pyo3/tests/test_class.rs

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#![feature(proc_macro, specialization)]
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#![allow(dead_code, unused_variables)]
extern crate pyo3;
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use pyo3::*;
use std::{mem, isize, iter};
use std::cell::RefCell;
use std::sync::Arc;
use std::sync::atomic::{AtomicBool, Ordering};
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use pyo3::ffi;
use pyo3::python::ToPythonPointer;
macro_rules! py_run {
($py:expr, $val:ident, $code:expr) => {{
let d = PyDict::new($py);
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d.set_item(stringify!($val), &$val).unwrap();
//$py.run($code, None, Some(&d)).map_err(|e| e.print($py)).expect($code);
$py.run($code, None, Some(&d)).expect($code);
}}
}
macro_rules! py_assert {
($py:expr, $val:ident, $assertion:expr) => { py_run!($py, $val, concat!("assert ", $assertion)) };
}
macro_rules! py_expect_exception {
($py:expr, $val:ident, $code:expr, $err:ident) => {{
let d = PyDict::new($py);
d.set_item(stringify!($val), &$val).unwrap();
let res = $py.run($code, None, Some(&d));
let err = res.unwrap_err();
if !err.matches($py, $py.get_type::<exc::$err>()) {
panic!(format!("Expected {} but got {:?}", stringify!($err), err))
}
}}
}
#[py::class]
struct EmptyClass { }
#[test]
fn empty_class() {
let gil = Python::acquire_gil();
let py = gil.python();
let typeobj = py.get_type::<EmptyClass>();
// By default, don't allow creating instances from python.
assert!(typeobj.call(NoArgs, None).is_err());
py_assert!(py, typeobj, "typeobj.__name__ == 'EmptyClass'");
}
#[py::class]
struct EmptyClassInModule { }
//#[test]
fn empty_class_in_module() {
let gil = Python::acquire_gil();
let py = gil.python();
let module = PyModule::new(py, "test_module.nested").unwrap();
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module.add_class::<EmptyClassInModule>().unwrap();
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let ty = module.getattr("EmptyClassInModule").unwrap();
assert_eq!(ty.getattr("__name__").unwrap().extract::<String>().unwrap(), "EmptyClassInModule");
assert_eq!(ty.getattr("__module__").unwrap().extract::<String>().unwrap(), "test_module.nested");
}
#[py::class]
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struct EmptyClassWithNew {token: PythonToken<EmptyClassWithNew> }
#[py::methods]
impl EmptyClassWithNew {
#[__new__]
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fn __new__(cls: &PyType, py: Python) -> PyResult<PyPtr<EmptyClassWithNew>> {
Ok(py.with_token(|t| EmptyClassWithNew{token: t}).into_pptr())
}
}
#[test]
fn empty_class_with_new() {
let gil = Python::acquire_gil();
let py = gil.python();
let typeobj = py.get_type::<EmptyClassWithNew>();
assert!(typeobj.call(NoArgs, None).unwrap().cast_as::<EmptyClassWithNew>().is_ok());
}
#[py::class]
struct NewWithOneArg {
_data: i32,
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#[token]
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token: PythonToken<NewWithOneArg>
}
#[py::methods]
impl NewWithOneArg {
#[new]
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fn __new__(_cls: &PyType, py: Python, arg: i32) -> PyResult<PyPtr<NewWithOneArg>> {
Ok(py.with_token(|t| NewWithOneArg{_data: arg, token: t}).into_pptr())
}
}
#[test]
fn new_with_one_arg() {
let gil = Python::acquire_gil();
let py = gil.python();
let typeobj = py.get_type::<NewWithOneArg>();
let wrp = typeobj.call((42,), None).unwrap();
let obj = wrp.cast_as::<NewWithOneArg>().unwrap();
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assert_eq!(obj._data, 42);
}
#[py::class]
struct NewWithTwoArgs {
_data1: i32,
_data2: i32,
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token: PythonToken<NewWithTwoArgs>
}
#[py::methods]
impl NewWithTwoArgs {
#[new]
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fn __new__(_cls: &PyType, py: Python, arg1: i32, arg2: i32)
-> PyResult<PyPtr<NewWithTwoArgs>> {
Ok(py.with_token(|t| NewWithTwoArgs{_data1: arg1, _data2: arg2, token: t}).into_pptr())
}
}
#[test]
fn new_with_two_args() {
let gil = Python::acquire_gil();
let py = gil.python();
let typeobj = py.get_type::<NewWithTwoArgs>();
let wrp = typeobj.call((10, 20), None).unwrap();
let obj = wrp.cast_as::<NewWithTwoArgs>().unwrap();
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assert_eq!(obj._data1, 10);
assert_eq!(obj._data2, 20);
}
struct TestDropCall {
drop_called: Arc<AtomicBool>
}
impl Drop for TestDropCall {
fn drop(&mut self) {
self.drop_called.store(true, Ordering::Relaxed);
}
}
#[py::class]
struct DataIsDropped {
member1: TestDropCall,
member2: TestDropCall,
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token: PythonToken<DataIsDropped>,
}
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//#[test]
fn data_is_dropped() {
let gil = Python::acquire_gil();
let py = gil.python();
let drop_called1 = Arc::new(AtomicBool::new(false));
let drop_called2 = Arc::new(AtomicBool::new(false));
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let inst = py.with_token(|t| DataIsDropped{
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member1: TestDropCall { drop_called: drop_called1.clone() },
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member2: TestDropCall { drop_called: drop_called2.clone() },
token: t
});
assert!(drop_called1.load(Ordering::Relaxed) == false);
assert!(drop_called2.load(Ordering::Relaxed) == false);
drop(inst);
assert!(drop_called1.load(Ordering::Relaxed) == true);
assert!(drop_called2.load(Ordering::Relaxed) == true);
}
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#[py::class]
struct InstanceMethod {
member: i32,
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token: PythonToken<InstanceMethod>
}
#[py::methods]
impl InstanceMethod {
fn method(&self, py: Python) -> PyResult<i32> {
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Ok(self.member)
}
}
#[test]
fn instance_method() {
let gil = Python::acquire_gil();
let py = gil.python();
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let obj = py.with_token(|t| InstanceMethod{member: 42, token: t});
assert!(obj.method(py).unwrap() == 42);
let d = PyDict::new(py);
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d.set_item("obj", obj).unwrap();
py.run("assert obj.method() == 42", None, Some(&d)).unwrap();
}
#[py::class]
struct InstanceMethodWithArgs {
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member: i32,
token: PythonToken<InstanceMethodWithArgs>
}
#[py::methods]
impl InstanceMethodWithArgs {
fn method(&self, py: Python, multiplier: i32) -> PyResult<i32> {
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Ok(self.member * multiplier)
}
}
#[test]
fn instance_method_with_args() {
let gil = Python::acquire_gil();
let py = gil.python();
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let obj = py.with_token(|t| InstanceMethodWithArgs{member: 7, token: t});
assert!(obj.method(py, 6).unwrap() == 42);
let d = PyDict::new(py);
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d.set_item("obj", obj).unwrap();
py.run("assert obj.method(3) == 21", None, Some(&d)).unwrap();
py.run("assert obj.method(multiplier=6) == 42", None, Some(&d)).unwrap();
}
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/*
#[py::class]
struct ClassMethod {}
#[py::methods]
impl ClassMethod {
#[new]
fn __new__(cls: &PyType, py: Python) -> PyResult<ClassMethod> {
ClassMethod::create_instance(py)
}
//#[classmethod]
//def method(cls) -> PyResult<String> {
// Ok(format!("{}.method()!", cls.name(py)))
//}
}
//#[test]
fn class_method() {
let gil = Python::acquire_gil();
let py = gil.python();
let d = PyDict::new(py);
d.set_item(py, "C", py.get_type::<ClassMethod>()).unwrap();
py.run("assert C.method() == 'ClassMethod.method()!'", None, Some(&d)).unwrap();
py.run("assert C().method() == 'ClassMethod.method()!'", None, Some(&d)).unwrap();
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}*/
//py_class!(class ClassMethodWithArgs |py| {
// @classmethod
// def method(cls, input: &str) -> PyResult<String> {
// Ok(format!("{}.method({})", cls.name(py), input))
// }
//});
//#[test]
/*fn class_method_with_args() {
let gil = Python::acquire_gil();
let py = gil.python();
let d = PyDict::new(py);
d.set_item(py, "C", py.get_type::<ClassMethodWithArgs>()).unwrap();
py.run("assert C.method('abc') == 'ClassMethodWithArgs.method(abc)'", None, Some(&d)).unwrap();
}*/
#[py::class]
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struct StaticMethod {token: PythonToken<StaticMethod>}
#[py::methods]
impl StaticMethod {
#[new]
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fn __new__(cls: &PyType, py: Python) -> PyResult<PyPtr<StaticMethod>> {
Ok(py.with_token(|t| StaticMethod{token: t}).into_pptr())
}
//#[staticmethod]
//fn method(py: Python) -> PyResult<&'static str> {
// Ok("StaticMethod.method()!")
//}
}
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//#[test]
/*fn static_method() {
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let gil = Python::acquire_gil();
let py = gil.python();
assert_eq!(StaticMethod::method(py).unwrap(), "StaticMethod.method()!");
let d = PyDict::new(py);
d.set_item(py, "C", py.get_type::<StaticMethod>()).unwrap();
py.run("assert C.method() == 'StaticMethod.method()!'", None, Some(&d)).unwrap();
py.run("assert C().method() == 'StaticMethod.method()!'", None, Some(&d)).unwrap();
}*/
//py_class!(class StaticMethodWithArgs |py| {
// @staticmethod
// def method(input: i32) -> PyResult<String> {
// Ok(format!("0x{:x}", input))
// }
//});
//#[test]
//fn static_method_with_args() {
// let gil = Python::acquire_gil();
// let py = gil.python();
// assert_eq!(StaticMethodWithArgs::method(py, 1234).unwrap(), "0x4d2");
// let d = PyDict::new(py);
// d.set_item(py, "C", py.get_type::<StaticMethodWithArgs>()).unwrap();
// py.run("assert C.method(1337) == '0x539'", None, Some(&d)).unwrap();
//}
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#[py::class]
struct GCIntegration {
self_ref: RefCell<PyPtr<PyObjectMarker>>,
dropped: TestDropCall,
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token: PythonToken<GCIntegration>,
}
#[py::proto]
impl PyGCProtocol for GCIntegration {
fn __traverse__(&self, py: Python, visit: PyVisit) -> Result<(), PyTraverseError> {
visit.call(&*self.self_ref.borrow())
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}
fn __clear__(&mut self, py: Python) {
*self.self_ref.borrow_mut() = py.None();
}
}
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#[test]
fn gc_integration() {
let gil = Python::acquire_gil();
let py = gil.python();
let drop_called = Arc::new(AtomicBool::new(false));
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let mut inst = py.with_token(|t| GCIntegration{
self_ref: RefCell::new(py.None()),
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dropped: TestDropCall { drop_called: drop_called.clone() },
token: t});
*inst.self_ref.borrow_mut() = inst.clone_ref().into_object().into_pptr();
drop(inst);
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py.run("import gc; gc.collect()", None, None).unwrap();
assert!(drop_called.load(Ordering::Relaxed));
}
#[py::class]
pub struct Len {
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l: usize,
token: PythonToken<Len>,
}
#[py::proto]
impl PyMappingProtocol for Len {
fn __len__(&self, py: Python) -> PyResult<usize> {
Ok(self.l)
}
}
#[test]
fn len() {
let gil = Python::acquire_gil();
let py = gil.python();
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let inst = py.with_token(|t| Len{l: 10, token: t});
py_assert!(py, inst, "len(inst) == 10");
unsafe {
assert_eq!(ffi::PyObject_Size(inst.as_ptr()), 10);
assert_eq!(ffi::PyMapping_Size(inst.as_ptr()), 10);
}
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let inst = py.with_token(|t| Len{l: (isize::MAX as usize) + 1, token: t});
py_expect_exception!(py, inst, "len(inst)", OverflowError);
}
/*py_class!(class Iterator |py| {
data iter: RefCell<Box<iter::Iterator<Item=i32> + Send>>;
def __iter__(&self) -> PyResult<Iterator> {
Ok(self.clone_ref(py))
}
def __next__(&self) -> PyResult<Option<i32>> {
Ok(self.iter(py).borrow_mut().next())
}
});
#[test]
fn iterator() {
let gil = Python::acquire_gil();
let py = gil.python();
let inst = Iterator::create_instance(py, RefCell::new(Box::new(5..8))).unwrap();
py_assert!(py, inst, "iter(inst) is inst");
py_assert!(py, inst, "list(inst) == [5, 6, 7]");
}*/
#[py::class]
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struct StringMethods {token: PythonToken<StringMethods>}
#[py::proto]
impl<'p> PyObjectProtocol<'p> for StringMethods {
fn __str__(&self, py: Python) -> PyResult<&'static str> {
Ok("str")
}
fn __repr__(&self, py: Python) -> PyResult<&'static str> {
Ok("repr")
}
fn __format__(&self, py: Python, format_spec: String) -> PyResult<String> {
Ok(format!("format({})", format_spec))
}
//fn __unicode__(&self) -> PyResult<PyString> {
// Ok(PyString::new(py, "unicode"))
//}
fn __bytes__(&self, py: Python) -> PyResult<PyBytes<'p>> {
Ok(PyBytes::new(py, b"bytes"))
}
}
#[test]
fn string_methods() {
let gil = Python::acquire_gil();
let py = gil.python();
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let obj = py.with_token(|t| StringMethods{token: t});
py_assert!(py, obj, "str(obj) == 'str'");
py_assert!(py, obj, "repr(obj) == 'repr'");
py_assert!(py, obj, "'{0:x}'.format(obj) == 'format(x)'");
py_assert!(py, obj, "bytes(obj) == b'bytes'");
}
#[py::class]
struct Comparisons {
val: i32,
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token: PythonToken<Comparisons>,
}
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#[py::proto]
impl PyObjectProtocol for Comparisons {
fn __hash__(&self, py: Python) -> PyResult<usize> {
Ok(self.val as usize)
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}
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fn __bool__(&self, py: Python) -> PyResult<bool> {
Ok(self.val != 0)
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}
}
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#[test]
fn comparisons() {
let gil = Python::acquire_gil();
let py = gil.python();
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let zero = py.with_token(|t| Comparisons{val: 0, token: t});
let one = py.with_token(|t| Comparisons{val: 1, token: t});
let ten = py.with_token(|t| Comparisons{val: 10, token: t});
let minus_one = py.with_token(|t| Comparisons{val: -1, token: t});
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py_assert!(py, one, "hash(one) == 1");
py_assert!(py, ten, "hash(ten) == 10");
py_assert!(py, minus_one, "hash(minus_one) == -2");
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py_assert!(py, one, "bool(one) is True");
py_assert!(py, zero, "not zero");
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}
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#[py::class]
struct Sequence {
#[token]
token: PythonToken<Sequence>}
#[py::proto]
impl PySequenceProtocol for Sequence {
fn __len__(&self, py: Python) -> PyResult<usize> {
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Ok(5)
}
fn __getitem__(&self, py: Python, key: isize) -> PyResult<isize> {
if key == 5 {
return Err(PyErr::new::<exc::IndexError, NoArgs>(py, NoArgs));
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}
Ok(key)
}
}
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#[test]
fn sequence() {
let gil = Python::acquire_gil();
let py = gil.python();
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let c = py.with_token(|t| Sequence{token: t});
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py_assert!(py, c, "list(c) == [0, 1, 2, 3, 4]");
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py_expect_exception!(py, c, "c['abc']", TypeError);
}
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#[py::class]
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struct Callable {token: PythonToken<Callable>}
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#[py::methods]
impl Callable {
#[__call__]
fn __call__(&self, py: Python, arg: i32) -> PyResult<i32> {
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Ok(arg * 6)
}
}
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#[test]
fn callable() {
let gil = Python::acquire_gil();
let py = gil.python();
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let c = py.with_token(|t| Callable{token: t});
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py_assert!(py, c, "callable(c)");
py_assert!(py, c, "c(7) == 42");
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let nc = py.with_token(|t| Comparisons{val: 0, token: t});
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py_assert!(py, nc, "not callable(nc)");
}
#[py::class]
struct SetItem {
key: i32,
val: i32,
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token: PythonToken<SetItem>,
}
#[py::proto]
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impl PyMappingProtocol<'a> for SetItem {
fn __setitem__(&mut self, py: Python, key: i32, val: i32) -> PyResult<()> {
self.key = key;
self.val = val;
Ok(())
}
}
#[test]
fn setitem() {
let gil = Python::acquire_gil();
let py = gil.python();
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let c = py.with_token(|t| SetItem{key: 0, val: 0, token: t});
py_run!(py, c, "c[1] = 2");
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assert_eq!(c.key, 1);
assert_eq!(c.val, 2);
py_expect_exception!(py, c, "del c[1]", NotImplementedError);
}
#[py::class]
struct DelItem {
key: i32,
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token: PythonToken<DelItem>,
}
#[py::proto]
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impl PyMappingProtocol<'a> for DelItem {
fn __delitem__(&mut self, py: Python, key: i32) -> PyResult<()> {
self.key = key;
Ok(())
}
}
#[test]
fn delitem() {
let gil = Python::acquire_gil();
let py = gil.python();
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let c = py.with_token(|t| DelItem{key:0, token:t});
py_run!(py, c, "del c[1]");
assert_eq!(c.key, 1);
py_expect_exception!(py, c, "c[1] = 2", NotImplementedError);
}
#[py::class]
struct SetDelItem {
val: Option<i32>,
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token: PythonToken<SetDelItem>,
}
#[py::proto]
impl PyMappingProtocol for SetDelItem {
fn __setitem__(&mut self, py: Python, key: i32, val: i32) -> PyResult<()> {
self.val = Some(val);
Ok(())
}
fn __delitem__(&mut self, py: Python, key: i32) -> PyResult<()> {
self.val = None;
Ok(())
}
}
#[test]
fn setdelitem() {
let gil = Python::acquire_gil();
let py = gil.python();
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let c = py.with_token(|t| SetDelItem{val: None, token: t});
py_run!(py, c, "c[1] = 2");
assert_eq!(c.val, Some(2));
py_run!(py, c, "del c[1]");
assert_eq!(c.val, None);
}
#[py::class]
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struct Reversed {token: PythonToken<Reversed>}
#[py::proto]
impl PyMappingProtocol for Reversed{
fn __reversed__(&self, py: Python) -> PyResult<&'static str> {
Ok("I am reversed")
}
}
#[test]
fn reversed() {
let gil = Python::acquire_gil();
let py = gil.python();
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let c = py.with_token(|t| Reversed{token: t});
py_run!(py, c, "assert reversed(c) == 'I am reversed'");
}
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#[py::class]
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struct Contains {token: PythonToken<Contains>}
#[py::proto]
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impl PySequenceProtocol for Contains {
fn __contains__(&self, py: Python, item: i32) -> PyResult<bool> {
Ok(item >= 0)
}
}
#[test]
fn contains() {
let gil = Python::acquire_gil();
let py = gil.python();
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let c = py.with_token(|t| Contains{token: t});
py_run!(py, c, "assert 1 in c");
py_run!(py, c, "assert -1 not in c");
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py_expect_exception!(py, c, "assert 'wrong type' not in c", TypeError);
}
#[py::class]
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struct UnaryArithmetic {token: PythonToken<UnaryArithmetic>}
#[py::proto]
impl PyNumberProtocol for UnaryArithmetic {
fn __neg__(&self, py: Python) -> PyResult<&'static str> {
Ok("neg")
}
fn __pos__(&self, py: Python) -> PyResult<&'static str> {
Ok("pos")
}
fn __abs__(&self, py: Python) -> PyResult<&'static str> {
Ok("abs")
}
fn __invert__(&self, py: Python) -> PyResult<&'static str> {
Ok("invert")
}
}
#[test]
fn unary_arithmetic() {
let gil = Python::acquire_gil();
let py = gil.python();
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let c = py.with_token(|t| UnaryArithmetic{token: t});
py_run!(py, c, "assert -c == 'neg'");
py_run!(py, c, "assert +c == 'pos'");
py_run!(py, c, "assert abs(c) == 'abs'");
py_run!(py, c, "assert ~c == 'invert'");
}
#[py::class]
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struct BinaryArithmetic {
#[token]
token: PythonToken<BinaryArithmetic>
}
#[py::proto]
impl PyObjectProtocol for BinaryArithmetic {
fn __repr__(&self, py: Python) -> PyResult<&'static str> {
Ok("BA")
}
}
#[py::proto]
impl PyNumberProtocol for BinaryArithmetic {
fn __add__(&self, py: Python, rhs: &PyObject<'p>) -> PyResult<String> {
Ok(format!("{:?} + {:?}", self, rhs))
}
fn __sub__(&self, py: Python, rhs: &PyObject<'p>) -> PyResult<String> {
Ok(format!("{:?} - {:?}", self, rhs))
}
fn __mul__(&self, py: Python, rhs: &PyObject<'p>) -> PyResult<String> {
Ok(format!("{:?} * {:?}", self, rhs))
}
fn __lshift__(&self, py: Python, rhs: &PyObject<'p>) -> PyResult<String> {
Ok(format!("{:?} << {:?}", self, rhs))
}
fn __rshift__(&self, py: Python, rhs: &PyObject<'p>) -> PyResult<String> {
Ok(format!("{:?} >> {:?}", self, rhs))
}
fn __and__(&self, py: Python, rhs: &PyObject<'p>) -> PyResult<String> {
Ok(format!("{:?} & {:?}", self, rhs))
}
fn __xor__(&self, py: Python, rhs: &PyObject<'p>) -> PyResult<String> {
Ok(format!("{:?} ^ {:?}", self, rhs))
}
fn __or__(&self, py: Python, rhs: &PyObject<'p>) -> PyResult<String> {
Ok(format!("{:?} | {:?}", self, rhs))
}
}
#[test]
fn binary_arithmetic() {
let gil = Python::acquire_gil();
let py = gil.python();
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let c = py.with_token(|t| BinaryArithmetic{token: t});
py_run!(py, c, "assert c + c == 'BA + BA'");
py_run!(py, c, "assert c + 1 == 'BA + 1'");
py_run!(py, c, "assert 1 + c == '1 + BA'");
py_run!(py, c, "assert c - 1 == 'BA - 1'");
py_run!(py, c, "assert 1 - c == '1 - BA'");
py_run!(py, c, "assert c * 1 == 'BA * 1'");
py_run!(py, c, "assert 1 * c == '1 * BA'");
py_run!(py, c, "assert c << 1 == 'BA << 1'");
py_run!(py, c, "assert 1 << c == '1 << BA'");
py_run!(py, c, "assert c >> 1 == 'BA >> 1'");
py_run!(py, c, "assert 1 >> c == '1 >> BA'");
py_run!(py, c, "assert c & 1 == 'BA & 1'");
py_run!(py, c, "assert 1 & c == '1 & BA'");
py_run!(py, c, "assert c ^ 1 == 'BA ^ 1'");
py_run!(py, c, "assert 1 ^ c == '1 ^ BA'");
py_run!(py, c, "assert c | 1 == 'BA | 1'");
py_run!(py, c, "assert 1 | c == '1 | BA'");
}
#[py::class]
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struct RichComparisons {
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#[token]
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token: PythonToken<RichComparisons>
}
#[py::proto]
impl PyObjectProtocol for RichComparisons {
fn __repr__(&self, py: Python) -> PyResult<&'static str> {
Ok("RC")
}
fn __richcmp__(&self, py: Python, other: &PyObject<'p>, op: CompareOp) -> PyResult<String> {
match op {
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CompareOp::Lt => Ok(format!("{} < {:?}", self.__repr__(py).unwrap(), other)),
CompareOp::Le => Ok(format!("{} <= {:?}", self.__repr__(py).unwrap(), other)),
CompareOp::Eq => Ok(format!("{} == {:?}", self.__repr__(py).unwrap(), other)),
CompareOp::Ne => Ok(format!("{} != {:?}", self.__repr__(py).unwrap(), other)),
CompareOp::Gt => Ok(format!("{} > {:?}", self.__repr__(py).unwrap(), other)),
CompareOp::Ge => Ok(format!("{} >= {:?}", self.__repr__(py).unwrap(), other))
}
}
}
#[py::class]
struct RichComparisons2 {
py: PythonToken<RichComparisons2>
}
#[py::proto]
impl PyObjectProtocol for RichComparisons2 {
fn __repr__(&self, py: Python) -> PyResult<&'static str> {
Ok("RC2")
}
fn __richcmp__(&self, py: Python,
other: &'p PyObject<'p>, op: CompareOp) -> PyResult<PyPtr<PyObjectMarker>> {
match op {
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CompareOp::Eq => Ok(true.to_object(py).park()),
CompareOp::Ne => Ok(false.to_object(py).park()),
_ => Ok(py.NotImplemented())
}
}
}
#[test]
fn rich_comparisons() {
let gil = Python::acquire_gil();
let py = gil.python();
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let c = py.with_token(|t| RichComparisons{token: t});
py_run!(py, c, "assert (c < c) == 'RC < RC'");
py_run!(py, c, "assert (c < 1) == 'RC < 1'");
py_run!(py, c, "assert (1 < c) == 'RC > 1'");
py_run!(py, c, "assert (c <= c) == 'RC <= RC'");
py_run!(py, c, "assert (c <= 1) == 'RC <= 1'");
py_run!(py, c, "assert (1 <= c) == 'RC >= 1'");
py_run!(py, c, "assert (c == c) == 'RC == RC'");
py_run!(py, c, "assert (c == 1) == 'RC == 1'");
py_run!(py, c, "assert (1 == c) == 'RC == 1'");
py_run!(py, c, "assert (c != c) == 'RC != RC'");
py_run!(py, c, "assert (c != 1) == 'RC != 1'");
py_run!(py, c, "assert (1 != c) == 'RC != 1'");
py_run!(py, c, "assert (c > c) == 'RC > RC'");
py_run!(py, c, "assert (c > 1) == 'RC > 1'");
py_run!(py, c, "assert (1 > c) == 'RC < 1'");
py_run!(py, c, "assert (c >= c) == 'RC >= RC'");
py_run!(py, c, "assert (c >= 1) == 'RC >= 1'");
py_run!(py, c, "assert (1 >= c) == 'RC <= 1'");
}
#[test]
fn rich_comparisons_python_3_type_error() {
let gil = Python::acquire_gil();
let py = gil.python();
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let c2 = py.with_token(|t| RichComparisons2{py: t});
py_expect_exception!(py, c2, "c2 < c2", TypeError);
py_expect_exception!(py, c2, "c2 < 1", TypeError);
py_expect_exception!(py, c2, "1 < c2", TypeError);
py_expect_exception!(py, c2, "c2 <= c2", TypeError);
py_expect_exception!(py, c2, "c2 <= 1", TypeError);
py_expect_exception!(py, c2, "1 <= c2", TypeError);
py_run!(py, c2, "assert (c2 == c2) == True");
py_run!(py, c2, "assert (c2 == 1) == True");
py_run!(py, c2, "assert (1 == c2) == True");
py_run!(py, c2, "assert (c2 != c2) == False");
py_run!(py, c2, "assert (c2 != 1) == False");
py_run!(py, c2, "assert (1 != c2) == False");
py_expect_exception!(py, c2, "c2 > c2", TypeError);
py_expect_exception!(py, c2, "c2 > 1", TypeError);
py_expect_exception!(py, c2, "1 > c2", TypeError);
py_expect_exception!(py, c2, "c2 >= c2", TypeError);
py_expect_exception!(py, c2, "c2 >= 1", TypeError);
py_expect_exception!(py, c2, "1 >= c2", TypeError);
}
#[py::class]
struct InPlaceOperations {
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value: u32,
token: PythonToken<InPlaceOperations>,
}
#[py::proto]
impl PyObjectProtocol for InPlaceOperations {
fn __repr__(&self, py: Python) -> PyResult<String> {
Ok(format!("IPO({:?})", self.value))
}
}
#[py::proto]
impl PyNumberProtocol for InPlaceOperations {
fn __iadd__(&mut self, py: Python, other: u32) -> PyResult<()> {
self.value = self.value + other;
Ok(())
}
fn __isub__(&mut self, py: Python, other: u32) -> PyResult<()> {
self.value = self.value - other;
Ok(())
}
fn __imul__(&mut self, py: Python, other: u32) -> PyResult<()> {
self.value = self.value * other;
Ok(())
}
fn __ilshift__(&mut self, py: Python, other: u32) -> PyResult<()> {
self.value = self.value << other;
Ok(())
}
fn __irshift__(&mut self, py: Python, other: u32) -> PyResult<()> {
self.value = self.value >> other;
Ok(())
}
fn __iand__(&mut self, py: Python, other: u32) -> PyResult<()> {
self.value = self.value & other;
Ok(())
}
fn __ixor__(&mut self, py: Python, other: u32) -> PyResult<()> {
self.value = self.value ^ other;
Ok(())
}
fn __ior__(&mut self, py: Python, other: u32) -> PyResult<()> {
self.value = self.value | other;
Ok(())
}
}
#[test]
fn inplace_operations() {
let gil = Python::acquire_gil();
let py = gil.python();
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let c = py.with_token(|t| InPlaceOperations{value: 0, token: t});
py_run!(py, c, "d = c; c += 1; assert repr(c) == repr(d) == 'IPO(1)'");
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let c = py.with_token(|t| InPlaceOperations{value:10, token: t});
py_run!(py, c, "d = c; c -= 1; assert repr(c) == repr(d) == 'IPO(9)'");
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let c = py.with_token(|t| InPlaceOperations{value: 3, token: t});
py_run!(py, c, "d = c; c *= 3; assert repr(c) == repr(d) == 'IPO(9)'");
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let c = py.with_token(|t| InPlaceOperations{value: 3, token: t});
py_run!(py, c, "d = c; c <<= 2; assert repr(c) == repr(d) == 'IPO(12)'");
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let c = py.with_token(|t| InPlaceOperations{value: 12, token: t});
py_run!(py, c, "d = c; c >>= 2; assert repr(c) == repr(d) == 'IPO(3)'");
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let c = py.with_token(|t| InPlaceOperations{value: 12, token: t});
py_run!(py, c, "d = c; c &= 10; assert repr(c) == repr(d) == 'IPO(8)'");
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let c = py.with_token(|t| InPlaceOperations{value: 12, token: t});
py_run!(py, c, "d = c; c |= 3; assert repr(c) == repr(d) == 'IPO(15)'");
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let c = py.with_token(|t| InPlaceOperations{value: 12, token: t});
py_run!(py, c, "d = c; c ^= 5; assert repr(c) == repr(d) == 'IPO(9)'");
}
#[py::class]
struct ContextManager {
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exit_called: bool,
#[token]
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token: PythonToken<ContextManager>,
}
#[py::proto]
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impl<'p> PyContextProtocol<'p> for ContextManager {
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fn __enter__(&mut self, py: Python) -> PyResult<i32> {
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Ok(42)
}
fn __exit__(&mut self, py: Python,
ty: Option<PyType<'p>>,
value: Option<PyObject<'p>>,
traceback: Option<PyObject<'p>>) -> PyResult<bool> {
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self.exit_called = true;
if ty == Some(py.get_type::<exc::ValueError>()) {
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Ok(true)
} else {
Ok(false)
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}
}
}
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#[test]
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fn context_manager() {
let gil = Python::acquire_gil();
let py = gil.python();
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let mut c = py.with_token(|t| ContextManager{exit_called: false, token: t});
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py_run!(py, c, "with c as x:\n assert x == 42");
assert!(c.exit_called);
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c.exit_called = false;
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py_run!(py, c, "with c as x:\n raise ValueError");
assert!(c.exit_called);
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c.exit_called = false;
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//TODO: re-enable
//py_expect_exception!(
// py, c, "with c as x:\n raise NotImplementedError",
// NotImplementedError);
//assert!(c.exit_called);
}
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#[py::class]
struct ClassWithProperties {
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num: i32,
token: PythonToken<ClassWithProperties>,
}
#[py::methods]
impl ClassWithProperties {
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fn get_num(&self, py: Python) -> PyResult<i32> {
Ok(self.num)
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}
#[getter(DATA)]
fn get_data(&self, py: Python) -> PyResult<i32> {
Ok(self.num)
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}
#[setter(DATA)]
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fn set(&mut self, py: Python, value: i32) -> PyResult<()> {
self.num = value;
Ok(())
}
}
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#[test]
fn class_with_properties() {
let gil = Python::acquire_gil();
let py = gil.python();
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let inst = py.with_token(|t| ClassWithProperties{num: 10, token: t});
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py_run!(py, inst, "assert inst.get_num() == 10");
py_run!(py, inst, "assert inst.get_num() == inst.DATA");
py_run!(py, inst, "inst.DATA = 20");
py_run!(py, inst, "assert inst.get_num() == 20");
py_run!(py, inst, "assert inst.get_num() == inst.DATA");
}