3203: support ordering magic methods for `#[pyclass]` r=adamreichold a=davidhewitt

Closes #2089 

This adds `__lt__`, `__le__`, `__eq__`, `__ne__`, `__gt__`, and `__ge__` as per the Python implementations of what we call `__richcmp__`.

There's a UI test confirming that the user cannot implement split forms and `__richcmp__` simultaneously.

There's also a benchmark comparing implementing these split methods against using `__richcmp__`. I couldn't see a meaningful performance difference, so I'm tempted to deprecate `__richcmp__`, given that's not a magic method which exists in Python. Potentially we can provide options such as the opt-in `#[pyclass(eq, ord)]` to avoid boilerplate for people who don't want to implement six different methods.



Co-authored-by: David Hewitt <1939362+davidhewitt@users.noreply.github.com>
This commit is contained in:
bors[bot] 2023-06-05 07:13:23 +00:00 committed by GitHub
commit dbf7b233aa
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GPG Key ID: 4AEE18F83AFDEB23
15 changed files with 610 additions and 62 deletions

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@ -123,6 +123,10 @@ harness = false
name = "bench_call"
harness = false
[[bench]]
name = "bench_comparisons"
harness = false
[[bench]]
name = "bench_err"
harness = false

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@ -0,0 +1,70 @@
use criterion::{criterion_group, criterion_main, Bencher, Criterion};
use pyo3::{prelude::*, pyclass::CompareOp, Python};
#[pyclass]
struct OrderedDunderMethods(i64);
#[pymethods]
impl OrderedDunderMethods {
fn __lt__(&self, other: &Self) -> bool {
self.0 < other.0
}
fn __le__(&self, other: &Self) -> bool {
self.0 <= other.0
}
fn __eq__(&self, other: &Self) -> bool {
self.0 == other.0
}
fn __ne__(&self, other: &Self) -> bool {
self.0 != other.0
}
fn __gt__(&self, other: &Self) -> bool {
self.0 > other.0
}
fn __ge__(&self, other: &Self) -> bool {
self.0 >= other.0
}
}
#[pyclass]
#[derive(PartialEq, Eq, PartialOrd, Ord)]
struct OrderedRichcmp(i64);
#[pymethods]
impl OrderedRichcmp {
fn __richcmp__(&self, other: &Self, op: CompareOp) -> bool {
op.matches(self.cmp(other))
}
}
fn bench_ordered_dunder_methods(b: &mut Bencher<'_>) {
Python::with_gil(|py| {
let obj1 = Py::new(py, OrderedDunderMethods(0)).unwrap().into_ref(py);
let obj2 = Py::new(py, OrderedDunderMethods(1)).unwrap().into_ref(py);
b.iter(|| obj2.gt(obj1).unwrap());
});
}
fn bench_ordered_richcmp(b: &mut Bencher<'_>) {
Python::with_gil(|py| {
let obj1 = Py::new(py, OrderedRichcmp(0)).unwrap().into_ref(py);
let obj2 = Py::new(py, OrderedRichcmp(1)).unwrap().into_ref(py);
b.iter(|| obj2.gt(obj1).unwrap());
});
}
fn criterion_benchmark(c: &mut Criterion) {
c.bench_function("ordered_dunder_methods", bench_ordered_dunder_methods);
c.bench_function("ordered_richcmp", bench_ordered_richcmp);
}
criterion_group!(benches, criterion_benchmark);
criterion_main!(benches);

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@ -58,11 +58,28 @@ given signatures should be interpreted as follows:
```
</details>
- `__lt__(<self>, object) -> object`
- `__le__(<self>, object) -> object`
- `__eq__(<self>, object) -> object`
- `__ne__(<self>, object) -> object`
- `__gt__(<self>, object) -> object`
- `__ge__(<self>, object) -> object`
The implementations of Python's "rich comparison" operators `<`, `<=`, `==`, `!=`, `>` and `>=` respectively.
_Note that implementing any of these methods will cause Python not to generate a default `__hash__` implementation, so consider also implementing `__hash__`._
<details>
<summary>Return type</summary>
The return type will normally be `bool` or `PyResult<bool>`, however any Python object can be returned.
</details>
- `__richcmp__(<self>, object, pyo3::basic::CompareOp) -> object`
Overloads Python comparison operations (`==`, `!=`, `<`, `<=`, `>`, and `>=`).
Implements Python comparison operations (`==`, `!=`, `<`, `<=`, `>`, and `>=`) in a single method.
The `CompareOp` argument indicates the comparison operation being performed.
_This method cannot be implemented in combination with any of `__lt__`, `__le__`, `__eq__`, `__ne__`, `__gt__`, or `__ge__`._
_Note that implementing `__richcmp__` will cause Python not to generate a default `__hash__` implementation, so consider implementing `__hash__` when implementing `__richcmp__`._
<details>
<summary>Return type</summary>

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@ -0,0 +1 @@
Support `__lt__`, `__le__`, `__eq__`, `__ne__`, `__gt__` and `__ge__` in `#[pymethods]`

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@ -233,41 +233,50 @@ fn add_shared_proto_slots(
mut implemented_proto_fragments: HashSet<String>,
) {
macro_rules! try_add_shared_slot {
($first:literal, $second:literal, $slot:ident) => {{
let first_implemented = implemented_proto_fragments.remove($first);
let second_implemented = implemented_proto_fragments.remove($second);
if first_implemented || second_implemented {
($slot:ident, $($fragments:literal),*) => {{
let mut implemented = false;
$(implemented |= implemented_proto_fragments.remove($fragments));*;
if implemented {
proto_impls.push(quote! { _pyo3::impl_::pyclass::$slot!(#ty) })
}
}};
}
try_add_shared_slot!(
generate_pyclass_getattro_slot,
"__getattribute__",
"__getattr__",
generate_pyclass_getattro_slot
"__getattr__"
);
try_add_shared_slot!("__setattr__", "__delattr__", generate_pyclass_setattr_slot);
try_add_shared_slot!("__set__", "__delete__", generate_pyclass_setdescr_slot);
try_add_shared_slot!("__setitem__", "__delitem__", generate_pyclass_setitem_slot);
try_add_shared_slot!("__add__", "__radd__", generate_pyclass_add_slot);
try_add_shared_slot!("__sub__", "__rsub__", generate_pyclass_sub_slot);
try_add_shared_slot!("__mul__", "__rmul__", generate_pyclass_mul_slot);
try_add_shared_slot!("__mod__", "__rmod__", generate_pyclass_mod_slot);
try_add_shared_slot!("__divmod__", "__rdivmod__", generate_pyclass_divmod_slot);
try_add_shared_slot!("__lshift__", "__rlshift__", generate_pyclass_lshift_slot);
try_add_shared_slot!("__rshift__", "__rrshift__", generate_pyclass_rshift_slot);
try_add_shared_slot!("__and__", "__rand__", generate_pyclass_and_slot);
try_add_shared_slot!("__or__", "__ror__", generate_pyclass_or_slot);
try_add_shared_slot!("__xor__", "__rxor__", generate_pyclass_xor_slot);
try_add_shared_slot!("__matmul__", "__rmatmul__", generate_pyclass_matmul_slot);
try_add_shared_slot!("__truediv__", "__rtruediv__", generate_pyclass_truediv_slot);
try_add_shared_slot!(generate_pyclass_setattr_slot, "__setattr__", "__delattr__");
try_add_shared_slot!(generate_pyclass_setdescr_slot, "__set__", "__delete__");
try_add_shared_slot!(generate_pyclass_setitem_slot, "__setitem__", "__delitem__");
try_add_shared_slot!(generate_pyclass_add_slot, "__add__", "__radd__");
try_add_shared_slot!(generate_pyclass_sub_slot, "__sub__", "__rsub__");
try_add_shared_slot!(generate_pyclass_mul_slot, "__mul__", "__rmul__");
try_add_shared_slot!(generate_pyclass_mod_slot, "__mod__", "__rmod__");
try_add_shared_slot!(generate_pyclass_divmod_slot, "__divmod__", "__rdivmod__");
try_add_shared_slot!(generate_pyclass_lshift_slot, "__lshift__", "__rlshift__");
try_add_shared_slot!(generate_pyclass_rshift_slot, "__rshift__", "__rrshift__");
try_add_shared_slot!(generate_pyclass_and_slot, "__and__", "__rand__");
try_add_shared_slot!(generate_pyclass_or_slot, "__or__", "__ror__");
try_add_shared_slot!(generate_pyclass_xor_slot, "__xor__", "__rxor__");
try_add_shared_slot!(generate_pyclass_matmul_slot, "__matmul__", "__rmatmul__");
try_add_shared_slot!(generate_pyclass_truediv_slot, "__truediv__", "__rtruediv__");
try_add_shared_slot!(
generate_pyclass_floordiv_slot,
"__floordiv__",
"__rfloordiv__",
generate_pyclass_floordiv_slot
"__rfloordiv__"
);
try_add_shared_slot!(generate_pyclass_pow_slot, "__pow__", "__rpow__");
try_add_shared_slot!(
generate_pyclass_richcompare_slot,
"__lt__",
"__le__",
"__eq__",
"__ne__",
"__gt__",
"__ge__"
);
try_add_shared_slot!("__pow__", "__rpow__", generate_pyclass_pow_slot);
// if this assertion trips, a slot fragment has been implemented which has not been added in the
// list above

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@ -133,6 +133,12 @@ impl PyMethodKind {
"__ror__" => PyMethodKind::Proto(PyMethodProtoKind::SlotFragment(&__ROR__)),
"__pow__" => PyMethodKind::Proto(PyMethodProtoKind::SlotFragment(&__POW__)),
"__rpow__" => PyMethodKind::Proto(PyMethodProtoKind::SlotFragment(&__RPOW__)),
"__lt__" => PyMethodKind::Proto(PyMethodProtoKind::SlotFragment(&__LT__)),
"__le__" => PyMethodKind::Proto(PyMethodProtoKind::SlotFragment(&__LE__)),
"__eq__" => PyMethodKind::Proto(PyMethodProtoKind::SlotFragment(&__EQ__)),
"__ne__" => PyMethodKind::Proto(PyMethodProtoKind::SlotFragment(&__NE__)),
"__gt__" => PyMethodKind::Proto(PyMethodProtoKind::SlotFragment(&__GT__)),
"__ge__" => PyMethodKind::Proto(PyMethodProtoKind::SlotFragment(&__GE__)),
// Some tricky protocols which don't fit the pattern of the rest
"__call__" => PyMethodKind::Proto(PyMethodProtoKind::Call),
"__traverse__" => PyMethodKind::Proto(PyMethodProtoKind::Traverse),
@ -1298,6 +1304,25 @@ const __RPOW__: SlotFragmentDef = SlotFragmentDef::new("__rpow__", &[Ty::Object,
.extract_error_mode(ExtractErrorMode::NotImplemented)
.ret_ty(Ty::Object);
const __LT__: SlotFragmentDef = SlotFragmentDef::new("__lt__", &[Ty::Object])
.extract_error_mode(ExtractErrorMode::NotImplemented)
.ret_ty(Ty::Object);
const __LE__: SlotFragmentDef = SlotFragmentDef::new("__le__", &[Ty::Object])
.extract_error_mode(ExtractErrorMode::NotImplemented)
.ret_ty(Ty::Object);
const __EQ__: SlotFragmentDef = SlotFragmentDef::new("__eq__", &[Ty::Object])
.extract_error_mode(ExtractErrorMode::NotImplemented)
.ret_ty(Ty::Object);
const __NE__: SlotFragmentDef = SlotFragmentDef::new("__ne__", &[Ty::Object])
.extract_error_mode(ExtractErrorMode::NotImplemented)
.ret_ty(Ty::Object);
const __GT__: SlotFragmentDef = SlotFragmentDef::new("__gt__", &[Ty::Object])
.extract_error_mode(ExtractErrorMode::NotImplemented)
.ret_ty(Ty::Object);
const __GE__: SlotFragmentDef = SlotFragmentDef::new("__ge__", &[Ty::Object])
.extract_error_mode(ExtractErrorMode::NotImplemented)
.ret_ty(Ty::Object);
fn extract_proto_arguments(
py: &syn::Ident,
spec: &FnSpec<'_>,

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@ -2,3 +2,4 @@ hypothesis>=3.55
pytest>=6.0
pytest-benchmark>=3.4
psutil>=5.6
typing_extensions>=4.0.0

111
pytests/src/comparisons.rs Normal file
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@ -0,0 +1,111 @@
use pyo3::prelude::*;
use pyo3::{types::PyModule, Python};
#[pyclass]
struct Eq(i64);
#[pymethods]
impl Eq {
#[new]
fn new(value: i64) -> Self {
Self(value)
}
fn __eq__(&self, other: &Self) -> bool {
self.0 == other.0
}
fn __ne__(&self, other: &Self) -> bool {
self.0 != other.0
}
}
#[pyclass]
struct EqDefaultNe(i64);
#[pymethods]
impl EqDefaultNe {
#[new]
fn new(value: i64) -> Self {
Self(value)
}
fn __eq__(&self, other: &Self) -> bool {
self.0 == other.0
}
}
#[pyclass]
struct Ordered(i64);
#[pymethods]
impl Ordered {
#[new]
fn new(value: i64) -> Self {
Self(value)
}
fn __lt__(&self, other: &Self) -> bool {
self.0 < other.0
}
fn __le__(&self, other: &Self) -> bool {
self.0 <= other.0
}
fn __eq__(&self, other: &Self) -> bool {
self.0 == other.0
}
fn __ne__(&self, other: &Self) -> bool {
self.0 != other.0
}
fn __gt__(&self, other: &Self) -> bool {
self.0 > other.0
}
fn __ge__(&self, other: &Self) -> bool {
self.0 >= other.0
}
}
#[pyclass]
struct OrderedDefaultNe(i64);
#[pymethods]
impl OrderedDefaultNe {
#[new]
fn new(value: i64) -> Self {
Self(value)
}
fn __lt__(&self, other: &Self) -> bool {
self.0 < other.0
}
fn __le__(&self, other: &Self) -> bool {
self.0 <= other.0
}
fn __eq__(&self, other: &Self) -> bool {
self.0 == other.0
}
fn __gt__(&self, other: &Self) -> bool {
self.0 > other.0
}
fn __ge__(&self, other: &Self) -> bool {
self.0 >= other.0
}
}
#[pymodule]
pub fn comparisons(_py: Python<'_>, m: &PyModule) -> PyResult<()> {
m.add_class::<Eq>()?;
m.add_class::<EqDefaultNe>()?;
m.add_class::<Ordered>()?;
m.add_class::<OrderedDefaultNe>()?;
Ok(())
}

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@ -3,6 +3,7 @@ use pyo3::types::PyDict;
use pyo3::wrap_pymodule;
pub mod buf_and_str;
pub mod comparisons;
pub mod datetime;
pub mod deprecated_pyfunctions;
pub mod dict_iter;
@ -19,6 +20,7 @@ pub mod subclassing;
fn pyo3_pytests(py: Python<'_>, m: &PyModule) -> PyResult<()> {
#[cfg(not(Py_LIMITED_API))]
m.add_wrapped(wrap_pymodule!(buf_and_str::buf_and_str))?;
m.add_wrapped(wrap_pymodule!(comparisons::comparisons))?;
#[cfg(not(Py_LIMITED_API))]
m.add_wrapped(wrap_pymodule!(datetime::datetime))?;
m.add_wrapped(wrap_pymodule!(
@ -40,6 +42,7 @@ fn pyo3_pytests(py: Python<'_>, m: &PyModule) -> PyResult<()> {
let sys = PyModule::import(py, "sys")?;
let sys_modules: &PyDict = sys.getattr("modules")?.downcast()?;
sys_modules.set_item("pyo3_pytests.buf_and_str", m.getattr("buf_and_str")?)?;
sys_modules.set_item("pyo3_pytests.comparisons", m.getattr("comparisons")?)?;
sys_modules.set_item("pyo3_pytests.datetime", m.getattr("datetime")?)?;
sys_modules.set_item(
"pyo3_pytests.deprecated_pyfunctions",

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@ -0,0 +1,171 @@
from typing import Type, Union
import pytest
from pyo3_pytests.comparisons import Eq, EqDefaultNe, Ordered, OrderedDefaultNe
from typing_extensions import Self
class PyEq:
def __init__(self, x: int) -> None:
self.x = x
def __eq__(self, other: Self) -> bool:
return self.x == other.x
def __ne__(self, other: Self) -> bool:
return self.x != other.x
@pytest.mark.parametrize("ty", (Eq, PyEq), ids=("rust", "python"))
def test_eq(ty: Type[Union[Eq, PyEq]]):
a = ty(0)
b = ty(0)
c = ty(1)
assert a == b
assert a != c
assert b == a
assert b != c
with pytest.raises(TypeError):
assert a <= b
with pytest.raises(TypeError):
assert a >= b
with pytest.raises(TypeError):
assert a < c
with pytest.raises(TypeError):
assert c > a
class PyEqDefaultNe:
def __init__(self, x: int) -> None:
self.x = x
def __eq__(self, other: Self) -> bool:
return self.x == other.x
@pytest.mark.parametrize("ty", (Eq, PyEq), ids=("rust", "python"))
def test_eq_default_ne(ty: Type[Union[EqDefaultNe, PyEqDefaultNe]]):
a = ty(0)
b = ty(0)
c = ty(1)
assert a == b
assert a != c
assert b == a
assert b != c
with pytest.raises(TypeError):
assert a <= b
with pytest.raises(TypeError):
assert a >= b
with pytest.raises(TypeError):
assert a < c
with pytest.raises(TypeError):
assert c > a
class PyOrdered:
def __init__(self, x: int) -> None:
self.x = x
def __lt__(self, other: Self) -> bool:
return self.x < other.x
def __le__(self, other: Self) -> bool:
return self.x <= other.x
def __eq__(self, other: Self) -> bool:
return self.x == other.x
def __ne__(self, other: Self) -> bool:
return self.x != other.x
def __gt__(self, other: Self) -> bool:
return self.x >= other.x
def __ge__(self, other: Self) -> bool:
return self.x >= other.x
@pytest.mark.parametrize("ty", (Ordered, PyOrdered), ids=("rust", "python"))
def test_ordered(ty: Type[Union[Ordered, PyOrdered]]):
a = ty(0)
b = ty(0)
c = ty(1)
assert a == b
assert a <= b
assert a >= b
assert a != c
assert a <= c
assert b == a
assert b <= a
assert b >= a
assert b != c
assert b <= c
assert c != a
assert c != b
assert c > a
assert c >= a
assert c > b
assert c >= b
class PyOrderedDefaultNe:
def __init__(self, x: int) -> None:
self.x = x
def __lt__(self, other: Self) -> bool:
return self.x < other.x
def __le__(self, other: Self) -> bool:
return self.x <= other.x
def __eq__(self, other: Self) -> bool:
return self.x == other.x
def __gt__(self, other: Self) -> bool:
return self.x >= other.x
def __ge__(self, other: Self) -> bool:
return self.x >= other.x
@pytest.mark.parametrize(
"ty", (OrderedDefaultNe, PyOrderedDefaultNe), ids=("rust", "python")
)
def test_ordered_default_ne(ty: Type[Union[OrderedDefaultNe, PyOrderedDefaultNe]]):
a = ty(0)
b = ty(0)
c = ty(1)
assert a == b
assert a <= b
assert a >= b
assert a != c
assert a <= c
assert b == a
assert b <= a
assert b >= a
assert b != c
assert b <= c
assert c != a
assert c != b
assert c > a
assert c >= a
assert c > b
assert c >= b

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@ -757,6 +757,130 @@ macro_rules! generate_pyclass_pow_slot {
}
pub use generate_pyclass_pow_slot;
slot_fragment_trait! {
PyClass__lt__SlotFragment,
/// # Safety: _slf and _other must be valid non-null Python objects
#[inline]
unsafe fn __lt__(
self,
_py: Python<'_>,
_slf: *mut ffi::PyObject,
_other: *mut ffi::PyObject,
) -> PyResult<*mut ffi::PyObject> {
Ok(ffi::_Py_NewRef(ffi::Py_NotImplemented()))
}
}
slot_fragment_trait! {
PyClass__le__SlotFragment,
/// # Safety: _slf and _other must be valid non-null Python objects
#[inline]
unsafe fn __le__(
self,
_py: Python<'_>,
_slf: *mut ffi::PyObject,
_other: *mut ffi::PyObject,
) -> PyResult<*mut ffi::PyObject> {
Ok(ffi::_Py_NewRef(ffi::Py_NotImplemented()))
}
}
slot_fragment_trait! {
PyClass__eq__SlotFragment,
/// # Safety: _slf and _other must be valid non-null Python objects
#[inline]
unsafe fn __eq__(
self,
_py: Python<'_>,
_slf: *mut ffi::PyObject,
_other: *mut ffi::PyObject,
) -> PyResult<*mut ffi::PyObject> {
Ok(ffi::_Py_NewRef(ffi::Py_NotImplemented()))
}
}
slot_fragment_trait! {
PyClass__ne__SlotFragment,
/// # Safety: _slf and _other must be valid non-null Python objects
#[inline]
unsafe fn __ne__(
self,
_py: Python<'_>,
_slf: *mut ffi::PyObject,
_other: *mut ffi::PyObject,
) -> PyResult<*mut ffi::PyObject> {
Ok(ffi::_Py_NewRef(ffi::Py_NotImplemented()))
}
}
slot_fragment_trait! {
PyClass__gt__SlotFragment,
/// # Safety: _slf and _other must be valid non-null Python objects
#[inline]
unsafe fn __gt__(
self,
_py: Python<'_>,
_slf: *mut ffi::PyObject,
_other: *mut ffi::PyObject,
) -> PyResult<*mut ffi::PyObject> {
Ok(ffi::_Py_NewRef(ffi::Py_NotImplemented()))
}
}
slot_fragment_trait! {
PyClass__ge__SlotFragment,
/// # Safety: _slf and _other must be valid non-null Python objects
#[inline]
unsafe fn __ge__(
self,
_py: Python<'_>,
_slf: *mut ffi::PyObject,
_other: *mut ffi::PyObject,
) -> PyResult<*mut ffi::PyObject> {
Ok(ffi::_Py_NewRef(ffi::Py_NotImplemented()))
}
}
#[doc(hidden)]
#[macro_export]
macro_rules! generate_pyclass_richcompare_slot {
($cls:ty) => {{
impl $cls {
#[allow(non_snake_case)]
unsafe extern "C" fn __pymethod___richcmp____(
slf: *mut $crate::ffi::PyObject,
other: *mut $crate::ffi::PyObject,
op: ::std::os::raw::c_int,
) -> *mut $crate::ffi::PyObject {
$crate::impl_::trampoline::richcmpfunc(slf, other, op, |py, slf, other, op| {
use $crate::class::basic::CompareOp;
use $crate::impl_::pyclass::*;
let collector = PyClassImplCollector::<$cls>::new();
match CompareOp::from_raw(op).expect("invalid compareop") {
CompareOp::Lt => collector.__lt__(py, slf, other),
CompareOp::Le => collector.__le__(py, slf, other),
CompareOp::Eq => collector.__eq__(py, slf, other),
CompareOp::Ne => collector.__ne__(py, slf, other),
CompareOp::Gt => collector.__gt__(py, slf, other),
CompareOp::Ge => collector.__ge__(py, slf, other),
}
})
}
}
$crate::ffi::PyType_Slot {
slot: $crate::ffi::Py_tp_richcompare,
pfunc: <$cls>::__pymethod___richcmp____ as $crate::ffi::richcmpfunc as _,
}
}};
}
pub use generate_pyclass_richcompare_slot;
/// Implements a freelist.
///
/// Do not implement this trait manually. Instead, use `#[pyclass(freelist = N)]`

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@ -398,13 +398,6 @@ impl Dummy {
// Dunder methods invented for protocols
fn __richcmp__(
&self,
other: &Self,
op: crate::class::basic::CompareOp,
) -> crate::PyResult<bool> {
::std::result::Result::Ok(false)
}
// PyGcProtocol
// Buffer protocol?
}
@ -797,13 +790,6 @@ impl Dummy {
// Dunder methods invented for protocols
fn __richcmp__(
&self,
other: &Self,
op: crate::class::basic::CompareOp,
) -> crate::PyResult<bool> {
::std::result::Result::Ok(false)
}
// PyGcProtocol
// Buffer protocol?
}

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@ -4,6 +4,7 @@
//! so that the function names can describe the edge case to be rejected.
use pyo3::prelude::*;
use pyo3::pyclass::CompareOp;
#[pyclass]
struct MyClass {}
@ -48,4 +49,18 @@ impl MyClass {
}
}
#[pyclass]
struct EqAndRichcmp;
#[pymethods]
impl EqAndRichcmp {
fn __eq__(&self, other: &Self) -> bool {
true
}
fn __richcmp__(&self, other: &Self, op: CompareOp) -> bool {
true
}
}
fn main() {}

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@ -1,23 +1,34 @@
error: Expected 1 arguments, got 0
--> tests/ui/invalid_proto_pymethods.rs:18:8
--> tests/ui/invalid_proto_pymethods.rs:19:8
|
18 | fn truediv_expects_one_argument(&self) -> PyResult<()> {
19 | fn truediv_expects_one_argument(&self) -> PyResult<()> {
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: Expected 1 arguments, got 0
--> tests/ui/invalid_proto_pymethods.rs:26:8
--> tests/ui/invalid_proto_pymethods.rs:27:8
|
26 | fn truediv_expects_one_argument_py(&self, _py: Python<'_>) -> PyResult<()> {
27 | fn truediv_expects_one_argument_py(&self, _py: Python<'_>) -> PyResult<()> {
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: `signature` cannot be used with magic method `__bool__`
--> tests/ui/invalid_proto_pymethods.rs:37:31
--> tests/ui/invalid_proto_pymethods.rs:38:31
|
37 | #[pyo3(name = "__bool__", signature = ())]
38 | #[pyo3(name = "__bool__", signature = ())]
| ^^^^^^^^^
error: `text_signature` cannot be used with magic method `__bool__`
--> tests/ui/invalid_proto_pymethods.rs:45:31
--> tests/ui/invalid_proto_pymethods.rs:46:31
|
45 | #[pyo3(name = "__bool__", text_signature = "")]
46 | #[pyo3(name = "__bool__", text_signature = "")]
| ^^^^^^^^^^^^^^
error[E0592]: duplicate definitions with name `__pymethod___richcmp____`
--> tests/ui/invalid_proto_pymethods.rs:55:1
|
55 | #[pymethods]
| ^^^^^^^^^^^^
| |
| duplicate definitions for `__pymethod___richcmp____`
| other definition for `__pymethod___richcmp____`
|
= note: this error originates in the macro `_pyo3::impl_::pyclass::generate_pyclass_richcompare_slot` which comes from the expansion of the attribute macro `pymethods` (in Nightly builds, run with -Z macro-backtrace for more info)

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@ -1,18 +1,18 @@
error[E0277]: `Rc<i32>` cannot be sent between threads safely
--> tests/ui/pyclass_send.rs:4:1
|
4 | #[pyclass]
| ^^^^^^^^^^ `Rc<i32>` cannot be sent between threads safely
|
= help: within `NotThreadSafe`, the trait `Send` is not implemented for `Rc<i32>`
--> tests/ui/pyclass_send.rs:4:1
|
4 | #[pyclass]
| ^^^^^^^^^^ `Rc<i32>` cannot be sent between threads safely
|
= help: within `NotThreadSafe`, the trait `Send` is not implemented for `Rc<i32>`
note: required because it appears within the type `NotThreadSafe`
--> tests/ui/pyclass_send.rs:5:8
|
5 | struct NotThreadSafe {
| ^^^^^^^^^^^^^
--> tests/ui/pyclass_send.rs:5:8
|
5 | struct NotThreadSafe {
| ^^^^^^^^^^^^^
note: required by a bound in `ThreadCheckerStub`
--> src/impl_/pyclass.rs
|
| pub struct ThreadCheckerStub<T: Send>(PhantomData<T>);
| ^^^^ required by this bound in `ThreadCheckerStub`
= note: this error originates in the attribute macro `pyclass` (in Nightly builds, run with -Z macro-backtrace for more info)
--> src/impl_/pyclass.rs
|
| pub struct ThreadCheckerStub<T: Send>(PhantomData<T>);
| ^^^^ required by this bound in `ThreadCheckerStub`
= note: this error originates in the attribute macro `pyclass` (in Nightly builds, run with -Z macro-backtrace for more info)