add `#[pyo3(signature = (...))]` attribute (#2702)

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David Hewitt 2022-10-25 07:23:21 +01:00 committed by GitHub
parent 747d791f1f
commit 8e8b484169
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37 changed files with 1776 additions and 443 deletions

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@ -36,7 +36,7 @@ impl PyCounter {
self.count.get()
}
#[args(args = "*", kwargs = "**")]
#[pyo3(signature = (*args, **kwargs))]
fn __call__(
&self,
py: Python<'_>,

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@ -632,9 +632,9 @@ impl MyClass {
## Method arguments
Similar to `#[pyfunction]`, the `#[args]` attribute can be used to specify the way that `#[pymethods]` accept arguments. Consult the documentation for [`function signatures`](./function/signature.md) to see the parameters this attribute accepts.
Similar to `#[pyfunction]`, the `#[pyo3(signature = (...))]` attribute can be used to specify the way that `#[pymethods]` accept arguments. Consult the documentation for [`function signatures`](./function/signature.md) to see the parameters this attribute accepts.
The following example defines a class `MyClass` with a method `method`. This method has an `#[args]` attribute which sets default values for `num` and `name`, and indicates that `py_args` should collect all extra positional arguments and `py_kwargs` all extra keyword arguments:
The following example defines a class `MyClass` with a method `method`. This method has a signature which sets default values for `num` and `name`, and indicates that `py_args` should collect all extra positional arguments and `py_kwargs` all extra keyword arguments:
```rust
# use pyo3::prelude::*;
@ -647,29 +647,24 @@ use pyo3::types::{PyDict, PyTuple};
#[pymethods]
impl MyClass {
#[new]
#[args(num = "-1")]
#[pyo3(signature = (num=-1))]
fn new(num: i32) -> Self {
MyClass { num }
}
#[args(
num = "10",
py_args = "*",
name = "\"Hello\"",
py_kwargs = "**"
)]
#[pyo3(signature = (num=10, *py_args, name="Hello", **py_kwargs))]
fn method(
&mut self,
num: i32,
name: &str,
py_args: &PyTuple,
name: &str,
py_kwargs: Option<&PyDict>,
) -> String {
let num_before = self.num;
self.num = num;
format!(
"py_args={:?}, py_kwargs={:?}, name={}, num={} num_before={}",
py_args, py_kwargs, name, self.num, num_before,
"num={} (was previously={}), py_args={:?}, name={}, py_kwargs={:?} ",
num, num_before, py_args, name, py_kwargs,
)
}
}

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@ -71,7 +71,7 @@ def Counter(wraps):
A [previous implementation] used a normal `u64`, which meant it required a `&mut self` receiver to update the count:
```rust,ignore
#[args(args = "*", kwargs = "**")]
#[pyo3(signature = (*args, **kwargs))]
fn __call__(&mut self, py: Python<'_>, args: &PyTuple, kwargs: Option<&PyDict>) -> PyResult<Py<PyAny>> {
self.count += 1;
let name = self.wraps.getattr(py, "__name__")?;
@ -98,7 +98,7 @@ As a result, something innocent like this will raise an exception:
def say_hello():
if say_hello.count < 2:
print(f"hello from decorator")
say_hello()
# RuntimeError: Already borrowed
```
@ -113,4 +113,4 @@ This shows the dangers of running arbitrary Python code - note that "running arb
This is especially important if you are writing unsafe code; Python code must never be able to cause undefined behavior. You must ensure that your Rust code is in a consistent state before doing any of the above things.
[previous implementation]: https://github.com/PyO3/pyo3/discussions/2598 "Thread Safe Decorator <Help Wanted> · Discussion #2598 · PyO3/pyo3"
[`Cell`]: https://doc.rust-lang.org/std/cell/struct.Cell.html "Cell in std::cell - Rust"
[`Cell`]: https://doc.rust-lang.org/std/cell/struct.Cell.html "Cell in std::cell - Rust"

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@ -23,6 +23,7 @@ This chapter of the guide explains full usage of the `#[pyfunction]` attribute.
- [Function options](#function-options)
- [`#[pyo3(name = "...")]`](#name)
- [`#[pyo3(signature = (...))]`](#signature)
- [`#[pyo3(text_signature = "...")]`](#text_signature)
- [`#[pyo3(pass_module)]`](#pass_module)
- [Per-argument options](#per-argument-options)
@ -64,6 +65,10 @@ The `#[pyo3]` attribute can be used to modify properties of the generated Python
# });
```
- <a name="signature"></a> `#[pyo3(signature = (...))]`
Defines the function signature in Python. See [Function Signatures](./function/signature.md).
- <a name="text_signature"></a> `#[pyo3(text_signature = "...")]`
Sets the function signature visible in Python tooling (such as via [`inspect.signature`]).

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@ -2,12 +2,124 @@
The `#[pyfunction]` attribute also accepts parameters to control how the generated Python function accepts arguments. Just like in Python, arguments can be positional-only, keyword-only, or accept either. `*args` lists and `**kwargs` dicts can also be accepted. These parameters also work for `#[pymethods]` which will be introduced in the [Python Classes](../class.md) section of the guide.
Like Python, by default PyO3 accepts all arguments as either positional or keyword arguments. The extra arguments to `#[pyfunction]` modify this behaviour. For example, below is a function that accepts arbitrary keyword arguments (`**kwargs` in Python syntax) and returns the number that was passed:
Like Python, by default PyO3 accepts all arguments as either positional or keyword arguments. There are two ways to modify this behaviour:
- The `#[pyo3(signature = (...))]` option which allows writing a signature in Python syntax.
- Extra arguments directly to `#[pyfunction]`. (See deprecated form)
## Using `#[pyo3(signature = (...))]`
For example, below is a function that accepts arbitrary keyword arguments (`**kwargs` in Python syntax) and returns the number that was passed:
```rust
use pyo3::prelude::*;
use pyo3::types::PyDict;
#[pyfunction]
#[pyo3(signature = (**kwds))]
fn num_kwds(kwds: Option<&PyDict>) -> usize {
kwds.map_or(0, |dict| dict.len())
}
#[pymodule]
fn module_with_functions(py: Python<'_>, m: &PyModule) -> PyResult<()> {
m.add_function(wrap_pyfunction!(num_kwds, m)?).unwrap();
Ok(())
}
```
Just like in Python, the following constructs can be part of the signature::
* `/`: positional-only arguments separator, each parameter defined before `/` is a positional-only parameter.
* `*`: var arguments separator, each parameter defined after `*` is a keyword-only parameter.
* `*args`: "args" is var args. Type of the `args` parameter has to be `&PyTuple`.
* `**kwargs`: "kwargs" receives keyword arguments. The type of the `kwargs` parameter has to be `Option<&PyDict>`.
* `arg=Value`: arguments with default value.
If the `arg` argument is defined after var arguments, it is treated as a keyword-only argument.
Note that `Value` has to be valid rust code, PyO3 just inserts it into the generated
code unmodified.
Example:
```rust
# use pyo3::prelude::*;
use pyo3::types::{PyDict, PyTuple};
#
# #[pyclass]
# struct MyClass {
# num: i32,
# }
#[pymethods]
impl MyClass {
#[new]
#[pyo3(signature = (num=-1))]
fn new(num: i32) -> Self {
MyClass { num }
}
#[pyo3(signature = (num=10, *py_args, name="Hello", **py_kwargs))]
fn method(
&mut self,
num: i32,
py_args: &PyTuple,
name: &str,
py_kwargs: Option<&PyDict>,
) -> String {
let num_before = self.num;
self.num = num;
format!(
"num={} (was previously={}), py_args={:?}, name={}, py_kwargs={:?} ",
num, num_before, py_args, name, py_kwargs,
)
}
fn make_change(&mut self, num: i32) -> PyResult<String> {
self.num = num;
Ok(format!("num={}", self.num))
}
}
```
N.B. the position of the `/` and `*` arguments (if included) control the system of handling positional and keyword arguments. In Python:
```python
import mymodule
mc = mymodule.MyClass()
print(mc.method(44, False, "World", 666, x=44, y=55))
print(mc.method(num=-1, name="World"))
print(mc.make_change(44, False))
```
Produces output:
```text
py_args=('World', 666), py_kwargs=Some({'x': 44, 'y': 55}), name=Hello, num=44
py_args=(), py_kwargs=None, name=World, num=-1
num=44
num=-1
```
> Note: for keywords like `struct`, to use it as a function argument, use "raw ident" syntax `r#struct` in both the signature and the function definition:
>
> ```rust
> # #![allow(dead_code)]
> # use pyo3::prelude::*;
> #[pyfunction(signature = (r#struct = "foo"))]
> fn function_with_keyword(r#struct: &str) {
> # let _ = r#struct;
> /* ... */
> }
> ```
## Deprecated form
The `#[pyfunction]` macro can take the argument specification directly, but this method is deprecated in PyO3 0.18 because the `#[pyo3(signature)]` option offers a simpler syntax and better validation.
The `#[pymethods]` macro has an `#[args]` attribute which accepts the deprecated form.
Below are the same examples as above which using the deprecated syntax:
```rust
# #![allow(deprecated)]
use pyo3::prelude::*;
use pyo3::types::PyDict;
#[pyfunction(kwds="**")]
fn num_kwds(kwds: Option<&PyDict>) -> usize {
kwds.map_or(0, |dict| dict.len())
@ -38,6 +150,7 @@ The following parameters can be passed to the `#[pyfunction]` attribute:
Example:
```rust
# #![allow(deprecated)]
# use pyo3::prelude::*;
use pyo3::types::{PyDict, PyTuple};
#
@ -62,15 +175,16 @@ impl MyClass {
fn method(
&mut self,
num: i32,
name: &str,
py_args: &PyTuple,
name: &str,
py_kwargs: Option<&PyDict>,
) -> PyResult<String> {
) -> String {
let num_before = self.num;
self.num = num;
Ok(format!(
"py_args={:?}, py_kwargs={:?}, name={}, num={}",
py_args, py_kwargs, name, self.num
))
format!(
"num={} (was previously={}), py_args={:?}, name={}, py_kwargs={:?} ",
num, num_before, py_args, name, py_kwargs,
)
}
fn make_change(&mut self, num: i32) -> PyResult<String> {
@ -79,19 +193,3 @@ impl MyClass {
}
}
```
N.B. the position of the `"/"` and `"*"` arguments (if included) control the system of handling positional and keyword arguments. In Python:
```python
import mymodule
mc = mymodule.MyClass()
print(mc.method(44, False, "World", 666, x=44, y=55))
print(mc.method(num=-1, name="World"))
print(mc.make_change(44, False))
```
Produces output:
```text
py_args=('World', 666), py_kwargs=Some({'x': 44, 'y': 55}), name=Hello, num=44
py_args=(), py_kwargs=None, name=World, num=-1
num=44
num=-1
```

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@ -0,0 +1 @@
Add `#[pyo3(signature = (...))]` option for `#[pyfunction]` and `#[pymethods]`.

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@ -0,0 +1 @@
Deprecate `#[args]` attribute and passing "args" specification directly to `#[pyfunction]` in favour of the new `#[pyo3(signature = (...))]` option.

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@ -9,6 +9,7 @@ use syn::{
};
pub mod kw {
syn::custom_keyword!(args);
syn::custom_keyword!(annotation);
syn::custom_keyword!(attribute);
syn::custom_keyword!(dict);
@ -42,7 +43,7 @@ pub struct KeywordAttribute<K, V> {
}
/// A helper type which parses the inner type via a literal string
/// e.g. LitStrValue<Path> -> parses "some::path" in quotes.
/// e.g. `LitStrValue<Path>` -> parses "some::path" in quotes.
#[derive(Clone, Debug, PartialEq, Eq)]
pub struct LitStrValue<T>(pub T);

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@ -1,14 +1,20 @@
use proc_macro2::{Span, TokenStream};
use quote::{quote_spanned, ToTokens};
// Clippy complains all these variants have the same prefix "Py"...
#[allow(clippy::enum_variant_names)]
pub enum Deprecation {
PyClassGcOption,
PyFunctionArguments,
PyMethodArgsAttribute,
}
impl Deprecation {
fn ident(&self, span: Span) -> syn::Ident {
let string = match self {
Deprecation::PyClassGcOption => "PYCLASS_GC_OPTION",
Deprecation::PyFunctionArguments => "PYFUNCTION_ARGUMENTS",
Deprecation::PyMethodArgsAttribute => "PYMETHODS_ARGS_ATTRIBUTE",
};
syn::Ident::new(string, span)
}

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@ -3,11 +3,11 @@
use std::borrow::Cow;
use crate::attributes::TextSignatureAttribute;
use crate::params::{accept_args_kwargs, impl_arg_params};
use crate::deprecations::{Deprecation, Deprecations};
use crate::params::impl_arg_params;
use crate::pyfunction::PyFunctionOptions;
use crate::pyfunction::{PyFunctionArgPyO3Attributes, PyFunctionSignature};
use crate::pyfunction::{DeprecatedArgs, FunctionSignature, PyFunctionArgPyO3Attributes};
use crate::utils::{self, PythonDoc};
use crate::{deprecations::Deprecations, pyfunction::Argument};
use proc_macro2::{Span, TokenStream};
use quote::ToTokens;
use quote::{quote, quote_spanned};
@ -22,8 +22,11 @@ pub struct FnArg<'a> {
pub mutability: &'a Option<syn::token::Mut>,
pub ty: &'a syn::Type,
pub optional: Option<&'a syn::Type>,
pub default: Option<syn::Expr>,
pub py: bool,
pub attrs: PyFunctionArgPyO3Attributes,
pub is_varargs: bool,
pub is_kwargs: bool,
}
impl<'a> FnArg<'a> {
@ -55,8 +58,11 @@ impl<'a> FnArg<'a> {
mutability,
ty: &cap.ty,
optional: utils::option_type_argument(&cap.ty),
default: None,
py: utils::is_python(&cap.ty),
attrs: arg_attrs,
is_varargs: false,
is_kwargs: false,
})
}
}
@ -193,11 +199,10 @@ impl CallingConvention {
///
/// Different other slots (tp_call, tp_new) can have other requirements
/// and are set manually (see `parse_fn_type` below).
pub fn from_args(args: &[FnArg<'_>], attrs: &[Argument]) -> Self {
let (_, accept_kwargs) = accept_args_kwargs(attrs);
if args.is_empty() {
pub fn from_signature(signature: &FunctionSignature<'_>) -> Self {
if signature.arguments.is_empty() {
Self::Noargs
} else if accept_kwargs {
} else if signature.python_signature.accepts_kwargs {
// for functions that accept **kwargs, always prefer varargs
Self::Varargs
} else if cfg!(not(feature = "abi3")) {
@ -216,8 +221,7 @@ pub struct FnSpec<'a> {
// Wrapped python name. This should not have any leading r#.
// r# can be removed by syn::ext::IdentExt::unraw()
pub python_name: syn::Ident,
pub attrs: Vec<Argument>,
pub args: Vec<FnArg<'a>>,
pub signature: FunctionSignature<'a>,
pub output: syn::Type,
pub doc: PythonDoc,
pub deprecations: Deprecations,
@ -265,14 +269,16 @@ impl<'a> FnSpec<'a> {
let PyFunctionOptions {
text_signature,
name,
mut deprecations,
signature,
..
} = options;
let MethodAttributes {
ty: fn_type_attr,
args: fn_attrs,
deprecated_args,
mut python_name,
} = parse_method_attributes(meth_attrs, name.map(|name| name.value.0))?;
} = parse_method_attributes(meth_attrs, name.map(|name| name.value.0), &mut deprecations)?;
let (fn_type, skip_first_arg, fixed_convention) =
Self::parse_fn_type(sig, fn_type_attr, &mut python_name)?;
@ -302,19 +308,30 @@ impl<'a> FnSpec<'a> {
.collect::<Result<_>>()?
};
let signature = if let Some(signature) = signature {
ensure_spanned!(
deprecated_args.is_none(),
signature.kw.span() => "cannot define both function signature and legacy arguments"
);
FunctionSignature::from_arguments_and_attribute(arguments, signature)?
} else if let Some(deprecated_args) = deprecated_args {
FunctionSignature::from_arguments_and_deprecated_args(arguments, deprecated_args)?
} else {
FunctionSignature::from_arguments(arguments)
};
let convention =
fixed_convention.unwrap_or_else(|| CallingConvention::from_args(&arguments, &fn_attrs));
fixed_convention.unwrap_or_else(|| CallingConvention::from_signature(&signature));
Ok(FnSpec {
tp: fn_type,
name,
convention,
python_name,
attrs: fn_attrs,
args: arguments,
signature,
output: ty,
doc,
deprecations: Deprecations::new(),
deprecations,
text_signature,
unsafety: sig.unsafety,
})
@ -412,45 +429,6 @@ impl<'a> FnSpec<'a> {
Ok((fn_type, skip_first_arg, fixed_convention))
}
pub fn default_value(&self, name: &syn::Ident) -> Option<TokenStream> {
for s in &self.attrs {
match s {
Argument::Arg(path, opt) | Argument::Kwarg(path, opt) => {
if path.is_ident(name) {
if let Some(val) = opt {
let i: syn::Expr = syn::parse_str(val).unwrap();
return Some(i.into_token_stream());
}
}
}
_ => (),
}
}
None
}
pub fn is_pos_only(&self, name: &syn::Ident) -> bool {
for s in &self.attrs {
if let Argument::PosOnlyArg(path, _) = s {
if path.is_ident(name) {
return true;
}
}
}
false
}
pub fn is_kw_only(&self, name: &syn::Ident) -> bool {
for s in &self.attrs {
if let Argument::Kwarg(path, _) = s {
if path.is_ident(name) {
return true;
}
}
}
false
}
/// Return a C wrapper function for this signature.
pub fn get_wrapper_function(
&self,
@ -626,19 +604,20 @@ impl<'a> FnSpec<'a> {
}
}
#[derive(Clone, PartialEq, Debug)]
#[derive(Debug)]
struct MethodAttributes {
ty: Option<MethodTypeAttribute>,
args: Vec<Argument>,
deprecated_args: Option<DeprecatedArgs>,
python_name: Option<syn::Ident>,
}
fn parse_method_attributes(
attrs: &mut Vec<syn::Attribute>,
mut python_name: Option<syn::Ident>,
deprecations: &mut Deprecations,
) -> Result<MethodAttributes> {
let mut new_attrs = Vec::new();
let mut args = Vec::new();
let mut deprecated_args = None;
let mut ty: Option<MethodTypeAttribute> = None;
macro_rules! set_ty {
@ -736,8 +715,12 @@ fn parse_method_attributes(
}
};
} else if path.is_ident("args") {
let attrs = PyFunctionSignature::from_meta(&nested)?;
args.extend(attrs.arguments)
ensure_spanned!(
deprecated_args.is_none(),
nested.span() => "args may only be specified once"
);
deprecations.push(Deprecation::PyMethodArgsAttribute, nested.span());
deprecated_args = Some(DeprecatedArgs::from_meta(&nested)?);
} else {
new_attrs.push(attr)
}
@ -750,7 +733,7 @@ fn parse_method_attributes(
Ok(MethodAttributes {
ty,
args,
deprecated_args,
python_name,
})
}

View File

@ -2,50 +2,28 @@
use crate::{
method::{FnArg, FnSpec},
pyfunction::Argument,
pyfunction::FunctionSignature,
};
use proc_macro2::{Span, TokenStream};
use quote::{quote, quote_spanned};
use syn::ext::IdentExt;
use syn::spanned::Spanned;
use syn::Result;
/// Determine if the function gets passed a *args tuple or **kwargs dict.
pub fn accept_args_kwargs(attrs: &[Argument]) -> (bool, bool) {
let (mut accept_args, mut accept_kwargs) = (false, false);
for s in attrs {
match s {
Argument::VarArgs(_) => accept_args = true,
Argument::KeywordArgs(_) => accept_kwargs = true,
_ => continue,
}
}
(accept_args, accept_kwargs)
}
/// Return true if the argument list is simply (*args, **kwds).
pub fn is_forwarded_args(args: &[FnArg<'_>], attrs: &[Argument]) -> bool {
args.len() == 2 && is_args(attrs, args[0].name) && is_kwargs(attrs, args[1].name)
}
fn is_args(attrs: &[Argument], name: &syn::Ident) -> bool {
for s in attrs.iter() {
if let Argument::VarArgs(path) = s {
return path.is_ident(name);
}
}
false
}
fn is_kwargs(attrs: &[Argument], name: &syn::Ident) -> bool {
for s in attrs.iter() {
if let Argument::KeywordArgs(path) = s {
return path.is_ident(name);
}
}
false
pub fn is_forwarded_args(signature: &FunctionSignature<'_>) -> bool {
matches!(
signature.arguments.as_slice(),
[
FnArg {
is_varargs: true,
..
},
FnArg {
is_kwargs: true,
..
},
]
)
}
pub fn impl_arg_params(
@ -54,19 +32,20 @@ pub fn impl_arg_params(
py: &syn::Ident,
fastcall: bool,
) -> Result<(TokenStream, Vec<TokenStream>)> {
if spec.args.is_empty() {
if spec.signature.arguments.is_empty() {
return Ok((TokenStream::new(), vec![]));
}
let args_array = syn::Ident::new("output", Span::call_site());
if !fastcall && is_forwarded_args(&spec.args, &spec.attrs) {
if !fastcall && is_forwarded_args(&spec.signature) {
// In the varargs convention, we can just pass though if the signature
// is (*args, **kwds).
let arg_convert = spec
.args
.signature
.arguments
.iter()
.map(|arg| impl_arg_param(arg, spec, &mut 0, py, &args_array))
.map(|arg| impl_arg_param(arg, &mut 0, py, &args_array))
.collect::<Result<_>>()?;
return Ok((
quote! {
@ -77,55 +56,42 @@ pub fn impl_arg_params(
));
};
let mut positional_parameter_names = Vec::new();
let mut positional_only_parameters = 0usize;
let mut required_positional_parameters = 0usize;
let mut keyword_only_parameters = Vec::new();
for arg in &spec.args {
if arg.py || is_args(&spec.attrs, arg.name) || is_kwargs(&spec.attrs, arg.name) {
continue;
}
let name = arg.name.unraw().to_string();
let posonly = spec.is_pos_only(arg.name);
let kwonly = spec.is_kw_only(arg.name);
let required = !(arg.optional.is_some() || spec.default_value(arg.name).is_some());
if kwonly {
keyword_only_parameters.push(quote! {
let positional_parameter_names = &spec.signature.python_signature.positional_parameters;
let positional_only_parameters = &spec.signature.python_signature.positional_only_parameters;
let required_positional_parameters = &spec
.signature
.python_signature
.required_positional_parameters;
let keyword_only_parameters = spec
.signature
.python_signature
.keyword_only_parameters
.iter()
.map(|(name, required)| {
quote! {
_pyo3::impl_::extract_argument::KeywordOnlyParameterDescription {
name: #name,
required: #required,
}
});
} else {
positional_parameter_names.push(name);
if required {
required_positional_parameters = positional_parameter_names.len();
}
if posonly {
positional_only_parameters += 1;
}
}
}
});
let num_params = positional_parameter_names.len() + keyword_only_parameters.len();
let mut option_pos = 0;
let param_conversion = spec
.args
.signature
.arguments
.iter()
.map(|arg| impl_arg_param(arg, spec, &mut option_pos, py, &args_array))
.map(|arg| impl_arg_param(arg, &mut option_pos, py, &args_array))
.collect::<Result<_>>()?;
let (accept_args, accept_kwargs) = accept_args_kwargs(&spec.attrs);
let args_handler = if accept_args {
let args_handler = if spec.signature.python_signature.accepts_varargs {
quote! { _pyo3::impl_::extract_argument::TupleVarargs }
} else {
quote! { _pyo3::impl_::extract_argument::NoVarargs }
};
let kwargs_handler = if accept_kwargs {
let kwargs_handler = if spec.signature.python_signature.accepts_kwargs {
quote! { _pyo3::impl_::extract_argument::DictVarkeywords }
} else {
quote! { _pyo3::impl_::extract_argument::NoVarkeywords }
@ -182,7 +148,6 @@ pub fn impl_arg_params(
/// index and the index in option diverge when using py: Python
fn impl_arg_param(
arg: &FnArg<'_>,
spec: &FnSpec<'_>,
option_pos: &mut usize,
py: &syn::Ident,
args_array: &syn::Ident,
@ -200,7 +165,7 @@ fn impl_arg_param(
let name = arg.name;
let name_str = name.to_string();
if is_args(&spec.attrs, name) {
if arg.is_varargs {
ensure_spanned!(
arg.optional.is_none(),
arg.name.span() => "args cannot be optional"
@ -212,7 +177,7 @@ fn impl_arg_param(
#name_str
)?
});
} else if is_kwargs(&spec.attrs, name) {
} else if arg.is_kwargs {
ensure_spanned!(
arg.optional.is_some(),
arg.name.span() => "kwargs must be Option<_>"
@ -222,7 +187,7 @@ fn impl_arg_param(
_kwargs.map(::std::convert::AsRef::as_ref),
&mut { _pyo3::impl_::extract_argument::FunctionArgumentHolder::INIT },
#name_str,
|| None
|| ::std::option::Option::None
)?
});
}
@ -230,7 +195,7 @@ fn impl_arg_param(
let arg_value = quote_arg_span!(#args_array[#option_pos]);
*option_pos += 1;
let mut default = spec.default_value(name);
let mut default = arg.default.as_ref().map(|expr| quote!(#expr));
// Option<T> arguments have special treatment: the default should be specified _without_ the
// Some() wrapper. Maybe this should be changed in future?!

View File

@ -7,40 +7,23 @@ use crate::{
self, get_pyo3_options, take_attributes, take_pyo3_options, CrateAttribute,
FromPyWithAttribute, NameAttribute, TextSignatureAttribute,
},
deprecations::Deprecations,
deprecations::{Deprecation, Deprecations},
method::{self, CallingConvention, FnArg},
pymethod::check_generic,
utils::{self, ensure_not_async_fn, get_pyo3_crate},
};
use proc_macro2::{Span, TokenStream};
use proc_macro2::TokenStream;
use quote::{format_ident, quote};
use syn::punctuated::Punctuated;
use syn::{ext::IdentExt, spanned::Spanned, NestedMeta, Path, Result};
use syn::{ext::IdentExt, spanned::Spanned, NestedMeta, Result};
use syn::{
parse::{Parse, ParseBuffer, ParseStream},
token::Comma,
};
use syn::{punctuated::Punctuated, Path};
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum Argument {
PosOnlyArgsSeparator,
VarArgsSeparator,
VarArgs(syn::Path),
KeywordArgs(syn::Path),
PosOnlyArg(syn::Path, Option<String>),
Arg(syn::Path, Option<String>),
Kwarg(syn::Path, Option<String>),
}
mod signature;
/// The attributes of the pyfunction macro
#[derive(Default)]
pub struct PyFunctionSignature {
pub arguments: Vec<Argument>,
has_kw: bool,
has_posonly_args: bool,
has_varargs: bool,
has_kwargs: bool,
}
pub use self::signature::{FunctionSignature, SignatureAttribute};
#[derive(Clone, Debug)]
pub struct PyFunctionArgPyO3Attributes {
@ -88,16 +71,37 @@ impl PyFunctionArgPyO3Attributes {
}
}
impl syn::parse::Parse for PyFunctionSignature {
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum Argument {
PosOnlyArgsSeparator,
VarArgsSeparator,
VarArgs(syn::Path),
KeywordArgs(syn::Path),
PosOnlyArg(syn::Path, Option<String>),
Arg(syn::Path, Option<String>),
Kwarg(syn::Path, Option<String>),
}
#[derive(Debug, Default)]
pub struct DeprecatedArgs {
pub arguments: Vec<Argument>,
has_kw: bool,
has_posonly_args: bool,
has_varargs: bool,
has_kwargs: bool,
}
// Deprecated parsing mode for the signature
impl syn::parse::Parse for DeprecatedArgs {
fn parse(input: &ParseBuffer<'_>) -> syn::Result<Self> {
let attr = Punctuated::<NestedMeta, syn::Token![,]>::parse_terminated(input)?;
Self::from_meta(&attr)
}
}
impl PyFunctionSignature {
impl DeprecatedArgs {
pub fn from_meta<'a>(iter: impl IntoIterator<Item = &'a NestedMeta>) -> syn::Result<Self> {
let mut slf = PyFunctionSignature::default();
let mut slf = DeprecatedArgs::default();
for item in iter {
slf.add_item(item)?
@ -238,7 +242,8 @@ impl PyFunctionSignature {
pub struct PyFunctionOptions {
pub pass_module: Option<attributes::kw::pass_module>,
pub name: Option<NameAttribute>,
pub signature: Option<PyFunctionSignature>,
pub deprecated_args: Option<DeprecatedArgs>,
pub signature: Option<SignatureAttribute>,
pub text_signature: Option<TextSignatureAttribute>,
pub deprecations: Deprecations,
pub krate: Option<CrateAttribute>,
@ -264,9 +269,10 @@ impl Parse for PyFunctionOptions {
options.krate = Some(input.parse()?);
} else {
// If not recognised attribute, this is "legacy" pyfunction syntax #[pyfunction(a, b)]
//
// TODO deprecate in favour of #[pyfunction(signature = (a, b), name = "foo")]
options.signature = Some(input.parse()?);
options
.deprecations
.push(Deprecation::PyFunctionArguments, input.span());
options.deprecated_args = Some(input.parse()?);
break;
}
}
@ -278,7 +284,7 @@ impl Parse for PyFunctionOptions {
pub enum PyFunctionOption {
Name(NameAttribute),
PassModule(attributes::kw::pass_module),
Signature(PyFunctionSignature),
Signature(SignatureAttribute),
TextSignature(TextSignatureAttribute),
Crate(CrateAttribute),
}
@ -313,51 +319,28 @@ impl PyFunctionOptions {
&mut self,
attrs: impl IntoIterator<Item = PyFunctionOption>,
) -> Result<()> {
macro_rules! set_option {
($key:ident) => {
{
ensure_spanned!(
self.$key.is_none(),
$key.span() => concat!("`", stringify!($key), "` may only be specified once")
);
self.$key = Some($key);
}
};
}
for attr in attrs {
match attr {
PyFunctionOption::Name(name) => self.set_name(name)?,
PyFunctionOption::PassModule(kw) => {
ensure_spanned!(
self.pass_module.is_none(),
kw.span() => "`pass_module` may only be specified once"
);
self.pass_module = Some(kw);
}
PyFunctionOption::Signature(signature) => {
ensure_spanned!(
self.signature.is_none(),
// FIXME: improve the span of this error message
Span::call_site() => "`signature` may only be specified once"
);
self.signature = Some(signature);
}
PyFunctionOption::TextSignature(text_signature) => {
ensure_spanned!(
self.text_signature.is_none(),
text_signature.kw.span() => "`text_signature` may only be specified once"
);
self.text_signature = Some(text_signature);
}
PyFunctionOption::Crate(path) => {
ensure_spanned!(
self.krate.is_none(),
path.span() => "`crate` may only be specified once"
);
self.krate = Some(path);
}
PyFunctionOption::Name(name) => set_option!(name),
PyFunctionOption::PassModule(pass_module) => set_option!(pass_module),
PyFunctionOption::Signature(signature) => set_option!(signature),
PyFunctionOption::TextSignature(text_signature) => set_option!(text_signature),
PyFunctionOption::Crate(krate) => set_option!(krate),
}
}
Ok(())
}
pub fn set_name(&mut self, name: NameAttribute) -> Result<()> {
ensure_spanned!(
self.name.is_none(),
name.span() => "`name` may only be specified once"
);
self.name = Some(name);
Ok(())
}
}
pub fn build_py_function(
@ -377,11 +360,17 @@ pub fn impl_wrap_pyfunction(
check_generic(&func.sig)?;
ensure_not_async_fn(&func.sig)?;
let python_name = options
.name
.map_or_else(|| func.sig.ident.unraw(), |name| name.value.0);
let PyFunctionOptions {
pass_module,
name,
deprecated_args,
signature,
text_signature,
deprecations,
krate,
} = options;
let signature = options.signature.unwrap_or_default();
let python_name = name.map_or_else(|| func.sig.ident.unraw(), |name| name.value.0);
let mut arguments = func
.sig
@ -390,7 +379,7 @@ pub fn impl_wrap_pyfunction(
.map(FnArg::parse)
.collect::<syn::Result<Vec<_>>>()?;
if options.pass_module.is_some() {
let tp = if pass_module.is_some() {
const PASS_MODULE_ERR: &str = "expected &PyModule as first argument with `pass_module`";
ensure_spanned!(
!arguments.is_empty(),
@ -401,35 +390,44 @@ pub fn impl_wrap_pyfunction(
type_is_pymodule(arg.ty),
arg.ty.span() => PASS_MODULE_ERR
);
}
method::FnType::FnModule
} else {
method::FnType::FnStatic
};
let signature = if let Some(signature) = signature {
ensure_spanned!(
deprecated_args.is_none(),
signature.kw.span() => "cannot define both function signature and legacy arguments"
);
FunctionSignature::from_arguments_and_attribute(arguments, signature)?
} else if let Some(deprecated_args) = deprecated_args {
FunctionSignature::from_arguments_and_deprecated_args(arguments, deprecated_args)?
} else {
FunctionSignature::from_arguments(arguments)
};
let ty = method::get_return_info(&func.sig.output);
let doc = utils::get_doc(
&func.attrs,
options
.text_signature
text_signature
.as_ref()
.map(|attr| (Cow::Borrowed(&python_name), attr)),
);
let krate = get_pyo3_crate(&options.krate);
let krate = get_pyo3_crate(&krate);
let spec = method::FnSpec {
tp: if options.pass_module.is_some() {
method::FnType::FnModule
} else {
method::FnType::FnStatic
},
tp,
name: &func.sig.ident,
convention: CallingConvention::from_args(&arguments, &signature.arguments),
convention: CallingConvention::from_signature(&signature),
python_name,
attrs: signature.arguments,
args: arguments,
signature,
output: ty,
doc,
deprecations: options.deprecations,
text_signature: options.text_signature,
deprecations,
text_signature,
unsafety: func.sig.unsafety,
};
@ -482,91 +480,3 @@ fn type_is_pymodule(ty: &syn::Type) -> bool {
}
false
}
#[cfg(test)]
mod tests {
use super::{Argument, PyFunctionSignature};
use proc_macro2::TokenStream;
use quote::quote;
use syn::parse_quote;
fn items(input: TokenStream) -> syn::Result<Vec<Argument>> {
let py_fn_attr: PyFunctionSignature = syn::parse2(input)?;
Ok(py_fn_attr.arguments)
}
#[test]
fn test_errs() {
assert!(items(quote! {test="1", test2}).is_err());
assert!(items(quote! {test, "*", args="*"}).is_err());
assert!(items(quote! {test, kwargs="**", args="*"}).is_err());
assert!(items(quote! {test, kwargs="**", args}).is_err());
}
#[test]
fn test_simple_args() {
let args = items(quote! {test1, test2, test3="None"}).unwrap();
assert!(
args == vec![
Argument::Arg(parse_quote! {test1}, None),
Argument::Arg(parse_quote! {test2}, None),
Argument::Arg(parse_quote! {test3}, Some("None".to_owned())),
]
);
}
#[test]
fn test_varargs() {
let args = items(quote! {test1, test2="None", "*", test3="None"}).unwrap();
assert!(
args == vec![
Argument::Arg(parse_quote! {test1}, None),
Argument::Arg(parse_quote! {test2}, Some("None".to_owned())),
Argument::VarArgsSeparator,
Argument::Kwarg(parse_quote! {test3}, Some("None".to_owned())),
]
);
let args = items(quote! {"*", test1, test2}).unwrap();
assert!(
args == vec![
Argument::VarArgsSeparator,
Argument::Kwarg(parse_quote! {test1}, None),
Argument::Kwarg(parse_quote! {test2}, None),
]
);
let args = items(quote! {"*", test1, test2="None"}).unwrap();
assert!(
args == vec![
Argument::VarArgsSeparator,
Argument::Kwarg(parse_quote! {test1}, None),
Argument::Kwarg(parse_quote! {test2}, Some("None".to_owned())),
]
);
let args = items(quote! {"*", test1="None", test2}).unwrap();
assert!(
args == vec![
Argument::VarArgsSeparator,
Argument::Kwarg(parse_quote! {test1}, Some("None".to_owned())),
Argument::Kwarg(parse_quote! {test2}, None),
]
);
}
#[test]
fn test_all() {
let args =
items(quote! {test1, test2="None", args="*", test3="None", kwargs="**"}).unwrap();
assert!(
args == vec![
Argument::Arg(parse_quote! {test1}, None),
Argument::Arg(parse_quote! {test2}, Some("None".to_owned())),
Argument::VarArgs(parse_quote! {args}),
Argument::Kwarg(parse_quote! {test3}, Some("None".to_owned())),
Argument::KeywordArgs(parse_quote! {kwargs}),
]
);
}
}

View File

@ -0,0 +1,546 @@
use std::cmp::max;
use proc_macro2::{Span, TokenStream};
use quote::ToTokens;
use syn::{
ext::IdentExt,
parse::{Parse, ParseStream},
punctuated::Punctuated,
spanned::Spanned,
Token,
};
use crate::{
attributes::{kw, KeywordAttribute},
method::FnArg,
pyfunction::Argument,
};
use super::DeprecatedArgs;
pub struct Signature {
paren_token: syn::token::Paren,
pub items: Punctuated<SignatureItem, Token![,]>,
}
impl Parse for Signature {
fn parse(input: ParseStream<'_>) -> syn::Result<Self> {
let content;
Ok(Signature {
paren_token: syn::parenthesized!(content in input),
items: content.parse_terminated(SignatureItem::parse)?,
})
}
}
impl ToTokens for Signature {
fn to_tokens(&self, tokens: &mut TokenStream) {
self.paren_token
.surround(tokens, |tokens| self.items.to_tokens(tokens))
}
}
#[derive(Debug, PartialEq, Eq)]
pub struct SignatureItemArgument {
pub ident: syn::Ident,
pub eq_and_default: Option<(Token![=], syn::Expr)>,
}
#[derive(Debug, PartialEq, Eq)]
pub struct SignatureItemPosargsSep {
pub slash: Token![/],
}
#[derive(Debug, PartialEq, Eq)]
pub struct SignatureItemVarargsSep {
pub asterisk: Token![*],
}
#[derive(Debug, PartialEq, Eq)]
pub struct SignatureItemVarargs {
pub sep: SignatureItemVarargsSep,
pub ident: syn::Ident,
}
#[derive(Debug, PartialEq, Eq)]
pub struct SignatureItemKwargs {
pub asterisks: (Token![*], Token![*]),
pub ident: syn::Ident,
}
#[derive(Debug, PartialEq, Eq)]
pub enum SignatureItem {
Argument(Box<SignatureItemArgument>),
PosargsSep(SignatureItemPosargsSep),
VarargsSep(SignatureItemVarargsSep),
Varargs(SignatureItemVarargs),
Kwargs(SignatureItemKwargs),
}
impl Parse for SignatureItem {
fn parse(input: ParseStream<'_>) -> syn::Result<Self> {
let lookahead = input.lookahead1();
if lookahead.peek(Token![*]) {
if input.peek2(Token![*]) {
input.parse().map(SignatureItem::Kwargs)
} else {
let sep = input.parse()?;
if input.is_empty() || input.peek(Token![,]) {
Ok(SignatureItem::VarargsSep(sep))
} else {
Ok(SignatureItem::Varargs(SignatureItemVarargs {
sep,
ident: input.parse()?,
}))
}
}
} else if lookahead.peek(Token![/]) {
input.parse().map(SignatureItem::PosargsSep)
} else {
input.parse().map(SignatureItem::Argument)
}
}
}
impl ToTokens for SignatureItem {
fn to_tokens(&self, tokens: &mut TokenStream) {
match self {
SignatureItem::Argument(arg) => arg.to_tokens(tokens),
SignatureItem::Varargs(varargs) => varargs.to_tokens(tokens),
SignatureItem::VarargsSep(sep) => sep.to_tokens(tokens),
SignatureItem::Kwargs(kwargs) => kwargs.to_tokens(tokens),
SignatureItem::PosargsSep(sep) => sep.to_tokens(tokens),
}
}
}
impl Parse for SignatureItemArgument {
fn parse(input: ParseStream<'_>) -> syn::Result<Self> {
Ok(Self {
ident: input.parse()?,
eq_and_default: if input.peek(Token![=]) {
Some((input.parse()?, input.parse()?))
} else {
None
},
})
}
}
impl ToTokens for SignatureItemArgument {
fn to_tokens(&self, tokens: &mut TokenStream) {
self.ident.to_tokens(tokens);
if let Some((eq, default)) = &self.eq_and_default {
eq.to_tokens(tokens);
default.to_tokens(tokens);
}
}
}
impl Parse for SignatureItemVarargsSep {
fn parse(input: ParseStream<'_>) -> syn::Result<Self> {
Ok(Self {
asterisk: input.parse()?,
})
}
}
impl ToTokens for SignatureItemVarargsSep {
fn to_tokens(&self, tokens: &mut TokenStream) {
self.asterisk.to_tokens(tokens);
}
}
impl Parse for SignatureItemVarargs {
fn parse(input: ParseStream<'_>) -> syn::Result<Self> {
Ok(Self {
sep: input.parse()?,
ident: input.parse()?,
})
}
}
impl ToTokens for SignatureItemVarargs {
fn to_tokens(&self, tokens: &mut TokenStream) {
self.sep.to_tokens(tokens);
self.ident.to_tokens(tokens);
}
}
impl Parse for SignatureItemKwargs {
fn parse(input: ParseStream<'_>) -> syn::Result<Self> {
Ok(Self {
asterisks: (input.parse()?, input.parse()?),
ident: input.parse()?,
})
}
}
impl ToTokens for SignatureItemKwargs {
fn to_tokens(&self, tokens: &mut TokenStream) {
self.asterisks.0.to_tokens(tokens);
self.asterisks.1.to_tokens(tokens);
self.ident.to_tokens(tokens);
}
}
impl Parse for SignatureItemPosargsSep {
fn parse(input: ParseStream<'_>) -> syn::Result<Self> {
Ok(Self {
slash: input.parse()?,
})
}
}
impl ToTokens for SignatureItemPosargsSep {
fn to_tokens(&self, tokens: &mut TokenStream) {
self.slash.to_tokens(tokens);
}
}
pub type SignatureAttribute = KeywordAttribute<kw::signature, Signature>;
#[derive(Default)]
pub struct PythonSignature {
pub positional_parameters: Vec<String>,
pub positional_only_parameters: usize,
pub required_positional_parameters: usize,
pub accepts_varargs: bool,
// Tuples of keyword name and whether it is required
pub keyword_only_parameters: Vec<(String, bool)>,
pub accepts_kwargs: bool,
}
pub struct FunctionSignature<'a> {
pub arguments: Vec<FnArg<'a>>,
pub python_signature: PythonSignature,
}
pub enum ParseState {
/// Accepting positional parameters, which might be positional only
Positional,
/// Accepting positional parameters after '/'
PositionalAfterPosargs,
/// Accepting keyword-only parameters after '*' or '*args'
Keywords(Option<String>),
/// After `**kwargs` nothing is allowed
Done(String),
}
impl ParseState {
fn add_argument(
&mut self,
signature: &mut PythonSignature,
name: String,
required: bool,
span: Span,
) -> syn::Result<()> {
match self {
ParseState::Positional | ParseState::PositionalAfterPosargs => {
signature.positional_parameters.push(name);
if required {
signature.required_positional_parameters += 1;
ensure_spanned!(
signature.required_positional_parameters == signature.positional_parameters.len(),
span => "cannot have required positional parameter after an optional parameter"
);
}
Ok(())
}
ParseState::Keywords(_) => {
signature.keyword_only_parameters.push((name, required));
Ok(())
}
ParseState::Done(s) => {
bail_spanned!(span => format!("no more arguments are allowed after `**{}`", s))
}
}
}
fn add_varargs(
&mut self,
signature: &mut PythonSignature,
varargs: &SignatureItemVarargs,
) -> syn::Result<()> {
match self {
ParseState::Positional | ParseState::PositionalAfterPosargs => {
signature.accepts_varargs = true;
*self = ParseState::Keywords(Some(varargs.ident.to_string()));
Ok(())
}
ParseState::Keywords(s) => {
bail_spanned!(varargs.span() => format!("`*{}` not allowed after `*{}`", varargs.ident, s.as_deref().unwrap_or("")))
}
ParseState::Done(s) => {
bail_spanned!(varargs.span() => format!("`*{}` not allowed after `**{}`", varargs.ident, s))
}
}
}
fn add_kwargs(
&mut self,
signature: &mut PythonSignature,
kwargs: &SignatureItemKwargs,
) -> syn::Result<()> {
match self {
ParseState::Positional
| ParseState::PositionalAfterPosargs
| ParseState::Keywords(_) => {
signature.accepts_kwargs = true;
*self = ParseState::Done(kwargs.ident.to_string());
Ok(())
}
ParseState::Done(s) => {
bail_spanned!(kwargs.span() => format!("`**{}` not allowed after `**{}`", kwargs.ident, s))
}
}
}
fn finish_pos_only_args(
&mut self,
signature: &mut PythonSignature,
span: Span,
) -> syn::Result<()> {
match self {
ParseState::Positional => {
signature.positional_only_parameters = signature.positional_parameters.len();
*self = ParseState::PositionalAfterPosargs;
Ok(())
}
ParseState::PositionalAfterPosargs => {
bail_spanned!(span => "`/` not allowed after `/`")
}
ParseState::Keywords(s) => {
bail_spanned!(span => format!("`/` not allowed after `*{}`", s.as_deref().unwrap_or("")))
}
ParseState::Done(s) => {
bail_spanned!(span => format!("`/` not allowed after `**{}`", s))
}
}
}
fn finish_pos_args(&mut self, span: Span) -> syn::Result<()> {
match self {
ParseState::Positional | ParseState::PositionalAfterPosargs => {
*self = ParseState::Keywords(None);
Ok(())
}
ParseState::Keywords(s) => {
bail_spanned!(span => format!("`*` not allowed after `*{}`", s.as_deref().unwrap_or("")))
}
ParseState::Done(s) => {
bail_spanned!(span => format!("`*` not allowed after `**{}`", s))
}
}
}
}
impl<'a> FunctionSignature<'a> {
pub fn from_arguments_and_attribute(
mut arguments: Vec<FnArg<'a>>,
attribute: SignatureAttribute,
) -> syn::Result<Self> {
let mut parse_state = ParseState::Positional;
let mut python_signature = PythonSignature::default();
let mut args_iter = arguments.iter_mut().filter(|arg| !arg.py); // Python<'_> arguments don't show on the Python side.
let mut next_argument_checked = |name: &syn::Ident| match args_iter.next() {
Some(fn_arg) => {
ensure_spanned!(
name == fn_arg.name,
name.span() => format!(
"expected argument from function definition `{}` but got argument `{}`",
fn_arg.name.unraw(),
name.unraw(),
)
);
Ok(fn_arg)
}
None => bail_spanned!(
name.span() => "signature entry does not have a corresponding function argument"
),
};
for item in attribute.value.items {
match item {
SignatureItem::Argument(arg) => {
let fn_arg = next_argument_checked(&arg.ident)?;
parse_state.add_argument(
&mut python_signature,
arg.ident.unraw().to_string(),
arg.eq_and_default.is_none(),
arg.span(),
)?;
if let Some((_, default)) = arg.eq_and_default {
fn_arg.default = Some(default);
}
}
SignatureItem::VarargsSep(sep) => parse_state.finish_pos_args(sep.span())?,
SignatureItem::Varargs(varargs) => {
let fn_arg = next_argument_checked(&varargs.ident)?;
fn_arg.is_varargs = true;
parse_state.add_varargs(&mut python_signature, &varargs)?;
}
SignatureItem::Kwargs(kwargs) => {
let fn_arg = next_argument_checked(&kwargs.ident)?;
fn_arg.is_kwargs = true;
parse_state.add_kwargs(&mut python_signature, &kwargs)?;
}
SignatureItem::PosargsSep(sep) => {
parse_state.finish_pos_only_args(&mut python_signature, sep.span())?
}
};
}
if let Some(arg) = args_iter.next() {
bail_spanned!(
attribute.kw.span() => format!("missing signature entry for argument `{}`", arg.name)
);
}
Ok(FunctionSignature {
arguments,
python_signature,
})
}
/// The difference to `from_arguments_and_signature` is that deprecated args allowed entries to be:
/// - missing
/// - out of order
pub fn from_arguments_and_deprecated_args(
mut arguments: Vec<FnArg<'a>>,
deprecated_args: DeprecatedArgs,
) -> syn::Result<Self> {
let mut accepts_varargs = false;
let mut accepts_kwargs = false;
let mut keyword_only_parameters = Vec::new();
fn first_n_argument_names(arguments: &[FnArg<'_>], count: usize) -> Vec<String> {
arguments
.iter()
.filter_map(|fn_arg| {
if fn_arg.py {
None
} else {
Some(fn_arg.name.unraw().to_string())
}
})
.take(count)
.collect()
}
// Record highest counts observed based off argument positions
let mut positional_only_arguments_count = None;
let mut positional_arguments_count = None;
let mut required_positional_parameters = 0;
let args_iter = arguments.iter_mut().filter(|arg| !arg.py); // Python<'_> arguments don't show on the Python side.
for (i, fn_arg) in args_iter.enumerate() {
if let Some(argument) = deprecated_args
.arguments
.iter()
.find(|argument| match argument {
Argument::PosOnlyArg(path, _)
| Argument::Arg(path, _)
| Argument::Kwarg(path, _)
| Argument::VarArgs(path)
| Argument::KeywordArgs(path) => path.get_ident() == Some(fn_arg.name),
_ => false,
})
{
match argument {
Argument::PosOnlyArg(_, default) | Argument::Arg(_, default) => {
if let Some(default) = default {
fn_arg.default = Some(syn::parse_str(default)?);
} else if fn_arg.optional.is_none() {
// Option<_> arguments always have an implicit None default with the old
// `#[args]`
required_positional_parameters = i + 1;
}
if matches!(argument, Argument::PosOnlyArg(_, _)) {
positional_only_arguments_count = Some(i + 1);
}
positional_arguments_count = Some(i + 1);
}
Argument::Kwarg(_, default) => {
fn_arg.default = default.as_deref().map(syn::parse_str).transpose()?;
keyword_only_parameters.push((fn_arg.name.to_string(), default.is_none()));
}
Argument::PosOnlyArgsSeparator => {}
Argument::VarArgsSeparator => {}
Argument::VarArgs(_) => {
fn_arg.is_varargs = true;
accepts_varargs = true;
}
Argument::KeywordArgs(_) => {
fn_arg.is_kwargs = true;
accepts_kwargs = true;
}
}
} else {
// Assume this is a required positional parameter
required_positional_parameters = i + 1;
positional_arguments_count = Some(i + 1);
}
}
// fix up state based on observations above
let positional_only_parameters = positional_only_arguments_count.unwrap_or(0);
let positional_parameters = first_n_argument_names(
&arguments,
max(
positional_arguments_count.unwrap_or(0),
positional_only_arguments_count.unwrap_or(0),
),
);
Ok(FunctionSignature {
arguments,
python_signature: PythonSignature {
positional_parameters,
positional_only_parameters,
required_positional_parameters,
accepts_varargs,
keyword_only_parameters,
accepts_kwargs,
},
})
}
/// Without `#[pyo3(signature)]` or `#[args]` - just take the Rust function arguments as positional.
pub fn from_arguments(mut arguments: Vec<FnArg<'a>>) -> Self {
let mut python_signature = PythonSignature::default();
for arg in &arguments {
// Python<'_> arguments don't show in Python signature
if arg.py {
continue;
}
if arg.optional.is_none() {
// This argument is required
python_signature.required_positional_parameters =
python_signature.positional_parameters.len() + 1;
}
python_signature
.positional_parameters
.push(arg.name.unraw().to_string());
}
// Fixup any `Option<_>` arguments that were made implicitly made required by the deprecated
// branch above
for arg in arguments
.iter_mut()
.take(python_signature.required_positional_parameters)
{
arg.optional = None;
}
Self {
arguments,
python_signature,
}
}
}

View File

@ -398,7 +398,7 @@ fn impl_traverse_slot(cls: &syn::Type, spec: FnSpec<'_>) -> MethodAndSlotDef {
}
fn impl_py_class_attribute(cls: &syn::Type, spec: &FnSpec<'_>) -> syn::Result<MethodAndMethodDef> {
let (py_arg, args) = split_off_python_arg(&spec.args);
let (py_arg, args) = split_off_python_arg(&spec.signature.arguments);
ensure_spanned!(
args.is_empty(),
args[0].ty.span() => "#[classattr] can only have one argument (of type pyo3::Python)"
@ -440,7 +440,7 @@ fn impl_py_class_attribute(cls: &syn::Type, spec: &FnSpec<'_>) -> syn::Result<Me
}
fn impl_call_setter(cls: &syn::Type, spec: &FnSpec<'_>) -> syn::Result<TokenStream> {
let (py_arg, args) = split_off_python_arg(&spec.args);
let (py_arg, args) = split_off_python_arg(&spec.signature.arguments);
if args.is_empty() {
bail_spanned!(spec.name.span() => "setter function expected to have one argument");
@ -564,7 +564,7 @@ pub fn impl_py_setter_def(
}
fn impl_call_getter(cls: &syn::Type, spec: &FnSpec<'_>) -> syn::Result<TokenStream> {
let (py_arg, args) = split_off_python_arg(&spec.args);
let (py_arg, args) = split_off_python_arg(&spec.signature.arguments);
ensure_spanned!(
args.is_empty(),
args[0].ty.span() => "getter function can only have one argument (of type pyo3::Python)"
@ -1289,10 +1289,10 @@ fn extract_proto_arguments(
proto_args: &[Ty],
extract_error_mode: ExtractErrorMode,
) -> Result<Vec<TokenStream>> {
let mut args = Vec::with_capacity(spec.args.len());
let mut args = Vec::with_capacity(spec.signature.arguments.len());
let mut non_python_args = 0;
for arg in &spec.args {
for arg in &spec.signature.arguments {
if arg.py {
args.push(quote! { #py });
} else {

View File

@ -44,7 +44,7 @@ pub fn is_python(ty: &syn::Type) -> bool {
}
}
/// If `ty` is Option<T>, return `Some(T)`, else None.
/// If `ty` is `Option<T>`, return `Some(T)`, else `None`.
pub fn option_type_argument(ty: &syn::Type) -> Option<&syn::Type> {
if let syn::Type::Path(syn::TypePath { path, .. }) = ty {
let seg = path.segments.last().filter(|s| s.ident == "Option")?;

View File

@ -87,8 +87,8 @@ pub fn pyclass(attr: TokenStream, input: TokenStream) -> TokenStream {
/// | [`#[staticmethod]`][6]| Defines the method as a staticmethod, like Python's `@staticmethod` decorator.|
/// | [`#[classmethod]`][7] | Defines the method as a classmethod, like Python's `@classmethod` decorator.|
/// | [`#[classattr]`][9] | Defines a class variable. |
/// | [`#[args]`][10] | Define a method's default arguments and allows the function to receive `*args` and `**kwargs`. |
/// | <nobr>[`#[pyo3(<option> = <value>)`][pyo3-method-options]<nobr> | Any of the `#[pyo3]` options supported on [`macro@pyfunction`]. |
/// | [`#[args]`][10] | Deprecated way to define a method's default arguments and allows the function to receive `*args` and `**kwargs`. Use `#[pyo3(signature = (...))]` instead. |
/// | <nobr>[`#[pyo3(<option> = <value>)`][pyo3-method-options]</nobr> | Any of the `#[pyo3]` options supported on [`macro@pyfunction`]. |
///
/// For more on creating class methods,
/// see the [class section of the guide][1].

View File

@ -11,7 +11,7 @@ def test(session):
session.install("numpy>=1.16")
session.install("maturin")
session.run_always("maturin", "develop")
session.run("pytest")
session.run("pytest", *session.posargs)
@nox.session

View File

@ -0,0 +1,68 @@
#![allow(deprecated)]
use pyo3::prelude::*;
use pyo3::types::{PyDict, PyTuple};
#[pyfunction]
fn none() {}
#[pyfunction(b = "\"bar\"", "*", c = "None")]
fn simple<'a>(a: i32, b: &'a str, c: Option<&'a PyDict>) -> (i32, &'a str, Option<&'a PyDict>) {
(a, b, c)
}
#[pyfunction(b = "\"bar\"", args = "*", c = "None")]
fn simple_args<'a>(
a: i32,
b: &'a str,
c: Option<&'a PyDict>,
args: &'a PyTuple,
) -> (i32, &'a str, &'a PyTuple, Option<&'a PyDict>) {
(a, b, args, c)
}
#[pyfunction(b = "\"bar\"", c = "None", kwargs = "**")]
fn simple_kwargs<'a>(
a: i32,
b: &'a str,
c: Option<&'a PyDict>,
kwargs: Option<&'a PyDict>,
) -> (i32, &'a str, Option<&'a PyDict>, Option<&'a PyDict>) {
(a, b, c, kwargs)
}
#[pyfunction(a, b = "\"bar\"", args = "*", c = "None", kwargs = "**")]
fn simple_args_kwargs<'a>(
a: i32,
b: &'a str,
args: &'a PyTuple,
c: Option<&'a PyDict>,
kwargs: Option<&'a PyDict>,
) -> (
i32,
&'a str,
&'a PyTuple,
Option<&'a PyDict>,
Option<&'a PyDict>,
) {
(a, b, args, c, kwargs)
}
#[pyfunction(args = "*", kwargs = "**")]
fn args_kwargs<'a>(
args: &'a PyTuple,
kwargs: Option<&'a PyDict>,
) -> (&'a PyTuple, Option<&'a PyDict>) {
(args, kwargs)
}
#[pymodule]
pub fn deprecated_pyfunctions(_py: Python<'_>, m: &PyModule) -> PyResult<()> {
m.add_function(wrap_pyfunction!(none, m)?)?;
m.add_function(wrap_pyfunction!(simple, m)?)?;
m.add_function(wrap_pyfunction!(simple_args, m)?)?;
m.add_function(wrap_pyfunction!(simple_kwargs, m)?)?;
m.add_function(wrap_pyfunction!(simple_args_kwargs, m)?)?;
m.add_function(wrap_pyfunction!(args_kwargs, m)?)?;
Ok(())
}

View File

@ -4,6 +4,7 @@ use pyo3::wrap_pymodule;
pub mod buf_and_str;
pub mod datetime;
pub mod deprecated_pyfunctions;
pub mod dict_iter;
pub mod misc;
pub mod objstore;
@ -20,6 +21,9 @@ fn pyo3_pytests(py: Python<'_>, m: &PyModule) -> PyResult<()> {
m.add_wrapped(wrap_pymodule!(buf_and_str::buf_and_str))?;
#[cfg(not(Py_LIMITED_API))]
m.add_wrapped(wrap_pymodule!(datetime::datetime))?;
m.add_wrapped(wrap_pymodule!(
deprecated_pyfunctions::deprecated_pyfunctions
))?;
m.add_wrapped(wrap_pymodule!(dict_iter::dict_iter))?;
m.add_wrapped(wrap_pymodule!(misc::misc))?;
m.add_wrapped(wrap_pymodule!(objstore::objstore))?;
@ -37,6 +41,10 @@ fn pyo3_pytests(py: Python<'_>, m: &PyModule) -> PyResult<()> {
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.datetime", m.getattr("datetime")?)?;
sys_modules.set_item(
"pyo3_pytests.deprecated_pyfunctions",
m.getattr("deprecated_pyfunctions")?,
)?;
sys_modules.set_item("pyo3_pytests.dict_iter", m.getattr("dict_iter")?)?;
sys_modules.set_item("pyo3_pytests.misc", m.getattr("misc")?)?;
sys_modules.set_item("pyo3_pytests.objstore", m.getattr("objstore")?)?;

View File

@ -1,25 +1,25 @@
use pyo3::prelude::*;
use pyo3::types::{PyDict, PyTuple};
#[pyfunction]
#[pyfunction(signature = ())]
fn none() {}
#[pyfunction(b = "\"bar\"", "*", c = "None")]
#[pyfunction(signature = (a, b = "bar", *, c = None))]
fn simple<'a>(a: i32, b: &'a str, c: Option<&'a PyDict>) -> (i32, &'a str, Option<&'a PyDict>) {
(a, b, c)
}
#[pyfunction(b = "\"bar\"", args = "*", c = "None")]
#[pyfunction(signature = (a, b = "bar", *args, c = None))]
fn simple_args<'a>(
a: i32,
b: &'a str,
c: Option<&'a PyDict>,
args: &'a PyTuple,
c: Option<&'a PyDict>,
) -> (i32, &'a str, &'a PyTuple, Option<&'a PyDict>) {
(a, b, args, c)
}
#[pyfunction(b = "\"bar\"", c = "None", kwargs = "**")]
#[pyfunction(signature = (a, b = "bar", c = None, **kwargs))]
fn simple_kwargs<'a>(
a: i32,
b: &'a str,
@ -29,7 +29,7 @@ fn simple_kwargs<'a>(
(a, b, c, kwargs)
}
#[pyfunction(a, b = "\"bar\"", args = "*", c = "None", kwargs = "**")]
#[pyfunction(signature = (a, b = "bar", *args, c = None, **kwargs))]
fn simple_args_kwargs<'a>(
a: i32,
b: &'a str,
@ -46,7 +46,7 @@ fn simple_args_kwargs<'a>(
(a, b, args, c, kwargs)
}
#[pyfunction(args = "*", kwargs = "**")]
#[pyfunction(signature = (*args, **kwargs))]
fn args_kwargs<'a>(
args: &'a PyTuple,
kwargs: Option<&'a PyDict>,

View File

@ -0,0 +1,91 @@
from pyo3_pytests import deprecated_pyfunctions as pyfunctions
def none_py():
return None
def test_none_py(benchmark):
benchmark(none_py)
def test_none_rs(benchmark):
rust = pyfunctions.none()
py = none_py()
assert rust == py
benchmark(pyfunctions.none)
def simple_py(a, b="bar", *, c=None):
return a, b, c
def test_simple_py(benchmark):
benchmark(simple_py, 1, "foo", c={1: 2})
def test_simple_rs(benchmark):
rust = pyfunctions.simple(1, "foo", c={1: 2})
py = simple_py(1, "foo", c={1: 2})
assert rust == py
benchmark(pyfunctions.simple, 1, "foo", c={1: 2})
def simple_args_py(a, b="bar", *args, c=None):
return a, b, args, c
def test_simple_args_py(benchmark):
benchmark(simple_args_py, 1, "foo", 4, 5, 6, c={1: 2})
def test_simple_args_rs(benchmark):
rust = pyfunctions.simple_args(1, "foo", 4, 5, 6, c={1: 2})
py = simple_args_py(1, "foo", 4, 5, 6, c={1: 2})
assert rust == py
benchmark(pyfunctions.simple_args, 1, "foo", 4, 5, 6, c={1: 2})
def simple_kwargs_py(a, b="bar", c=None, **kwargs):
return a, b, c, kwargs
def test_simple_kwargs_py(benchmark):
benchmark(simple_kwargs_py, 1, "foo", c={1: 2}, bar=4, foo=10)
def test_simple_kwargs_rs(benchmark):
rust = pyfunctions.simple_kwargs(1, "foo", c={1: 2}, bar=4, foo=10)
py = simple_kwargs_py(1, "foo", c={1: 2}, bar=4, foo=10)
assert rust == py
benchmark(pyfunctions.simple_kwargs, 1, "foo", c={1: 2}, bar=4, foo=10)
def simple_args_kwargs_py(a, b="bar", *args, c=None, **kwargs):
return (a, b, args, c, kwargs)
def test_simple_args_kwargs_py(benchmark):
benchmark(simple_args_kwargs_py, 1, "foo", "baz", bar=4, foo=10)
def test_simple_args_kwargs_rs(benchmark):
rust = pyfunctions.simple_args_kwargs(1, "foo", "baz", bar=4, foo=10)
py = simple_args_kwargs_py(1, "foo", "baz", bar=4, foo=10)
assert rust == py
benchmark(pyfunctions.simple_args_kwargs, 1, "foo", "baz", bar=4, foo=10)
def args_kwargs_py(*args, **kwargs):
return (args, kwargs)
def test_args_kwargs_py(benchmark):
benchmark(args_kwargs_py, 1, "foo", {1: 2}, bar=4, foo=10)
def test_args_kwargs_rs(benchmark):
rust = pyfunctions.args_kwargs(1, "foo", {1: 2}, bar=4, foo=10)
py = args_kwargs_py(1, "foo", {1: 2}, bar=4, foo=10)
assert rust == py
benchmark(pyfunctions.args_kwargs, 1, "foo", {1: 2}, a=4, foo=10)

View File

@ -5,3 +5,15 @@
note = "implement a `__traverse__` `#[pymethod]` instead of using `gc` option"
)]
pub const PYCLASS_GC_OPTION: () = ();
#[deprecated(
since = "0.18.0",
note = "passing arbitrary arguments to `#[pyfunction()]` to specify the signature is being replaced by `#[pyo3(signature)]`"
)]
pub const PYFUNCTION_ARGUMENTS: () = ();
#[deprecated(
since = "0.18.0",
note = "the `#[args]` attribute for `#[methods]` is being replaced by `#[pyo3(signature)]`"
)]
pub const PYMETHODS_ARGS_ATTRIBUTE: () = ();

View File

@ -367,13 +367,13 @@ impl Dummy {
// Things with attributes
#[args(x = "1", "*", _z = "2")]
#[pyo3(signature = (_y, *, _z=2))]
fn test(&self, _y: &Dummy, _z: i32) {}
#[staticmethod]
fn staticmethod() {}
#[classmethod]
fn clsmethod(_: &crate::types::PyType) {}
#[args(args = "*", kwds = "**")]
#[pyo3(signature = (*_args, **_kwds))]
fn __call__(
&self,
_args: &crate::types::PyTuple,
@ -766,13 +766,13 @@ impl Dummy {
// Things with attributes
#[args(x = "1", "*", _z = "2")]
#[pyo3(signature = (_y, *, _z=2))]
fn test(&self, _y: &Dummy, _z: i32) {}
#[staticmethod]
fn staticmethod() {}
#[classmethod]
fn clsmethod(_: &crate::types::PyType) {}
#[args(args = "*", kwds = "**")]
#[pyo3(signature = (*_args, **_kwds))]
fn __call__(
&self,
_args: &crate::types::PyTuple,

View File

@ -38,6 +38,7 @@ fn _test_compile_errors() {
t.compile_fail("tests/ui/invalid_pyclass_args.rs");
t.compile_fail("tests/ui/invalid_pyclass_enum.rs");
t.compile_fail("tests/ui/invalid_pyclass_item.rs");
t.compile_fail("tests/ui/invalid_pyfunction_signatures.rs");
#[cfg(not(Py_LIMITED_API))]
t.compile_fail("tests/ui/invalid_pymethods_buffer.rs");
t.compile_fail("tests/ui/invalid_pymethod_names.rs");

View File

@ -34,8 +34,8 @@ set_extends_via_macro!(MyClass2, MyBaseClass);
macro_rules! fn_macro {
($sig:literal, $a_exp:expr, $b_exp:expr, $c_exp: expr) => {
// Try and pass a variable into the extends parameter
#[pyfunction($a_exp, $b_exp, "*", $c_exp)]
// Try and pass a variable into the signature parameter
#[pyfunction(signature = ($a_exp, $b_exp, *, $c_exp))]
#[pyo3(text_signature = $sig)]
fn my_function_in_macro(a: i32, b: Option<i32>, c: i32) {
let _ = (a, b, c);
@ -43,7 +43,7 @@ macro_rules! fn_macro {
};
}
fn_macro!("(a, b=None, *, c=42)", a, b = "None", c = 42);
fn_macro!("(a, b=None, *, c=42)", a, b = None, c = 42);
macro_rules! property_rename_via_macro {
($prop_name:ident) => {

View File

@ -162,22 +162,477 @@ fn static_method_with_args() {
});
}
#[allow(deprecated)]
mod deprecated {
use super::*;
#[pyclass]
struct MethArgs {}
#[pymethods]
impl MethArgs {
#[args(test)]
fn get_optional(&self, test: Option<i32>) -> i32 {
test.unwrap_or(10)
}
fn get_optional2(&self, test: Option<i32>) -> Option<i32> {
test
}
#[args(test = "None")]
fn get_optional3(&self, test: Option<i32>) -> Option<i32> {
test
}
fn get_optional_positional(
&self,
_t1: Option<i32>,
t2: Option<i32>,
_t3: Option<i32>,
) -> Option<i32> {
t2
}
#[args(test = "10")]
fn get_default(&self, test: i32) -> i32 {
test
}
#[args("*", test = 10)]
fn get_kwarg(&self, test: i32) -> i32 {
test
}
#[args(args = "*", kwargs = "**")]
fn get_kwargs(&self, py: Python<'_>, args: &PyTuple, kwargs: Option<&PyDict>) -> PyObject {
[args.into(), kwargs.to_object(py)].to_object(py)
}
#[args(args = "*", kwargs = "**")]
fn get_pos_arg_kw(
&self,
py: Python<'_>,
a: i32,
args: &PyTuple,
kwargs: Option<&PyDict>,
) -> PyObject {
[a.to_object(py), args.into(), kwargs.to_object(py)].to_object(py)
}
#[args(a, b, "/")]
fn get_pos_only(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args(a, "/", b)]
fn get_pos_only_and_pos(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args(a, "/", b, c = 5)]
fn get_pos_only_and_pos_and_kw(&self, a: i32, b: i32, c: i32) -> i32 {
a + b + c
}
#[args(a, "/", "*", b)]
fn get_pos_only_and_kw_only(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args(a, "/", "*", b = 3)]
fn get_pos_only_and_kw_only_with_default(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args(a, "/", b, "*", c, d = 5)]
fn get_all_arg_types_together(&self, a: i32, b: i32, c: i32, d: i32) -> i32 {
a + b + c + d
}
#[args(a, "/", args = "*")]
fn get_pos_only_with_varargs(&self, a: i32, args: Vec<i32>) -> i32 {
a + args.iter().sum::<i32>()
}
#[args(a, "/", kwargs = "**")]
fn get_pos_only_with_kwargs(
&self,
py: Python<'_>,
a: i32,
kwargs: Option<&PyDict>,
) -> PyObject {
[a.to_object(py), kwargs.to_object(py)].to_object(py)
}
#[args("*", a = 2, b = 3)]
fn get_kwargs_only_with_defaults(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args("*", a, b)]
fn get_kwargs_only(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args("*", a = 1, b)]
fn get_kwargs_only_with_some_default(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args(args = "*", a)]
fn get_args_and_required_keyword(
&self,
py: Python<'_>,
args: &PyTuple,
a: i32,
) -> PyObject {
(args, a).to_object(py)
}
#[args(a, b = 2, "*", c = 3)]
fn get_pos_arg_kw_sep1(&self, a: i32, b: i32, c: i32) -> i32 {
a + b + c
}
#[args(a, "*", b = 2, c = 3)]
fn get_pos_arg_kw_sep2(&self, a: i32, b: i32, c: i32) -> i32 {
a + b + c
}
#[args(kwargs = "**")]
fn get_pos_kw(&self, py: Python<'_>, a: i32, kwargs: Option<&PyDict>) -> PyObject {
[a.to_object(py), kwargs.to_object(py)].to_object(py)
}
// "args" can be anything that can be extracted from PyTuple
#[args(args = "*")]
fn args_as_vec(&self, args: Vec<i32>) -> i32 {
args.iter().sum()
}
}
#[test]
fn meth_args() {
Python::with_gil(|py| {
let inst = Py::new(py, MethArgs {}).unwrap();
py_run!(py, inst, "assert inst.get_optional() == 10");
py_run!(py, inst, "assert inst.get_optional(100) == 100");
py_run!(py, inst, "assert inst.get_optional2() == None");
py_run!(py, inst, "assert inst.get_optional2(100) == 100");
py_run!(py, inst, "assert inst.get_optional3() == None");
py_run!(py, inst, "assert inst.get_optional3(100) == 100");
py_run!(
py,
inst,
"assert inst.get_optional_positional(1, 2, 3) == 2"
);
py_run!(py, inst, "assert inst.get_optional_positional(1) == None");
py_run!(py, inst, "assert inst.get_default() == 10");
py_run!(py, inst, "assert inst.get_default(100) == 100");
py_run!(py, inst, "assert inst.get_kwarg() == 10");
py_expect_exception!(py, inst, "inst.get_kwarg(100)", PyTypeError);
py_run!(py, inst, "assert inst.get_kwarg(test=100) == 100");
py_run!(py, inst, "assert inst.get_kwargs() == [(), None]");
py_run!(py, inst, "assert inst.get_kwargs(1,2,3) == [(1,2,3), None]");
py_run!(
py,
inst,
"assert inst.get_kwargs(t=1,n=2) == [(), {'t': 1, 'n': 2}]"
);
py_run!(
py,
inst,
"assert inst.get_kwargs(1,2,3,t=1,n=2) == [(1,2,3), {'t': 1, 'n': 2}]"
);
py_run!(py, inst, "assert inst.get_pos_arg_kw(1) == [1, (), None]");
py_run!(
py,
inst,
"assert inst.get_pos_arg_kw(1, 2, 3) == [1, (2, 3), None]"
);
py_run!(
py,
inst,
"assert inst.get_pos_arg_kw(1, b=2) == [1, (), {'b': 2}]"
);
py_run!(py, inst, "assert inst.get_pos_arg_kw(a=1) == [1, (), None]");
py_expect_exception!(py, inst, "inst.get_pos_arg_kw()", PyTypeError);
py_expect_exception!(py, inst, "inst.get_pos_arg_kw(1, a=1)", PyTypeError);
py_expect_exception!(py, inst, "inst.get_pos_arg_kw(b=2)", PyTypeError);
py_run!(py, inst, "assert inst.get_pos_only(10, 11) == 21");
py_expect_exception!(py, inst, "inst.get_pos_only(10, b = 11)", PyTypeError);
py_expect_exception!(py, inst, "inst.get_pos_only(a = 10, b = 11)", PyTypeError);
py_run!(py, inst, "assert inst.get_pos_only_and_pos(10, 11) == 21");
py_run!(
py,
inst,
"assert inst.get_pos_only_and_pos(10, b = 11) == 21"
);
py_expect_exception!(
py,
inst,
"inst.get_pos_only_and_pos(a = 10, b = 11)",
PyTypeError
);
py_run!(
py,
inst,
"assert inst.get_pos_only_and_pos_and_kw(10, 11) == 26"
);
py_run!(
py,
inst,
"assert inst.get_pos_only_and_pos_and_kw(10, b = 11) == 26"
);
py_run!(
py,
inst,
"assert inst.get_pos_only_and_pos_and_kw(10, 11, c = 0) == 21"
);
py_run!(
py,
inst,
"assert inst.get_pos_only_and_pos_and_kw(10, b = 11, c = 0) == 21"
);
py_expect_exception!(
py,
inst,
"inst.get_pos_only_and_pos_and_kw(a = 10, b = 11)",
PyTypeError
);
py_run!(
py,
inst,
"assert inst.get_pos_only_and_kw_only(10, b = 11) == 21"
);
py_expect_exception!(
py,
inst,
"inst.get_pos_only_and_kw_only(10, 11)",
PyTypeError
);
py_expect_exception!(
py,
inst,
"inst.get_pos_only_and_kw_only(a = 10, b = 11)",
PyTypeError
);
py_run!(
py,
inst,
"assert inst.get_pos_only_and_kw_only_with_default(10) == 13"
);
py_run!(
py,
inst,
"assert inst.get_pos_only_and_kw_only_with_default(10, b = 11) == 21"
);
py_expect_exception!(
py,
inst,
"inst.get_pos_only_and_kw_only_with_default(10, 11)",
PyTypeError
);
py_expect_exception!(
py,
inst,
"inst.get_pos_only_and_kw_only_with_default(a = 10, b = 11)",
PyTypeError
);
py_run!(
py,
inst,
"assert inst.get_all_arg_types_together(10, 10, c = 10) == 35"
);
py_run!(
py,
inst,
"assert inst.get_all_arg_types_together(10, 10, c = 10, d = 10) == 40"
);
py_run!(
py,
inst,
"assert inst.get_all_arg_types_together(10, b = 10, c = 10, d = 10) == 40"
);
py_expect_exception!(
py,
inst,
"inst.get_all_arg_types_together(10, 10, 10)",
PyTypeError
);
py_expect_exception!(
py,
inst,
"inst.get_all_arg_types_together(a = 10, b = 10, c = 10)",
PyTypeError
);
py_run!(py, inst, "assert inst.get_pos_only_with_varargs(10) == 10");
py_run!(
py,
inst,
"assert inst.get_pos_only_with_varargs(10, 10) == 20"
);
py_run!(
py,
inst,
"assert inst.get_pos_only_with_varargs(10, 10, 10, 10, 10) == 50"
);
py_expect_exception!(
py,
inst,
"inst.get_pos_only_with_varargs(a = 10)",
PyTypeError
);
py_run!(
py,
inst,
"assert inst.get_pos_only_with_kwargs(10) == [10, None]"
);
py_run!(
py,
inst,
"assert inst.get_pos_only_with_kwargs(10, b = 10) == [10, {'b': 10}]"
);
py_run!(
py,
inst,
"assert inst.get_pos_only_with_kwargs(10, b = 10, c = 10, d = 10, e = 10) == [10, {'b': 10, 'c': 10, 'd': 10, 'e': 10}]"
);
py_expect_exception!(
py,
inst,
"inst.get_pos_only_with_kwargs(a = 10)",
PyTypeError
);
py_expect_exception!(
py,
inst,
"inst.get_pos_only_with_kwargs(a = 10, b = 10)",
PyTypeError
);
py_run!(py, inst, "assert inst.get_kwargs_only_with_defaults() == 5");
py_run!(
py,
inst,
"assert inst.get_kwargs_only_with_defaults(a = 8) == 11"
);
py_run!(
py,
inst,
"assert inst.get_kwargs_only_with_defaults(b = 8) == 10"
);
py_run!(
py,
inst,
"assert inst.get_kwargs_only_with_defaults(a = 1, b = 1) == 2"
);
py_run!(
py,
inst,
"assert inst.get_kwargs_only_with_defaults(b = 1, a = 1) == 2"
);
py_run!(py, inst, "assert inst.get_kwargs_only(a = 1, b = 1) == 2");
py_run!(py, inst, "assert inst.get_kwargs_only(b = 1, a = 1) == 2");
py_run!(
py,
inst,
"assert inst.get_kwargs_only_with_some_default(a = 2, b = 1) == 3"
);
py_run!(
py,
inst,
"assert inst.get_kwargs_only_with_some_default(b = 1) == 2"
);
py_run!(
py,
inst,
"assert inst.get_kwargs_only_with_some_default(b = 1, a = 2) == 3"
);
py_expect_exception!(
py,
inst,
"inst.get_kwargs_only_with_some_default()",
PyTypeError
);
py_run!(
py,
inst,
"assert inst.get_args_and_required_keyword(1, 2, a=3) == ((1, 2), 3)"
);
py_run!(
py,
inst,
"assert inst.get_args_and_required_keyword(a=1) == ((), 1)"
);
py_expect_exception!(
py,
inst,
"inst.get_args_and_required_keyword()",
PyTypeError
);
py_run!(py, inst, "assert inst.get_pos_arg_kw_sep1(1) == 6");
py_run!(py, inst, "assert inst.get_pos_arg_kw_sep1(1, 2) == 6");
py_run!(
py,
inst,
"assert inst.get_pos_arg_kw_sep1(1, 2, c=13) == 16"
);
py_run!(
py,
inst,
"assert inst.get_pos_arg_kw_sep1(a=1, b=2, c=13) == 16"
);
py_run!(
py,
inst,
"assert inst.get_pos_arg_kw_sep1(b=2, c=13, a=1) == 16"
);
py_run!(
py,
inst,
"assert inst.get_pos_arg_kw_sep1(c=13, b=2, a=1) == 16"
);
py_expect_exception!(py, inst, "inst.get_pos_arg_kw_sep1(1, 2, 3)", PyTypeError);
py_run!(py, inst, "assert inst.get_pos_arg_kw_sep2(1) == 6");
py_run!(
py,
inst,
"assert inst.get_pos_arg_kw_sep2(1, b=12, c=13) == 26"
);
py_expect_exception!(py, inst, "inst.get_pos_arg_kw_sep2(1, 2)", PyTypeError);
py_run!(py, inst, "assert inst.get_pos_kw(1, b=2) == [1, {'b': 2}]");
py_expect_exception!(py, inst, "inst.get_pos_kw(1,2)", PyTypeError);
py_run!(py, inst, "assert inst.args_as_vec(1,2,3) == 6");
});
}
}
#[pyclass]
struct MethArgs {}
struct MethSignature {}
#[pymethods]
impl MethArgs {
#[args(test)]
impl MethSignature {
#[pyo3(signature = (test = None))]
fn get_optional(&self, test: Option<i32>) -> i32 {
test.unwrap_or(10)
}
#[pyo3(signature = (test = None))]
fn get_optional2(&self, test: Option<i32>) -> Option<i32> {
test
}
#[args(test = "None")]
fn get_optional3(&self, test: Option<i32>) -> Option<i32> {
test
}
fn get_optional_positional(
&self,
_t1: Option<i32>,
@ -187,20 +642,20 @@ impl MethArgs {
t2
}
#[args(test = "10")]
#[pyo3(signature = (test = 10))]
fn get_default(&self, test: i32) -> i32 {
test
}
#[args("*", test = 10)]
#[pyo3(signature = (*, test = 10))]
fn get_kwarg(&self, test: i32) -> i32 {
test
}
#[args(args = "*", kwargs = "**")]
#[pyo3(signature = (*args, **kwargs))]
fn get_kwargs(&self, py: Python<'_>, args: &PyTuple, kwargs: Option<&PyDict>) -> PyObject {
[args.into(), kwargs.to_object(py)].to_object(py)
}
#[args(args = "*", kwargs = "**")]
#[pyo3(signature = (a, *args, **kwargs))]
fn get_pos_arg_kw(
&self,
py: Python<'_>,
@ -211,42 +666,42 @@ impl MethArgs {
[a.to_object(py), args.into(), kwargs.to_object(py)].to_object(py)
}
#[args(a, b, "/")]
#[pyo3(signature = (a, b, /))]
fn get_pos_only(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args(a, "/", b)]
#[pyo3(signature = (a, /, b))]
fn get_pos_only_and_pos(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args(a, "/", b, c = 5)]
#[pyo3(signature = (a, /, b, c = 5))]
fn get_pos_only_and_pos_and_kw(&self, a: i32, b: i32, c: i32) -> i32 {
a + b + c
}
#[args(a, "/", "*", b)]
#[pyo3(signature = (a, /, *, b))]
fn get_pos_only_and_kw_only(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args(a, "/", "*", b = 3)]
#[pyo3(signature = (a, /, *, b = 3))]
fn get_pos_only_and_kw_only_with_default(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args(a, "/", b, "*", c, d = 5)]
#[pyo3(signature = (a, /, b, *, c, d = 5))]
fn get_all_arg_types_together(&self, a: i32, b: i32, c: i32, d: i32) -> i32 {
a + b + c + d
}
#[args(a, "/", args = "*")]
#[pyo3(signature = (a, /, *args))]
fn get_pos_only_with_varargs(&self, a: i32, args: Vec<i32>) -> i32 {
a + args.iter().sum::<i32>()
}
#[args(a, "/", kwargs = "**")]
#[pyo3(signature = (a, /, **kwargs))]
fn get_pos_only_with_kwargs(
&self,
py: Python<'_>,
@ -256,58 +711,57 @@ impl MethArgs {
[a.to_object(py), kwargs.to_object(py)].to_object(py)
}
#[args("*", a = 2, b = 3)]
#[pyo3(signature = (*, a = 2, b = 3))]
fn get_kwargs_only_with_defaults(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args("*", a, b)]
#[pyo3(signature = (*, a, b))]
fn get_kwargs_only(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args("*", a = 1, b)]
#[pyo3(signature = (*, a = 1, b))]
fn get_kwargs_only_with_some_default(&self, a: i32, b: i32) -> i32 {
a + b
}
#[args(args = "*", a)]
#[pyo3(signature = (*args, a))]
fn get_args_and_required_keyword(&self, py: Python<'_>, args: &PyTuple, a: i32) -> PyObject {
(args, a).to_object(py)
}
#[args(a, b = 2, "*", c = 3)]
#[pyo3(signature = (a, b = 2, *, c = 3))]
fn get_pos_arg_kw_sep1(&self, a: i32, b: i32, c: i32) -> i32 {
a + b + c
}
#[args(a, "*", b = 2, c = 3)]
#[pyo3(signature = (a, *, b = 2, c = 3))]
fn get_pos_arg_kw_sep2(&self, a: i32, b: i32, c: i32) -> i32 {
a + b + c
}
#[args(kwargs = "**")]
#[pyo3(signature = (a, **kwargs))]
fn get_pos_kw(&self, py: Python<'_>, a: i32, kwargs: Option<&PyDict>) -> PyObject {
[a.to_object(py), kwargs.to_object(py)].to_object(py)
}
// "args" can be anything that can be extracted from PyTuple
#[args(args = "*")]
#[pyo3(signature = (*args))]
fn args_as_vec(&self, args: Vec<i32>) -> i32 {
args.iter().sum()
}
}
#[test]
fn meth_args() {
fn meth_signature() {
Python::with_gil(|py| {
let inst = Py::new(py, MethArgs {}).unwrap();
let inst = Py::new(py, MethSignature {}).unwrap();
py_run!(py, inst, "assert inst.get_optional() == 10");
py_run!(py, inst, "assert inst.get_optional(100) == 100");
py_run!(py, inst, "assert inst.get_optional2() == None");
py_run!(py, inst, "assert inst.get_optional2(100) == 100");
py_run!(py, inst, "assert inst.get_optional3() == None");
py_run!(py, inst, "assert inst.get_optional3(100) == 100");
py_run!(
py,
inst,
@ -890,6 +1344,11 @@ impl r#RawIdents {
#[classattr]
const r#CLASS_ATTR_CONST: i32 = 6;
#[pyo3(signature = (r#struct = "foo"))]
fn method_with_keyword<'a>(&self, r#struct: &'a str) -> &'a str {
r#struct
}
}
#[test]
@ -923,6 +1382,10 @@ fn test_raw_idents() {
assert raw_idents_type.class_attr_fn == 5
assert raw_idents_type.CLASS_ATTR_CONST == 6
assert instance.method_with_keyword() == "foo"
assert instance.method_with_keyword("bar") == "bar"
assert instance.method_with_keyword(struct="baz") == "baz"
"#
);
})
@ -1038,7 +1501,7 @@ fn test_option_pyclass_arg() {
#[pyclass]
struct SomePyClass {}
#[pyfunction(arg = "None")]
#[pyfunction(signature = (arg=None))]
fn option_class_arg(arg: Option<&SomePyClass>) -> Option<SomePyClass> {
arg.map(|_| SomePyClass {})
}

View File

@ -291,16 +291,16 @@ fn test_module_nesting() {
// 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)
#[pyfunction(signature = (a=5, *args))]
fn ext_vararg_fn(py: Python<'_>, a: i32, args: &PyTuple) -> PyObject {
[a.to_object(py), args.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)
#[pyfn(m, signature = (a=5, *args))]
fn int_vararg_fn(py: Python<'_>, a: i32, args: &PyTuple) -> PyObject {
ext_vararg_fn(py, a, args)
}
m.add_function(wrap_pyfunction!(ext_vararg_fn, m)?).unwrap();
@ -361,7 +361,7 @@ fn pyfunction_with_module_and_arg(module: &PyModule, string: String) -> PyResult
module.name().map(|s| (s, string))
}
#[pyfunction(string = "\"foo\"")]
#[pyfunction(signature = (string="foo"))]
#[pyo3(pass_module)]
fn pyfunction_with_module_and_default_arg<'a>(
module: &'a PyModule,
@ -370,7 +370,7 @@ fn pyfunction_with_module_and_default_arg<'a>(
module.name().map(|s| (s, string.into()))
}
#[pyfunction(args = "*", kwargs = "**")]
#[pyfunction(signature = (*args, **kwargs))]
#[pyo3(pass_module)]
fn pyfunction_with_module_and_args_kwargs<'a>(
module: &'a PyModule,

View File

@ -11,7 +11,7 @@ use pyo3::types::{self, PyCFunction};
mod common;
#[pyfunction(arg = "true")]
#[pyfunction(signature = (arg = true))]
fn optional_bool(arg: Option<bool>) -> String {
format!("{:?}", arg)
}
@ -181,7 +181,7 @@ fn test_from_py_with_defaults() {
int.unwrap_or(0)
}
#[pyfunction(len = "0")]
#[pyfunction(signature = (len=0))]
fn from_py_with_default(#[pyo3(from_py_with = "PyAny::len")] len: usize) -> usize {
len
}

View File

@ -46,7 +46,7 @@ fn class_with_docs_and_signature() {
#[pymethods]
impl MyClass {
#[new]
#[args(a, b = "None", "*", c = 42)]
#[pyo3(signature = (a, b=None, *, c=42))]
fn __new__(a: i32, b: Option<i32>, c: i32) -> Self {
let _ = (a, b, c);
Self {}
@ -79,7 +79,7 @@ fn class_with_signature() {
#[pymethods]
impl MyClass {
#[new]
#[args(a, b = "None", "*", c = 42)]
#[pyo3(signature = (a, b=None, *, c=42))]
fn __new__(a: i32, b: Option<i32>, c: i32) -> Self {
let _ = (a, b, c);
Self {}
@ -104,7 +104,7 @@ fn class_with_signature() {
#[test]
fn test_function() {
#[pyfunction(a, b = "None", "*", c = 42)]
#[pyfunction(signature = (a, b=None, *, c=42))]
#[pyo3(text_signature = "(a, b=None, *, c=42)")]
fn my_function(a: i32, b: Option<i32>, c: i32) {
let _ = (a, b, c);
@ -121,7 +121,7 @@ fn test_function() {
fn test_pyfn() {
#[pymodule]
fn my_module(_py: Python<'_>, m: &PyModule) -> PyResult<()> {
#[pyfn(m, a, b = "None", "*", c = 42)]
#[pyfn(m, signature = (a, b=None, *, c=42))]
#[pyo3(text_signature = "(a, b=None, *, c=42)")]
fn my_function(a: i32, b: Option<i32>, c: i32) {
let _ = (a, b, c);

View File

@ -11,13 +11,13 @@ struct MyClass {}
#[pymethods]
impl MyClass {
#[staticmethod]
#[args(args = "*")]
#[pyo3(signature = (*args))]
fn test_args(args: &PyTuple) -> &PyTuple {
args
}
#[staticmethod]
#[args(kwargs = "**")]
#[pyo3(signature = (**kwargs))]
fn test_kwargs(kwargs: Option<&PyDict>) -> Option<&PyDict> {
kwargs
}

View File

@ -0,0 +1,49 @@
#![cfg(feature = "macros")]
#![allow(deprecated)]
use pyo3::prelude::*;
use pyo3::types::{PyDict, PyTuple};
mod common;
#[pyclass]
struct MyClass {}
#[pymethods]
impl MyClass {
#[staticmethod]
#[args(args = "*")]
fn test_args(args: &PyTuple) -> &PyTuple {
args
}
#[staticmethod]
#[args(kwargs = "**")]
fn test_kwargs(kwargs: Option<&PyDict>) -> Option<&PyDict> {
kwargs
}
}
#[test]
fn variable_args() {
Python::with_gil(|py| {
let my_obj = py.get_type::<MyClass>();
py_assert!(py, my_obj, "my_obj.test_args() == ()");
py_assert!(py, my_obj, "my_obj.test_args(1) == (1,)");
py_assert!(py, my_obj, "my_obj.test_args(1, 2) == (1, 2)");
});
}
#[test]
fn variable_kwargs() {
Python::with_gil(|py| {
let my_obj = py.get_type::<MyClass>();
py_assert!(py, my_obj, "my_obj.test_kwargs() == None");
py_assert!(py, my_obj, "my_obj.test_kwargs(test=1) == {'test': 1}");
py_assert!(
py,
my_obj,
"my_obj.test_kwargs(test1=1, test2=2) == {'test1':1, 'test2':2}"
);
});
}

View File

@ -5,6 +5,18 @@ use pyo3::prelude::*;
#[pyclass(gc)]
struct DeprecatedGc;
fn main() {
#[pyfunction(_opt = "None", x = "5")]
fn function_with_args(_opt: Option<i32>, _x: i32) {}
#[pyclass]
struct MyClass;
#[pymethods]
impl MyClass {
#[args(_opt = "None", x = "5")]
fn function_with_args(&self, _opt: Option<i32>, _x: i32) {}
}
fn main() {
function_with_args(None, 0);
}

View File

@ -1,11 +1,23 @@
error: use of deprecated constant `pyo3::impl_::deprecations::PYCLASS_GC_OPTION`: implement a `__traverse__` `#[pymethod]` instead of using `gc` option
--> tests/ui/deprecations.rs:5:11
error: use of deprecated constant `pyo3::impl_::deprecations::PYFUNCTION_ARGUMENTS`: passing arbitrary arguments to `#[pyfunction()]` to specify the signature is being replaced by `#[pyo3(signature)]`
--> tests/ui/deprecations.rs:8:14
|
5 | #[pyclass(gc)]
| ^^
8 | #[pyfunction(_opt = "None", x = "5")]
| ^^^^
|
note: the lint level is defined here
--> tests/ui/deprecations.rs:1:9
|
1 | #![deny(deprecated)]
| ^^^^^^^^^^
error: use of deprecated constant `pyo3::impl_::deprecations::PYCLASS_GC_OPTION`: implement a `__traverse__` `#[pymethod]` instead of using `gc` option
--> tests/ui/deprecations.rs:5:11
|
5 | #[pyclass(gc)]
| ^^
error: use of deprecated constant `pyo3::impl_::deprecations::PYMETHODS_ARGS_ATTRIBUTE`: the `#[args]` attribute for `#[methods]` is being replaced by `#[pyo3(signature)]`
--> tests/ui/deprecations.rs:16:12
|
16 | #[args(_opt = "None", x = "5")]
| ^^^^

View File

@ -0,0 +1,59 @@
use pyo3::prelude::*;
use pyo3::types::{PyDict, PyTuple};
#[pyfunction]
#[pyo3(signature = ())]
fn function_with_one_argument_empty_signature(_x: i32) {}
#[pyfunction]
#[pyo3(signature = (x))]
fn function_with_one_entry_signature_no_args() {}
#[pyfunction]
#[pyo3(signature = (x))]
fn function_with_incorrect_argument_names(y: i32) {
let _ = y;
}
#[pyfunction(x)]
#[pyo3(signature = (x))]
fn function_with_both_args_and_signature(x: i32) {
let _ = x;
}
#[pyfunction]
#[pyo3(signature = (*, *args))]
fn function_with_args_after_args_sep(args: &PyTuple) {
let _ = args;
}
#[pyfunction]
#[pyo3(signature = (*, *))]
fn function_with_args_sep_after_args_sep() {}
#[pyfunction]
#[pyo3(signature = (**kwargs, *args))]
fn function_with_args_after_kwargs(kwargs: Option<&PyDict>, args: &PyTuple) {
let _ = args;
}
#[pyfunction]
#[pyo3(signature = (**kwargs_a, **kwargs_b))]
fn function_with_kwargs_after_kwargs(kwargs_a: Option<&PyDict>, kwargs_b: Option<&PyDict>) {
let _ = kwargs_a;
let _ = kwargs_b;
}
#[pyclass]
struct MyClass;
#[pymethods]
impl MyClass {
#[args(x)]
#[pyo3(signature = (x))]
fn method_with_both_args_and_signature(&self, x: i32) {
let _ = x;
}
}
fn main() {}

View File

@ -0,0 +1,53 @@
error: missing signature entry for argument `_x`
--> tests/ui/invalid_pyfunction_signatures.rs:5:8
|
5 | #[pyo3(signature = ())]
| ^^^^^^^^^
error: signature entry does not have a corresponding function argument
--> tests/ui/invalid_pyfunction_signatures.rs:9:21
|
9 | #[pyo3(signature = (x))]
| ^
error: expected argument from function definition `y` but got argument `x`
--> tests/ui/invalid_pyfunction_signatures.rs:13:21
|
13 | #[pyo3(signature = (x))]
| ^
error: cannot define both function signature and legacy arguments
--> tests/ui/invalid_pyfunction_signatures.rs:19:8
|
19 | #[pyo3(signature = (x))]
| ^^^^^^^^^
error: `*args` not allowed after `*`
--> tests/ui/invalid_pyfunction_signatures.rs:25:24
|
25 | #[pyo3(signature = (*, *args))]
| ^
error: `*` not allowed after `*`
--> tests/ui/invalid_pyfunction_signatures.rs:31:24
|
31 | #[pyo3(signature = (*, *))]
| ^
error: `*args` not allowed after `**kwargs`
--> tests/ui/invalid_pyfunction_signatures.rs:35:31
|
35 | #[pyo3(signature = (**kwargs, *args))]
| ^
error: `**kwargs_b` not allowed after `**kwargs_a`
--> tests/ui/invalid_pyfunction_signatures.rs:41:33
|
41 | #[pyo3(signature = (**kwargs_a, **kwargs_b))]
| ^
error: cannot define both function signature and legacy arguments
--> tests/ui/invalid_pyfunction_signatures.rs:53:12
|
53 | #[pyo3(signature = (x))]
| ^^^^^^^^^

View File

@ -113,12 +113,6 @@ impl MyClass {
fn method_cannot_pass_module(&self, m: &PyModule) {}
}
#[pymethods]
impl MyClass {
#[args(has_default = "1")]
fn default_arg_before_required(&self, has_default: isize, required: isize) {}
}
#[pymethods]
impl MyClass {
fn method_self_by_value(self){}

View File

@ -104,15 +104,15 @@ error: `pass_module` cannot be used on Python methods
error: Python objects are shared, so 'self' cannot be moved out of the Python interpreter.
Try `&self`, `&mut self, `slf: PyRef<'_, Self>` or `slf: PyRefMut<'_, Self>`.
--> tests/ui/invalid_pymethods.rs:124:29
--> tests/ui/invalid_pymethods.rs:118:29
|
124 | fn method_self_by_value(self){}
118 | fn method_self_by_value(self){}
| ^^^^
error[E0201]: duplicate definitions with name `__pymethod___new____`:
--> tests/ui/invalid_pymethods.rs:129:1
--> tests/ui/invalid_pymethods.rs:123:1
|
129 | #[pymethods]
123 | #[pymethods]
| ^^^^^^^^^^^^
| |
| previous definition of `__pymethod___new____` here
@ -121,9 +121,9 @@ error[E0201]: duplicate definitions with name `__pymethod___new____`:
= note: this error originates in the attribute macro `pymethods` (in Nightly builds, run with -Z macro-backtrace for more info)
error[E0201]: duplicate definitions with name `__pymethod_func__`:
--> tests/ui/invalid_pymethods.rs:140:1
--> tests/ui/invalid_pymethods.rs:134:1
|
140 | #[pymethods]
134 | #[pymethods]
| ^^^^^^^^^^^^
| |
| previous definition of `__pymethod_func__` here