use pyo3::prelude::*; mod common; #[pyclass] struct Foo { #[pyo3(get)] x: i32, } #[pyclass] struct Bar { #[pyo3(get)] x: i32, } #[pymethods] impl Foo { #[classattr] const MY_CONST: &'static str = "foobar"; #[classattr] fn a() -> i32 { 5 } #[classattr] #[name = "B"] fn b() -> String { "bar".to_string() } #[classattr] fn bar() -> Bar { Bar { x: 2 } } #[classattr] fn foo() -> Foo { Foo { x: 1 } } } #[test] fn class_attributes() { let gil = Python::acquire_gil(); let py = gil.python(); let foo_obj = py.get_type::(); py_assert!(py, foo_obj, "foo_obj.a == 5"); py_assert!(py, foo_obj, "foo_obj.B == 'bar'"); py_assert!(py, foo_obj, "foo_obj.MY_CONST == 'foobar'"); } // Ignored because heap types are not immutable: // https://github.com/python/cpython/blob/master/Objects/typeobject.c#L3399-L3409 #[test] #[ignore] fn class_attributes_are_immutable() { let gil = Python::acquire_gil(); let py = gil.python(); let foo_obj = py.get_type::(); py_expect_exception!(py, foo_obj, "foo_obj.a = 6", PyTypeError); } #[pymethods] impl Bar { #[classattr] fn foo() -> Foo { Foo { x: 3 } } } #[test] fn recursive_class_attributes() { let gil = Python::acquire_gil(); let py = gil.python(); let foo_obj = py.get_type::(); let bar_obj = py.get_type::(); py_assert!(py, foo_obj, "foo_obj.foo.x == 1"); py_assert!(py, foo_obj, "foo_obj.bar.x == 2"); py_assert!(py, bar_obj, "bar_obj.foo.x == 3"); }