# -*- coding: iso-8859-1 -*-
-# Copyright (C) 2007-2015 CEA/DEN, EDF R&D, OPEN CASCADE
+# Copyright (C) 2007-2016 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
# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
#
-print
-print "Perform quick test of the application by loading of the GEOM, SMESH, MED, PARAVIS"
-print "components and doing some operation within the components."
-print
+print()
+print("Perform quick test of the application by loading of the GEOM, SMESH, MED, PARAVIS")
+print("components and doing some operation within the components.")
+print()
import salome
import SALOME
step = 1
-print "======================================================================"
-print " %d. Initialize study " % step; step+=1
-print "======================================================================"
+print("======================================================================")
+print(" %d. Initialize study " % step); step+=1
+print("======================================================================")
# initialize study
salome.salome_init()
# get study builder
builder = salome.myStudy.NewBuilder()
-print "OK"
+print("OK")
-print
+print()
-print "======================================================================"
-print " %d. Retrieve module catalog " % step; step+=1
-print "======================================================================"
+print("======================================================================")
+print(" %d. Retrieve module catalog " % step); step+=1
+print("======================================================================")
obj = salome.naming_service.Resolve('Kernel/ModulCatalog')
catalog = obj._narrow(SALOME_ModuleCatalog.ModuleCatalog)
if not catalog:
- raise RuntimeError, "Can't accesss module catalog"
-print "OK"
+ raise RuntimeError("Can't accesss module catalog")
+print("OK")
-print
+print()
-print "======================================================================"
-print " %d. Check modules availability in the module catalog " % step; step+=1
-print "======================================================================"
+print("======================================================================")
+print(" %d. Check modules availability in the module catalog " % step); step+=1
+print("======================================================================")
for module in [ "GEOM", "SMESH", "MEDFactory", "PVSERVER"]:
- print
- print "--- Check %s ..." % module
+ print()
+ print("--- Check %s ..." % module)
comp = catalog.GetComponent(module)
if not comp:
- raise RuntimeError, "Component %s is not found in Module Catalog." % module
- print "OK"
+ raise RuntimeError("Component %s is not found in Module Catalog." % module)
+ print("OK")
pass
-print
+print()
-print "======================================================================"
-print " %d. Test Data Server " % step; step+=1
-print "======================================================================"
+print("======================================================================")
+print(" %d. Test Data Server " % step); step+=1
+print("======================================================================")
-print
-print "--- Create new component ..."
+print()
+print("--- Create new component ...")
comp = builder.NewComponent("TEST")
if not comp:
- raise RuntimeError, "Can't create new component"
-print "OK"
+ raise RuntimeError("Can't create new component")
+print("OK")
-print
-print "--- Create AttributeName ..."
+print()
+print("--- Create AttributeName ...")
A = builder.FindOrCreateAttribute(comp, "AttributeName")
if not A:
- raise RuntimeError, "Can't create AttributeName attribute"
+ raise RuntimeError("Can't create AttributeName attribute")
A.SetValue("TEST")
if A.Value() != "TEST":
- raise RuntimeError, "Error : wrong value of AttributeName"
-print "OK"
+ raise RuntimeError("Error : wrong value of AttributeName")
+print("OK")
-print
-print "--- Create AttributeReal ..."
+print()
+print("--- Create AttributeReal ...")
A = builder.FindOrCreateAttribute(comp, "AttributeReal")
if not A:
- raise RuntimeError, "Can't create AttributeReal attribute"
+ raise RuntimeError("Can't create AttributeReal attribute")
A.SetValue(0.0001)
if A.Value() != 0.0001:
- raise RuntimeError, "Error : wrong value of AttributeReal"
-print "OK"
+ raise RuntimeError("Error : wrong value of AttributeReal")
+print("OK")
-print
+print()
-print "======================================================================"
-print " %d. Test Geometry " % step; step+=1
-print "======================================================================"
+print("======================================================================")
+print(" %d. Test Geometry " % step); step+=1
+print("======================================================================")
from salome.geom import geomBuilder
-geompy = geomBuilder.New(salome.myStudy)
+geompy = geomBuilder.New()
ShapeTypeCompSolid = 1
ShapeTypeSolid = 2
ShapeTypeEdge = 6
ShapeTypeVertex = 7
-print
-print "--- Create a box ..."
+print()
+print("--- Create a box ...")
box = geompy.MakeBox(0., 0., 0., 100., 200., 300.)
idbox = geompy.addToStudy(box, "box")
box_obj = salome.myStudy.FindObjectByPath("/Geometry/box")
if not box_obj:
- raise RuntimeError, "Error : wrong value of AttributeReal"
-print "OK"
+ raise RuntimeError("Error : wrong value of AttributeReal")
+print("OK")
# ---- add shell from box in study
-print
-print "--- Extract shell ..."
+print()
+print("--- Extract shell ...")
subShellList = geompy.SubShapeAll(box, ShapeTypeShell)
shell = subShellList[0]
name = geompy.SubShapeName(shell, box)
idshell = geompy.addToStudyInFather(box, shell, name)
-print name
-print "OK"
+print(name)
+print("OK")
# ---- add first face of box in study
-print
-print "--- Extract face ..."
+print()
+print("--- Extract face ...")
subShapeList = geompy.SubShapeAll(box, ShapeTypeFace)
face = subShapeList[0]
name = geompy.SubShapeName(face, box)
idface = geompy.addToStudyInFather(box, face, name)
-print name
-print "OK"
+print(name)
+print("OK")
# ---- add first edge of face in study
-print
-print "--- Extract edge ..."
+print()
+print("--- Extract edge ...")
edgeList = geompy.SubShapeAll(face, ShapeTypeEdge)
edge = edgeList[0];
name = geompy.SubShapeName(edge, face)
idedge = geompy.addToStudyInFather(face, edge, name)
-print name
-print "OK"
+print(name)
+print("OK")
# ---- update object browser
if salome.hasDesktop():
- salome.sg.updateObjBrowser(1);
+ salome.sg.updateObjBrowser();
-print
+print()
-print "======================================================================"
-print " %d. Test Mesh " % step; step+=1
-print "======================================================================"
+print("======================================================================")
+print(" %d. Test Mesh " % step); step+=1
+print("======================================================================")
from salome.StdMeshers import StdMeshersBuilder
import SMESH
smesh = salome.lcc.FindOrLoadComponent("FactoryServer", "SMESH")
if salome.hasDesktop():
smeshgui = salome.ImportComponentGUI("SMESH")
- smeshgui.Init(salome.myStudyId);
+ smeshgui.Init();
else:
- smesh = smeshBuilder.New(salome.myStudy)
+ smesh = smeshBuilder.New()
# ---- create hypotheses
-if sys.platform == "win32":
- stdMeshersEngine = "StdMeshersEngine"
-else:
- stdMeshersEngine = "libStdMeshersEngine.so"
+stdMeshersEngine = "StdMeshersEngine"
-print
-print "--- Create hypotheses ..."
+print()
+print("--- Create hypotheses ...")
-print
-print "------ LocalLength ..."
+print()
+print("------ LocalLength ...")
hypLen1 = smesh.CreateHypothesis( "LocalLength", stdMeshersEngine )
hypLen1.SetLength(100)
-print hypLen1.GetName()
-print hypLen1.GetId()
-print hypLen1.GetLength()
+print(hypLen1.GetName())
+print(hypLen1.GetId())
+print(hypLen1.GetLength())
if salome.hasDesktop():
smeshgui.SetName(salome.ObjectToID(hypLen1), "Local_Length_100")
-print "OK"
+print("OK")
-print
-print "------ NumberOfSegments ..."
+print()
+print("------ NumberOfSegments ...")
hypNbSeg1= smesh.CreateHypothesis( "NumberOfSegments", stdMeshersEngine )
hypNbSeg1.SetNumberOfSegments(7)
-print hypNbSeg1.GetName()
-print hypNbSeg1.GetId()
-print hypNbSeg1.GetNumberOfSegments()
+print(hypNbSeg1.GetName())
+print(hypNbSeg1.GetId())
+print(hypNbSeg1.GetNumberOfSegments())
if salome.hasDesktop():
smeshgui.SetName(salome.ObjectToID(hypNbSeg1), "NumberOfSegments_7")
-print "OK"
+print("OK")
-print
-print "------ MaxElementArea [1] ..."
+print()
+print("------ MaxElementArea [1] ...")
hypArea1 = smesh.CreateHypothesis( "MaxElementArea", stdMeshersEngine )
hypArea1.SetMaxElementArea(2500)
-print hypArea1.GetName()
-print hypArea1.GetId()
-print hypArea1.GetMaxElementArea()
+print(hypArea1.GetName())
+print(hypArea1.GetId())
+print(hypArea1.GetMaxElementArea())
if salome.hasDesktop():
smeshgui.SetName(salome.ObjectToID(hypArea1), "MaxElementArea_2500")
-print "OK"
+print("OK")
-print
-print "------ MaxElementArea [2] ..."
+print()
+print("------ MaxElementArea [2] ...")
hypArea2 = smesh.CreateHypothesis( "MaxElementArea", stdMeshersEngine )
hypArea2.SetMaxElementArea(500)
-print hypArea2.GetName()
-print hypArea2.GetId()
-print hypArea2.GetMaxElementArea()
+print(hypArea2.GetName())
+print(hypArea2.GetId())
+print(hypArea2.GetMaxElementArea())
if salome.hasDesktop():
smeshgui.SetName(salome.ObjectToID(hypArea2), "MaxElementArea_500")
-print "OK"
+print("OK")
# ---- create algorithms
-print
-print "--- Create algorithms ..."
+print()
+print("--- Create algorithms ...")
-print
-print "------ Regular_1D ..."
+print()
+print("------ Regular_1D ...")
algoReg = smesh.CreateHypothesis( "Regular_1D", stdMeshersEngine )
listHyp = algoReg.GetCompatibleHypothesis()
for hyp in listHyp:
- print hyp
-print algoReg.GetName()
-print algoReg.GetId()
+ print(hyp)
+print(algoReg.GetName())
+print(algoReg.GetId())
if salome.hasDesktop():
smeshgui.SetName(salome.ObjectToID(algoReg), "Regular_1D" )
-print "OK"
+print("OK")
-print
-print "------ MEFISTO_2D ..."
+print()
+print("------ MEFISTO_2D ...")
algoMef = smesh.CreateHypothesis( "MEFISTO_2D", stdMeshersEngine )
listHyp=algoMef.GetCompatibleHypothesis()
for hyp in listHyp:
- print hyp
-print algoMef.GetName()
-print algoMef.GetId()
+ print(hyp)
+print(algoMef.GetName())
+print(algoMef.GetId())
if salome.hasDesktop():
smeshgui.SetName(salome.ObjectToID(algoMef), "MEFISTO_2D" )
-print "OK"
+print("OK")
# ---- create mesh on the box, apply hypotheses / algorithms
-print
-print "--- Create mesh on the box ..."
+print()
+print("--- Create mesh on the box ...")
mesh = smesh.CreateMesh(box)
if salome.hasDesktop():
smeshgui.SetName( salome.ObjectToID(mesh), "MeshBox" );
ret = mesh.AddHypothesis(box, algoMef)
ret = mesh.AddHypothesis(box, hypNbSeg1)
ret = mesh.AddHypothesis(box, hypArea1)
-print "OK"
+print("OK")
# ---- create submesh on the edge, add hypothesis
-print
-print "--- Add 1D sub-mesh on the edge ..."
+print()
+print("--- Add 1D sub-mesh on the edge ...")
submesh = mesh.GetSubMesh(edge, "SubMeshEdge")
ret = mesh.AddHypothesis(edge, algoReg)
ret = mesh.AddHypothesis(edge, hypLen1)
-print "OK"
+print("OK")
# ---- create submesh on the edge, add hypothesis
-print
-print "--- Add 2D sub-mesh on the face ..."
+print()
+print("--- Add 2D sub-mesh on the face ...")
submesh = mesh.GetSubMesh(face, "SubMeshFace")
ret = mesh.AddHypothesis(face, hypArea2)
-print "OK"
+print("OK")
# ---- compute mesh
-print
-print "--- Compute mesh ..."
+print()
+print("--- Compute mesh ...")
smesh.Compute(mesh, box)
-print "OK"
+print("OK")
# ---- update object browser
if salome.hasDesktop():
- salome.sg.updateObjBrowser(1);
+ salome.sg.updateObjBrowser();
-print
+print()
-print "======================================================================"
-print " %d. Test Med " % step; step+=1
-print "======================================================================"
+print("======================================================================")
+print(" %d. Test Med " % step); step+=1
+print("======================================================================")
import medcalc
#from medcalc import properties
medcalc.medconsole.setConsoleGlobals(globals())
try:
med_root=os.environ["MED_ROOT_DIR"]
-except KeyError, e:
+except KeyError as e:
raise RuntimeError("MED_ROOT_DIR should be defined to load the test data")
filepath = os.path.join(med_root,"share","salome","resources","med","medcalc_testfiles","smallmesh_varfield.med")
fieldHandlerList = medcalc.medevents.dataManager.getFieldHandlerList()
fieldHandler0 = fieldHandlerList[0]
-print "---Field Handler 0:\n%s" % fieldHandler0
+print("---Field Handler 0:\n%s" % fieldHandler0)
fieldHandler1 = fieldHandlerList[1]
-print "---Field Handler 1:\n%s" % fieldHandler1
+print("---Field Handler 1:\n%s" % fieldHandler1)
-print "--- The addition of two fields can be done using field handler directly."
+print("--- The addition of two fields can be done using field handler directly.")
addFieldHandler = medcalc.fieldproxy.calculator.add(fieldHandler0,fieldHandler1)
-print "--- Result handler:\n%s" % addFieldHandler
+print("--- Result handler:\n%s" % addFieldHandler)
-print "--- Or with a field proxy that easy the writing of operations."
+print("--- Or with a field proxy that easy the writing of operations.")
fieldProxy0 = FieldProxy(fieldHandler0)
fieldProxy1 = FieldProxy(fieldHandler1)
resHandler = fieldProxy0 + fieldProxy1
if resHandler is None:
- print "Error: result handler is None!"
+ print("Error: result handler is None!")
else:
- print "--- Result handler:\n%s" % resHandler
- print "OK"
+ print("--- Result handler:\n%s" % resHandler)
+ print("OK")
-print
+print()
-print "======================================================================"
-print " %d. Test Paravis " % step; step+=1
-print "======================================================================"
+print("======================================================================")
+print(" %d. Test Paravis " % step); step+=1
+print("======================================================================")
if salome.hasDesktop(): # in gui mode
- print "**** Importing pvserver... It can take some time."
+ print("**** Importing pvserver... It can take some time.")
from presentations import *
import pvserver
import pvsimple
#====================Stage1: Importing MED file====================
- print "**** Stage1: Importing MED file"
+ print("**** Stage1: Importing MED file")
- print 'Import "ResOK_0000.med"...............',
+ print('Import "ResOK_0000.med"...............', end=' ')
medFileName = "ResOK_0000.med"
medFile = os.path.join(os.getenv('DATA_DIR'), 'MedFiles', medFileName)
pvsimple.MEDReader( FileName=medFile )
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
cell_entity = EntityType.CELL
node_entity = EntityType.NODE
#====================Stage2: Displaying vector field===============
- print "**** Stage3: Displaying vector field"
+ print("**** Stage3: Displaying vector field")
- print 'Get view...................',
+ print('Get view...................', end=' ')
view = pvsimple.GetRenderView()
if view is None:
- print "FAILED"
+ print("FAILED")
else:
reset_view(view)
- print "OK"
+ print("OK")
- print "Creating Scalar Map.......",
+ print("Creating Scalar Map.......", end=' ')
scalarmap = ScalarMapOnField(med_reader, node_entity, 'vitesse', 2)
if scalarmap is None:
- print "FAILED"
+ print("FAILED")
else:
bar = get_bar()
bar.Orientation = 'Horizontal'
bar.AspectRatio = 3
display_only(scalarmap, view)
- print "OK"
+ print("OK")
view.ResetCamera()
- print "Creating Vectors..........",
+ print("Creating Vectors..........", end=' ')
vectors = VectorsOnField(med_reader, node_entity, 'vitesse', 2)
if vectors is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(vectors, view)
- print "OK"
+ print("OK")
- print "Creating Iso Surfaces.....",
+ print("Creating Iso Surfaces.....", end=' ')
isosurfaces = IsoSurfacesOnField(med_reader, node_entity, 'vitesse', 2)
if isosurfaces is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(isosurfaces, view)
- print "OK"
+ print("OK")
- print "Creating Cut Planes.......",
+ print("Creating Cut Planes.......", end=' ')
cutplanes = CutPlanesOnField(med_reader, node_entity, 'vitesse', 2,
nb_planes=30, orientation=Orientation.YZ)
if cutplanes is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(cutplanes, view)
- print "OK"
+ print("OK")
- print "Creating Scalar Map On Deformed Shape.......",
+ print("Creating Scalar Map On Deformed Shape.......", end=' ')
scalarmapondefshape = DeformedShapeAndScalarMapOnField(med_reader,
node_entity,
'vitesse', 2,
cell_entity,
'pression')
if scalarmapondefshape is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(scalarmapondefshape, view)
- print "OK"
+ print("OK")
else: # not in gui mode, Paravis can not be tested
- print
- print "PARAVIS module requires SALOME to be running in GUI mode."
- print
- print "Skipping test for PARAVIS..."
+ print()
+ print("PARAVIS module requires SALOME to be running in GUI mode.")
+ print()
+ print("Skipping test for PARAVIS...")
pass
# ---- update object browser
if salome.hasDesktop():
- salome.sg.updateObjBrowser(1);
+ salome.sg.updateObjBrowser();