-# Copyright (C) 2010-2014 CEA/DEN, EDF R&D
+# Copyright (C) 2010-2016 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
from paravistest import datadir, delete_with_inputs
from presentations import *
-import paravis
from pvsimple import *
+from paravistest import save_trace
+from paraview import smtrace
-my_paravis = paravis.myParavis
+GetActiveViewOrCreate('RenderView')
+
+config = smtrace.start_trace()
+config.SetFullyTraceSupplementalProxies(True)
+config.SetPropertiesToTraceOnCreate(config.RECORD_ALL_PROPERTIES)
settings = {"Offset": [0.0001, 0.0002, 0], "ScalarMode": ("Component", 2), "Position": [0.1, 0.2], "Size": [0.15, 0.25], "Discretize": 1, "NbColors": 44, "NbLabels": 22, "Title": "My presentation", "UseLogScale": 1, "Orientation": 'Horizontal', "Scale": 0.12929}
# 1. TimeStamps.med import
file_path = datadir + "TimeStamps.med"
-my_paravis.ImportFile(file_path)
+OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None:
raise RuntimeError, "TimeStamps.med wasn't imported..."
med_field = "vitesse"
prs = DeformedShapeAndScalarMapOnField(med_reader, EntityType.NODE, med_field, 1)
+prs.Visibility = 1
+prs.SetScalarBarVisibility(GetActiveView(),1)
# apply settings
prs.Position = settings["Offset"]
bar.Orientation = settings["Orientation"]
# 3. Dump Study
+text = smtrace.stop_trace()
path_to_save = os.path.join(os.getenv("HOME"), "ScalarMapOnDeformedShape.py")
-SaveTrace( path_to_save )
+save_trace( path_to_save, text )
# 4. Delete the created objects, recreate the view
delete_with_inputs(prs)
execfile(path_to_save)
# 6. Checking of the settings done before dump
-recreated_bar = view.Representations[0]
-recreated_prs = view.Representations[1]
+recreated_bar = view.Representations[1]
+recreated_prs = view.Representations[0]
errors = 0
tolerance = 1e-05
if abs(cur_range_max - range_max) > tolerance:
print "ERROR!!! Maximum value of range of presentation is incorrect: ", cur_range_max, " instead of ", range_max
errors += 1
-
+
# Scale factor
scale = recreated_prs.Input.ScaleFactor
if abs(scale - settings["Scale"]) > tolerance: