1 # -*- coding: utf-8 -*-
3 # Copyright (C) 2011-2021 CEA/DEN, EDF R&D
5 # This library is free software; you can redistribute it and/or
6 # modify it under the terms of the GNU Lesser General Public
7 # License as published by the Free Software Foundation; either
8 # version 2.1 of the License, or (at your option) any later version.
10 # This library is distributed in the hope that it will be useful,
11 # but WITHOUT ANY WARRANTY; without even the implied warranty of
12 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
13 # Lesser General Public License for more details.
15 # You should have received a copy of the GNU Lesser General Public
16 # License along with this library; if not, write to the Free Software
17 # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
19 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
23 Python script for HOMARD
24 Test tutorial_6 associe au tutorial 6
26 __revision__ = "V4.06"
28 #========================================================================
29 TEST_NAME = "tutorial_6"
32 #========================================================================
38 # ==================================
39 PATH_HOMARD = os.getenv('HOMARD_ROOT_DIR')
40 # Repertoire des scripts utilitaires
41 REP_PYTHON = os.path.join(PATH_HOMARD, "bin", "salome", "test", "HOMARD")
42 REP_PYTHON = os.path.normpath(REP_PYTHON)
43 sys.path.append(REP_PYTHON)
44 from test_util import get_dir
45 from test_util import get_dir_tutorial
46 from test_util import test_results
47 # ==================================
48 # Répertoires pour ce test
49 REP_DATA, DIRCASE = get_dir(PATH_HOMARD, TEST_NAME, DEBUG)
50 DATA_TUTORIAL = get_dir_tutorial(PATH_HOMARD)
51 # ==================================
58 IPAR = iparameters.IParameters(salome.myStudy.GetCommonParameters("Interface Applicative", 1))
59 IPAR.append("AP_MODULES_LIST", "Homard")
62 #========================= Debut de la fonction ==================================
64 def homard_exec(nom, ficmed, nomfr, ficfrmed, verbose=False):
66 Python script for HOMARD
73 # HOMARD.UpdateStudy()
79 boun_6_1 = HOMARD.CreateBoundaryDi('intersection', nomfr, ficfrmed)
81 boun_6_2 = HOMARD.CreateBoundaryCylinder('cyl_1_ext', 0.0, 25., -25., 25., 50., 75., 100.)
83 boun_6_3 = HOMARD.CreateBoundaryCylinder('cyl_2_ext', 17.5, -2.5, -12.5, -100., -75., -25., 50.)
85 boun_6_6 = HOMARD.CreateBoundaryCylinder('cyl_1_int', 0.0, 25., -25., 25., 50., 75., 75.)
87 boun_6_5 = HOMARD.CreateBoundaryCylinder('cyl_2_int', 17.5, -2.5, -12.5, -100., -75., -25., 25.)
93 # Creation of the hypothesis hypo_0_1
94 l_hypothese_0_1 = HOMARD.CreateHypothesis('hypo_6_0_1')
95 l_hypothese_0_1.SetUnifRefinUnRef(1)
96 l_hypothese_0_1.AddGroup('IN1')
97 l_hypothese_0_1.AddGroup('IN2')
98 l_hypothese_0_1.AddGroup('T1_INT_I')
99 l_hypothese_0_1.AddGroup('T1_INT_O')
100 l_hypothese_0_1.AddGroup('T2_INT')
101 # Creation of the hypothesis hypo_1_2
102 l_hypothese_1_2 = HOMARD.CreateHypothesis('hypo_6_1_2')
103 l_hypothese_1_2.SetUnifRefinUnRef(1)
104 l_hypothese_1_2.AddGroup('T1_EXT_I')
105 l_hypothese_1_2.AddGroup('T1_EXT_O')
106 l_hypothese_1_2.AddGroup('T2_EXT')
107 # Creation of the hypothesis hypo_2_3
108 l_hypothese_2_3 = HOMARD.CreateHypothesis('hypo_6_2_3')
109 l_hypothese_2_3.SetUnifRefinUnRef(1)
110 l_hypothese_2_3.AddGroup('INT_I')
111 l_hypothese_2_3.AddGroup('INT_E')
112 l_hypothese_2_3.AddGroup('IN1')
113 l_hypothese_2_3.AddGroup('IN2')
119 le_cas = HOMARD.CreateCase('case_'+nom, nom, ficmed)
120 le_cas.SetDirName(DIRCASE)
121 le_cas.AddBoundary( 'intersection' )
122 le_cas.AddBoundaryGroup( 'cyl_1_int', 'T1_INT_I' )
123 le_cas.AddBoundaryGroup( 'cyl_1_ext', 'T1_EXT_I' )
124 le_cas.AddBoundaryGroup( 'cyl_1_int', 'T1_INT_O' )
125 le_cas.AddBoundaryGroup( 'cyl_1_ext', 'T1_EXT_O' )
126 le_cas.AddBoundaryGroup( 'cyl_2_int', 'T2_INT' )
127 le_cas.AddBoundaryGroup( 'cyl_2_ext', 'T2_EXT' )
136 print(". Itérations")
137 # Iteration iter_6_1 : raffinement selon les faces internes
138 iter_6_1 = le_cas.NextIteration('iter_6_1')
139 iter_6_1.SetMeshName('PIQUAGE_1')
140 iter_6_1.SetMeshFile(os.path.join(DIRCASE, "maill.01.med"))
141 iter_6_1.AssociateHypo('hypo_6_0_1')
142 erreur = iter_6_1.Compute(1, option)
143 print ("erreur = %d" % erreur)
146 # Iteration iter_6_2 : raffinement selon les faces externes
147 iter_6_2 = iter_6_1.NextIteration('iter_6_2')
148 iter_6_2.SetMeshName('PIQUAGE_2')
149 iter_6_2.SetMeshFile(os.path.join(DIRCASE, "maill.02.med"))
150 iter_6_2.AssociateHypo('hypo_6_1_2')
151 erreur = iter_6_2.Compute(1, option)
154 # Iteration iter_6_3 : second raffinement selon les faces externes
155 iter_6_3 = iter_6_2.NextIteration('iter_6_3')
156 iter_6_3.SetMeshName('PIQUAGE_3')
157 iter_6_3.SetMeshFile(os.path.join(DIRCASE, "maill.03.med"))
158 iter_6_3.AssociateHypo('hypo_6_2_3')
159 erreur = iter_6_3.Compute(1, option)
166 message += "Erreur au calcul de l'itération %d" % erreur
168 return erreur, message
170 #========================== Fin de la fonction ==================================
176 # A. Exec of HOMARD-SALOME
178 HOMARD = salome.lcc.FindOrLoadComponent('FactoryServer', 'HOMARD')
179 assert HOMARD is not None, "Impossible to load homard engine"
180 HOMARD.SetLanguageShort("fr")
182 FICMED = os.path.join(DATA_TUTORIAL, "tutorial_4.00.med")
183 FICFRMED = os.path.join(DATA_TUTORIAL, TEST_NAME+".fr.med")
185 ERREUR, MESSAGE = homard_exec("PIQUAGE", FICMED, "COURBES", FICFRMED, DEBUG)
186 except RuntimeError as eee:
188 MESSAGE = str(eee.message)
191 MESSAGE += "Pb in homard_exec"
194 # B. Test of the results
196 N_REP_TEST_FILE = N_ITER_TEST_FILE
197 DESTROY_DIR = not DEBUG
198 test_results(REP_DATA, TEST_NAME, DIRCASE, N_ITER_TEST_FILE, N_REP_TEST_FILE, DESTROY_DIR)
203 raise Exception(MESSAGE)
205 if salome.sg.hasDesktop():
206 salome.sg.updateObjBrowser()
207 iparameters.getSession().restoreVisualState(1)