#![cfg(feature = "macros")] use pyo3::prelude::*; use pyo3::py_run; use pyo3::types::{IntoPyDict, PyDict, PyTuple}; mod common; #[pyclass] struct AnonClass {} #[pyclass] struct ValueClass { value: usize, } #[pymethods] impl ValueClass { #[new] fn new(value: usize) -> ValueClass { ValueClass { value } } } #[pyclass(module = "module")] struct LocatedClass {} #[pyfunction] /// Doubles the given value fn double(x: usize) -> usize { x * 2 } /// This module is implemented in Rust. #[pymodule] fn module_with_functions(_py: Python, m: &PyModule) -> PyResult<()> { #[pyfn(m)] #[pyo3(name = "no_parameters")] fn function_with_name() -> usize { 42 } #[pyfn(m)] #[pyo3(pass_module)] fn with_module(module: &PyModule) -> PyResult<&str> { module.name() } #[pyfn(m)] fn double_value(v: &ValueClass) -> usize { v.value * 2 } m.add_class::().unwrap(); m.add_class::().unwrap(); m.add_class::().unwrap(); m.add("foo", "bar").unwrap(); m.add_function(wrap_pyfunction!(double, m)?).unwrap(); m.add("also_double", wrap_pyfunction!(double, m)?).unwrap(); Ok(()) } #[test] fn test_module_with_functions() { use pyo3::wrap_pymodule; let gil = Python::acquire_gil(); let py = gil.python(); let d = [( "module_with_functions", wrap_pymodule!(module_with_functions)(py), )] .into_py_dict(py); py_assert!( py, *d, "module_with_functions.__doc__ == 'This module is implemented in Rust.'" ); py_assert!(py, *d, "module_with_functions.no_parameters() == 42"); py_assert!(py, *d, "module_with_functions.foo == 'bar'"); py_assert!(py, *d, "module_with_functions.AnonClass != None"); py_assert!(py, *d, "module_with_functions.LocatedClass != None"); py_assert!( py, *d, "module_with_functions.LocatedClass.__module__ == 'module'" ); py_assert!(py, *d, "module_with_functions.double(3) == 6"); py_assert!( py, *d, "module_with_functions.double.__doc__ == 'Doubles the given value'" ); py_assert!(py, *d, "module_with_functions.also_double(3) == 6"); py_assert!( py, *d, "module_with_functions.also_double.__doc__ == 'Doubles the given value'" ); py_assert!( py, *d, "module_with_functions.double_value(module_with_functions.ValueClass(1)) == 2" ); py_assert!( py, *d, "module_with_functions.with_module() == 'module_with_functions'" ); } #[pymodule] #[pyo3(name = "other_name")] fn some_name(_: Python, m: &PyModule) -> PyResult<()> { m.add("other_name", "other_name")?; Ok(()) } #[test] fn test_module_renaming() { use pyo3::wrap_pymodule; let gil = Python::acquire_gil(); let py = gil.python(); let d = [("different_name", wrap_pymodule!(some_name)(py))].into_py_dict(py); py_run!(py, *d, "assert different_name.__name__ == 'other_name'"); } #[test] fn test_module_from_code() { let gil = Python::acquire_gil(); let py = gil.python(); let adder_mod = PyModule::from_code( py, "def add(a,b):\n\treturn a+b", "adder_mod.py", "adder_mod", ) .expect("Module code should be loaded"); let add_func = adder_mod .getattr("add") .expect("Add function should be in the module") .to_object(py); let ret_value: i32 = add_func .call1(py, (1, 2)) .expect("A value should be returned") .extract(py) .expect("The value should be able to be converted to an i32"); assert_eq!(ret_value, 3); } #[pyfunction] fn r#move() -> usize { 42 } #[pymodule] fn raw_ident_module(_py: Python, module: &PyModule) -> PyResult<()> { module.add_function(wrap_pyfunction!(r#move, module)?) } #[test] fn test_raw_idents() { use pyo3::wrap_pymodule; let gil = Python::acquire_gil(); let py = gil.python(); let module = wrap_pymodule!(raw_ident_module)(py); py_assert!(py, module, "module.move() == 42"); } #[pyfunction] #[pyo3(name = "foobar")] fn custom_named_fn() -> usize { 42 } #[pymodule] fn foobar_module(_py: Python, m: &PyModule) -> PyResult<()> { m.add_function(wrap_pyfunction!(custom_named_fn, m)?)?; m.dict().set_item("yay", "me")?; Ok(()) } #[test] fn test_custom_names() { let gil = Python::acquire_gil(); let py = gil.python(); let module = pyo3::wrap_pymodule!(foobar_module)(py); py_assert!(py, module, "not hasattr(module, 'custom_named_fn')"); py_assert!(py, module, "module.foobar() == 42"); } #[test] fn test_module_dict() { let gil = Python::acquire_gil(); let py = gil.python(); let module = pyo3::wrap_pymodule!(foobar_module)(py); py_assert!(py, module, "module.yay == 'me'"); } #[test] fn test_module_dunder_all() { let gil = Python::acquire_gil(); let py = gil.python(); let module = pyo3::wrap_pymodule!(foobar_module)(py); py_assert!(py, module, "module.__all__ == ['foobar']"); } #[pyfunction] fn subfunction() -> String { "Subfunction".to_string() } fn submodule(module: &PyModule) -> PyResult<()> { module.add_function(wrap_pyfunction!(subfunction, module)?)?; Ok(()) } #[pymodule] fn submodule_with_init_fn(_py: Python, module: &PyModule) -> PyResult<()> { module.add_function(wrap_pyfunction!(subfunction, module)?)?; Ok(()) } #[pyfunction] fn superfunction() -> String { "Superfunction".to_string() } #[pymodule] fn supermodule(py: Python, module: &PyModule) -> PyResult<()> { module.add_function(wrap_pyfunction!(superfunction, module)?)?; let module_to_add = PyModule::new(py, "submodule")?; submodule(module_to_add)?; module.add_submodule(module_to_add)?; let module_to_add = PyModule::new(py, "submodule_with_init_fn")?; submodule_with_init_fn(py, module_to_add)?; module.add_submodule(module_to_add)?; Ok(()) } #[test] fn test_module_nesting() { use pyo3::wrap_pymodule; let gil = Python::acquire_gil(); let py = gil.python(); let supermodule = wrap_pymodule!(supermodule)(py); py_assert!( py, supermodule, "supermodule.superfunction() == 'Superfunction'" ); py_assert!( py, supermodule, "supermodule.submodule.subfunction() == 'Subfunction'" ); py_assert!( py, supermodule, "supermodule.submodule_with_init_fn.subfunction() == 'Subfunction'" ); } // Test that argument parsing specification works for pyfunctions #[pyfunction(a = 5, vararg = "*")] fn ext_vararg_fn(py: Python, a: i32, vararg: &PyTuple) -> PyObject { [a.to_object(py), vararg.into()].to_object(py) } #[pymodule] fn vararg_module(_py: Python, m: &PyModule) -> PyResult<()> { #[pyfn(m, a = 5, vararg = "*")] fn int_vararg_fn(py: Python, a: i32, vararg: &PyTuple) -> PyObject { ext_vararg_fn(py, a, vararg) } m.add_function(wrap_pyfunction!(ext_vararg_fn, m)?).unwrap(); Ok(()) } #[test] fn test_vararg_module() { let gil = Python::acquire_gil(); let py = gil.python(); let m = pyo3::wrap_pymodule!(vararg_module)(py); py_assert!(py, m, "m.ext_vararg_fn() == [5, ()]"); py_assert!(py, m, "m.ext_vararg_fn(1, 2) == [1, (2,)]"); py_assert!(py, m, "m.int_vararg_fn() == [5, ()]"); py_assert!(py, m, "m.int_vararg_fn(1, 2) == [1, (2,)]"); } #[test] fn test_module_with_constant() { // Regression test for #1102 #[pymodule] fn module_with_constant(_py: Python, m: &PyModule) -> PyResult<()> { const ANON: AnonClass = AnonClass {}; m.add("ANON", ANON)?; m.add_class::()?; Ok(()) } Python::with_gil(|py| { let m = pyo3::wrap_pymodule!(module_with_constant)(py); py_assert!(py, m, "isinstance(m.ANON, m.AnonClass)"); }); } #[pyfunction] #[pyo3(pass_module)] fn pyfunction_with_module(module: &PyModule) -> PyResult<&str> { module.name() } #[pyfunction] #[pyo3(pass_module)] fn pyfunction_with_module_and_py<'a>( module: &'a PyModule, _python: Python<'a>, ) -> PyResult<&'a str> { module.name() } #[pyfunction] #[pyo3(pass_module)] fn pyfunction_with_module_and_arg(module: &PyModule, string: String) -> PyResult<(&str, String)> { module.name().map(|s| (s, string)) } #[pyfunction(string = "\"foo\"")] #[pyo3(pass_module)] fn pyfunction_with_module_and_default_arg<'a>( module: &'a PyModule, string: &str, ) -> PyResult<(&'a str, String)> { module.name().map(|s| (s, string.into())) } #[pyfunction(args = "*", kwargs = "**")] #[pyo3(pass_module)] fn pyfunction_with_module_and_args_kwargs<'a>( module: &'a PyModule, args: &PyTuple, kwargs: Option<&PyDict>, ) -> PyResult<(&'a str, usize, Option)> { module .name() .map(|s| (s, args.len(), kwargs.map(|d| d.len()))) } #[pyfunction] #[pyo3(pass_module)] fn pyfunction_with_pass_module_in_attribute(module: &PyModule) -> PyResult<&str> { module.name() } #[pymodule] fn module_with_functions_with_module(_py: Python, m: &PyModule) -> PyResult<()> { m.add_function(wrap_pyfunction!(pyfunction_with_module, m)?)?; m.add_function(wrap_pyfunction!(pyfunction_with_module_and_py, m)?)?; m.add_function(wrap_pyfunction!(pyfunction_with_module_and_arg, m)?)?; m.add_function(wrap_pyfunction!(pyfunction_with_module_and_default_arg, m)?)?; m.add_function(wrap_pyfunction!(pyfunction_with_module_and_args_kwargs, m)?)?; m.add_function(wrap_pyfunction!( pyfunction_with_pass_module_in_attribute, m )?)?; Ok(()) } #[test] fn test_module_functions_with_module() { let gil = Python::acquire_gil(); let py = gil.python(); let m = pyo3::wrap_pymodule!(module_with_functions_with_module)(py); py_assert!( py, m, "m.pyfunction_with_module() == 'module_with_functions_with_module'" ); py_assert!( py, m, "m.pyfunction_with_module_and_py() == 'module_with_functions_with_module'" ); py_assert!( py, m, "m.pyfunction_with_module_and_default_arg() \ == ('module_with_functions_with_module', 'foo')" ); py_assert!( py, m, "m.pyfunction_with_module_and_args_kwargs(1, x=1, y=2) \ == ('module_with_functions_with_module', 1, 2)" ); py_assert!( py, m, "m.pyfunction_with_pass_module_in_attribute() == 'module_with_functions_with_module'" ); } #[test] fn test_module_doc_hidden() { #[doc(hidden)] #[allow(clippy::unnecessary_wraps)] #[pymodule] fn my_module(_py: Python, _m: &PyModule) -> PyResult<()> { Ok(()) } Python::with_gil(|py| { let m = pyo3::wrap_pymodule!(my_module)(py); py_assert!(py, m, "m.__doc__ == ''"); }) }