000000..ad6dd5929
--- /dev/null
+++ b/doc/salome/gui/SMESH/input/tui_filters.doc
@@ -0,0 +1,554 @@
+/*!
+
+\page tui_filters_page Filters usage
+
+Filters allows to pick only those mesh elements which satisfy to
+specific condition or set of conditions. Filters can be used to create
+or edit mesh groups, remove elements from the mesh object, control
+mesh quality by different parameters, etc.
+
+Several filters can be combined together by using logical operators \a
+AND and \a OR. In addition, applied filter criterion can be reverted
+using logical operator \a NOT.
+
+Mesh filters use the functionality of mesh quality controls to filter
+mesh nodes / elements by specific characteristic (Area, Length, etc).
+
+This page provides a short description of the existing mesh filters,
+describing required parameters and gives simple examples of usage in
+Python scripts.
+
+\sa \ref tui_quality_controls_page
+
+\section filter_aspect_ratio Aspect ratio
+
+Filter 2D mesh elements (faces) according to the aspect ratio value:
+- element type should be \a smesh.FACE
+- functor type should be \a smesh.FT_AspectRatio
+- threshold is floating point value (aspect ratio)
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get faces with aspect ratio > 6.5
+filter = smesh.GetFilter(smesh.FACE, smesh.FT_AspectRatio, smesh.FT_MoreThan, 6.5)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of faces with aspect ratio > 6.5:", len(ids)
+\endcode
+
+\sa \ref tui_aspect_ratio
+
+\section filter_aspect_ratio_3d Aspect ratio 3D
+
+Filter 3D mesh elements (volumes) according to the aspect ratio value:
+- element type is \a smesh.VOLUME
+- functor type is \a smesh.FT_AspectRatio3D
+- threshold is floating point value (aspect ratio)
+
+\code
+# create mesh with volumes
+from SMESH_mechanic import *
+mesh.Tetrahedron( algo=smesh.NETGEN )
+mesh.Compute()
+# get volumes with aspect ratio < 2.0
+filter = smesh.GetFilter(smesh.VOLUME, smesh.FT_AspectRatio3D, smesh.FT_LessThan, 2.0)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of volumes with aspect ratio < 2.0:", len(ids)
+\endcode
+
+\sa \ref tui_aspect_ratio_3d
+
+\section filter_warping_angle Warping angle
+
+Filter 2D mesh elements (faces) according to the warping angle value:
+- element type is \a smesh.FACE
+- functor type is \a smesh.FT_Warping
+- threshold is floating point value (warping angle)
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get faces with warping angle = 2.0e-13 with tolerance 5.0e-14
+criterion = smesh.GetCriterion(smesh.FACE, smesh.FT_Warping, smesh.FT_EqualTo, 2.0e-13)
+criterion.Tolerance = 5.0e-14
+filter = smesh.CreateFilterManager().CreateFilter()
+filter.SetCriteria([criterion])
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of faces with warping angle = 2.0e-13 (tolerance 5.0e-14):", len(ids)
+\endcode
+
+\sa \ref tui_warping
+
+\section filter_minimum_angle Minimum angle
+
+Filter 2D mesh elements (faces) according to the minimum angle value:
+- element type is \a smesh.FACE
+- functor type is \a smesh.FT_MinimumAngle
+- threshold is floating point value (minimum angle)
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get faces with minimum angle > 75
+filter = smesh.GetFilter(smesh.FACE, smesh.FT_MinimumAngle, smesh.FT_MoreThan, 75)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of faces with minimum angle > 75:", len(ids)
+\endcode
+
+\sa \ref tui_minimum_angle
+
+\section filter_taper Taper
+
+Filter 2D mesh elements (faces) according to the taper value:
+- element type is \a smesh.FACE
+- functor type is \a smesh.FT_Taper
+- threshold is floating point value (taper)
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get faces with taper < 1.e-15
+filter = smesh.GetFilter(smesh.FACE, smesh.FT_Taper, smesh.FT_LessThan, 1.e-15)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of faces with taper < 1.e-15:", len(ids)
+\endcode
+
+\sa \ref tui_taper
+
+\section filter_skew Skew
+
+Filter 2D mesh elements (faces) according to the skew value:
+- element type is \a smesh.FACE
+- functor type is \a smesh.FT_Skew
+- threshold is floating point value (skew)
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get faces with skew > 50
+filter = smesh.GetFilter(smesh.FACE, smesh.FT_Skew, smesh.FT_MoreThan, 50)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of faces with skew > 50:", len(ids)
+\endcode
+
+\sa \ref tui_skew
+
+\section filter_area Area
+
+Filter 2D mesh elements (faces) according to the area value:
+- element type is \a smesh.FACE
+- functor type is \a smesh.FT_Area
+- threshold is floating point value (area)
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get faces with area > 60 and < 90
+criterion1 = smesh.GetCriterion(smesh.FACE, smesh.FT_Area, smesh.FT_MoreThan, 60,\
+                                smesh.FT_Undefined, smesh.FT_LogicalAND)
+criterion2 = smesh.GetCriterion(smesh.FACE, smesh.FT_Area, smesh.FT_LessThan, 90)
+filter = smesh.CreateFilterManager().CreateFilter()
+filter.SetCriteria([criterion1,criterion2])
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of faces with area in range (60,90):", len(ids)
+\endcode
+
+\sa \ref tui_area
+
+\section filter_volume Volume
+
+Filter 3D mesh elements (volumes) according to the volume value:
+- element type is \a smesh.VOLUME
+- functor type is \a smesh.FT_Volume3D
+- threshold is floating point value (volume)
+
+\code
+# create mesh with volumes
+from SMESH_mechanic import *
+mesh.Tetrahedron( algo=smesh.NETGEN )
+mesh.Compute()
+# get volumes faces with volume > 100
+filter = smesh.GetFilter(smesh.VOLUME, smesh.FT_Volume3D, smesh.FT_MoreThan, 100)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of volumes with volume > 100:", len(ids)
+\endcode
+
+\sa \ref tui_volume
+
+\section filter_free_borders Free borders
+
+Filter 1D mesh elements (edges) which represent free borders of a mesh:
+- element type is \a smesh.EDGE
+- functor type is \a smesh.FT_FreeBorders
+- threshold value is not required
+
+\code
+# create mesh
+import geompy, smesh, StdMeshers
+face = geompy.MakeFaceHW(100, 100, 1)
+geompy.addToStudy( face, "quadrangle" )
+mesh = smesh.Mesh(face)
+mesh.Segment().NumberOfSegments(10)
+mesh.Triangle().MaxElementArea(25)
+mesh.Compute()
+# get all free borders
+filter = smesh.GetFilter(smesh.EDGE, smesh.FT_FreeBorders)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of edges on free borders:", len(ids)
+\endcode
+
+\sa \ref tui_free_borders
+
+\section filter_free_edges Free edges
+
+Filter 2D mesh elements (faces) consisting of edges belonging to one
+element of mesh only:
+- element type is \a smesh.FACE
+- functor type is \a smesh.FT_FreeEdges
+- threshold value is not required
+
+\code
+# create mesh
+import geompy, smesh, StdMeshers
+face = geompy.MakeFaceHW(100, 100, 1)
+geompy.addToStudy( face, "quadrangle" )
+mesh = smesh.Mesh(face)
+mesh.Segment().NumberOfSegments(10)
+mesh.Triangle().MaxElementArea(25)
+mesh.Compute()
+# get all faces with free edges
+filter = smesh.GetFilter(smesh.FACE, smesh.FT_FreeEdges)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of faces with free edges:", len(ids)
+\endcode
+
+\sa \ref tui_free_edges
+
+\section filter_free_nodes Free nodes
+
+Filter free nodes:
+- element type is \a smesh.NODE
+- functor type is \a smesh.FT_FreeNodes
+- threshold value is not required
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# add node
+mesh.AddNode(0,0,0)
+# get all free nodes
+filter = smesh.GetFilter(smesh.EDGE, smesh.FT_FreeNodes)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of free nodes:", len(ids)
+\endcode
+
+\sa \ref tui_free_nodes
+
+\section filter_free_faces Free faces
+
+Filter free faces:
+- element type is \a smesh.FACE
+- functor type is \a smesh.FT_FreeFaces
+- threshold value is not required
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get all free faces
+filter = smesh.GetFilter(smesh.EDGE, smesh.FT_FreeFaces)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of free faces:", len(ids)
+\endcode
+
+\sa \ref tui_free_faces
+
+\section filter_borders_multiconnection Borders at multi-connection
+
+Filter border 1D mesh elements (edges) according to the specified number of
+connections (faces belonging the border edges)
+- element type is \a smesh.EDGE
+- functor type is \a smesh.FT_MultiConnection
+- threshold is integer value (number of connections)
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get border edges with number of connected faces = 5
+filter = smesh.GetFilter(smesh.EDGE, smesh.FT_MultiConnection, 5)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of border edges with 5 faces connected:", len(ids)
+\endcode
+
+\sa \ref tui_borders_at_multiconnection
+
+\section filter_borders_multiconnection_2d Borders at multi-connection 2D
+
+Filter 2D mesh elements (faces) which consist of edges belonging
+to the specified number of mesh elements
+- element type is \a smesh.FACE
+- functor type is \a smesh.FT_MultiConnection2D
+- threshold is integer value (number of connections)
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get faces which consist of edges belonging to 2 mesh elements
+filter = smesh.GetFilter(smesh.FACE, smesh.FT_MultiConnection2D, 2)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of faces consisting of edges belonging to 2 faces:", len(ids)
+\endcode
+
+\sa \ref tui_borders_at_multiconnection_2d
+
+\section filter_length Length
+
+Filter 1D mesh elements (edges) according to the edge length value:
+- element type should be \a smesh.EDGE
+- functor type should be \a smesh.FT_Length
+- threshold is floating point value (length)
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get edges with length > 14
+filter = smesh.GetFilter(smesh.EDGE, smesh.FT_Length, smesh.FT_MoreThan, 14)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of edges with length > 14:", len(ids)
+\endcode
+
+\sa \ref tui_length_1d
+
+\section filter_length_2d Length 2D
+
+Filter 2D mesh elements (faces) corresponding to the maximum length.
+value of its edges:
+- element type should be \a smesh.FACE
+- functor type should be \a smesh.FT_Length2D
+- threshold is floating point value (edge length)
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get all faces that have edges with length > 14
+filter = smesh.GetFilter(smesh.FACE, smesh.FT_Length2D, smesh.FT_MoreThan, 14)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of faces with maximum edge length > 14:", len(ids)
+\endcode
+
+\sa \ref tui_length_2d
+
+\section filter_belong_to_geom Belong to Geom
+
+Filter mesh entities (nodes or elements) which all nodes lie on the
+shape defined by threshold value:
+- element type can be any entity type, from \a smesh.NODE to \a smesh.VOLUME
+- functor type should be \a smesh.FT_BelongToGeom
+- threshold is geometrical object
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get all faces which nodes lie on the face sub_face3
+filter = smesh.GetFilter(smesh.FACE, smesh.FT_BelongToGeom, sub_face3)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of faces which nodes lie on sub_face3:", len(ids)
+\endcode
+
+\section filter_lying_on_geom Lying on Geom
+
+Filter mesh entities (nodes or elements) at least one node of which lies on the
+shape defined by threshold value:
+- element type can be any entity type, from \a smesh.NODE to \a smesh.VOLUME
+- functor type should be \a smesh.FT_LyingOnGeom
+- threshold is geometrical object
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get all faces at least one node of each lies on the face sub_face3
+filter = smesh.GetFilter(smesh.FACE, smesh.FT_LyingOnGeom, sub_face3)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of faces at least one node of each lies on sub_face3:", len(ids)
+\endcode
+
+\section filter_belong_to_plane Belong to Plane
+
+Filter mesh entities (nodes or elements) which all nodes belong to the
+plane defined by threshold value with the given tolerance:
+- element type can be: \a smesh.NODE, \a smesh.EDGE, \a smesh.FACE
+- functor type should be \a smesh.FT_BelongToPlane
+- threshold is geometrical object (plane)
+- default tolerance is 1.0e-7
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# create plane
+import geompy
+plane_1 = geompy.MakePlane(p3,seg1,2000)
+geompy.addToStudy(plane_1, "plane_1")
+# get all nodes which lie on the plane \a plane_1
+filter = smesh.GetFilter(smesh.NODE, smesh.FT_BelongToPlane, plane_1)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of nodes which lie on the plane plane_1:", len(ids)
+\endcode
+
+\section filter_belong_to_cylinder Belong to Cylinder
+
+Filter mesh entities (nodes or elements) which all nodes belong to the
+cylindrical face defined by threshold value with the given tolerance:
+- element type can be: \a smesh.NODE, \a smesh.EDGE, \a smesh.FACE
+- functor type should be \a smesh.FT_BelongToCylinder
+- threshold is geometrical object (cylindrical face)
+- default tolerance is 1.0e-7
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get all faces which lie on the cylindrical face \a sub_face1
+filter = smesh.GetFilter(smesh.FACE, smesh.FT_BelongToCylinder, sub_face1)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of faces which lie on the cylindrical surface sub_face1:", len(ids)
+\endcode
+
+\section filter_belong_to_surface Belong to Surface
+
+Filter mesh entities (nodes or elements) which all nodes belong to the
+arbitrary surface defined by threshold value with the given tolerance:
+- element type can be: \a smesh.NODE, \a smesh.EDGE, \a smesh.FACE
+- functor type should be \a smesh.FT_BelongToGenSurface
+- threshold is geometrical object (arbitrary surface)
+- default tolerance is 1.0e-7
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# create b-spline
+spline_1 = geompy.MakeInterpol([p4,p6,p3,p1])
+surface_1 = geompy.MakePrismVecH( spline_1, vz, 70.0 )
+geompy.addToStudy(surface_1, "surface_1")
+# get all nodes which lie on the surface \a surface_1
+filter = smesh.GetFilter(smesh.NODE, smesh.FT_BelongToGenSurface, surface_1)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of nodes which lie on the surface surface_1:", len(ids)
+\endcode
+
+\section filter_range_of_ids Range of IDs
+
+Filter mesh entities elements (nodes or elements) according to the
+specified identifiers range:
+- element type can be any entity type, from \a smesh.NODE to \a smesh.VOLUME
+- functor type is \a smesh.FT_RangeOfIds
+- threshold is string listing required IDs and/or ranges of IDs, e.g."1,2,3,50-60,63,67,70-78"	
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get nodes with identifiers [5-10] and [15-30]
+criterion1 = smesh.GetCriterion(smesh.NODE, smesh.FT_RangeOfIds, Treshold="5-10",\
+                                BinaryOp=smesh.FT_LogicalOR)
+criterion2 = smesh.GetCriterion(smesh.NODE, smesh.FT_RangeOfIds, Treshold="15-30")
+filter = smesh.CreateFilterManager().CreateFilter()
+filter.SetCriteria([criterion1,criterion2])
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of nodes in ranges [5-10] and [15-30]:", len(ids)
+\endcode
+
+\section filter_bad_oriented_volume Badly oriented volume
+
+Filter 3D mesh elements (volumes), which are incorrectly oriented from
+the point of view of MED convention. 
+- element type should be \a smesh.VOLUME
+- functor type is \a smesh.FT_BadOrientedVolume
+- threshold is not required
+
+\code
+# create mesh with volumes
+from SMESH_mechanic import *
+mesh.Tetrahedron( algo=smesh.NETGEN )
+mesh.Compute()
+# get all badly oriented volumes
+filter = smesh.GetFilter(smesh.VOLUME, smesh.FT_BadOrientedVolume)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of badly oriented volumes:", len(ids)
+\endcode
+
+\section filter_linear_or_quadratic Linear / quadratic
+
+Filter linear / quadratic mesh elements:
+- element type should be any element type, e.g.: \a smesh.EDGE, \a smesh.FACE, \a smesh.VOLUME
+- functor type is \a smesh.FT_LinearOrQuadratic
+- threshold is not required
+- if unary operator is set to smesh.FT_LogicalNOT, the quadratic
+elements are selected, otherwise (by default) linear elements are selected
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# get number of linear and quadratic edges
+filter_linear = smesh.GetFilter(smesh.EDGE, smesh.FT_LinearOrQuadratic)
+filter_quadratic = smesh.GetFilter(smesh.EDGE, smesh.FT_LinearOrQuadratic, smesh.FT_LogicalNOT)
+ids_linear = mesh.GetIdsFromFilter(filter_linear)
+ids_quadratic = mesh.GetIdsFromFilter(filter_quadratic)
+print "Number of linear edges:", len(ids_linear), "; number of quadratic edges:", len(ids_quadratic)
+# convert mesh to quadratic
+print "Convert to quadratic..."
+mesh.ConvertToQuadratic(True)
+# get number of linear and quadratic edges
+ids_linear = mesh.GetIdsFromFilter(filter_linear)
+ids_quadratic = mesh.GetIdsFromFilter(filter_quadratic)
+print "Number of linear edges:", len(ids_linear), "; number of quadratic edges:", len(ids_quadratic)
+\endcode
+
+\section filter_group_color Group color
+
+Filter mesh entities, belonging to the group with the color defined by the threshold value.
+- element type can be any entity type, from \a smesh.NODE to \a smesh.VOLUME
+- functor type is \a smesh.FT_GroupColor
+- threshold should be of SALOMEDS.Color type
+
+\code
+# create mesh
+from SMESH_mechanic import *
+# create group of edges
+all_edges = mesh.GetElementsByType(smesh.EDGE)
+grp = mesh.MakeGroupByIds("edges group", smesh.EDGE, all_edges[:len(all_edges)/4])
+import SALOMEDS
+c = SALOMEDS.Color(0.1, 0.5, 1.0)
+grp.SetColor(c)
+# get number of the edges not belonging to the group with the given color
+filter = smesh.GetFilter(smesh.EDGE, smesh.FT_GroupColor, c, smesh.FT_LogicalNOT)
+ids = mesh.GetIdsFromFilter(filter)
+print "Number of edges not beloging to the group with color (0.1, 0.5, 1.0):", len(ids)
+\endcode
+
+\section filter_geom_type Geometry type
+
+Filter mesh elements by the geometric type defined with the threshold
+value. The list of available geometric types depends on the element
+entity type.
+- element type should be any element type, e.g.: \a smesh.EDGE, \a smesh.FACE, \a smesh.VOLUME
+- functor type should be \a smesh.FT_ElemGeomType
+- threshold is of smesh.GeometryType value
+
+\code
+# create mesh with volumes
+from SMESH_mechanic import *
+mesh.Tetrahedron( algo=smesh.NETGEN )
+mesh.Compute()
+# get all triangles, quadrangles, tetrahedrons, pyramids
+filter_tri = smesh.GetFilter(smesh.FACE, smesh.FT_ElemGeomType, smesh.Geom_TRIANGLE)
+filter_qua = smesh.GetFilter(smesh.FACE, smesh.FT_ElemGeomType, smesh.Geom_QUADRANGLE)
+filter_tet = smesh.GetFilter(smesh.VOLUME, smesh.FT_ElemGeomType, smesh.Geom_TETRA)
+filter_pyr = smesh.GetFilter(smesh.VOLUME, smesh.FT_ElemGeomType, smesh.Geom_PYRAMID)
+ids_tri = mesh.GetIdsFromFilter(filter_tri)
+ids_qua = mesh.GetIdsFromFilter(filter_qua)
+ids_tet = mesh.GetIdsFromFilter(filter_tet)
+ids_pyr = mesh.GetIdsFromFilter(filter_pyr)
+print "Number of triangles:", len(ids_tri)
+print "Number of quadrangles:", len(ids_qua)
+print "Number of tetrahedrons:", len(ids_tet)
+print "Number of pyramids:", len(ids_pyr)
+\endcode
+
+*/
diff --git a/doc/salome/gui/SMESH/input/tui_quality_controls.doc b/doc/salome/gui/SMESH/input/tui_quality_controls.doc
index 57d52c69e..740c42247 100644
--- a/doc/salome/gui/SMESH/input/tui_quality_controls.doc
+++ b/doc/salome/gui/SMESH/input/tui_quality_controls.doc
@@ -2,9 +2,7 @@
 
 \page tui_quality_controls_page Quality Controls
 
-<br>
-\anchor tui_free_borders
-<h2>Free Borders</h2>
+\section tui_free_borders Free Borders
 
 \code
 import salome
@@ -48,9 +46,7 @@ aGroup.Add(anIds)
 salome.sg.updateObjBrowser(1)
 \endcode
 
-<br>
-\anchor tui_borders_at_multiconnection
-<h2>Borders at Multiconnection</h2>
+\section tui_borders_at_multiconnection Borders at Multiconnection
 
 \code
 import salome
@@ -97,9 +93,7 @@ aGroup.Add(anIds)
 salome.sg.updateObjBrowser(1)
 \endcode
 
-<br>
-\anchor tui_length_1d
-<h2>Length 1D</h2>
+\section tui_length_1d Length 1D
 
 \code
 import salome
@@ -145,9 +139,7 @@ aGroup.Add(anIds)
 salome.sg.updateObjBrowser(1)
 \endcode
 
-<br>
-\anchor tui_free_edges
-<h2>Free Edges</h2>
+\section tui_free_edges Free Edges
 
 \code
 import SMESH_mechanic
@@ -189,9 +181,7 @@ for i in range(len(aBorders)):
 salome.sg.updateObjBrowser(1)
 \endcode
 
-<br>
-\anchor tui_free_nodes
-<h2>Free Nodes</h2>
+\section tui_free_nodes Free Nodes
 
 \code
 import salome
@@ -242,10 +232,7 @@ print ""
 salome.sg.updateObjBrowser(1)
 \endcode
 
-
-<br>
-\anchor tui_free_faces
-<h2>Free Faces</h2>
+\section tui_free_faces Free Faces
 
 \code
 import salome
@@ -322,10 +309,7 @@ aGroup.Add(aFaceIds)
 salome.sg.updateObjBrowser(1)
 \endcode
 
-
-<br>
-\anchor tui_length_2d
-<h2>Length 2D</h2>
+\section tui_length_2d Length 2D
 
 \code
 import salome
@@ -372,9 +356,7 @@ aGroup.Add(anIds)
 salome.sg.updateObjBrowser(1)
 \endcode
 
-<br>
-\anchor tui_borders_at_multiconnection_2d
-<h2>Borders at Multiconnection 2D</h2>
+\section tui_borders_at_multiconnection_2d Borders at Multiconnection 2D
 
 \code
 import salome
@@ -421,9 +403,7 @@ aGroup.Add(anIds)
 salome.sg.updateObjBrowser(1)
 \endcode
 
-<br>
-\anchor tui_area
-<h2>Area</h2>
+\section tui_area Area
 
 \code
 import SMESH_mechanic
@@ -456,9 +436,7 @@ aGroup.Add(anIds)
 salome.sg.updateObjBrowser(1)  
 \endcode
 
-<br>
-\anchor tui_taper
-<h2>Taper</h2>
+\section tui_taper Taper
 
 \code
 import SMESH_mechanic
@@ -491,9 +469,7 @@ aGroup.Add(anIds)
 salome.sg.updateObjBrowser(1)
 \endcode
 
-<br>
-\anchor tui_aspect_ratio
-<h2>Aspect Ratio</h2>
+\section tui_aspect_ratio Aspect Ratio
 
 \code
 import SMESH_mechanic
@@ -526,9 +502,7 @@ aGroup.Add(anIds)
 salome.sg.updateObjBrowser(1)
 \endcode
 
-<br>
-\anchor tui_minimum_angle
-<h2>Minimum Angle</h2>
+\section tui_minimum_angle Minimum Angle
 
 \code
 import SMESH_mechanic
@@ -562,9 +536,7 @@ aGroup.Add(anIds)
 salome.sg.updateObjBrowser(1)
 \endcode
 
-<br>
-\anchor tui_warping
-<h2>Warping</h2>
+\section tui_warping Warping
 
 \code
 import SMESH_mechanic
@@ -598,9 +570,7 @@ aGroup.Add(anIds)
 salome.sg.updateObjBrowser(1) 
 \endcode
 
-<br>
-\anchor tui_skew
-<h2>Skew</h2>
+\section tui_skew Skew
 
 \code
 import SMESH_mechanic
@@ -633,9 +603,7 @@ aGroup.Add(anIds)
 salome.sg.updateObjBrowser(1)
 \endcode
 
-<br>
-\anchor tui_aspect_ratio_3d
-<h2>Aspect Ratio 3D</h2>
+\section tui_aspect_ratio_3d Aspect Ratio 3D
 
 \code
 import SMESH_mechanic_tetra 
@@ -669,9 +637,7 @@ aGroup.Add(anIds)
 salome.sg.updateObjBrowser(1)
 \endcode
 
-<br>
-\anchor tui_volume
-<h2>Volume</h2>
+\section tui_volume Volume
 
 \code
 import SMESH_mechanic_tetra