-# Copyright (C) 2014-2019 CEA/DEN, EDF R&D
+# Copyright (C) 2014-2023 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
import ModelAPI
import ExchangeAPI
import EventsAPI
+from GeomAPI import *
+import GeomAlgoAPI
import salome
from salome.shaper import model
-import os
-import salome
-
+import SHAPERSTUDY_ORB
+import SHAPERSTUDY_utils
## @ingroup Plugins
# Feature to export all shapes and groups into the GEOM module
## Exports all shapes and groups into the GEOM module.
def execute(self):
- print("### Execution of PublishToStudy")
-
+ aSession = ModelAPI.ModelAPI_Session.get()
+ aPartSet = aSession.moduleDocument()
+ # check that the PartSet document current feature is the last to avoid problems with all
+ # features update
+ if aPartSet.size(model.ModelAPI_Feature.group()) > 0:
+ aLastFeature = ModelAPI.objectToFeature(aPartSet.object(model.ModelAPI_Feature.group(), aPartSet.size(model.ModelAPI_Feature.group()) - 1))
+ aCurrentFeature = aPartSet.currentFeature(True)
+ if aLastFeature.data().featureId() != aCurrentFeature.data().featureId():
+ EventsAPI.Events_InfoMessage("PublishToStudy", "Not all PartSet parts are up-to-date, nothing is published. Please, make the last PartSet feature as current.", self).send()
+ return
# find a shaper-study component
salome.salome_init(1)
- import SHAPERSTUDY_utils
- SHAPERSTUDY_utils.findOrCreateComponent()
+ aComponent = SHAPERSTUDY_utils.findOrCreateComponent()
anEngine = SHAPERSTUDY_utils.getEngine()
+ # collect all processed internal entries to break the link of unprocessed later
+ allProcessed = []
# iterate all parts and all results to publish them in SHAPER_STUDY
- aSession = ModelAPI.ModelAPI_Session.get()
- aPartSet = aSession.moduleDocument()
- for aPartId in range(aPartSet.size(model.ModelAPI_ResultPart_group())):
- aPartObject = aPartSet.object(model.ModelAPI_ResultPart_group(), aPartId)
- aPart = ModelAPI.modelAPI_ResultPart(ModelAPI.modelAPI_Result(aPartObject)).partDoc()
- for aResId in range(aPart.size(model.ModelAPI_ResultBody_group())):
- aResObject = aPart.object(model.ModelAPI_ResultBody_group(), aResId)
+ for aPartId in range(aPartSet.size(model.ModelAPI_ResultPart.group())):
+ aPartObject = aPartSet.object(model.ModelAPI_ResultPart.group(), aPartId)
+ aPartRes = ModelAPI.modelAPI_ResultPart(ModelAPI.modelAPI_Result(aPartObject))
+ aPartDoc = aPartRes.partDoc()
+ if aPartDoc is None and aPartObject is not None:
+ EventsAPI.Events_InfoMessage("PublishToStudy", "To publish to SHAPER-STUDY, activate Parts in SHAPER", self).send()
+ break
+ aPartFeatureId = aPartSet.feature(aPartRes.original()).data().featureId()
+ # Collects all features of exported results to find results of the same features and extend id.
+ # Map from feature index to index of result. If index is zero (initial), no surrfix to entry is added.
+ aFeaturesIndices = {}
+ for aResId in range(aPartDoc.size(model.ModelAPI_ResultBody.group())):
+ aResObject = aPartDoc.object(model.ModelAPI_ResultBody.group(), aResId)
aRes = model.objectToResult(aResObject)
- print("Found a result to publish ", aRes.data().name())
- aSShape = anEngine.CreateShape()
- aSShape.SetShapeByStream(aRes.shape().getShapeStream())
- anEngine.AddInStudy(aSShape, aRes.data().name(), None)
+ #do not export images
+ if aRes.hasTexture() is True:
+ continue
+ aResFeatureId = str(aPartDoc.feature(aRes).data().featureId())
+ if aResFeatureId in aFeaturesIndices:
+ aFeaturesIndices[aResFeatureId] += 1
+ aResFeatureId += ":" + str(aFeaturesIndices[aResFeatureId])
+ else:
+ aFeaturesIndices[aResFeatureId] = 0
+ aSSEntry = str(aPartFeatureId) + ":" + aResFeatureId
+ aSShape = anEngine.FindOrCreateShape(aSSEntry)
+ aSShape.SetShapeByStream(aRes.shape().getShapeStream(False))
+ if not aSShape.GetSO(): # publish in case it is a new shape
+ anEngine.AddInStudy(aSShape, aRes.data().name(), None)
+ else: # restore a red reference if it was deleted
+ aDone, aSO2 = aSShape.GetSO().FindSubObject(1)
+ if aDone:
+ aDone, aRef = aSO2.ReferencedObject()
+ if not aDone:
+ aBuilder = SHAPERSTUDY_utils.getStudy().NewBuilder()
+ aBuilder.Addreference(aSO2, aSShape.GetSO())
+ allProcessed.append(aSSEntry)
+ # Groups
+ self.processGroups(aRes, anEngine, aPartFeatureId, aSShape, False)
+ # Fields
+ self.processGroups(aRes, anEngine, aPartFeatureId, aSShape, True)
+
+ # process all SHAPER-STUDY shapes to find dead
+ aSOIter = SHAPERSTUDY_utils.getStudy().NewChildIterator(aComponent)
+ while aSOIter.More():
+ aSO = aSOIter.Value()
+ aSOIter.Next() # here because there is continue inside the loop
+ anIOR = aSO.GetIOR()
+ if len(anIOR):
+ anObj = salome.orb.string_to_object(anIOR)
+ if isinstance(anObj, SHAPERSTUDY_ORB._objref_SHAPER_Object):
+ anEntry = anObj.GetEntry()
+ if len(anEntry) == 0:
+ continue;
+ elif anEntry not in allProcessed: # found a removed shape: make it dead for the moment
+ # remove the reference - red node
+ aRes, aSO2 = aSO.FindSubObject(1)
+ if aRes:
+ aRes, aRef = aSO2.ReferencedObject()
+ if aRes:
+ aBuilder = SHAPERSTUDY_utils.getStudy().NewBuilder()
+ aBuilder.RemoveReference(aSO2)
+ # if the object is not marked as dead, mark it (#3201) to make all entries unique
+ aDeadEntry = anObj.GetEntry()
+ if not aDeadEntry.startswith("dead"):
+ anIndex = aSO.Tag()
+ anObj.SetEntry("dead0" + str(anIndex) + "_" + aDeadEntry)
+
+ # also for groups
+ aGrSOIter = SHAPERSTUDY_utils.getStudy().NewChildIterator(aSO)
+ while aGrSOIter.More():
+ aGroupSO = aGrSOIter.Value()
+ aGrSOIter.Next()
+ anIOR = aGroupSO.GetIOR()
+ if len(anIOR):
+ aGroup = salome.orb.string_to_object(anIOR)
+ if isinstance(aGroup, SHAPERSTUDY_ORB._objref_SHAPER_Group) or \
+ isinstance(aGroup, SHAPERSTUDY_ORB._objref_SHAPER_Field):
+ if not aGroup.GetEntry().startswith("dead"):
+ aDeadGroupEntry = "dead0" + str(anIndex) + "_" + aGroup.GetEntry()
+ aGroup.SetEntry(aDeadGroupEntry)
+
+ # Part of the "execute" method: processes the Groups of theRes result publication.
+ # If theFields is true, the same is performed for Fields.
+ def processGroups(self, theRes, theEngine, thePartFeatureId, theStudyShape, theFields):
+ allGroupsProcessed = []
+ allRefGroups = []
+ if theFields:
+ allRefGroups.append(ModelAPI.referencedFeatures(theRes, "Field", True))
+ else:
+ allRefGroups.append(ModelAPI.referencedFeatures(theRes, "Group", True))
+ allRefGroups.append(ModelAPI.referencedFeatures(theRes, "Shared_faces", True))
+ for aRefGroups in allRefGroups:
+ for aRef in aRefGroups:
+ aGroupIndices = []
+ aGroupHasIndex = {}
+ aResShape = theRes.shape()
+ if theFields:
+ aSelList = aRef.selectionList("selected")
+ else:
+ aSelList = aRef.selectionList("group_list")
+ aSelType = GeomAPI_Shape.shapeTypeByStr(aSelList.selectionType())
+ for aGroupRes in aRef.results():
+ aShape = aGroupRes.shape()
+ anExplorer = GeomAPI_ShapeExplorer(aShape, aSelType)
+ while anExplorer.more():
+ anId = GeomAlgoAPI.GeomAlgoAPI_CompoundBuilder.id(aResShape, anExplorer.current())
+ if anId > 0 and not anId in aGroupHasIndex:
+ aGroupIndices.append(anId)
+ aGroupHasIndex[anId] = 0
+ anExplorer.next()
+ if len(aGroupIndices): # create group
+ aGroupFeatureId = aRef.data().featureId()
+ if theFields:
+ aFieldOp = theEngine.GetIFieldOperations()
+ aGroupEntry = "field" + str(thePartFeatureId) + ":" + str(aGroupFeatureId)
+ aGroup = aFieldOp.FindField(theStudyShape, aGroupEntry)
+ else:
+ aGroupOp = theEngine.GetIGroupOperations()
+ aGroupEntry = "group" + str(thePartFeatureId) + ":" + str(aGroupFeatureId)
+ aGroup = aGroupOp.FindGroup(theStudyShape, aGroupEntry)
+ if not aGroup: # create a new
+ if theFields:
+ aGroup = aFieldOp.CreateFieldByType(theStudyShape, aSelType)
+ else:
+ aGroup = aGroupOp.CreateGroup(theStudyShape, aSelType)
+ aGroup.SetEntry(aGroupEntry)
+ theEngine.AddInStudy(aGroup, aRef.firstResult().data().name(), theStudyShape)
+ aGroup.SetSelection(aGroupIndices)
+ if theFields:
+ self.fillField(aGroup, aRef, theEngine, aGroupIndices)
+ # a group takes shape from the main result
+ #aGroup.SetShapeByStream(aRef.firstResult().shape().getShapeStream(False)) # group shape
+ allGroupsProcessed.append(aGroupEntry)
+ # check all existing groups: if some does not processed, remove it from the tree
+ aSOIter = SHAPERSTUDY_utils.getStudy().NewChildIterator(theStudyShape.GetSO())
+ while aSOIter.More():
+ aSO = aSOIter.Value()
+ anIOR = aSO.GetIOR()
+ if len(anIOR):
+ anObj = salome.orb.string_to_object(anIOR)
+ if (theFields and isinstance(anObj, SHAPERSTUDY_ORB._objref_SHAPER_Field)) or \
+ (not theFields and type(anObj) == SHAPERSTUDY_ORB._objref_SHAPER_Group):
+ anEntry = anObj.GetEntry()
+ if anEntry not in allGroupsProcessed: # found a removed group => remove
+ aBuilder = SHAPERSTUDY_utils.getStudy().NewBuilder()
+ aBuilder.RemoveObject(anObj.GetSO())
+ aSOIter.Next()
+
+ # Part of the "execute" method: theFiled fields filling.
+ def fillField(self, theField, theFeature, theEngine, theSelectionIndices):
+ aTables = theFeature.tables("values")
+ aValType = aTables.type() # type of the values
+ aValTypeToSet = aValType
+ if aValType == 3: # strings do not supported by SMESH, so, make them empty boolean table
+ aValTypeToSet = 0
+ theField.SetValuesType(aValTypeToSet)
+ aNumSteps = aTables.tables() # number of steps is number of tables
+ aSteps = []
+ for aVal in range(aNumSteps):
+ aSteps.append(aVal + 1)
+ theField.SetSteps(aSteps)
+ aCompNames = []
+ aCompNamesAttr = theFeature.stringArray("components_names")
+ for anIndex in range(aCompNamesAttr.size()):
+ aCompNames.append(aCompNamesAttr.value(anIndex))
+ theField.SetComponents(aCompNames)
+ # prepare the sub-shapes indices: all values for all sub-shapes must be defined
+ aShapeOp = theEngine.GetIShapesOperations()
+ allIndices = aShapeOp.GetAllSubShapesIDs(theField.GetShape(), theField.GetSelectionType(), False)
+ # define steps
+ theField.ClearFieldSteps()
+ for aVal in range(aNumSteps):
+ aVals = []
+ for aCol in range(aTables.columns()):
+ #for aRow in range(aTables.rows()):
+ for anIndex in allIndices:
+ if anIndex in theSelectionIndices:
+ aRow = theSelectionIndices.index(anIndex) + 1 # starting from the first line
+ else:
+ aRow = 0 # default value
+ aStrVal = aTables.valueStr(aRow, aCol, aVal)
+ if aValType == 0: # boolean
+ if aStrVal == "True":
+ aVals.append(1)
+ else:
+ aVals.append(0)
+ elif aValType == 1: # int
+ aVals.append(int(aStrVal))
+ elif aValType == 2: # double
+ aVals.append(float(aStrVal))
+ theField.AddFieldStep(theFeature.intArray("stamps").value(aVal), aVal + 1, aVals)