From: SONOLET Aymeric Date: Fri, 12 Jan 2024 19:09:12 +0000 (+0100) Subject: Integrate with acceleration of publishToStudy X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=refs%2Fheads%2Fast%2Fpub2study;p=modules%2Fshaper.git Integrate with acceleration of publishToStudy wip: export publishToStudy feature into shaper model, test it --- diff --git a/src/ConnectorPlugin/ConnectorPlugin_PublishToStudyFeature.py b/src/ConnectorPlugin/ConnectorPlugin_PublishToStudyFeature.py index 15f3d7db7..efc9a9230 100644 --- a/src/ConnectorPlugin/ConnectorPlugin_PublishToStudyFeature.py +++ b/src/ConnectorPlugin/ConnectorPlugin_PublishToStudyFeature.py @@ -29,7 +29,6 @@ from salome.shaper import model import EventsAPI import ModelAPI import GeomAPI -import GeomAlgoAPI # @ingroup Plugins @@ -82,10 +81,7 @@ class PublishToStudyFeature(ModelAPI.ModelAPI_Feature): ) ) currentFeature = self.partSet.currentFeature(True) - if ( - lastFeature.data().featureId() - != currentFeature.data().featureId() - ): + if lastFeature.data().featureId() != currentFeature.data().featureId(): EventsAPI.Events_InfoMessage( "PublishToStudy", "Not all PartSet parts are up-to-date, nothing is " @@ -108,15 +104,9 @@ class PublishToStudyFeature(ModelAPI.ModelAPI_Feature): Iterate all parts and all results to publish them in SHAPERSTUDY. """ # TODO: iterate only on changed parts. - for partId in range( - self.partSet.size(model.ModelAPI_ResultPart.group()) - ): - partObject = self.partSet.object( - model.ModelAPI_ResultPart.group(), partId - ) - partRes = ModelAPI.modelAPI_ResultPart( - ModelAPI.modelAPI_Result(partObject) - ) + for partId in range(self.partSet.size(model.ModelAPI_ResultPart.group())): + partObject = self.partSet.object(model.ModelAPI_ResultPart.group(), partId) + partRes = ModelAPI.modelAPI_ResultPart(ModelAPI.modelAPI_Result(partObject)) partDoc = partRes.partDoc() if partDoc is None and partObject is not None: EventsAPI.Events_InfoMessage( @@ -197,9 +187,7 @@ class PublishToStudyFeature(ModelAPI.ModelAPI_Feature): processed = set() featuresIndices = {} for resId in range(partDoc.size(model.ModelAPI_ResultBody.group())): - resObject = partDoc.object( - model.ModelAPI_ResultBody.group(), resId - ) + resObject = partDoc.object(model.ModelAPI_ResultBody.group(), resId) res = model.objectToResult(resObject) # do not export images if res.hasTexture() is True: @@ -222,15 +210,9 @@ class PublishToStudyFeature(ModelAPI.ModelAPI_Feature): featuresIndices[resFeatureId] = 0 sSEntry = str(self.currentPartFeatureId) + ":" + resFeatureId self.currentShaperShape = self.engine.FindOrCreateShape(sSEntry) - self.currentShaperShape.SetShapeByStream( - res.shape().getShapeStream(False) - ) - if ( - not self.currentShaperShape.GetSO() - ): # publish in case it is a new shape - self.engine.AddInStudy( - self.currentShaperShape, res.data().name(), None - ) + self.currentShaperShape.SetShapeByStream(res.shape().getShapeStream(False)) + if not self.currentShaperShape.GetSO(): # publish in case it is a new shape + self.engine.AddInStudy(self.currentShaperShape, res.data().name(), None) else: # restore a red reference if it was deleted done, sO2 = self.currentShaperShape.GetSO().FindSubObject(1) if done: @@ -248,11 +230,9 @@ class PublishToStudyFeature(ModelAPI.ModelAPI_Feature): allGroupsProcessed = set() allRefGroups = [] allRefGroups.append(ModelAPI.referencedFeatures(res, "Group", True)) - allRefGroups.append( - ModelAPI.referencedFeatures(res, "Shared_faces", True) - ) + allRefGroups.append(ModelAPI.referencedFeatures(res, "Shared_faces", True)) resShape = res.shape() - mapOfShape = GeomAlgoAPI.GeomAPI_IndexedMapOfShape(resShape) + mapOfShape = GeomAPI.GeomAPI_IndexedMapOfShape(resShape) for refGroups in allRefGroups: for ref in refGroups: groupsProcessed = self._processARefGroup(res.shape(), ref, mapOfShape) @@ -272,7 +252,7 @@ class PublishToStudyFeature(ModelAPI.ModelAPI_Feature): allRefFields = [] allRefFields.append(ModelAPI.referencedFeatures(res, "Field", True)) resShape = res.shape() - mapOfShape = GeomAlgoAPI.GeomAPI_IndexedMapOfShape(resShape) + mapOfShape = GeomAPI.GeomAPI_IndexedMapOfShape(resShape) for refFields in allRefFields: for ref in refFields: fieldsProcessed = self._processARefField(res.shape(), ref, mapOfShape) @@ -341,16 +321,11 @@ class PublishToStudyFeature(ModelAPI.ModelAPI_Feature): fieldFeatureId = ref.data().featureId() fieldOp = self.engine.GetIFieldOperations() fieldEntry = ( - "field" - + str(self.currentPartFeatureId) - + ":" - + str(fieldFeatureId) + "field" + str(self.currentPartFeatureId) + ":" + str(fieldFeatureId) ) field = fieldOp.FindField(self.currentShaperShape, fieldEntry) if not field: # create a new - field = fieldOp.CreateFieldByType( - self.currentShaperShape, selType - ) + field = fieldOp.CreateFieldByType(self.currentShaperShape, selType) field.SetEntry(fieldEntry) self.engine.AddInStudy( field, @@ -420,9 +395,7 @@ class PublishToStudyFeature(ModelAPI.ModelAPI_Feature): vals.append(int(strVal)) elif valType == 2: # double vals.append(float(strVal)) - field.AddFieldStep( - feature.intArray("stamps").value(val), val + 1, vals - ) + field.AddFieldStep(feature.intArray("stamps").value(val), val + 1, vals) @staticmethod def _manageDeadGroups(sO): @@ -443,9 +416,7 @@ class PublishToStudyFeature(ModelAPI.ModelAPI_Feature): ), ): if not group.GetEntry().startswith("dead"): - deadGroupEntry = ( - "dead0" + str(index) + "_" + group.GetEntry() - ) + deadGroupEntry = "dead0" + str(index) + "_" + group.GetEntry() group.SetEntry(deadGroupEntry) def _removeNotProcessedType(self, allGroupsProcessed, Type): @@ -468,3 +439,8 @@ class PublishToStudyFeature(ModelAPI.ModelAPI_Feature): builder = SHAPERSTUDY_utils.getStudy().NewBuilder() builder.RemoveObject(obj.GetSO()) sOIter.Next() + + +def publishToStudy(): + feat = PublishToStudyFeature() + feat.execute() diff --git a/src/ConnectorPlugin/Test/TestPublishToStudyAllGroupsAndFields.py b/src/ConnectorPlugin/Test/TestPublishToStudyAllGroupsAndFields.py new file mode 100644 index 000000000..887ce4035 --- /dev/null +++ b/src/ConnectorPlugin/Test/TestPublishToStudyAllGroupsAndFields.py @@ -0,0 +1,412 @@ +# Copyright (C) 2014-2023 CEA, EDF +# +# 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 +# + +import salome + +salome.standalone() +salome.salome_init() +theStudy = salome.myStudy + +from salome.shaper import model + +from salome.geom import geomBuilder + + +geompy = geomBuilder.New() + +import shaperBuilder +shaperpy = shaperBuilder.New() + +## Get the last object published in the GEOM section of the object browser +def getLastSHAPERSTUDYShape(): + salome.myStudy.NewBuilder() + comp = salome.myStudy.FindComponent("SHAPERSTUDY") + obj = None + if comp: + iterator = salome.myStudy.NewChildIterator(comp) + sobj = None + while iterator.More(): + sobj = iterator.Value() + iterator.Next() + if sobj: + obj = sobj.GetObject() + else: + raise Exception("SHAPERSTUDY component not found.") + return obj + + +## Get the sub-object i of an object in the object browser +# Numerotation starts at 1 +def getSubObject(obj, i): + ok, sub_sobj = salome.ObjectToSObject(obj).FindSubObject(i) + if not ok: + raise Exception("No child found at %i for %s" % (i, obj.GetName())) + sub_obj = sub_sobj.GetObject() + return sub_obj + + +def testGroupsAndFieldsExportToStudy(): + model.begin() + partSet = model.moduleDocument() + Part_1 = model.addPart(partSet) + Part_1_doc = Part_1.document() + model.addBox(Part_1_doc, 10, 10, 10) + model.addBox(Part_1_doc, 20, 20, 20) + Translation_1 = model.addTranslation( + Part_1_doc, + [model.selection("SOLID", "Box_1_1")], + model.selection("EDGE", "PartSet/OX"), + -10, + ) + Translation_1.result().setName("Translation_1_1") + Partition_1 = model.addPartition( + Part_1_doc, + [ + model.selection("SOLID", "Translation_1_1"), + model.selection("SOLID", "Box_2_1"), + ], + ) + Partition_1.result().setName("Partition_1_1") + model.addBox(Part_1_doc, 10, 10, 10) + Translation_2 = model.addTranslation( + Part_1_doc, + [model.selection("SOLID", "Box_3_1")], + model.selection("EDGE", "PartSet/OX"), + 20, + ) + Translation_2.result().setName("Translation_2_1") + Group_1_objects = [ + model.selection("FACE", "Translation_1_1/MF:Translated&Box_1_1/Top"), + model.selection("FACE", "Box_2_1/Top"), + model.selection("FACE", "Translation_2_1/MF:Translated&Box_3_1/Top"), + ] + Group_1 = model.addGroup(Part_1_doc, Group_1_objects) + Group_1.result().setName("faces_top") + Group_2_objects = [ + model.selection( + "EDGE", + "[Partition_1_1_1/Modified_Face&Box_1_1/Left][Partition_1_1_1/Modified_Face&Box_1_1/Bottom]", + ), + model.selection( + "EDGE", + "[Partition_1_1_2/Modified_Face&Box_2_1/Left][Partition_1_1_2/Modified_Face&Box_2_1/Bottom]", + ), + model.selection( + "EDGE", + "[Translation_2_1/MF:Translated&Box_3_1/Left][Translation_2_1/MF:Translated&Box_3_1/Bottom]", + ), + ] + Group_2 = model.addGroup(Part_1_doc, Group_2_objects) + Group_2.result().setName("edges_x") + Group_3_objects = [ + model.selection( + "VERTEX", + "[Translation_2_1/MF:Translated&Box_3_1/Front][Translation_2_1/MF:Translated&Box_3_1/Left][Translation_2_1/MF:Translated&Box_3_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Translation_2_1/MF:Translated&Box_3_1/Front][Translation_2_1/MF:Translated&Box_3_1/Right][Translation_2_1/MF:Translated&Box_3_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Translation_2_1/MF:Translated&Box_3_1/Back][Translation_2_1/MF:Translated&Box_3_1/Right][Translation_2_1/MF:Translated&Box_3_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Box_2_1/Front][Box_2_1/Right][Partition_1_1_2/Modified_Face&Box_2_1/Bottom]", + ), + model.selection( + "VERTEX", + "[(Partition_1_1_2/Modified_Face&Box_2_1/Back&Box_1_1/Front)(Partition_1_1_2/Modified_Face&Box_2_1/Left)(Box_2_1/Right)(Partition_1_1_2/Modified_Face&Box_2_1/Bottom)(Box_2_1/Top)][Box_2_1/Right][Partition_1_1_2/Modified_Face&Box_2_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Partition_1_1_1/Modified_Face&Box_2_1/Back&Box_1_1/Front][Translation_1_1/MF:Translated&Box_1_1/Right][Partition_1_1_1/Modified_Face&Box_1_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Translation_1_1/MF:Translated&Box_1_1/Back][Translation_1_1/MF:Translated&Box_1_1/Right][Partition_1_1_1/Modified_Face&Box_1_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Translation_1_1/MF:Translated&Box_1_1/Back][Partition_1_1_1/Modified_Face&Box_1_1/Left][Partition_1_1_1/Modified_Face&Box_1_1/Bottom]", + ), + ] + Group_3 = model.addGroup(Part_1_doc, Group_3_objects) + Group_3.result().setName("vertices_bottom") + Group_4 = model.addGroup( + Part_1_doc, + [ + model.selection("SOLID", "Partition_1_1_1"), + model.selection("SOLID", "Translation_2_1"), + ], + ) + Group_4.result().setName("solids_small") + Field_1_objects = [ + model.selection("SOLID", "Partition_1_1_1"), + model.selection("SOLID", "Partition_1_1_2"), + model.selection("SOLID", "Translation_2_1"), + ] + Field_1 = model.addField(Part_1_doc, 1, "DOUBLE", 1, ["Comp 1"], Field_1_objects) + Field_1.result().setName("Field_solids") + Field_1.addStep(0, 0, [[0], [1], [2], [3]]) + Field_2_objects = [ + model.selection("FACE", "Partition_1_1_1/Modified_Face&Box_1_1/Bottom"), + model.selection("FACE", "Partition_1_1_2/Modified_Face&Box_2_1/Bottom"), + model.selection("FACE", "Translation_2_1/MF:Translated&Box_3_1/Bottom"), + model.selection("FACE", "Translation_1_1/MF:Translated&Box_1_1/Top"), + model.selection("FACE", "Box_2_1/Top"), + model.selection("FACE", "Translation_2_1/MF:Translated&Box_3_1/Top"), + ] + Field_2 = model.addField(Part_1_doc, 1, "DOUBLE", 1, ["Comp 1"], Field_2_objects) + Field_2.result().setName("Field_faces") + Field_2.addStep(0, 0, [[0], [1], [1], [1], [2], [2], [2]]) + Field_3_objects = [ + model.selection( + "EDGE", + "[Translation_2_1/MF:Translated&Box_3_1/Front][Translation_2_1/MF:Translated&Box_3_1/Left]", + ), + model.selection( + "EDGE", + "[Translation_2_1/MF:Translated&Box_3_1/Left][Translation_2_1/MF:Translated&Box_3_1/Bottom]", + ), + model.selection( + "EDGE", + "[Partition_1_1_2/Modified_Face&Box_2_1/Left][Partition_1_1_2/Modified_Face&Box_2_1/Bottom]", + ), + model.selection( + "EDGE", + "[Partition_1_1_1/Modified_Face&Box_1_1/Left][Partition_1_1_1/Modified_Face&Box_1_1/Bottom]", + ), + model.selection( + "EDGE", + "[Translation_1_1/MF:Translated&Box_1_1/Back][Partition_1_1_1/Modified_Face&Box_1_1/Left]", + ), + model.selection( + "EDGE", + "[Translation_2_1/MF:Translated&Box_3_1/Front][Translation_2_1/MF:Translated&Box_3_1/Right]", + ), + model.selection( + "EDGE", + "[Translation_1_1/MF:Translated&Box_1_1/Back][Translation_1_1/MF:Translated&Box_1_1/Right]", + ), + model.selection("EDGE", "[Box_2_1/Front][Box_2_1/Right]"), + model.selection("EDGE", "[Box_2_1/Right][Box_2_1/Top]"), + model.selection( + "EDGE", + "[(Partition_1_1_2/Modified_Face&Box_2_1/Back&Box_1_1/Front)(Partition_1_1_2/Modified_Face&Box_2_1/Left)(Box_2_1/Right)(Partition_1_1_2/Modified_Face&Box_2_1/Bottom)(Box_2_1/Top)][Box_2_1/Right]", + ), + model.selection( + "EDGE", "[Box_2_1/Right][Partition_1_1_2/Modified_Face&Box_2_1/Bottom]" + ), + ] + Field_3 = model.addField(Part_1_doc, 1, "DOUBLE", 1, ["Comp 1"], Field_3_objects) + Field_3.result().setName("Field_edges") + Field_3.addStep(0, 0, [[0], [1], [1], [1], [2], [2], [2], [2], [3], [3], [3], [3]]) + Field_4_objects = [ + model.selection( + "VERTEX", + "[Translation_1_1/MF:Translated&Box_1_1/Back][Partition_1_1_1/Modified_Face&Box_1_1/Left][Partition_1_1_1/Modified_Face&Box_1_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Translation_1_1/MF:Translated&Box_1_1/Back][Translation_1_1/MF:Translated&Box_1_1/Right][Partition_1_1_1/Modified_Face&Box_1_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Partition_1_1_1/Modified_Face&Box_2_1/Back&Box_1_1/Front][Translation_1_1/MF:Translated&Box_1_1/Right][Partition_1_1_1/Modified_Face&Box_1_1/Bottom]", + ), + model.selection( + "VERTEX", + "[(Partition_1_1_2/Modified_Face&Box_2_1/Back&Box_1_1/Front)(Partition_1_1_2/Modified_Face&Box_2_1/Left)(Box_2_1/Right)(Partition_1_1_2/Modified_Face&Box_2_1/Bottom)(Box_2_1/Top)][Box_2_1/Right][Partition_1_1_2/Modified_Face&Box_2_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Box_2_1/Front][Box_2_1/Right][Partition_1_1_2/Modified_Face&Box_2_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Translation_2_1/MF:Translated&Box_3_1/Back][Translation_2_1/MF:Translated&Box_3_1/Right][Translation_2_1/MF:Translated&Box_3_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Translation_2_1/MF:Translated&Box_3_1/Front][Translation_2_1/MF:Translated&Box_3_1/Right][Translation_2_1/MF:Translated&Box_3_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Translation_2_1/MF:Translated&Box_3_1/Front][Translation_2_1/MF:Translated&Box_3_1/Left][Translation_2_1/MF:Translated&Box_3_1/Bottom]", + ), + model.selection( + "VERTEX", + "[Translation_1_1/MF:Translated&Box_1_1/Back][Partition_1_1_1/Modified_Face&Box_1_1/Left][Translation_1_1/MF:Translated&Box_1_1/Top]", + ), + model.selection( + "VERTEX", + "[Translation_1_1/MF:Translated&Box_1_1/Back][Translation_1_1/MF:Translated&Box_1_1/Right][Translation_1_1/MF:Translated&Box_1_1/Top]", + ), + model.selection( + "VERTEX", + "[(Partition_1_1_2/Modified_Face&Box_2_1/Back&Box_1_1/Front)(Partition_1_1_2/Modified_Face&Box_2_1/Left)(Box_2_1/Right)(Partition_1_1_2/Modified_Face&Box_2_1/Bottom)(Box_2_1/Top)][Partition_1_1_2/Modified_Face&Box_2_1/Left][Box_2_1/Top]", + ), + model.selection( + "VERTEX", + "[(Partition_1_1_2/Modified_Face&Box_2_1/Back&Box_1_1/Front)(Partition_1_1_2/Modified_Face&Box_2_1/Left)(Box_2_1/Right)(Partition_1_1_2/Modified_Face&Box_2_1/Bottom)(Box_2_1/Top)][Box_2_1/Right][Box_2_1/Top]", + ), + model.selection( + "VERTEX", + "[Box_2_1/Front][Partition_1_1_2/Modified_Face&Box_2_1/Left][Box_2_1/Top]", + ), + model.selection("VERTEX", "[Box_2_1/Front][Box_2_1/Right][Box_2_1/Top]"), + model.selection( + "VERTEX", + "[Translation_2_1/MF:Translated&Box_3_1/Front][Translation_2_1/MF:Translated&Box_3_1/Left][Translation_2_1/MF:Translated&Box_3_1/Top]", + ), + model.selection( + "VERTEX", + "[Translation_2_1/MF:Translated&Box_3_1/Front][Translation_2_1/MF:Translated&Box_3_1/Right][Translation_2_1/MF:Translated&Box_3_1/Top]", + ), + ] + Field_4 = model.addField(Part_1_doc, 1, "DOUBLE", 1, ["Comp 1"], Field_4_objects) + Field_4.result().setName("Field_vertices") + Field_4.addStep( + 0, + 0, + [ + [0], + [1], + [1], + [1], + [1], + [1], + [1], + [1], + [1], + [2], + [2], + [2], + [2], + [3], + [3], + [3], + [3], + ], + ) + model.do() + model.publishToStudy() + model.end() + + +# check the groups content by the coordinates of a point on its sub-shapes +def checkGroupByCoords(group, coords, tolerance=1e-7): + for coord in coords: + p = geompy.MakeVertex(*coord) + assert geompy.MinDistance(group, p) < tolerance + pass + + +## Check the result imported in GEOM +def checkResultInSHAPERSTUDY(): + geomObject_1 = getLastSHAPERSTUDYShape() # the second, translation result + assert geomObject_1.GetName() == "Translation_2_1" + print(geomObject_1) + + group_1_GEOM = getSubObject(geomObject_1, 1) + print(group_1_GEOM) + assert group_1_GEOM.GetName() == "faces_top" + assert ( + geompy.NumberOfFaces(group_1_GEOM) == 1 + ) # 2 faces are in the first result, only one here + + # coordinates of the barycenters of the faces of Group_1 + coords_1 = [[25, 5, 10]] + checkGroupByCoords(group_1_GEOM, coords_1) + + group_2_GEOM = getSubObject(geomObject_1, 2) + assert group_2_GEOM.GetName() == "edges_x" + assert ( + geompy.NumberOfEdges(group_2_GEOM) == 1 + ) # 2 edges are in the first result, only one here + + # coordinates of the barycenters of the edges of Group_2 + coords_2 = [[25, 0, 0]] + checkGroupByCoords(group_2_GEOM, coords_2) + + group_3_GEOM = getSubObject(geomObject_1, 3) + assert group_3_GEOM.GetName() == "vertices_bottom" + assert ( + geompy.NumberOfSubShapes(group_3_GEOM, geompy.ShapeType["VERTEX"]) == 3 + ) # 3 of 8 + + # coordinates of the points of of Group_3 + coords_3 = [[20, 10, 0], [30, 10, 0], [30, 0, 0]] + checkGroupByCoords(group_3_GEOM, coords_3) + + group_4_GEOM = getSubObject(geomObject_1, 4) + assert group_4_GEOM.GetName() == "solids_small" + assert geompy.NumberOfSolids(group_4_GEOM) == 1 # 1 of 2 + + # coordinates of the barycenters of the solids of Group_4 + coords_4 = [[25, 5, 5]] + checkGroupByCoords(group_4_GEOM, coords_4) + + field_1_GEOM = getSubObject(geomObject_1, 5) + assert field_1_GEOM.GetName() == "Field_solids" + assert field_1_GEOM.GetStep(1).GetValues() == [3.0] + + field_2_GEOM = getSubObject(geomObject_1, 6) + assert field_2_GEOM.GetName() == "Field_faces" + assert field_2_GEOM.GetStep(1).GetValues() == [0.0, 0.0, 0.0, 0.0, 1.0, 2.0] + + field_3_GEOM = getSubObject(geomObject_1, 7) + assert field_3_GEOM.GetName() == "Field_edges" + assert field_3_GEOM.GetStep(1).GetValues() == [ + 0.0, + 0.0, + 0.0, + 0.0, + 1.0, + 0.0, + 2.0, + 0.0, + 1.0, + 0.0, + 0.0, + 0.0, + ] + + field_4_GEOM = getSubObject(geomObject_1, 8) + assert field_4_GEOM.GetName() == "Field_vertices" + assert field_4_GEOM.GetStep(1).GetValues() == [ + 0.0, + 0.0, + 0.0, + 1.0, + 3.0, + 1.0, + 3.0, + 1.0, + ] + + pass + + +if __name__ == "__main__": + # create 3 boxes with groups and fields + testGroupsAndFieldsExportToStudy() + # checkResultInSHAPERSTUDY() diff --git a/src/PythonAPI/model/connection/__init__.py b/src/PythonAPI/model/connection/__init__.py index 98039cb48..7ea385a19 100644 --- a/src/PythonAPI/model/connection/__init__.py +++ b/src/PythonAPI/model/connection/__init__.py @@ -19,4 +19,5 @@ """Package for Connection plugin for the Parametric Geometry API of the Modeler. """ -from ConnectorAPI import exportToGEOM \ No newline at end of file +from ConnectorAPI import exportToGEOM +from ConnectorPlugin_PublishToStudyFeature import publishToStudy