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IMPs 0020745 (GetVertexNearPoint and GetShapesNearPoint) and 0020851 (LimitTolerance).
[modules/geom.git]
/
src
/
GEOM_SWIG
/
GEOM_Partition1.py
diff --git
a/src/GEOM_SWIG/GEOM_Partition1.py
b/src/GEOM_SWIG/GEOM_Partition1.py
index 4eea3ff99e51a6a5f99a2f0bbacd3f241077b755..6d8262917fcfaad3abb0adc05bb406c9b79595b1 100755
(executable)
--- a/
src/GEOM_SWIG/GEOM_Partition1.py
+++ b/
src/GEOM_SWIG/GEOM_Partition1.py
@@
-1,19
+1,34
@@
-# GEOM GEOM_SWIG : binding of C++ omplementaion with Python
+# -*- coding: iso-8859-1 -*-
+# Copyright (C) 2007-2010 CEA/DEN, EDF R&D, OPEN CASCADE
+#
+# Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
+# CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
#
#
-# Copyright (C) 2003 CEA/DEN, EDF R&D
+# This library is free software; you can redistribute it and/or
+# modify it under the terms of the GNU Lesser General Public
+# License as published by the Free Software Foundation; either
+# version 2.1 of the License.
#
#
+# This library is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+# Lesser General Public License for more details.
#
#
+# You should have received a copy of the GNU Lesser General Public
+# License along with this library; if not, write to the Free Software
+# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
#
+# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
+#
+
+# GEOM GEOM_SWIG : binding of C++ omplementaion with Python
# File : GEOM_Partition1.py
# Module : GEOM
# File : GEOM_Partition1.py
# Module : GEOM
-
-#%Make geometry (like CEA script (A1)) using Partition algorithm%
-# appel:
+# appel:
# import alveole_3D_01_GEOM
# reload(alveole_3D_01_GEOM)
# import alveole_3D_01_GEOM
# reload(alveole_3D_01_GEOM)
-
# -- Rayon de la bariere
# -- Rayon de la bariere
-
+#
barier_height = 7.0
barier_radius = 5.6 / 2 # Rayon de la bariere
colis_radius = 1.0 / 2 # Rayon du colis
barier_height = 7.0
barier_radius = 5.6 / 2 # Rayon de la bariere
colis_radius = 1.0 / 2 # Rayon du colis
@@
-38,61
+53,52
@@
boolean_section = 4
# --
# --
+pnt0 = geompy.MakeVertex(0.,0.,0.)
+vecz = geompy.MakeVectorDXDYDZ(0.,0.,1.)
+
barier = geompy.MakeCylinder(
barier = geompy.MakeCylinder(
-
geom.MakePointStruct(0.,0.,0.)
,
-
geom.MakeDirection(geom.MakePointStruct(0.,0.,1.))
,
+
pnt0
,
+
vecz
,
barier_radius,
barier_height)
# --
barier_radius,
barier_height)
# --
-colis = geompy.MakeCylinder(
- geom.MakePointStruct(0.,0.,0.),
- geom.MakeDirection(geom.MakePointStruct(0.,0.,1.)),
- colis_radius,
- barier_height)
+colis = geompy.MakeCylinder(pnt0, vecz, colis_radius, barier_height)
-cc = geompy.MakeCylinder(
- geom.MakePointStruct(0.,0.,0.),
- geom.MakeDirection(geom.MakePointStruct(0.,0.,1.)),
- cc_radius,
- barier_height)
+cc = geompy.MakeCylinder(pnt0, vecz, cc_radius, barier_height)
-colis_cc = geompy.MakeCompound(
- [colis._get_Name(), cc._get_Name()])
+colis_cc = geompy.MakeCompound([colis, cc])
-colis_cc = geompy.MakeTranslation(
- colis_cc, colis_center, 0.0, 0.0)
+colis_cc = geompy.MakeTranslation(colis_cc, colis_center, 0.0, 0.0)
-colis_cc_multi = geompy.MakeMultiRotation1D(
- colis_cc,
- geom.MakeDirection(geom.MakePointStruct(0.,0.,1.)),
- geom.MakePointStruct(0.,0.,0.),
- 4)
+colis_cc_multi = geompy.MultiRotate1D(colis_cc, vecz, 4)
# --
# --
-alveole = geompy.Partition(
- [colis_cc_multi._get_Name(), barier._get_Name()])
+Compound1 = geompy.MakeCompound([colis_cc_multi, barier])
+SubShape_theShape = geompy.SubShapeAll(Compound1,geompy.ShapeType["SOLID"])
+alveole = geompy.MakePartition(SubShape_theShape)
+#alveole = geompy.MakePartition([colis_cc_multi, barier])
-
subshapes = geompy.SubShapeAll( alveole, geompy.ShapeType["SHAPE"]
)
+
geompy.addToStudy(alveole, "alveole before explode"
)
-## there are 9 subshapes
+subshapes = geompy.SubShapeAll(alveole, geompy.ShapeType["SHAPE"])
-comp1 = geompy.MakeCompound( [ subshapes[0]._get_Name(), subshapes[1]._get_Name() ] );
-comp2 = geompy.MakeCompound( [ subshapes[2]._get_Name(), subshapes[3]._get_Name() ] );
-comp3 = geompy.MakeCompound( [ subshapes[4]._get_Name(), subshapes[5]._get_Name() ] );
-comp4 = geompy.MakeCompound( [ subshapes[6]._get_Name(), subshapes[7]._get_Name() ] );
+## there are 9 subshapes
-compIORs = []
-compIORs.append( comp1._get_Name() );
-compIORs.append( comp2._get_Name() );
-compIORs.append( comp3._get_Name() );
-compIORs.append( comp4._get_Name() );
-comp = geompy.MakeCompound( compIORs );
+comp1 = geompy.MakeCompound([subshapes[0], subshapes[1]]);
+comp2 = geompy.MakeCompound([subshapes[2], subshapes[3]]);
+comp3 = geompy.MakeCompound([subshapes[4], subshapes[5]]);
+comp4 = geompy.MakeCompound([subshapes[6], subshapes[7]]);
-alveole = geompy.MakeCompound( [ comp._get_Name(), subshapes[8]._get_Name() ]);
-
-geompy.addToStudy(alveole, "alveole")
+compGOs = []
+compGOs.append(comp1);
+compGOs.append(comp2);
+compGOs.append(comp3);
+compGOs.append(comp4);
+comp = geompy.MakeCompound(compGOs);
+alveole = geompy.MakeCompound([comp, subshapes[8]]);
+geompy.addToStudy(alveole, "alveole")