Example #1
0
    def _map_shapes_and_ancestors(self, topoTypeA, topoTypeB, topologicalEntity):
        '''
        using the same method
        @param topoTypeA:
        @param topoTypeB:
        @param topologicalEntity:
        '''
        topo_set = set()
        _map = TopTools_IndexedDataMapOfShapeListOfShape()
        topexp_MapShapesAndAncestors(self.myShape, topoTypeA, topoTypeB, _map)
        results = _map.FindFromKey(topologicalEntity)
        if results.IsEmpty():
            yield None

        topology_iterator = TopTools_ListIteratorOfListOfShape(results)
        while topology_iterator.More():

            topo_entity = topology_iterator.Value()

            # return the entity if not in set
            # to assure we're not returning entities several times
            if not topo_entity in topo_set:
                if self.ignore_orientation:
                    unique = True
                    for i in topo_set:
                        if i.IsSame(topo_entity):
                            unique = False
                            break
                    if unique:
                        yield topo_entity
                else:
                    yield topo_entity

            topo_set.add(topo_entity)
            topology_iterator.Next()
Example #2
0
    def _loop_topo(self, edges=True):
        if self.done:
            self._reinitialize()
        topologyType = topods_Edge if edges else topods_Vertex
        seq = []
        hashes = []  # list that stores hashes to avoid redundancy
        occ_seq = TopTools_ListOfShape()
        while self.wire_explorer.More():
            # loop edges
            if edges:
                current_item = self.wire_explorer.Current()
            # loop vertices
            else:
                current_item = self.wire_explorer.CurrentVertex()
            current_item_hash = current_item.__hash__()
            if not current_item_hash in hashes:
                hashes.append(current_item_hash)
                occ_seq.Append(current_item)
            self.wire_explorer.Next()

        # Convert occ_seq to python list
        occ_iterator = TopTools_ListIteratorOfListOfShape(occ_seq)
        while occ_iterator.More():
            topo_to_add = topologyType(occ_iterator.Value())
            seq.append(topo_to_add)
            occ_iterator.Next()
        self.done = True
        return iter(seq)
Example #3
0
    def _map_shapes_and_ancestors(self, topology_type_1, topology_type_2,
                                  topological_entity):
        """
        using the same method
        @param topoTypeA:
        @param topoTypeB:
        @param topological_entity:
        """
        topo_set = set()
        topo_set_hash_codes = {}
        _map = TopTools_IndexedDataMapOfShapeListOfShape()
        topexp_MapShapesAndAncestors(self.my_shape, topology_type_1,
                                     topology_type_2, _map)
        results = _map.FindFromKey(topological_entity)
        if results.Size() == 0:
            yield None

        topology_iterator = TopTools_ListIteratorOfListOfShape(results)
        while topology_iterator.More():
            topo_entity = self.topology_factory[topology_type_2](
                topology_iterator.Value())
            topo_entity_hash_code = topo_entity.HashCode(MAX_32_BIT_INT)
            # return the entity if not in set
            # to assure we're not returning entities several times
            if not topo_entity in topo_set:
                if self.ignore_orientation:
                    if not topo_entity_hash_code in topo_set_hash_codes:
                        topo_set_hash_codes[topo_entity_hash_code] = [
                            topo_entity
                        ]
                        yield topo_entity
                    else:
                        unique = True
                        for i in topo_set_hash_codes[topo_entity_hash_code]:
                            if i.IsSame(topo_entity):
                                unique = False
                                break
                        if unique:
                            topo_set_hash_codes[topo_entity_hash_code].append(
                                topo_entity)
                            yield topo_entity
                else:
                    yield topo_entity

            topo_set.add(topo_entity)
            topology_iterator.Next()
Example #4
0
 def _number_shapes_ancestors(self, topoTypeA, topoTypeB, topologicalEntity):
     '''returns the number of shape ancestors
     If you want to know how many edges a faces has:
     _number_shapes_ancestors(self, TopAbs_EDGE, TopAbs_FACE, edg)
     will return the number of edges a faces has
     @param topoTypeA:
     @param topoTypeB:
     @param topologicalEntity:
     '''
     topo_set = set()
     _map = TopTools_IndexedDataMapOfShapeListOfShape()
     topexp_MapShapesAndAncestors(self.myShape, topoTypeA, topoTypeB, _map)
     results = _map.FindFromKey(topologicalEntity)
     if results.IsEmpty():
         return None
     topology_iterator = TopTools_ListIteratorOfListOfShape(results)
     while topology_iterator.More():
         topo_set.add(topology_iterator.Value())
         topology_iterator.Next()
     return len(topo_set)
Example #5
0
    def _loop_topo(self, topologyType, topologicalEntity=None,
                   topologyTypeToAvoid=None):
        '''
        this could be a faces generator for a python TopoShape class
        that way you can just do:
        for face in srf.faces:
            processFace(face)
        '''
        topoTypes = {TopAbs_VERTEX: TopoDS_Vertex,
                     TopAbs_EDGE: TopoDS_Edge,
                     TopAbs_FACE: TopoDS_Face,
                     TopAbs_WIRE: TopoDS_Wire,
                     TopAbs_SHELL: TopoDS_Shell,
                     TopAbs_SOLID: TopoDS_Solid,
                     TopAbs_COMPOUND: TopoDS_Compound,
                     TopAbs_COMPSOLID: TopoDS_CompSolid}

        assert topologyType in topoTypes.keys(), '%s not one of %s' % (
        topologyType, topoTypes.keys())
        # use self.myShape if nothing is specified
        if topologicalEntity is None and topologyTypeToAvoid is None:
            self.topExp.Init(self.myShape, topologyType)
        elif topologicalEntity is None and topologyTypeToAvoid is not None:
            self.topExp.Init(self.myShape, topologyType, topologyTypeToAvoid)
        elif topologyTypeToAvoid is None:
            self.topExp.Init(topologicalEntity, topologyType)
        elif topologyTypeToAvoid:
            self.topExp.Init(topologicalEntity,
                             topologyType,
                             topologyTypeToAvoid)
        seq = []
        hashes = []  # list that stores hashes to avoid redundancy
        occ_seq = TopTools_ListOfShape()
        while self.topExp.More():
            current_item = self.topExp.Current()
            current_item_hash = current_item.__hash__()

            if not current_item_hash in hashes:
                hashes.append(current_item_hash)
                occ_seq.Append(current_item)

            self.topExp.Next()
        # Convert occ_seq to python list
        occ_iterator = TopTools_ListIteratorOfListOfShape(occ_seq)
        while occ_iterator.More():
            topo_to_add = self.topoFactory[topologyType](occ_iterator.Value())
            seq.append(topo_to_add)
            occ_iterator.Next()

        if self.ignore_orientation:
            # filter out those entities that share the same TShape
            # but do *not* share the same orientation
            filter_orientation_seq = []
            for i in seq:
                _present = False
                for j in filter_orientation_seq:
                    if i.IsSame(j):
                        _present = True
                        break
                if _present is False:
                    filter_orientation_seq.append(i)
            return filter_orientation_seq
        else:
            return iter(seq)