1 # Copyright (C) 2010-2014 CEA/DEN, EDF R&D
3 # This library is free software; you can redistribute it and/or
4 # modify it under the terms of the GNU Lesser General Public
5 # License as published by the Free Software Foundation; either
6 # version 2.1 of the License, or (at your option) any later version.
8 # This library is distributed in the hope that it will be useful,
9 # but WITHOUT ANY WARRANTY; without even the implied warranty of
10 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
11 # Lesser General Public License for more details.
13 # You should have received a copy of the GNU Lesser General Public
14 # License along with this library; if not, write to the Free Software
15 # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
17 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
20 # This case corresponds to: /visu/dump_study/A2 case
22 from paravistest import datadir, delete_with_inputs
23 from presentations import *
25 from pvsimple import *
27 my_paravis = paravis.myParavis
29 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', "Orientation_BasePlane": [Orientation.ZX, 22, 33], "Orientation_CuttingPlanes": [Orientation.YZ, 44, 55], "Displacement": 0.1, "Displacement2": 0.2, "BasePlane_Position": 0.1, "NbLines": 3}
31 # 1. TimeStamps.med import
32 file_path = datadir + "TimeStamps.med"
33 my_paravis.ImportFile(file_path)
34 med_reader = GetActiveSource()
35 if med_reader is None :
36 raise RuntimeError, "TimeStamps.med wasn't imported..."
38 # 2. CutLines creation
41 nb_lines = settings["NbLines"]
42 orient1 = settings["Orientation_BasePlane"][0]
43 base_ang1 = settings["Orientation_BasePlane"][1]
44 base_ang2 = settings["Orientation_BasePlane"][2]
45 orient2 = settings["Orientation_CuttingPlanes"][0]
46 cut_ang1 = settings["Orientation_CuttingPlanes"][1]
47 cut_ang2 = settings["Orientation_CuttingPlanes"][2]
48 d1 = settings["Displacement"]
49 d2 = settings["Displacement2"]
51 cutlines = CutLinesOnField(med_reader, EntityType.NODE, med_field, 1, nb_lines, orient1, base_ang1, base_ang2, orient2, cut_ang1, cut_ang2, d1, d2)
54 cutlines.Position = settings["Offset"]
55 cutlines.LookupTable.VectorMode = settings["ScalarMode"][0]
56 cutlines.LookupTable.VectorComponent = settings["ScalarMode"][1]
57 cutlines.LookupTable.Discretize = settings["Discretize"]
58 cutlines.LookupTable.NumberOfTableValues = settings["NbColors"]
59 cutlines.LookupTable.UseLogScale = settings["UseLogScale"]
61 cutlines.Input.Input.SliceOffsetValues[0] = settings["BasePlane_Position"]
63 normal1 = list(cutlines.Input.Input.SliceType.Normal)
64 pos1 = list(cutlines.Input.Input.SliceOffsetValues)
65 normal2 = list(cutlines.Input.SliceType.Normal)
66 pos2 = list(cutlines.Input.SliceOffsetValues)
69 bar.Position = settings["Position"]
70 bar.Position2 = settings["Size"]
71 bar.NumberOfLabels = settings["NbLabels"]
72 bar.Title = settings["Title"]
73 bar.Orientation = settings["Orientation"]
76 path_to_save = os.path.join(os.getenv("HOME"), "CutLines.py")
77 SaveTrace( path_to_save )
79 # 4. Delete the created objects, recreate the view
80 delete_with_inputs(cutlines)
81 Delete(GetActiveView())
82 view = CreateRenderView()
84 # 5. Execution of the created script
85 execfile(path_to_save)
87 # 6. Checking of the settings done before dump
88 recreated_bar = view.Representations[0]
89 recreated_cutlines = view.Representations[1]
95 offset = recreated_cutlines.Position
96 for i in range(len(settings["Offset"])):
97 if abs(offset[i] - settings["Offset"][i]) > tolerance:
98 print "ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i]
102 vector_mode = recreated_cutlines.LookupTable.VectorMode
103 vector_component = recreated_cutlines.LookupTable.VectorComponent
105 if vector_mode != settings["ScalarMode"][0]:
106 print "ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0]
108 if vector_component != settings["ScalarMode"][1]:
109 print "ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1]
112 # Position of scalar bar
113 pos_x = recreated_bar.Position[0]
114 pos_y = recreated_bar.Position[1]
116 if abs(pos_x - settings["Position"][0]) > tolerance:
117 print "ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0]
119 if abs(pos_y - settings["Position"][1]) > tolerance:
120 print "ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1]
124 width = recreated_bar.Position2[0]
125 height = recreated_bar.Position2[1]
127 if abs(width - settings["Size"][0]) > tolerance:
128 print "ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0]
130 if abs(height - settings["Size"][1]) > tolerance:
131 print "ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1]
135 discretize = recreated_cutlines.LookupTable.Discretize
136 if discretize != settings["Discretize"]:
137 print "ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"]
141 nb_colors = recreated_cutlines.LookupTable.NumberOfTableValues
142 if nb_colors != settings["NbColors"]:
143 print "ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"]
147 nb_labels = recreated_bar.NumberOfLabels
148 if nb_labels != settings["NbLabels"]:
149 print "ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"]
153 title = recreated_bar.Title
154 if title != settings["Title"]:
155 print "ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"]
159 use_log_scale = recreated_cutlines.LookupTable.UseLogScale
160 if use_log_scale != settings["UseLogScale"]:
161 print "ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"]
165 orientation = recreated_bar.Orientation
166 if orientation != settings["Orientation"]:
167 print "ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"]
171 cur_normal = list(recreated_cutlines.Input.Input.SliceType.Normal)
172 if cur_normal != normal1:
173 print "ERROR!!! Normal of base plane is incorrect: ", cur_normal, " instead of ", normal1
176 # Base Plane Position
177 cur_pos = list(recreated_cutlines.Input.Input.SliceOffsetValues)
179 print "ERROR!!! Position of base plane is incorrect: ", cur_pos, " instead of ", pos1
183 cur_normal = list(recreated_cutlines.Input.SliceType.Normal)
184 if cur_normal != normal2:
185 print "ERROR!!! Normal of cutting planes is incorrect: ", cur_normal, " instead of ", normal2
188 # Cutting Planes Position
189 cur_pos = list(recreated_cutlines.Input.SliceOffsetValues)
191 print "ERROR!!! Positions of cutting planes are incorrect: ", cur_pos, " instead of ", pos2
195 raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."