use std::borrow::Cow;
use std::fmt::Debug;
use proc_macro2::{Ident, Span, TokenStream};
use quote::{format_ident, quote, quote_spanned, ToTokens};
use syn::ext::IdentExt;
use syn::parse::{Parse, ParseStream};
use syn::punctuated::Punctuated;
use syn::{parse_quote, parse_quote_spanned, spanned::Spanned, ImplItemFn, Result, Token};
use crate::attributes::kw::frozen;
use crate::attributes::{
self, kw, take_pyo3_options, CrateAttribute, ErrorCombiner, ExtendsAttribute,
FreelistAttribute, ModuleAttribute, NameAttribute, NameLitStr, RenameAllAttribute,
StrFormatterAttribute,
};
use crate::konst::{ConstAttributes, ConstSpec};
use crate::method::{FnArg, FnSpec, PyArg, RegularArg};
use crate::pyfunction::ConstructorAttribute;
use crate::pyimpl::{gen_py_const, get_cfg_attributes, PyClassMethodsType};
use crate::pymethod::{
impl_py_getter_def, impl_py_setter_def, MethodAndMethodDef, MethodAndSlotDef, PropertyType,
SlotDef, __GETITEM__, __HASH__, __INT__, __LEN__, __REPR__, __RICHCMP__, __STR__,
};
use crate::pyversions::is_abi3_before;
use crate::utils::{self, apply_renaming_rule, Ctx, LitCStr, PythonDoc};
use crate::PyFunctionOptions;
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
pub enum PyClassKind {
Struct,
Enum,
}
#[derive(Clone)]
pub struct PyClassArgs {
pub class_kind: PyClassKind,
pub options: PyClassPyO3Options,
}
impl PyClassArgs {
fn parse(input: ParseStream<'_>, kind: PyClassKind) -> Result<Self> {
Ok(PyClassArgs {
class_kind: kind,
options: PyClassPyO3Options::parse(input)?,
})
}
pub fn parse_struct_args(input: ParseStream<'_>) -> syn::Result<Self> {
Self::parse(input, PyClassKind::Struct)
}
pub fn parse_enum_args(input: ParseStream<'_>) -> syn::Result<Self> {
Self::parse(input, PyClassKind::Enum)
}
}
#[derive(Clone, Default)]
pub struct PyClassPyO3Options {
pub krate: Option<CrateAttribute>,
pub dict: Option<kw::dict>,
pub eq: Option<kw::eq>,
pub eq_int: Option<kw::eq_int>,
pub extends: Option<ExtendsAttribute>,
pub get_all: Option<kw::get_all>,
pub freelist: Option<FreelistAttribute>,
pub frozen: Option<kw::frozen>,
pub hash: Option<kw::hash>,
pub mapping: Option<kw::mapping>,
pub module: Option<ModuleAttribute>,
pub name: Option<NameAttribute>,
pub ord: Option<kw::ord>,
pub rename_all: Option<RenameAllAttribute>,
pub sequence: Option<kw::sequence>,
pub set_all: Option<kw::set_all>,
pub str: Option<StrFormatterAttribute>,
pub subclass: Option<kw::subclass>,
pub unsendable: Option<kw::unsendable>,
pub weakref: Option<kw::weakref>,
}
pub enum PyClassPyO3Option {
Crate(CrateAttribute),
Dict(kw::dict),
Eq(kw::eq),
EqInt(kw::eq_int),
Extends(ExtendsAttribute),
Freelist(FreelistAttribute),
Frozen(kw::frozen),
GetAll(kw::get_all),
Hash(kw::hash),
Mapping(kw::mapping),
Module(ModuleAttribute),
Name(NameAttribute),
Ord(kw::ord),
RenameAll(RenameAllAttribute),
Sequence(kw::sequence),
SetAll(kw::set_all),
Str(StrFormatterAttribute),
Subclass(kw::subclass),
Unsendable(kw::unsendable),
Weakref(kw::weakref),
}
impl Parse for PyClassPyO3Option {
fn parse(input: ParseStream<'_>) -> Result<Self> {
let lookahead = input.lookahead1();
if lookahead.peek(Token![crate]) {
input.parse().map(PyClassPyO3Option::Crate)
} else if lookahead.peek(kw::dict) {
input.parse().map(PyClassPyO3Option::Dict)
} else if lookahead.peek(kw::eq) {
input.parse().map(PyClassPyO3Option::Eq)
} else if lookahead.peek(kw::eq_int) {
input.parse().map(PyClassPyO3Option::EqInt)
} else if lookahead.peek(kw::extends) {
input.parse().map(PyClassPyO3Option::Extends)
} else if lookahead.peek(attributes::kw::freelist) {
input.parse().map(PyClassPyO3Option::Freelist)
} else if lookahead.peek(attributes::kw::frozen) {
input.parse().map(PyClassPyO3Option::Frozen)
} else if lookahead.peek(attributes::kw::get_all) {
input.parse().map(PyClassPyO3Option::GetAll)
} else if lookahead.peek(attributes::kw::hash) {
input.parse().map(PyClassPyO3Option::Hash)
} else if lookahead.peek(attributes::kw::mapping) {
input.parse().map(PyClassPyO3Option::Mapping)
} else if lookahead.peek(attributes::kw::module) {
input.parse().map(PyClassPyO3Option::Module)
} else if lookahead.peek(kw::name) {
input.parse().map(PyClassPyO3Option::Name)
} else if lookahead.peek(attributes::kw::ord) {
input.parse().map(PyClassPyO3Option::Ord)
} else if lookahead.peek(kw::rename_all) {
input.parse().map(PyClassPyO3Option::RenameAll)
} else if lookahead.peek(attributes::kw::sequence) {
input.parse().map(PyClassPyO3Option::Sequence)
} else if lookahead.peek(attributes::kw::set_all) {
input.parse().map(PyClassPyO3Option::SetAll)
} else if lookahead.peek(attributes::kw::str) {
input.parse().map(PyClassPyO3Option::Str)
} else if lookahead.peek(attributes::kw::subclass) {
input.parse().map(PyClassPyO3Option::Subclass)
} else if lookahead.peek(attributes::kw::unsendable) {
input.parse().map(PyClassPyO3Option::Unsendable)
} else if lookahead.peek(attributes::kw::weakref) {
input.parse().map(PyClassPyO3Option::Weakref)
} else {
Err(lookahead.error())
}
}
}
impl Parse for PyClassPyO3Options {
fn parse(input: ParseStream<'_>) -> syn::Result<Self> {
let mut options: PyClassPyO3Options = Default::default();
for option in Punctuated::<PyClassPyO3Option, syn::Token![,]>::parse_terminated(input)? {
options.set_option(option)?;
}
Ok(options)
}
}
impl PyClassPyO3Options {
pub fn take_pyo3_options(&mut self, attrs: &mut Vec<syn::Attribute>) -> syn::Result<()> {
take_pyo3_options(attrs)?
.into_iter()
.try_for_each(|option| self.set_option(option))
}
fn set_option(&mut self, option: PyClassPyO3Option) -> syn::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);
}
};
}
match option {
PyClassPyO3Option::Crate(krate) => set_option!(krate),
PyClassPyO3Option::Dict(dict) => {
ensure_spanned!(
!is_abi3_before(3, 9),
dict.span() => "`dict` requires Python >= 3.9 when using the `abi3` feature"
);
set_option!(dict);
}
PyClassPyO3Option::Eq(eq) => set_option!(eq),
PyClassPyO3Option::EqInt(eq_int) => set_option!(eq_int),
PyClassPyO3Option::Extends(extends) => set_option!(extends),
PyClassPyO3Option::Freelist(freelist) => set_option!(freelist),
PyClassPyO3Option::Frozen(frozen) => set_option!(frozen),
PyClassPyO3Option::GetAll(get_all) => set_option!(get_all),
PyClassPyO3Option::Hash(hash) => set_option!(hash),
PyClassPyO3Option::Mapping(mapping) => set_option!(mapping),
PyClassPyO3Option::Module(module) => set_option!(module),
PyClassPyO3Option::Name(name) => set_option!(name),
PyClassPyO3Option::Ord(ord) => set_option!(ord),
PyClassPyO3Option::RenameAll(rename_all) => set_option!(rename_all),
PyClassPyO3Option::Sequence(sequence) => set_option!(sequence),
PyClassPyO3Option::SetAll(set_all) => set_option!(set_all),
PyClassPyO3Option::Str(str) => set_option!(str),
PyClassPyO3Option::Subclass(subclass) => set_option!(subclass),
PyClassPyO3Option::Unsendable(unsendable) => set_option!(unsendable),
PyClassPyO3Option::Weakref(weakref) => {
ensure_spanned!(
!is_abi3_before(3, 9),
weakref.span() => "`weakref` requires Python >= 3.9 when using the `abi3` feature"
);
set_option!(weakref);
}
}
Ok(())
}
}
pub fn build_py_class(
class: &mut syn::ItemStruct,
mut args: PyClassArgs,
methods_type: PyClassMethodsType,
) -> syn::Result<TokenStream> {
args.options.take_pyo3_options(&mut class.attrs)?;
let ctx = &Ctx::new(&args.options.krate, None);
let doc = utils::get_doc(&class.attrs, None, ctx);
if let Some(lt) = class.generics.lifetimes().next() {
bail_spanned!(
lt.span() => concat!(
"#[pyclass] cannot have lifetime parameters. For an explanation, see \
https://pyo3.rs/v", env!("CARGO_PKG_VERSION"), "/class.html#no-lifetime-parameters"
)
);
}
ensure_spanned!(
class.generics.params.is_empty(),
class.generics.span() => concat!(
"#[pyclass] cannot have generic parameters. For an explanation, see \
https://pyo3.rs/v", env!("CARGO_PKG_VERSION"), "/class.html#no-generic-parameters"
)
);
let mut all_errors = ErrorCombiner(None);
let mut field_options: Vec<(&syn::Field, FieldPyO3Options)> = match &mut class.fields {
syn::Fields::Named(fields) => fields
.named
.iter_mut()
.filter_map(
|field| match FieldPyO3Options::take_pyo3_options(&mut field.attrs) {
Ok(options) => Some((&*field, options)),
Err(e) => {
all_errors.combine(e);
None
}
},
)
.collect::<Vec<_>>(),
syn::Fields::Unnamed(fields) => fields
.unnamed
.iter_mut()
.filter_map(
|field| match FieldPyO3Options::take_pyo3_options(&mut field.attrs) {
Ok(options) => Some((&*field, options)),
Err(e) => {
all_errors.combine(e);
None
}
},
)
.collect::<Vec<_>>(),
syn::Fields::Unit => {
if let Some(attr) = args.options.set_all {
return Err(syn::Error::new_spanned(attr, UNIT_SET));
};
if let Some(attr) = args.options.get_all {
return Err(syn::Error::new_spanned(attr, UNIT_GET));
};
Vec::new()
}
};
all_errors.ensure_empty()?;
if let Some(attr) = args.options.get_all {
for (_, FieldPyO3Options { get, .. }) in &mut field_options {
if let Some(old_get) = get.replace(Annotated::Struct(attr)) {
return Err(syn::Error::new(old_get.span(), DUPE_GET));
}
}
}
if let Some(attr) = args.options.set_all {
for (_, FieldPyO3Options { set, .. }) in &mut field_options {
if let Some(old_set) = set.replace(Annotated::Struct(attr)) {
return Err(syn::Error::new(old_set.span(), DUPE_SET));
}
}
}
impl_class(&class.ident, &args, doc, field_options, methods_type, ctx)
}
enum Annotated<X, Y> {
Field(X),
Struct(Y),
}
impl<X: Spanned, Y: Spanned> Annotated<X, Y> {
fn span(&self) -> Span {
match self {
Self::Field(x) => x.span(),
Self::Struct(y) => y.span(),
}
}
}
struct FieldPyO3Options {
get: Option<Annotated<kw::get, kw::get_all>>,
set: Option<Annotated<kw::set, kw::set_all>>,
name: Option<NameAttribute>,
}
enum FieldPyO3Option {
Get(attributes::kw::get),
Set(attributes::kw::set),
Name(NameAttribute),
}
impl Parse for FieldPyO3Option {
fn parse(input: ParseStream<'_>) -> Result<Self> {
let lookahead = input.lookahead1();
if lookahead.peek(attributes::kw::get) {
input.parse().map(FieldPyO3Option::Get)
} else if lookahead.peek(attributes::kw::set) {
input.parse().map(FieldPyO3Option::Set)
} else if lookahead.peek(attributes::kw::name) {
input.parse().map(FieldPyO3Option::Name)
} else {
Err(lookahead.error())
}
}
}
impl FieldPyO3Options {
fn take_pyo3_options(attrs: &mut Vec<syn::Attribute>) -> Result<Self> {
let mut options = FieldPyO3Options {
get: None,
set: None,
name: None,
};
for option in take_pyo3_options(attrs)? {
match option {
FieldPyO3Option::Get(kw) => {
if options.get.replace(Annotated::Field(kw)).is_some() {
return Err(syn::Error::new(kw.span(), UNIQUE_GET));
}
}
FieldPyO3Option::Set(kw) => {
if options.set.replace(Annotated::Field(kw)).is_some() {
return Err(syn::Error::new(kw.span(), UNIQUE_SET));
}
}
FieldPyO3Option::Name(name) => {
if options.name.replace(name).is_some() {
return Err(syn::Error::new(options.name.span(), UNIQUE_NAME));
}
}
}
}
Ok(options)
}
}
fn get_class_python_name<'a>(cls: &'a syn::Ident, args: &'a PyClassArgs) -> Cow<'a, syn::Ident> {
args.options
.name
.as_ref()
.map(|name_attr| Cow::Borrowed(&name_attr.value.0))
.unwrap_or_else(|| Cow::Owned(cls.unraw()))
}
fn impl_class(
cls: &syn::Ident,
args: &PyClassArgs,
doc: PythonDoc,
field_options: Vec<(&syn::Field, FieldPyO3Options)>,
methods_type: PyClassMethodsType,
ctx: &Ctx,
) -> syn::Result<TokenStream> {
let Ctx { pyo3_path, .. } = ctx;
let pytypeinfo_impl = impl_pytypeinfo(cls, args, ctx);
if let Some(str) = &args.options.str {
if str.value.is_some() {
let no_naming_conflict = field_options.iter().all(|x| x.1.name.is_none())
& args.options.name.is_none()
& args.options.rename_all.is_none();
ensure_spanned!(no_naming_conflict, str.value.span() => "The format string syntax is incompatible with any renaming via `name` or `rename_all`");
}
}
let (default_str, default_str_slot) =
implement_pyclass_str(&args.options, &syn::parse_quote!(#cls), ctx);
let (default_richcmp, default_richcmp_slot) =
pyclass_richcmp(&args.options, &syn::parse_quote!(#cls), ctx)?;
let (default_hash, default_hash_slot) =
pyclass_hash(&args.options, &syn::parse_quote!(#cls), ctx)?;
let mut slots = Vec::new();
slots.extend(default_richcmp_slot);
slots.extend(default_hash_slot);
slots.extend(default_str_slot);
let py_class_impl = PyClassImplsBuilder::new(
cls,
args,
methods_type,
descriptors_to_items(
cls,
args.options.rename_all.as_ref(),
args.options.frozen,
field_options,
ctx,
)?,
slots,
)
.doc(doc)
.impl_all(ctx)?;
Ok(quote! {
impl #pyo3_path::types::DerefToPyAny for #cls {}
#pytypeinfo_impl
#py_class_impl
#[doc(hidden)]
#[allow(non_snake_case)]
impl #cls {
#default_richcmp
#default_hash
#default_str
}
})
}
enum PyClassEnum<'a> {
Simple(PyClassSimpleEnum<'a>),
Complex(PyClassComplexEnum<'a>),
}
impl<'a> PyClassEnum<'a> {
fn new(enum_: &'a mut syn::ItemEnum) -> syn::Result<Self> {
let has_only_unit_variants = enum_
.variants
.iter()
.all(|variant| matches!(variant.fields, syn::Fields::Unit));
Ok(if has_only_unit_variants {
let simple_enum = PyClassSimpleEnum::new(enum_)?;
Self::Simple(simple_enum)
} else {
let complex_enum = PyClassComplexEnum::new(enum_)?;
Self::Complex(complex_enum)
})
}
}
pub fn build_py_enum(
enum_: &mut syn::ItemEnum,
mut args: PyClassArgs,
method_type: PyClassMethodsType,
) -> syn::Result<TokenStream> {
args.options.take_pyo3_options(&mut enum_.attrs)?;
let ctx = &Ctx::new(&args.options.krate, None);
if let Some(extends) = &args.options.extends {
bail_spanned!(extends.span() => "enums can't extend from other classes");
} else if let Some(subclass) = &args.options.subclass {
bail_spanned!(subclass.span() => "enums can't be inherited by other classes");
} else if enum_.variants.is_empty() {
bail_spanned!(enum_.brace_token.span.join() => "#[pyclass] can't be used on enums without any variants");
}
let doc = utils::get_doc(&enum_.attrs, None, ctx);
let enum_ = PyClassEnum::new(enum_)?;
impl_enum(enum_, &args, doc, method_type, ctx)
}
struct PyClassSimpleEnum<'a> {
ident: &'a syn::Ident,
repr_type: syn::Ident,
variants: Vec<PyClassEnumUnitVariant<'a>>,
}
impl<'a> PyClassSimpleEnum<'a> {
fn new(enum_: &'a mut syn::ItemEnum) -> syn::Result<Self> {
fn is_numeric_type(t: &syn::Ident) -> bool {
[
"u8", "i8", "u16", "i16", "u32", "i32", "u64", "i64", "u128", "i128", "usize",
"isize",
]
.iter()
.any(|&s| t == s)
}
fn extract_unit_variant_data(
variant: &mut syn::Variant,
) -> syn::Result<PyClassEnumUnitVariant<'_>> {
use syn::Fields;
let ident = match &variant.fields {
Fields::Unit => &variant.ident,
_ => bail_spanned!(variant.span() => "Must be a unit variant."),
};
let options = EnumVariantPyO3Options::take_pyo3_options(&mut variant.attrs)?;
let cfg_attrs = get_cfg_attributes(&variant.attrs);
Ok(PyClassEnumUnitVariant {
ident,
options,
cfg_attrs,
})
}
let ident = &enum_.ident;
let mut repr_type = syn::Ident::new("isize", proc_macro2::Span::call_site());
if let Some(attr) = enum_.attrs.iter().find(|attr| attr.path().is_ident("repr")) {
let args =
attr.parse_args_with(Punctuated::<TokenStream, Token![!]>::parse_terminated)?;
if let Some(ident) = args
.into_iter()
.filter_map(|ts| syn::parse2::<syn::Ident>(ts).ok())
.find(is_numeric_type)
{
repr_type = ident;
}
}
let variants: Vec<_> = enum_
.variants
.iter_mut()
.map(extract_unit_variant_data)
.collect::<syn::Result<_>>()?;
Ok(Self {
ident,
repr_type,
variants,
})
}
}
struct PyClassComplexEnum<'a> {
ident: &'a syn::Ident,
variants: Vec<PyClassEnumVariant<'a>>,
}
impl<'a> PyClassComplexEnum<'a> {
fn new(enum_: &'a mut syn::ItemEnum) -> syn::Result<Self> {
let witness = enum_
.variants
.iter()
.find(|variant| !matches!(variant.fields, syn::Fields::Unit))
.expect("complex enum has a non-unit variant")
.ident
.to_owned();
let extract_variant_data =
|variant: &'a mut syn::Variant| -> syn::Result<PyClassEnumVariant<'a>> {
use syn::Fields;
let ident = &variant.ident;
let options = EnumVariantPyO3Options::take_pyo3_options(&mut variant.attrs)?;
let variant = match &variant.fields {
Fields::Unit => {
bail_spanned!(variant.span() => format!(
"Unit variant `{ident}` is not yet supported in a complex enum\n\
= help: change to an empty tuple variant instead: `{ident}()`\n\
= note: the enum is complex because of non-unit variant `{witness}`",
ident=ident, witness=witness))
}
Fields::Named(fields) => {
let fields = fields
.named
.iter()
.map(|field| PyClassEnumVariantNamedField {
ident: field.ident.as_ref().expect("named field has an identifier"),
ty: &field.ty,
span: field.span(),
})
.collect();
PyClassEnumVariant::Struct(PyClassEnumStructVariant {
ident,
fields,
options,
})
}
Fields::Unnamed(types) => {
let fields = types
.unnamed
.iter()
.map(|field| PyClassEnumVariantUnnamedField {
ty: &field.ty,
span: field.span(),
})
.collect();
PyClassEnumVariant::Tuple(PyClassEnumTupleVariant {
ident,
fields,
options,
})
}
};
Ok(variant)
};
let ident = &enum_.ident;
let variants: Vec<_> = enum_
.variants
.iter_mut()
.map(extract_variant_data)
.collect::<syn::Result<_>>()?;
Ok(Self { ident, variants })
}
}
enum PyClassEnumVariant<'a> {
Struct(PyClassEnumStructVariant<'a>),
Tuple(PyClassEnumTupleVariant<'a>),
}
trait EnumVariant {
fn get_ident(&self) -> &syn::Ident;
fn get_options(&self) -> &EnumVariantPyO3Options;
fn get_python_name(&self, args: &PyClassArgs) -> Cow<'_, syn::Ident> {
self.get_options()
.name
.as_ref()
.map(|name_attr| Cow::Borrowed(&name_attr.value.0))
.unwrap_or_else(|| {
let name = self.get_ident().unraw();
if let Some(attr) = &args.options.rename_all {
let new_name = apply_renaming_rule(attr.value.rule, &name.to_string());
Cow::Owned(Ident::new(&new_name, Span::call_site()))
} else {
Cow::Owned(name)
}
})
}
}
impl EnumVariant for PyClassEnumVariant<'_> {
fn get_ident(&self) -> &syn::Ident {
match self {
PyClassEnumVariant::Struct(struct_variant) => struct_variant.ident,
PyClassEnumVariant::Tuple(tuple_variant) => tuple_variant.ident,
}
}
fn get_options(&self) -> &EnumVariantPyO3Options {
match self {
PyClassEnumVariant::Struct(struct_variant) => &struct_variant.options,
PyClassEnumVariant::Tuple(tuple_variant) => &tuple_variant.options,
}
}
}
struct PyClassEnumUnitVariant<'a> {
ident: &'a syn::Ident,
options: EnumVariantPyO3Options,
cfg_attrs: Vec<&'a syn::Attribute>,
}
impl EnumVariant for PyClassEnumUnitVariant<'_> {
fn get_ident(&self) -> &syn::Ident {
self.ident
}
fn get_options(&self) -> &EnumVariantPyO3Options {
&self.options
}
}
struct PyClassEnumStructVariant<'a> {
ident: &'a syn::Ident,
fields: Vec<PyClassEnumVariantNamedField<'a>>,
options: EnumVariantPyO3Options,
}
struct PyClassEnumTupleVariant<'a> {
ident: &'a syn::Ident,
fields: Vec<PyClassEnumVariantUnnamedField<'a>>,
options: EnumVariantPyO3Options,
}
struct PyClassEnumVariantNamedField<'a> {
ident: &'a syn::Ident,
ty: &'a syn::Type,
span: Span,
}
struct PyClassEnumVariantUnnamedField<'a> {
ty: &'a syn::Type,
span: Span,
}
#[derive(Clone, Default)]
struct EnumVariantPyO3Options {
name: Option<NameAttribute>,
constructor: Option<ConstructorAttribute>,
}
enum EnumVariantPyO3Option {
Name(NameAttribute),
Constructor(ConstructorAttribute),
}
impl Parse for EnumVariantPyO3Option {
fn parse(input: ParseStream<'_>) -> Result<Self> {
let lookahead = input.lookahead1();
if lookahead.peek(attributes::kw::name) {
input.parse().map(EnumVariantPyO3Option::Name)
} else if lookahead.peek(attributes::kw::constructor) {
input.parse().map(EnumVariantPyO3Option::Constructor)
} else {
Err(lookahead.error())
}
}
}
impl EnumVariantPyO3Options {
fn take_pyo3_options(attrs: &mut Vec<syn::Attribute>) -> Result<Self> {
let mut options = EnumVariantPyO3Options::default();
take_pyo3_options(attrs)?
.into_iter()
.try_for_each(|option| options.set_option(option))?;
Ok(options)
}
fn set_option(&mut self, option: EnumVariantPyO3Option) -> syn::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);
}
};
}
match option {
EnumVariantPyO3Option::Constructor(constructor) => set_option!(constructor),
EnumVariantPyO3Option::Name(name) => set_option!(name),
}
Ok(())
}
}
#[allow(dead_code)]
pub enum PyFmtName {
Str,
Repr,
}
fn implement_py_formatting(
ty: &syn::Type,
ctx: &Ctx,
option: &StrFormatterAttribute,
) -> (ImplItemFn, MethodAndSlotDef) {
let mut fmt_impl = match &option.value {
Some(opt) => {
let fmt = &opt.fmt;
let args = &opt
.args
.iter()
.map(|member| quote! {self.#member})
.collect::<Vec<TokenStream>>();
let fmt_impl: ImplItemFn = syn::parse_quote! {
fn __pyo3__generated____str__(&self) -> ::std::string::String {
::std::format!(#fmt, #(#args, )*)
}
};
fmt_impl
}
None => {
let fmt_impl: syn::ImplItemFn = syn::parse_quote! {
fn __pyo3__generated____str__(&self) -> ::std::string::String {
::std::format!("{}", &self)
}
};
fmt_impl
}
};
let fmt_slot = generate_protocol_slot(ty, &mut fmt_impl, &__STR__, "__str__", ctx).unwrap();
(fmt_impl, fmt_slot)
}
fn implement_pyclass_str(
options: &PyClassPyO3Options,
ty: &syn::Type,
ctx: &Ctx,
) -> (Option<ImplItemFn>, Option<MethodAndSlotDef>) {
match &options.str {
Some(option) => {
let (default_str, default_str_slot) = implement_py_formatting(ty, ctx, option);
(Some(default_str), Some(default_str_slot))
}
_ => (None, None),
}
}
fn impl_enum(
enum_: PyClassEnum<'_>,
args: &PyClassArgs,
doc: PythonDoc,
methods_type: PyClassMethodsType,
ctx: &Ctx,
) -> Result<TokenStream> {
if let Some(str_fmt) = &args.options.str {
ensure_spanned!(str_fmt.value.is_none(), str_fmt.value.span() => "The format string syntax cannot be used with enums")
}
match enum_ {
PyClassEnum::Simple(simple_enum) => {
impl_simple_enum(simple_enum, args, doc, methods_type, ctx)
}
PyClassEnum::Complex(complex_enum) => {
impl_complex_enum(complex_enum, args, doc, methods_type, ctx)
}
}
}
fn impl_simple_enum(
simple_enum: PyClassSimpleEnum<'_>,
args: &PyClassArgs,
doc: PythonDoc,
methods_type: PyClassMethodsType,
ctx: &Ctx,
) -> Result<TokenStream> {
let cls = simple_enum.ident;
let ty: syn::Type = syn::parse_quote!(#cls);
let variants = simple_enum.variants;
let pytypeinfo = impl_pytypeinfo(cls, args, ctx);
for variant in &variants {
ensure_spanned!(variant.options.constructor.is_none(), variant.options.constructor.span() => "`constructor` can't be used on a simple enum variant");
}
let variant_cfg_check = generate_cfg_check(&variants, cls);
let (default_repr, default_repr_slot) = {
let variants_repr = variants.iter().map(|variant| {
let variant_name = variant.ident;
let cfg_attrs = &variant.cfg_attrs;
let repr = format!(
"{}.{}",
get_class_python_name(cls, args),
variant.get_python_name(args),
);
quote! { #(#cfg_attrs)* #cls::#variant_name => #repr, }
});
let mut repr_impl: syn::ImplItemFn = syn::parse_quote! {
fn __pyo3__repr__(&self) -> &'static str {
match *self {
#(#variants_repr)*
}
}
};
let repr_slot =
generate_default_protocol_slot(&ty, &mut repr_impl, &__REPR__, ctx).unwrap();
(repr_impl, repr_slot)
};
let (default_str, default_str_slot) = implement_pyclass_str(&args.options, &ty, ctx);
let repr_type = &simple_enum.repr_type;
let (default_int, default_int_slot) = {
let variants_to_int = variants.iter().map(|variant| {
let variant_name = variant.ident;
let cfg_attrs = &variant.cfg_attrs;
quote! { #(#cfg_attrs)* #cls::#variant_name => #cls::#variant_name as #repr_type, }
});
let mut int_impl: syn::ImplItemFn = syn::parse_quote! {
fn __pyo3__int__(&self) -> #repr_type {
match *self {
#(#variants_to_int)*
}
}
};
let int_slot = generate_default_protocol_slot(&ty, &mut int_impl, &__INT__, ctx).unwrap();
(int_impl, int_slot)
};
let (default_richcmp, default_richcmp_slot) =
pyclass_richcmp_simple_enum(&args.options, &ty, repr_type, ctx)?;
let (default_hash, default_hash_slot) = pyclass_hash(&args.options, &ty, ctx)?;
let mut default_slots = vec![default_repr_slot, default_int_slot];
default_slots.extend(default_richcmp_slot);
default_slots.extend(default_hash_slot);
default_slots.extend(default_str_slot);
let pyclass_impls = PyClassImplsBuilder::new(
cls,
args,
methods_type,
simple_enum_default_methods(
cls,
variants
.iter()
.map(|v| (v.ident, v.get_python_name(args), &v.cfg_attrs)),
ctx,
),
default_slots,
)
.doc(doc)
.impl_all(ctx)?;
Ok(quote! {
#variant_cfg_check
#pytypeinfo
#pyclass_impls
#[doc(hidden)]
#[allow(non_snake_case)]
impl #cls {
#default_repr
#default_int
#default_richcmp
#default_hash
#default_str
}
})
}
fn impl_complex_enum(
complex_enum: PyClassComplexEnum<'_>,
args: &PyClassArgs,
doc: PythonDoc,
methods_type: PyClassMethodsType,
ctx: &Ctx,
) -> Result<TokenStream> {
let Ctx { pyo3_path, .. } = ctx;
let cls = complex_enum.ident;
let ty: syn::Type = syn::parse_quote!(#cls);
let args = {
let mut rigged_args = args.clone();
rigged_args.options.frozen = parse_quote!(frozen);
rigged_args.options.subclass = parse_quote!(subclass);
rigged_args
};
let ctx = &Ctx::new(&args.options.krate, None);
let cls = complex_enum.ident;
let variants = complex_enum.variants;
let pytypeinfo = impl_pytypeinfo(cls, &args, ctx);
let (default_richcmp, default_richcmp_slot) = pyclass_richcmp(&args.options, &ty, ctx)?;
let (default_hash, default_hash_slot) = pyclass_hash(&args.options, &ty, ctx)?;
let (default_str, default_str_slot) = implement_pyclass_str(&args.options, &ty, ctx);
let mut default_slots = vec![];
default_slots.extend(default_richcmp_slot);
default_slots.extend(default_hash_slot);
default_slots.extend(default_str_slot);
let impl_builder = PyClassImplsBuilder::new(
cls,
&args,
methods_type,
complex_enum_default_methods(
cls,
variants
.iter()
.map(|v| (v.get_ident(), v.get_python_name(&args))),
ctx,
),
default_slots,
)
.doc(doc);
let enum_into_py_impl = {
let match_arms: Vec<TokenStream> = variants
.iter()
.map(|variant| {
let variant_ident = variant.get_ident();
let variant_cls = gen_complex_enum_variant_class_ident(cls, variant.get_ident());
quote! {
#cls::#variant_ident { .. } => {
let pyclass_init = <#pyo3_path::PyClassInitializer<Self> as ::std::convert::From<Self>>::from(self).add_subclass(#variant_cls);
let variant_value = #pyo3_path::Py::new(py, pyclass_init).unwrap();
#pyo3_path::IntoPy::into_py(variant_value, py)
}
}
})
.collect();
quote! {
#[allow(deprecated)]
impl #pyo3_path::IntoPy<#pyo3_path::PyObject> for #cls {
fn into_py(self, py: #pyo3_path::Python) -> #pyo3_path::PyObject {
match self {
#(#match_arms)*
}
}
}
}
};
let enum_into_pyobject_impl = {
let match_arms = variants
.iter()
.map(|variant| {
let variant_ident = variant.get_ident();
let variant_cls = gen_complex_enum_variant_class_ident(cls, variant.get_ident());
quote! {
#cls::#variant_ident { .. } => {
let pyclass_init = <#pyo3_path::PyClassInitializer<Self> as ::std::convert::From<Self>>::from(self).add_subclass(#variant_cls);
unsafe { #pyo3_path::Bound::new(py, pyclass_init).map(|b| #pyo3_path::types::PyAnyMethods::downcast_into_unchecked(b.into_any())) }
}
}
});
quote! {
impl<'py> #pyo3_path::conversion::IntoPyObject<'py> for #cls {
type Target = Self;
type Output = #pyo3_path::Bound<'py, <Self as #pyo3_path::conversion::IntoPyObject<'py>>::Target>;
type Error = #pyo3_path::PyErr;
fn into_pyobject(self, py: #pyo3_path::Python<'py>) -> ::std::result::Result<
<Self as #pyo3_path::conversion::IntoPyObject>::Output,
<Self as #pyo3_path::conversion::IntoPyObject>::Error,
> {
match self {
#(#match_arms)*
}
}
}
}
};
let pyclass_impls: TokenStream = [
impl_builder.impl_pyclass(ctx),
impl_builder.impl_extractext(ctx),
enum_into_py_impl,
enum_into_pyobject_impl,
impl_builder.impl_pyclassimpl(ctx)?,
impl_builder.impl_add_to_module(ctx),
impl_builder.impl_freelist(ctx),
]
.into_iter()
.collect();
let mut variant_cls_zsts = vec![];
let mut variant_cls_pytypeinfos = vec![];
let mut variant_cls_pyclass_impls = vec![];
let mut variant_cls_impls = vec![];
for variant in variants {
let variant_cls = gen_complex_enum_variant_class_ident(cls, variant.get_ident());
let variant_cls_zst = quote! {
#[doc(hidden)]
#[allow(non_camel_case_types)]
struct #variant_cls;
};
variant_cls_zsts.push(variant_cls_zst);
let variant_args = PyClassArgs {
class_kind: PyClassKind::Struct,
options: {
let mut rigged_options: PyClassPyO3Options = parse_quote!(extends = #cls, frozen);
rigged_options.module.clone_from(&args.options.module);
rigged_options
},
};
let variant_cls_pytypeinfo = impl_pytypeinfo(&variant_cls, &variant_args, ctx);
variant_cls_pytypeinfos.push(variant_cls_pytypeinfo);
let (variant_cls_impl, field_getters, mut slots) =
impl_complex_enum_variant_cls(cls, &variant, ctx)?;
variant_cls_impls.push(variant_cls_impl);
let variant_new = complex_enum_variant_new(cls, variant, ctx)?;
slots.push(variant_new);
let pyclass_impl = PyClassImplsBuilder::new(
&variant_cls,
&variant_args,
methods_type,
field_getters,
slots,
)
.impl_all(ctx)?;
variant_cls_pyclass_impls.push(pyclass_impl);
}
Ok(quote! {
#pytypeinfo
#pyclass_impls
#[doc(hidden)]
#[allow(non_snake_case)]
impl #cls {
#default_richcmp
#default_hash
#default_str
}
#(#variant_cls_zsts)*
#(#variant_cls_pytypeinfos)*
#(#variant_cls_pyclass_impls)*
#(#variant_cls_impls)*
})
}
fn impl_complex_enum_variant_cls(
enum_name: &syn::Ident,
variant: &PyClassEnumVariant<'_>,
ctx: &Ctx,
) -> Result<(TokenStream, Vec<MethodAndMethodDef>, Vec<MethodAndSlotDef>)> {
match variant {
PyClassEnumVariant::Struct(struct_variant) => {
impl_complex_enum_struct_variant_cls(enum_name, struct_variant, ctx)
}
PyClassEnumVariant::Tuple(tuple_variant) => {
impl_complex_enum_tuple_variant_cls(enum_name, tuple_variant, ctx)
}
}
}
fn impl_complex_enum_variant_match_args(
ctx: &Ctx,
variant_cls_type: &syn::Type,
field_names: &mut Vec<Ident>,
) -> (MethodAndMethodDef, syn::ImplItemConst) {
let ident = format_ident!("__match_args__");
let match_args_const_impl: syn::ImplItemConst = {
let args_tp = field_names.iter().map(|_| {
quote! { &'static str }
});
parse_quote! {
#[allow(non_upper_case_globals)]
const #ident: ( #(#args_tp,)* ) = (
#(stringify!(#field_names),)*
);
}
};
let spec = ConstSpec {
rust_ident: ident,
attributes: ConstAttributes {
is_class_attr: true,
name: None,
},
};
let variant_match_args = gen_py_const(variant_cls_type, &spec, ctx);
(variant_match_args, match_args_const_impl)
}
fn impl_complex_enum_struct_variant_cls(
enum_name: &syn::Ident,
variant: &PyClassEnumStructVariant<'_>,
ctx: &Ctx,
) -> Result<(TokenStream, Vec<MethodAndMethodDef>, Vec<MethodAndSlotDef>)> {
let Ctx { pyo3_path, .. } = ctx;
let variant_ident = &variant.ident;
let variant_cls = gen_complex_enum_variant_class_ident(enum_name, variant.ident);
let variant_cls_type = parse_quote!(#variant_cls);
let mut field_names: Vec<Ident> = vec![];
let mut fields_with_types: Vec<TokenStream> = vec![];
let mut field_getters = vec![];
let mut field_getter_impls: Vec<TokenStream> = vec![];
for field in &variant.fields {
let field_name = field.ident;
let field_type = field.ty;
let field_with_type = quote! { #field_name: #field_type };
let field_getter =
complex_enum_variant_field_getter(&variant_cls_type, field_name, field.span, ctx)?;
let field_getter_impl = quote! {
fn #field_name(slf: #pyo3_path::PyRef<Self>) -> #pyo3_path::PyResult<#pyo3_path::PyObject> {
#[allow(unused_imports)]
use #pyo3_path::impl_::pyclass::Probe;
let py = slf.py();
match &*slf.into_super() {
#enum_name::#variant_ident { #field_name, .. } =>
#pyo3_path::impl_::pyclass::ConvertField::<
{ #pyo3_path::impl_::pyclass::IsIntoPyObjectRef::<#field_type>::VALUE },
{ #pyo3_path::impl_::pyclass::IsIntoPyObject::<#field_type>::VALUE },
>::convert_field::<#field_type>(#field_name, py),
_ => ::core::unreachable!("Wrong complex enum variant found in variant wrapper PyClass"),
}
}
};
field_names.push(field_name.clone());
fields_with_types.push(field_with_type);
field_getters.push(field_getter);
field_getter_impls.push(field_getter_impl);
}
let (variant_match_args, match_args_const_impl) =
impl_complex_enum_variant_match_args(ctx, &variant_cls_type, &mut field_names);
field_getters.push(variant_match_args);
let cls_impl = quote! {
#[doc(hidden)]
#[allow(non_snake_case)]
impl #variant_cls {
fn __pymethod_constructor__(py: #pyo3_path::Python<'_>, #(#fields_with_types,)*) -> #pyo3_path::PyClassInitializer<#variant_cls> {
let base_value = #enum_name::#variant_ident { #(#field_names,)* };
<#pyo3_path::PyClassInitializer<#enum_name> as ::std::convert::From<#enum_name>>::from(base_value).add_subclass(#variant_cls)
}
#match_args_const_impl
#(#field_getter_impls)*
}
};
Ok((cls_impl, field_getters, Vec::new()))
}
fn impl_complex_enum_tuple_variant_field_getters(
ctx: &Ctx,
variant: &PyClassEnumTupleVariant<'_>,
enum_name: &syn::Ident,
variant_cls_type: &syn::Type,
variant_ident: &&Ident,
field_names: &mut Vec<Ident>,
fields_types: &mut Vec<syn::Type>,
) -> Result<(Vec<MethodAndMethodDef>, Vec<syn::ImplItemFn>)> {
let Ctx { pyo3_path, .. } = ctx;
let mut field_getters = vec![];
let mut field_getter_impls = vec![];
for (index, field) in variant.fields.iter().enumerate() {
let field_name = format_ident!("_{}", index);
let field_type = field.ty;
let field_getter =
complex_enum_variant_field_getter(variant_cls_type, &field_name, field.span, ctx)?;
let field_access_tokens: Vec<_> = (0..variant.fields.len())
.map(|i| {
if i == index {
quote! { val }
} else {
quote! { _ }
}
})
.collect();
let field_getter_impl: syn::ImplItemFn = parse_quote! {
fn #field_name(slf: #pyo3_path::PyRef<Self>) -> #pyo3_path::PyResult<#pyo3_path::PyObject> {
#[allow(unused_imports)]
use #pyo3_path::impl_::pyclass::Probe;
let py = slf.py();
match &*slf.into_super() {
#enum_name::#variant_ident ( #(#field_access_tokens), *) =>
#pyo3_path::impl_::pyclass::ConvertField::<
{ #pyo3_path::impl_::pyclass::IsIntoPyObjectRef::<#field_type>::VALUE },
{ #pyo3_path::impl_::pyclass::IsIntoPyObject::<#field_type>::VALUE },
>::convert_field::<#field_type>(val, py),
_ => ::core::unreachable!("Wrong complex enum variant found in variant wrapper PyClass"),
}
}
};
field_names.push(field_name);
fields_types.push(field_type.clone());
field_getters.push(field_getter);
field_getter_impls.push(field_getter_impl);
}
Ok((field_getters, field_getter_impls))
}
fn impl_complex_enum_tuple_variant_len(
ctx: &Ctx,
variant_cls_type: &syn::Type,
num_fields: usize,
) -> Result<(MethodAndSlotDef, syn::ImplItemFn)> {
let Ctx { pyo3_path, .. } = ctx;
let mut len_method_impl: syn::ImplItemFn = parse_quote! {
fn __len__(slf: #pyo3_path::PyRef<Self>) -> #pyo3_path::PyResult<usize> {
::std::result::Result::Ok(#num_fields)
}
};
let variant_len =
generate_default_protocol_slot(variant_cls_type, &mut len_method_impl, &__LEN__, ctx)?;
Ok((variant_len, len_method_impl))
}
fn impl_complex_enum_tuple_variant_getitem(
ctx: &Ctx,
variant_cls: &syn::Ident,
variant_cls_type: &syn::Type,
num_fields: usize,
) -> Result<(MethodAndSlotDef, syn::ImplItemFn)> {
let Ctx { pyo3_path, .. } = ctx;
let match_arms: Vec<_> = (0..num_fields)
.map(|i| {
let field_access = format_ident!("_{}", i);
quote! { #i =>
#pyo3_path::IntoPyObjectExt::into_py_any(#variant_cls::#field_access(slf)?, py)
}
})
.collect();
let mut get_item_method_impl: syn::ImplItemFn = parse_quote! {
fn __getitem__(slf: #pyo3_path::PyRef<Self>, idx: usize) -> #pyo3_path::PyResult< #pyo3_path::PyObject> {
let py = slf.py();
match idx {
#( #match_arms, )*
_ => ::std::result::Result::Err(#pyo3_path::exceptions::PyIndexError::new_err("tuple index out of range")),
}
}
};
let variant_getitem = generate_default_protocol_slot(
variant_cls_type,
&mut get_item_method_impl,
&__GETITEM__,
ctx,
)?;
Ok((variant_getitem, get_item_method_impl))
}
fn impl_complex_enum_tuple_variant_cls(
enum_name: &syn::Ident,
variant: &PyClassEnumTupleVariant<'_>,
ctx: &Ctx,
) -> Result<(TokenStream, Vec<MethodAndMethodDef>, Vec<MethodAndSlotDef>)> {
let Ctx { pyo3_path, .. } = ctx;
let variant_ident = &variant.ident;
let variant_cls = gen_complex_enum_variant_class_ident(enum_name, variant.ident);
let variant_cls_type = parse_quote!(#variant_cls);
let mut slots = vec![];
let mut field_names: Vec<Ident> = vec![];
let mut field_types: Vec<syn::Type> = vec![];
let (mut field_getters, field_getter_impls) = impl_complex_enum_tuple_variant_field_getters(
ctx,
variant,
enum_name,
&variant_cls_type,
variant_ident,
&mut field_names,
&mut field_types,
)?;
let num_fields = variant.fields.len();
let (variant_len, len_method_impl) =
impl_complex_enum_tuple_variant_len(ctx, &variant_cls_type, num_fields)?;
slots.push(variant_len);
let (variant_getitem, getitem_method_impl) =
impl_complex_enum_tuple_variant_getitem(ctx, &variant_cls, &variant_cls_type, num_fields)?;
slots.push(variant_getitem);
let (variant_match_args, match_args_method_impl) =
impl_complex_enum_variant_match_args(ctx, &variant_cls_type, &mut field_names);
field_getters.push(variant_match_args);
let cls_impl = quote! {
#[doc(hidden)]
#[allow(non_snake_case)]
impl #variant_cls {
fn __pymethod_constructor__(py: #pyo3_path::Python<'_>, #(#field_names : #field_types,)*) -> #pyo3_path::PyClassInitializer<#variant_cls> {
let base_value = #enum_name::#variant_ident ( #(#field_names,)* );
<#pyo3_path::PyClassInitializer<#enum_name> as ::std::convert::From<#enum_name>>::from(base_value).add_subclass(#variant_cls)
}
#len_method_impl
#getitem_method_impl
#match_args_method_impl
#(#field_getter_impls)*
}
};
Ok((cls_impl, field_getters, slots))
}
fn gen_complex_enum_variant_class_ident(enum_: &syn::Ident, variant: &syn::Ident) -> syn::Ident {
format_ident!("{}_{}", enum_, variant)
}
fn generate_protocol_slot(
cls: &syn::Type,
method: &mut syn::ImplItemFn,
slot: &SlotDef,
name: &str,
ctx: &Ctx,
) -> syn::Result<MethodAndSlotDef> {
let spec = FnSpec::parse(
&mut method.sig,
&mut Vec::new(),
PyFunctionOptions::default(),
)
.unwrap();
slot.generate_type_slot(&syn::parse_quote!(#cls), &spec, name, ctx)
}
fn generate_default_protocol_slot(
cls: &syn::Type,
method: &mut syn::ImplItemFn,
slot: &SlotDef,
ctx: &Ctx,
) -> syn::Result<MethodAndSlotDef> {
let spec = FnSpec::parse(
&mut method.sig,
&mut Vec::new(),
PyFunctionOptions::default(),
)
.unwrap();
let name = spec.name.to_string();
slot.generate_type_slot(
&syn::parse_quote!(#cls),
&spec,
&format!("__default_{}__", name),
ctx,
)
}
fn simple_enum_default_methods<'a>(
cls: &'a syn::Ident,
unit_variant_names: impl IntoIterator<
Item = (
&'a syn::Ident,
Cow<'a, syn::Ident>,
&'a Vec<&'a syn::Attribute>,
),
>,
ctx: &Ctx,
) -> Vec<MethodAndMethodDef> {
let cls_type = syn::parse_quote!(#cls);
let variant_to_attribute = |var_ident: &syn::Ident, py_ident: &syn::Ident| ConstSpec {
rust_ident: var_ident.clone(),
attributes: ConstAttributes {
is_class_attr: true,
name: Some(NameAttribute {
kw: syn::parse_quote! { name },
value: NameLitStr(py_ident.clone()),
}),
},
};
unit_variant_names
.into_iter()
.map(|(var, py_name, attrs)| {
let method = gen_py_const(&cls_type, &variant_to_attribute(var, &py_name), ctx);
let associated_method_tokens = method.associated_method;
let method_def_tokens = method.method_def;
let associated_method = quote! {
#(#attrs)*
#associated_method_tokens
};
let method_def = quote! {
#(#attrs)*
#method_def_tokens
};
MethodAndMethodDef {
associated_method,
method_def,
}
})
.collect()
}
fn complex_enum_default_methods<'a>(
cls: &'a syn::Ident,
variant_names: impl IntoIterator<Item = (&'a syn::Ident, Cow<'a, syn::Ident>)>,
ctx: &Ctx,
) -> Vec<MethodAndMethodDef> {
let cls_type = syn::parse_quote!(#cls);
let variant_to_attribute = |var_ident: &syn::Ident, py_ident: &syn::Ident| ConstSpec {
rust_ident: var_ident.clone(),
attributes: ConstAttributes {
is_class_attr: true,
name: Some(NameAttribute {
kw: syn::parse_quote! { name },
value: NameLitStr(py_ident.clone()),
}),
},
};
variant_names
.into_iter()
.map(|(var, py_name)| {
gen_complex_enum_variant_attr(cls, &cls_type, &variant_to_attribute(var, &py_name), ctx)
})
.collect()
}
pub fn gen_complex_enum_variant_attr(
cls: &syn::Ident,
cls_type: &syn::Type,
spec: &ConstSpec,
ctx: &Ctx,
) -> MethodAndMethodDef {
let Ctx { pyo3_path, .. } = ctx;
let member = &spec.rust_ident;
let wrapper_ident = format_ident!("__pymethod_variant_cls_{}__", member);
let python_name = spec.null_terminated_python_name(ctx);
let variant_cls = format_ident!("{}_{}", cls, member);
let associated_method = quote! {
fn #wrapper_ident(py: #pyo3_path::Python<'_>) -> #pyo3_path::PyResult<#pyo3_path::PyObject> {
::std::result::Result::Ok(py.get_type::<#variant_cls>().into_any().unbind())
}
};
let method_def = quote! {
#pyo3_path::impl_::pyclass::MaybeRuntimePyMethodDef::Static(
#pyo3_path::impl_::pymethods::PyMethodDefType::ClassAttribute({
#pyo3_path::impl_::pymethods::PyClassAttributeDef::new(
#python_name,
#cls_type::#wrapper_ident
)
})
)
};
MethodAndMethodDef {
associated_method,
method_def,
}
}
fn complex_enum_variant_new<'a>(
cls: &'a syn::Ident,
variant: PyClassEnumVariant<'a>,
ctx: &Ctx,
) -> Result<MethodAndSlotDef> {
match variant {
PyClassEnumVariant::Struct(struct_variant) => {
complex_enum_struct_variant_new(cls, struct_variant, ctx)
}
PyClassEnumVariant::Tuple(tuple_variant) => {
complex_enum_tuple_variant_new(cls, tuple_variant, ctx)
}
}
}
fn complex_enum_struct_variant_new<'a>(
cls: &'a syn::Ident,
variant: PyClassEnumStructVariant<'a>,
ctx: &Ctx,
) -> Result<MethodAndSlotDef> {
let Ctx { pyo3_path, .. } = ctx;
let variant_cls = format_ident!("{}_{}", cls, variant.ident);
let variant_cls_type: syn::Type = parse_quote!(#variant_cls);
let arg_py_ident: syn::Ident = parse_quote!(py);
let arg_py_type: syn::Type = parse_quote!(#pyo3_path::Python<'_>);
let args = {
let mut args = vec![
FnArg::Py(PyArg {
name: &arg_py_ident,
ty: &arg_py_type,
}),
];
for field in &variant.fields {
args.push(FnArg::Regular(RegularArg {
name: Cow::Borrowed(field.ident),
ty: field.ty,
from_py_with: None,
default_value: None,
option_wrapped_type: None,
}));
}
args
};
let signature = if let Some(constructor) = variant.options.constructor {
crate::pyfunction::FunctionSignature::from_arguments_and_attribute(
args,
constructor.into_signature(),
)?
} else {
crate::pyfunction::FunctionSignature::from_arguments(args)?
};
let spec = FnSpec {
tp: crate::method::FnType::FnNew,
name: &format_ident!("__pymethod_constructor__"),
python_name: format_ident!("__new__"),
signature,
convention: crate::method::CallingConvention::TpNew,
text_signature: None,
asyncness: None,
unsafety: None,
};
crate::pymethod::impl_py_method_def_new(&variant_cls_type, &spec, ctx)
}
fn complex_enum_tuple_variant_new<'a>(
cls: &'a syn::Ident,
variant: PyClassEnumTupleVariant<'a>,
ctx: &Ctx,
) -> Result<MethodAndSlotDef> {
let Ctx { pyo3_path, .. } = ctx;
let variant_cls: Ident = format_ident!("{}_{}", cls, variant.ident);
let variant_cls_type: syn::Type = parse_quote!(#variant_cls);
let arg_py_ident: syn::Ident = parse_quote!(py);
let arg_py_type: syn::Type = parse_quote!(#pyo3_path::Python<'_>);
let args = {
let mut args = vec![FnArg::Py(PyArg {
name: &arg_py_ident,
ty: &arg_py_type,
})];
for (i, field) in variant.fields.iter().enumerate() {
args.push(FnArg::Regular(RegularArg {
name: std::borrow::Cow::Owned(format_ident!("_{}", i)),
ty: field.ty,
from_py_with: None,
default_value: None,
option_wrapped_type: None,
}));
}
args
};
let signature = if let Some(constructor) = variant.options.constructor {
crate::pyfunction::FunctionSignature::from_arguments_and_attribute(
args,
constructor.into_signature(),
)?
} else {
crate::pyfunction::FunctionSignature::from_arguments(args)?
};
let spec = FnSpec {
tp: crate::method::FnType::FnNew,
name: &format_ident!("__pymethod_constructor__"),
python_name: format_ident!("__new__"),
signature,
convention: crate::method::CallingConvention::TpNew,
text_signature: None,
asyncness: None,
unsafety: None,
};
crate::pymethod::impl_py_method_def_new(&variant_cls_type, &spec, ctx)
}
fn complex_enum_variant_field_getter<'a>(
variant_cls_type: &'a syn::Type,
field_name: &'a syn::Ident,
field_span: Span,
ctx: &Ctx,
) -> Result<MethodAndMethodDef> {
let signature = crate::pyfunction::FunctionSignature::from_arguments(vec![])?;
let self_type = crate::method::SelfType::TryFromBoundRef(field_span);
let spec = FnSpec {
tp: crate::method::FnType::Getter(self_type.clone()),
name: field_name,
python_name: field_name.clone(),
signature,
convention: crate::method::CallingConvention::Noargs,
text_signature: None,
asyncness: None,
unsafety: None,
};
let property_type = crate::pymethod::PropertyType::Function {
self_type: &self_type,
spec: &spec,
doc: crate::get_doc(&[], None, ctx),
};
let getter = crate::pymethod::impl_py_getter_def(variant_cls_type, property_type, ctx)?;
Ok(getter)
}
fn descriptors_to_items(
cls: &syn::Ident,
rename_all: Option<&RenameAllAttribute>,
frozen: Option<frozen>,
field_options: Vec<(&syn::Field, FieldPyO3Options)>,
ctx: &Ctx,
) -> syn::Result<Vec<MethodAndMethodDef>> {
let ty = syn::parse_quote!(#cls);
let mut items = Vec::new();
for (field_index, (field, options)) in field_options.into_iter().enumerate() {
if let FieldPyO3Options {
name: Some(name),
get: None,
set: None,
} = options
{
return Err(syn::Error::new_spanned(name, USELESS_NAME));
}
if options.get.is_some() {
let getter = impl_py_getter_def(
&ty,
PropertyType::Descriptor {
field_index,
field,
python_name: options.name.as_ref(),
renaming_rule: rename_all.map(|rename_all| rename_all.value.rule),
},
ctx,
)?;
items.push(getter);
}
if let Some(set) = options.set {
ensure_spanned!(frozen.is_none(), set.span() => "cannot use `#[pyo3(set)]` on a `frozen` class");
let setter = impl_py_setter_def(
&ty,
PropertyType::Descriptor {
field_index,
field,
python_name: options.name.as_ref(),
renaming_rule: rename_all.map(|rename_all| rename_all.value.rule),
},
ctx,
)?;
items.push(setter);
};
}
Ok(items)
}
fn impl_pytypeinfo(cls: &syn::Ident, attr: &PyClassArgs, ctx: &Ctx) -> TokenStream {
let Ctx { pyo3_path, .. } = ctx;
let cls_name = get_class_python_name(cls, attr).to_string();
let module = if let Some(ModuleAttribute { value, .. }) = &attr.options.module {
quote! { ::core::option::Option::Some(#value) }
} else {
quote! { ::core::option::Option::None }
};
quote! {
unsafe impl #pyo3_path::type_object::PyTypeInfo for #cls {
const NAME: &'static str = #cls_name;
const MODULE: ::std::option::Option<&'static str> = #module;
#[inline]
fn type_object_raw(py: #pyo3_path::Python<'_>) -> *mut #pyo3_path::ffi::PyTypeObject {
use #pyo3_path::prelude::PyTypeMethods;
<#cls as #pyo3_path::impl_::pyclass::PyClassImpl>::lazy_type_object()
.get_or_init(py)
.as_type_ptr()
}
}
}
}
fn pyclass_richcmp_arms(
options: &PyClassPyO3Options,
ctx: &Ctx,
) -> std::result::Result<TokenStream, syn::Error> {
let Ctx { pyo3_path, .. } = ctx;
let eq_arms = options
.eq
.map(|eq| eq.span)
.or(options.eq_int.map(|eq_int| eq_int.span))
.map(|span| {
quote_spanned! { span =>
#pyo3_path::pyclass::CompareOp::Eq => {
#pyo3_path::IntoPyObjectExt::into_py_any(self_val == other, py)
},
#pyo3_path::pyclass::CompareOp::Ne => {
#pyo3_path::IntoPyObjectExt::into_py_any(self_val != other, py)
},
}
})
.unwrap_or_default();
if let Some(ord) = options.ord {
ensure_spanned!(options.eq.is_some(), ord.span() => "The `ord` option requires the `eq` option.");
}
let ord_arms = options
.ord
.map(|ord| {
quote_spanned! { ord.span() =>
#pyo3_path::pyclass::CompareOp::Gt => {
#pyo3_path::IntoPyObjectExt::into_py_any(self_val > other, py)
},
#pyo3_path::pyclass::CompareOp::Lt => {
#pyo3_path::IntoPyObjectExt::into_py_any(self_val < other, py)
},
#pyo3_path::pyclass::CompareOp::Le => {
#pyo3_path::IntoPyObjectExt::into_py_any(self_val <= other, py)
},
#pyo3_path::pyclass::CompareOp::Ge => {
#pyo3_path::IntoPyObjectExt::into_py_any(self_val >= other, py)
},
}
})
.unwrap_or_else(|| quote! { _ => ::std::result::Result::Ok(py.NotImplemented()) });
Ok(quote! {
#eq_arms
#ord_arms
})
}
fn pyclass_richcmp_simple_enum(
options: &PyClassPyO3Options,
cls: &syn::Type,
repr_type: &syn::Ident,
ctx: &Ctx,
) -> Result<(Option<syn::ImplItemFn>, Option<MethodAndSlotDef>)> {
let Ctx { pyo3_path, .. } = ctx;
if let Some(eq_int) = options.eq_int {
ensure_spanned!(options.eq.is_some(), eq_int.span() => "The `eq_int` option requires the `eq` option.");
}
let deprecation = (options.eq_int.is_none() && options.eq.is_none())
.then(|| {
quote! {
let _ = #pyo3_path::impl_::pyclass::DeprecationTest::<#cls>::new().autogenerated_equality();
}
})
.unwrap_or_default();
let mut options = options.clone();
if options.eq.is_none() {
options.eq_int = Some(parse_quote!(eq_int));
}
if options.eq.is_none() && options.eq_int.is_none() {
return Ok((None, None));
}
let arms = pyclass_richcmp_arms(&options, ctx)?;
let eq = options.eq.map(|eq| {
quote_spanned! { eq.span() =>
let self_val = self;
if let ::std::result::Result::Ok(other) = #pyo3_path::types::PyAnyMethods::downcast::<Self>(other) {
let other = &*other.borrow();
return match op {
#arms
}
}
}
});
let eq_int = options.eq_int.map(|eq_int| {
quote_spanned! { eq_int.span() =>
let self_val = self.__pyo3__int__();
if let ::std::result::Result::Ok(other) = #pyo3_path::types::PyAnyMethods::extract::<#repr_type>(other).or_else(|_| {
#pyo3_path::types::PyAnyMethods::downcast::<Self>(other).map(|o| o.borrow().__pyo3__int__())
}) {
return match op {
#arms
}
}
}
});
let mut richcmp_impl = parse_quote! {
fn __pyo3__generated____richcmp__(
&self,
py: #pyo3_path::Python,
other: &#pyo3_path::Bound<'_, #pyo3_path::PyAny>,
op: #pyo3_path::pyclass::CompareOp
) -> #pyo3_path::PyResult<#pyo3_path::PyObject> {
#deprecation
#eq
#eq_int
::std::result::Result::Ok(py.NotImplemented())
}
};
let richcmp_slot = if options.eq.is_some() {
generate_protocol_slot(cls, &mut richcmp_impl, &__RICHCMP__, "__richcmp__", ctx).unwrap()
} else {
generate_default_protocol_slot(cls, &mut richcmp_impl, &__RICHCMP__, ctx).unwrap()
};
Ok((Some(richcmp_impl), Some(richcmp_slot)))
}
fn pyclass_richcmp(
options: &PyClassPyO3Options,
cls: &syn::Type,
ctx: &Ctx,
) -> Result<(Option<syn::ImplItemFn>, Option<MethodAndSlotDef>)> {
let Ctx { pyo3_path, .. } = ctx;
if let Some(eq_int) = options.eq_int {
bail_spanned!(eq_int.span() => "`eq_int` can only be used on simple enums.")
}
let arms = pyclass_richcmp_arms(options, ctx)?;
if options.eq.is_some() {
let mut richcmp_impl = parse_quote! {
fn __pyo3__generated____richcmp__(
&self,
py: #pyo3_path::Python,
other: &#pyo3_path::Bound<'_, #pyo3_path::PyAny>,
op: #pyo3_path::pyclass::CompareOp
) -> #pyo3_path::PyResult<#pyo3_path::PyObject> {
let self_val = self;
if let ::std::result::Result::Ok(other) = #pyo3_path::types::PyAnyMethods::downcast::<Self>(other) {
let other = &*other.borrow();
match op {
#arms
}
} else {
::std::result::Result::Ok(py.NotImplemented())
}
}
};
let richcmp_slot =
generate_protocol_slot(cls, &mut richcmp_impl, &__RICHCMP__, "__richcmp__", ctx)
.unwrap();
Ok((Some(richcmp_impl), Some(richcmp_slot)))
} else {
Ok((None, None))
}
}
fn pyclass_hash(
options: &PyClassPyO3Options,
cls: &syn::Type,
ctx: &Ctx,
) -> Result<(Option<syn::ImplItemFn>, Option<MethodAndSlotDef>)> {
if options.hash.is_some() {
ensure_spanned!(
options.frozen.is_some(), options.hash.span() => "The `hash` option requires the `frozen` option.";
options.eq.is_some(), options.hash.span() => "The `hash` option requires the `eq` option.";
);
}
match options.hash {
Some(opt) => {
let mut hash_impl = parse_quote_spanned! { opt.span() =>
fn __pyo3__generated____hash__(&self) -> u64 {
let mut s = ::std::collections::hash_map::DefaultHasher::new();
::std::hash::Hash::hash(self, &mut s);
::std::hash::Hasher::finish(&s)
}
};
let hash_slot =
generate_protocol_slot(cls, &mut hash_impl, &__HASH__, "__hash__", ctx).unwrap();
Ok((Some(hash_impl), Some(hash_slot)))
}
None => Ok((None, None)),
}
}
struct PyClassImplsBuilder<'a> {
cls: &'a syn::Ident,
attr: &'a PyClassArgs,
methods_type: PyClassMethodsType,
default_methods: Vec<MethodAndMethodDef>,
default_slots: Vec<MethodAndSlotDef>,
doc: Option<PythonDoc>,
}
impl<'a> PyClassImplsBuilder<'a> {
fn new(
cls: &'a syn::Ident,
attr: &'a PyClassArgs,
methods_type: PyClassMethodsType,
default_methods: Vec<MethodAndMethodDef>,
default_slots: Vec<MethodAndSlotDef>,
) -> Self {
Self {
cls,
attr,
methods_type,
default_methods,
default_slots,
doc: None,
}
}
fn doc(self, doc: PythonDoc) -> Self {
Self {
doc: Some(doc),
..self
}
}
fn impl_all(&self, ctx: &Ctx) -> Result<TokenStream> {
let tokens = [
self.impl_pyclass(ctx),
self.impl_extractext(ctx),
self.impl_into_py(ctx),
self.impl_pyclassimpl(ctx)?,
self.impl_add_to_module(ctx),
self.impl_freelist(ctx),
]
.into_iter()
.collect();
Ok(tokens)
}
fn impl_pyclass(&self, ctx: &Ctx) -> TokenStream {
let Ctx { pyo3_path, .. } = ctx;
let cls = self.cls;
let frozen = if self.attr.options.frozen.is_some() {
quote! { #pyo3_path::pyclass::boolean_struct::True }
} else {
quote! { #pyo3_path::pyclass::boolean_struct::False }
};
quote! {
impl #pyo3_path::PyClass for #cls {
type Frozen = #frozen;
}
}
}
fn impl_extractext(&self, ctx: &Ctx) -> TokenStream {
let Ctx { pyo3_path, .. } = ctx;
let cls = self.cls;
if self.attr.options.frozen.is_some() {
quote! {
impl<'a, 'py> #pyo3_path::impl_::extract_argument::PyFunctionArgument<'a, 'py> for &'a #cls
{
type Holder = ::std::option::Option<#pyo3_path::PyRef<'py, #cls>>;
#[inline]
fn extract(obj: &'a #pyo3_path::Bound<'py, #pyo3_path::PyAny>, holder: &'a mut Self::Holder) -> #pyo3_path::PyResult<Self> {
#pyo3_path::impl_::extract_argument::extract_pyclass_ref(obj, holder)
}
}
}
} else {
quote! {
impl<'a, 'py> #pyo3_path::impl_::extract_argument::PyFunctionArgument<'a, 'py> for &'a #cls
{
type Holder = ::std::option::Option<#pyo3_path::PyRef<'py, #cls>>;
#[inline]
fn extract(obj: &'a #pyo3_path::Bound<'py, #pyo3_path::PyAny>, holder: &'a mut Self::Holder) -> #pyo3_path::PyResult<Self> {
#pyo3_path::impl_::extract_argument::extract_pyclass_ref(obj, holder)
}
}
impl<'a, 'py> #pyo3_path::impl_::extract_argument::PyFunctionArgument<'a, 'py> for &'a mut #cls
{
type Holder = ::std::option::Option<#pyo3_path::PyRefMut<'py, #cls>>;
#[inline]
fn extract(obj: &'a #pyo3_path::Bound<'py, #pyo3_path::PyAny>, holder: &'a mut Self::Holder) -> #pyo3_path::PyResult<Self> {
#pyo3_path::impl_::extract_argument::extract_pyclass_ref_mut(obj, holder)
}
}
}
}
}
fn impl_into_py(&self, ctx: &Ctx) -> TokenStream {
let Ctx { pyo3_path, .. } = ctx;
let cls = self.cls;
let attr = self.attr;
if attr.options.extends.is_none() {
quote! {
#[allow(deprecated)]
impl #pyo3_path::IntoPy<#pyo3_path::PyObject> for #cls {
fn into_py(self, py: #pyo3_path::Python<'_>) -> #pyo3_path::PyObject {
#pyo3_path::IntoPy::into_py(#pyo3_path::Py::new(py, self).unwrap(), py)
}
}
impl<'py> #pyo3_path::conversion::IntoPyObject<'py> for #cls {
type Target = Self;
type Output = #pyo3_path::Bound<'py, <Self as #pyo3_path::conversion::IntoPyObject<'py>>::Target>;
type Error = #pyo3_path::PyErr;
fn into_pyobject(self, py: #pyo3_path::Python<'py>) -> ::std::result::Result<
<Self as #pyo3_path::conversion::IntoPyObject>::Output,
<Self as #pyo3_path::conversion::IntoPyObject>::Error,
> {
#pyo3_path::Bound::new(py, self)
}
}
}
} else {
quote! {}
}
}
fn impl_pyclassimpl(&self, ctx: &Ctx) -> Result<TokenStream> {
let Ctx { pyo3_path, .. } = ctx;
let cls = self.cls;
let doc = self.doc.as_ref().map_or(
LitCStr::empty(ctx).to_token_stream(),
PythonDoc::to_token_stream,
);
let is_basetype = self.attr.options.subclass.is_some();
let base = match &self.attr.options.extends {
Some(extends_attr) => extends_attr.value.clone(),
None => parse_quote! { #pyo3_path::PyAny },
};
let is_subclass = self.attr.options.extends.is_some();
let is_mapping: bool = self.attr.options.mapping.is_some();
let is_sequence: bool = self.attr.options.sequence.is_some();
ensure_spanned!(
!(is_mapping && is_sequence),
self.cls.span() => "a `#[pyclass]` cannot be both a `mapping` and a `sequence`"
);
let dict_offset = if self.attr.options.dict.is_some() {
quote! {
fn dict_offset() -> ::std::option::Option<#pyo3_path::ffi::Py_ssize_t> {
::std::option::Option::Some(#pyo3_path::impl_::pyclass::dict_offset::<Self>())
}
}
} else {
TokenStream::new()
};
let weaklist_offset = if self.attr.options.weakref.is_some() {
quote! {
fn weaklist_offset() -> ::std::option::Option<#pyo3_path::ffi::Py_ssize_t> {
::std::option::Option::Some(#pyo3_path::impl_::pyclass::weaklist_offset::<Self>())
}
}
} else {
TokenStream::new()
};
let thread_checker = if self.attr.options.unsendable.is_some() {
quote! { #pyo3_path::impl_::pyclass::ThreadCheckerImpl }
} else {
quote! { #pyo3_path::impl_::pyclass::SendablePyClass<#cls> }
};
let (pymethods_items, inventory, inventory_class) = match self.methods_type {
PyClassMethodsType::Specialization => (quote! { collector.py_methods() }, None, None),
PyClassMethodsType::Inventory => {
let inventory_class_name = syn::Ident::new(
&format!("Pyo3MethodsInventoryFor{}", cls.unraw()),
Span::call_site(),
);
(
quote! {
::std::boxed::Box::new(
::std::iter::Iterator::map(
#pyo3_path::inventory::iter::<<Self as #pyo3_path::impl_::pyclass::PyClassImpl>::Inventory>(),
#pyo3_path::impl_::pyclass::PyClassInventory::items
)
)
},
Some(quote! { type Inventory = #inventory_class_name; }),
Some(define_inventory_class(&inventory_class_name, ctx)),
)
}
};
let default_methods = self
.default_methods
.iter()
.map(|meth| &meth.associated_method)
.chain(
self.default_slots
.iter()
.map(|meth| &meth.associated_method),
);
let default_method_defs = self.default_methods.iter().map(|meth| &meth.method_def);
let default_slot_defs = self.default_slots.iter().map(|slot| &slot.slot_def);
let freelist_slots = self.freelist_slots(ctx);
let class_mutability = if self.attr.options.frozen.is_some() {
quote! {
ImmutableChild
}
} else {
quote! {
MutableChild
}
};
let cls = self.cls;
let attr = self.attr;
let dict = if attr.options.dict.is_some() {
quote! { #pyo3_path::impl_::pyclass::PyClassDictSlot }
} else {
quote! { #pyo3_path::impl_::pyclass::PyClassDummySlot }
};
let weakref = if attr.options.weakref.is_some() {
quote! { #pyo3_path::impl_::pyclass::PyClassWeakRefSlot }
} else {
quote! { #pyo3_path::impl_::pyclass::PyClassDummySlot }
};
let base_nativetype = if attr.options.extends.is_some() {
quote! { <Self::BaseType as #pyo3_path::impl_::pyclass::PyClassBaseType>::BaseNativeType }
} else {
quote! { #pyo3_path::PyAny }
};
let pyclass_base_type_impl = attr.options.subclass.map(|subclass| {
quote_spanned! { subclass.span() =>
impl #pyo3_path::impl_::pyclass::PyClassBaseType for #cls {
type LayoutAsBase = #pyo3_path::impl_::pycell::PyClassObject<Self>;
type BaseNativeType = <Self as #pyo3_path::impl_::pyclass::PyClassImpl>::BaseNativeType;
type Initializer = #pyo3_path::pyclass_init::PyClassInitializer<Self>;
type PyClassMutability = <Self as #pyo3_path::impl_::pyclass::PyClassImpl>::PyClassMutability;
}
}
});
let assertions = if attr.options.unsendable.is_some() {
TokenStream::new()
} else {
let assert = quote_spanned! { cls.span() => assert_pyclass_sync::<#cls>(); };
quote! {
const _: () = {
use #pyo3_path::impl_::pyclass::*;
#assert
};
}
};
Ok(quote! {
#assertions
#pyclass_base_type_impl
impl #pyo3_path::impl_::pyclass::PyClassImpl for #cls {
const IS_BASETYPE: bool = #is_basetype;
const IS_SUBCLASS: bool = #is_subclass;
const IS_MAPPING: bool = #is_mapping;
const IS_SEQUENCE: bool = #is_sequence;
type BaseType = #base;
type ThreadChecker = #thread_checker;
#inventory
type PyClassMutability = <<#base as #pyo3_path::impl_::pyclass::PyClassBaseType>::PyClassMutability as #pyo3_path::impl_::pycell::PyClassMutability>::#class_mutability;
type Dict = #dict;
type WeakRef = #weakref;
type BaseNativeType = #base_nativetype;
fn items_iter() -> #pyo3_path::impl_::pyclass::PyClassItemsIter {
use #pyo3_path::impl_::pyclass::*;
let collector = PyClassImplCollector::<Self>::new();
static INTRINSIC_ITEMS: PyClassItems = PyClassItems {
methods: &[#(#default_method_defs),*],
slots: &[#(#default_slot_defs),* #(#freelist_slots),*],
};
PyClassItemsIter::new(&INTRINSIC_ITEMS, #pymethods_items)
}
fn doc(py: #pyo3_path::Python<'_>) -> #pyo3_path::PyResult<&'static ::std::ffi::CStr> {
use #pyo3_path::impl_::pyclass::*;
static DOC: #pyo3_path::sync::GILOnceCell<::std::borrow::Cow<'static, ::std::ffi::CStr>> = #pyo3_path::sync::GILOnceCell::new();
DOC.get_or_try_init(py, || {
let collector = PyClassImplCollector::<Self>::new();
build_pyclass_doc(<#cls as #pyo3_path::PyTypeInfo>::NAME, #doc, collector.new_text_signature())
}).map(::std::ops::Deref::deref)
}
#dict_offset
#weaklist_offset
fn lazy_type_object() -> &'static #pyo3_path::impl_::pyclass::LazyTypeObject<Self> {
use #pyo3_path::impl_::pyclass::LazyTypeObject;
static TYPE_OBJECT: LazyTypeObject<#cls> = LazyTypeObject::new();
&TYPE_OBJECT
}
}
#[doc(hidden)]
#[allow(non_snake_case)]
impl #cls {
#(#default_methods)*
}
#inventory_class
})
}
fn impl_add_to_module(&self, ctx: &Ctx) -> TokenStream {
let Ctx { pyo3_path, .. } = ctx;
let cls = self.cls;
quote! {
impl #cls {
#[doc(hidden)]
pub const _PYO3_DEF: #pyo3_path::impl_::pymodule::AddClassToModule<Self> = #pyo3_path::impl_::pymodule::AddClassToModule::new();
}
}
}
fn impl_freelist(&self, ctx: &Ctx) -> TokenStream {
let cls = self.cls;
let Ctx { pyo3_path, .. } = ctx;
self.attr.options.freelist.as_ref().map_or(quote!{}, |freelist| {
let freelist = &freelist.value;
quote! {
impl #pyo3_path::impl_::pyclass::PyClassWithFreeList for #cls {
#[inline]
fn get_free_list(py: #pyo3_path::Python<'_>) -> &mut #pyo3_path::impl_::freelist::FreeList<*mut #pyo3_path::ffi::PyObject> {
static mut FREELIST: *mut #pyo3_path::impl_::freelist::FreeList<*mut #pyo3_path::ffi::PyObject> = 0 as *mut _;
unsafe {
if FREELIST.is_null() {
FREELIST = ::std::boxed::Box::into_raw(::std::boxed::Box::new(
#pyo3_path::impl_::freelist::FreeList::with_capacity(#freelist)));
}
&mut *FREELIST
}
}
}
}
})
}
fn freelist_slots(&self, ctx: &Ctx) -> Vec<TokenStream> {
let Ctx { pyo3_path, .. } = ctx;
let cls = self.cls;
if self.attr.options.freelist.is_some() {
vec![
quote! {
#pyo3_path::ffi::PyType_Slot {
slot: #pyo3_path::ffi::Py_tp_alloc,
pfunc: #pyo3_path::impl_::pyclass::alloc_with_freelist::<#cls> as *mut _,
}
},
quote! {
#pyo3_path::ffi::PyType_Slot {
slot: #pyo3_path::ffi::Py_tp_free,
pfunc: #pyo3_path::impl_::pyclass::free_with_freelist::<#cls> as *mut _,
}
},
]
} else {
Vec::new()
}
}
}
fn define_inventory_class(inventory_class_name: &syn::Ident, ctx: &Ctx) -> TokenStream {
let Ctx { pyo3_path, .. } = ctx;
quote! {
#[doc(hidden)]
pub struct #inventory_class_name {
items: #pyo3_path::impl_::pyclass::PyClassItems,
}
impl #inventory_class_name {
pub const fn new(items: #pyo3_path::impl_::pyclass::PyClassItems) -> Self {
Self { items }
}
}
impl #pyo3_path::impl_::pyclass::PyClassInventory for #inventory_class_name {
fn items(&self) -> &#pyo3_path::impl_::pyclass::PyClassItems {
&self.items
}
}
#pyo3_path::inventory::collect!(#inventory_class_name);
}
}
fn generate_cfg_check(variants: &[PyClassEnumUnitVariant<'_>], cls: &syn::Ident) -> TokenStream {
if variants.is_empty() {
return quote! {};
}
let mut conditions = Vec::new();
for variant in variants {
let cfg_attrs = &variant.cfg_attrs;
if cfg_attrs.is_empty() {
return quote! {};
}
for attr in cfg_attrs {
if let syn::Meta::List(meta) = &attr.meta {
let cfg_tokens = &meta.tokens;
conditions.push(quote! { not(#cfg_tokens) });
}
}
}
quote_spanned! {
cls.span() =>
#[cfg(all(#(#conditions),*))]
::core::compile_error!(concat!("#[pyclass] can't be used on enums without any variants - all variants of enum `", stringify!(#cls), "` have been configured out by cfg attributes"));
}
}
const UNIQUE_GET: &str = "`get` may only be specified once";
const UNIQUE_SET: &str = "`set` may only be specified once";
const UNIQUE_NAME: &str = "`name` may only be specified once";
const DUPE_SET: &str = "useless `set` - the struct is already annotated with `set_all`";
const DUPE_GET: &str = "useless `get` - the struct is already annotated with `get_all`";
const UNIT_GET: &str =
"`get_all` on an unit struct does nothing, because unit structs have no fields";
const UNIT_SET: &str =
"`set_all` on an unit struct does nothing, because unit structs have no fields";
const USELESS_NAME: &str = "`name` is useless without `get` or `set`";