pyo3/tests/test_proto_methods.rs

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2021-12-03 00:03:32 +00:00
#![cfg(feature = "macros")]
use pyo3::exceptions::{PyAttributeError, PyIndexError, PyValueError};
use pyo3::types::{PyDict, PyList, PyMapping, PySequence, PySlice, PyType};
use pyo3::{prelude::*, py_run, PyCell};
use std::{isize, iter};
mod common;
#[pyclass]
struct EmptyClass;
#[pyclass]
struct ExampleClass {
#[pyo3(get, set)]
value: i32,
custom_attr: Option<i32>,
}
#[pymethods]
impl ExampleClass {
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fn __getattr__(&self, py: Python<'_>, attr: &str) -> PyResult<PyObject> {
if attr == "special_custom_attr" {
Ok(self.custom_attr.into_py(py))
} else {
Err(PyAttributeError::new_err(attr.to_string()))
}
}
fn __setattr__(&mut self, attr: &str, value: &PyAny) -> PyResult<()> {
if attr == "special_custom_attr" {
self.custom_attr = Some(value.extract()?);
Ok(())
} else {
Err(PyAttributeError::new_err(attr.to_string()))
}
}
fn __delattr__(&mut self, attr: &str) -> PyResult<()> {
if attr == "special_custom_attr" {
self.custom_attr = None;
Ok(())
} else {
Err(PyAttributeError::new_err(attr.to_string()))
}
}
fn __str__(&self) -> String {
self.value.to_string()
}
fn __repr__(&self) -> String {
format!("ExampleClass(value={})", self.value)
}
fn __hash__(&self) -> u64 {
let i64_value: i64 = self.value.into();
i64_value as u64
}
fn __bool__(&self) -> bool {
self.value != 0
}
}
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fn make_example(py: Python<'_>) -> &PyCell<ExampleClass> {
Py::new(
py,
ExampleClass {
value: 5,
custom_attr: Some(20),
},
)
.unwrap()
.into_ref(py)
}
#[test]
fn test_getattr() {
Python::with_gil(|py| {
let example_py = make_example(py);
assert_eq!(
example_py
.getattr("value")
.unwrap()
.extract::<i32>()
.unwrap(),
5,
);
assert_eq!(
example_py
.getattr("special_custom_attr")
.unwrap()
.extract::<i32>()
.unwrap(),
20,
);
assert!(example_py
.getattr("other_attr")
.unwrap_err()
.is_instance_of::<PyAttributeError>(py));
})
}
#[test]
fn test_setattr() {
Python::with_gil(|py| {
let example_py = make_example(py);
example_py.setattr("special_custom_attr", 15).unwrap();
assert_eq!(
example_py
.getattr("special_custom_attr")
.unwrap()
.extract::<i32>()
.unwrap(),
15,
);
})
}
#[test]
fn test_delattr() {
Python::with_gil(|py| {
let example_py = make_example(py);
example_py.delattr("special_custom_attr").unwrap();
assert!(example_py.getattr("special_custom_attr").unwrap().is_none());
})
}
#[test]
fn test_str() {
Python::with_gil(|py| {
let example_py = make_example(py);
assert_eq!(example_py.str().unwrap().to_str().unwrap(), "5");
})
}
#[test]
fn test_repr() {
Python::with_gil(|py| {
let example_py = make_example(py);
assert_eq!(
example_py.repr().unwrap().to_str().unwrap(),
"ExampleClass(value=5)"
);
})
}
#[test]
fn test_hash() {
Python::with_gil(|py| {
let example_py = make_example(py);
assert_eq!(example_py.hash().unwrap(), 5);
})
}
#[test]
fn test_bool() {
Python::with_gil(|py| {
let example_py = make_example(py);
assert!(example_py.is_true().unwrap());
example_py.borrow_mut().value = 0;
assert!(!example_py.is_true().unwrap());
})
}
#[pyclass]
pub struct LenOverflow;
#[pymethods]
impl LenOverflow {
fn __len__(&self) -> usize {
(isize::MAX as usize) + 1
}
}
#[test]
fn len_overflow() {
Python::with_gil(|py| {
let inst = Py::new(py, LenOverflow).unwrap();
py_expect_exception!(py, inst, "len(inst)", PyOverflowError);
});
}
#[pyclass]
pub struct Mapping {
values: Py<PyDict>,
}
#[pymethods]
impl Mapping {
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fn __len__(&self, py: Python<'_>) -> usize {
self.values.as_ref(py).len()
}
fn __getitem__<'a>(&'a self, key: &'a PyAny) -> PyResult<&'a PyAny> {
let any: &PyAny = self.values.as_ref(key.py()).as_ref();
any.get_item(key)
}
fn __setitem__(&self, key: &PyAny, value: &PyAny) -> PyResult<()> {
self.values.as_ref(key.py()).set_item(key, value)
}
fn __delitem__(&self, key: &PyAny) -> PyResult<()> {
self.values.as_ref(key.py()).del_item(key)
}
}
#[test]
fn mapping() {
Python::with_gil(|py| {
PyMapping::register::<Mapping>(py).unwrap();
let inst = Py::new(
py,
Mapping {
values: PyDict::new(py).into(),
},
)
.unwrap();
let mapping: &PyMapping = inst.as_ref(py).downcast().unwrap();
py_assert!(py, inst, "len(inst) == 0");
py_run!(py, inst, "inst['foo'] = 'foo'");
py_assert!(py, inst, "inst['foo'] == 'foo'");
py_run!(py, inst, "del inst['foo']");
py_expect_exception!(py, inst, "inst['foo']", PyKeyError);
// Default iteration will call __getitem__ with integer indices
// which fails with a KeyError
py_expect_exception!(py, inst, "[*inst] == []", PyKeyError, "0");
// check mapping protocol
assert_eq!(mapping.len().unwrap(), 0);
mapping.set_item(0, 5).unwrap();
assert_eq!(mapping.len().unwrap(), 1);
assert_eq!(mapping.get_item(0).unwrap().extract::<u8>().unwrap(), 5);
mapping.del_item(0).unwrap();
assert_eq!(mapping.len().unwrap(), 0);
});
}
#[derive(FromPyObject)]
enum SequenceIndex<'a> {
Integer(isize),
Slice(&'a PySlice),
}
#[pyclass]
pub struct Sequence {
values: Vec<PyObject>,
}
#[pymethods]
impl Sequence {
fn __len__(&self) -> usize {
self.values.len()
}
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fn __getitem__(&self, index: SequenceIndex<'_>) -> PyResult<PyObject> {
match index {
SequenceIndex::Integer(index) => {
let uindex = self.usize_index(index)?;
self.values
.get(uindex)
.map(Clone::clone)
.ok_or_else(|| PyIndexError::new_err(index))
}
// Just to prove that slicing can be implemented
SequenceIndex::Slice(s) => Ok(s.into()),
}
}
fn __setitem__(&mut self, index: isize, value: PyObject) -> PyResult<()> {
let uindex = self.usize_index(index)?;
self.values
.get_mut(uindex)
.map(|place| *place = value)
.ok_or_else(|| PyIndexError::new_err(index))
}
fn __delitem__(&mut self, index: isize) -> PyResult<()> {
let uindex = self.usize_index(index)?;
if uindex >= self.values.len() {
Err(PyIndexError::new_err(index))
} else {
self.values.remove(uindex);
Ok(())
}
}
fn append(&mut self, value: PyObject) {
self.values.push(value);
}
}
impl Sequence {
fn usize_index(&self, index: isize) -> PyResult<usize> {
if index < 0 {
let corrected_index = index + self.values.len() as isize;
if corrected_index < 0 {
Err(PyIndexError::new_err(index))
} else {
Ok(corrected_index as usize)
}
} else {
Ok(index as usize)
}
}
}
#[test]
fn sequence() {
Python::with_gil(|py| {
PySequence::register::<Sequence>(py).unwrap();
let inst = Py::new(py, Sequence { values: vec![] }).unwrap();
let sequence: &PySequence = inst.as_ref(py).downcast().unwrap();
py_assert!(py, inst, "len(inst) == 0");
py_expect_exception!(py, inst, "inst[0]", PyIndexError);
py_run!(py, inst, "inst.append('foo')");
py_assert!(py, inst, "inst[0] == 'foo'");
py_assert!(py, inst, "inst[-1] == 'foo'");
py_expect_exception!(py, inst, "inst[1]", PyIndexError);
py_expect_exception!(py, inst, "inst[-2]", PyIndexError);
py_assert!(py, inst, "[*inst] == ['foo']");
py_run!(py, inst, "del inst[0]");
py_expect_exception!(py, inst, "inst['foo']", PyTypeError);
py_assert!(py, inst, "inst[0:2] == slice(0, 2)");
// check sequence protocol
// we don't implement sequence length so that CPython doesn't attempt to correct negative
// indices.
assert!(sequence.len().is_err());
// however regular python len() works thanks to mp_len slot
assert_eq!(inst.as_ref(py).len().unwrap(), 0);
py_run!(py, inst, "inst.append(0)");
sequence.set_item(0, 5).unwrap();
assert_eq!(inst.as_ref(py).len().unwrap(), 1);
assert_eq!(sequence.get_item(0).unwrap().extract::<u8>().unwrap(), 5);
sequence.del_item(0).unwrap();
assert_eq!(inst.as_ref(py).len().unwrap(), 0);
});
}
#[pyclass]
struct Iterator {
iter: Box<dyn iter::Iterator<Item = i32> + Send>,
}
#[pymethods]
impl Iterator {
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fn __iter__(slf: PyRef<'_, Self>) -> PyRef<'_, Self> {
slf
}
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fn __next__(mut slf: PyRefMut<'_, Self>) -> Option<i32> {
slf.iter.next()
}
}
#[test]
fn iterator() {
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Python::with_gil(|py| {
let inst = Py::new(
py,
Iterator {
iter: Box::new(5..8),
},
)
.unwrap();
py_assert!(py, inst, "iter(inst) is inst");
py_assert!(py, inst, "list(inst) == [5, 6, 7]");
});
}
#[pyclass]
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struct Callable;
#[pymethods]
impl Callable {
fn __call__(&self, arg: i32) -> i32 {
arg * 6
}
}
#[pyclass]
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struct NotCallable;
#[test]
fn callable() {
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Python::with_gil(|py| {
let c = Py::new(py, Callable).unwrap();
py_assert!(py, c, "callable(c)");
py_assert!(py, c, "c(7) == 42");
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let nc = Py::new(py, NotCallable).unwrap();
py_assert!(py, nc, "not callable(nc)");
});
}
#[pyclass]
#[derive(Debug)]
struct SetItem {
key: i32,
val: i32,
}
#[pymethods]
impl SetItem {
fn __setitem__(&mut self, key: i32, val: i32) {
self.key = key;
self.val = val;
}
}
#[test]
fn setitem() {
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Python::with_gil(|py| {
let c = PyCell::new(py, SetItem { key: 0, val: 0 }).unwrap();
py_run!(py, c, "c[1] = 2");
{
let c = c.borrow();
assert_eq!(c.key, 1);
assert_eq!(c.val, 2);
}
py_expect_exception!(py, c, "del c[1]", PyNotImplementedError);
});
}
#[pyclass]
struct DelItem {
key: i32,
}
#[pymethods]
impl DelItem {
fn __delitem__(&mut self, key: i32) {
self.key = key;
}
}
#[test]
fn delitem() {
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Python::with_gil(|py| {
let c = PyCell::new(py, DelItem { key: 0 }).unwrap();
py_run!(py, c, "del c[1]");
{
let c = c.borrow();
assert_eq!(c.key, 1);
}
py_expect_exception!(py, c, "c[1] = 2", PyNotImplementedError);
});
}
#[pyclass]
struct SetDelItem {
val: Option<i32>,
}
#[pymethods]
impl SetDelItem {
fn __setitem__(&mut self, _key: i32, val: i32) {
self.val = Some(val);
}
fn __delitem__(&mut self, _key: i32) {
self.val = None;
}
}
#[test]
fn setdelitem() {
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Python::with_gil(|py| {
let c = PyCell::new(py, SetDelItem { val: None }).unwrap();
py_run!(py, c, "c[1] = 2");
{
let c = c.borrow();
assert_eq!(c.val, Some(2));
}
py_run!(py, c, "del c[1]");
let c = c.borrow();
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assert_eq!(c.val, None);
});
}
#[pyclass]
struct Contains {}
#[pymethods]
impl Contains {
fn __contains__(&self, item: i32) -> bool {
item >= 0
}
}
#[test]
fn contains() {
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Python::with_gil(|py| {
let c = Py::new(py, Contains {}).unwrap();
py_run!(py, c, "assert 1 in c");
py_run!(py, c, "assert -1 not in c");
py_expect_exception!(py, c, "assert 'wrong type' not in c", PyTypeError);
});
}
#[pyclass]
struct GetItem {}
#[pymethods]
impl GetItem {
fn __getitem__(&self, idx: &PyAny) -> PyResult<&'static str> {
if let Ok(slice) = idx.downcast::<PySlice>() {
let indices = slice.indices(1000)?;
if indices.start == 100 && indices.stop == 200 && indices.step == 1 {
return Ok("slice");
}
} else if let Ok(idx) = idx.extract::<isize>() {
if idx == 1 {
return Ok("int");
}
}
Err(PyValueError::new_err("error"))
}
}
#[test]
fn test_getitem() {
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Python::with_gil(|py| {
let ob = Py::new(py, GetItem {}).unwrap();
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py_assert!(py, ob, "ob[1] == 'int'");
py_assert!(py, ob, "ob[100:200:1] == 'slice'");
});
}
#[pyclass]
struct ClassWithGetAttr {
#[pyo3(get, set)]
data: u32,
}
#[pymethods]
impl ClassWithGetAttr {
fn __getattr__(&self, _name: &str) -> u32 {
self.data * 2
}
}
#[test]
fn getattr_doesnt_override_member() {
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Python::with_gil(|py| {
let inst = PyCell::new(py, ClassWithGetAttr { data: 4 }).unwrap();
py_assert!(py, inst, "inst.data == 4");
py_assert!(py, inst, "inst.a == 8");
});
}
#[pyclass]
struct ClassWithGetAttribute {
#[pyo3(get, set)]
data: u32,
}
#[pymethods]
impl ClassWithGetAttribute {
fn __getattribute__(&self, _name: &str) -> u32 {
self.data * 2
}
}
#[test]
fn getattribute_overrides_member() {
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Python::with_gil(|py| {
let inst = PyCell::new(py, ClassWithGetAttribute { data: 4 }).unwrap();
py_assert!(py, inst, "inst.data == 8");
py_assert!(py, inst, "inst.y == 8");
});
}
#[pyclass]
struct ClassWithGetAttrAndGetAttribute;
#[pymethods]
impl ClassWithGetAttrAndGetAttribute {
fn __getattribute__(&self, name: &str) -> PyResult<u32> {
if name == "exists" {
Ok(42)
} else if name == "error" {
Err(PyValueError::new_err("bad"))
} else {
Err(PyAttributeError::new_err("fallback"))
}
}
fn __getattr__(&self, name: &str) -> PyResult<u32> {
if name == "lucky" {
Ok(57)
} else {
Err(PyAttributeError::new_err("no chance"))
}
}
}
#[test]
fn getattr_and_getattribute() {
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Python::with_gil(|py| {
let inst = PyCell::new(py, ClassWithGetAttrAndGetAttribute).unwrap();
py_assert!(py, inst, "inst.exists == 42");
py_assert!(py, inst, "inst.lucky == 57");
py_expect_exception!(py, inst, "inst.error", PyValueError);
py_expect_exception!(py, inst, "inst.unlucky", PyAttributeError);
});
}
/// Wraps a Python future and yield it once.
#[pyclass]
#[derive(Debug)]
struct OnceFuture {
future: PyObject,
polled: bool,
}
#[pymethods]
impl OnceFuture {
#[new]
fn new(future: PyObject) -> Self {
OnceFuture {
future,
polled: false,
}
}
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fn __await__(slf: PyRef<'_, Self>) -> PyRef<'_, Self> {
slf
}
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fn __iter__(slf: PyRef<'_, Self>) -> PyRef<'_, Self> {
slf
}
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fn __next__(mut slf: PyRefMut<'_, Self>) -> Option<PyObject> {
if !slf.polled {
slf.polled = true;
Some(slf.future.clone())
} else {
None
}
}
}
#[test]
#[cfg(not(target_arch = "wasm32"))] // Won't work without wasm32 event loop (e.g., Pyodide has WebLoop)
fn test_await() {
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Python::with_gil(|py| {
let once = py.get_type::<OnceFuture>();
let source = r#"
import asyncio
import sys
async def main():
res = await Once(await asyncio.sleep(0.1))
assert res is None
# For an odd error similar to https://bugs.python.org/issue38563
if sys.platform == "win32" and sys.version_info >= (3, 8, 0):
asyncio.set_event_loop_policy(asyncio.WindowsSelectorEventLoopPolicy())
asyncio.run(main())
"#;
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let globals = PyModule::import(py, "__main__").unwrap().dict();
globals.set_item("Once", once).unwrap();
py.run(source, Some(globals), None)
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.map_err(|e| e.display(py))
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.unwrap();
});
}
#[pyclass]
struct AsyncIterator {
future: Option<Py<OnceFuture>>,
}
#[pymethods]
impl AsyncIterator {
#[new]
fn new(future: Py<OnceFuture>) -> Self {
Self {
future: Some(future),
}
}
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fn __aiter__(slf: PyRef<'_, Self>) -> PyRef<'_, Self> {
slf
}
fn __anext__(&mut self) -> Option<Py<OnceFuture>> {
self.future.take()
}
}
#[test]
#[cfg(not(target_arch = "wasm32"))] // Won't work without wasm32 event loop (e.g., Pyodide has WebLoop)
fn test_anext_aiter() {
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Python::with_gil(|py| {
let once = py.get_type::<OnceFuture>();
let source = r#"
import asyncio
import sys
async def main():
count = 0
async for result in AsyncIterator(Once(await asyncio.sleep(0.1))):
# The Once is awaited as part of the `async for` and produces None
assert result is None
count +=1
assert count == 1
# For an odd error similar to https://bugs.python.org/issue38563
if sys.platform == "win32" and sys.version_info >= (3, 8, 0):
asyncio.set_event_loop_policy(asyncio.WindowsSelectorEventLoopPolicy())
asyncio.run(main())
"#;
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let globals = PyModule::import(py, "__main__").unwrap().dict();
globals.set_item("Once", once).unwrap();
globals
.set_item("AsyncIterator", py.get_type::<AsyncIterator>())
.unwrap();
py.run(source, Some(globals), None)
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.map_err(|e| e.display(py))
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.unwrap();
});
}
/// Increment the count when `__get__` is called.
#[pyclass]
struct DescrCounter {
#[pyo3(get)]
count: usize,
}
#[pymethods]
impl DescrCounter {
#[new]
fn new() -> Self {
DescrCounter { count: 0 }
}
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/// Each access will increase the count
fn __get__<'a>(
mut slf: PyRefMut<'a, Self>,
_instance: &PyAny,
_owner: Option<&PyType>,
) -> PyRefMut<'a, Self> {
slf.count += 1;
slf
}
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/// Allow assigning a new counter to the descriptor, copying the count across
fn __set__(&self, _instance: &PyAny, new_value: &mut Self) {
new_value.count = self.count;
}
/// Delete to reset the counter
fn __delete__(&mut self, _instance: &PyAny) {
self.count = 0;
}
}
#[test]
fn descr_getset() {
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Python::with_gil(|py| {
let counter = py.get_type::<DescrCounter>();
let source = pyo3::indoc::indoc!(
r#"
class Class:
counter = Counter()
# access via type
counter = Class.counter
assert counter.count == 1
# access with instance directly
assert Counter.__get__(counter, Class()).count == 2
# access via instance
c = Class()
assert c.counter.count == 3
# __set__
c.counter = Counter()
assert c.counter.count == 4
# __delete__
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del c.counter
assert c.counter.count == 1
"#
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);
let globals = PyModule::import(py, "__main__").unwrap().dict();
globals.set_item("Counter", counter).unwrap();
py.run(source, Some(globals), None)
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.map_err(|e| e.display(py))
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.unwrap();
});
}
#[pyclass]
struct NotHashable;
#[pymethods]
impl NotHashable {
#[classattr]
const __hash__: Option<PyObject> = None;
}
#[test]
fn test_hash_opt_out() {
// By default Python provides a hash implementation, which can be disabled by setting __hash__
// to None.
Python::with_gil(|py| {
let empty = Py::new(py, EmptyClass).unwrap();
py_assert!(py, empty, "hash(empty) is not None");
let not_hashable = Py::new(py, NotHashable).unwrap();
py_expect_exception!(py, not_hashable, "hash(not_hashable)", PyTypeError);
})
}
/// Class with __iter__ gets default contains from CPython.
#[pyclass]
struct DefaultedContains;
#[pymethods]
impl DefaultedContains {
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fn __iter__(&self, py: Python<'_>) -> PyObject {
PyList::new(py, ["a", "b", "c"])
.as_ref()
.iter()
.unwrap()
.into()
}
}
#[pyclass]
struct NoContains;
#[pymethods]
impl NoContains {
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fn __iter__(&self, py: Python<'_>) -> PyObject {
PyList::new(py, ["a", "b", "c"])
.as_ref()
.iter()
.unwrap()
.into()
}
// Equivalent to the opt-out const form in NotHashable above, just more verbose, to confirm this
// also works.
#[classattr]
fn __contains__() -> Option<PyObject> {
None
}
}
#[test]
fn test_contains_opt_out() {
Python::with_gil(|py| {
let defaulted_contains = Py::new(py, DefaultedContains).unwrap();
py_assert!(py, defaulted_contains, "'a' in defaulted_contains");
let no_contains = Py::new(py, NoContains).unwrap();
py_expect_exception!(py, no_contains, "'a' in no_contains", PyTypeError);
})
}