#![cfg(feature = "experimental-declarative-modules")] use pyo3::create_exception; use pyo3::exceptions::PyException; use pyo3::prelude::*; #[cfg(not(Py_LIMITED_API))] use pyo3::types::PyBool; #[path = "../src/tests/common.rs"] mod common; mod some_module { use pyo3::create_exception; use pyo3::exceptions::PyException; use pyo3::prelude::*; #[pyclass] pub struct SomePyClass; create_exception!(some_module, SomeException, PyException); } #[pyclass] struct ValueClass { value: usize, } #[pymethods] impl ValueClass { #[new] fn new(value: usize) -> Self { Self { value } } } #[pyclass(module = "module")] struct LocatedClass {} #[pyfunction] fn double(x: usize) -> usize { x * 2 } create_exception!( declarative_module, MyError, PyException, "Some description." ); /// A module written using declarative syntax. #[pymodule] mod declarative_module { #[pymodule_export] use super::declarative_submodule; #[pymodule_export] // This is not a real constraint but to test cfg attribute support #[cfg(not(Py_LIMITED_API))] use super::LocatedClass; use super::*; #[pymodule_export] use super::{declarative_module2, double, MyError, ValueClass as Value}; // test for #4036 #[pymodule_export] use super::some_module::SomePyClass; // test for #4036 #[pymodule_export] use super::some_module::SomeException; #[pymodule] mod inner { use super::*; #[pyfunction] fn triple(x: usize) -> usize { x * 3 } #[pyclass] struct Struct; #[pymethods] impl Struct { #[new] fn new() -> Self { Self } } #[pyclass] enum Enum { A, B, } } #[pymodule_init] fn init(m: &Bound<'_, PyModule>) -> PyResult<()> { m.add("double2", m.getattr("double")?) } } #[pyfunction] fn double_value(v: &ValueClass) -> usize { v.value * 2 } #[pymodule] mod declarative_submodule { #[pymodule_export] use super::{double, double_value}; } #[pymodule] #[pyo3(name = "declarative_module_renamed")] mod declarative_module2 { #[pymodule_export] use super::double; } #[test] fn test_declarative_module() { Python::with_gil(|py| { let m = pyo3::wrap_pymodule!(declarative_module)(py).into_bound(py); py_assert!( py, m, "m.__doc__ == 'A module written using declarative syntax.'" ); py_assert!(py, m, "m.double(2) == 4"); py_assert!(py, m, "m.inner.triple(3) == 9"); py_assert!(py, m, "m.declarative_submodule.double(4) == 8"); py_assert!( py, m, "m.declarative_submodule.double_value(m.ValueClass(1)) == 2" ); py_assert!(py, m, "str(m.MyError('foo')) == 'foo'"); py_assert!(py, m, "m.declarative_module_renamed.double(2) == 4"); #[cfg(Py_LIMITED_API)] py_assert!(py, m, "not hasattr(m, 'LocatedClass')"); #[cfg(not(Py_LIMITED_API))] py_assert!(py, m, "hasattr(m, 'LocatedClass')"); py_assert!(py, m, "isinstance(m.inner.Struct(), m.inner.Struct)"); py_assert!(py, m, "isinstance(m.inner.Enum.A, m.inner.Enum)"); }) } #[cfg(not(Py_LIMITED_API))] #[pyclass(extends = PyBool)] struct ExtendsBool; #[cfg(not(Py_LIMITED_API))] #[pymodule] mod class_initialization_module { #[pymodule_export] use super::ExtendsBool; } #[test] #[cfg(not(Py_LIMITED_API))] fn test_class_initialization_fails() { Python::with_gil(|py| { let err = class_initialization_module::_PYO3_DEF .make_module(py) .unwrap_err(); assert_eq!( err.to_string(), "RuntimeError: An error occurred while initializing class ExtendsBool" ); }) } #[pymodule] mod r#type { #[pymodule_export] use super::double; } #[test] fn test_raw_ident_module() { Python::with_gil(|py| { let m = pyo3::wrap_pymodule!(r#type)(py).into_bound(py); py_assert!(py, m, "m.double(2) == 4"); }) }