-sg.updateObjBrowser(1);
-
-print
-print "============= Test Supervisor ============================="
-print
-
-comp = catalog.GetComponent("SUPERV")
-if comp is None:
- raise RuntimeError,"Component SUPERV not found in Module Catalog."
-
-from SuperV import *
-import SALOMEDS
-myStudy = salome.myStudy
-myBuilder = myStudy.NewBuilder()
-
-SuperVision = lcc.FindOrLoadComponent("SuperVisionContainer","SUPERV")
-father = myStudy.FindComponent("SUPERV")
-if father is None:
- father = myBuilder.NewComponent("SUPERV")
- A1 = myBuilder.FindOrCreateAttribute(father, "AttributeName");
- FName = A1._narrow(SALOMEDS.AttributeName)
- FName.SetValue( salome.sg.getComponentUserName("SUPERV") )
- A2 = myBuilder.FindOrCreateAttribute(father, "AttributePixMap");
- aPixmap = A2._narrow(SALOMEDS.AttributePixMap);
- aPixmap.SetPixMap( "ICON_OBJBROWSER_Supervision" );
- myBuilder.DefineComponentInstance(father,SuperVision)
-
-def addStudy(ior):
- dataflow = SuperVision.getStreamGraph(ior)
- name=dataflow.Name()
- itr = myStudy.NewChildIterator(father)
- while itr.More():
- item=itr.Value()
- res,A=item.FindAttribute("AttributeName")
- if res:
- aName = A._narrow(SALOMEDS.AttributeName)
- if aName.Value() == name :
- print myBuilder.FindOrCreateAttribute(item, "AttributeIOR")
- A = myBuilder.FindOrCreateAttribute(item, "AttributeIOR")
- print "A = ", A
- if A is not None :
- #res,A = myBuilder.FindOrCreateAttribute(item, "AttributeIOR")
- anIOR = A._narrow(SALOMEDS.AttributeIOR);
- print "anIOR.SetValue(dataflow.getIOR())"
- anIOR.SetValue(dataflow.getIOR())
- return
- itr.Next()
- obj = myBuilder.NewObject(father)
- A=myBuilder.FindOrCreateAttribute(obj, "AttributeName")
- aName=A._narrow(SALOMEDS.AttributeName)
- aName.SetValue(name)
- A=myBuilder.FindOrCreateAttribute(obj, "AttributeIOR")
- anIOR = A._narrow(SALOMEDS.AttributeIOR)
- anIOR.SetValue(dataflow.getIOR())
-
-import os
-dir= os.getenv("SUPERV_ROOT_DIR")
-if dir == None:
- raise RuntimeError, "SUPERV_ROOT_DIR is not defined"
-xmlfile = dir +"/examples/GraphGeomEssai.xml"
-print "Load dataflow from the file : "
-print xmlfile
-print
-
-myGraph = StreamGraph ( xmlfile )
-
-# This DataFlow is "valid" : no loop, correct links between Nodes etc...
-print "myGraph.IsValid() = ", myGraph.IsValid()
-
-# Get Nodes
-myGraph.PrintNodes()
-
-# This DataFlow is "executable" : all pending Ports are defined with Datas
-print myGraph.IsExecutable()
-
-# Starts only execution of that DataFlow and gets control immediatly
-print myGraph.Run()
-
-# That DataFlow is running ==> 0 (false)
-print myGraph.IsDone()
-
-# Events of execution :
-aStatus,aNode,anEvent,aState = myGraph.Event()
-while aStatus :
- print aNode.Thread(),aNode.SubGraph(),aNode.Name(),anEvent,aState
- aStatus,aNode,anEvent,aState = myGraph.Event()
-print "myGraph.IsDone() = ",myGraph.IsDone()
-
-# Wait for Completion (but it is already done after event loop ...)
-print "Done : ",myGraph.DoneW()
-
-print " "
-#print "Type : print myGraph.IsDone()"
-#print " If execution is finished ==> 1 (true)"
-res=myGraph.IsDone()
-if res != 1:
- raise RuntimeError, "myGraph.Run() is not done"
-
-print " "
-print "Type : myGraph.PrintPorts()"
-print " to see input and output values of the graph"
-myGraph.PrintPorts()
-
-# Export will create newsupervisionexample.xml and the corresponding .py file
-tmpdir=os.getenv("TmpDir")
-if tmpdir is None:
- tmpdir="/tmp"
-file = tmpdir + "/newsupervisionexample"
-print "--------------\n"+file+"\n--------------\n"
-myGraph.Export(file)
-
-ior = salome.orb.object_to_string(myGraph.G)
-addStudy(ior)
-
-GraphName = myGraph.Name()
-print "Befor save ",
-#nodes = myGraph.Nodes()
-nodes = myGraph.G.Nodes().FNodes
-length_bs = len(nodes)
-print "ListOfNodes length = ", length_bs
-names=[]
-for node in nodes:
- names.append(node.Name())
-print names
-
-# Graph creation
-GraphInLines = StreamGraph( 'GraphInLines' )
-GraphInLines.SetName( 'GraphInLines' )
-GraphInLines.SetAuthor( '' )
-GraphInLines.SetComment( '' )
-GraphInLines.Coords( 0 , 0 )
-
-# Creation of InLine Nodes
-PyAdd = []
-PyAdd.append( 'def Add(a,b) : ' )
-PyAdd.append( ' return a+b ' )
-PyAdd.append( '' )
-Add = GraphInLines.INode( 'Add' , PyAdd )
-Add.InPort( 'a' , 'long' )
-Add.InPort( 'b' , 'long' )
-Add.OutPort( 'f' , 'long' )
-Add.SetName( 'Add' )
-Add.SetAuthor( '' )
-Add.SetComment( 'Python function' )
-Add.Coords( 351 , 77 )
-PySub = []
-PySub.append( 'def Sub(a,b) : ' )
-PySub.append( ' return a-b ' )
-PySub.append( '' )
-Sub = GraphInLines.INode( 'Sub' , PySub )
-Sub.InPort( 'a' , 'long' )
-Sub.InPort( 'b' , 'long' )
-Sub.OutPort( 'f' , 'long' )
-Sub.SetName( 'Sub' )
-Sub.SetAuthor( '' )
-Sub.SetComment( 'Python function' )
-Sub.Coords( 86 , 333 )
-PyMul = []
-PyMul.append( 'def Mul(a,b) : ' )
-PyMul.append( ' return a*b ' )
-Mul = GraphInLines.INode( 'Mul' , PyMul )
-Mul.InPort( 'a' , 'long' )
-Mul.InPort( 'b' , 'long' )
-Mul.OutPort( 'Result' , 'long' )
-Mul.SetName( 'Mul' )
-Mul.SetAuthor( '' )
-Mul.SetComment( 'Python function' )
-Mul.Coords( 616 , 247 )
-
-# Creation of intermediate Output variables and of Control Links
-Addf = Add.Port( 'f' )
-Mula = GraphInLines.Link( Addf , Mul.Port( 'a' ) )
-Mula.AddCoord( 1 , 570 , 356 )
-Mula.AddCoord( 2 , 570 , 186 )
-Subf = Sub.Port( 'f' )
-Mulb = GraphInLines.Link( Subf , Mul.Port( 'b' ) )
-Mulb.AddCoord( 1 , 282 , 376 )
-Mulb.AddCoord( 2 , 282 , 442 )
-Addb = GraphInLines.Link( Subf , Add.Port( 'b' ) )
-Addb.AddCoord( 1 , 283 , 209 )
-Addb.AddCoord( 2 , 283 , 374 )
-Addb.AddCoord( 3 , 283 , 442 )
-
-# Creation of Input datas
-Adda = Add.Input( 'a' , 1)
-Suba = Sub.Input( 'a' , 3)
-Subb = Sub.Input( 'b' , 4)
-
-# Creation of Output variables
-MulResult = Mul.Port( 'Result' )
-
-GraphInLines.Run()
-
-GraphInLines.DoneW()
-
-GraphInLines.PrintPorts()
-
-sg.updateObjBrowser(1);
-
-print
-print "============= Test VISU and MED ============================="
-print
-
-comp = catalog.GetComponent("VISU")
-if comp is None:
- raise RuntimeError,"Component VISU not found in Module Catalog."
-
-import sys
-import SALOMEDS
-import SALOME
-import SALOME_MED
-import VISU