def test_is_superset_of(self): self._check_wrong_argument_types_binary(is_superset_of) result1 = is_superset_of(_set1u2, _set1) self.assertTrue(result1) result2 = is_superset_of(_set2, _set1) self.assertFalse(result2)
print(elem, " ") print(1 in nums) print(7 in nums) # Sets can be unioned, intersected, set-minused. Relations such as is_subset and is_superset are # defined. a = Set(1, 2) b = Set(2, 3) import algebraixlib.algebras.sets as sets print("union(a, b) = {}".format(sets.union(a, b))) print("intersect(a, b) = {}".format(sets.intersect(a, b))) print("minus(a, b) = {}".format(sets.minus(a, b))) print("is_subset(a, b) = {}".format(sets.is_subset_of(a, b))) print("is_superset(a, {{1}}) = {}".format(sets.is_superset_of(a, Set(1)))) # We can use a Couplet to model a single truth, such as 'blue'^'sky' or 'jeff'^'name'. By collecting # multiple Couplets together in a set, we form a mathematical model of a data record. This data # structure, called a binary relation (abbreviated from hereon as simply 'relation'), is the # fundamental data type in a Data Algebra program. record_relation = Set(Couplet('id', 123), Couplet('name', 'jeff'), Couplet('loves', 'math'), Couplet('loves', 'code')) print(record_relation) # Some relations, specify a function from left to right. This is the case when every left # value maps to exactly one right value. Such a relation is called "left functional". # Likewise, a relation can be said to be "right functional" when every right value maps # to exactly one left value. import algebraixlib.algebras.relations as relations
print(elem, " ") print(1 in nums) print(7 in nums) # Sets can be unioned, intersected, set-minused. Relations such as is_subset and is_superset are # defined. a = Set(1, 2) b = Set(2, 3) import algebraixlib.algebras.sets as sets print("union(a, b) = {}".format(sets.union(a, b))) print("intersect(a, b) = {}".format(sets.intersect(a, b))) print("minus(a, b) = {}".format(sets.minus(a, b))) print("is_subset(a, b) = {}".format(sets.is_subset_of(a, b))) print("is_superset(a, {{1}}) = {}".format(sets.is_superset_of(a, Set(1)))) # We can use a Couplet to model a single truth, such as 'sky'->'blue' or 'name'->'jeff'. By # collecting multiple Couplets together in a set, we form a mathematical model of a data record. # This data structure, called a binary relation (abbreviated from hereon as simply 'relation'), is # the fundamental data type in a Data Algebra program. record_relation = Set(Couplet('id', 123), Couplet('name', 'jeff'), Couplet('loves', 'math'), Couplet('loves', 'code')) print(record_relation) # Some relations, specify a function from left to right. This is the case when every left # value maps to exactly one right value. Such a relation is called "left functional". # Likewise, a relation can be said to be "right functional" when every right value maps # to exactly one left value. import algebraixlib.algebras.relations as relations