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Diffstat (limited to 'tests/test_map.py')
| -rw-r--r-- | tests/test_map.py | 1417 |
1 files changed, 1417 insertions, 0 deletions
diff --git a/tests/test_map.py b/tests/test_map.py new file mode 100644 index 0000000..4640029 --- /dev/null +++ b/tests/test_map.py @@ -0,0 +1,1417 @@ +import collections.abc +import gc +import pickle +import random +import sys +import unittest +import weakref + +from immutables.map import Map as PyMap +from immutables._testutils import EqError +from immutables._testutils import HashKey +from immutables._testutils import HashKeyCrasher +from immutables._testutils import HashingError +from immutables._testutils import KeyStr +from immutables._testutils import ReprError + + +class BaseMapTest: + + Map = None + + def test_hashkey_helper_1(self): + k1 = HashKey(10, 'aaa') + k2 = HashKey(10, 'bbb') + + self.assertNotEqual(k1, k2) + self.assertEqual(hash(k1), hash(k2)) + + d = dict() + d[k1] = 'a' + d[k2] = 'b' + + self.assertEqual(d[k1], 'a') + self.assertEqual(d[k2], 'b') + + def test_map_basics_1(self): + h = self.Map() + h = None # NoQA + + def test_map_basics_2(self): + h = self.Map() + self.assertEqual(len(h), 0) + + h2 = h.set('a', 'b') + self.assertIsNot(h, h2) + self.assertEqual(len(h), 0) + self.assertEqual(len(h2), 1) + + self.assertIsNone(h.get('a')) + self.assertEqual(h.get('a', 42), 42) + + self.assertEqual(h2.get('a'), 'b') + + h3 = h2.set('b', 10) + self.assertIsNot(h2, h3) + self.assertEqual(len(h), 0) + self.assertEqual(len(h2), 1) + self.assertEqual(len(h3), 2) + self.assertEqual(h3.get('a'), 'b') + self.assertEqual(h3.get('b'), 10) + + self.assertIsNone(h.get('b')) + self.assertIsNone(h2.get('b')) + + self.assertIsNone(h.get('a')) + self.assertEqual(h2.get('a'), 'b') + + h = h2 = h3 = None + + def test_map_basics_3(self): + h = self.Map() + o = object() + h1 = h.set('1', o) + h2 = h1.set('1', o) + self.assertIs(h1, h2) + + def test_map_basics_4(self): + h = self.Map() + h1 = h.set('key', []) + h2 = h1.set('key', []) + self.assertIsNot(h1, h2) + self.assertEqual(len(h1), 1) + self.assertEqual(len(h2), 1) + self.assertIsNot(h1.get('key'), h2.get('key')) + + def test_map_collision_1(self): + k1 = HashKey(10, 'aaa') + k2 = HashKey(10, 'bbb') + k3 = HashKey(10, 'ccc') + + h = self.Map() + h2 = h.set(k1, 'a') + h3 = h2.set(k2, 'b') + + self.assertEqual(h.get(k1), None) + self.assertEqual(h.get(k2), None) + + self.assertEqual(h2.get(k1), 'a') + self.assertEqual(h2.get(k2), None) + + self.assertEqual(h3.get(k1), 'a') + self.assertEqual(h3.get(k2), 'b') + + h4 = h3.set(k2, 'cc') + h5 = h4.set(k3, 'aa') + + self.assertEqual(h3.get(k1), 'a') + self.assertEqual(h3.get(k2), 'b') + self.assertEqual(h4.get(k1), 'a') + self.assertEqual(h4.get(k2), 'cc') + self.assertEqual(h4.get(k3), None) + self.assertEqual(h5.get(k1), 'a') + self.assertEqual(h5.get(k2), 'cc') + self.assertEqual(h5.get(k2), 'cc') + self.assertEqual(h5.get(k3), 'aa') + + self.assertEqual(len(h), 0) + self.assertEqual(len(h2), 1) + self.assertEqual(len(h3), 2) + self.assertEqual(len(h4), 2) + self.assertEqual(len(h5), 3) + + def test_map_collision_2(self): + A = HashKey(100, 'A') + B = HashKey(101, 'B') + C = HashKey(0b011000011100000100, 'C') + D = HashKey(0b011000011100000100, 'D') + E = HashKey(0b1011000011100000100, 'E') + + h = self.Map() + h = h.set(A, 'a') + h = h.set(B, 'b') + h = h.set(C, 'c') + h = h.set(D, 'd') + + # BitmapNode(size=6 bitmap=0b100110000): + # NULL: + # BitmapNode(size=4 bitmap=0b1000000000000000000001000): + # <Key name:A hash:100>: 'a' + # NULL: + # CollisionNode(size=4 id=0x108572410): + # <Key name:C hash:100100>: 'c' + # <Key name:D hash:100100>: 'd' + # <Key name:B hash:101>: 'b' + + h = h.set(E, 'e') + + # BitmapNode(size=4 count=2.0 bitmap=0b110000 id=10b8ea5c0): + # None: + # BitmapNode(size=4 count=2.0 + # bitmap=0b1000000000000000000001000 id=10b8ea518): + # <Key name:A hash:100>: 'a' + # None: + # BitmapNode(size=2 count=1.0 bitmap=0b10 + # id=10b8ea4a8): + # None: + # BitmapNode(size=4 count=2.0 + # bitmap=0b100000001000 + # id=10b8ea4e0): + # None: + # CollisionNode(size=4 id=10b8ea470): + # <Key name:C hash:100100>: 'c' + # <Key name:D hash:100100>: 'd' + # <Key name:E hash:362244>: 'e' + # <Key name:B hash:101>: 'b' + + def test_map_stress_01(self): + COLLECTION_SIZE = 7000 + TEST_ITERS_EVERY = 647 + CRASH_HASH_EVERY = 97 + CRASH_EQ_EVERY = 11 + RUN_XTIMES = 3 + + for _ in range(RUN_XTIMES): + h = self.Map() + d = dict() + + for i in range(COLLECTION_SIZE): + key = KeyStr(i) + + if not (i % CRASH_HASH_EVERY): + with HashKeyCrasher(error_on_hash=True): + with self.assertRaises(HashingError): + h.set(key, i) + + h = h.set(key, i) + + if not (i % CRASH_EQ_EVERY): + with HashKeyCrasher(error_on_eq=True): + with self.assertRaises(EqError): + h.get(KeyStr(i)) # really trigger __eq__ + + d[key] = i + self.assertEqual(len(d), len(h)) + + if not (i % TEST_ITERS_EVERY): + self.assertEqual(set(h.items()), set(d.items())) + self.assertEqual(len(h.items()), len(d.items())) + + self.assertEqual(len(h), COLLECTION_SIZE) + + for key in range(COLLECTION_SIZE): + self.assertEqual(h.get(KeyStr(key), 'not found'), key) + + keys_to_delete = list(range(COLLECTION_SIZE)) + random.shuffle(keys_to_delete) + for iter_i, i in enumerate(keys_to_delete): + key = KeyStr(i) + + if not (iter_i % CRASH_HASH_EVERY): + with HashKeyCrasher(error_on_hash=True): + with self.assertRaises(HashingError): + h.delete(key) + + if not (iter_i % CRASH_EQ_EVERY): + with HashKeyCrasher(error_on_eq=True): + with self.assertRaises(EqError): + h.delete(KeyStr(i)) + + h = h.delete(key) + self.assertEqual(h.get(key, 'not found'), 'not found') + del d[key] + self.assertEqual(len(d), len(h)) + + if iter_i == COLLECTION_SIZE // 2: + hm = h + dm = d.copy() + + if not (iter_i % TEST_ITERS_EVERY): + self.assertEqual(set(h.keys()), set(d.keys())) + self.assertEqual(len(h.keys()), len(d.keys())) + + self.assertEqual(len(d), 0) + self.assertEqual(len(h), 0) + + # ============ + + for key in dm: + self.assertEqual(hm.get(str(key)), dm[key]) + self.assertEqual(len(dm), len(hm)) + + for i, key in enumerate(keys_to_delete): + if str(key) in dm: + hm = hm.delete(str(key)) + dm.pop(str(key)) + self.assertEqual(hm.get(str(key), 'not found'), 'not found') + self.assertEqual(len(d), len(h)) + + if not (i % TEST_ITERS_EVERY): + self.assertEqual(set(h.values()), set(d.values())) + self.assertEqual(len(h.values()), len(d.values())) + + self.assertEqual(len(d), 0) + self.assertEqual(len(h), 0) + self.assertEqual(list(h.items()), []) + + def test_map_collision_3(self): + # Test that iteration works with the deepest tree possible. + + C = HashKey(0b10000000_00000000_00000000_00000000, 'C') + D = HashKey(0b10000000_00000000_00000000_00000000, 'D') + + E = HashKey(0b00000000_00000000_00000000_00000000, 'E') + + h = self.Map() + h = h.set(C, 'C') + h = h.set(D, 'D') + h = h.set(E, 'E') + + # BitmapNode(size=2 count=1 bitmap=0b1): + # NULL: + # BitmapNode(size=2 count=1 bitmap=0b1): + # NULL: + # BitmapNode(size=2 count=1 bitmap=0b1): + # NULL: + # BitmapNode(size=2 count=1 bitmap=0b1): + # NULL: + # BitmapNode(size=2 count=1 bitmap=0b1): + # NULL: + # BitmapNode(size=2 count=1 bitmap=0b1): + # NULL: + # BitmapNode(size=4 count=2 bitmap=0b101): + # <Key name:E hash:0>: 'E' + # NULL: + # CollisionNode(size=4 id=0x107a24520): + # <Key name:C hash:2147483648>: 'C' + # <Key name:D hash:2147483648>: 'D' + + self.assertEqual({k.name for k in h.keys()}, {'C', 'D', 'E'}) + + def test_map_stress_02(self): + COLLECTION_SIZE = 20000 + TEST_ITERS_EVERY = 647 + CRASH_HASH_EVERY = 97 + DELETE_EVERY = 3 + CRASH_EQ_EVERY = 11 + + h = self.Map() + d = dict() + + for i in range(COLLECTION_SIZE // 2): + key = KeyStr(i) + + if not (i % CRASH_HASH_EVERY): + with HashKeyCrasher(error_on_hash=True): + with self.assertRaises(HashingError): + h.set(key, i) + + h = h.set(key, i) + + if not (i % CRASH_EQ_EVERY): + with HashKeyCrasher(error_on_eq=True): + with self.assertRaises(EqError): + h.get(KeyStr(i)) # really trigger __eq__ + + d[key] = i + self.assertEqual(len(d), len(h)) + + if not (i % TEST_ITERS_EVERY): + self.assertEqual(set(h.items()), set(d.items())) + self.assertEqual(len(h.items()), len(d.items())) + + with h.mutate() as m: + for i in range(COLLECTION_SIZE // 2, COLLECTION_SIZE): + key = KeyStr(i) + + if not (i % CRASH_HASH_EVERY): + with HashKeyCrasher(error_on_hash=True): + with self.assertRaises(HashingError): + m[key] = i + + m[key] = i + + if not (i % CRASH_EQ_EVERY): + with HashKeyCrasher(error_on_eq=True): + with self.assertRaises(EqError): + m[KeyStr(i)] + + d[key] = i + self.assertEqual(len(d), len(m)) + + if not (i % DELETE_EVERY): + del m[key] + del d[key] + + self.assertEqual(len(d), len(m)) + + h = m.finish() + + self.assertEqual(len(h), len(d)) + self.assertEqual(set(h.items()), set(d.items())) + + with h.mutate() as m: + for key in list(d): + del d[key] + del m[key] + self.assertEqual(len(m), len(d)) + h = m.finish() + + self.assertEqual(len(h), len(d)) + self.assertEqual(set(h.items()), set(d.items())) + + def test_map_delete_1(self): + A = HashKey(100, 'A') + B = HashKey(101, 'B') + C = HashKey(102, 'C') + D = HashKey(103, 'D') + E = HashKey(104, 'E') + Z = HashKey(-100, 'Z') + + Er = HashKey(103, 'Er', error_on_eq_to=D) + + h = self.Map() + h = h.set(A, 'a') + h = h.set(A, 'a') + h = h.set(B, 'b') + h = h.set(C, 'c') + h = h.set(D, 'd') + h = h.set(E, 'e') + + orig_len = len(h) + + # BitmapNode(size=10 bitmap=0b111110000 id=0x10eadc618): + # <Key name:A hash:100>: 'a' + # <Key name:B hash:101>: 'b' + # <Key name:C hash:102>: 'c' + # <Key name:D hash:103>: 'd' + # <Key name:E hash:104>: 'e' + + h = h.delete(C) + self.assertEqual(len(h), orig_len - 1) + + with self.assertRaisesRegex(ValueError, 'cannot compare'): + h.delete(Er) + + h = h.delete(D) + self.assertEqual(len(h), orig_len - 2) + + with self.assertRaises(KeyError) as ex: + h.delete(Z) + self.assertIs(ex.exception.args[0], Z) + + h = h.delete(A) + self.assertEqual(len(h), orig_len - 3) + + self.assertEqual(h.get(A, 42), 42) + self.assertEqual(h.get(B), 'b') + self.assertEqual(h.get(E), 'e') + + def test_map_delete_2(self): + A = HashKey(100, 'A') + B = HashKey(201001, 'B') + C = HashKey(101001, 'C') + BLike = HashKey(201001, 'B-like') + D = HashKey(103, 'D') + E = HashKey(104, 'E') + Z = HashKey(-100, 'Z') + + Er = HashKey(201001, 'Er', error_on_eq_to=B) + + h = self.Map() + h = h.set(A, 'a') + h = h.set(B, 'b') + h = h.set(C, 'c') + h = h.set(D, 'd') + h = h.set(E, 'e') + + h = h.set(B, 'b') # trigger branch in BitmapNode.assoc + + with self.assertRaises(KeyError): + h.delete(BLike) # trigger branch in BitmapNode.without + + orig_len = len(h) + + # BitmapNode(size=8 bitmap=0b1110010000): + # <Key name:A hash:100>: 'a' + # <Key name:D hash:103>: 'd' + # <Key name:E hash:104>: 'e' + # NULL: + # BitmapNode(size=4 bitmap=0b100000000001000000000): + # <Key name:B hash:201001>: 'b' + # <Key name:C hash:101001>: 'c' + + with self.assertRaisesRegex(ValueError, 'cannot compare'): + h.delete(Er) + + with self.assertRaises(KeyError) as ex: + h.delete(Z) + self.assertIs(ex.exception.args[0], Z) + self.assertEqual(len(h), orig_len) + + h = h.delete(C) + self.assertEqual(len(h), orig_len - 1) + + h = h.delete(B) + self.assertEqual(len(h), orig_len - 2) + + h = h.delete(A) + self.assertEqual(len(h), orig_len - 3) + + self.assertEqual(h.get(D), 'd') + self.assertEqual(h.get(E), 'e') + + with self.assertRaises(KeyError): + h = h.delete(A) + with self.assertRaises(KeyError): + h = h.delete(B) + h = h.delete(D) + h = h.delete(E) + self.assertEqual(len(h), 0) + + def test_map_delete_3(self): + A = HashKey(0b00000000001100100, 'A') + B = HashKey(0b00000000001100101, 'B') + + C = HashKey(0b11000011100000100, 'C') + D = HashKey(0b11000011100000100, 'D') + X = HashKey(0b01000011100000100, 'Z') + Y = HashKey(0b11000011100000100, 'Y') + + E = HashKey(0b00000000001101000, 'E') + + h = self.Map() + h = h.set(A, 'a') + h = h.set(B, 'b') + h = h.set(C, 'c') + h = h.set(D, 'd') + h = h.set(E, 'e') + + self.assertEqual(len(h), 5) + h = h.set(C, 'c') # trigger branch in CollisionNode.assoc + self.assertEqual(len(h), 5) + + orig_len = len(h) + + with self.assertRaises(KeyError): + h.delete(X) + with self.assertRaises(KeyError): + h.delete(Y) + + # BitmapNode(size=6 bitmap=0b100110000): + # NULL: + # BitmapNode(size=4 bitmap=0b1000000000000000000001000): + # <Key name:A hash:100>: 'a' + # NULL: + # CollisionNode(size=4 id=0x108572410): + # <Key name:C hash:100100>: 'c' + # <Key name:D hash:100100>: 'd' + # <Key name:B hash:101>: 'b' + # <Key name:E hash:104>: 'e' + + h = h.delete(A) + self.assertEqual(len(h), orig_len - 1) + + h = h.delete(E) + self.assertEqual(len(h), orig_len - 2) + + self.assertEqual(h.get(C), 'c') + self.assertEqual(h.get(B), 'b') + + h2 = h.delete(C) + self.assertEqual(len(h2), orig_len - 3) + + h2 = h.delete(D) + self.assertEqual(len(h2), orig_len - 3) + + self.assertEqual(len(h), orig_len - 2) + + def test_map_delete_4(self): + A = HashKey(100, 'A') + B = HashKey(101, 'B') + C = HashKey(100100, 'C') + D = HashKey(100100, 'D') + E = HashKey(100100, 'E') + + h = self.Map() + h = h.set(A, 'a') + h = h.set(B, 'b') + h = h.set(C, 'c') + h = h.set(D, 'd') + h = h.set(E, 'e') + + orig_len = len(h) + + # BitmapNode(size=4 bitmap=0b110000): + # NULL: + # BitmapNode(size=4 bitmap=0b1000000000000000000001000): + # <Key name:A hash:100>: 'a' + # NULL: + # CollisionNode(size=6 id=0x10515ef30): + # <Key name:C hash:100100>: 'c' + # <Key name:D hash:100100>: 'd' + # <Key name:E hash:100100>: 'e' + # <Key name:B hash:101>: 'b' + + h = h.delete(D) + self.assertEqual(len(h), orig_len - 1) + + h = h.delete(E) + self.assertEqual(len(h), orig_len - 2) + + h = h.delete(C) + self.assertEqual(len(h), orig_len - 3) + + h = h.delete(A) + self.assertEqual(len(h), orig_len - 4) + + h = h.delete(B) + self.assertEqual(len(h), 0) + + def test_map_delete_5(self): + h = self.Map() + + keys = [] + for i in range(17): + key = HashKey(i, str(i)) + keys.append(key) + h = h.set(key, 'val-{}'.format(i)) + + collision_key16 = HashKey(16, '18') + h = h.set(collision_key16, 'collision') + + # ArrayNode(id=0x10f8b9318): + # 0:: + # BitmapNode(size=2 count=1 bitmap=0b1): + # <Key name:0 hash:0>: 'val-0' + # + # ... 14 more BitmapNodes ... + # + # 15:: + # BitmapNode(size=2 count=1 bitmap=0b1): + # <Key name:15 hash:15>: 'val-15' + # + # 16:: + # BitmapNode(size=2 count=1 bitmap=0b1): + # NULL: + # CollisionNode(size=4 id=0x10f2f5af8): + # <Key name:16 hash:16>: 'val-16' + # <Key name:18 hash:16>: 'collision' + + self.assertEqual(len(h), 18) + + h = h.delete(keys[2]) + self.assertEqual(len(h), 17) + + h = h.delete(collision_key16) + self.assertEqual(len(h), 16) + h = h.delete(keys[16]) + self.assertEqual(len(h), 15) + + h = h.delete(keys[1]) + self.assertEqual(len(h), 14) + with self.assertRaises(KeyError) as ex: + h.delete(keys[1]) + self.assertIs(ex.exception.args[0], keys[1]) + self.assertEqual(len(h), 14) + + for key in keys: + if key in h: + h = h.delete(key) + self.assertEqual(len(h), 0) + + def test_map_delete_6(self): + h = self.Map() + h = h.set(1, 1) + h = h.delete(1) + self.assertEqual(len(h), 0) + self.assertEqual(h, self.Map()) + + def test_map_items_1(self): + A = HashKey(100, 'A') + B = HashKey(201001, 'B') + C = HashKey(101001, 'C') + D = HashKey(103, 'D') + E = HashKey(104, 'E') + F = HashKey(110, 'F') + + h = self.Map() + h = h.set(A, 'a') + h = h.set(B, 'b') + h = h.set(C, 'c') + h = h.set(D, 'd') + h = h.set(E, 'e') + h = h.set(F, 'f') + + it = h.items() + self.assertEqual( + set(list(it)), + {(A, 'a'), (B, 'b'), (C, 'c'), (D, 'd'), (E, 'e'), (F, 'f')}) + + def test_map_items_2(self): + A = HashKey(100, 'A') + B = HashKey(101, 'B') + C = HashKey(100100, 'C') + D = HashKey(100100, 'D') + E = HashKey(100100, 'E') + F = HashKey(110, 'F') + + h = self.Map() + h = h.set(A, 'a') + h = h.set(B, 'b') + h = h.set(C, 'c') + h = h.set(D, 'd') + h = h.set(E, 'e') + h = h.set(F, 'f') + + it = h.items() + self.assertEqual( + set(list(it)), + {(A, 'a'), (B, 'b'), (C, 'c'), (D, 'd'), (E, 'e'), (F, 'f')}) + + def test_map_items_3(self): + h = self.Map() + self.assertEqual(len(h.items()), 0) + self.assertEqual(list(h.items()), []) + + def test_map_items_4(self): + h = self.Map(a=1, b=2, c=3) + k = h.items() + self.assertEqual(set(k), {('a', 1), ('b', 2), ('c', 3)}) + self.assertEqual(set(k), {('a', 1), ('b', 2), ('c', 3)}) + + def test_map_keys_1(self): + A = HashKey(100, 'A') + B = HashKey(101, 'B') + C = HashKey(100100, 'C') + D = HashKey(100100, 'D') + E = HashKey(100100, 'E') + F = HashKey(110, 'F') + + h = self.Map() + h = h.set(A, 'a') + h = h.set(B, 'b') + h = h.set(C, 'c') + h = h.set(D, 'd') + h = h.set(E, 'e') + h = h.set(F, 'f') + + self.assertEqual(set(list(h.keys())), {A, B, C, D, E, F}) + self.assertEqual(set(list(h)), {A, B, C, D, E, F}) + + def test_map_keys_2(self): + h = self.Map(a=1, b=2, c=3) + k = h.keys() + self.assertEqual(set(k), {'a', 'b', 'c'}) + self.assertEqual(set(k), {'a', 'b', 'c'}) + + def test_map_values_1(self): + A = HashKey(100, 'A') + B = HashKey(101, 'B') + C = HashKey(100100, 'C') + D = HashKey(100100, 'D') + E = HashKey(100100, 'E') + F = HashKey(110, 'F') + + h = self.Map() + h = h.set(A, 'a') + h = h.set(B, 'b') + h = h.set(C, 'c') + h = h.set(D, 'd') + h = h.set(E, 'e') + h = h.set(F, 'f') + + self.assertEqual(set(list(h.values())), {'a', 'b', 'c', 'd', 'e', 'f'}) + + def test_map_values_2(self): + h = self.Map(a=1, b=2, c=3) + k = h.values() + self.assertEqual(set(k), {1, 2, 3}) + self.assertEqual(set(k), {1, 2, 3}) + + def test_map_eq_1(self): + A = HashKey(100, 'A') + B = HashKey(101, 'B') + C = HashKey(100100, 'C') + D = HashKey(100100, 'D') + E = HashKey(120, 'E') + + h1 = self.Map() + h1 = h1.set(A, 'a') + h1 = h1.set(B, 'b') + h1 = h1.set(C, 'c') + h1 = h1.set(D, 'd') + + h2 = self.Map() + h2 = h2.set(A, 'a') + + self.assertFalse(h1 == h2) + self.assertTrue(h1 != h2) + + h2 = h2.set(B, 'b') + self.assertFalse(h1 == h2) + self.assertTrue(h1 != h2) + + h2 = h2.set(C, 'c') + self.assertFalse(h1 == h2) + self.assertTrue(h1 != h2) + + h2 = h2.set(D, 'd2') + self.assertFalse(h1 == h2) + self.assertTrue(h1 != h2) + + h2 = h2.set(D, 'd') + self.assertTrue(h1 == h2) + self.assertFalse(h1 != h2) + + h2 = h2.set(E, 'e') + self.assertFalse(h1 == h2) + self.assertTrue(h1 != h2) + + h2 = h2.delete(D) + self.assertFalse(h1 == h2) + self.assertTrue(h1 != h2) + + h2 = h2.set(E, 'd') + self.assertFalse(h1 == h2) + self.assertTrue(h1 != h2) + + def test_map_eq_2(self): + A = HashKey(100, 'A') + Er = HashKey(100, 'Er', error_on_eq_to=A) + + h1 = self.Map() + h1 = h1.set(A, 'a') + + h2 = self.Map() + h2 = h2.set(Er, 'a') + + with self.assertRaisesRegex(ValueError, 'cannot compare'): + h1 == h2 + + with self.assertRaisesRegex(ValueError, 'cannot compare'): + h1 != h2 + + def test_map_eq_3(self): + self.assertNotEqual(self.Map(), 1) + + def test_map_gc_1(self): + A = HashKey(100, 'A') + + h = self.Map() + h = h.set(0, 0) # empty Map node is memoized in _map.c + ref = weakref.ref(h) + + a = [] + a.append(a) + a.append(h) + b = [] + a.append(b) + b.append(a) + h = h.set(A, b) + + del h, a, b + + gc.collect() + gc.collect() + gc.collect() + + self.assertIsNone(ref()) + + def test_map_gc_2(self): + A = HashKey(100, 'A') + + h = self.Map() + h = h.set(A, 'a') + h = h.set(A, h) + + ref = weakref.ref(h) + hi = iter(h.items()) + next(hi) + + del h, hi + + gc.collect() + gc.collect() + gc.collect() + + self.assertIsNone(ref()) + + def test_map_in_1(self): + A = HashKey(100, 'A') + AA = HashKey(100, 'A') + + B = HashKey(101, 'B') + + h = self.Map() + h = h.set(A, 1) + + self.assertTrue(A in h) + self.assertFalse(B in h) + + with self.assertRaises(EqError): + with HashKeyCrasher(error_on_eq=True): + AA in h + + with self.assertRaises(HashingError): + with HashKeyCrasher(error_on_hash=True): + AA in h + + def test_map_getitem_1(self): + A = HashKey(100, 'A') + AA = HashKey(100, 'A') + + B = HashKey(101, 'B') + + h = self.Map() + h = h.set(A, 1) + + self.assertEqual(h[A], 1) + self.assertEqual(h[AA], 1) + + with self.assertRaises(KeyError): + h[B] + + with self.assertRaises(EqError): + with HashKeyCrasher(error_on_eq=True): + h[AA] + + with self.assertRaises(HashingError): + with HashKeyCrasher(error_on_hash=True): + h[AA] + + def test_repr_1(self): + h = self.Map() + self.assertEqual(repr(h), 'immutables.Map({})') + + h = h.set(1, 2).set(2, 3).set(3, 4) + self.assertEqual(repr(h), 'immutables.Map({1: 2, 2: 3, 3: 4})') + + def test_repr_2(self): + h = self.Map() + A = HashKey(100, 'A') + + with self.assertRaises(ReprError): + with HashKeyCrasher(error_on_repr=True): + repr(h.set(1, 2).set(A, 3).set(3, 4)) + + with self.assertRaises(ReprError): + with HashKeyCrasher(error_on_repr=True): + repr(h.set(1, 2).set(2, A).set(3, 4)) + + def test_repr_3(self): + class Key: + def __init__(self): + self.val = None + + def __hash__(self): + return 123 + + def __repr__(self): + return repr(self.val) + + h = self.Map() + k = Key() + h = h.set(k, 1) + k.val = h + + self.assertEqual(repr(h), 'immutables.Map({{...}: 1})') + + def test_hash_1(self): + h = self.Map() + self.assertNotEqual(hash(h), -1) + self.assertEqual(hash(h), hash(h)) + + h = h.set(1, 2).set('a', 'b') + self.assertNotEqual(hash(h), -1) + self.assertEqual(hash(h), hash(h)) + + self.assertEqual( + hash(h.set(1, 2).set('a', 'b')), + hash(h.set('a', 'b').set(1, 2))) + + def test_hash_2(self): + h = self.Map() + A = HashKey(100, 'A') + + m = h.set(1, 2).set(A, 3).set(3, 4) + with self.assertRaises(HashingError): + with HashKeyCrasher(error_on_hash=True): + hash(m) + + m = h.set(1, 2).set(2, A).set(3, 4) + with self.assertRaises(HashingError): + with HashKeyCrasher(error_on_hash=True): + hash(m) + + def test_abc_1(self): + self.assertTrue(issubclass(self.Map, collections.abc.Mapping)) + + def test_map_mut_1(self): + h = self.Map() + h = h.set('a', 1) + + hm1 = h.mutate() + hm2 = h.mutate() + + self.assertFalse(isinstance(hm1, self.Map)) + + self.assertIsNot(hm1, hm2) + self.assertEqual(hm1['a'], 1) + self.assertEqual(hm2['a'], 1) + + hm1.set('b', 2) + hm1.set('c', 3) + + hm2.set('x', 100) + hm2.set('a', 1000) + + self.assertEqual(hm1['a'], 1) + self.assertEqual(hm1.get('x', -1), -1) + + self.assertEqual(hm2['a'], 1000) + self.assertTrue('x' in hm2) + + h1 = hm1.finish() + h2 = hm2.finish() + + self.assertTrue(isinstance(h1, self.Map)) + + self.assertEqual(dict(h.items()), {'a': 1}) + self.assertEqual(dict(h1.items()), {'a': 1, 'b': 2, 'c': 3}) + self.assertEqual(dict(h2.items()), {'a': 1000, 'x': 100}) + + def test_map_mut_2(self): + h = self.Map() + h = h.set('a', 1) + + hm1 = h.mutate() + hm1.set('a', 2) + hm1.set('a', 3) + hm1.set('a', 4) + h2 = hm1.finish() + + self.assertEqual(dict(h.items()), {'a': 1}) + self.assertEqual(dict(h2.items()), {'a': 4}) + + def test_map_mut_3(self): + h = self.Map() + h = h.set('a', 1) + hm1 = h.mutate() + + self.assertEqual(repr(hm1), "immutables.MapMutation({'a': 1})") + + with self.assertRaisesRegex(TypeError, 'unhashable type'): + hash(hm1) + + def test_map_mut_4(self): + h = self.Map() + h = h.set('a', 1) + h = h.set('b', 2) + + hm1 = h.mutate() + hm2 = h.mutate() + + self.assertEqual(hm1, hm2) + + hm1.set('a', 10) + self.assertNotEqual(hm1, hm2) + + hm2.set('a', 10) + self.assertEqual(hm1, hm2) + + self.assertEqual(hm2.pop('a'), 10) + self.assertNotEqual(hm1, hm2) + + def test_map_mut_5(self): + h = self.Map({'a': 1, 'b': 2}, z=100) + self.assertTrue(isinstance(h, self.Map)) + self.assertEqual(dict(h.items()), {'a': 1, 'b': 2, 'z': 100}) + + h2 = h.update(z=200, y=-1) + self.assertEqual(dict(h.items()), {'a': 1, 'b': 2, 'z': 100}) + self.assertEqual(dict(h2.items()), {'a': 1, 'b': 2, 'z': 200, 'y': -1}) + + h3 = h2.update([(1, 2), (3, 4)]) + self.assertEqual(dict(h.items()), {'a': 1, 'b': 2, 'z': 100}) + self.assertEqual(dict(h2.items()), {'a': 1, 'b': 2, 'z': 200, 'y': -1}) + self.assertEqual(dict(h3.items()), + {'a': 1, 'b': 2, 'z': 200, 'y': -1, 1: 2, 3: 4}) + + h4 = h3.update() + self.assertIs(h4, h3) + + h5 = h4.update(self.Map({'zzz': 'yyz'})) + + self.assertEqual(dict(h5.items()), + {'a': 1, 'b': 2, 'z': 200, 'y': -1, 1: 2, 3: 4, + 'zzz': 'yyz'}) + + def test_map_mut_6(self): + h = self.Map({'a': 1, 'b': 2}, z=100) + self.assertEqual(dict(h.items()), {'a': 1, 'b': 2, 'z': 100}) + + with self.assertRaisesRegex(TypeError, 'not iterable'): + h.update(1) + + with self.assertRaisesRegex(ValueError, 'map update sequence element'): + h.update([(1, 2), (3, 4, 5)]) + + with self.assertRaisesRegex(TypeError, 'cannot convert map update'): + h.update([(1, 2), 1]) + + self.assertEqual(dict(h.items()), {'a': 1, 'b': 2, 'z': 100}) + + def test_map_mut_7(self): + key = HashKey(123, 'aaa') + + h = self.Map({'a': 1, 'b': 2}, z=100) + self.assertEqual(dict(h.items()), {'a': 1, 'b': 2, 'z': 100}) + + upd = {key: 1} + with HashKeyCrasher(error_on_hash=True): + with self.assertRaises(HashingError): + h.update(upd) + + upd = self.Map({key: 'zzz'}) + with HashKeyCrasher(error_on_hash=True): + with self.assertRaises(HashingError): + h.update(upd) + + upd = [(1, 2), (key, 'zzz')] + with HashKeyCrasher(error_on_hash=True): + with self.assertRaises(HashingError): + h.update(upd) + + self.assertEqual(dict(h.items()), {'a': 1, 'b': 2, 'z': 100}) + + def test_map_mut_8(self): + key1 = HashKey(123, 'aaa') + key2 = HashKey(123, 'bbb') + + h = self.Map({key1: 123}) + self.assertEqual(dict(h.items()), {key1: 123}) + + upd = {key2: 1} + with HashKeyCrasher(error_on_eq=True): + with self.assertRaises(EqError): + h.update(upd) + + upd = self.Map({key2: 'zzz'}) + with HashKeyCrasher(error_on_eq=True): + with self.assertRaises(EqError): + h.update(upd) + + upd = [(1, 2), (key2, 'zzz')] + with HashKeyCrasher(error_on_eq=True): + with self.assertRaises(EqError): + h.update(upd) + + self.assertEqual(dict(h.items()), {key1: 123}) + + def test_map_mut_9(self): + key1 = HashKey(123, 'aaa') + + src = {key1: 123} + with HashKeyCrasher(error_on_hash=True): + with self.assertRaises(HashingError): + self.Map(src) + + src = [(1, 2), (key1, 123)] + with HashKeyCrasher(error_on_hash=True): + with self.assertRaises(HashingError): + self.Map(src) + + def test_map_mut_10(self): + key1 = HashKey(123, 'aaa') + + m = self.Map({key1: 123}) + + mm = m.mutate() + with HashKeyCrasher(error_on_hash=True): + with self.assertRaises(HashingError): + del mm[key1] + + mm = m.mutate() + with HashKeyCrasher(error_on_hash=True): + with self.assertRaises(HashingError): + mm.pop(key1, None) + + mm = m.mutate() + with HashKeyCrasher(error_on_hash=True): + with self.assertRaises(HashingError): + mm.set(key1, 123) + + def test_map_mut_11(self): + m = self.Map({'a': 1, 'b': 2}) + + mm = m.mutate() + self.assertEqual(mm.pop('a', 1), 1) + self.assertEqual(mm.finish(), self.Map({'b': 2})) + + mm = m.mutate() + self.assertEqual(mm.pop('b', 1), 2) + self.assertEqual(mm.finish(), self.Map({'a': 1})) + + mm = m.mutate() + self.assertEqual(mm.pop('b', 1), 2) + del mm['a'] + self.assertEqual(mm.finish(), self.Map()) + + def test_map_mut_12(self): + m = self.Map({'a': 1, 'b': 2}) + + mm = m.mutate() + mm.finish() + + with self.assertRaisesRegex(ValueError, 'has been finished'): + mm.pop('a') + + with self.assertRaisesRegex(ValueError, 'has been finished'): + del mm['a'] + + with self.assertRaisesRegex(ValueError, 'has been finished'): + mm.set('a', 'b') + + with self.assertRaisesRegex(ValueError, 'has been finished'): + mm['a'] = 'b' + + with self.assertRaisesRegex(ValueError, 'has been finished'): + mm.update(a='b') + + def test_map_mut_13(self): + key1 = HashKey(123, 'aaa') + key2 = HashKey(123, 'aaa') + + m = self.Map({key1: 123}) + + mm = m.mutate() + with HashKeyCrasher(error_on_eq=True): + with self.assertRaises(EqError): + del mm[key2] + + mm = m.mutate() + with HashKeyCrasher(error_on_eq=True): + with self.assertRaises(EqError): + mm.pop(key2, None) + + mm = m.mutate() + with HashKeyCrasher(error_on_eq=True): + with self.assertRaises(EqError): + mm.set(key2, 123) + + def test_map_mut_14(self): + m = self.Map(a=1, b=2) + + with m.mutate() as mm: + mm['z'] = 100 + del mm['a'] + + self.assertEqual(mm.finish(), self.Map(z=100, b=2)) + + def test_map_mut_15(self): + m = self.Map(a=1, b=2) + + with self.assertRaises(ZeroDivisionError): + with m.mutate() as mm: + mm['z'] = 100 + del mm['a'] + 1 / 0 + + self.assertEqual(mm.finish(), self.Map(z=100, b=2)) + self.assertEqual(m, self.Map(a=1, b=2)) + + def test_map_mut_16(self): + m = self.Map(a=1, b=2) + hash(m) + + m2 = self.Map(m) + m3 = self.Map(m, c=3) + + self.assertEqual(m, m2) + self.assertEqual(len(m), len(m2)) + self.assertEqual(hash(m), hash(m2)) + + self.assertIsNot(m, m2) + self.assertEqual(m3, self.Map(a=1, b=2, c=3)) + + def test_map_mut_17(self): + m = self.Map(a=1) + with m.mutate() as mm: + with self.assertRaisesRegex( + TypeError, 'cannot create Maps from MapMutations'): + self.Map(mm) + + def test_map_mut_18(self): + m = self.Map(a=1, b=2) + with m.mutate() as mm: + mm.update(self.Map(x=1), z=2) + mm.update(c=3) + mm.update({'n': 100, 'a': 20}) + m2 = mm.finish() + + expected = self.Map( + {'b': 2, 'c': 3, 'n': 100, 'z': 2, 'x': 1, 'a': 20}) + + self.assertEqual(len(m2), 6) + self.assertEqual(m2, expected) + self.assertEqual(m, self.Map(a=1, b=2)) + + def test_map_mut_19(self): + m = self.Map(a=1, b=2) + m2 = m.update({'a': 20}) + self.assertEqual(len(m2), 2) + + def test_map_mut_20(self): + # Issue 24: + + h = self.Map() + + for i in range(19): + # Create more than 16 keys to trigger the root bitmap + # node to be converted into an array node + h = h.set(HashKey(i, i), i) + + h = h.set(HashKey(18, '18-collision'), 18) + + with h.mutate() as m: + del m[HashKey(18, 18)] + del m[HashKey(18, '18-collision')] + + # The pre-issue-24 code failed to update the number of array + # node element, so at this point it would be greater than it + # actually is. + h = m.finish() + + # Any of the below operations shouldn't crash the debug build. + with h.mutate() as m: + for i in range(18): + del m[HashKey(i, i)] + h = m.finish() + h = h.set(HashKey(21, 21), 21) + h = h.set(HashKey(22, 22), 22) + + def test_map_mut_21(self): + # Issue 24: + # Array nodes, while in mutation, failed to increment the + # internal count of elements when adding a new key to it. + # Because the internal count + + h = self.Map() + + for i in range(18): + # Create more than 16 keys to trigger the root bitmap + # node to be converted into an array node + h = h.set(HashKey(i, i), i) + + with h.mutate() as m: + # Add one new key to the array node + m[HashKey(18, 18)] = 18 + # Add another key -- after this the old code failed + # to increment the number of elements in the mutated + # array node. + m[HashKey(19, 19)] = 19 + h = m.finish() + + for i in range(20): + # Start deleting keys one by one. Because array node + # element count was accounted incorrectly (smaller by 1 + # than it actually is, the mutation for "del h[18]" would + # create an empty array node, clipping the "19" key). + # Before the issue #24 fix, the below line would crash + # on i=19. + h = h.delete(HashKey(i, i)) + + def test_map_mut_stress(self): + COLLECTION_SIZE = 7000 + TEST_ITERS_EVERY = 647 + RUN_XTIMES = 3 + + for _ in range(RUN_XTIMES): + h = self.Map() + d = dict() + + for i in range(COLLECTION_SIZE // TEST_ITERS_EVERY): + + hm = h.mutate() + for j in range(TEST_ITERS_EVERY): + key = random.randint(1, 100000) + key = HashKey(key % 271, str(key)) + + hm.set(key, key) + d[key] = key + + self.assertEqual(len(hm), len(d)) + + h2 = hm.finish() + self.assertEqual(dict(h2.items()), d) + h = h2 + + self.assertEqual(dict(h.items()), d) + self.assertEqual(len(h), len(d)) + + it = iter(tuple(d.keys())) + for i in range(COLLECTION_SIZE // TEST_ITERS_EVERY): + + hm = h.mutate() + for j in range(TEST_ITERS_EVERY): + try: + key = next(it) + except StopIteration: + break + + del d[key] + del hm[key] + + self.assertEqual(len(hm), len(d)) + + h2 = hm.finish() + self.assertEqual(dict(h2.items()), d) + h = h2 + + self.assertEqual(dict(h.items()), d) + self.assertEqual(len(h), len(d)) + + def test_map_pickle(self): + h = self.Map(a=1, b=2) + for proto in range(pickle.HIGHEST_PROTOCOL): + p = pickle.dumps(h, proto) + uh = pickle.loads(p) + + self.assertTrue(isinstance(uh, self.Map)) + self.assertEqual(h, uh) + + with self.assertRaisesRegex(TypeError, "can('t|not) pickle"): + pickle.dumps(h.mutate()) + + @unittest.skipIf( + sys.version_info < (3, 7, 0), "__class_getitem__ is not available" + ) + def test_map_is_subscriptable(self): + self.assertIs(self.Map[int, str], self.Map) + + def test_kwarg_named_col(self): + self.assertEqual(dict(self.Map(col=0)), {"col": 0}) + self.assertEqual(dict(self.Map(a=0, col=1)), {"a": 0, "col": 1}) + self.assertEqual(dict(self.Map({"a": 0}, col=1)), {"a": 0, "col": 1}) + + +class PyMapTest(BaseMapTest, unittest.TestCase): + + Map = PyMap + + +try: + from immutables._map import Map as CMap +except ImportError: + CMap = None + + +@unittest.skipIf(CMap is None, 'C Map is not available') +class CMapTest(BaseMapTest, unittest.TestCase): + + Map = CMap + + +if __name__ == "__main__": + unittest.main() |