def test_ordering(self):
     self.assertEqual(
         ("a", "b", "c"),
         tuple(
             ImmutableSet.builder(order_key=lambda x: x).add_all(
                 ["b", "c", "a"]).build()),
     )
Exemplo n.º 2
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    def test_enclosed(self):
        range_map: ImmutableRangeMap[int,
                                     str] = (ImmutableRangeMap.builder().put(
                                         Range.closed(0, 2),
                                         "foo").put(Range.open_closed(6, 8),
                                                    "bar").put(
                                                        Range.open(12, 14),
                                                        "meep").build())

        self.assertEqual(
            ImmutableSet.of(["foo", "bar", "meep"]),
            range_map.get_enclosed_by(Range.closed(-1, 15)),
        )
        self.assertEqual(ImmutableSet.of(["foo"]),
                         range_map.get_enclosed_by(Range.closed(0, 6)))
        self.assertEqual(ImmutableSet.empty(),
                         range_map.get_enclosed_by(Range.closed(5, 5)))
 def test_empty_singleton(self):
     empty1 = immutableset()
     empty2 = immutableset()
     self.assertIs(empty1, empty2)
     empty3 = ImmutableSet.builder().build()
     self.assertIs(empty1, empty3)
     empty4 = immutableset([])
     self.assertIs(empty1, empty4)
Exemplo n.º 4
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 def test_check_usable_in_set(self) -> None:
     range_set = ImmutableSet.of([
         Range.open_closed(0, 1),
         Range.open_closed(0, 1),
         Range.at_most(1),
         Range.at_most(1),
     ])
     self.assertEqual(2, len(range_set))
Exemplo n.º 5
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 def _test_encloses(self, range_set: RangeSet[int]):
     self.assertTrue(range_set.encloses_all(ImmutableSet.empty()))
     for query_range in TestRangeSet.QUERY_RANGES:
         expected_to_enclose = any(
             x.encloses(query_range) for x in range_set.as_ranges())
         self.assertEqual(expected_to_enclose,
                          range_set.encloses(query_range))
         self.assertEqual(expected_to_enclose,
                          range_set.encloses_all([query_range]))
 def test_empty(self):
     empty = immutableset()
     self.assertEqual(0, len(empty))
     empty2 = immutableset([])
     self.assertEqual(0, len(empty2))
     self.assertEqual(empty, empty2)
     empty3 = ImmutableSet.builder().build()
     self.assertEqual(0, len(empty3))
     self.assertEqual(empty, empty3)
Exemplo n.º 7
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    def test_zip_bytes(self):
        tmp_dir = Path(tempfile.mkdtemp())

        with KeyValueSink.zip_bytes_sink(tmp_dir / "test.zip") as zip_sink:
            zip_sink.put("hello", "world".encode("utf-8"))
            zip_sink.put("foo", "bar".encode("utf-8"))

        with KeyValueSource.zip_bytes_source(tmp_dir /
                                             "test.zip") as zip_source:
            self.assertIsNotNone(zip_source.keys())
            self.assertEqual(ImmutableSet.of(["hello", "foo"]),
                             zip_source.keys())
            self.assertEqual("world".encode("utf-8"), zip_source["hello"])
            self.assertEqual("bar".encode("utf-8"), zip_source["foo"])
            self.assertIsNone(zip_source.get("not-there", None))
            self.assertEqual(
                "moo".encode("utf-8"),
                zip_source.get("not-there", "moo".encode("utf-8")))
            with self.assertRaises(KeyError):
                # pylint: disable=pointless-statement
                zip_source["not-there"]

        # test adding to an existing zip
        with KeyValueSink.zip_bytes_sink(tmp_dir / "test.zip",
                                         overwrite=False) as zip_sink:
            zip_sink.put("meep", "lalala".encode("utf-8"))

        with KeyValueSource.zip_bytes_source(tmp_dir /
                                             "test.zip") as zip_source:
            self.assertIsNotNone(zip_source.keys())
            self.assertEqual(ImmutableSet.of(["hello", "foo", "meep"]),
                             zip_source.keys())
            self.assertEqual("world".encode("utf-8"), zip_source["hello"])
            self.assertEqual("bar".encode("utf-8"), zip_source["foo"])
            self.assertEqual("lalala".encode("utf-8"), zip_source["meep"])
            self.assertIsNone(zip_source.get("not-there", None))
            self.assertEqual(
                "moo".encode("utf-8"),
                zip_source.get("not-there", "moo".encode("utf-8")))
            with self.assertRaises(KeyError):
                # pylint: disable=pointless-statement
                zip_source["not-there"]

        shutil.rmtree(str(tmp_dir))
Exemplo n.º 8
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 def _pair_test(self, a: Range[int], b: Range[int]) -> None:
     range_set: MutableRangeSet[int] = RangeSet.create_mutable()
     range_set.add(a)
     range_set.add(b)
     if a.is_empty() and b.is_empty():
         self.assertTrue(range_set.is_empty())
         self.assertFalse(range_set.as_ranges())
     elif a.is_empty():
         self.assertTrue(b in range_set.as_ranges())
     elif b.is_empty():
         self.assertTrue(a in range_set.as_ranges())
     elif a.is_connected(b):
         self.assertEqual(tuple(range_set.as_ranges()), tuple([a.span(b)]))
     else:
         if a.lower_endpoint < b.lower_endpoint:
             self.assertEqual(tuple(range_set.as_ranges()), tuple([a, b]))
         else:
             self.assertEqual(ImmutableSet.of([a, b]),
                              ImmutableSet.of(range_set.as_ranges()))
Exemplo n.º 9
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 def __init__(
     self,
     *,
     source: Optional["ImmutableMultiDict[KT2,VT2]"] = None,
     order_key: Callable[[VT2], Any] = None,
 ) -> None:
     self._dict: MutableMapping[
         KT2, ImmutableSet.Builder[VT2]] = defaultdict(
             lambda: ImmutableSet.builder(order_key=order_key))
     self._source = source
     self._dirty = False
    def test_singleton_index(self):
        s = ImmutableSet.of([1])

        self.assertEqual(1, s[0])
        self.assertEqual(1, s[-1])
        with self.assertRaises(IndexError):
            s[2]
        with self.assertRaises(IndexError):
            s[-2]
        with self.assertRaises(IndexError):
            s[25]
        with self.assertRaises(IndexError):
            s[-25]
 def test_cannot_init(self):
     with self.assertRaises(TypeError):
         # noinspection PyArgumentList
         ImmutableSet([1, 2, 3])
    def test_type_testing(self):
        ImmutableSet.of([1, 2, 3], check_top_type_matches=int)
        with self.assertRaises(TypeError):
            ImmutableSet.of([1, 2, "three"], check_top_type_matches=int)
        string_set = ImmutableSet.of(["one", "two", "three"],
                                     check_top_type_matches=str)
        # this is fine
        ImmutableSet.of(string_set, check_top_type_matches=str)
        with self.assertRaises(TypeError):
            ImmutableSet.of(string_set, check_top_type_matches=int)

        # we want to check that type checking still works when the original immutable set wasn't
        # typed checked up front
        unchecked_string_set = ImmutableSet.of(["one", "two", "three"])
        ImmutableSet.of(unchecked_string_set, check_top_type_matches=str)
        with self.assertRaises(TypeError):
            ImmutableSet.of(unchecked_string_set, check_top_type_matches=int)
Exemplo n.º 13
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 def __getitem__(self, k: KT) -> ImmutableSet[VT]:
     return self._dict.get(k, ImmutableSet.empty())
 def test_of(self):
     x = ImmutableSetMultiDict.of({1: [2, 2, 3], 4: [5, 6]})
     self.assertEqual(ImmutableSet.of([2, 3]), x[1])
     y = immutablesetmultidict([(1, 2), (1, 2), (1, 3), (4, 5), (4, 6)])
     self.assertEqual(immutableset([2, 3]), y[1])
Exemplo n.º 15
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 def test_ranges_enclosed_by_out_of_bounds(self) -> None:
     self.assertEqual(
         ImmutableSet.empty(),
         RangeSet.create_mutable()  # type: ignore
         .add(Range.closed(0, 10)).ranges_enclosed_by(Range.at_least(20)),
     )