import pytest from awxkit.utils import filter_by_class from awxkit.utils.toposort import CircularDependencyError from awxkit.api.mixins import has_create class MockHasCreate(has_create.HasCreate): connection = None def __str__(self): return "instance of {0.__class__.__name__} ({1})".format(self, hex(id(self))) def __init__(self, *a, **kw): self.cleaned = False super(MockHasCreate, self).__init__() def silent_cleanup(self): self.cleaned = True class A(MockHasCreate): def create(self, **kw): return self class B(MockHasCreate): optional_dependencies = [A] def create(self, a=None, **kw): self.create_and_update_dependencies(*filter_by_class((a, A))) return self class C(MockHasCreate): dependencies = [A, B] def create(self, a=A, b=B, **kw): self.create_and_update_dependencies(b, a) return self class D(MockHasCreate): dependencies = [A] optional_dependencies = [B] def create(self, a=A, b=None, **kw): self.create_and_update_dependencies(*filter_by_class((a, A), (b, B))) return self class E(MockHasCreate): dependencies = [D, C] def create(self, c=C, d=D, **kw): self.create_and_update_dependencies(d, c) return self class F(MockHasCreate): dependencies = [B] optional_dependencies = [E] def create(self, b=B, e=None, **kw): self.create_and_update_dependencies(*filter_by_class((b, B), (e, E))) return self class G(MockHasCreate): dependencies = [D] optional_dependencies = [F, E] def create(self, d=D, f=None, e=None, **kw): self.create_and_update_dependencies(*filter_by_class((d, D), (f, F), (e, E))) return self class H(MockHasCreate): optional_dependencies = [E, A] def create(self, a=None, e=None, **kw): self.create_and_update_dependencies(*filter_by_class((a, A), (e, E))) return self class MultipleWordClassName(MockHasCreate): def create(self, **kw): return self class AnotherMultipleWordClassName(MockHasCreate): optional_dependencies = [MultipleWordClassName] def create(self, multiple_word_class_name=None, **kw): self.create_and_update_dependencies(*filter_by_class((multiple_word_class_name, MultipleWordClassName))) return self def test_dependency_graph_single_page(): """confirms that `dependency_graph(Base)` will return a dependency graph consisting of only dependencies and dependencies of dependencies (if any) """ desired = {} desired[G] = set([D]) desired[D] = set([A]) desired[A] = set() assert has_create.dependency_graph(G) == desired def test_dependency_graph_page_with_optional(): """confirms that `dependency_graph(Base, OptionalBase)` will return a dependency graph consisting of only dependencies and dependencies of dependencies (if any) with the exception that the OptionalBase and its dependencies are included as well. """ desired = {} desired[G] = set([D]) desired[E] = set([D, C]) desired[C] = set([A, B]) desired[D] = set([A]) desired[B] = set() desired[A] = set() assert has_create.dependency_graph(G, E) == desired def test_dependency_graph_page_with_additionals(): """confirms that `dependency_graph(Base, AdditionalBaseOne, AdditionalBaseTwo)` will return a dependency graph consisting of only dependencies and dependencies of dependencies (if any) with the exception that the AdditionalBases are treated as a dependencies of Base (when they aren't) and their dependencies are included as well. """ desired = {} desired[E] = set([D, C]) desired[D] = set([A]) desired[C] = set([A, B]) desired[F] = set([B]) desired[G] = set([D]) desired[A] = set() desired[B] = set() assert has_create.dependency_graph(E, F, G) == desired def test_optional_dependency_graph_single_page(): """confirms that has_create._optional_dependency_graph(Base) returns a complete dependency tree including all optional_dependencies """ desired = {} desired[H] = set([E, A]) desired[E] = set([D, C]) desired[D] = set([A, B]) desired[C] = set([A, B]) desired[B] = set([A]) desired[A] = set() assert has_create.optional_dependency_graph(H) == desired def test_optional_dependency_graph_with_additional(): """confirms that has_create._optional_dependency_graph(Base) returns a complete dependency tree including all optional_dependencies with the AdditionalBases treated as a dependencies of Base (when they aren't) and their dependencies and optional_dependencies included as well. """ desired = {} desired[F] = set([B, E]) desired[H] = set([E, A]) desired[E] = set([D, C]) desired[D] = set([A, B]) desired[C] = set([A, B]) desired[B] = set([A]) desired[A] = set() assert has_create.optional_dependency_graph(F, H, A) == desired def test_creation_order(): """confirms that `has_create.creation_order()` returns a valid creation order in the desired list of sets format""" dependency_graph = dict( eight=set(['seven', 'six']), seven=set(['five']), six=set(), five=set(['two', 'one']), four=set(['one']), three=set(['two']), two=set(['one']), one=set(), ) desired = [set(['one', 'six']), set(['two', 'four']), set(['three', 'five']), set(['seven']), set(['eight'])] assert has_create.creation_order(dependency_graph) == desired def test_creation_order_with_loop(): """confirms that `has_create.creation_order()` raises toposort.CircularDependencyError when evaluating a cyclic dependency graph """ dependency_graph = dict( eight=set(['seven', 'six']), seven=set(['five']), six=set(), five=set(['two', 'one']), four=set(['one']), three=set(['two']), two=set(['one']), one=set(['eight']), ) with pytest.raises(CircularDependencyError): assert has_create.creation_order(dependency_graph) class One(MockHasCreate): pass class Two(MockHasCreate): dependencies = [One] class Three(MockHasCreate): dependencies = [Two, One] class Four(MockHasCreate): optional_dependencies = [Two] class Five(MockHasCreate): dependencies = [Two] optional_dependencies = [One] class IsntAHasCreate(object): pass class Six(MockHasCreate, IsntAHasCreate): dependencies = [Two] class Seven(MockHasCreate): dependencies = [IsntAHasCreate] def test_separate_async_optionals_none_exist(): """confirms that when creation group classes have no async optional dependencies the order is unchanged""" order = has_create.creation_order(has_create.optional_dependency_graph(Three, Two, One)) assert has_create.separate_async_optionals(order) == order def test_separate_async_optionals_two_exist(): """confirms that when two creation group classes have async dependencies the class that has shared item as a dependency occurs first in a separate creation group """ order = has_create.creation_order(has_create.optional_dependency_graph(Four, Three, Two)) assert has_create.separate_async_optionals(order) == [set([One]), set([Two]), set([Three]), set([Four])] def test_separate_async_optionals_three_exist(): """confirms that when three creation group classes have async dependencies the class that has shared item as a dependency occurs first in a separate creation group """ order = has_create.creation_order(has_create.optional_dependency_graph(Five, Four, Three)) assert has_create.separate_async_optionals(order) == [set([One]), set([Two]), set([Three]), set([Five]), set([Four])] def test_separate_async_optionals_not_has_create(): """confirms that when a dependency isn't a HasCreate has_create.separate_aysnc_optionals doesn't unnecessarily move it from the initial creation group """ order = has_create.creation_order(has_create.optional_dependency_graph(Seven, Six)) assert has_create.separate_async_optionals(order) == [set([One, IsntAHasCreate]), set([Two, Seven]), set([Six])] def test_page_creation_order_single_page(): """confirms that `has_create.page_creation_order()` returns a valid creation order""" desired = [set([A]), set([D]), set([G])] assert has_create.page_creation_order(G) == desired def test_page_creation_order_optionals_provided(): """confirms that `has_create.page_creation_order()` returns a valid creation order when optional_dependencies are included """ desired = [set([A]), set([B]), set([C]), set([D]), set([E]), set([H])] assert has_create.page_creation_order(H, A, E) == desired def test_page_creation_order_additionals_provided(): """confirms that `has_create.page_creation_order()` returns a valid creation order when additional pages are included """ desired = [set([A]), set([B]), set([D]), set([F, H]), set([G])] assert has_create.page_creation_order(F, H, G) == desired def test_all_instantiated_dependencies_single_page(): f = F().create() b = f._dependency_store[B] desired = set([b, f]) assert set(has_create.all_instantiated_dependencies(f, A, B, C, D, E, F, G, H)) == desired def test_all_instantiated_dependencies_single_page_are_ordered(): f = F().create() b = f._dependency_store[B] desired = [b, f] assert has_create.all_instantiated_dependencies(f, A, B, C, D, E, F, G, H) == desired def test_all_instantiated_dependencies_optionals(): a = A().create() b = B().create(a=a) c = C().create(a=a, b=b) d = D().create(a=a, b=b) e = E().create(c=c, d=d) h = H().create(a=a, e=e) desired = set([a, b, c, d, e, h]) assert set(has_create.all_instantiated_dependencies(h, A, B, C, D, E, F, G, H)) == desired def test_all_instantiated_dependencies_optionals_are_ordered(): a = A().create() b = B().create(a=a) c = C().create(a=a, b=b) d = D().create(a=a, b=b) e = E().create(c=c, d=d) h = H().create(a=a, e=e) desired = [a, b, c, d, e, h] assert has_create.all_instantiated_dependencies(h, A, B, C, D, E, F, G, H) == desired def test_dependency_resolution_complete(): h = H().create(a=True, e=True) a = h._dependency_store[A] e = h._dependency_store[E] c = e._dependency_store[C] d = e._dependency_store[D] b = c._dependency_store[B] for item in (h, a, e, d, c, b): if item._dependency_store: assert all(item._dependency_store.values()), "{0} missing dependency: {0._dependency_store}".format(item) assert a == b._dependency_store[A], "Duplicate dependency detected" assert a == c._dependency_store[A], "Duplicate dependency detected" assert a == d._dependency_store[A], "Duplicate dependency detected" assert b == c._dependency_store[B], "Duplicate dependency detected" assert b == d._dependency_store[B], "Duplicate dependency detected" def test_ds_mapping(): h = H().create(a=True, e=True) a = h._dependency_store[A] e = h._dependency_store[E] c = e._dependency_store[C] d = e._dependency_store[D] b = c._dependency_store[B] assert a == h.ds.a assert e == h.ds.e assert c == e.ds.c assert d == e.ds.d assert b == c.ds.b def test_ds_multiple_word_class_and_attribute_name(): amwcn = AnotherMultipleWordClassName().create(multiple_word_class_name=True) mwcn = amwcn._dependency_store[MultipleWordClassName] assert amwcn.ds.multiple_word_class_name == mwcn def test_ds_missing_dependency(): a = A().create() with pytest.raises(AttributeError): a.ds.b def test_teardown_calls_silent_cleanup(): g = G().create(f=True, e=True) f = g._dependency_store[F] e = g._dependency_store[E] b = f._dependency_store[B] d = e._dependency_store[D] c = e._dependency_store[C] a = c._dependency_store[A] instances = [g, f, e, b, d, c, a] for instance in instances: assert not instance.cleaned g.teardown() for instance in instances: assert instance.cleaned def test_teardown_dependency_store_cleared(): g = G().create(f=True, e=True) f = g._dependency_store[F] e = g._dependency_store[E] c = e._dependency_store[C] g.teardown() assert not g._dependency_store[F] assert not g._dependency_store[E] assert not f._dependency_store[B] assert not e._dependency_store[D] assert not e._dependency_store[C] assert not c._dependency_store[A] def test_idempotent_teardown_dependency_store_cleared(): g = G().create(f=True, e=True) f = g._dependency_store[F] e = g._dependency_store[E] b = f._dependency_store[B] d = e._dependency_store[D] c = e._dependency_store[C] a = c._dependency_store[A] for item in (g, f, e, b, d, c, a): item.teardown() item.teardown() assert not g._dependency_store[F] assert not g._dependency_store[E] assert not f._dependency_store[B] assert not e._dependency_store[D] assert not e._dependency_store[C] assert not c._dependency_store[A] def test_teardown_ds_cleared(): g = G().create(f=True, e=True) f = g._dependency_store[F] e = g._dependency_store[E] c = e._dependency_store[C] g.teardown() for former_dep in ('f', 'e'): with pytest.raises(AttributeError): getattr(g.ds, former_dep) with pytest.raises(AttributeError): getattr(f.ds, 'b') for former_dep in ('d', 'c'): with pytest.raises(AttributeError): getattr(e.ds, former_dep) with pytest.raises(AttributeError): getattr(c.ds, 'a') class OneWithArgs(MockHasCreate): def create(self, **kw): self.kw = kw return self class TwoWithArgs(MockHasCreate): dependencies = [OneWithArgs] def create(self, one_with_args=OneWithArgs, **kw): if not one_with_args and kw.pop('make_one_with_args', False): one_with_args = (OneWithArgs, dict(a='a', b='b', c='c')) self.create_and_update_dependencies(one_with_args) self.kw = kw return self class ThreeWithArgs(MockHasCreate): dependencies = [OneWithArgs] optional_dependencies = [TwoWithArgs] def create(self, one_with_args=OneWithArgs, two_with_args=None, **kw): self.create_and_update_dependencies(*filter_by_class((one_with_args, OneWithArgs), (two_with_args, TwoWithArgs))) self.kw = kw return self class FourWithArgs(MockHasCreate): dependencies = [TwoWithArgs, ThreeWithArgs] def create(self, two_with_args=TwoWithArgs, three_with_args=ThreeWithArgs, **kw): self.create_and_update_dependencies(*filter_by_class((two_with_args, TwoWithArgs), (three_with_args, ThreeWithArgs))) self.kw = kw return self def test_single_kwargs_class_in_create_and_update_dependencies(): two_wa = TwoWithArgs().create(one_with_args=False, make_one_with_args=True, two_with_args_kw_arg=123) assert isinstance(two_wa.ds.one_with_args, OneWithArgs) assert two_wa.ds.one_with_args.kw == dict(a='a', b='b', c='c') assert two_wa.kw == dict(two_with_args_kw_arg=123) def test_no_tuple_for_class_arg_causes_shared_dependencies_staggered(): three_wo = ThreeWithArgs().create(two_with_args=True) assert isinstance(three_wo.ds.one_with_args, OneWithArgs) assert isinstance(three_wo.ds.two_with_args, TwoWithArgs) assert isinstance(three_wo.ds.two_with_args.ds.one_with_args, OneWithArgs) assert three_wo.ds.one_with_args == three_wo.ds.two_with_args.ds.one_with_args def test_no_tuple_for_class_arg_causes_shared_dependencies_nested_staggering(): four_wo = FourWithArgs().create() assert isinstance(four_wo.ds.two_with_args, TwoWithArgs) assert isinstance(four_wo.ds.three_with_args, ThreeWithArgs) assert isinstance(four_wo.ds.two_with_args.ds.one_with_args, OneWithArgs) assert isinstance(four_wo.ds.three_with_args.ds.one_with_args, OneWithArgs) assert isinstance(four_wo.ds.three_with_args.ds.two_with_args, TwoWithArgs) assert four_wo.ds.two_with_args.ds.one_with_args == four_wo.ds.three_with_args.ds.one_with_args assert four_wo.ds.two_with_args == four_wo.ds.three_with_args.ds.two_with_args def test_tuple_for_class_arg_causes_unshared_dependencies_when_downstream(): """Confirms that provided arg-tuple for dependency type is applied instead of chained dependency""" three_wa = ThreeWithArgs().create( two_with_args=(TwoWithArgs, dict(one_with_args=False, make_one_with_args=True, two_with_args_kw_arg=234)), three_with_args_kw_arg=345 ) assert isinstance(three_wa.ds.one_with_args, OneWithArgs) assert isinstance(three_wa.ds.two_with_args, TwoWithArgs) assert isinstance(three_wa.ds.two_with_args.ds.one_with_args, OneWithArgs) assert three_wa.ds.one_with_args != three_wa.ds.two_with_args.ds.one_with_args assert three_wa.ds.one_with_args.kw == dict() assert three_wa.ds.two_with_args.kw == dict(two_with_args_kw_arg=234) assert three_wa.ds.two_with_args.ds.one_with_args.kw == dict(a='a', b='b', c='c') assert three_wa.kw == dict(three_with_args_kw_arg=345) def test_tuples_for_class_arg_cause_unshared_dependencies_when_downstream(): """Confirms that provided arg-tuple for dependency type is applied instead of chained dependency""" four_wa = FourWithArgs().create( two_with_args=(TwoWithArgs, dict(one_with_args=False, make_one_with_args=True, two_with_args_kw_arg=456)), # No shared dependencies with four_wa.ds.two_with_args three_with_args=(ThreeWithArgs, dict(one_with_args=(OneWithArgs, {}), two_with_args=False)), four_with_args_kw=567, ) assert isinstance(four_wa.ds.two_with_args, TwoWithArgs) assert isinstance(four_wa.ds.three_with_args, ThreeWithArgs) assert isinstance(four_wa.ds.two_with_args.ds.one_with_args, OneWithArgs) assert isinstance(four_wa.ds.three_with_args.ds.one_with_args, OneWithArgs) assert four_wa.ds.three_with_args.ds.one_with_args != four_wa.ds.two_with_args.ds.one_with_args with pytest.raises(AttributeError): four_wa.ds.three_with_args.ds.two_with_args assert four_wa.kw == dict(four_with_args_kw=567) class NotHasCreate(object): pass class MixinUserA(MockHasCreate, NotHasCreate): def create(self, **kw): return self class MixinUserB(MockHasCreate, NotHasCreate): def create(self, **kw): return self class MixinUserC(MixinUserB): def create(self, **kw): return self class MixinUserD(MixinUserC): def create(self, **kw): return self class NotHasCreateDependencyHolder(MockHasCreate): dependencies = [NotHasCreate] def create(self, not_has_create=MixinUserA): self.create_and_update_dependencies(not_has_create) return self def test_not_has_create_default_dependency(): """Confirms that HasCreates that claim non-HasCreates as dependencies claim them by correct kwarg class name in _dependency_store """ dep_holder = NotHasCreateDependencyHolder().create() assert isinstance(dep_holder.ds.not_has_create, MixinUserA) def test_not_has_create_passed_dependency(): """Confirms that passed non-HasCreate subclasses are sourced as dependency""" dep = MixinUserB().create() assert isinstance(dep, MixinUserB) dep_holder = NotHasCreateDependencyHolder().create(not_has_create=dep) assert dep_holder.ds.not_has_create == dep class HasCreateParentDependencyHolder(MockHasCreate): dependencies = [MixinUserB] def create(self, mixin_user_b=MixinUserC): self.create_and_update_dependencies(mixin_user_b) return self def test_has_create_stored_as_parent_dependency(): """Confirms that HasCreate subclasses are sourced as their parent""" dep = MixinUserC().create() assert isinstance(dep, MixinUserC) assert isinstance(dep, MixinUserB) dep_holder = HasCreateParentDependencyHolder().create(mixin_user_b=dep) assert dep_holder.ds.mixin_user_b == dep class DynamicallyDeclaresNotHasCreateDependency(MockHasCreate): dependencies = [NotHasCreate] def create(self, not_has_create=MixinUserA): dynamic_dependency = dict(mixinusera=MixinUserA, mixinuserb=MixinUserB, mixinuserc=MixinUserC) self.create_and_update_dependencies(dynamic_dependency[not_has_create]) return self @pytest.mark.parametrize('dependency,dependency_class', [('mixinusera', MixinUserA), ('mixinuserb', MixinUserB), ('mixinuserc', MixinUserC)]) def test_subclass_or_parent_dynamic_not_has_create_dependency_declaration(dependency, dependency_class): """Confirms that dependencies that dynamically declare dependencies subclassed from not HasCreate are properly linked """ dep_holder = DynamicallyDeclaresNotHasCreateDependency().create(dependency) assert dep_holder.ds.not_has_create.__class__ == dependency_class class DynamicallyDeclaresHasCreateDependency(MockHasCreate): dependencies = [MixinUserB] def create(self, mixin_user_b=MixinUserB): dynamic_dependency = dict(mixinuserb=MixinUserB, mixinuserc=MixinUserC, mixinuserd=MixinUserD) self.create_and_update_dependencies(dynamic_dependency[mixin_user_b]) return self @pytest.mark.parametrize('dependency,dependency_class', [('mixinuserb', MixinUserB), ('mixinuserc', MixinUserC), ('mixinuserd', MixinUserD)]) def test_subclass_or_parent_dynamic_has_create_dependency_declaration(dependency, dependency_class): """Confirms that dependencies that dynamically declare dependencies subclassed from not HasCreate are properly linked """ dep_holder = DynamicallyDeclaresHasCreateDependency().create(dependency) assert dep_holder.ds.mixin_user_b.__class__ == dependency_class