def mismatches_when_duplicate_is_missing(): matcher = includes(equal_to("apple"), equal_to("apple")) assert_equal( unmatched( "was missing element:\n * 'apple'\nThese elements were in the iterable, but did not match the missing element:\n * 'apple': already matched" ), matcher.match(["apple"]))
def description_contains_descriptions_of_submatchers(): matcher = includes(equal_to("apple"), equal_to("banana")) assert_equal( "iterable including elements:\n * 'apple'\n * 'banana'", matcher.describe() )
def elements_are_coerced_to_matchers(): matcher = includes("apple", "banana") assert_equal( "iterable including elements:\n * 'apple'\n * 'banana'", matcher.describe() )
def mismatches_when_duplicate_is_missing(): matcher = includes(equal_to("apple"), equal_to("apple")) assert_equal( unmatched("was missing element:\n * 'apple'\nThese elements were in the iterable, but did not match the missing element:\n * 'apple': already matched"), matcher.match(["apple"]) )
def when_no_elements_are_expected_then_empty_iterable_matches(): matcher = includes() assert_equal( matched(), matcher.match([]) )
def mismatches_when_item_is_expected_but_iterable_is_empty(): matcher = includes(equal_to("apple")) assert_equal( unmatched("iterable was empty"), matcher.match([]) )
def mismatches_when_item_is_missing(): matcher = includes(equal_to("apple"), equal_to("banana"), equal_to("coconut")) assert_equal( unmatched("was missing element:\n * 'banana'\nThese elements were in the iterable, but did not match the missing element:\n * 'coconut': was 'coconut'\n * 'apple': already matched"), matcher.match(["coconut", "apple"]) )
def mismatches_when_actual_is_not_iterable(): matcher = includes(equal_to("apple")) assert_equal( unmatched("was not iterable\nwas 0"), matcher.match(0) )
def mismatches_when_item_is_missing(): matcher = includes(equal_to("apple"), equal_to("banana"), equal_to("coconut")) assert_equal( unmatched( "was missing element:\n * 'banana'\nThese elements were in the iterable, but did not match the missing element:\n * 'coconut': was 'coconut'\n * 'apple': already matched" ), matcher.match(["coconut", "apple"]))
def test_object_type_has_field_param_types_in_child_types(self): User = schema.ObjectType("User", fields=lambda: ( schema.field("name", type=schema.String, params=( schema.param("long", type=schema.Boolean), )), )) collected_types = schema.collect_types((User, )) assert_that(collected_types, includes(schema.Boolean))
def test_object_type_has_interface_types_in_child_types(self): Person = schema.InterfaceType("Person", fields=lambda: ( schema.field("name", type=schema.String), )) User = schema.ObjectType("User", fields=lambda: ( schema.field("name", type=schema.String), ), interfaces=(Person, )) collected_types = schema.collect_types((User, )) assert_that(collected_types, includes(Person))
def matches_when_there_are_extra_items(): matcher = includes(equal_to("apple")) assert_equal(matched(), matcher.match(["coconut", "apple"]))
def when_no_elements_are_expected_then_empty_iterable_matches(): matcher = includes() assert_equal(matched(), matcher.match([]))
def mismatches_when_item_is_expected_but_iterable_is_empty(): matcher = includes(equal_to("apple")) assert_equal(unmatched("iterable was empty"), matcher.match([]))
def mismatches_when_actual_is_not_iterable(): matcher = includes(equal_to("apple")) assert_equal(unmatched("was not iterable\nwas 0"), matcher.match(0))
def elements_are_coerced_to_matchers(): matcher = includes("apple", "banana") assert_equal("iterable including elements:\n * 'apple'\n * 'banana'", matcher.describe())
def description_contains_descriptions_of_submatchers(): matcher = includes(equal_to("apple"), equal_to("banana")) assert_equal("iterable including elements:\n * 'apple'\n * 'banana'", matcher.describe())
def matches_when_all_submatchers_match_one_item_with_no_items_leftover(): matcher = includes(equal_to("apple"), equal_to("banana")) assert_equal(matched(), matcher.match(["apple", "banana"])) assert_equal(matched(), matcher.match(["apple", "banana", "coconut"]))
def test_object_type_has_field_types_in_child_types(self): User = schema.ObjectType("User", fields=lambda: ( schema.field("name", type=schema.String), )) collected_types = schema.collect_types((User, )) assert_that(collected_types, includes(schema.String))