Specific conditions for Code_Saturne
Test test_5
"""
-__revision__ = "V1.0"
+__revision__ = "V2.03"
#========================================================================
TEST_NAME = "test_5"
MESH_NAME = "MESH"
#========================================================================
import os
-import tempfile
import sys
import numpy as np
import salome
REP_PYTHON = os.path.join(PATH_HOMARD, "bin", "salome", "test", "HOMARD")
REP_PYTHON = os.path.normpath(REP_PYTHON)
sys.path.append(REP_PYTHON)
-from test_util import remove_dir
+from test_util import get_dir
from test_util import test_results
-# Repertoire des donnees du test
-REP_DATA = os.path.join(PATH_HOMARD, "share", "salome", "homardsamples")
-REP_DATA = os.path.normpath(REP_DATA)
-# Repertoire des resultats
-if DEBUG :
- DIRCASE = os.path.join("/tmp", TEST_NAME)
- if ( os.path.isdir(DIRCASE) ) :
- remove_dir(DIRCASE)
- os.mkdir(DIRCASE)
-else :
- DIRCASE = tempfile.mkdtemp()
+# ==================================
+# Répertoires pour ce test
+REP_DATA, DIRCASE = get_dir(PATH_HOMARD, TEST_NAME, DEBUG)
# ==================================
salome.salome_init()
#
#========================================================================
#========================================================================
-def mesh_exec(theStudy):
+def mesh_exec():
"""
Python script for MED
"""
#
coordinates = list()
coo_z = -0.5*LG_Z
- for kaux in range(nbno_z) :
+ for _ in range(nbno_z) :
coo_y = -0.5*LG_Y
- for jaux in range(nbno_y) :
+ for _ in range(nbno_y) :
coo_x = -0.5*LG_X
- for iaux in range(nbno_x) :
+ for _ in range(nbno_x) :
coordinates.append(coo_x)
coordinates.append(coo_y)
coordinates.append(coo_z)
ficmed = os.path.join(DIRCASE, 'maill.00.med')
#print "Ecriture du maillage dans le fichier", ficmed
meshMEDFile3D.write(ficmed, 2)
- except Exception, eee:
+ except IOError as eee:
error = 2
- raise Exception('ExportToMEDX() failed. '+eee.message)
+ raise Exception('MEDFileUMesh.write() failed. ' + str(eee))
#
break
#
#========================================================================
#
#========================================================================
-def field_exec(theStudy, niter):
+def field_exec(niter):
"""
Python script for MEDCoupling
"""
valeur[num_mail] = 1.e0 / max ( 1.e-5, distance)
#print ". valeur", valeur
nparr = valeur.toNumPyArray()
- print ". mini/maxi", nparr.min(), nparr.max()
+ print(". mini/maxi", nparr.min(), nparr.max())
#
# Creation of the field
# =====================
#========================================================================
#========================================================================
-def homard_exec(theStudy):
+def homard_exec():
"""
Python script for HOMARD
"""
#
while not error :
#
- HOMARD.SetCurrentStudy(theStudy)
+ HOMARD.UpdateStudy()
#
# Creation of the hypothese DISTANCE INVERSE
# ==========================================
hyponame = "DISTANCE INVERSE"
- print "-------- Creation of the hypothesis", hyponame
+ print("-------- Creation of the hypothesis", hyponame)
hypo_5 = HOMARD.CreateHypothesis(hyponame)
hypo_5.SetField('DISTANCE')
hypo_5.SetUseComp(0)
hypo_5.SetRefinThr(1, 0.020)
hypo_5.SetUnRefThr(1, 0.015)
- print hyponame, " : champ utilisé :", hypo_5.GetFieldName()
- print ".. caractéristiques de l'adaptation :", hypo_5.GetField()
+ print(hyponame, " : champ utilisé :", hypo_5.GetFieldName())
+ print(".. caractéristiques de l'adaptation :", hypo_5.GetField())
#
# Creation of the cases
# =====================
# Creation of the case
- print "-------- Creation of the case", TEST_NAME
+ print("-------- Creation of the case", TEST_NAME)
mesh_file = os.path.join(DIRCASE, 'maill.00.med')
case_test_5 = HOMARD.CreateCase(TEST_NAME, 'MESH', mesh_file)
case_test_5.SetDirName(DIRCASE)
#
# Creation of the indicator
#
- error, ficmed_indic = field_exec(theStudy, niter)
+ error, ficmed_indic = field_exec(niter)
if error :
error = 10
break
# Creation of the iteration
#
iter_name = "I_" + TEST_NAME + "_" + s_niterp1
- print "-------- Creation of the iteration", iter_name
+ print("-------- Creation of the iteration", iter_name)
if ( niter == 0 ) :
iter_test_5 = case_test_5.NextIteration(iter_name)
else :
# Geometry and Mesh
#
try :
- ERROR = mesh_exec(salome.myStudy)
+ ERROR = mesh_exec()
if ERROR :
raise Exception('Pb in mesh_exec')
-except Exception, eee:
- raise Exception('Pb in mesh_exec: '+eee.message)
+except RuntimeError as eee:
+ raise Exception('Pb in mesh_exec: '+str(eee.message))
HOMARD = salome.lcc.FindOrLoadComponent('FactoryServer', 'HOMARD')
assert HOMARD is not None, "Impossible to load homard engine"
# Exec of HOMARD-SALOME
#
try :
- ERROR = homard_exec(salome.myStudy)
+ ERROR = homard_exec()
if ERROR :
raise Exception('Pb in homard_exec at iteration %d' %ERROR )
-except Exception, eee:
- raise Exception('Pb in homard_exec: '+eee.message)
+except RuntimeError as eee:
+ raise Exception('Pb in homard_exec: '+str(eee.message))
#
# Test of the results
#
test_results(REP_DATA, TEST_NAME, DIRCASE, N_ITER_TEST_FILE, N_REP_TEST_FILE, DESTROY_DIR)
#
if salome.sg.hasDesktop():
- salome.sg.updateObjBrowser(True)
+ salome.sg.updateObjBrowser()
iparameters.getSession().restoreVisualState(1)