+## Copyright (C) 2014-2017 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
+## License as published by the Free Software Foundation; either
+## version 2.1 of the License, or (at your option) any later version.
+##
+## This library is distributed in the hope that it will be useful,
+## but WITHOUT ANY WARRANTY; without even the implied warranty of
+## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+## Lesser General Public License for more details.
+##
+## You should have received a copy of the GNU Lesser General Public
+## License along with this library; if not, write to the Free Software
+## Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+##
+## See http:##www.salome-platform.org/ or
+## email : webmaster.salome@opencascade.com<mailto:webmaster.salome@opencascade.com>
+##
+
## @package Plugins
# ExportFeature class definition
-# Copyright (C) 2014-20xx CEA/DEN, EDF R&D
import EventsAPI
import ModelAPI
## The constructor.
def __init__(self):
ModelAPI.ModelAPI_Feature.__init__(self)
+ ## Shape that will be exported (the compound if there are several exported bodies)
+ self.shape = None
+ ## BRep representation of the exported shape (a stream that will be sent to GEOM and converted to GEOM object)
+ self.brep = None
@staticmethod
## Export kind. Static.
kResultBodyType = "Bodies"
aPartSize = self.Part.size(kResultBodyType)
if aPartSize == 0:
- EventsAPI.Events_Error_send("No results in the active document")
+ EventsAPI.Events_InfoMessage("ExportFeature","No results in the active document").send()
return
anObjList = [self.Part.object(kResultBodyType, idx) for idx in xrange(aPartSize)]
return "EDGE"
elif shape.isFace():
return "FACE"
-
+
return "SOLID"
## Creates a group by given list of selected objects and the name
groupType = ""
for aSelIndex in range(0, aSelectionNum):
aSelection = theSelectionList.value(aSelIndex)
+ # issue 1326: bodies that are already concealed did not exported, so groups should not be invalid
+ aContext = ModelAPI.modelAPI_Result(aSelection.context())
+ # chcking of concealment removed because of #1799, remark #13 "aContext.isConcealed()"
+ if aContext is None or aContext.isDisabled():
+ continue
+
anID = GeomAlgoAPI.GeomAlgoAPI_CompoundBuilder.id(self.shape, aSelection.value())
if anID == 0:
#it may be a compound of objects if movement of the group to the end
Ids.append(anID)
groupType = self.shapeType(aSelection.value())
+ if len(Ids) <> 0:
+ aGroup = self.geompy.CreateGroup(self.brep, self.geompy.ShapeType[groupType])
+ self.geompy.UnionIDs(aGroup,Ids)
+ self.geompy.addToStudyInFather(self.brep, aGroup, theGroupName)
+
+ ## Exports all fields
+ def exportFields(self):
+ # iterate all features to find fields
+ aFeaturesNum = self.Part.size("Features")
+ fieldIndex = 0
+ for anIndex in range(0, aFeaturesNum):
+ aFeature = self.Part.object("Features", anIndex)
+ aSelectionList = aFeature.data().selectionList("selected")
+ # if a field has been found
+ if aSelectionList:
+ aFeature = ModelAPI.objectToFeature(aFeature)
+ if aFeature.firstResult() is not None:
+ aName = aFeature.firstResult().data().name()
+ fieldIndex = fieldIndex + 1
+ self.createFieldFromFeature(aFeature, aName)
+
+ ## Returns a type of the shape type in the old GEOM representation
+ def selectionDim(self, theSelectionType):
+ selType=theSelectionType.lower() # more or less independed approach
+ if selType== "vertex":
+ return 0
+ if selType== "edge":
+ return 1
+ if selType== "face":
+ return 2
+ if selType== "solid":
+ return 3
+ return -1
+
+ ## Returns a type of the shape type in the GeomAPI_Shape representation
+ def geomAPISelectionDim(self, theSelectionType):
+ selType=theSelectionType.lower() # more or less independed approach
+ if selType== "vertex":
+ return GeomAPI.GeomAPI_Shape.VERTEX
+ if selType== "edge":
+ return GeomAPI.GeomAPI_Shape.EDGE
+ if selType== "face":
+ return GeomAPI.GeomAPI_Shape.FACE
+ if selType== "solid":
+ return GeomAPI.GeomAPI_Shape.SOLID
+ return GeomAPI.GeomAPI_Shape.SHAPE
+
+ ## Creates a field by the field feature and the name
+ # @param theField: the field feature
+ # @param theFieldName: name of the field to create
+ def createFieldFromFeature(self, theField, theFieldName):
+ # iterate on all selected entities of the field
+ # and get the corresponding ID
+ aTables = theField.tables("values")
+ aSelection = theField.selectionList("selected")
+
+ # set component names
+ aComps = theField.stringArray("components_names")
+ aCompNames = []
+ aCompNum = aComps.size()
+ for aCompIndex in range(0, aCompNum):
+ aCompNames.append(aComps.value(aCompIndex))
+
+ #if len(Ids) <> 0:
+ aDim = self.selectionDim(aSelection.selectionType())
+ aResField = self.geompy.CreateField(self.brep, theFieldName, aTables.type(), aDim, aCompNames)
+ #self.geompy.UnionIDs(theField,Ids)
+ self.geompy.addToStudyInFather(self.brep, aResField, theFieldName)
+
+ # set default values to all not filled sub-shapes (fields in GEOM support only full set of subs)
+ Ids={}
+ anExp = GeomAPI.GeomAPI_ShapeExplorer(self.shape, self.geomAPISelectionDim(aSelection.selectionType()))
+ while anExp.more():
+ anID = GeomAlgoAPI.GeomAlgoAPI_CompoundBuilder.id(self.shape, anExp.current())
+ if anID != 0:
+ Ids[anID]=anExp.current()
+ anExp.next()
+
+ SelectedIds={}
+ for aSelIndex in range(aSelection.size()):
+ selShape = aSelection.value(aSelIndex).value()
+ # searching for this shape in Ids
+ for a in Ids.items():
+ if (a[1].isSame(selShape)):
+ SelectedIds[a[0]] = aSelIndex
- aGroup = self.geompy.CreateGroup(self.brep, self.geompy.ShapeType[groupType])
- self.geompy.UnionIDs(aGroup,Ids)
- self.geompy.addToStudyInFather(self.brep, aGroup, theGroupName)
+ # values here are in the same order as in field
+ listOfValues = Ids.items()
+ listOfValues.sort()
+ # set steps
+ aStepsNum = aTables.tables()
+ for aStepIndex in range(0, aStepsNum):
+ aStamp = theField.intArray("stamps").value(aStepIndex)
+ aValues = []
+ for aValId in listOfValues:
+ aRow = 0 # default value if not from selection
+ if SelectedIds.has_key(aValId[0]): # take the value from the table
+ aRow = SelectedIds[aValId[0]] + 1 # plus one to avoid default string
+ aCols = aTables.columns()
+ for aCol in range(0, aCols):
+ aVal = aTables.valueStr(aRow, aCol, aStepIndex)
+ if aTables.type() == 0: # bool
+ if aVal == "True":
+ aVal = True
+ else:
+ aVal = False
+ elif aTables.type() == 1: # int
+ aVal = int(aVal)
+ elif aTables.type() == 2: # double
+ aVal = float(aVal)
+ aValues.append(aVal)
+ aStep = aResField.addStep(aStepIndex + 1, aStamp, aValues)
+ if aStep:
+ self.geompy.addToStudyInFather( aResField, aStep, aStep.GetName() )
## Exports all shapes and groups into the GEOM module.
def execute(self):
## List of objects created in the old geom for later use
self.geomObjects = []
## geomBuilder tool
+ salome.salome_init(0,1)
self.geompy = geomBuilder.New(salome.myStudy)
# Export bodies and groups
self.exportBodies()
self.exportGroups()
+ self.exportFields()
pass