def test_unit_types(): """Testing convertor dictionary""" unit_graph1 = UnitGraph("length") unit_graph2 = UnitGraph("Weight") convertor_dictionary = dict() convertor_dictionary["length"] = unit_graph1 convertor_dictionary["Weight"] = unit_graph2 unit_convertor = UnitConvertor(convertor_dictionary) assert unit_convertor.get_unit_types() == ["length", "Weight"]
def test_adding_unit(): "Tests adding unit" unit_graph = UnitGraph("Distance") unit_graph.add_unit("m", "meter", "m") unit_graph.add_unit("cm", "centimeter", "cm") assert len(unit_graph.get_units()) == 2 assert unit_graph.get_units() == ["m", "cm"] assert unit_graph.has_unit("m") is True assert unit_graph.has_unit("nm") is False
def test_convertion(): """Testing conversion""" unit_graph = UnitGraph("length") unit_graph.add_unit("m", "meter", "m") unit_graph.add_unit("cm", "centimeter", "cm") unit_graph.add_unit("mm", "millimeter", "mm") unit_graph.add_conversion("m", "mm", 1000) unit_graph.add_conversion("m", "cm", 100) convertor_dictionary = {} convertor_dictionary["length"] = unit_graph unit_convertor = UnitConvertor(convertor_dictionary) value_m = 10 value_cm = unit_convertor.convert(value_m, "m", "cm") assert value_cm == 1000 if sys.version_info.minor >= 8: value_cm = unit_convertor.to(value_m, "cm") assert value_cm == 1000
def test_validate_units(): """Test units validation""" unit_graph1 = UnitGraph("U1") unit_graph1.add_unit("m", "meter", "m") unit_graph1.add_unit("cm", "centimeter", "cm") unit_graph1.add_unit("mm", "millimeter", "mm") convertor_dictionary = {} convertor_dictionary["U1"] = unit_graph1 unit_convertor = UnitConvertor(convertor_dictionary) unit_convertor.validate_units(["m", "cm"], "U1") with pytest.raises(UnitsTypeMismatch): unit_convertor.validate_units(["m", "um"], "U1")
def read_unit_table( unit_type: str, unit_table_directory: Path, is_force_add: bool = False, is_construct: bool = True, ) -> UnitGraph: """Construct a unit graph from the csv file""" # Construct the file names unit_names_table_filename = unit_table_directory / (unit_type + "_names.csv") unit_converson_table_filename = unit_table_directory / (unit_type + "_conversions.csv") # Read the conversion table unit_graph = UnitGraph(unit_type) # Create the nodes with open(unit_names_table_filename, mode="r", encoding="utf-8") as file: csv_file = csv.reader(file) next(csv_file) for line in csv_file: unit_graph.add_unit(line[0], line[1], line[2], line[3]) # Create the nodes with open(unit_converson_table_filename, mode="r", encoding="utf-8") as file: csv_file = csv.reader(file) next(csv_file) for line in csv_file: unit_graph.add_conversion(line[0], line[1], float(line[2]), is_force_add) # Build full graph if is_construct: unit_graph.construct_full_graph() return unit_graph
def test_get_multiplier(): """Test get multiplier""" unit_graph = UnitGraph("length") unit_graph.add_unit("m", "meter", "m") unit_graph.add_unit("cm", "centimeter", "cm") unit_graph.add_unit("mm", "millimeter", "mm") unit_graph.add_conversion("m", "mm", 1000) unit_graph.add_conversion("m", "cm", 100) convertor_dictionary = {} convertor_dictionary["length"] = unit_graph unit_convertor = UnitConvertor(convertor_dictionary) assert unit_convertor.get_multiplier("cm", "m")[2] == 0.01 assert unit_convertor.get_multiplier("cm", "m", "length")[2] == 0.01 with pytest.raises(TypeNotFound): unit_convertor.get_multiplier("cm", "m", "Weight") unit_graph.construct_full_graph() assert unit_convertor.get_multiplier("cm", "m", "length")[2] == 0.01
def test_possible_types(): """Test possible types""" unit_graph1 = UnitGraph("U1") unit_graph2 = UnitGraph("U2") unit_graph3 = UnitGraph("U3") unit_graph1.add_unit("m", "meter", "m") unit_graph1.add_unit("cm", "centimeter", "cm") unit_graph2.add_unit("cm", "centimeter", "cm") unit_graph3.add_unit("m", "meter", "m") convertor_dictionary = {} convertor_dictionary["U1"] = unit_graph1 convertor_dictionary["U2"] = unit_graph2 convertor_dictionary["U3"] = unit_graph3 unit_convertor = UnitConvertor(convertor_dictionary) possible_types = unit_convertor.get_possible_types(["m"]) assert possible_types == ["U1", "U3"] with pytest.raises(TypeDetectionNotPossible): unit_convertor.validate_possible_type("m", possible_types) possible_types = unit_convertor.get_possible_types(["m", "cm"]) assert possible_types == ["U1"] unit_type = unit_convertor.validate_possible_type(["m", "cm"], possible_types) assert unit_type == "U1" possible_types = unit_convertor.get_possible_types(["mm"]) assert len(possible_types) == 0 with pytest.raises(TypeDetectionNotPossible): unit_convertor.validate_possible_type(["mm"], possible_types)
def test_unit_type(): """Tests the creation of UnitGraph""" unit_graph = UnitGraph("Distance") assert unit_graph.unit_type == "Distance"
def test_constructing_full_graph(): """Tests constructing full graph""" unit_graph = UnitGraph("Distance") unit_graph.add_unit("m", "meter", "m") unit_graph.add_unit("cm", "centimeter", "cm") unit_graph.add_unit("mm", "millimeter", "mm") unit_graph.add_conversion("m", "cm", 100) unit_graph.add_conversion("m", "mm", 1000) assert unit_graph.has_edge("cm", "mm") is False unit_graph.construct_full_graph() assert unit_graph["cm"]["mm"]["weight"] == 10
def test_adding_conversion(): "Tests adding unit" unit_graph = UnitGraph("Distance") unit_graph.add_unit("m", "meter", "m") unit_graph.add_unit("cm", "centimeter", "cm") unit_graph.add_conversion("m", "cm", 100) assert unit_graph["m"]["cm"]["weight"] == 100 assert unit_graph["cm"]["m"]["weight"] == 0.01 with pytest.raises(UnitNotFound): unit_graph.add_conversion("m", "mm", 1000) unit_graph.add_conversion("m", "mm", 1000, is_force_add=True) assert unit_graph["m"]["mm"]["weight"] == 1000 assert unit_graph["mm"]["m"]["weight"] == 0.001
"""Script used for quick testing""" import qiyas from qiyas.generator import get_unit_types, generate_graphs from qiyas.graph import UnitGraph from qiyas.convertor import load_convertor_from_qs_files unit_types = get_unit_types(qiyas.UNIT_TABLES_DIRECTORY) unit_graph = UnitGraph("Distance") unit_graph.add_unit("m", "meter") unit_graph.add_unit("cm", "centimeter") is_unit = unit_graph.has_unit("cm") # print(unit_graph.graph.nodes) d = qiyas.UNIT_TABLES_DIRECTORY / "distance_names.csv" generate_graphs(qiyas.UNIT_TABLES_DIRECTORY, qiyas.UNIT_GRAPHS_DIRECTORY) uc = load_convertor_from_qs_files(qiyas.UNIT_GRAPHS_DIRECTORY) multplier = uc.get_multiplier("km", "cm", "length") print(multplier) value_m = 10 # pylint: disable=invalid-name value_cm = uc.to(value_m, "cm") print(value_cm) multplier = uc.get_multiplier("km", "cm")