1 # Copyright (C) 2011-2016 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
21 import MEDCALC, SALOME
22 from medcalc.medevents import notifyGui_addPresentation, notifyGui_removePresentation, notifyGui_error
24 __manager = medcalc.medcorba.factory.getPresentationManager()
26 def MakeMeshView(proxy,
27 viewMode=MEDCALC.VIEW_MODE_DEFAULT,
28 meshMode=MEDCALC.MESH_MODE_DEFAULT):
29 # Create the presentation instance in CORBA engine
30 # The engine in turn creates the ParaView pipeline elements
31 params = MEDCALC.MeshViewParameters(proxy.id, meshMode)
33 presentation_id = __manager.makeMeshView(params, viewMode)
34 notifyGui_addPresentation(proxy.id, presentation_id)
35 return presentation_id
36 except SALOME.SALOME_Exception as e:
37 notifyGui_error("An error occured while creating the mesh view:\n" + e.details.text)
38 raise Exception(e.details.text)
41 def MakeScalarMap(proxy,
42 viewMode=MEDCALC.VIEW_MODE_DEFAULT,
43 displayedComponent=MEDCALC.DISPLAY_DEFAULT,
44 scalarBarRange=MEDCALC.SCALAR_BAR_RANGE_DEFAULT,
45 colorMap=MEDCALC.COLOR_MAP_DEFAULT
47 # Create the presentation instance in CORBA engine
48 # The engine in turn creates the ParaView pipeline elements
49 params = MEDCALC.ScalarMapParameters(proxy.id, displayedComponent, scalarBarRange, colorMap)
51 presentation_id = __manager.makeScalarMap(params, viewMode)
52 notifyGui_addPresentation(proxy.id, presentation_id)
53 return presentation_id
54 except SALOME.SALOME_Exception as e:
55 notifyGui_error("An error occured while creating the scalar map:\n" + e.details.text)
56 raise Exception(e.details.text)
58 def MakeContour(proxy,
59 viewMode=MEDCALC.VIEW_MODE_DEFAULT,
60 scalarBarRange=MEDCALC.SCALAR_BAR_RANGE_DEFAULT,
61 colorMap=MEDCALC.COLOR_MAP_DEFAULT,
62 nbContours=MEDCALC.NB_CONTOURS_DEFAULT
64 params = MEDCALC.ContourParameters(proxy.id, scalarBarRange, colorMap, nbContours)
66 presentation_id = __manager.makeContour(params, viewMode)
67 notifyGui_addPresentation(proxy.id, presentation_id)
68 return presentation_id
69 except SALOME.SALOME_Exception as e:
70 notifyGui_error("An error occured while creating the contour:\n" + e.details.text)
71 raise Exception(e.details.text)
75 #def MakeVectorField(proxy,
76 # viewMode=MEDCALC.VIEW_MODE_DEFAULT
78 # params = MEDCALC.VectorFieldParameters(proxy.id, viewMode)
79 # presentation_id = __manager.makeVectorField(params)
80 # notifyGui_addPresentation(proxy.id, presentation_id)
81 # return presentation_id
85 viewMode=MEDCALC.VIEW_MODE_DEFAULT,
86 displayedComponent=MEDCALC.DISPLAY_DEFAULT,
87 scalarBarRange=MEDCALC.SCALAR_BAR_RANGE_DEFAULT,
88 colorMap=MEDCALC.COLOR_MAP_DEFAULT,
89 sliceOrientation=MEDCALC.SLICE_ORIENTATION_DEFAULT,
90 nbSlices=MEDCALC.NB_SLICES_DEFAULT):
91 # Create the presentation instance in CORBA engine
92 # The engine in turn creates the ParaView pipeline elements
93 params = MEDCALC.SlicesParameters(proxy.id, displayedComponent,scalarBarRange, colorMap,
94 sliceOrientation, nbSlices)
96 presentation_id = __manager.makeSlices(params, viewMode)
97 notifyGui_addPresentation(proxy.id, presentation_id)
98 return presentation_id
99 except SALOME.SALOME_Exception as e:
100 notifyGui_error("An error occured while creating the slices:\n" + e.details.text)
101 raise Exception(e.details.text)
104 #def MakeDeflectionShape(proxy,
105 # viewMode=MEDCALC.VIEW_MODE_DEFAULT
107 # params = MEDCALC.DeflectionShapeParameters(proxy.id, viewMode)
108 # presentation_id = __manager.makeDeflectionShape(params)
109 # notifyGui_addPresentation(proxy.id, presentation_id)
110 # return presentation_id
113 #def MakePointSprite(proxy,
114 # viewMode=MEDCALC.VIEW_MODE_DEFAULT,
115 # displayedComponent=MEDCALC.DISPLAY_DEFAULT,
116 # scalarBarRange=MEDCALC.SCALAR_BAR_RANGE_DEFAULT,
117 # colorMap=MEDCALC.COLOR_MAP_DEFAULT,
119 # params = MEDCALC.PointSpriteParameters(proxy.id, viewMode, displayedComponent, scalarBarRange, colorMap)
120 # presentation_id = __manager.makePointSprite(params)
121 # notifyGui_addPresentation(proxy.id, presentation_id)
122 # return presentation_id
125 def RemovePresentation(presentation_id):
126 ok = __manager.removePresentation(presentation_id)
128 notifyGui_removePresentation(presentation_id)
131 def GetGENERICParameters(tag, presentation_id):
132 exec "params = __manager.get%sParameters(presentation_id)" % tag
135 GetMeshViewParameters = lambda pres_id: GetGENERICParameters("MeshView", pres_id)
136 GetScalarMapParameters = lambda pres_id: GetGENERICParameters("ScalarMap", pres_id)
137 GetContourParameters = lambda pres_id: GetGENERICParameters("Contour", pres_id)
138 GetSlicesParameters = lambda pres_id: GetGENERICParameters("Slices", pres_id)
141 def UpdateGENERIC(tag, presentation_id, params):
142 exec "__manager.update%s(presentation_id, params)" % tag
144 UpdateMeshView = lambda pres_id, params: UpdateGENERIC("MeshView", pres_id, params)
145 UpdateScalarMap = lambda pres_id, params: UpdateGENERIC("ScalarMap", pres_id, params)
146 UpdateContour = lambda pres_id, params: UpdateGENERIC("Contour", pres_id, params)
147 UpdateSlices = lambda pres_id, params: UpdateGENERIC("Slices", pres_id, params)