def test_create_branches(converter, results): cim_objects = RDFXMLReader.cimread(converter.cim_file) base_power, tnodes, lines = converter._iterate_prim_eq(cim_objects) buses, gens, pt = converter._create_buses(tnodes) branches = converter._create_branches(lines, pt, base_power, buses) assert branches == results['branch_attr']
def transform(self): """ Actually parses the CIM file and transforms its contents. A :class:`topology.Case` object is returned. """ cim_objects = RDFXMLReader.cimread(self.cim_file) base_power, tnodes, lines = self._iterate_prim_eq(cim_objects) self._create_bb_topology(base_power, tnodes, lines)
def test_iterate_primary_equipment(converter, results): cim_objects = RDFXMLReader.cimread(converter.cim_file) base_power, tnodes, branches = converter._iterate_prim_eq(cim_objects) assert base_power == results['base_power'] assert len(tnodes) == results['num_tnodes'] for tnode, equip in tnodes.items(): assert tnode.__class__.__name__ == 'TopologicalNode' assert len(equip) >= 1 assert len(branches) == results['num_lines'] for branch in branches: assert branch.__class__.__name__ == 'ACLineSegment'
def test_create_buses(converter, results): cim_objects = RDFXMLReader.cimread(converter.cim_file) base_power, tnodes, lines = converter._iterate_prim_eq(cim_objects) buses, gens, pt = converter._create_buses(tnodes) data = sorted([ (b.name, b.btype, b.pd, b.qd, b.vm, b.va, b.cim_classes, b.pos) for b in buses.values() ]) print (data) print (results['bus_attr']) assert data == results['bus_attr'] assert gens == {} assert len(pt) == results['num_transformers']