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synced 2024-12-24 16:30:34 +05:00
Merge from V6_3_BR 15/07/2011
This commit is contained in:
parent
244cad68dd
commit
91c92cb543
@ -24,7 +24,7 @@
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# Modified by : Alexander BORODIN (OCN) - autotools usage
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# Created from configure.in.base
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#
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AC_INIT([Salome2 Project SMESH module], [6.3.0], [webmaster.salome@opencascade.com], [SalomeSMESH])
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AC_INIT([Salome2 Project SMESH module], [6.3.1], [webmaster.salome@opencascade.com], [SalomeSMESH])
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AC_CONFIG_AUX_DIR(adm_local/unix/config_files)
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AC_CANONICAL_HOST
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AC_CANONICAL_TARGET
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@ -481,6 +481,7 @@ AC_OUTPUT([ \
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doc/salome/gui/SMESH/doxyfile \
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doc/salome/gui/SMESH/doxyfile_py \
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doc/salome/gui/SMESH/static/header.html \
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doc/salome/gui/SMESH/static/header_py.html \
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doc/salome/tui/Makefile \
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doc/salome/tui/doxyfile \
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doc/salome/tui/static/header.html \
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@ -110,7 +110,7 @@ EXAMPLE_PATH = @top_srcdir@/src/SMESH_SWIG
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#---------------------------------------------------------------------------
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GENERATE_HTML = YES
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HTML_OUTPUT = smeshpy_doc
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HTML_HEADER = @builddir@/static/header.html
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HTML_HEADER = @builddir@/static/header_py.html
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HTML_FOOTER = @srcdir@/static/footer.html
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HTML_STYLESHEET = @srcdir@/static/doxygen.css
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TOC_EXPAND = YES
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Before Width: | Height: | Size: 17 KiB After Width: | Height: | Size: 17 KiB |
@ -44,7 +44,7 @@ segments on all four sides of the face must be even (divisible by 2).
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\anchor viscous_layers_anchor
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<h2>Viscous Layers</h2>
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<b>Viscous Layers</b> additional hypotheses can be used together with
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<b>Viscous Layers</b> additional hypothesis can be used together with
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several 3D algorithms: NETGEN 3D, GHS3D and Hexahedron(i,j,k). This
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hypothesis allows creation of layers of highly stretched prisms near
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mesh boundary, which is beneficial for high quality viscous
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@ -56,13 +56,13 @@ actually the hexahedrons.
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<ul>
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<li><b>Name</b> - allows to define the name of the hypothesis.</li>
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<li><b>Total thicknes</b> - gives total thickness of layers of prisms.</li>
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<li><b>Number of layers</b> - defines number of layers of prisms.</li>
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<li><b>Stretch factor</b> - defines factor of growth of height of
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prisms from the mesh boundary towards inside of mesh.</li>
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<li><b>Total thicknes</b> - gives the total thickness of prism layers.</li>
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<li><b>Number of layers</b> - defines the number of prism layers.</li>
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<li><b>Stretch factor</b> - defines the growth factor of prism height
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from the mesh boundary inwards.</li>
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<li><b>Faces without layers</b> - defines geometrical faces on which
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layers of prisms should not be constructed. By default the layers of
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prisms are not constructed on geometrical faces shared by solids.</li>
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prism layers should not be constructed. By default the prism layers
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are not constructed on geometrical faces shared by solids.</li>
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</ul>
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\image html viscous_layers_mesh.png A group containing viscous layer prisms.
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|
@ -247,38 +247,56 @@ In order to compute the mean of several values, the arithmetic mean is used by d
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More specific size maps can be defined on faces.
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<ul>
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<li> <i> Attractors </i> allow to define the size of the mesh elements on a face so that the mesh is the finest on the attractor shape and becomes coarser when getting far from this shape.
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<li> <i> Attractors </i> allow to define the size of the mesh elements
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on a face so that the mesh is the finest on the attractor shape and
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becomes coarser when getting far from this shape.
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<ul>
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<li> The selected attractor can be a Vertex, an Edge, a Wire or a Compound mixing several entities of those types.</li>
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<li> The selected attractor can be a Vertex, an Edge, a Wire or a
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Compound mixing several entities of those types.</li>
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<li> The attractor doesn't have to be a sub-shape of the shape to mesh.</li>
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<li> The size will grow exponentially (see formula below) but is bounded by gradation, \n so if you want the formula to be strictly respected, you should set the <i>gradation</i>
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<li> The size will grow exponentially (see the formula below) but is
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bounded by gradation, \n so if you want the formula to be strictly
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respected, you should set the <i>gradation</i>
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to its maximum (2.5) in the <i>arguments</i> tab.
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</ul>
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\n
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<li> Furthermore you can choose to <i> keep the size constant </i> until a certain distance from a shape. This option can be combined or not with an <i>attractor</i> size map described above.
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<li> Furthermore you can choose to <i> keep the size constant </i>
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until a certain distance from a shape. This option can be combined or
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not with an <i>attractor</i> size map described above.
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<ul>
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<li> If the two options are combined the size will remain constant until the distant specified in "constant over" and grow then as prescribed by the attractor function.</li>
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<li> Else the growing is only controled by the standard arguments of BLSURF (gradation ...).</li>
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<li> If the two options are combined the size will remain constant
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until the distance specified in "constant over" and grow then as
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prescribed by the attractor function.</li>
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<li> Else the growing is only controled by the standard arguments of
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BLSURF (gradation ...).</li>
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</ul>
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</ul>
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\image html blsurf_attractors2.png "Example of mesh created using attractors, the attractors here are the side edges and the size grow from the side of the surface towards the apex"
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\image html blsurf_attractors2.png "Example of mesh created using
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attractors, the attractors here are the side edges and the size grows
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from the side of the surface towards the apex"
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\n
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\image html blsurf_const_size_near_shape2.png "Example of size map with constant size option, the size is kept constant on the left side of the surface until a certain distance"
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\image html blsurf_const_size_near_shape2.png "Example of size map
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with constant size option, the size is kept constant on the left side
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of the surface until a certain distance"
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\n
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Remark : The validation of the hypothesis might take a few seconds if attractors are defined or the "constant size" option is used because a map of distances has to be built on the whole surface for each face where such an hypothesis has been defined.
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Remark : The validation of the hypothesis might take a few seconds if
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attractors are defined or the "constant size" option is used because a
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map of distances has to be built on the whole surface for each face
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where such a hypothesis has been defined.
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<br><b>See Also</b> a sample TUI Script of the \ref tui_blsurf "creation of a BLSurf hypothesis", including size map.
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\anchor blsurf_attractor_computation
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<h2>Computation of attractors</h2>
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\n
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The size grow exponentially following the equation : h(d) = User size + (h_start - User Size) * exp( -(d / R)^2 ).
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The size grows exponentially following the equation : h(d) = User size + (h_start - User Size) * exp( -(d / R)^2 ).
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\n
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Where :
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<ul>
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<li>h_start is the desired size on the given attractor shape</li>
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<li>d is the distance of the current point from the attractor shape. The distance is the geodesic distance (i.e. calculated by following the surface to be meshed) </li>
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<li>d is the distance of the current point from the attractor
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shape. The distance is the geodesic distance (i.e. calculated by following the surface to be meshed) </li>
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<li>R is called the distance of influence and allows controlling the growth rate of the mesh </li>
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</ul>
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|
@ -52,7 +52,7 @@ The use of additional hypotheses is optional (i.e. you may leave
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Proceed in the same way with 2d and 3d Algorithms and Hypotheses, note
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that the choice of hypotheses depends on the algorithm. There must be
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one Algorithm and zero or several Hypotheses for each dimension of your
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object (most of the standard 2D and 3D algorithms can work without
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object (most standard 2D and 3D algorithms can work without
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hypotheses using some default parameters),
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otherwise you will not get any mesh at all. Of course, if you
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wish to mesh a face, which is a 2d object, you don't need to define 3d
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@ -74,11 +74,11 @@ algorithms applied to the construction of the mesh.</li>
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There is an alternative way to create a mesh on an object simply by
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clicking <b>Assign a set of hypotheses</b> button and selecting among
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pre-defined sets of hypotheses. In addition to the standard
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sets of hypotheses, one can create his own sets by creating
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sets of hypotheses, it is possible to create custom sets by editing
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CustomMeshers.xml file located in the home directory. CustomMeshers.xml
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file must describe sets of hypotheses the
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file must describe sets of hypotheses in the
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same way as ${SMESH_ROOT_DIR}/share/salome/resources/smesh/StdMeshers.xml
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file does (hypotheses sets are enclosed between <hypotheses-set-group>
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file does (sets of hypotheses are enclosed between <hypotheses-set-group>
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tags).
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\image html hypo_sets.png
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<center>List of sets of hypotheses: <em>[custom]</em> is automatically added to the sets defined
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|
@ -2,11 +2,11 @@
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\page convert_to_from_quadratic_mesh_page Convert to/from Quadratic Mesh
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\n This functionality allows you to transtorm standard meshes (or
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sum-mesh) to quadratic and vice versa.
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\n This functionality allows transforming standard meshes (or
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sub-meshes) to quadratic and vice versa.
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See \ref adding_quadratic_elements_page "Adding quadratic elements"
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for more information about quadratic meshes.
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Note that conversion of the sub-mesh most probably will
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Note that conversion of a sub-mesh most probably will
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produce a non-conformal mesh. Elements on the boundary between
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quadratic and linear sub-meshes become (or remain) quadratic.
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@ -14,8 +14,8 @@ quadratic and linear sub-meshes become (or remain) quadratic.
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<ol>
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<li>Select a mesh or a sub-mesh in the Object Browser or in the
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Viewer.</li>
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<li>From the Modification menu choose the Convert to/from Quadratic
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Mesh item, or click <em>"Convert to/from quadratic"</em> button in the
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<li>From the Modification menu choose <b> Convert to/from Quadratic
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Mesh item </b>, or click <em>"Convert to/from quadratic"</em> button in the
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toolbar.
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\image html image154.png
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@ -26,18 +26,17 @@ The following dialog box will appear:
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\image html convert.png
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</li>
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<li>In this dialog box you should specify:
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<li>In this dialog box specify:
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<ul>
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<li>if you wish to convert a standard mesh to quadratic or a quadratic
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<li>if it is necessary to convert a standard mesh to quadratic or a quadratic
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mesh to standard. Note that the choice is available only if the selected mesh
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(or sub-mesh) contains both quadratic and linear elements, else the
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sole direction of convertion is automatically selected.</li>
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direction of conversion is selected automatically.</li>
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<li>if you wish to place medium nodes of the quadratic mesh on the
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geometry (meshed object). This option is active at convertion to
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qudratic mesh only and provided that the mesh is based on some
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geometry (not imported from the file).</li>
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<li>if it is necessary to place medium nodes of the quadratic mesh on the
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geometry (meshed object). This option is relevant for conversion to
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quadratic provided that the mesh is based on a geometry (not imported from file).</li>
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</ul>
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\image html image156.gif
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|
@ -2,8 +2,8 @@
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\page cut_mesh_by_plane_page Cut a tetrahedron mesh by a plane
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\n MeshCut works only on Med files and produces Med files, and is a standalone program.
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It can be used either directly on a shell command outside SALOME, or with a GUI interface in SMESH,
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\n MeshCut works only with MED files and produces MED files, and is a standalone program.
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It can be used either directly from a command shell outside SALOME, or with a GUI interface in SMESH,
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provided in a python plugin that needs to be installed in your SALOME application.
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\n MeshCut allows to cut a mesh constituted of linear tetrahedrons by a plane.
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@ -31,20 +31,21 @@ MeshCut input.med output.med resuMeshName aboveGroup belowGroup nx ny nz px py p
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\n nx ny nz = vector normal to the cut plane
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\n px py pz = a point of the cut plane
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\n T = 0 < T < 1 : vertices of a tetrahedron are considered as belonging to
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\n the cut plane if their distance to the plane is inferior to L*T
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\n the cut plane if their distance from the plane is inferior to L*T,
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\n where L is the mean edge size of the tetrahedron
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<br>
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\anchor meshcut_plugin
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<h2>Using MeshCut inside SALOME</h2>
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When the MeshCut plugin is installed, you will find it in the Mesh menu, sub-menu SMESH_plugins.
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\n If the plugin is not installed, look for a file named meshcut_plugin.py in your SMESH installation.
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The file is normally in the subdirectory bin/salome/meshcut_plugin.py.
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When the MeshCut plugin is installed, it can be found in the Mesh menu, sub-menu SMESH_plugins.
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\n If the plugin is not installed, the file meshcut_plugin.py is in
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SMESH installation in subdirectory bin/salome/meshcut_plugin.py.
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\n If you already have plugins defined in a smesh_plugins.py file, add this file at the end.
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if not, copy this file as ${HOME}/Plugins/smesh_plugins.py or ${APPLI}/Plugins/smesh_plugins.py
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or in your ${PLUGINPATH} Directory.
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\n If there are already plugins defined in a smesh_plugins.py file,
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this file should be added at the end.
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if not, copied as ${HOME}/Plugins/smesh_plugins.py or ${APPLI}/Plugins/smesh_plugins.py
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or in ${PLUGINPATH} Directory.
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<li>From the Mesh menu, sub-menu SMESH_plugins, choose "MeshCut" item
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The following dialog box will appear:
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|
@ -7,6 +7,6 @@ allow to generate flat volume elements on the boundaries of a list
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of groups of volumes, or on a list of groups of faces.
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\n These functionalities are only available in python scripts.
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<br><b>See </b> a sample TUI Script of a \ref tui_double_nodes_on_group_boundaries "Generate flat elements" operations.
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<br><b>See </b> a sample TUI Script of \ref tui_double_nodes_on_group_boundaries "Generate flat elements" operation.
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*/
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@ -7,7 +7,7 @@ elements of a higher dimension.
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<em>To generate border elements:</em>
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<ol>
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<li>Select a mesh in the Object Browser or in the 3D Viewer</li>
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<li>Select a mesh or groups in the Object Browser or in the 3D Viewer</li>
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<li>From the Modification menu choose "Create boundary elements"
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item, or click "Create boundary elements" button in the toolbar
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@ -16,26 +16,23 @@ item, or click "Create boundary elements" button in the toolbar
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The following dialog box will appear:
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\image html 2d_from_3d_dlg.png "Create boundary elements dialog box".
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</li>
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<li>Check in the dialog box one of three radio buttons corresponding to
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<li>Check in the dialog box one of two radio buttons corresponding to
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the type of operation you would like to perform.</li>
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<li>Fill the other fields available in the dialog box.</li>
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<li>Click the \b Apply or <b>Apply and Close</b> button to perform the operation.</li>
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</ol>
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\n "Create boundary elements" dialog allows creation of boundary elements
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of three types.
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of two types.
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<ul>
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<li><b>2D from 3D</b> creates mesh faces on free facets of volume elements</li>
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<li><b>1D from 2D</b> creates mesh edges on free edges of mesh faces</li>
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<li><b>1D from 2D groups</b> creates mesh edges on borders of groups of faces</li>
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</ul>
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Here a <em>free facet</em> means a facet shared by only one volume, a <em>free edge</em>
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means an edge shared by only one mesh face.
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In this dialog:
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<ul>
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||||
<li>specify the <b>2D groups</b> on borders of which the edges will be
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generated (if <b>1D from 2D groups</b> is selected).</li>
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||||
<li>specify the <b>Target</b> mesh, where the boundary elements will
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||||
be created.
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||||
<ul>
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||||
|
@ -2,7 +2,10 @@
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||||
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||||
\page over_constrained_faces_page Over-constrained faces
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||||
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||||
\n This mesh quality control highlights faces sharing only one of its borders with other faces.
|
||||
\n This mesh quality control highlights faces sharing only one of its borders with other faces. In other words the faces having all there nodes on the external border of the mesh are highlighted.
|
||||
|
||||
\note The highlighted faces are actually over constrained only if, at the computation time,
|
||||
the boundary conditions on the borders where the nodes are located are all Dirichlet boundary conditions.
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||||
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||||
\image html over_constrained_faces.png
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||||
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||||
|
@ -3,6 +3,10 @@
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||||
\page over_constrained_volumes_page Over-constrained volumes
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||||
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||||
\n This mesh quality control highlights volumes sharing only one of its borders with other volumes.
|
||||
In other words the volumes having all there nodes on the external border of the mesh are highlighted.
|
||||
|
||||
\note The highlighted volumes are actually over constrained only if, at the computation time,
|
||||
the boundary conditions on the borders where the nodes are located are all Dirichlet boundary conditions.
|
||||
|
||||
\image html over_constrained_volumes.png
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||||
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|
@ -139,5 +139,6 @@ the following links:
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||||
- \subpage tui_transforming_meshes_page
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||||
- \subpage tui_notebook_smesh_page
|
||||
- \subpage tui_measurements_page
|
||||
- \subpage tui_generate_flat_elements_page
|
||||
|
||||
*/
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||||
|
@ -38,11 +38,11 @@ ghs3dMesh.Compute()
|
||||
# - the coordinates x,y,z
|
||||
# - a GEOM vertex or compound (No geometry, TUI only)
|
||||
#
|
||||
# The enforced nodes created can also be stored in
|
||||
# The created enforced nodes can also be stored in
|
||||
# a group (No geometry, TUI only).
|
||||
|
||||
# Ex1: Add 1 enforced vertices by coords at (50,50,100)
|
||||
# with a physical size of 2
|
||||
# Ex1: Add one enforced vertex with coordinates (50,50,100)
|
||||
# and physical size 2.
|
||||
|
||||
import geompy
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||||
import smesh
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||||
@ -73,10 +73,10 @@ GHS3D_Parameters.SetEnforcedVertex( 50, 50, 100, 2) # no group
|
||||
ghs3dMesh.Compute()
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||||
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||||
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||||
# Ex2: Add 1 enforced vertices by GEOM vertex at (50,50,100)
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||||
# with a physical size of 5 and add it to a group called "My special nodes"
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||||
# Ex2: Add one vertex enforced by a GEOM vertex at (50,50,100)
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||||
# with physical size 5 and add it to a group called "My special nodes"
|
||||
|
||||
# Create another GHS3D hypothesis and assign it to the mesh wo geometry
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||||
# Create another GHS3D hypothesis and assign it to the mesh without geometry
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||||
GHS3D_Parameters_wo_geometry = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine')
|
||||
ghs3dMesh_wo_geometry.AddHypothesis( GHS3D )
|
||||
ghs3dMesh_wo_geometry.AddHypothesis( GHS3D_Parameters_wo_geometry )
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||||
@ -104,8 +104,8 @@ GHS3D_Parameters.ClearEnforcedVertices()
|
||||
|
||||
\code
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||||
|
||||
# It is possible to constraint GHS3D with another mesh or group.
|
||||
# The constraint can be the nodes, edges or faces.
|
||||
# It is possible to constrain GHS3D with another mesh or group.
|
||||
# The constraint can refer to the nodes, edges or faces.
|
||||
# This feature is available only in TUI, on meshes without geometry.
|
||||
# The constraining elements are called enforced elements for the mesh.
|
||||
# They can be recovered using groups if necessary.
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||||
@ -133,7 +133,7 @@ geompy.addToStudy( p1, "p1" )
|
||||
geompy.addToStudy( p2, "p2" )
|
||||
geompy.addToStudy( c, "c" )
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||||
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||||
# Create the 2D algo and hypothesis
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||||
# Create the 2D algorithm and hypothesis
|
||||
BLSURF = smesh.CreateHypothesis('BLSURF', 'BLSURFEngine')
|
||||
# For the box
|
||||
BLSURF_Parameters = smesh.CreateHypothesis('BLSURF_Parameters', 'BLSURFEngine')
|
||||
@ -143,7 +143,7 @@ BLSURF_Parameters.SetPhySize( 200 )
|
||||
BLSURF_Parameters2 = smesh.CreateHypothesis('BLSURF_Parameters', 'BLSURFEngine')
|
||||
BLSURF_Parameters2.SetGeometricMesh( 1 )
|
||||
|
||||
# Create the 3D algo and hypothesis
|
||||
# Create the 3D algorithm and hypothesis
|
||||
GHS3D = smesh.CreateHypothesis('GHS3D_3D', 'GHS3DEngine')
|
||||
GHS3D_Parameters_node = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine')
|
||||
#GHS3D_Parameters_node.SetToMeshHoles( 1 )
|
||||
@ -173,7 +173,7 @@ Mesh_box_tri.AddHypothesis( BLSURF_Parameters )
|
||||
Mesh_box_tri.Compute()
|
||||
|
||||
# Create 4 copies of the 2D mesh to test the 3 types of contraints (NODE, EDGE, FACE)
|
||||
# from a whole mesh and from groups of elements.
|
||||
# from the whole mesh and from groups of elements.
|
||||
# Then the 3D algo and hypothesis are assigned to them.
|
||||
|
||||
mesh_mesh = smesh.CopyMesh( Mesh_box_tri, 'Enforced by faces of mesh', 0, 0)
|
||||
@ -213,4 +213,4 @@ mesh_mesh.Compute()
|
||||
\image html ghs3d_screenshot_enf5.png
|
||||
\image html ghs3d_screenshot_enf6.png
|
||||
|
||||
*/
|
||||
*/
|
||||
|
@ -7,10 +7,10 @@
|
||||
<h2>Double nodes on groups boundaries</h2>
|
||||
|
||||
\n Double nodes on shared faces between groups of volumes and create flat elements on demand.
|
||||
\n The list of groups must describe a partition of the mesh volumes.The nodes of the internal
|
||||
faces at the boundaries of the groups are doubled. In option, the internal faces are replaced
|
||||
\n The list of groups must describe a partition of the mesh volumes. The nodes of the internal
|
||||
faces at the boundaries of the groups are doubled. Optionally, the internal faces are replaced
|
||||
by flat elements.
|
||||
\n Triangles are transformed in prisms, and quadrangles in hexahedrons.
|
||||
\n Triangles are transformed into prisms, and quadrangles into hexahedrons.
|
||||
\n The flat elements are stored in groups of volumes.
|
||||
|
||||
\n
|
||||
@ -37,7 +37,7 @@ Partition_1 = geompy.MakePartition([Fuse_1], [Cylinder_1], [], [], geompy.ShapeT
|
||||
[Solid_1,Solid_2,Solid_3] = geompy.SubShapes(Partition_1, [53, 2, 30])
|
||||
[Face_1,Face_2] = geompy.SubShapes(Partition_1, [37, 20])
|
||||
|
||||
# meshing (linear tetrahedrons here, but other elements are OK)
|
||||
# meshing (linear tetrahedrons are here, but other elements are OK)
|
||||
|
||||
Mesh_1 = smesh.Mesh(Partition_1)
|
||||
BLSURF = Mesh_1.Triangle(algo=smesh.BLSURF)
|
||||
@ -61,7 +61,7 @@ Face_2_1 = Mesh_1.GroupOnGeom(Face_2,'Face_2',SMESH.FACE)
|
||||
|
||||
\n Here, the 3 groups of volumes [Solid_1_1, Solid_2_1, Solid_3_1] constitute a partition of the mesh.
|
||||
The flat elements on group boundaries and on faces are built with the following code.
|
||||
\n If the last argument (boolean) in DoubleNodesOnGroupBoundaries is set to 1,
|
||||
\n If the last argument (Boolean) in DoubleNodesOnGroupBoundaries is set to 1,
|
||||
the flat elements are built, otherwise, there is only a duplication of the nodes.
|
||||
|
||||
\code
|
||||
@ -70,6 +70,6 @@ Mesh_1.DoubleNodesOnGroupBoundaries([Solid_1_1, Solid_2_1, Solid_3_1], 1)
|
||||
Mesh_1.CreateFlatElementsOnFacesGroups([Face_1_1, Face_2_1])
|
||||
\endcode
|
||||
|
||||
\n To observe the flat element groups, save the resulting mesh on a Med file and reload it.
|
||||
\n To observe flat element groups, save the resulting mesh on a MED file and reload it.
|
||||
|
||||
*/
|
||||
|
@ -1,12 +0,0 @@
|
||||
<!doctype html public "-//w3c//dtd html 4.0 transitional//en">
|
||||
<html>
|
||||
<head>
|
||||
<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
|
||||
<title>$title</title>
|
||||
<link href="doxygen.css" rel="stylesheet" type="text/css">
|
||||
</head>
|
||||
<hr>
|
||||
<center>
|
||||
SALOME documentation central
|
||||
</center>
|
||||
<hr>
|
23
doc/salome/gui/SMESH/static/header_py.html.in
Normal file
23
doc/salome/gui/SMESH/static/header_py.html.in
Normal file
@ -0,0 +1,23 @@
|
||||
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
|
||||
<html xmlns="http://www.w3.org/1999/xhtml">
|
||||
<head>
|
||||
<meta http-equiv="Content-Type" content="text/xhtml;charset=UTF-8"/>
|
||||
<title>$title</title>
|
||||
<link href="$relpath$tabs.css" rel="stylesheet" type="text/css"/>
|
||||
<link href="$relpath$search/search.css" rel="stylesheet" type="text/css"/>
|
||||
<script type="text/javascript" src="$relpath$search/search.js"></script>
|
||||
<link href="$relpath$navtree.css" rel="stylesheet" type="text/css"/>
|
||||
<script type="text/javascript" src="$relpath$jquery.js"></script>
|
||||
<script type="text/javascript" src="$relpath$navtree.js"></script>
|
||||
<script type="text/javascript" src="$relpath$resize.js"></script>
|
||||
<script type="text/javascript">
|
||||
$(document).ready(initResizable);
|
||||
</script>
|
||||
<link href="$relpath$doxygen.css" rel="stylesheet" type="text/css"/>
|
||||
</head>
|
||||
<body onload='searchBox.OnSelectItem(0);'>
|
||||
<div id="top"><!-- do not remove this div! -->
|
||||
<div id="titlearea"><div align="right"><div class="version">Version: @VERSION@</div></div></div>
|
||||
<div align="bottom-left"><a href=../index.html>Home</a></div>
|
||||
|
||||
</div>
|
@ -264,7 +264,8 @@ module SMESH
|
||||
long_array GetMeshInfo();
|
||||
|
||||
/*!
|
||||
* Returns types of elements it contains
|
||||
* Returns types of elements it contains.
|
||||
* It's empty if the SMESH_IDSource contains no IDs
|
||||
*/
|
||||
array_of_ElementType GetTypes();
|
||||
|
||||
|
@ -415,6 +415,8 @@ void aptrte( Z nutysu, R aretmx,
|
||||
if( mntree==NULL ) goto ERREUR;
|
||||
|
||||
//initialisation du tableau letree et ajout dans letree des sommets 1 a nbsomm
|
||||
comxmi[0].x = comxmi[1].x = uvslf[0].x;
|
||||
comxmi[0].y = comxmi[1].y = uvslf[0].y;
|
||||
teajte( mxsomm, nbsomm, mnpxyd, comxmi, aretmx, mxtree, mntree, ierr );
|
||||
comxmi[0].z=0;
|
||||
comxmi[1].z=0;
|
||||
|
@ -1294,7 +1294,7 @@ c la direction pour le calcul de la longueur (inactif ici!)
|
||||
xyzd(2) = 0d0
|
||||
xyzd(3) = 0d0
|
||||
|
||||
longai = areteideale()
|
||||
longai = areteideale(xyz,xyzd)
|
||||
c (xyz,xyzd)
|
||||
if( longai .lt. 0d0 ) then
|
||||
write(imprim,10000) xyz
|
||||
|
@ -122,21 +122,16 @@ dist_libSMDS_la_SOURCES = \
|
||||
# additionnal information to compil and link file
|
||||
libSMDS_la_CPPFLAGS = \
|
||||
$(KERNEL_CXXFLAGS) \
|
||||
$(CAS_CPPFLAGS) \
|
||||
$(VTK_INCLUDES) \
|
||||
$(BOOST_CPPFLAGS)
|
||||
|
||||
libSMDS_la_LDFLAGS = \
|
||||
$(VTK_LIBS) \
|
||||
$(KERNEL_LDFLAGS) -lSALOMELocalTrace \
|
||||
$(CAS_KERNEL)
|
||||
$(KERNEL_LDFLAGS) -lSALOMELocalTrace
|
||||
|
||||
# Executables targets
|
||||
bin_PROGRAMS = SMDS_MemoryLimit
|
||||
dist_SMDS_MemoryLimit_SOURCES = \
|
||||
SMDS_MemoryLimit.cxx
|
||||
|
||||
SMDS_MemoryLimit_LDADD = \
|
||||
$(KERNEL_LDFLAGS) -lSALOMELocalTrace
|
||||
|
||||
#libSMDS_la_LDFLAGS += -L/data/eap/S5_MV/INSTALL/SMESH/lib/salome -lPerfmeter
|
||||
|
@ -38,6 +38,8 @@
|
||||
#include "SMDS_UnstructuredGrid.hxx"
|
||||
#include <vtkCellType.h>
|
||||
|
||||
#include <climits>
|
||||
|
||||
using namespace std;
|
||||
|
||||
//=======================================================================
|
||||
@ -173,7 +175,7 @@ void SMDS_MeshElementIDFactory::ReleaseID(int ID, int vtkId)
|
||||
|
||||
void SMDS_MeshElementIDFactory::updateMinMax() const
|
||||
{
|
||||
myMin = IntegerLast();
|
||||
myMin = INT_MAX;
|
||||
myMax = 0;
|
||||
for (int i = 0; i < myMesh->myCells.size(); i++)
|
||||
{
|
||||
@ -186,7 +188,7 @@ void SMDS_MeshElementIDFactory::updateMinMax() const
|
||||
myMin = id;
|
||||
}
|
||||
}
|
||||
if (myMin == IntegerLast())
|
||||
if (myMin == INT_MAX)
|
||||
myMin = 0;
|
||||
}
|
||||
|
||||
|
@ -32,7 +32,6 @@
|
||||
#include "SMDS_MeshElement.hxx"
|
||||
#include "SMDS_Position.hxx"
|
||||
#include "ObjectPool.hxx"
|
||||
#include <NCollection_List.hxx>
|
||||
|
||||
class SMDS_EXPORT SMDS_MeshNode:public SMDS_MeshElement
|
||||
{
|
||||
|
@ -1355,20 +1355,23 @@ int SMDS_VolumeTool::GetAllExistingEdges(vector<const SMDS_MeshElement*> & edges
|
||||
return edges.size();
|
||||
}
|
||||
|
||||
//=======================================================================
|
||||
//function : IsFreeFace
|
||||
//purpose : check that only one volume is build on the face nodes
|
||||
//=======================================================================
|
||||
//================================================================================
|
||||
/*!
|
||||
* \brief check that only one volume is build on the face nodes
|
||||
*
|
||||
* If a face is shared by one of <ignoreVolumes>, it is considered free
|
||||
*/
|
||||
//================================================================================
|
||||
|
||||
bool SMDS_VolumeTool::IsFreeFace( int faceIndex )
|
||||
bool SMDS_VolumeTool::IsFreeFace( int faceIndex, const SMDS_MeshElement** otherVol/*=0*/ )
|
||||
{
|
||||
const int free = true;
|
||||
const bool isFree = true;
|
||||
|
||||
if (!setFace( faceIndex ))
|
||||
return !free;
|
||||
return !isFree;
|
||||
|
||||
const SMDS_MeshNode** nodes = GetFaceNodes( faceIndex );
|
||||
int nbFaceNodes = myFaceNbNodes;
|
||||
const int nbFaceNodes = myFaceNbNodes;
|
||||
|
||||
// evaluate nb of face nodes shared by other volume
|
||||
int maxNbShared = -1;
|
||||
@ -1377,25 +1380,19 @@ bool SMDS_VolumeTool::IsFreeFace( int faceIndex )
|
||||
TElemIntMap::iterator vNbIt;
|
||||
for ( int iNode = 0; iNode < nbFaceNodes; iNode++ ) {
|
||||
const SMDS_MeshNode* n = nodes[ iNode ];
|
||||
SMDS_ElemIteratorPtr eIt = n->GetInverseElementIterator();
|
||||
SMDS_ElemIteratorPtr eIt = n->GetInverseElementIterator( SMDSAbs_Volume );
|
||||
while ( eIt->more() ) {
|
||||
const SMDS_MeshElement* elem = eIt->next();
|
||||
if ( elem != myVolume && elem->GetType() == SMDSAbs_Volume ) {
|
||||
int nbShared = 1;
|
||||
vNbIt = volNbShared.find( elem );
|
||||
if ( vNbIt == volNbShared.end() ) {
|
||||
volNbShared.insert ( TElemIntMap::value_type( elem, nbShared ));
|
||||
}
|
||||
else {
|
||||
nbShared = ++(*vNbIt).second;
|
||||
}
|
||||
if ( nbShared > maxNbShared )
|
||||
maxNbShared = nbShared;
|
||||
if ( elem != myVolume ) {
|
||||
vNbIt = volNbShared.insert( make_pair( elem, 0 )).first;
|
||||
(*vNbIt).second++;
|
||||
if ( vNbIt->second > maxNbShared )
|
||||
maxNbShared = vNbIt->second;
|
||||
}
|
||||
}
|
||||
}
|
||||
if ( maxNbShared < 3 )
|
||||
return free; // is free
|
||||
return isFree; // is free
|
||||
|
||||
// find volumes laying on the opposite side of the face
|
||||
// and sharing all nodes
|
||||
@ -1404,55 +1401,81 @@ bool SMDS_VolumeTool::IsFreeFace( int faceIndex )
|
||||
if ( IsFaceExternal( faceIndex ))
|
||||
intNormal = XYZ( -intNormal.x, -intNormal.y, -intNormal.z );
|
||||
XYZ p0 ( nodes[0] ), baryCenter;
|
||||
for ( vNbIt = volNbShared.begin(); vNbIt != volNbShared.end(); vNbIt++ ) {
|
||||
int nbShared = (*vNbIt).second;
|
||||
for ( vNbIt = volNbShared.begin(); vNbIt != volNbShared.end(); ) {
|
||||
const int& nbShared = (*vNbIt).second;
|
||||
if ( nbShared >= 3 ) {
|
||||
SMDS_VolumeTool volume( (*vNbIt).first );
|
||||
volume.GetBaryCenter( baryCenter.x, baryCenter.y, baryCenter.z );
|
||||
XYZ intNormal2( baryCenter - p0 );
|
||||
if ( intNormal.Dot( intNormal2 ) < 0 )
|
||||
continue; // opposite side
|
||||
if ( intNormal.Dot( intNormal2 ) < 0 ) {
|
||||
// opposite side
|
||||
if ( nbShared >= nbFaceNodes )
|
||||
{
|
||||
// a volume shares the whole facet
|
||||
if ( otherVol ) *otherVol = vNbIt->first;
|
||||
return !isFree;
|
||||
}
|
||||
++vNbIt;
|
||||
continue;
|
||||
}
|
||||
}
|
||||
// remove a volume from volNbShared map
|
||||
volNbShared.erase( vNbIt-- );
|
||||
volNbShared.erase( vNbIt++ );
|
||||
}
|
||||
|
||||
// here volNbShared contains only volumes laying on the
|
||||
// opposite side of the face
|
||||
if ( volNbShared.empty() ) {
|
||||
return free; // is free
|
||||
// here volNbShared contains only volumes laying on the opposite side of
|
||||
// the face and sharing 3 or more but not all face nodes with myVolume
|
||||
if ( volNbShared.size() < 2 ) {
|
||||
return isFree; // is free
|
||||
}
|
||||
|
||||
// check if the whole area of a face is shared
|
||||
bool isShared[] = { false, false, false, false }; // 4 triangle parts of a quadrangle
|
||||
for ( vNbIt = volNbShared.begin(); vNbIt != volNbShared.end(); vNbIt++ ) {
|
||||
SMDS_VolumeTool volume( (*vNbIt).first );
|
||||
bool prevLinkShared = false;
|
||||
int nbSharedLinks = 0;
|
||||
for ( int iNode = 0; iNode < nbFaceNodes; iNode++ ) {
|
||||
bool linkShared = volume.IsLinked( nodes[ iNode ], nodes[ iNode + 1] );
|
||||
if ( linkShared )
|
||||
nbSharedLinks++;
|
||||
if ( linkShared && prevLinkShared &&
|
||||
volume.IsLinked( nodes[ iNode - 1 ], nodes[ iNode + 1] ))
|
||||
isShared[ iNode ] = true;
|
||||
prevLinkShared = linkShared;
|
||||
}
|
||||
if ( nbSharedLinks == nbFaceNodes )
|
||||
return !free; // is not free
|
||||
if ( nbFaceNodes == 4 ) {
|
||||
// check traingle parts 1 & 3
|
||||
if ( isShared[1] && isShared[3] )
|
||||
return !free; // is not free
|
||||
// check triangle parts 0 & 2;
|
||||
// 0 part could not be checked in the loop; check it here
|
||||
if ( isShared[2] && prevLinkShared &&
|
||||
volume.IsLinked( nodes[ 0 ], nodes[ 1 ] ) &&
|
||||
volume.IsLinked( nodes[ 1 ], nodes[ 3 ] ) )
|
||||
return !free; // is not free
|
||||
}
|
||||
for ( int iNode = 0; iNode < nbFaceNodes; iNode++ )
|
||||
{
|
||||
const SMDS_MeshNode* n = nodes[ iNode ];
|
||||
// check if n is shared by one of volumes of volNbShared
|
||||
bool isShared = false;
|
||||
SMDS_ElemIteratorPtr eIt = n->GetInverseElementIterator( SMDSAbs_Volume );
|
||||
while ( eIt->more() && !isShared )
|
||||
isShared = volNbShared.count( eIt->next() );
|
||||
if ( !isShared )
|
||||
return isFree;
|
||||
}
|
||||
return free;
|
||||
if ( otherVol ) *otherVol = volNbShared.begin()->first;
|
||||
return !isFree;
|
||||
|
||||
// if ( !myVolume->IsPoly() )
|
||||
// {
|
||||
// bool isShared[] = { false, false, false, false }; // 4 triangle parts of a quadrangle
|
||||
// for ( vNbIt = volNbShared.begin(); vNbIt != volNbShared.end(); vNbIt++ ) {
|
||||
// SMDS_VolumeTool volume( (*vNbIt).first );
|
||||
// bool prevLinkShared = false;
|
||||
// int nbSharedLinks = 0;
|
||||
// for ( int iNode = 0; iNode < nbFaceNodes; iNode++ ) {
|
||||
// bool linkShared = volume.IsLinked( nodes[ iNode ], nodes[ iNode + 1] );
|
||||
// if ( linkShared )
|
||||
// nbSharedLinks++;
|
||||
// if ( linkShared && prevLinkShared &&
|
||||
// volume.IsLinked( nodes[ iNode - 1 ], nodes[ iNode + 1] ))
|
||||
// isShared[ iNode ] = true;
|
||||
// prevLinkShared = linkShared;
|
||||
// }
|
||||
// if ( nbSharedLinks == nbFaceNodes )
|
||||
// return !free; // is not free
|
||||
// if ( nbFaceNodes == 4 ) {
|
||||
// // check traingle parts 1 & 3
|
||||
// if ( isShared[1] && isShared[3] )
|
||||
// return !free; // is not free
|
||||
// // check triangle parts 0 & 2;
|
||||
// // 0 part could not be checked in the loop; check it here
|
||||
// if ( isShared[2] && prevLinkShared &&
|
||||
// volume.IsLinked( nodes[ 0 ], nodes[ 1 ] ) &&
|
||||
// volume.IsLinked( nodes[ 1 ], nodes[ 3 ] ) )
|
||||
// return !free; // is not free
|
||||
// }
|
||||
// }
|
||||
// }
|
||||
// return free;
|
||||
}
|
||||
|
||||
//=======================================================================
|
||||
|
@ -160,8 +160,9 @@ class SMDS_EXPORT SMDS_VolumeTool
|
||||
// Check normal orientation of a face.
|
||||
// SetExternalNormal() is taken into account.
|
||||
|
||||
bool IsFreeFace( int faceIndex );
|
||||
bool IsFreeFace( int faceIndex, const SMDS_MeshElement** otherVol=0 );
|
||||
// Check that all volumes built on the face nodes lays on one side
|
||||
// otherVol returns another volume sharing the given facet
|
||||
|
||||
bool GetFaceNormal (int faceIndex, double & X, double & Y, double & Z);
|
||||
// Return a normal to a face
|
||||
|
@ -174,7 +174,7 @@ double SMESH_Algo::EdgeLength(const TopoDS_Edge & E)
|
||||
return 0;
|
||||
TopLoc_Location L;
|
||||
Handle(Geom_Curve) C = BRep_Tool::Curve(E, L, UMin, UMax);
|
||||
GeomAdaptor_Curve AdaptCurve(C);
|
||||
GeomAdaptor_Curve AdaptCurve(C, UMin, UMax); //range is important for periodic curves
|
||||
double length = GCPnts_AbscissaPoint::Length(AdaptCurve, UMin, UMax);
|
||||
return length;
|
||||
}
|
||||
|
@ -1615,6 +1615,7 @@ void SMESH_MeshEditor::SplitVolumesIntoTetra (const TIDSortedElemSet & theElems,
|
||||
helper.SetIsQuadratic( false );
|
||||
}
|
||||
vector<const SMDS_MeshNode*> nodes( (*elem)->begin_nodes(), (*elem)->end_nodes() );
|
||||
helper.SetElementsOnShape( true );
|
||||
if ( splitMethod._baryNode )
|
||||
{
|
||||
// make a node at barycenter
|
||||
@ -1642,7 +1643,6 @@ void SMESH_MeshEditor::SplitVolumesIntoTetra (const TIDSortedElemSet & theElems,
|
||||
}
|
||||
|
||||
// make tetras
|
||||
helper.SetElementsOnShape( true );
|
||||
vector<const SMDS_MeshElement* > tetras( splitMethod._nbTetra ); // splits of a volume
|
||||
const int* tetConn = splitMethod._connectivity;
|
||||
for ( int i = 0; i < splitMethod._nbTetra; ++i, tetConn += 4 )
|
||||
@ -1670,6 +1670,12 @@ void SMESH_MeshEditor::SplitVolumesIntoTetra (const TIDSortedElemSet & theElems,
|
||||
helper.SetElementsOnShape( false );
|
||||
vector< const SMDS_MeshElement* > triangles;
|
||||
|
||||
// find submesh to add new triangles in
|
||||
if ( !fSubMesh || !fSubMesh->Contains( face ))
|
||||
{
|
||||
int shapeID = FindShape( face );
|
||||
fSubMesh = GetMeshDS()->MeshElements( shapeID );
|
||||
}
|
||||
map<int, const SMDS_MeshNode*>::iterator iF_n = splitMethod._faceBaryNode.find(iF);
|
||||
if ( iF_n != splitMethod._faceBaryNode.end() )
|
||||
{
|
||||
@ -1681,6 +1687,9 @@ void SMESH_MeshEditor::SplitVolumesIntoTetra (const TIDSortedElemSet & theElems,
|
||||
if ( !volTool.IsFaceExternal( iF ))
|
||||
swap( n2, n3 );
|
||||
triangles.push_back( helper.AddFace( n1,n2,n3 ));
|
||||
|
||||
if ( fSubMesh && n3->getshapeId() < 1 )
|
||||
fSubMesh->AddNode( n3 );
|
||||
}
|
||||
}
|
||||
else
|
||||
@ -1719,12 +1728,6 @@ void SMESH_MeshEditor::SplitVolumesIntoTetra (const TIDSortedElemSet & theElems,
|
||||
volNodes[ facet->_n3 ]));
|
||||
}
|
||||
}
|
||||
// find submesh to add new triangles in
|
||||
if ( !fSubMesh || !fSubMesh->Contains( face ))
|
||||
{
|
||||
int shapeID = FindShape( face );
|
||||
fSubMesh = GetMeshDS()->MeshElements( shapeID );
|
||||
}
|
||||
for ( int i = 0; i < triangles.size(); ++i )
|
||||
{
|
||||
if ( !triangles[i] ) continue;
|
||||
@ -3088,35 +3091,27 @@ void SMESH_MeshEditor::Smooth (TIDSortedElemSet & theElems,
|
||||
// fix nodes on mesh boundary
|
||||
|
||||
if ( checkBoundaryNodes ) {
|
||||
map< NLink, int > linkNbMap; // how many times a link encounters in elemsOnFace
|
||||
map< NLink, int >::iterator link_nb;
|
||||
map< SMESH_TLink, int > linkNbMap; // how many times a link encounters in elemsOnFace
|
||||
map< SMESH_TLink, int >::iterator link_nb;
|
||||
// put all elements links to linkNbMap
|
||||
list< const SMDS_MeshElement* >::iterator elemIt = elemsOnFace.begin();
|
||||
for ( ; elemIt != elemsOnFace.end(); ++elemIt ) {
|
||||
const SMDS_MeshElement* elem = (*elemIt);
|
||||
int nbn = elem->NbNodes();
|
||||
if(elem->IsQuadratic())
|
||||
nbn = nbn/2;
|
||||
int nbn = elem->NbCornerNodes();
|
||||
// loop on elem links: insert them in linkNbMap
|
||||
const SMDS_MeshNode* curNode, *prevNode = elem->GetNodeWrap( nbn );
|
||||
for ( int iN = 0; iN < nbn; ++iN ) {
|
||||
curNode = elem->GetNode( iN );
|
||||
NLink link;
|
||||
if ( curNode < prevNode ) link = make_pair( curNode , prevNode );
|
||||
else link = make_pair( prevNode , curNode );
|
||||
prevNode = curNode;
|
||||
link_nb = linkNbMap.find( link );
|
||||
if ( link_nb == linkNbMap.end() )
|
||||
linkNbMap.insert( make_pair ( link, 1 ));
|
||||
else
|
||||
link_nb->second++;
|
||||
const SMDS_MeshNode* n1 = elem->GetNode( iN );
|
||||
const SMDS_MeshNode* n2 = elem->GetNode(( iN+1 ) % nbn);
|
||||
SMESH_TLink link( n1, n2 );
|
||||
link_nb = linkNbMap.insert( make_pair( link, 0 )).first;
|
||||
link_nb->second++;
|
||||
}
|
||||
}
|
||||
// remove nodes that are in links encountered only once from setMovableNodes
|
||||
for ( link_nb = linkNbMap.begin(); link_nb != linkNbMap.end(); ++link_nb ) {
|
||||
if ( link_nb->second == 1 ) {
|
||||
setMovableNodes.erase( link_nb->first.first );
|
||||
setMovableNodes.erase( link_nb->first.second );
|
||||
setMovableNodes.erase( link_nb->first.node1() );
|
||||
setMovableNodes.erase( link_nb->first.node2() );
|
||||
}
|
||||
}
|
||||
}
|
||||
@ -4120,7 +4115,7 @@ void SMESH_MeshEditor::makeWalls (TNodeOfNodeListMap & mapNewNodes,
|
||||
if ( f )
|
||||
aMesh->ChangeElementNodes( f, &polygon_nodes[0], nbn );
|
||||
else
|
||||
myLastCreatedElems.Append(aMesh->AddPolygonalFace(polygon_nodes));
|
||||
AddElement(polygon_nodes, SMDSAbs_Face, polygon_nodes.size()>4);
|
||||
}
|
||||
}
|
||||
|
||||
@ -11578,13 +11573,12 @@ namespace
|
||||
* \param group - a group to store created boundary elements in
|
||||
* \param targetMesh - a mesh to store created boundary elements in
|
||||
* \param toCopyElements - if true, the checked elements will be copied into the targetMesh
|
||||
* \param toCopyExistingBondary - if true, not only new but also pre-existing
|
||||
* \param toCopyExistingBoundary - if true, not only new but also pre-existing
|
||||
* boundary elements will be copied into the targetMesh
|
||||
* \param toAddExistingBondary - if true, not only new but also pre-existing
|
||||
* boundary elements will be added into the new group
|
||||
* \param aroundElements - if true, elements will be created on boundary of given
|
||||
* elements else, on boundary of the whole mesh. This
|
||||
* option works for 2D elements only.
|
||||
* elements else, on boundary of the whole mesh.
|
||||
* \return nb of added boundary elements
|
||||
*/
|
||||
//================================================================================
|
||||
@ -11594,7 +11588,7 @@ int SMESH_MeshEditor::MakeBoundaryMesh(const TIDSortedElemSet& elements,
|
||||
SMESH_Group* group/*=0*/,
|
||||
SMESH_Mesh* targetMesh/*=0*/,
|
||||
bool toCopyElements/*=false*/,
|
||||
bool toCopyExistingBondary/*=false*/,
|
||||
bool toCopyExistingBoundary/*=false*/,
|
||||
bool toAddExistingBondary/*= false*/,
|
||||
bool aroundElements/*= false*/)
|
||||
{
|
||||
@ -11604,11 +11598,8 @@ int SMESH_MeshEditor::MakeBoundaryMesh(const TIDSortedElemSet& elements,
|
||||
if ( !elements.empty() && (*elements.begin())->GetType() != elemType )
|
||||
throw SALOME_Exception(LOCALIZED("wrong element type"));
|
||||
|
||||
if ( aroundElements && elemType == SMDSAbs_Volume )
|
||||
throw SALOME_Exception(LOCALIZED("wrong element type for aroundElements==true"));
|
||||
|
||||
if ( !targetMesh )
|
||||
toCopyElements = toCopyExistingBondary = false;
|
||||
toCopyElements = toCopyExistingBoundary = false;
|
||||
|
||||
SMESH_MeshEditor tgtEditor( targetMesh ? targetMesh : myMesh );
|
||||
SMESHDS_Mesh* aMesh = GetMeshDS(), *tgtMeshDS = tgtEditor.GetMeshDS();
|
||||
@ -11646,11 +11637,13 @@ int SMESH_MeshEditor::MakeBoundaryMesh(const TIDSortedElemSet& elements,
|
||||
if ( vTool.Set(elem) ) // elem is a volume ------------------------------------------
|
||||
{
|
||||
vTool.SetExternalNormal();
|
||||
const SMDS_MeshElement* otherVol = 0;
|
||||
for ( int iface = 0, n = vTool.NbFaces(); iface < n; iface++ )
|
||||
{
|
||||
if (!vTool.IsFreeFace(iface))
|
||||
if ( !vTool.IsFreeFace(iface, &otherVol) &&
|
||||
( !aroundElements || elements.count( otherVol )))
|
||||
continue;
|
||||
int nbFaceNodes = vTool.NbFaceNodes(iface);
|
||||
const int nbFaceNodes = vTool.NbFaceNodes(iface);
|
||||
const SMDS_MeshNode** nn = vTool.GetFaceNodes(iface);
|
||||
if ( missType == SMDSAbs_Edge ) // boundary edges
|
||||
{
|
||||
@ -11679,6 +11672,21 @@ int SMESH_MeshEditor::MakeBoundaryMesh(const TIDSortedElemSet& elements,
|
||||
presentBndElems.push_back( f );
|
||||
else
|
||||
missingBndElems.push_back( nodes );
|
||||
|
||||
if ( targetMesh != myMesh )
|
||||
{
|
||||
// add 1D elements on face boundary to be added to a new mesh
|
||||
const SMDS_MeshElement* edge;
|
||||
for ( inode = 0; inode < nbFaceNodes; inode += 1+iQuad)
|
||||
{
|
||||
if ( iQuad )
|
||||
edge = aMesh->FindEdge( nn[inode], nn[inode+1], nn[inode+2]);
|
||||
else
|
||||
edge = aMesh->FindEdge( nn[inode], nn[inode+1]);
|
||||
if ( edge && avoidSet.insert( edge ).second )
|
||||
presentBndElems.push_back( edge );
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
@ -11709,7 +11717,7 @@ int SMESH_MeshEditor::MakeBoundaryMesh(const TIDSortedElemSet& elements,
|
||||
// ---------------------------------
|
||||
if ( targetMesh != myMesh )
|
||||
// instead of making a map of nodes in this mesh and targetMesh,
|
||||
// we create nodes with same IDs. We can renumber them later, if needed
|
||||
// we create nodes with same IDs.
|
||||
for ( int i = 0; i < missingBndElems.size(); ++i )
|
||||
{
|
||||
TConnectivity& srcNodes = missingBndElems[i];
|
||||
@ -11738,14 +11746,14 @@ int SMESH_MeshEditor::MakeBoundaryMesh(const TIDSortedElemSet& elements,
|
||||
// ----------------------------------
|
||||
// 3. Copy present boundary elements
|
||||
// ----------------------------------
|
||||
if ( toCopyExistingBondary )
|
||||
if ( toCopyExistingBoundary )
|
||||
for ( int i = 0 ; i < presentBndElems.size(); ++i )
|
||||
{
|
||||
const SMDS_MeshElement* e = presentBndElems[i];
|
||||
TConnectivity nodes( e->NbNodes() );
|
||||
for ( inode = 0; inode < nodes.size(); ++inode )
|
||||
nodes[inode] = getNodeWithSameID( tgtMeshDS, e->GetNode(inode) );
|
||||
presentEditor->AddElement(nodes, missType, e->IsPoly());
|
||||
presentEditor->AddElement(nodes, e->GetType(), e->IsPoly());
|
||||
}
|
||||
else // store present elements to add them to a group
|
||||
for ( int i = 0 ; i < presentBndElems.size(); ++i )
|
||||
|
@ -194,7 +194,7 @@ void SMESH_MesherHelper::SetSubShape(const int aShID)
|
||||
{
|
||||
if ( aShID == myShapeID )
|
||||
return;
|
||||
if ( aShID > 1 )
|
||||
if ( aShID > 0 )
|
||||
SetSubShape( GetMeshDS()->IndexToShape( aShID ));
|
||||
else
|
||||
SetSubShape( TopoDS_Shape() );
|
||||
|
@ -3742,8 +3742,9 @@ void SMESHGUI::initialize( CAM_Application* app )
|
||||
popupMgr()->insert( separator(), -1, 0 );
|
||||
createPopupItem( 4043, OB, mesh ); // CLEAR_MESH
|
||||
popupMgr()->insert( separator(), -1, 0 );
|
||||
createPopupItem( 417, OB, mesh + " " + subMesh ); // convert to quadratic
|
||||
createPopupItem( 418, OB, mesh/*, "&& " + hasVolumes*/); // create 2D mesh on 3D
|
||||
createPopupItem( 417, OB, mesh + " " + subMesh ); // convert to quadratic
|
||||
createPopupItem( 418, OB, mesh + " " + group, // create 2D mesh from 3D
|
||||
"&& dim>=2");
|
||||
popupMgr()->insert( separator(), -1, 0 );
|
||||
|
||||
QString only_one_non_empty = QString( " && %1=1 && numberOfNodes>0" ).arg( dc );
|
||||
|
@ -107,8 +107,8 @@ bool SMESHGUI_PredicateFilter::IsObjValid( const int theObjId ) const
|
||||
if ( myActor == 0 || myPred->_is_nil() )
|
||||
return false;
|
||||
|
||||
SMESH_Actor* anActor = ( SMESH_Actor* )myActor;
|
||||
if ( anActor->GetObject() == 0 )
|
||||
SMESH_Actor* anActor = dynamic_cast< SMESH_Actor* >( myActor );
|
||||
if ( !anActor || anActor->GetObject() == 0 )
|
||||
return false;
|
||||
|
||||
SMDS_Mesh* aMesh = anActor->GetObject()->GetMesh();
|
||||
@ -211,8 +211,8 @@ bool SMESHGUI_QuadrangleFilter::IsValid( const int theCellId ) const
|
||||
if ( myActor == 0 )
|
||||
return false;
|
||||
|
||||
SMESH_Actor* anActor = ( SMESH_Actor* )myActor;
|
||||
if ( anActor->GetObject() == 0 )
|
||||
SMESH_Actor* anActor = dynamic_cast< SMESH_Actor* >( myActor );
|
||||
if ( !anActor || anActor->GetObject() == 0 )
|
||||
return false;
|
||||
|
||||
SMDS_Mesh* aMesh = anActor->GetObject()->GetMesh();
|
||||
@ -231,8 +231,8 @@ bool SMESHGUI_QuadrangleFilter::IsObjValid( const int theObjId ) const
|
||||
if ( myActor == 0 )
|
||||
return false;
|
||||
|
||||
SMESH_Actor* anActor = ( SMESH_Actor* )myActor;
|
||||
if ( anActor->GetObject() == 0 )
|
||||
SMESH_Actor* anActor = dynamic_cast< SMESH_Actor* >( myActor );
|
||||
if ( !anActor || anActor->GetObject() == 0 )
|
||||
return false;
|
||||
|
||||
SMDS_Mesh* aMesh = anActor->GetObject()->GetMesh();
|
||||
@ -290,8 +290,8 @@ bool SMESHGUI_TriangleFilter::IsValid( const int theCellId ) const
|
||||
if ( myActor == 0 )
|
||||
return false;
|
||||
|
||||
SMESH_Actor* anActor = ( SMESH_Actor* )myActor;
|
||||
if ( anActor->GetObject() == 0 )
|
||||
SMESH_Actor* anActor = dynamic_cast< SMESH_Actor* >( myActor );
|
||||
if ( !anActor || anActor->GetObject() == 0 )
|
||||
return false;
|
||||
|
||||
SMDS_Mesh* aMesh = anActor->GetObject()->GetMesh();
|
||||
@ -310,8 +310,8 @@ bool SMESHGUI_TriangleFilter::IsObjValid( const int theObjId ) const
|
||||
if ( myActor == 0 )
|
||||
return false;
|
||||
|
||||
SMESH_Actor* anActor = ( SMESH_Actor* )myActor;
|
||||
if ( anActor->GetObject() == 0 )
|
||||
SMESH_Actor* anActor = dynamic_cast< SMESH_Actor* >( myActor );
|
||||
if ( !anActor || anActor->GetObject() == 0 )
|
||||
return false;
|
||||
|
||||
SMDS_Mesh* aMesh = anActor->GetObject()->GetMesh();
|
||||
@ -368,8 +368,8 @@ bool SMESHGUI_FacesFilter::IsValid( const int theCellId ) const
|
||||
if ( myActor == 0 )
|
||||
return false;
|
||||
|
||||
SMESH_Actor* anActor = ( SMESH_Actor* )myActor;
|
||||
if ( anActor->GetObject() == 0 )
|
||||
SMESH_Actor* anActor = dynamic_cast< SMESH_Actor* >( myActor );
|
||||
if ( !anActor || anActor->GetObject() == 0 )
|
||||
return false;
|
||||
|
||||
SMDS_Mesh* aMesh = anActor->GetObject()->GetMesh();
|
||||
@ -387,8 +387,8 @@ bool SMESHGUI_FacesFilter::IsObjValid( const int theObjId ) const
|
||||
if ( myActor == 0 )
|
||||
return false;
|
||||
|
||||
SMESH_Actor* anActor = ( SMESH_Actor* )myActor;
|
||||
if ( anActor->GetObject() == 0 )
|
||||
SMESH_Actor* anActor = dynamic_cast< SMESH_Actor* >( myActor );
|
||||
if ( !anActor || anActor->GetObject() == 0 )
|
||||
return false;
|
||||
|
||||
SMDS_Mesh* aMesh = anActor->GetObject()->GetMesh();
|
||||
@ -442,11 +442,11 @@ SMESHGUI_VolumesFilter::~SMESHGUI_VolumesFilter()
|
||||
//=======================================================================
|
||||
bool SMESHGUI_VolumesFilter::IsValid( const int theCellId ) const
|
||||
{
|
||||
if ( myActor == 0 )
|
||||
if ( myActor == 0 || theCellId < 1 )
|
||||
return false;
|
||||
|
||||
SMESH_Actor* anActor = ( SMESH_Actor* )myActor;
|
||||
if ( anActor->GetObject() == 0 )
|
||||
SMESH_Actor* anActor = dynamic_cast< SMESH_Actor* >( myActor );
|
||||
if ( !anActor || anActor->GetObject() == 0 )
|
||||
return false;
|
||||
|
||||
SMDS_Mesh* aMesh = anActor->GetObject()->GetMesh();
|
||||
@ -464,8 +464,8 @@ bool SMESHGUI_VolumesFilter::IsObjValid( const int theObjId ) const
|
||||
if ( myActor == 0 )
|
||||
return false;
|
||||
|
||||
SMESH_Actor* anActor = ( SMESH_Actor* )myActor;
|
||||
if ( anActor->GetObject() == 0 )
|
||||
SMESH_Actor* anActor = dynamic_cast< SMESH_Actor* >( myActor );
|
||||
if ( !anActor || anActor->GetObject() == 0 )
|
||||
return false;
|
||||
|
||||
SMDS_Mesh* aMesh = anActor->GetObject()->GetMesh();
|
||||
|
@ -26,6 +26,8 @@
|
||||
#include "SMESHGUI_MeshUtils.h"
|
||||
#include "SMESH_TypeFilter.hxx"
|
||||
#include "SMESH_LogicalFilter.hxx"
|
||||
#include "SMESHGUI_VTKUtils.h"
|
||||
#include "SMESH_Actor.h"
|
||||
|
||||
// SALOME GUI includes
|
||||
#include <LightApp_Application.h>
|
||||
@ -37,6 +39,7 @@
|
||||
#include <SUIT_OverrideCursor.h>
|
||||
#include <SUIT_Session.h>
|
||||
#include <SVTK_ViewModel.h>
|
||||
//#include <SVTK_ViewWindow.h>
|
||||
#include <SalomeApp_Study.h>
|
||||
#include <SalomeApp_Tools.h>
|
||||
|
||||
@ -53,6 +56,8 @@
|
||||
#include <QGridLayout>
|
||||
#include <QToolButton>
|
||||
|
||||
#include <Standard_ErrorHandler.hxx>
|
||||
|
||||
#define SPACING 6
|
||||
#define MARGIN 11
|
||||
|
||||
@ -74,16 +79,22 @@ SMESHGUI_Make2DFrom3DDlg::SMESHGUI_Make2DFrom3DDlg( QWidget* parent )
|
||||
aModeGrpLayout->setSpacing( SPACING );
|
||||
my2dFrom3dRB = new QRadioButton( tr( "2D_FROM_3D" ), aModeGrp );
|
||||
my1dFrom2dRB = new QRadioButton( tr( "1D_FROM_2D" ), aModeGrp );
|
||||
my1dFrom3dRB = new QRadioButton( tr( "1D_FROM_3D" ), aModeGrp );
|
||||
//my1dFrom3dRB = new QRadioButton( tr( "1D_FROM_3D" ), aModeGrp );
|
||||
aModeGrpLayout->addWidget( my2dFrom3dRB );
|
||||
aModeGrpLayout->addWidget( my1dFrom2dRB );
|
||||
aModeGrpLayout->addWidget( my1dFrom3dRB );
|
||||
//aModeGrpLayout->addWidget( my1dFrom3dRB );
|
||||
|
||||
// Groups of mesh faces
|
||||
setObjectPixmap( "SMESH", tr( "ICON_SELECT" ) );
|
||||
createObject( tr( "Groups" ), mainFrame(), Groups );
|
||||
setNameIndication( Groups, ListOfNames );
|
||||
objectWg( Groups, Btn )->hide();
|
||||
// // Groups of mesh faces
|
||||
// setObjectPixmap( "SMESH", tr( "ICON_SELECT" ) );
|
||||
// createObject( tr( "Groups" ), mainFrame(), Groups );
|
||||
// setNameIndication( Groups, ListOfNames );
|
||||
// objectWg( Groups, Btn )->hide();
|
||||
|
||||
// Mesh or Groups
|
||||
//setObjectPixmap( "SMESH", tr( "ICON_SELECT" ) );
|
||||
createObject( tr( "Groups" ), mainFrame(), MeshOrGroups );
|
||||
setNameIndication( MeshOrGroups, ListOfNames );
|
||||
objectWg( MeshOrGroups, Btn )->hide();
|
||||
|
||||
// target
|
||||
QGroupBox* aTargetGrp = new QGroupBox( tr( "TARGET" ), mainFrame() );
|
||||
@ -106,8 +117,8 @@ SMESHGUI_Make2DFrom3DDlg::SMESHGUI_Make2DFrom3DDlg( QWidget* parent )
|
||||
aDlgLay->setMargin( 0 );
|
||||
aDlgLay->setSpacing( SPACING );
|
||||
aDlgLay->addWidget( aModeGrp, 0, 0, 1, 3 );
|
||||
aDlgLay->addWidget( objectWg( Groups, Label ), 1, 0 );
|
||||
aDlgLay->addWidget( objectWg( Groups, Control ), 1, 1 );
|
||||
aDlgLay->addWidget( objectWg( MeshOrGroups, Label ), 1, 0 );
|
||||
aDlgLay->addWidget( objectWg( MeshOrGroups, Control ), 1, 1 );
|
||||
aDlgLay->addWidget( aTargetGrp, 2, 0, 1, 3 );
|
||||
aDlgLay->addWidget( myGroupCheck, 3, 0 );
|
||||
aDlgLay->addWidget( myGroupName, 3, 1, 1, 2 );
|
||||
@ -153,6 +164,21 @@ void SMESHGUI_Make2DFrom3DDlg::setNewMeshName( const QString& name )
|
||||
myMeshName->setText( name );
|
||||
}
|
||||
|
||||
void SMESHGUI_Make2DFrom3DDlg::setNewMeshEnabled( bool enable )
|
||||
{
|
||||
if ( !enable )
|
||||
myThisMeshRB->setChecked( true );
|
||||
|
||||
myNewMeshRB->setEnabled( enable );
|
||||
|
||||
onTargetChanged();
|
||||
}
|
||||
|
||||
bool SMESHGUI_Make2DFrom3DDlg::getNewMeshEnabled() const
|
||||
{
|
||||
return myNewMeshRB->isEnabled();
|
||||
}
|
||||
|
||||
bool SMESHGUI_Make2DFrom3DDlg::needGroup() const
|
||||
{
|
||||
return myGroupCheck->isChecked();
|
||||
@ -190,7 +216,9 @@ void SMESHGUI_Make2DFrom3DDlg::onGroupChecked()
|
||||
*/
|
||||
|
||||
SMESHGUI_Make2DFrom3DOp::SMESHGUI_Make2DFrom3DOp()
|
||||
: SMESHGUI_SelectionOp()
|
||||
: SMESHGUI_SelectionOp(),
|
||||
myMeshFilter(MESH),
|
||||
myGroupFilter(GROUP)
|
||||
{
|
||||
}
|
||||
|
||||
@ -220,33 +248,43 @@ void SMESHGUI_Make2DFrom3DOp::startOperation()
|
||||
|
||||
connect( myDlg->my2dFrom3dRB, SIGNAL( toggled(bool) ), this, SLOT( onModeChanged() ) );
|
||||
connect( myDlg->my1dFrom2dRB, SIGNAL( toggled(bool) ), this, SLOT( onModeChanged() ) );
|
||||
connect( myDlg->my1dFrom3dRB, SIGNAL( toggled(bool) ), this, SLOT( onModeChanged() ) );
|
||||
//connect( myDlg->my1dFrom3dRB, SIGNAL( toggled(bool) ), this, SLOT( onModeChanged() ) );
|
||||
|
||||
onModeChanged();
|
||||
//onModeChanged();
|
||||
|
||||
myDlg->activateObject( SMESHGUI_Make2DFrom3DDlg::MeshOrGroups );
|
||||
selectionDone();
|
||||
}
|
||||
|
||||
//================================================================================
|
||||
/*!
|
||||
* \brief Set filter corresponding to dimension
|
||||
*/
|
||||
//================================================================================
|
||||
|
||||
void SMESHGUI_Make2DFrom3DOp::onModeChanged()
|
||||
{
|
||||
QRadioButton* b = dynamic_cast<QRadioButton*>( sender());
|
||||
if ( b && !b->isChecked() )
|
||||
return;
|
||||
// QRadioButton* b = dynamic_cast<QRadioButton*>( sender());
|
||||
// if ( b && !b->isChecked() )
|
||||
// return;
|
||||
|
||||
// enable "2D groups" field
|
||||
bool enableGroups = ( myDlg->mode() == SMESH::BND_1DFROM3D );
|
||||
myDlg->setObjectEnabled( SMESHGUI_Make2DFrom3DDlg::Groups, enableGroups );
|
||||
((QToolButton*) myDlg->objectWg( SMESHGUI_Make2DFrom3DDlg::Groups,
|
||||
SMESHGUI_Make2DFrom3DDlg::Btn ))->setChecked( enableGroups );
|
||||
// // enable "2D groups" field
|
||||
// bool enableGroups = ( myDlg->mode() == SMESH::BND_1DFROM3D );
|
||||
// myDlg->setObjectEnabled( SMESHGUI_Make2DFrom3DDlg::Groups, enableGroups );
|
||||
// ((QToolButton*) myDlg->objectWg( SMESHGUI_Make2DFrom3DDlg::Groups,
|
||||
// SMESHGUI_Make2DFrom3DDlg::Btn ))->setChecked( enableGroups );
|
||||
|
||||
// install filter
|
||||
int id = enableGroups ? SMESHGUI_Make2DFrom3DDlg::Groups : SMESHGUI_Make2DFrom3DDlg::Mesh;
|
||||
onDeactivateObject( id );
|
||||
onActivateObject( id );
|
||||
// // install filter
|
||||
// int id = enableGroups ? SMESHGUI_Make2DFrom3DDlg::Groups : SMESHGUI_Make2DFrom3DDlg::Mesh;
|
||||
// onDeactivateObject( SMESHGUI_Make2DFrom3DDlg::MeshOrGroups );
|
||||
// onActivateObject ( SMESHGUI_Make2DFrom3DDlg::MeshOrGroups );
|
||||
// selectionDone();
|
||||
}
|
||||
|
||||
void SMESHGUI_Make2DFrom3DOp::selectionDone()
|
||||
{
|
||||
myDlg->clearSelection( SMESHGUI_Make2DFrom3DDlg::MeshOrGroups );
|
||||
mySrcMesh = SMESH::SMESH_Mesh::_nil();
|
||||
myDlg->clearSelection( SMESHGUI_Make2DFrom3DDlg::Groups );
|
||||
|
||||
if ( !dlg() ) return;
|
||||
|
||||
@ -258,13 +296,16 @@ void SMESHGUI_Make2DFrom3DOp::selectionDone()
|
||||
selected( names, types, ids );
|
||||
myDlg->selectObject( names, types, ids );
|
||||
|
||||
SALOME_ListIO sel; selectionMgr()->selectedObjects( sel, SVTK_Viewer::Type() );
|
||||
if ( !sel.IsEmpty() )
|
||||
// enable/desable "new mesh" button
|
||||
bool isMesh = true;
|
||||
for ( int i = 0; i < ids.count() && isMesh; ++i )
|
||||
{
|
||||
SMESH::SMESH_IDSource_var IS = SMESH::IObjectToInterface<SMESH::SMESH_IDSource>(sel.First());
|
||||
if(!CORBA::is_nil(IS))
|
||||
mySrcMesh = IS->GetMesh();
|
||||
_PTR(SObject) sobj =
|
||||
SMESHGUI::activeStudy()->studyDS()->FindObjectID( ids[i].toLatin1().constData() );
|
||||
mySrcMesh = SMESH::SObjectToInterface<SMESH::SMESH_Mesh>( sobj );
|
||||
isMesh = !mySrcMesh->_is_nil();
|
||||
}
|
||||
myDlg->setNewMeshEnabled( isMesh );
|
||||
}
|
||||
catch ( const SALOME::SALOME_Exception& S_ex ) {
|
||||
SalomeApp_Tools::QtCatchCorbaException( S_ex );
|
||||
@ -276,8 +317,13 @@ void SMESHGUI_Make2DFrom3DOp::selectionDone()
|
||||
|
||||
SUIT_SelectionFilter* SMESHGUI_Make2DFrom3DOp::createFilter( const int theId ) const
|
||||
{
|
||||
MeshObjectType type = ( theId == SMESHGUI_Make2DFrom3DDlg::Groups ? GROUP_FACE : MESH );
|
||||
SUIT_SelectionFilter* f = new SMESH_TypeFilter( type );
|
||||
SMESHGUI_Make2DFrom3DOp* me = (SMESHGUI_Make2DFrom3DOp*) this;
|
||||
|
||||
QList<SUIT_SelectionFilter*> subFilters;
|
||||
subFilters.append( & me->myMeshFilter );
|
||||
subFilters.append( & me->myGroupFilter );
|
||||
|
||||
SUIT_SelectionFilter* f = new SMESH_LogicalFilter( subFilters, SMESH_LogicalFilter::LO_OR );
|
||||
return f;
|
||||
}
|
||||
|
||||
@ -286,43 +332,61 @@ bool SMESHGUI_Make2DFrom3DOp::isValid( QString& msg ) const
|
||||
if ( !dlg() ) return false;
|
||||
|
||||
// check if a mesh is selected
|
||||
if ( mySrcMesh->_is_nil() )
|
||||
if ( !myDlg->hasSelection( SMESHGUI_Make2DFrom3DDlg::MeshOrGroups ))
|
||||
{
|
||||
msg = tr( "SMESH_ERR_NO_INPUT_MESH" );
|
||||
return false;
|
||||
}
|
||||
// check if groups are selected
|
||||
SMESH::Bnd_Dimension mode = myDlg->mode();
|
||||
if ( mode == SMESH::BND_1DFROM3D )
|
||||
QStringList entries;
|
||||
dlg()->selectedObject( SMESHGUI_Make2DFrom3DDlg::MeshOrGroups, entries );
|
||||
const bool isMeshSelected = ( !mySrcMesh->_is_nil() );
|
||||
if ( isMeshSelected )
|
||||
{
|
||||
SMESH::SMESH_GroupBase_var grp;
|
||||
QStringList entries;
|
||||
dlg()->selectedObject( SMESHGUI_Make2DFrom3DDlg::Groups, entries );
|
||||
if ( !entries.isEmpty() )
|
||||
{
|
||||
_PTR(SObject) sobj = SMESHGUI::activeStudy()->studyDS()->FindObjectID( entries[0].toLatin1().constData() );
|
||||
if ( sobj )
|
||||
grp = SMESH::SObjectToInterface<SMESH::SMESH_GroupBase>( sobj );
|
||||
}
|
||||
if ( grp->_is_nil() ) {
|
||||
msg = tr( "SMESH_ERR_NO_INPUT_GROUP" );
|
||||
// only one mesh is allowed
|
||||
if ( entries.size() > 1 ) {
|
||||
msg = tr( "SMESH_TOO_MANY_MESHES" );
|
||||
return false;
|
||||
}
|
||||
}
|
||||
else
|
||||
{
|
||||
// check if mesh contains elements of required type
|
||||
SMESH::Bnd_Dimension mode = myDlg->mode();
|
||||
|
||||
if ( mode == SMESH::BND_2DFROM3D && mySrcMesh->NbVolumes() == 0 ) {
|
||||
msg = tr( "SMESH_ERR_NO_3D_ELEMENTS" );
|
||||
return false;
|
||||
// check if only groups are selected
|
||||
for ( int i = 0; i < entries.count(); ++i )
|
||||
{
|
||||
SMESH::SMESH_GroupBase_var grp;
|
||||
if ( _PTR(SObject) sobj = SMESHGUI::activeStudy()->studyDS()->FindObjectID( entries[i].toLatin1().constData() ))
|
||||
grp = SMESH::SObjectToInterface<SMESH::SMESH_GroupBase>( sobj );
|
||||
if ( grp->_is_nil() ) {
|
||||
msg = tr( "SMESH_NOT_ONLY_GROUPS" );
|
||||
return false;
|
||||
}
|
||||
}
|
||||
else if ( mode == SMESH::BND_1DFROM2D && mySrcMesh->NbFaces() == 0 ) {
|
||||
msg = tr( "SMESH_ERR_NO_2D_ELEMENTS" );
|
||||
return false;
|
||||
}
|
||||
// check if the selected objects contains elements of required type
|
||||
bool hasFaces = false, hasVolumes = false;
|
||||
SMESH::Bnd_Dimension mode = myDlg->mode();
|
||||
for ( int i = 0; i < entries.count(); ++i )
|
||||
{
|
||||
SMESH::SMESH_IDSource_var idSource;
|
||||
if ( _PTR(SObject) sobj = SMESHGUI::activeStudy()->studyDS()->FindObjectID( entries[i].toLatin1().constData() ))
|
||||
idSource = SMESH::SObjectToInterface<SMESH::SMESH_IDSource>( sobj );
|
||||
if ( !idSource->_is_nil() ) {
|
||||
SMESH::array_of_ElementType_var types = idSource->GetTypes();
|
||||
for ( int j = 0; j < types->length(); ++j )
|
||||
if ( types[j] == SMESH::VOLUME )
|
||||
hasVolumes = true;
|
||||
else if ( types[j] == SMESH::FACE )
|
||||
hasFaces = true;
|
||||
}
|
||||
}
|
||||
if ( mode == SMESH::BND_2DFROM3D && !hasVolumes ) {
|
||||
msg = tr( "SMESH_ERR_NO_3D_ELEMENTS" );
|
||||
return false;
|
||||
}
|
||||
else if ( mode == SMESH::BND_1DFROM2D && !hasFaces ) {
|
||||
msg = tr( "SMESH_ERR_NO_2D_ELEMENTS" );
|
||||
return false;
|
||||
}
|
||||
|
||||
// check if new mesh name is specified
|
||||
if ( myDlg->needNewMesh() && myDlg->getNewMeshName().isEmpty() ) {
|
||||
@ -335,7 +399,7 @@ bool SMESHGUI_Make2DFrom3DOp::isValid( QString& msg ) const
|
||||
msg = tr( "SMESH_ERR_GRP_NAME_NOT_SPECIFIED" );
|
||||
return false;
|
||||
}
|
||||
|
||||
|
||||
return true;
|
||||
}
|
||||
|
||||
@ -345,20 +409,41 @@ bool SMESHGUI_Make2DFrom3DOp::compute2DMesh( QStringList& theEntryList )
|
||||
|
||||
bool ok = false;
|
||||
try {
|
||||
QStringList entries;
|
||||
dlg()->selectedObject( SMESHGUI_Make2DFrom3DDlg::Groups, entries );
|
||||
SMESH::ListOfIDSources_var groups = new SMESH::ListOfIDSources;
|
||||
groups->length( entries.count() );
|
||||
for ( int i = 0; i < entries.count(); ++i )
|
||||
{
|
||||
_PTR(SObject) sobj = SMESHGUI::activeStudy()->studyDS()->FindObjectID( entries[i].toLatin1().constData() );
|
||||
SMESH::SMESH_IDSource_var grp = SMESH::SObjectToInterface<SMESH::SMESH_IDSource>( sobj );
|
||||
groups[i] = grp;
|
||||
}
|
||||
SMESH::Bnd_Dimension mode = myDlg->mode();
|
||||
QString meshName = myDlg->needNewMesh() ? myDlg->getNewMeshName() : QString();
|
||||
QString groupName = myDlg->needGroup() ? myDlg->getGroupName() : QString();
|
||||
bool copyAll = myDlg->copySource();
|
||||
QString meshName = myDlg->needNewMesh() ? myDlg->getNewMeshName() : QString();
|
||||
QString groupName = myDlg->needGroup() ? myDlg->getGroupName() : QString();
|
||||
bool copyAll = myDlg->copySource();
|
||||
|
||||
QStringList entries;
|
||||
dlg()->selectedObject( SMESHGUI_Make2DFrom3DDlg::MeshOrGroups, entries );
|
||||
SMESH::ListOfIDSources_var groups = new SMESH::ListOfIDSources;
|
||||
QString wrongGroups = "";
|
||||
|
||||
if ( mySrcMesh->_is_nil() ) // get selected groups, find groups of wrong type
|
||||
{
|
||||
int nbGroups = 0;
|
||||
int goodType = ( mode == SMESH::BND_2DFROM3D ? SMESH::VOLUME : SMESH::FACE );
|
||||
groups->length( entries.count() );
|
||||
for ( int i = 0; i < entries.count(); ++i )
|
||||
{
|
||||
_PTR(SObject) sobj =
|
||||
SMESHGUI::activeStudy()->studyDS()->FindObjectID( entries[i].toLatin1().constData() );
|
||||
SMESH::SMESH_IDSource_var grp = SMESH::SObjectToInterface<SMESH::SMESH_IDSource>( sobj );
|
||||
SMESH::array_of_ElementType_var types = grp->GetTypes();
|
||||
if ( types->length() < 1 || types[0] != goodType )
|
||||
{
|
||||
if ( !wrongGroups.isEmpty() )
|
||||
wrongGroups += ", ";
|
||||
wrongGroups += sobj->GetName().c_str();
|
||||
}
|
||||
else
|
||||
{
|
||||
groups[ nbGroups++ ] = grp;
|
||||
}
|
||||
}
|
||||
groups->length( nbGroups );
|
||||
mySrcMesh = groups[0]->GetMesh();
|
||||
}
|
||||
|
||||
if ( !CORBA::is_nil( mySrcMesh ) ) {
|
||||
SMESH::SMESH_MeshEditor_var aMeshEditor = mySrcMesh->GetMeshEditor();
|
||||
@ -371,9 +456,11 @@ bool SMESHGUI_Make2DFrom3DOp::compute2DMesh( QStringList& theEntryList )
|
||||
groups,
|
||||
newMesh.out(),
|
||||
newGrp.out() );
|
||||
SUIT_MessageBox::information( myDlg,
|
||||
tr("SMESH_INFORMATION"),
|
||||
tr("NB_ADDED").arg( nbAdded ));
|
||||
QString msg = tr("NB_ADDED").arg( nbAdded );
|
||||
if ( !wrongGroups.isEmpty() )
|
||||
msg += ".\n" + tr("WRONG_GROUPS").arg( wrongGroups );
|
||||
SUIT_MessageBox::information( myDlg, tr("SMESH_INFORMATION"), msg);
|
||||
|
||||
if ( !newMesh->_is_nil() ) {
|
||||
if( _PTR(SObject) aSObject = SMESH::ObjectToSObject( newMesh ) )
|
||||
theEntryList.append( aSObject->GetID().c_str() );
|
||||
@ -387,6 +474,11 @@ bool SMESHGUI_Make2DFrom3DOp::compute2DMesh( QStringList& theEntryList )
|
||||
#endif
|
||||
}
|
||||
ok = true;
|
||||
|
||||
for ( int i = 0; i < entries.count(); ++i )
|
||||
if ( SMESH_Actor* actor = SMESH::FindActorByEntry( entries[i].toLatin1().constData() ))
|
||||
SMESH::Update(actor->getIO(),actor->GetVisibility());
|
||||
SMESH::RepaintCurrentView();
|
||||
}
|
||||
}
|
||||
catch ( ... ) {
|
||||
|
@ -26,6 +26,7 @@
|
||||
#include "SMESH_SMESHGUI.hxx"
|
||||
#include "SMESHGUI_Dialog.h"
|
||||
#include "SMESHGUI_SelectionOp.h"
|
||||
#include "SMESH_TypeFilter.hxx"
|
||||
|
||||
#include <SALOMEconfig.h>
|
||||
#include CORBA_SERVER_HEADER(SMESH_MeshEditor)
|
||||
@ -45,7 +46,7 @@ class SMESHGUI_EXPORT SMESHGUI_Make2DFrom3DDlg : public SMESHGUI_Dialog
|
||||
Q_OBJECT
|
||||
|
||||
public:
|
||||
enum { Mesh, Groups };
|
||||
enum { MeshOrGroups };
|
||||
|
||||
SMESHGUI_Make2DFrom3DDlg( QWidget* );
|
||||
virtual ~SMESHGUI_Make2DFrom3DDlg();
|
||||
@ -55,6 +56,8 @@ public:
|
||||
bool needNewMesh() const;
|
||||
QString getNewMeshName() const;
|
||||
void setNewMeshName( const QString& );
|
||||
void setNewMeshEnabled( bool );
|
||||
bool getNewMeshEnabled() const;
|
||||
|
||||
bool needGroup() const;
|
||||
QString getGroupName() const;
|
||||
@ -110,6 +113,9 @@ private:
|
||||
private:
|
||||
SMESH::SMESH_Mesh_var mySrcMesh;
|
||||
QPointer<SMESHGUI_Make2DFrom3DDlg> myDlg;
|
||||
|
||||
SMESH_TypeFilter myMeshFilter;
|
||||
SMESH_TypeFilter myGroupFilter;
|
||||
};
|
||||
|
||||
#endif // SMESHGUI_Make2DFrom3DOp_H
|
||||
|
@ -682,6 +682,8 @@ bool SMESHGUI_MergeDlg::ClickOnApply()
|
||||
} catch(...) {
|
||||
}
|
||||
|
||||
ListCoincident->clear();
|
||||
|
||||
SMESH::UpdateView();
|
||||
SMESHGUI::Modified();
|
||||
|
||||
|
@ -5617,7 +5617,7 @@ It is impossible to read point coordinates from file</translation>
|
||||
</message>
|
||||
<message>
|
||||
<source>Groups</source>
|
||||
<translation>2D groups</translation>
|
||||
<translation>Mesh or groups</translation>
|
||||
</message>
|
||||
<message>
|
||||
<source>MODE</source>
|
||||
@ -5666,21 +5666,31 @@ It is impossible to read point coordinates from file</translation>
|
||||
<source>NB_ADDED</source>
|
||||
<translation>%1 boundary elements have been added</translation>
|
||||
</message>
|
||||
<message>
|
||||
<source>WRONG_GROUPS</source>
|
||||
<translation>The following groups have not been processed
|
||||
as they are of improper type:
|
||||
%1</translation>
|
||||
</message>
|
||||
<message>
|
||||
<source>SMESH_ERR_NO_INPUT_MESH</source>
|
||||
<translation>Source mesh is not specified</translation>
|
||||
</message>
|
||||
<message>
|
||||
<source>SMESH_ERR_NO_INPUT_GROUP</source>
|
||||
<translation>2D group is not specified</translation>
|
||||
<source>SMESH_TOO_MANY_MESHES</source>
|
||||
<translation>Only one mesh can be processed at once</translation>
|
||||
</message>
|
||||
<message>
|
||||
<source>SMESH_NOT_ONLY_GROUPS</source>
|
||||
<translation>Can't process meshes and groups at once</translation>
|
||||
</message>
|
||||
<message>
|
||||
<source>SMESH_ERR_NO_3D_ELEMENTS</source>
|
||||
<translation>The source object does not contain 3D elements</translation>
|
||||
<translation>The source objects do not contain 3D elements</translation>
|
||||
</message>
|
||||
<message>
|
||||
<source>SMESH_ERR_NO_2D_ELEMENTS</source>
|
||||
<translation>The source object does not contain 2D elements</translation>
|
||||
<translation>The source objects do not contain 2D elements</translation>
|
||||
</message>
|
||||
<message>
|
||||
<source>SMESH_ERR_MESH_NAME_NOT_SPECIFIED</source>
|
||||
|
@ -632,7 +632,10 @@ SALOMEDS::SObject_ptr SMESH_Gen_i::PublishSubMesh (SALOMEDS::Study_ptr theS
|
||||
SetName( aRootSO, aRootName );
|
||||
|
||||
// Add new submesh to corresponding sub-tree
|
||||
aSubMeshSO = publish (theStudy, theSubMesh, aRootSO, 0, "ICON_SMESH_TREE_MESH_WARN");
|
||||
SMESH::array_of_ElementType_var elemTypes = theSubMesh->GetTypes();
|
||||
const int isEmpty = ( elemTypes->length() == 0 );
|
||||
const char* pm[2] = { "ICON_SMESH_TREE_MESH", "ICON_SMESH_TREE_MESH_WARN" };
|
||||
aSubMeshSO = publish (theStudy, theSubMesh, aRootSO, 0, pm[isEmpty] );
|
||||
if ( aSubMeshSO->_is_nil() )
|
||||
return aSubMeshSO._retn();
|
||||
}
|
||||
|
@ -592,8 +592,12 @@ SMESH::long_array* SMESH_GroupBase_i::GetIDs()
|
||||
SMESH::array_of_ElementType* SMESH_GroupBase_i::GetTypes()
|
||||
{
|
||||
SMESH::array_of_ElementType_var types = new SMESH::array_of_ElementType;
|
||||
types->length( 1 );
|
||||
types[0] = GetType();
|
||||
if ( SMESHDS_GroupBase* ds = GetGroupDS() )
|
||||
if ( !ds->IsEmpty() )
|
||||
{
|
||||
types->length( 1 );
|
||||
types[0] = GetType();
|
||||
}
|
||||
return types._retn();
|
||||
}
|
||||
|
||||
|
@ -432,8 +432,10 @@ struct _IDSource : public POA_SMESH::SMESH_IDSource
|
||||
SMESH::array_of_ElementType* GetTypes()
|
||||
{
|
||||
SMESH::array_of_ElementType_var types = new SMESH::array_of_ElementType;
|
||||
types->length( 1 );
|
||||
types[0] = _type;
|
||||
if ( _ids.length() > 0 ) {
|
||||
types->length( 1 );
|
||||
types[0] = _type;
|
||||
}
|
||||
return types._retn();
|
||||
}
|
||||
};
|
||||
@ -5881,20 +5883,37 @@ CORBA::Long SMESH_MeshEditor_i::MakeBoundaryElements(SMESH::Bnd_Dimension dim,
|
||||
if ( dim > SMESH::BND_1DFROM2D )
|
||||
THROW_SALOME_CORBA_EXCEPTION("Invalid boundary dimension", SALOME::BAD_PARAM);
|
||||
|
||||
// check that groups belongs to to this mesh and is not this mesh
|
||||
const int nbGroups = groups.length();
|
||||
for ( int i = 0; i < nbGroups; ++i )
|
||||
// separate groups belonging to this and other mesh
|
||||
SMESH::ListOfIDSources_var groupsOfThisMesh = new SMESH::ListOfIDSources;
|
||||
SMESH::ListOfIDSources_var groupsOfOtherMesh = new SMESH::ListOfIDSources;
|
||||
groupsOfThisMesh->length( groups.length() );
|
||||
groupsOfOtherMesh->length( groups.length() );
|
||||
int nbGroups = 0, nbGroupsOfOtherMesh = 0;
|
||||
for ( int i = 0; i < groups.length(); ++i )
|
||||
{
|
||||
SMESH::SMESH_Mesh_var m = groups[i]->GetMesh();
|
||||
if ( myMesh_i != SMESH::DownCast<SMESH_Mesh_i*>( m ))
|
||||
THROW_SALOME_CORBA_EXCEPTION("group does not belong to this mesh", SALOME::BAD_PARAM);
|
||||
groupsOfOtherMesh[ nbGroupsOfOtherMesh++ ] = groups[i];
|
||||
else
|
||||
groupsOfThisMesh[ nbGroups++ ] = groups[i];
|
||||
if ( SMESH::DownCast<SMESH_Mesh_i*>( groups[i] ))
|
||||
THROW_SALOME_CORBA_EXCEPTION("expect a group but recieve a mesh", SALOME::BAD_PARAM);
|
||||
}
|
||||
|
||||
TPythonDump pyDump;
|
||||
groupsOfThisMesh->length( nbGroups );
|
||||
groupsOfOtherMesh->length( nbGroupsOfOtherMesh );
|
||||
|
||||
int nbAdded = 0;
|
||||
TPythonDump pyDump;
|
||||
|
||||
if ( nbGroupsOfOtherMesh > 0 )
|
||||
{
|
||||
// process groups belonging to another mesh
|
||||
SMESH::SMESH_Mesh_var otherMesh = groupsOfOtherMesh[0]->GetMesh();
|
||||
SMESH::SMESH_MeshEditor_var editor = otherMesh->GetMeshEditor();
|
||||
nbAdded += editor->MakeBoundaryElements( dim, groupName, meshName, toCopyAll,
|
||||
groupsOfOtherMesh, mesh, group );
|
||||
}
|
||||
|
||||
SMESH::SMESH_Mesh_var mesh_var;
|
||||
SMESH::SMESH_Group_var group_var;
|
||||
|
||||
@ -5931,12 +5950,12 @@ CORBA::Long SMESH_MeshEditor_i::MakeBoundaryElements(SMESH::Bnd_Dimension dim,
|
||||
|
||||
TIDSortedElemSet elements;
|
||||
|
||||
if ( nbGroups > 0 )
|
||||
if ( groups.length() > 0 )
|
||||
{
|
||||
for ( int i = 0; i < nbGroups; ++i )
|
||||
{
|
||||
elements.clear();
|
||||
if ( idSourceToSet( groups[i], srcMeshDS, elements, elemType,/*emptyIfIsMesh=*/false ))
|
||||
if ( idSourceToSet( groupsOfThisMesh[i], srcMeshDS, elements, elemType,/*emptyIfIsMesh=*/0 ))
|
||||
{
|
||||
SMESH::Bnd_Dimension bdim =
|
||||
( elemType == SMDSAbs_Volume ) ? SMESH::BND_2DFROM3D : SMESH::BND_1DFROM2D;
|
||||
|
@ -557,23 +557,27 @@ SMESH::array_of_ElementType* SMESH_subMesh_i::GetTypes()
|
||||
SMESH::array_of_ElementType_var types = new SMESH::array_of_ElementType;
|
||||
|
||||
::SMESH_subMesh* aSubMesh = _mesh_i->_mapSubMesh[_localId];
|
||||
TopoDS_Shape shape = aSubMesh->GetSubShape();
|
||||
while ( !shape.IsNull() && shape.ShapeType() == TopAbs_COMPOUND )
|
||||
if ( SMESHDS_SubMesh* smDS = aSubMesh->GetSubMeshDS() )
|
||||
{
|
||||
TopoDS_Iterator it( shape );
|
||||
shape = it.More() ? it.Value() : TopoDS_Shape();
|
||||
}
|
||||
if ( !shape.IsNull() )
|
||||
{
|
||||
types->length( 1 );
|
||||
switch ( ::SMESH_Gen::GetShapeDim( shape ))
|
||||
SMDS_ElemIteratorPtr eIt = smDS->GetElements();
|
||||
if ( eIt->more() )
|
||||
{
|
||||
case 0: types[0] = SMESH::ELEM0D; break;
|
||||
case 1: types[0] = SMESH::EDGE; break;
|
||||
case 2: types[0] = SMESH::FACE; break;
|
||||
case 3: types[0] = SMESH::VOLUME; break;
|
||||
default:
|
||||
types->length(0);
|
||||
types->length( 1 );
|
||||
types[0] = SMESH::ElementType( eIt->next()->GetType());
|
||||
}
|
||||
else if ( smDS->GetNodes()->more() )
|
||||
{
|
||||
TopoDS_Shape shape = aSubMesh->GetSubShape();
|
||||
while ( !shape.IsNull() && shape.ShapeType() == TopAbs_COMPOUND )
|
||||
{
|
||||
TopoDS_Iterator it( shape );
|
||||
shape = it.More() ? it.Value() : TopoDS_Shape();
|
||||
}
|
||||
if ( !shape.IsNull() && shape.ShapeType() == TopAbs_VERTEX )
|
||||
{
|
||||
types->length( 1 );
|
||||
types[0] = SMESH::NODE;
|
||||
}
|
||||
}
|
||||
}
|
||||
return types._retn();
|
||||
|
@ -490,6 +490,25 @@ def CheckPlugin(plugin):
|
||||
return False
|
||||
return True
|
||||
|
||||
## Private method. Add geom (sub-shape of the main shape) into the study if not yet there
|
||||
def AssureGeomPublished(mesh, geom, name=''):
|
||||
if not isinstance( geom, geompyDC.GEOM._objref_GEOM_Object ):
|
||||
return
|
||||
if not geom.IsSame( mesh.geom ) and not geom.GetStudyEntry():
|
||||
## set the study
|
||||
studyID = mesh.smeshpyD.GetCurrentStudy()._get_StudyId()
|
||||
if studyID != mesh.geompyD.myStudyId:
|
||||
mesh.geompyD.init_geom( mesh.smeshpyD.GetCurrentStudy())
|
||||
## get a name
|
||||
if not name and geom.GetShapeType() != geompyDC.GEOM.COMPOUND:
|
||||
# for all groups SubShapeName() returns "Compound_-1"
|
||||
name = mesh.geompyD.SubShapeName(geom, mesh.geom)
|
||||
if not name:
|
||||
name = "%s_%s"%(geom.GetShapeType(), id(geom)%10000)
|
||||
## publish
|
||||
mesh.geompyD.addToStudyInFather( mesh.geom, geom, name )
|
||||
return
|
||||
|
||||
# end of l1_auxiliary
|
||||
## @}
|
||||
|
||||
@ -1164,19 +1183,7 @@ class Mesh:
|
||||
# @return an object of type SMESH_SubMesh, representing a part of mesh, which lies on the given shape
|
||||
# @ingroup l2_submeshes
|
||||
def GetSubMesh(self, geom, name):
|
||||
if not geom.IsSame( self.geom ) and not geom.GetStudyEntry():
|
||||
## set the study
|
||||
studyID = self.smeshpyD.GetCurrentStudy()._get_StudyId()
|
||||
if studyID != self.geompyD.myStudyId:
|
||||
self.geompyD.init_geom( self.smeshpyD.GetCurrentStudy())
|
||||
## get a name
|
||||
if not name and geom.GetShapeType() != geompyDC.GEOM.COMPOUND:
|
||||
# for all groups SubShapeName() returns "Compound_-1"
|
||||
name = self.geompyD.SubShapeName(geom, self.geom)
|
||||
if not name:
|
||||
name = "%s_%s"%(geom.GetShapeType(), id(geom)%10000)
|
||||
## publish
|
||||
self.geompyD.addToStudyInFather( self.geom, geom, name )
|
||||
AssureGeomPublished( self, geom, name )
|
||||
submesh = self.mesh.GetSubMesh( geom, name )
|
||||
return submesh
|
||||
|
||||
@ -1580,7 +1587,7 @@ class Mesh:
|
||||
salome.sg.updateObjBrowser(1)
|
||||
|
||||
## Computes a tetrahedral mesh using AutomaticLength + MEFISTO + NETGEN
|
||||
# @param fineness [0,-1] defines mesh fineness
|
||||
# @param fineness [0.0,1.0] defines mesh fineness
|
||||
# @return True or False
|
||||
# @ingroup l3_algos_basic
|
||||
def AutomaticTetrahedralization(self, fineness=0):
|
||||
@ -1597,7 +1604,7 @@ class Mesh:
|
||||
return self.Compute()
|
||||
|
||||
## Computes an hexahedral mesh using AutomaticLength + Quadrangle + Hexahedron
|
||||
# @param fineness [0,-1] defines mesh fineness
|
||||
# @param fineness [0.0, 1.0] defines mesh fineness
|
||||
# @return True or False
|
||||
# @ingroup l3_algos_basic
|
||||
def AutomaticHexahedralization(self, fineness=0):
|
||||
@ -1667,8 +1674,8 @@ class Mesh:
|
||||
pass
|
||||
pass
|
||||
|
||||
## Deprecated, used only for compatibility! Please, use ExportMED() method instead.
|
||||
## Exports the mesh in a file in MED format and chooses the \a version of MED format
|
||||
## Deprecated, used only for compatibility! Please, use ExportToMEDX() method instead.
|
||||
# Exports the mesh in a file in MED format and chooses the \a version of MED format
|
||||
## allowing to overwrite the file if it exists or add the exported data to its contents
|
||||
# @param f the file name
|
||||
# @param version values are SMESH.MED_V2_1, SMESH.MED_V2_2
|
||||
@ -1767,58 +1774,33 @@ class Mesh:
|
||||
# @return SMESH_GroupOnGeom
|
||||
# @ingroup l2_grps_create
|
||||
def GroupOnGeom(self, grp, name="", typ=None):
|
||||
AssureGeomPublished( self, grp, name )
|
||||
if name == "":
|
||||
name = grp.GetName()
|
||||
if not typ:
|
||||
typ = self._groupTypeFromShape( grp )
|
||||
return self.mesh.CreateGroupFromGEOM(typ, name, grp)
|
||||
|
||||
if typ == None:
|
||||
tgeo = str(grp.GetShapeType())
|
||||
if tgeo == "VERTEX":
|
||||
typ = NODE
|
||||
elif tgeo == "EDGE":
|
||||
typ = EDGE
|
||||
elif tgeo == "FACE":
|
||||
typ = FACE
|
||||
elif tgeo == "SOLID":
|
||||
typ = VOLUME
|
||||
elif tgeo == "SHELL":
|
||||
typ = VOLUME
|
||||
elif tgeo == "COMPOUND":
|
||||
try: # it raises on a compound of compounds
|
||||
if len( self.geompyD.GetObjectIDs( grp )) == 0:
|
||||
print "Mesh.Group: empty geometric group", GetName( grp )
|
||||
return 0
|
||||
pass
|
||||
except:
|
||||
pass
|
||||
if grp.GetType() == 37: # GEOMImpl_Types.hxx: #define GEOM_GROUP 37
|
||||
# group
|
||||
tgeo = self.geompyD.GetType(grp)
|
||||
if tgeo == geompyDC.ShapeType["VERTEX"]:
|
||||
typ = NODE
|
||||
elif tgeo == geompyDC.ShapeType["EDGE"]:
|
||||
typ = EDGE
|
||||
elif tgeo == geompyDC.ShapeType["FACE"]:
|
||||
typ = FACE
|
||||
elif tgeo == geompyDC.ShapeType["SOLID"]:
|
||||
typ = VOLUME
|
||||
pass
|
||||
pass
|
||||
else:
|
||||
# just a compound
|
||||
for elemType, shapeType in [[VOLUME,"SOLID"],[FACE,"FACE"],
|
||||
[EDGE,"EDGE"],[NODE,"VERTEX"]]:
|
||||
if self.geompyD.SubShapeAll(grp,geompyDC.ShapeType[shapeType]):
|
||||
typ = elemType
|
||||
break
|
||||
pass
|
||||
pass
|
||||
pass
|
||||
pass
|
||||
if typ == None:
|
||||
print "Mesh.Group: bad first argument: expected a group, a vertex, an edge, a face or a solid"
|
||||
return 0
|
||||
## Pivate method to get a type of group on geometry
|
||||
def _groupTypeFromShape( self, shape ):
|
||||
tgeo = str(shape.GetShapeType())
|
||||
if tgeo == "VERTEX":
|
||||
typ = NODE
|
||||
elif tgeo == "EDGE":
|
||||
typ = EDGE
|
||||
elif tgeo == "FACE" or tgeo == "SHELL":
|
||||
typ = FACE
|
||||
elif tgeo == "SOLID" or tgeo == "COMPSOLID":
|
||||
typ = VOLUME
|
||||
elif tgeo == "COMPOUND":
|
||||
sub = self.geompyD.SubShapeAll( shape, geompyDC.ShapeType["SHAPE"])
|
||||
if not sub:
|
||||
raise ValueError,"_groupTypeFromShape(): empty geometric group or compound '%s'" % GetName(shape)
|
||||
return self._groupTypeFromShape( sub[0] )
|
||||
else:
|
||||
return self.mesh.CreateGroupFromGEOM(typ, name, grp)
|
||||
raise ValueError, \
|
||||
"_groupTypeFromShape(): invalid geometry '%s'" % GetName(shape)
|
||||
return typ
|
||||
|
||||
## Creates a mesh group with given \a name based on the \a filter which
|
||||
## is a special type of group dynamically updating it's contents during
|
||||
@ -4480,7 +4462,7 @@ class Mesh_Algorithm:
|
||||
self.geom = mesh.geom
|
||||
else:
|
||||
self.geom = geom
|
||||
self.AssureGeomPublished( geom )
|
||||
AssureGeomPublished( mesh, geom )
|
||||
try:
|
||||
name = GetName(geom)
|
||||
pass
|
||||
@ -4492,25 +4474,6 @@ class Mesh_Algorithm:
|
||||
TreatHypoStatus( status, algo.GetName(), name, True )
|
||||
return
|
||||
|
||||
## Private method. Add geom into the study if not yet there
|
||||
def AssureGeomPublished(self, geom, name=''):
|
||||
if not isinstance( geom, geompyDC.GEOM._objref_GEOM_Object ):
|
||||
return
|
||||
if not geom.IsSame( self.mesh.geom ) and not geom.GetStudyEntry():
|
||||
## set the study
|
||||
studyID = self.mesh.smeshpyD.GetCurrentStudy()._get_StudyId()
|
||||
if studyID != self.mesh.geompyD.myStudyId:
|
||||
self.mesh.geompyD.init_geom( self.mesh.smeshpyD.GetCurrentStudy())
|
||||
## get a name
|
||||
if not name and geom.GetShapeType() != geompyDC.GEOM.COMPOUND:
|
||||
# for all groups SubShapeName() returns "Compound_-1"
|
||||
name = self.mesh.geompyD.SubShapeName(geom, self.mesh.geom)
|
||||
if not name:
|
||||
name = "%s_%s"%(geom.GetShapeType(), id(geom)%10000)
|
||||
## publish
|
||||
self.mesh.geompyD.addToStudyInFather( self.mesh.geom, geom, name )
|
||||
return
|
||||
|
||||
def CompareHyp (self, hyp, args):
|
||||
print "CompareHyp is not implemented for ", self.__class__.__name__, ":", hyp.GetName()
|
||||
return False
|
||||
@ -4860,7 +4823,7 @@ class Mesh_Segment(Mesh_Algorithm):
|
||||
### 0D algorithm
|
||||
if self.geom is None:
|
||||
raise RuntimeError, "Attemp to create SegmentAroundVertex_0D algoritm on None shape"
|
||||
self.AssureGeomPublished( self.geom )
|
||||
AssureGeomPublished( self.mesh, self.geom )
|
||||
name = GetName(self.geom)
|
||||
|
||||
algo = self.FindAlgorithm("SegmentAroundVertex_0D", self.mesh.smeshpyD)
|
||||
@ -5112,8 +5075,8 @@ class Mesh_Triangle(Mesh_Algorithm):
|
||||
# @param theConstantSizeDistance : distance until which the mesh size will be kept constant on theFace
|
||||
# @ingroup l3_hypos_blsurf
|
||||
def SetAttractorGeom(self, theFace, theAttractor, theStartSize, theEndSize, theInfluenceDistance, theConstantSizeDistance):
|
||||
self.AssureGeomPublished( theFace )
|
||||
self.AssureGeomPublished( theAttractor )
|
||||
AssureGeomPublished( self.mesh, theFace )
|
||||
AssureGeomPublished( self.mesh, theAttractor )
|
||||
# Parameter of BLSURF algo
|
||||
self.Parameters().SetAttractorGeom(theFace, theAttractor, theStartSize, theEndSize, theInfluenceDistance, theConstantSizeDistance)
|
||||
|
||||
@ -5121,7 +5084,7 @@ class Mesh_Triangle(Mesh_Algorithm):
|
||||
# @param theFace : face on which the attractor has to be removed
|
||||
# @ingroup l3_hypos_blsurf
|
||||
def UnsetAttractorGeom(self, theFace):
|
||||
self.AssureGeomPublished( theFace )
|
||||
AssureGeomPublished( self.mesh, theFace )
|
||||
# Parameter of BLSURF algo
|
||||
self.Parameters().SetAttractorGeom(theFace)
|
||||
|
||||
@ -5620,7 +5583,7 @@ class Mesh_Tetrahedron(Mesh_Algorithm):
|
||||
## To set an enforced vertex given a GEOM vertex, group or compound.
|
||||
# @ingroup l3_hypos_ghs3dh
|
||||
def SetEnforcedVertexGeom(self, theVertex, size):
|
||||
self.AssureGeomPublished( theVertex )
|
||||
AssureGeomPublished( self.mesh, theVertex )
|
||||
# Advanced parameter of GHS3D
|
||||
return self.Parameters().SetEnforcedVertexGeom(theVertex, size)
|
||||
|
||||
@ -5629,14 +5592,14 @@ class Mesh_Tetrahedron(Mesh_Algorithm):
|
||||
# Only on meshes w/o geometry
|
||||
# @ingroup l3_hypos_ghs3dh
|
||||
def SetEnforcedVertexGeomWithGroup(self, theVertex, size, groupName):
|
||||
self.AssureGeomPublished( theVertex )
|
||||
AssureGeomPublished( self.mesh, theVertex )
|
||||
# Advanced parameter of GHS3D
|
||||
return self.Parameters().SetEnforcedVertexGeomWithGroup(theVertex, size,groupName)
|
||||
|
||||
## To remove an enforced vertex given a GEOM vertex, group or compound.
|
||||
# @ingroup l3_hypos_ghs3dh
|
||||
def RemoveEnforcedVertexGeom(self, theVertex):
|
||||
self.AssureGeomPublished( theVertex )
|
||||
AssureGeomPublished( self.mesh, theVertex )
|
||||
# Advanced parameter of GHS3D
|
||||
return self.Parameters().RemoveEnforcedVertexGeom(theVertex)
|
||||
|
||||
@ -5782,9 +5745,9 @@ class Mesh_Projection1D(Mesh_Algorithm):
|
||||
# @param UseExisting if ==true - searches for the existing hypothesis created with
|
||||
# the same parameters, else (default) - creates a new one
|
||||
def SourceEdge(self, edge, mesh=None, srcV=None, tgtV=None, UseExisting=0):
|
||||
self.AssureGeomPublished( edge )
|
||||
self.AssureGeomPublished( srcV )
|
||||
self.AssureGeomPublished( tgtV )
|
||||
AssureGeomPublished( self.mesh, edge )
|
||||
AssureGeomPublished( self.mesh, srcV )
|
||||
AssureGeomPublished( self.mesh, tgtV )
|
||||
hyp = self.Hypothesis("ProjectionSource1D", [edge,mesh,srcV,tgtV],
|
||||
UseExisting=0)
|
||||
#UseExisting=UseExisting, CompareMethod=self.CompareSourceEdge)
|
||||
@ -5832,7 +5795,7 @@ class Mesh_Projection2D(Mesh_Algorithm):
|
||||
def SourceFace(self, face, mesh=None, srcV1=None, tgtV1=None,
|
||||
srcV2=None, tgtV2=None, UseExisting=0):
|
||||
for geom in [ face, srcV1, tgtV1, srcV2, tgtV2 ]:
|
||||
self.AssureGeomPublished( geom )
|
||||
AssureGeomPublished( self.mesh, geom )
|
||||
hyp = self.Hypothesis("ProjectionSource2D", [face,mesh,srcV1,tgtV1,srcV2,tgtV2],
|
||||
UseExisting=0)
|
||||
#UseExisting=UseExisting, CompareMethod=self.CompareSourceFace)
|
||||
@ -5879,7 +5842,7 @@ class Mesh_Projection3D(Mesh_Algorithm):
|
||||
def SourceShape3D(self, solid, mesh=0, srcV1=0, tgtV1=0,
|
||||
srcV2=0, tgtV2=0, UseExisting=0):
|
||||
for geom in [ solid, srcV1, tgtV1, srcV2, tgtV2 ]:
|
||||
self.AssureGeomPublished( geom )
|
||||
AssureGeomPublished( self.mesh, geom )
|
||||
hyp = self.Hypothesis("ProjectionSource3D",
|
||||
[solid,mesh,srcV1,tgtV1,srcV2,tgtV2],
|
||||
UseExisting=0)
|
||||
@ -6141,7 +6104,7 @@ class Mesh_UseExistingElements(Mesh_Algorithm):
|
||||
if self.algo.GetName() == "Import_2D":
|
||||
raise ValueError, "algoritm dimension mismatch"
|
||||
for group in groups:
|
||||
self.AssureGeomPublished( group )
|
||||
AssureGeomPublished( self.mesh, group )
|
||||
hyp = self.Hypothesis("ImportSource1D", [groups, toCopyMesh, toCopyGroups],
|
||||
UseExisting=UseExisting, CompareMethod=self._compareHyp)
|
||||
hyp.SetSourceEdges(groups)
|
||||
@ -6158,7 +6121,7 @@ class Mesh_UseExistingElements(Mesh_Algorithm):
|
||||
if self.algo.GetName() == "Import_1D":
|
||||
raise ValueError, "algoritm dimension mismatch"
|
||||
for group in groups:
|
||||
self.AssureGeomPublished( group )
|
||||
AssureGeomPublished( self.mesh, group )
|
||||
hyp = self.Hypothesis("ImportSource2D", [groups, toCopyMesh, toCopyGroups],
|
||||
UseExisting=UseExisting, CompareMethod=self._compareHyp)
|
||||
hyp.SetSourceFaces(groups)
|
||||
|
@ -237,6 +237,8 @@ bool StdMeshers_MEFISTO_2D::Compute(SMESH_Mesh & aMesh, const TopoDS_Shape & aSh
|
||||
Z nutysu = 1; // 1: il existe un fonction areteideale_()
|
||||
// Z nutysu=0; // 0: on utilise aretmx
|
||||
R aretmx = _edgeLength; // longueur max aretes future triangulation
|
||||
if ( _hypMaxElementArea )
|
||||
aretmx *= 1.5;
|
||||
|
||||
nblf = nbWires;
|
||||
|
||||
|
@ -2218,9 +2218,9 @@ bool StdMeshers_Quadrangle_2D::ComputeReduced (SMESH_Mesh & aMesh,
|
||||
int nrows = nr1 - 1;
|
||||
int ncol_top = nt1 - 1;
|
||||
int ncol_bot = nb1 - 1;
|
||||
// maximum number of bottom elements for "tree" simple reduce 3->1
|
||||
int max_tree31 = ncol_top * pow(3.0, nrows);
|
||||
if (ncol_bot > max_tree31)
|
||||
// number of rows needed to reduce ncol_bot to ncol_top using simple 3->1 "tree" (see below)
|
||||
int nrows_tree31 = int( log( ncol_bot / ncol_top ) / log( 3 )); // = log x base 3
|
||||
if ( nrows < nrows_tree31 )
|
||||
MultipleReduce = true;
|
||||
}
|
||||
|
||||
@ -2543,9 +2543,12 @@ bool StdMeshers_Quadrangle_2D::ComputeReduced (SMESH_Mesh & aMesh,
|
||||
// maximum number of bottom elements for "linear" simple reduce 4->2
|
||||
int max_lin31 = ncol_top + ncol_top * 2 * nrows;
|
||||
// maximum number of bottom elements for "tree" simple reduce 4->2
|
||||
int max_tree42 = npair_top * pow(2.0, nrows + 1);
|
||||
if (ncol_top > npair_top * 2) {
|
||||
int delta = ncol_bot - max_tree42;
|
||||
int max_tree42 = 0;
|
||||
// number of rows needed to reduce ncol_bot to ncol_top using simple 4->2 "tree"
|
||||
int nrows_tree42 = int( log2( ncol_bot / ncol_top )); // needed to avoid overflow at pow(2)
|
||||
if (ncol_top > npair_top * 2 && nrows_tree42 < nrows) {
|
||||
max_tree42 = npair_top * pow(2.0, nrows + 1);
|
||||
int delta = ncol_bot - int( max_tree42 );
|
||||
for (int irow = 1; irow < nrows; irow++) {
|
||||
int nfour = delta / 4;
|
||||
delta -= nfour * 2;
|
||||
|
@ -43,9 +43,18 @@
|
||||
#include "utilities.h"
|
||||
|
||||
#include <BRep_Tool.hxx>
|
||||
#include <Bnd_B2d.hxx>
|
||||
#include <Bnd_B3d.hxx>
|
||||
#include <ElCLib.hxx>
|
||||
#include <GCPnts_AbscissaPoint.hxx>
|
||||
#include <Geom2d_Circle.hxx>
|
||||
#include <Geom2d_Line.hxx>
|
||||
#include <Geom2d_TrimmedCurve.hxx>
|
||||
#include <GeomAdaptor_Curve.hxx>
|
||||
#include <Geom_Circle.hxx>
|
||||
#include <Geom_Curve.hxx>
|
||||
#include <Geom_Line.hxx>
|
||||
#include <Geom_TrimmedCurve.hxx>
|
||||
#include <Precision.hxx>
|
||||
#include <TopExp.hxx>
|
||||
#include <TopExp_Explorer.hxx>
|
||||
@ -268,6 +277,10 @@ namespace VISCOUS
|
||||
gp_XYZ* _plnNorm;
|
||||
|
||||
_2NearEdges() { _nodes[0]=_nodes[1]=0; _plnNorm = 0; }
|
||||
void reverse() {
|
||||
std::swap( _nodes[0], _nodes[1] );
|
||||
std::swap( _wgt[0], _wgt[1] );
|
||||
}
|
||||
};
|
||||
//--------------------------------------------------------------------------------
|
||||
/*!
|
||||
@ -362,9 +375,8 @@ namespace VISCOUS
|
||||
// FACE's WOL, srink on which is forbiden due to algo on the adjacent SOLID
|
||||
set< TGeomID > _noShrinkFaces;
|
||||
|
||||
// end index in _edges of _LayerEdge's based on EDGE (map key) to
|
||||
// FACE (maybe NULL) they are inflated along
|
||||
//map< int, TopoDS_Face > _endEdge2Face;
|
||||
// <EDGE to smooth on> to <it's curve>
|
||||
map< TGeomID,Handle(Geom_Curve)> _edge2curve;
|
||||
|
||||
// end indices in _edges of _LayerEdge on one shape to smooth
|
||||
vector< int > _endEdgeToSmooth;
|
||||
@ -377,6 +389,13 @@ namespace VISCOUS
|
||||
const StdMeshers_ViscousLayers* h=0,
|
||||
_MeshOfSolid* m=0) :_solid(s), _hyp(h), _proxyMesh(m) {}
|
||||
~_SolidData();
|
||||
|
||||
Handle(Geom_Curve) CurveForSmooth( const TopoDS_Edge& E,
|
||||
const int iFrom,
|
||||
const int iTo,
|
||||
Handle(Geom_Surface)& surface,
|
||||
const TopoDS_Face& F,
|
||||
SMESH_MesherHelper& helper);
|
||||
};
|
||||
//--------------------------------------------------------------------------------
|
||||
/*!
|
||||
@ -433,7 +452,13 @@ namespace VISCOUS
|
||||
const double cosin);
|
||||
void limitStepSize( _SolidData& data, const double minSize);
|
||||
bool inflate(_SolidData& data);
|
||||
bool smoothAndCheck(_SolidData& data, int nbSteps, double & distToIntersection);
|
||||
bool smoothAndCheck(_SolidData& data, const int nbSteps, double & distToIntersection);
|
||||
bool smoothAnalyticEdge( _SolidData& data,
|
||||
const int iFrom,
|
||||
const int iTo,
|
||||
Handle(Geom_Surface)& surface,
|
||||
const TopoDS_Face& F,
|
||||
SMESH_MesherHelper& helper);
|
||||
bool updateNormals( _SolidData& data, SMESH_MesherHelper& helper );
|
||||
bool refine(_SolidData& data);
|
||||
bool shrink();
|
||||
@ -1994,7 +2019,7 @@ bool _ViscousBuilder::inflate(_SolidData& data)
|
||||
//================================================================================
|
||||
|
||||
bool _ViscousBuilder::smoothAndCheck(_SolidData& data,
|
||||
int nbSteps,
|
||||
const int nbSteps,
|
||||
double & distToIntersection)
|
||||
{
|
||||
if ( data._endEdgeToSmooth.empty() )
|
||||
@ -2028,21 +2053,25 @@ bool _ViscousBuilder::smoothAndCheck(_SolidData& data,
|
||||
TGeomID sInd = data._edges[ iBeg ]->_nodes[0]->getshapeId();
|
||||
|
||||
if ( data._edges[ iBeg ]->IsOnEdge() )
|
||||
{
|
||||
dumpFunction(SMESH_Comment("smooth")<<data._index << "_Ed"<<sInd <<"_InfStep"<<nbSteps);
|
||||
// smooth on EDGE's
|
||||
int step = 0;
|
||||
do {
|
||||
moved = false;
|
||||
for ( int i = iBeg; i < iEnd; ++i )
|
||||
{
|
||||
moved |= data._edges[i]->SmoothOnEdge(surface, F, helper);
|
||||
{ // try a simple solution on an analytic EDGE
|
||||
if ( !smoothAnalyticEdge( data, iBeg, iEnd, surface, F, helper ))
|
||||
{
|
||||
dumpFunction(SMESH_Comment("smooth")<<data._index << "_Ed"<<sInd <<"_InfStep"<<nbSteps);
|
||||
// smooth on EDGE's
|
||||
int step = 0;
|
||||
do {
|
||||
moved = false;
|
||||
for ( int i = iBeg; i < iEnd; ++i )
|
||||
{
|
||||
moved |= data._edges[i]->SmoothOnEdge(surface, F, helper);
|
||||
}
|
||||
dumpCmd( SMESH_Comment("# end step ")<<step);
|
||||
}
|
||||
dumpCmd( SMESH_Comment("# end step ")<<step);
|
||||
}
|
||||
while ( moved && step++ < 5 );
|
||||
while ( moved && step++ < 5 );
|
||||
//cout << " NB STEPS: " << step << endl;
|
||||
|
||||
dumpFunctionEnd();
|
||||
dumpFunctionEnd();
|
||||
}
|
||||
}
|
||||
else
|
||||
{
|
||||
@ -2094,7 +2123,7 @@ bool _ViscousBuilder::smoothAndCheck(_SolidData& data,
|
||||
double dist;
|
||||
const SMDS_MeshElement* intFace = 0;
|
||||
#ifdef __myDEBUG
|
||||
const SMDS_MeshElement* *closestFace = 0;
|
||||
const SMDS_MeshElement* closestFace = 0;
|
||||
int iLE = 0;
|
||||
#endif
|
||||
for ( unsigned i = 0; i < data._edges.size(); ++i )
|
||||
@ -2124,6 +2153,253 @@ bool _ViscousBuilder::smoothAndCheck(_SolidData& data,
|
||||
return true;
|
||||
}
|
||||
|
||||
//================================================================================
|
||||
/*!
|
||||
* \brief Return a curve of the EDGE to be used for smoothing and arrange
|
||||
* _LayerEdge's to be in a consequent order
|
||||
*/
|
||||
//================================================================================
|
||||
|
||||
Handle(Geom_Curve) _SolidData::CurveForSmooth( const TopoDS_Edge& E,
|
||||
const int iFrom,
|
||||
const int iTo,
|
||||
Handle(Geom_Surface)& surface,
|
||||
const TopoDS_Face& F,
|
||||
SMESH_MesherHelper& helper)
|
||||
{
|
||||
TGeomID eIndex = helper.GetMeshDS()->ShapeToIndex( E );
|
||||
|
||||
map< TGeomID, Handle(Geom_Curve)>::iterator i2curve = _edge2curve.find( eIndex );
|
||||
|
||||
if ( i2curve == _edge2curve.end() )
|
||||
{
|
||||
// sort _LayerEdge's by position on the EDGE
|
||||
{
|
||||
map< double, _LayerEdge* > u2edge;
|
||||
for ( int i = iFrom; i < iTo; ++i )
|
||||
u2edge.insert( make_pair( helper.GetNodeU( E, _edges[i]->_nodes[0] ), _edges[i] ));
|
||||
|
||||
ASSERT( u2edge.size() == iTo - iFrom );
|
||||
map< double, _LayerEdge* >::iterator u2e = u2edge.begin();
|
||||
for ( int i = iFrom; i < iTo; ++i, ++u2e )
|
||||
_edges[i] = u2e->second;
|
||||
|
||||
// set _2neibors according to the new order
|
||||
for ( int i = iFrom; i < iTo-1; ++i )
|
||||
if ( _edges[i]->_2neibors->_nodes[1] != _edges[i+1]->_nodes.back() )
|
||||
_edges[i]->_2neibors->reverse();
|
||||
if ( u2edge.size() > 1 &&
|
||||
_edges[iTo-1]->_2neibors->_nodes[0] != _edges[iTo-2]->_nodes.back() )
|
||||
_edges[iTo-1]->_2neibors->reverse();
|
||||
}
|
||||
|
||||
SMESHDS_SubMesh* smDS = helper.GetMeshDS()->MeshElements( eIndex );
|
||||
|
||||
TopLoc_Location loc; double f,l;
|
||||
|
||||
Handle(Geom_Line) line;
|
||||
Handle(Geom_Circle) circle;
|
||||
bool isLine, isCirc;
|
||||
if ( F.IsNull() ) // 3D case
|
||||
{
|
||||
// check if the EDGE is a line
|
||||
Handle(Geom_Curve) curve = BRep_Tool::Curve( E, loc, f, l);
|
||||
if ( curve->IsKind( STANDARD_TYPE( Geom_TrimmedCurve )))
|
||||
curve = Handle(Geom_TrimmedCurve)::DownCast( curve )->BasisCurve();
|
||||
|
||||
line = Handle(Geom_Line)::DownCast( curve );
|
||||
circle = Handle(Geom_Circle)::DownCast( curve );
|
||||
isLine = (!line.IsNull());
|
||||
isCirc = (!circle.IsNull());
|
||||
|
||||
if ( !isLine && !isCirc ) // Check if the EDGE is close to a line
|
||||
{
|
||||
Bnd_B3d bndBox;
|
||||
SMDS_NodeIteratorPtr nIt = smDS->GetNodes();
|
||||
while ( nIt->more() )
|
||||
bndBox.Add( SMESH_TNodeXYZ( nIt->next() ));
|
||||
gp_XYZ size = bndBox.CornerMax() - bndBox.CornerMin();
|
||||
|
||||
SMESH_TNodeXYZ p0( _edges[iFrom]->_2neibors->_nodes[0] );
|
||||
SMESH_TNodeXYZ p1( _edges[iFrom]->_2neibors->_nodes[1] );
|
||||
const double lineTol = 1e-2 * ( p0 - p1 ).Modulus();
|
||||
for ( int i = 0; i < 3 && !isLine; ++i )
|
||||
isLine = ( size.Coord( i+1 ) <= lineTol );
|
||||
}
|
||||
if ( !isLine && !isCirc && iTo-iFrom > 2) // Check if the EDGE is close to a circle
|
||||
{
|
||||
// TODO
|
||||
}
|
||||
}
|
||||
else // 2D case
|
||||
{
|
||||
// check if the EDGE is a line
|
||||
Handle(Geom2d_Curve) curve = BRep_Tool::CurveOnSurface( E, F, f, l);
|
||||
if ( curve->IsKind( STANDARD_TYPE( Geom2d_TrimmedCurve )))
|
||||
curve = Handle(Geom2d_TrimmedCurve)::DownCast( curve )->BasisCurve();
|
||||
|
||||
Handle(Geom2d_Line) line2d = Handle(Geom2d_Line)::DownCast( curve );
|
||||
Handle(Geom2d_Circle) circle2d = Handle(Geom2d_Circle)::DownCast( curve );
|
||||
isLine = (!line2d.IsNull());
|
||||
isCirc = (!circle2d.IsNull());
|
||||
|
||||
if ( !isLine && !isCirc) // Check if the EDGE is close to a line
|
||||
{
|
||||
Bnd_B2d bndBox;
|
||||
SMDS_NodeIteratorPtr nIt = smDS->GetNodes();
|
||||
while ( nIt->more() )
|
||||
bndBox.Add( helper.GetNodeUV( F, nIt->next() ));
|
||||
gp_XY size = bndBox.CornerMax() - bndBox.CornerMin();
|
||||
|
||||
const double lineTol = 1e-2 * sqrt( bndBox.SquareExtent() );
|
||||
for ( int i = 0; i < 2 && !isLine; ++i )
|
||||
isLine = ( size.Coord( i+1 ) <= lineTol );
|
||||
}
|
||||
if ( !isLine && !isCirc && iTo-iFrom > 2) // Check if the EDGE is close to a circle
|
||||
{
|
||||
// TODO
|
||||
}
|
||||
if ( isLine )
|
||||
{
|
||||
line = new Geom_Line( gp::OX() ); // only type does matter
|
||||
}
|
||||
else if ( isCirc )
|
||||
{
|
||||
gp_Pnt2d p = circle2d->Location();
|
||||
gp_Ax2 ax( gp_Pnt( p.X(), p.Y(), 0), gp::DX());
|
||||
circle = new Geom_Circle( ax, 1.); // only center position does matter
|
||||
}
|
||||
}
|
||||
|
||||
Handle(Geom_Curve)& res = _edge2curve[ eIndex ];
|
||||
if ( isLine )
|
||||
res = line;
|
||||
else if ( isCirc )
|
||||
res = circle;
|
||||
|
||||
return res;
|
||||
}
|
||||
return i2curve->second;
|
||||
}
|
||||
|
||||
//================================================================================
|
||||
/*!
|
||||
* \brief smooth _LayerEdge's on a staight EDGE or circular EDGE
|
||||
*/
|
||||
//================================================================================
|
||||
|
||||
bool _ViscousBuilder::smoothAnalyticEdge( _SolidData& data,
|
||||
const int iFrom,
|
||||
const int iTo,
|
||||
Handle(Geom_Surface)& surface,
|
||||
const TopoDS_Face& F,
|
||||
SMESH_MesherHelper& helper)
|
||||
{
|
||||
TopoDS_Shape S = helper.GetSubShapeByNode( data._edges[ iFrom ]->_nodes[0],
|
||||
helper.GetMeshDS());
|
||||
TopoDS_Edge E = TopoDS::Edge( S );
|
||||
|
||||
Handle(Geom_Curve) curve = data.CurveForSmooth( E, iFrom, iTo, surface, F, helper );
|
||||
if ( curve.IsNull() ) return false;
|
||||
|
||||
// compute a relative length of segments
|
||||
vector< double > len( iTo-iFrom+1 );
|
||||
{
|
||||
double curLen, prevLen = len[0] = 1.0;
|
||||
for ( int i = iFrom; i < iTo; ++i )
|
||||
{
|
||||
curLen = prevLen * data._edges[i]->_2neibors->_wgt[0] / data._edges[i]->_2neibors->_wgt[1];
|
||||
len[i-iFrom+1] = len[i-iFrom] + curLen;
|
||||
prevLen = curLen;
|
||||
}
|
||||
}
|
||||
|
||||
if ( curve->IsKind( STANDARD_TYPE( Geom_Line )))
|
||||
{
|
||||
if ( F.IsNull() ) // 3D
|
||||
{
|
||||
SMESH_TNodeXYZ p0( data._edges[iFrom]->_2neibors->_nodes[0]);
|
||||
SMESH_TNodeXYZ p1( data._edges[iTo-1]->_2neibors->_nodes[1]);
|
||||
for ( int i = iFrom; i < iTo; ++i )
|
||||
{
|
||||
double r = len[i-iFrom] / len.back();
|
||||
gp_XYZ newPos = p0 * ( 1. - r ) + p1 * r;
|
||||
data._edges[i]->_pos.back() = newPos;
|
||||
SMDS_MeshNode* tgtNode = const_cast<SMDS_MeshNode*>( data._edges[i]->_nodes.back() );
|
||||
tgtNode->setXYZ( newPos.X(), newPos.Y(), newPos.Z() );
|
||||
}
|
||||
}
|
||||
else
|
||||
{
|
||||
gp_XY uv0 = helper.GetNodeUV( F, data._edges[iFrom]->_2neibors->_nodes[0]);
|
||||
gp_XY uv1 = helper.GetNodeUV( F, data._edges[iTo-1]->_2neibors->_nodes[1]);
|
||||
for ( int i = iFrom; i < iTo; ++i )
|
||||
{
|
||||
double r = len[i-iFrom] / len.back();
|
||||
gp_XY newUV = uv0 * ( 1. - r ) + uv1 * r;
|
||||
data._edges[i]->_pos.back().SetCoord( newUV.X(), newUV.Y(), 0 );
|
||||
|
||||
gp_Pnt newPos = surface->Value( newUV.X(), newUV.Y() );
|
||||
SMDS_MeshNode* tgtNode = const_cast<SMDS_MeshNode*>( data._edges[i]->_nodes.back() );
|
||||
tgtNode->setXYZ( newPos.X(), newPos.Y(), newPos.Z() );
|
||||
|
||||
SMDS_FacePosition* pos = static_cast<SMDS_FacePosition*>( tgtNode->GetPosition() );
|
||||
pos->SetUParameter( newUV.X() );
|
||||
pos->SetVParameter( newUV.Y() );
|
||||
}
|
||||
}
|
||||
return true;
|
||||
}
|
||||
|
||||
if ( curve->IsKind( STANDARD_TYPE( Geom_Circle )))
|
||||
{
|
||||
Handle(Geom_Circle) circle = Handle(Geom_Circle)::DownCast( curve );
|
||||
gp_Pnt center3D = circle->Location();
|
||||
|
||||
if ( F.IsNull() ) // 3D
|
||||
{
|
||||
return false; // TODO ???
|
||||
}
|
||||
else // 2D
|
||||
{
|
||||
const gp_XY center( center3D.X(), center3D.Y() );
|
||||
|
||||
gp_XY uv0 = helper.GetNodeUV( F, data._edges[iFrom]->_2neibors->_nodes[0]);
|
||||
gp_XY uvM = helper.GetNodeUV( F, data._edges[iFrom]->_nodes.back());
|
||||
gp_XY uv1 = helper.GetNodeUV( F, data._edges[iTo-1]->_2neibors->_nodes[1]);
|
||||
gp_Vec2d vec0( center, uv0 );
|
||||
gp_Vec2d vecM( center, uvM);
|
||||
gp_Vec2d vec1( center, uv1 );
|
||||
double uLast = vec0.Angle( vec1 ); // -PI - +PI
|
||||
double uMidl = vec0.Angle( vecM );
|
||||
if ( uLast < 0 ) uLast += 2*PI; // 0.0 - 2*PI
|
||||
if ( uMidl < 0 ) uMidl += 2*PI;
|
||||
const bool sense = ( uMidl < uLast );
|
||||
const double radius = 0.5 * ( vec0.Magnitude() + vec1.Magnitude() );
|
||||
|
||||
gp_Ax2d axis( center, vec0 );
|
||||
gp_Circ2d circ ( axis, radius, sense );
|
||||
for ( int i = iFrom; i < iTo; ++i )
|
||||
{
|
||||
double newU = uLast * len[i-iFrom] / len.back();
|
||||
gp_Pnt2d newUV = ElCLib::Value( newU, circ );
|
||||
data._edges[i]->_pos.back().SetCoord( newUV.X(), newUV.Y(), 0 );
|
||||
|
||||
gp_Pnt newPos = surface->Value( newUV.X(), newUV.Y() );
|
||||
SMDS_MeshNode* tgtNode = const_cast<SMDS_MeshNode*>( data._edges[i]->_nodes.back() );
|
||||
tgtNode->setXYZ( newPos.X(), newPos.Y(), newPos.Z() );
|
||||
|
||||
SMDS_FacePosition* pos = static_cast<SMDS_FacePosition*>( tgtNode->GetPosition() );
|
||||
pos->SetUParameter( newUV.X() );
|
||||
pos->SetVParameter( newUV.Y() );
|
||||
}
|
||||
}
|
||||
return true;
|
||||
}
|
||||
|
||||
return false;
|
||||
}
|
||||
|
||||
//================================================================================
|
||||
/*!
|
||||
* \brief Modify normals of _LayerEdge's on EDGE's to avoid intersection with
|
||||
@ -3219,15 +3495,32 @@ bool _ViscousBuilder::shrink()
|
||||
if ( badNb > 0 )
|
||||
return error(SMESH_Comment("Can't shrink 2D mesh on face ") << f2sd->first );
|
||||
}
|
||||
// No wrongly shaped faces remain; final smooth. Set node XYZ
|
||||
for ( int st = 3; st; --st )
|
||||
// No wrongly shaped faces remain; final smooth. Set node XYZ.
|
||||
// First, find out a needed quality of smoothing (high for quadrangles only)
|
||||
bool highQuality;
|
||||
{
|
||||
const bool hasTria = _mesh->NbTriangles(), hasQuad = _mesh->NbQuadrangles();
|
||||
if ( hasTria != hasQuad )
|
||||
{
|
||||
highQuality = hasQuad;
|
||||
}
|
||||
else
|
||||
{
|
||||
set<int> nbNodesSet;
|
||||
SMDS_ElemIteratorPtr fIt = smDS->GetElements();
|
||||
while ( fIt->more() && nbNodesSet.size() < 2 )
|
||||
nbNodesSet.insert( fIt->next()->NbCornerNodes() );
|
||||
highQuality = ( *nbNodesSet.begin() == 4 );
|
||||
}
|
||||
}
|
||||
for ( int st = highQuality ? 8 : 3; st; --st )
|
||||
{
|
||||
dumpFunction(SMESH_Comment("shrinkFace")<<f2sd->first<<"_st"<<++smooStep); // debug
|
||||
for ( unsigned i = 0; i < nodesToSmooth.size(); ++i )
|
||||
nodesToSmooth[i].Smooth( badNb,surface,helper,refSign,/*set3D=*/st==1 );
|
||||
dumpFunctionEnd();
|
||||
}
|
||||
// Set event listener to clear FACE sub-mesh together with SOLID sub-mesh
|
||||
// Set an event listener to clear FACE sub-mesh together with SOLID sub-mesh
|
||||
_SrinkShapeListener::ToClearSubMeshWithSolid( sm, data._solid );
|
||||
|
||||
}// loop on FACES to srink mesh on
|
||||
|
Loading…
Reference in New Issue
Block a user