use crate::syntax::atom::Atom::*;
use crate::syntax::attrs::{self, OtherAttrs};
use crate::syntax::cfg::{CfgExpr, ComputedCfg};
use crate::syntax::file::Module;
use crate::syntax::instantiate::{ImplKey, NamedImplKey};
use crate::syntax::map::OrderedMap;
use crate::syntax::message::Message;
use crate::syntax::namespace::Namespace;
use crate::syntax::qualified::QualifiedName;
use crate::syntax::report::Errors;
use crate::syntax::set::UnorderedSet;
use crate::syntax::symbol::Symbol;
use crate::syntax::trivial::TrivialReason;
use crate::syntax::types::ConditionalImpl;
use crate::syntax::unpin::UnpinReason;
use crate::syntax::{
self, check, mangle, Api, Doc, Enum, ExternFn, ExternType, FnKind, Lang, Pair, Signature,
Struct, Trait, Type, TypeAlias, Types,
};
use crate::type_id::Crate;
use crate::{derive, generics};
use proc_macro2::{Ident, Span, TokenStream};
use quote::{format_ident, quote, quote_spanned, ToTokens};
use std::fmt::{self, Display};
use std::mem;
use syn::{parse_quote, GenericParam, Generics, Lifetime, Result, Token, Visibility};
pub(crate) fn bridge(mut ffi: Module) -> Result<TokenStream> {
let ref mut errors = Errors::new();
let mut cfg = CfgExpr::Unconditional;
let mut doc = Doc::new();
let attrs = attrs::parse(
errors,
mem::take(&mut ffi.attrs),
attrs::Parser {
cfg: Some(&mut cfg),
doc: Some(&mut doc),
..Default::default()
},
);
let content = mem::take(&mut ffi.content);
let trusted = ffi.unsafety.is_some();
let namespace = &ffi.namespace;
let ref mut apis = syntax::parse_items(errors, content, trusted, namespace);
let ref types = Types::collect(errors, apis);
errors.propagate()?;
let generator = check::Generator::Macro;
check::typecheck(errors, apis, types, generator);
errors.propagate()?;
Ok(expand(ffi, doc, attrs, apis, types))
}
fn expand(ffi: Module, doc: Doc, attrs: OtherAttrs, apis: &[Api], types: &Types) -> TokenStream {
let mut expanded = TokenStream::new();
let mut hidden = TokenStream::new();
let mut forbid = TokenStream::new();
for api in apis {
if let Api::RustType(ety) = api {
expanded.extend(expand_rust_type_import(ety));
hidden.extend(expand_rust_type_assert_unpin(ety, types));
}
}
for api in apis {
match api {
Api::Include(_) | Api::Impl(_) => {}
Api::Struct(strct) => {
expanded.extend(expand_struct(strct));
expanded.extend(expand_associated_functions(&strct.name.rust, types));
hidden.extend(expand_struct_nonempty(strct));
hidden.extend(expand_struct_operators(strct));
forbid.extend(expand_struct_forbid_drop(strct));
}
Api::Enum(enm) => expanded.extend(expand_enum(enm)),
Api::CxxType(ety) => {
let ident = &ety.name.rust;
if types.structs.contains_key(ident) {
hidden.extend(expand_extern_shared_struct(ety, &ffi));
} else if !types.enums.contains_key(ident) {
expanded.extend(expand_cxx_type(ety));
expanded.extend(expand_associated_functions(&ety.name.rust, types));
hidden.extend(expand_cxx_type_assert_pinned(ety, types));
}
}
Api::CxxFunction(efn) => {
if efn.self_type().is_none() {
expanded.extend(expand_cxx_function_shim(efn, types));
}
}
Api::RustType(ety) => {
expanded.extend(expand_rust_type_impl(ety));
expanded.extend(expand_associated_functions(&ety.name.rust, types));
hidden.extend(expand_rust_type_layout(ety, types));
}
Api::RustFunction(efn) => hidden.extend(expand_rust_function_shim(efn, types)),
Api::TypeAlias(alias) => {
expanded.extend(expand_type_alias(alias));
expanded.extend(expand_associated_functions(&alias.name.rust, types));
hidden.extend(expand_type_alias_verify(alias, types));
}
}
}
for (impl_key, conditional_impl) in &types.impls {
match impl_key {
ImplKey::RustBox(ident) => {
hidden.extend(expand_rust_box(ident, types, conditional_impl));
}
ImplKey::RustVec(ident) => {
hidden.extend(expand_rust_vec(ident, types, conditional_impl));
}
ImplKey::UniquePtr(ident) => {
expanded.extend(expand_unique_ptr(ident, types, conditional_impl));
}
ImplKey::SharedPtr(ident) => {
expanded.extend(expand_shared_ptr(ident, types, conditional_impl));
}
ImplKey::WeakPtr(ident) => {
expanded.extend(expand_weak_ptr(ident, types, conditional_impl));
}
ImplKey::CxxVector(ident) => {
expanded.extend(expand_cxx_vector(ident, conditional_impl, types));
}
}
}
if !forbid.is_empty() {
hidden.extend(expand_forbid(forbid));
}
if !hidden.is_empty() {
expanded.extend(quote! {
#[doc(hidden)]
const _: () = {
#hidden
};
});
}
let all_attrs = attrs.all();
let vis = &ffi.vis;
let mod_token = &ffi.mod_token;
let ident = &ffi.ident;
let span = ffi.brace_token.span;
let expanded = quote_spanned!(span=> {#expanded});
quote! {
#doc
#all_attrs
#[deny(improper_ctypes, improper_ctypes_definitions)]
#[allow(clippy::unknown_lints)]
#[allow(
non_camel_case_types,
non_snake_case,
clippy::extra_unused_type_parameters,
clippy::items_after_statements,
clippy::no_effect_underscore_binding,
clippy::unsafe_derive_deserialize,
clippy::upper_case_acronyms,
clippy::use_self,
)]
#vis #mod_token #ident #expanded
}
}
fn expand_struct(strct: &Struct) -> TokenStream {
let ident = &strct.name.rust;
let doc = &strct.doc;
let all_attrs = strct.attrs.all();
let cfg_and_lint_attrs = strct.attrs.cfg_and_lint();
let generics = &strct.generics;
let type_id = type_id(&strct.name);
let fields = strct.fields.iter().map(|field| {
let doc = &field.doc;
let all_attrs = field.attrs.all();
let vis = field.visibility;
quote!(#doc #all_attrs #vis #field)
});
let mut derives = None;
let derived_traits = derive::expand_struct(strct, &mut derives);
let span = ident.span();
let visibility = strct.visibility;
let struct_token = strct.struct_token;
let struct_def = quote_spanned! {span=>
#visibility #struct_token #ident #generics {
#(#fields,)*
}
};
let align = strct.align.as_ref().map(|align| quote!(, align(#align)));
quote! {
#doc
#derives
#all_attrs
#[repr(C #align)]
#struct_def
#cfg_and_lint_attrs
#[automatically_derived]
unsafe impl #generics ::cxx::ExternType for #ident #generics {
#[allow(unused_attributes)] #[doc(hidden)]
type Id = #type_id;
type Kind = ::cxx::kind::Trivial;
}
#derived_traits
}
}
fn expand_struct_nonempty(strct: &Struct) -> TokenStream {
let has_unconditional_field = strct
.fields
.iter()
.any(|field| matches!(field.cfg, CfgExpr::Unconditional));
if has_unconditional_field {
return TokenStream::new();
}
let mut fields = strct.fields.iter();
let mut cfg = ComputedCfg::from(&fields.next().unwrap().cfg);
fields.for_each(|field| cfg.merge_or(&field.cfg));
if let ComputedCfg::Leaf(CfgExpr::Unconditional) = cfg {
TokenStream::new()
} else {
let meta = cfg.as_meta();
let msg = "structs without any fields are not supported";
let error = syn::Error::new_spanned(strct, msg).into_compile_error();
quote! {
#[cfg(not(#meta))]
#error
}
}
}
fn expand_struct_operators(strct: &Struct) -> TokenStream {
let ident = &strct.name.rust;
let generics = &strct.generics;
let cfg_and_lint_attrs = strct.attrs.cfg_and_lint();
let mut operators = TokenStream::new();
for derive in &strct.derives {
let span = derive.span;
match derive.what {
Trait::PartialEq => {
let link_name = mangle::operator(&strct.name, "eq");
let local_name = format_ident!("__operator_eq_{}", strct.name.rust);
let prevent_unwind_label = format!("::{} as PartialEq>::eq", strct.name.rust);
operators.extend(quote_spanned! {span=>
#cfg_and_lint_attrs
#[doc(hidden)]
#[unsafe(export_name = #link_name)]
extern "C" fn #local_name #generics(lhs: &#ident #generics, rhs: &#ident #generics) -> ::cxx::core::primitive::bool {
let __fn = ::cxx::core::concat!("<", ::cxx::core::module_path!(), #prevent_unwind_label);
::cxx::private::prevent_unwind(__fn, || *lhs == *rhs)
}
});
if !derive::contains(&strct.derives, Trait::Eq) {
let link_name = mangle::operator(&strct.name, "ne");
let local_name = format_ident!("__operator_ne_{}", strct.name.rust);
let prevent_unwind_label = format!("::{} as PartialEq>::ne", strct.name.rust);
operators.extend(quote_spanned! {span=>
#cfg_and_lint_attrs
#[doc(hidden)]
#[unsafe(export_name = #link_name)]
extern "C" fn #local_name #generics(lhs: &#ident #generics, rhs: &#ident #generics) -> ::cxx::core::primitive::bool {
let __fn = ::cxx::core::concat!("<", ::cxx::core::module_path!(), #prevent_unwind_label);
::cxx::private::prevent_unwind(__fn, || *lhs != *rhs)
}
});
}
}
Trait::PartialOrd => {
let link_name = mangle::operator(&strct.name, "lt");
let local_name = format_ident!("__operator_lt_{}", strct.name.rust);
let prevent_unwind_label = format!("::{} as PartialOrd>::lt", strct.name.rust);
operators.extend(quote_spanned! {span=>
#cfg_and_lint_attrs
#[doc(hidden)]
#[unsafe(export_name = #link_name)]
extern "C" fn #local_name #generics(lhs: &#ident #generics, rhs: &#ident #generics) -> ::cxx::core::primitive::bool {
let __fn = ::cxx::core::concat!("<", ::cxx::core::module_path!(), #prevent_unwind_label);
::cxx::private::prevent_unwind(__fn, || *lhs < *rhs)
}
});
let link_name = mangle::operator(&strct.name, "le");
let local_name = format_ident!("__operator_le_{}", strct.name.rust);
let prevent_unwind_label = format!("::{} as PartialOrd>::le", strct.name.rust);
operators.extend(quote_spanned! {span=>
#cfg_and_lint_attrs
#[doc(hidden)]
#[unsafe(export_name = #link_name)]
extern "C" fn #local_name #generics(lhs: &#ident #generics, rhs: &#ident #generics) -> ::cxx::core::primitive::bool {
let __fn = ::cxx::core::concat!("<", ::cxx::core::module_path!(), #prevent_unwind_label);
::cxx::private::prevent_unwind(__fn, || *lhs <= *rhs)
}
});
if !derive::contains(&strct.derives, Trait::Ord) {
let link_name = mangle::operator(&strct.name, "gt");
let local_name = format_ident!("__operator_gt_{}", strct.name.rust);
let prevent_unwind_label = format!("::{} as PartialOrd>::gt", strct.name.rust);
operators.extend(quote_spanned! {span=>
#cfg_and_lint_attrs
#[doc(hidden)]
#[unsafe(export_name = #link_name)]
extern "C" fn #local_name #generics(lhs: &#ident #generics, rhs: &#ident #generics) -> ::cxx::core::primitive::bool {
let __fn = ::cxx::core::concat!("<", ::cxx::core::module_path!(), #prevent_unwind_label);
::cxx::private::prevent_unwind(__fn, || *lhs > *rhs)
}
});
let link_name = mangle::operator(&strct.name, "ge");
let local_name = format_ident!("__operator_ge_{}", strct.name.rust);
let prevent_unwind_label = format!("::{} as PartialOrd>::ge", strct.name.rust);
operators.extend(quote_spanned! {span=>
#cfg_and_lint_attrs
#[doc(hidden)]
#[unsafe(export_name = #link_name)]
extern "C" fn #local_name #generics(lhs: &#ident #generics, rhs: &#ident #generics) -> ::cxx::core::primitive::bool {
let __fn = ::cxx::core::concat!("<", ::cxx::core::module_path!(), #prevent_unwind_label);
::cxx::private::prevent_unwind(__fn, || *lhs >= *rhs)
}
});
}
}
Trait::Hash => {
let link_name = mangle::operator(&strct.name, "hash");
let local_name = format_ident!("__operator_hash_{}", strct.name.rust);
let prevent_unwind_label = format!("::{} as Hash>::hash", strct.name.rust);
operators.extend(quote_spanned! {span=>
#cfg_and_lint_attrs
#[doc(hidden)]
#[unsafe(export_name = #link_name)]
#[allow(clippy::cast_possible_truncation)]
extern "C" fn #local_name #generics(this: &#ident #generics) -> ::cxx::core::primitive::usize {
let __fn = ::cxx::core::concat!("<", ::cxx::core::module_path!(), #prevent_unwind_label);
::cxx::private::prevent_unwind(__fn, || ::cxx::private::hash(this))
}
});
}
_ => {}
}
}
operators
}
fn expand_struct_forbid_drop(strct: &Struct) -> TokenStream {
let ident = &strct.name.rust;
let generics = &strct.generics;
let cfg_and_lint_attrs = strct.attrs.cfg_and_lint();
let span = ident.span();
let impl_token = Token;
quote_spanned! {span=>
#cfg_and_lint_attrs
#[automatically_derived]
#impl_token #generics self::Drop for super::#ident #generics {}
}
}
fn expand_enum(enm: &Enum) -> TokenStream {
let ident = &enm.name.rust;
let doc = &enm.doc;
let all_attrs = enm.attrs.all();
let cfg_and_lint_attrs = enm.attrs.cfg_and_lint();
let repr = &enm.repr;
let type_id = type_id(&enm.name);
let variants = enm.variants.iter().map(|variant| {
let doc = &variant.doc;
let all_attrs = variant.attrs.all();
let variant_ident = &variant.name.rust;
let discriminant = &variant.discriminant;
let span = variant_ident.span();
Some(quote_spanned! {span=>
#doc
#all_attrs
#[allow(dead_code)]
pub const #variant_ident: Self = #ident { repr: #discriminant };
})
});
let mut derives = None;
let derived_traits = derive::expand_enum(enm, &mut derives);
let span = ident.span();
let visibility = enm.visibility;
let struct_token = Token;
let enum_repr = quote! {
#[allow(missing_docs)]
pub repr: #repr,
};
let enum_def = quote_spanned! {span=>
#visibility #struct_token #ident {
#enum_repr
}
};
quote! {
#doc
#derives
#all_attrs
#[repr(transparent)]
#enum_def
#cfg_and_lint_attrs
#[allow(non_upper_case_globals)]
impl #ident {
#(#variants)*
}
#cfg_and_lint_attrs
#[automatically_derived]
unsafe impl ::cxx::ExternType for #ident {
#[allow(unused_attributes)] #[doc(hidden)]
type Id = #type_id;
type Kind = ::cxx::kind::Trivial;
}
#derived_traits
}
}
fn expand_cxx_type(ety: &ExternType) -> TokenStream {
let ident = &ety.name.rust;
let doc = &ety.doc;
let all_attrs = ety.attrs.all();
let cfg_and_lint_attrs = ety.attrs.cfg_and_lint();
let generics = &ety.generics;
let type_id = type_id(&ety.name);
let lifetime_fields = ety.generics.lifetimes.iter().map(|lifetime| {
let field = format_ident!("_lifetime_{}", lifetime.ident);
quote!(#field: ::cxx::core::marker::PhantomData<&#lifetime ()>)
});
let repr_fields = quote! {
_private: ::cxx::private::Opaque,
#(#lifetime_fields,)*
};
let span = ident.span();
let visibility = &ety.visibility;
let struct_token = Token;
let extern_type_def = quote_spanned! {span=>
#visibility #struct_token #ident #generics {
#repr_fields
}
};
quote! {
#doc
#all_attrs
#[repr(C)]
#extern_type_def
#cfg_and_lint_attrs
#[automatically_derived]
unsafe impl #generics ::cxx::ExternType for #ident #generics {
#[allow(unused_attributes)] #[doc(hidden)]
type Id = #type_id;
type Kind = ::cxx::kind::Opaque;
}
}
}
fn expand_cxx_type_assert_pinned(ety: &ExternType, types: &Types) -> TokenStream {
let ident = &ety.name.rust;
let cfg_and_lint_attrs = ety.attrs.cfg_and_lint();
let infer = Token);
let resolve = types.resolve(ident);
let lifetimes = resolve.generics.to_underscore_lifetimes();
quote! {
#cfg_and_lint_attrs
let _: fn() = {
trait __AmbiguousIfImpl<A> {
fn infer() {}
}
#[automatically_derived]
impl<T> __AmbiguousIfImpl<()> for T
where
T: ?::cxx::core::marker::Sized
{}
#[allow(dead_code)]
struct __Invalid;
#[automatically_derived]
impl<T> __AmbiguousIfImpl<__Invalid> for T
where
T: ?::cxx::core::marker::Sized + ::cxx::core::marker::Unpin,
{}
<#ident #lifetimes as __AmbiguousIfImpl<#infer>>::infer
};
}
}
fn expand_extern_shared_struct(ety: &ExternType, ffi: &Module) -> TokenStream {
let module = &ffi.ident;
let name = &ety.name.rust;
let namespaced_name = display_namespaced(&ety.name);
let cfg_and_lint_attrs = ety.attrs.cfg_and_lint();
let visibility = match &ffi.vis {
Visibility::Public(_) => "pub ".to_owned(),
Visibility::Restricted(vis) => {
format!(
"pub(in {}) ",
vis.path
.segments
.iter()
.map(|segment| segment.ident.to_string())
.collect::<Vec<_>>()
.join("::"),
)
}
Visibility::Inherited => String::new(),
};
let namespace_attr = if ety.name.namespace == Namespace::ROOT {
String::new()
} else {
format!(
"#[namespace = \"{}\"]\n ",
ety.name
.namespace
.iter()
.map(Ident::to_string)
.collect::<Vec<_>>()
.join("::"),
)
};
let message = format!(
"\
\nShared struct redeclared as an unsafe extern C++ type is deprecated.\
\nIf this is intended to be a shared struct, remove this `type {name}`.\
\nIf this is intended to be an extern type, change it to:\
\n\
\n use cxx::ExternType;\
\n \
\n #[repr(C)]\
\n {visibility}struct {name} {{\
\n ...\
\n }}\
\n \
\n unsafe impl ExternType for {name} {{\
\n type Id = cxx::type_id!(\"{namespaced_name}\");\
\n type Kind = cxx::kind::Trivial;\
\n }}\
\n \
\n {visibility}mod {module} {{\
\n {namespace_attr}extern \"C++\" {{\
\n type {name} = crate::{name};\
\n }}\
\n ...\
\n }}",
);
quote! {
#cfg_and_lint_attrs
#[deprecated = #message]
struct #name {}
#cfg_and_lint_attrs
let _ = #name {};
}
}
fn expand_associated_functions(self_type: &Ident, types: &Types) -> TokenStream {
let Some(functions) = types.associated_fn.get(self_type) else {
return TokenStream::new();
};
let resolve = types.resolve(self_type);
let self_type_cfg_attrs = resolve.attrs.cfg();
let elided_lifetime = Lifetime::new("'_", Span::call_site());
let mut group_by_lifetimes = OrderedMap::new();
let mut tokens = TokenStream::new();
for efn in functions {
match efn.lang {
Lang::Cxx | Lang::CxxUnwind => {}
Lang::Rust => continue,
}
let mut impl_lifetimes = Vec::new();
let mut self_type_lifetimes = Vec::new();
let self_lt_token;
let self_gt_token;
match &efn.kind {
FnKind::Method(receiver) if receiver.ty.generics.lt_token.is_some() => {
for lifetime in &receiver.ty.generics.lifetimes {
if lifetime.ident != "_"
&& efn
.generics
.lifetimes()
.any(|param| param.lifetime == *lifetime)
{
impl_lifetimes.push(lifetime);
}
self_type_lifetimes.push(lifetime);
}
self_lt_token = receiver.ty.generics.lt_token;
self_gt_token = receiver.ty.generics.gt_token;
}
_ => {
self_type_lifetimes.resize(resolve.generics.lifetimes.len(), &elided_lifetime);
self_lt_token = resolve.generics.lt_token;
self_gt_token = resolve.generics.gt_token;
}
}
if efn.undeclared_lifetimes().is_empty()
&& self_type_lifetimes.len() == resolve.generics.lifetimes.len()
{
group_by_lifetimes
.entry((impl_lifetimes, self_type_lifetimes))
.or_insert_with(Vec::new)
.push(efn);
} else {
let impl_token = Token);
let impl_lt_token = efn.generics.lt_token;
let impl_gt_token = efn.generics.gt_token;
let self_type = efn.self_type().unwrap();
let function = expand_cxx_function_shim(efn, types);
tokens.extend(quote! {
#self_type_cfg_attrs
#impl_token #impl_lt_token #(#impl_lifetimes),* #impl_gt_token #self_type #self_lt_token #(#self_type_lifetimes),* #self_gt_token {
#function
}
});
}
}
for ((impl_lifetimes, self_type_lifetimes), functions) in &group_by_lifetimes {
let functions = functions
.iter()
.map(|efn| expand_cxx_function_shim(efn, types));
tokens.extend(quote! {
#self_type_cfg_attrs
impl <#(#impl_lifetimes),*> #self_type <#(#self_type_lifetimes),*> {
#(#functions)*
}
});
}
tokens
}
fn expand_cxx_function_decl(efn: &ExternFn, types: &Types) -> TokenStream {
let receiver = efn.receiver().into_iter().map(|receiver| {
if types.is_considered_improper_ctype(&receiver.ty) {
if receiver.mutable {
quote!(_: *mut ::cxx::core::ffi::c_void)
} else {
quote!(_: *const ::cxx::core::ffi::c_void)
}
} else {
let receiver_type = receiver.ty();
quote!(_: #receiver_type)
}
});
let args = efn.args.iter().map(|arg| {
let var = &arg.name.rust;
let colon = arg.colon_token;
let ty = expand_extern_type(&arg.ty, types, true);
if arg.ty == RustString {
quote!(#var #colon *const #ty)
} else if let Type::RustVec(_) = arg.ty {
quote!(#var #colon *const #ty)
} else if let Type::Fn(_) = arg.ty {
quote!(#var #colon ::cxx::private::FatFunction)
} else if types.needs_indirect_abi(&arg.ty) {
quote!(#var #colon *mut #ty)
} else {
quote!(#var #colon #ty)
}
});
let all_args = receiver.chain(args);
let ret = if efn.throws {
quote!(-> ::cxx::private::Result)
} else {
expand_extern_return_type(efn, types, true, efn.lang)
};
let mut outparam = None;
if indirect_return(efn, types, efn.lang) {
let ret = expand_extern_type(efn.ret.as_ref().unwrap(), types, true);
outparam = Some(quote!(__return: *mut #ret));
}
let link_name = mangle::extern_fn(efn, types);
let local_name = format_ident!("__{}", efn.name.rust);
let lt_token = efn.generics.lt_token.unwrap_or_default();
let undeclared_lifetimes = efn.undeclared_lifetimes().into_iter();
let declared_lifetimes = &efn.generics.params;
let gt_token = efn.generics.gt_token.unwrap_or_default();
quote! {
#[link_name = #link_name]
fn #local_name #lt_token #(#undeclared_lifetimes,)* #declared_lifetimes #gt_token(#(#all_args,)* #outparam) #ret;
}
}
fn expand_cxx_function_shim(efn: &ExternFn, types: &Types) -> TokenStream {
let doc = &efn.doc;
let all_attrs = efn.attrs.all();
let decl = expand_cxx_function_decl(efn, types);
let receiver = efn.receiver().into_iter().map(|receiver| {
let var = receiver.var;
if receiver.pinned {
let colon = receiver.colon_token;
let ty = receiver.ty_self();
quote!(#var #colon #ty)
} else {
let ampersand = receiver.ampersand;
let lifetime = &receiver.lifetime;
let mutability = receiver.mutability;
quote!(#ampersand #lifetime #mutability #var)
}
});
let args = efn.args.iter().map(|arg| quote!(#arg));
let all_args = receiver.chain(args);
let ret = if efn.throws {
let ok = match &efn.ret {
Some(ret) => quote!(#ret),
None => quote!(()),
};
quote!(-> ::cxx::core::result::Result<#ok, ::cxx::Exception>)
} else {
expand_return_type(&efn.ret)
};
let indirect_return = indirect_return(efn, types, efn.lang);
let receiver_var = efn.receiver().into_iter().map(|receiver| {
if types.is_considered_improper_ctype(&receiver.ty) {
let var = receiver.var;
let ty = &receiver.ty.rust;
let resolve = types.resolve(ty);
let lifetimes = resolve.generics.to_underscore_lifetimes();
if receiver.pinned {
quote!(::cxx::core::ptr::from_mut::<#ty #lifetimes>(::cxx::core::pin::Pin::into_inner_unchecked(#var)).cast::<::cxx::core::ffi::c_void>())
} else if receiver.mutable {
quote!(::cxx::core::ptr::from_mut::<#ty #lifetimes>(#var).cast::<::cxx::core::ffi::c_void>())
} else {
quote!(::cxx::core::ptr::from_ref::<#ty #lifetimes>(#var).cast::<::cxx::core::ffi::c_void>())
}
} else {
receiver.var.to_token_stream()
}
});
let arg_vars = efn.args.iter().map(|arg| {
let var = &arg.name.rust;
let span = var.span();
match &arg.ty {
Type::Ident(ident) if ident.rust == RustString => {
quote_spanned!(span=> #var.as_mut_ptr().cast::<::cxx::private::RustString>().cast_const())
}
Type::RustBox(ty) => {
if types.is_considered_improper_ctype(&ty.inner) {
quote_spanned!(span=> ::cxx::alloc::boxed::Box::into_raw(#var).cast())
} else {
quote_spanned!(span=> ::cxx::alloc::boxed::Box::into_raw(#var))
}
}
Type::UniquePtr(ty) => {
if types.is_considered_improper_ctype(&ty.inner) {
quote_spanned!(span=> ::cxx::UniquePtr::into_raw(#var).cast())
} else {
quote_spanned!(span=> ::cxx::UniquePtr::into_raw(#var))
}
}
Type::RustVec(_) => quote_spanned!(span=> #var.as_mut_ptr().cast::<::cxx::private::RustVec<_>>().cast_const()),
Type::Ref(ty) => match &ty.inner {
Type::Ident(ident) if ident.rust == RustString => match ty.mutable {
false => quote_spanned!(span=> ::cxx::private::RustString::from_ref(#var)),
true => quote_spanned!(span=> ::cxx::private::RustString::from_mut(#var)),
},
Type::RustVec(_) => match ty.mutable {
false => quote_spanned!(span=> ::cxx::private::RustVec::from_ref(#var)),
true => quote_spanned!(span=> ::cxx::private::RustVec::from_mut(#var)),
},
inner if types.is_considered_improper_ctype(inner) => {
let var = match ty.pinned {
false => quote!(#var),
true => quote_spanned!(span=> ::cxx::core::pin::Pin::into_inner_unchecked(#var)),
};
match ty.mutable {
false => {
quote_spanned!(span=> ::cxx::core::ptr::from_ref::<#inner>(#var).cast::<::cxx::core::ffi::c_void>())
}
true => quote_spanned!(span=> ::cxx::core::ptr::from_mut::<#inner>(#var).cast::<::cxx::core::ffi::c_void>()),
}
}
_ => quote!(#var),
},
Type::Ptr(ty) => {
if types.is_considered_improper_ctype(&ty.inner) {
quote_spanned!(span=> #var.cast())
} else {
quote!(#var)
}
}
Type::Str(_) => quote_spanned!(span=> ::cxx::private::RustStr::from(#var)),
Type::SliceRef(ty) => match ty.mutable {
false => quote_spanned!(span=> ::cxx::private::RustSlice::from_ref(#var)),
true => quote_spanned!(span=> ::cxx::private::RustSlice::from_mut(#var)),
},
ty if types.needs_indirect_abi(ty) => quote_spanned!(span=> #var.as_mut_ptr()),
_ => quote!(#var),
}
});
let vars = receiver_var.chain(arg_vars);
let trampolines = efn
.args
.iter()
.filter_map(|arg| {
if let Type::Fn(f) = &arg.ty {
let var = &arg.name;
Some(expand_function_pointer_trampoline(efn, var, f, types))
} else {
None
}
})
.collect::<TokenStream>();
let mut setup = efn
.args
.iter()
.filter(|arg| types.needs_indirect_abi(&arg.ty))
.map(|arg| {
let var = &arg.name.rust;
let span = var.span();
quote_spanned! {span=>
let mut #var = ::cxx::core::mem::MaybeUninit::new(#var);
}
})
.collect::<TokenStream>();
let local_name = format_ident!("__{}", efn.name.rust);
let span = efn.semi_token.span;
let call = if indirect_return {
let ret = expand_extern_type(efn.ret.as_ref().unwrap(), types, true);
setup.extend(quote_spanned! {span=>
let mut __return = ::cxx::core::mem::MaybeUninit::<#ret>::uninit();
});
setup.extend(if efn.throws {
quote_spanned! {span=>
#local_name(#(#vars,)* __return.as_mut_ptr()).exception()?;
}
} else {
quote_spanned! {span=>
#local_name(#(#vars,)* __return.as_mut_ptr());
}
});
quote_spanned!(span=> __return.assume_init())
} else if efn.throws {
quote_spanned! {span=>
#local_name(#(#vars),*).exception()
}
} else {
quote_spanned! {span=>
#local_name(#(#vars),*)
}
};
let mut expr;
if let Some(ret) = &efn.ret {
expr = match ret {
Type::Ident(ident) if ident.rust == RustString => {
quote_spanned!(span=> #call.into_string())
}
Type::RustBox(ty) => {
if types.is_considered_improper_ctype(&ty.inner) {
quote_spanned!(span=> ::cxx::alloc::boxed::Box::from_raw(#call.cast()))
} else {
quote_spanned!(span=> ::cxx::alloc::boxed::Box::from_raw(#call))
}
}
Type::RustVec(_) => {
quote_spanned!(span=> #call.into_vec())
}
Type::UniquePtr(ty) => {
if types.is_considered_improper_ctype(&ty.inner) {
quote_spanned!(span=> ::cxx::UniquePtr::from_raw(#call.cast()))
} else {
quote_spanned!(span=> ::cxx::UniquePtr::from_raw(#call))
}
}
Type::Ref(ty) => match &ty.inner {
Type::Ident(ident) if ident.rust == RustString => match ty.mutable {
false => quote_spanned!(span=> #call.as_string()),
true => quote_spanned!(span=> #call.as_mut_string()),
},
Type::RustVec(_) => match ty.mutable {
false => quote_spanned!(span=> #call.as_vec()),
true => quote_spanned!(span=> #call.as_mut_vec()),
},
inner if types.is_considered_improper_ctype(inner) => {
let mutability = ty.mutability;
let deref_mut = quote_spanned!(span=> &#mutability *#call.cast());
match ty.pinned {
false => deref_mut,
true => {
quote_spanned!(span=> ::cxx::core::pin::Pin::new_unchecked(#deref_mut))
}
}
}
_ => call,
},
Type::Ptr(ty) => {
if types.is_considered_improper_ctype(&ty.inner) {
quote_spanned!(span=> #call.cast())
} else {
call
}
}
Type::Str(_) => quote_spanned!(span=> #call.as_str()),
Type::SliceRef(slice) => {
let inner = &slice.inner;
match slice.mutable {
false => quote_spanned!(span=> #call.as_slice::<#inner>()),
true => quote_spanned!(span=> #call.as_mut_slice::<#inner>()),
}
}
_ => call,
};
if efn.throws {
expr = quote_spanned!(span=> ::cxx::core::result::Result::Ok(#expr));
}
} else if efn.throws {
expr = call;
} else {
expr = quote! { #call; };
}
let dispatch = quote_spanned!(span=> unsafe { #setup #expr });
let visibility = efn.visibility;
let unsafety = &efn.unsafety;
let fn_token = efn.fn_token;
let ident = &efn.name.rust;
let lt_token = efn.generics.lt_token;
let lifetimes = {
let mut self_type_lifetimes = UnorderedSet::new();
if let FnKind::Method(receiver) = &efn.kind {
self_type_lifetimes.extend(&receiver.ty.generics.lifetimes);
}
efn.generics
.params
.pairs()
.filter(move |param| match param.value() {
GenericParam::Lifetime(param) => !self_type_lifetimes.contains(¶m.lifetime),
GenericParam::Type(_) | GenericParam::Const(_) => unreachable!(),
})
};
let gt_token = efn.generics.gt_token;
let arg_list = quote_spanned!(efn.paren_token.span=> (#(#all_args,)*));
let calling_conv = match efn.lang {
Lang::Cxx => quote_spanned!(span=> "C"),
Lang::CxxUnwind => quote_spanned!(span=> "C-unwind"),
Lang::Rust => unreachable!(),
};
quote_spanned! {span=>
#doc
#all_attrs
#visibility #unsafety #fn_token #ident #lt_token #(#lifetimes)* #gt_token #arg_list #ret {
unsafe extern #calling_conv {
#decl
}
#trampolines
#dispatch
}
}
}
fn expand_function_pointer_trampoline(
efn: &ExternFn,
var: &Pair,
sig: &Signature,
types: &Types,
) -> TokenStream {
let c_trampoline = mangle::c_trampoline(efn, var, types);
let r_trampoline = mangle::r_trampoline(efn, var, types);
let local_name = parse_quote!(__);
let prevent_unwind_label = format!("::{}::{}", efn.name.rust, var.rust);
let body_span = efn.semi_token.span;
let shim = expand_rust_function_shim_impl(
sig,
types,
&r_trampoline,
local_name,
prevent_unwind_label,
None,
Some(&efn.generics),
&efn.attrs,
body_span,
);
let calling_conv = match efn.lang {
Lang::Cxx => "C",
Lang::CxxUnwind => "C-unwind",
Lang::Rust => unreachable!(),
};
let var = &var.rust;
quote! {
let #var = ::cxx::private::FatFunction {
trampoline: {
unsafe extern #calling_conv {
#[link_name = #c_trampoline]
fn trampoline();
}
#shim
trampoline as ::cxx::core::primitive::usize as *const ::cxx::core::ffi::c_void
},
ptr: #var as ::cxx::core::primitive::usize as *const ::cxx::core::ffi::c_void,
};
}
}
fn expand_rust_type_import(ety: &ExternType) -> TokenStream {
let ident = &ety.name.rust;
let all_attrs = ety.attrs.all();
let span = ident.span();
quote_spanned! {span=>
#all_attrs
use super::#ident;
}
}
fn expand_rust_type_impl(ety: &ExternType) -> TokenStream {
let ident = &ety.name.rust;
let generics = &ety.generics;
let cfg_and_lint_attrs = ety.attrs.cfg_and_lint();
let span = ident.span();
let unsafe_impl = quote_spanned!(ety.type_token.span=> unsafe impl);
let mut impls = quote_spanned! {span=>
#cfg_and_lint_attrs
#[automatically_derived]
#[doc(hidden)]
#unsafe_impl #generics ::cxx::private::RustType for #ident #generics {}
};
for derive in &ety.derives {
if derive.what == Trait::ExternType {
let type_id = type_id(&ety.name);
let span = derive.span;
impls.extend(quote_spanned! {span=>
#cfg_and_lint_attrs
#[automatically_derived]
unsafe impl #generics ::cxx::ExternType for #ident #generics {
#[allow(unused_attributes)] #[doc(hidden)]
type Id = #type_id;
type Kind = ::cxx::kind::Opaque;
}
});
}
}
impls
}
fn expand_rust_type_assert_unpin(ety: &ExternType, types: &Types) -> TokenStream {
let ident = &ety.name.rust;
let cfg_and_lint_attrs = ety.attrs.cfg_and_lint();
let resolve = types.resolve(ident);
let lifetimes = resolve.generics.to_underscore_lifetimes();
quote_spanned! {ident.span()=>
#cfg_and_lint_attrs
const _: fn() = ::cxx::private::require_unpin::<#ident #lifetimes>;
}
}
fn expand_rust_type_layout(ety: &ExternType, types: &Types) -> TokenStream {
let ident = &ety.name.rust;
let cfg_and_lint_attrs = ety.attrs.cfg_and_lint();
let begin_span = Token;
let sized = quote_spanned! {ety.semi_token.span=>
#begin_span cxx::core::marker::Sized
};
let link_sizeof = mangle::operator(&ety.name, "sizeof");
let link_alignof = mangle::operator(&ety.name, "alignof");
let local_sizeof = format_ident!("__sizeof_{}", ety.name.rust);
let local_alignof = format_ident!("__alignof_{}", ety.name.rust);
let resolve = types.resolve(ident);
let lifetimes = resolve.generics.to_underscore_lifetimes();
quote_spanned! {ident.span()=>
#cfg_and_lint_attrs
{
#[doc(hidden)]
#[allow(clippy::needless_maybe_sized)]
fn __AssertSized<T: ?#sized + #sized>() -> ::cxx::core::alloc::Layout {
::cxx::core::alloc::Layout::new::<T>()
}
#[doc(hidden)]
#[unsafe(export_name = #link_sizeof)]
extern "C" fn #local_sizeof() -> ::cxx::core::primitive::usize {
__AssertSized::<#ident #lifetimes>().size()
}
#[doc(hidden)]
#[unsafe(export_name = #link_alignof)]
extern "C" fn #local_alignof() -> ::cxx::core::primitive::usize {
__AssertSized::<#ident #lifetimes>().align()
}
}
}
}
fn expand_forbid(impls: TokenStream) -> TokenStream {
quote! {
mod forbid {
pub trait Drop {}
#[automatically_derived]
#[allow(drop_bounds)]
impl<T: ?::cxx::core::marker::Sized + ::cxx::core::ops::Drop> self::Drop for T {}
#impls
}
}
}
fn expand_rust_function_shim(efn: &ExternFn, types: &Types) -> TokenStream {
let link_name = mangle::extern_fn(efn, types);
let local_name = match efn.self_type() {
None => format_ident!("__{}", efn.name.rust),
Some(self_type) => format_ident!("__{}__{}", self_type, efn.name.rust),
};
let prevent_unwind_label = match efn.self_type() {
None => format!("::{}", efn.name.rust),
Some(self_type) => format!("::{}::{}", self_type, efn.name.rust),
};
let invoke = Some(&efn.name.rust);
let body_span = efn.semi_token.span;
expand_rust_function_shim_impl(
efn,
types,
&link_name,
local_name,
prevent_unwind_label,
invoke,
None,
&efn.attrs,
body_span,
)
}
fn expand_rust_function_shim_impl(
sig: &Signature,
types: &Types,
link_name: &Symbol,
local_name: Ident,
prevent_unwind_label: String,
invoke: Option<&Ident>,
outer_generics: Option<&Generics>,
attrs: &OtherAttrs,
body_span: Span,
) -> TokenStream {
let all_attrs = attrs.all();
let generics = outer_generics.unwrap_or(&sig.generics);
let receiver_var = sig
.receiver()
.map(|receiver| quote_spanned!(receiver.var.span=> __self));
let receiver = sig.receiver().map(|receiver| {
let colon = receiver.colon_token;
let receiver_type = receiver.ty();
quote!(#receiver_var #colon #receiver_type)
});
let args = sig.args.iter().map(|arg| {
let var = &arg.name.rust;
let colon = arg.colon_token;
let ty = expand_extern_type(&arg.ty, types, false);
if types.needs_indirect_abi(&arg.ty) {
quote!(#var #colon *mut #ty)
} else {
quote!(#var #colon #ty)
}
});
let all_args = receiver.into_iter().chain(args);
let mut requires_unsafe = false;
let arg_vars = sig.args.iter().map(|arg| {
let var = &arg.name.rust;
let span = var.span();
match &arg.ty {
Type::Ident(i) if i.rust == RustString => {
requires_unsafe = true;
quote_spanned!(span=> ::cxx::core::mem::take((*#var).as_mut_string()))
}
Type::RustBox(_) => {
requires_unsafe = true;
quote_spanned!(span=> ::cxx::alloc::boxed::Box::from_raw(#var))
}
Type::RustVec(_) => {
requires_unsafe = true;
quote_spanned!(span=> ::cxx::core::mem::take((*#var).as_mut_vec()))
}
Type::UniquePtr(_) => {
requires_unsafe = true;
quote_spanned!(span=> ::cxx::UniquePtr::from_raw(#var))
}
Type::Ref(ty) => match &ty.inner {
Type::Ident(i) if i.rust == RustString => match ty.mutable {
false => quote_spanned!(span=> #var.as_string()),
true => quote_spanned!(span=> #var.as_mut_string()),
},
Type::RustVec(_) => match ty.mutable {
false => quote_spanned!(span=> #var.as_vec()),
true => quote_spanned!(span=> #var.as_mut_vec()),
},
_ => quote!(#var),
},
Type::Str(_) => {
requires_unsafe = true;
quote_spanned!(span=> #var.as_str())
}
Type::SliceRef(slice) => {
requires_unsafe = true;
let inner = &slice.inner;
match slice.mutable {
false => quote_spanned!(span=> #var.as_slice::<#inner>()),
true => quote_spanned!(span=> #var.as_mut_slice::<#inner>()),
}
}
ty if types.needs_indirect_abi(ty) => {
requires_unsafe = true;
quote_spanned!(span=> ::cxx::core::ptr::read(#var))
}
_ => quote!(#var),
}
});
let vars: Vec<_> = receiver_var.into_iter().chain(arg_vars).collect();
let mut requires_closure;
let mut call = match invoke {
Some(_) => {
requires_closure = false;
quote!(#local_name)
}
None => {
requires_closure = true;
requires_unsafe = true;
quote!(::cxx::core::mem::transmute::<*const (), #sig>(__extern))
}
};
requires_closure |= !vars.is_empty();
call.extend(quote! { (#(#vars),*) });
let wrap_super = invoke.map(|invoke| {
let unsafety = sig.unsafety.filter(|_| requires_closure);
expand_rust_function_shim_super(sig, &local_name, invoke, unsafety)
});
let span = body_span;
let conversion = sig.ret.as_ref().and_then(|ret| match ret {
Type::Ident(ident) if ident.rust == RustString => {
Some(quote_spanned!(span=> ::cxx::private::RustString::from))
}
Type::RustBox(_) => Some(quote_spanned!(span=> ::cxx::alloc::boxed::Box::into_raw)),
Type::RustVec(_) => Some(quote_spanned!(span=> ::cxx::private::RustVec::from)),
Type::UniquePtr(_) => Some(quote_spanned!(span=> ::cxx::UniquePtr::into_raw)),
Type::Ref(ty) => match &ty.inner {
Type::Ident(ident) if ident.rust == RustString => match ty.mutable {
false => Some(quote_spanned!(span=> ::cxx::private::RustString::from_ref)),
true => Some(quote_spanned!(span=> ::cxx::private::RustString::from_mut)),
},
Type::RustVec(_) => match ty.mutable {
false => Some(quote_spanned!(span=> ::cxx::private::RustVec::from_ref)),
true => Some(quote_spanned!(span=> ::cxx::private::RustVec::from_mut)),
},
_ => None,
},
Type::Str(_) => Some(quote_spanned!(span=> ::cxx::private::RustStr::from)),
Type::SliceRef(ty) => match ty.mutable {
false => Some(quote_spanned!(span=> ::cxx::private::RustSlice::from_ref)),
true => Some(quote_spanned!(span=> ::cxx::private::RustSlice::from_mut)),
},
_ => None,
});
let mut expr = match conversion {
None => call,
Some(conversion) if !sig.throws => {
requires_closure = true;
quote_spanned!(span=> #conversion(#call))
}
Some(conversion) => {
requires_closure = true;
quote_spanned!(span=> ::cxx::core::result::Result::map(#call, #conversion))
}
};
let mut outparam = None;
let indirect_return = indirect_return(sig, types, Lang::Rust);
if indirect_return {
let ret = expand_extern_type(sig.ret.as_ref().unwrap(), types, false);
outparam = Some(quote_spanned!(span=> __return: *mut #ret,));
}
if sig.throws {
let out = match sig.ret {
Some(_) => quote_spanned!(span=> __return),
None => quote_spanned!(span=> &mut ()),
};
requires_closure = true;
requires_unsafe = true;
expr = quote_spanned!(span=> ::cxx::private::r#try(#out, #expr));
} else if indirect_return {
requires_closure = true;
requires_unsafe = true;
expr = quote_spanned!(span=> ::cxx::core::ptr::write(__return, #expr));
}
if requires_unsafe {
expr = quote_spanned!(span=> unsafe { #expr });
}
let closure = if requires_closure {
quote_spanned!(span=> move || #expr)
} else {
quote!(#local_name)
};
expr = quote_spanned!(span=> ::cxx::private::prevent_unwind(__fn, #closure));
let ret = if sig.throws {
quote!(-> ::cxx::private::Result)
} else {
expand_extern_return_type(sig, types, false, Lang::Rust)
};
let pointer = match invoke {
None => Some(quote_spanned!(span=> __extern: *const ())),
Some(_) => None,
};
quote_spanned! {span=>
#all_attrs
#[doc(hidden)]
#[unsafe(export_name = #link_name)]
unsafe extern "C" fn #local_name #generics(#(#all_args,)* #outparam #pointer) #ret {
let __fn = ::cxx::core::concat!(::cxx::core::module_path!(), #prevent_unwind_label);
#wrap_super
#expr
}
}
}
fn expand_rust_function_shim_super(
sig: &Signature,
local_name: &Ident,
invoke: &Ident,
unsafety: Option<Token![unsafe]>,
) -> TokenStream {
let generics = &sig.generics;
let receiver_var = sig
.receiver()
.map(|receiver| Ident::new("__self", receiver.var.span));
let receiver = sig.receiver().into_iter().map(|receiver| {
let receiver_type = receiver.ty();
quote!(#receiver_var: #receiver_type)
});
let args = sig.args.iter().map(|arg| quote!(#arg));
let all_args = receiver.chain(args);
let ret = if let Some((result, _langle, rangle)) = sig.throws_tokens {
let ok = match &sig.ret {
Some(ret) => quote!(#ret),
None => quote!(()),
};
let result_begin = quote_spanned!(result.span=> ::cxx::core::result::Result<#ok, impl);
let result_end = quote_spanned!(rangle.span=> ::cxx::core::fmt::Display + use<>>);
quote!(-> #result_begin #result_end)
} else {
expand_return_type(&sig.ret)
};
let arg_vars = sig.args.iter().map(|arg| &arg.name.rust);
let vars = receiver_var.iter().chain(arg_vars);
let span = invoke.span();
let call = match sig.self_type() {
None => quote_spanned!(span=> super::#invoke),
Some(self_type) => quote_spanned!(span=> #self_type::#invoke),
};
let mut body = quote_spanned!(span=> #call(#(#vars,)*));
let mut allow_unused_unsafe = None;
if sig.unsafety.is_some() {
body = quote_spanned!(span=> unsafe { #body });
allow_unused_unsafe = Some(quote_spanned!(span=> #[allow(unused_unsafe)]));
}
quote_spanned! {span=>
#allow_unused_unsafe
#unsafety fn #local_name #generics(#(#all_args,)*) #ret {
#body
}
}
}
fn expand_type_alias(alias: &TypeAlias) -> TokenStream {
let doc = &alias.doc;
let all_attrs = alias.attrs.all();
let visibility = alias.visibility;
let type_token = alias.type_token;
let ident = &alias.name.rust;
let generics = &alias.generics;
let eq_token = alias.eq_token;
let ty = &alias.ty;
let semi_token = alias.semi_token;
quote! {
#doc
#all_attrs
#visibility #type_token #ident #generics #eq_token #ty #semi_token
}
}
fn expand_type_alias_verify(alias: &TypeAlias, types: &Types) -> TokenStream {
let cfg_and_lint_attrs = alias.attrs.cfg_and_lint();
let ident = &alias.name.rust;
let type_id = type_id(&alias.name);
let begin_span = alias.type_token.span;
let end_span = alias.semi_token.span;
let begin = quote_spanned!(begin_span=> ::cxx::private::verify_extern_type::<);
let end = quote_spanned!(end_span=> >);
let resolve = types.resolve(ident);
let lifetimes = resolve.generics.to_underscore_lifetimes();
let mut verify = quote! {
#cfg_and_lint_attrs
const _: fn() = #begin #ident #lifetimes, #type_id #end;
};
let mut require_unpin = false;
let mut require_box = false;
let mut require_vec = false;
let mut require_extern_type_trivial = false;
let mut require_rust_type_or_trivial = None;
if let Some(reasons) = types.required_trivial.get(&alias.name.rust) {
for reason in reasons {
match reason {
TrivialReason::BoxTarget { local: true }
| TrivialReason::VecElement { local: true } => require_unpin = true,
TrivialReason::BoxTarget { local: false } => require_box = true,
TrivialReason::VecElement { local: false } => require_vec = true,
TrivialReason::StructField(_)
| TrivialReason::FunctionArgument(_)
| TrivialReason::FunctionReturn(_) => require_extern_type_trivial = true,
TrivialReason::SliceElement(slice) => require_rust_type_or_trivial = Some(slice),
}
}
}
'unpin: {
if let Some(reason) = types.required_unpin.get(ident) {
let ampersand;
let reference_lifetime;
let mutability;
let mut inner;
let generics;
let shorthand;
match reason {
UnpinReason::Receiver(receiver) => {
ampersand = &receiver.ampersand;
reference_lifetime = &receiver.lifetime;
mutability = &receiver.mutability;
inner = receiver.ty.rust.clone();
generics = &receiver.ty.generics;
shorthand = receiver.shorthand;
if receiver.shorthand {
inner.set_span(receiver.var.span);
}
}
UnpinReason::Ref(mutable_reference) => {
ampersand = &mutable_reference.ampersand;
reference_lifetime = &mutable_reference.lifetime;
mutability = &mutable_reference.mutability;
let Type::Ident(inner_type) = &mutable_reference.inner else {
unreachable!();
};
inner = inner_type.rust.clone();
generics = &inner_type.generics;
shorthand = false;
}
UnpinReason::Slice(mutable_slice) => {
ampersand = &mutable_slice.ampersand;
mutability = &mutable_slice.mutability;
let inner = quote_spanned!(mutable_slice.bracket.span=> [#ident #lifetimes]);
let trait_name = format_ident!("SliceOfUnpin_{ident}");
let label = format!("requires `{ident}: Unpin`");
verify.extend(quote! {
#cfg_and_lint_attrs
let _ = {
#[diagnostic::on_unimplemented(
message = "mutable slice of pinned type is not supported",
label = #label,
)]
trait #trait_name {
fn check_unpin() {}
}
#[diagnostic::do_not_recommend]
impl<'a, T: ?::cxx::core::marker::Sized + ::cxx::core::marker::Unpin> #trait_name for &'a #mutability T {}
<#ampersand #mutability #inner as #trait_name>::check_unpin
};
});
require_unpin = false;
break 'unpin;
}
}
let trait_name = format_ident!("ReferenceToUnpin_{ident}");
let message =
format!("mutable reference to C++ type requires a pin -- use Pin<&mut {ident}>");
let label = {
let mut label = Message::new();
write!(label, "use `");
if shorthand {
write!(label, "self: ");
}
write!(label, "Pin<&");
if let Some(reference_lifetime) = reference_lifetime {
write!(label, "{reference_lifetime} ");
}
write!(label, "mut {ident}");
if !generics.lifetimes.is_empty() {
write!(label, "<");
for (i, lifetime) in generics.lifetimes.iter().enumerate() {
if i > 0 {
write!(label, ", ");
}
write!(label, "{lifetime}");
}
write!(label, ">");
} else if shorthand && !alias.generics.lifetimes.is_empty() {
write!(label, "<");
for i in 0..alias.generics.lifetimes.len() {
if i > 0 {
write!(label, ", ");
}
write!(label, "'_");
}
write!(label, ">");
}
write!(label, ">`");
label
};
let lifetimes = generics.to_underscore_lifetimes();
verify.extend(quote! {
#cfg_and_lint_attrs
let _ = {
#[diagnostic::on_unimplemented(message = #message, label = #label)]
trait #trait_name {
fn check_unpin() {}
}
#[diagnostic::do_not_recommend]
impl<'a, T: ?::cxx::core::marker::Sized + ::cxx::core::marker::Unpin> #trait_name for &'a mut T {}
<#ampersand #mutability #inner #lifetimes as #trait_name>::check_unpin
};
});
require_unpin = false;
}
}
if require_unpin {
verify.extend(quote! {
#cfg_and_lint_attrs
const _: fn() = ::cxx::private::require_unpin::<#ident #lifetimes>;
});
}
if require_box {
verify.extend(quote! {
#cfg_and_lint_attrs
const _: fn() = ::cxx::private::require_box::<#ident #lifetimes>;
});
}
if require_vec {
verify.extend(quote! {
#cfg_and_lint_attrs
const _: fn() = ::cxx::private::require_vec::<#ident #lifetimes>;
});
}
if require_extern_type_trivial {
let begin = quote_spanned!(begin_span=> ::cxx::private::verify_extern_kind::<);
verify.extend(quote! {
#cfg_and_lint_attrs
const _: fn() = #begin #ident #lifetimes, ::cxx::kind::Trivial #end;
});
} else if let Some(slice_type) = require_rust_type_or_trivial {
let ampersand = &slice_type.ampersand;
let mutability = &slice_type.mutability;
let inner = quote_spanned!(slice_type.bracket.span.join()=> [#ident #lifetimes]);
verify.extend(quote! {
#cfg_and_lint_attrs
let _ = || ::cxx::private::with::<#ident #lifetimes>().check_slice::<#ampersand #mutability #inner>();
});
}
verify
}
fn type_id(name: &Pair) -> TokenStream {
let namespace_segments = name.namespace.iter();
let mut segments = Vec::with_capacity(namespace_segments.len() + 1);
segments.extend(namespace_segments.cloned());
segments.push(Ident::new(&name.cxx.to_string(), Span::call_site()));
let qualified = QualifiedName { segments };
crate::type_id::expand(Crate::Cxx, qualified)
}
fn expand_rust_box(
key: &NamedImplKey,
types: &Types,
conditional_impl: &ConditionalImpl,
) -> TokenStream {
let link_prefix = format!("cxxbridge1$box${}$", key.symbol);
let link_alloc = format!("{}alloc", link_prefix);
let link_dealloc = format!("{}dealloc", link_prefix);
let link_drop = format!("{}drop", link_prefix);
let (impl_generics, inner_with_generics) =
generics::split_for_impl(key, conditional_impl, types);
let cfg = conditional_impl.cfg.into_attr();
let begin_span = conditional_impl
.explicit_impl
.map_or(key.begin_span, |explicit| explicit.impl_token.span);
let end_span = conditional_impl
.explicit_impl
.map_or(key.end_span, |explicit| explicit.brace_token.span.join());
let unsafe_token = format_ident!("unsafe", span = begin_span);
let prevent_unwind_type_label = generics::format_for_prevent_unwind_label(key.inner);
quote_spanned!(end_span=> {
#cfg
#[automatically_derived]
#[doc(hidden)]
#unsafe_token impl #impl_generics ::cxx::private::ImplBox for #inner_with_generics {}
#cfg
#[doc(hidden)]
#[unsafe(export_name = #link_alloc)]
unsafe extern "C" fn __alloc #impl_generics() -> *mut ::cxx::core::mem::MaybeUninit<#inner_with_generics> {
::cxx::alloc::boxed::Box::into_raw(::cxx::alloc::boxed::Box::new_uninit())
}
#cfg
#[doc(hidden)]
#[unsafe(export_name = #link_dealloc)]
unsafe extern "C" fn __dealloc #impl_generics(ptr: *mut ::cxx::core::mem::MaybeUninit<#inner_with_generics>) {
let _ = unsafe { ::cxx::alloc::boxed::Box::from_raw(ptr) };
}
#cfg
#[doc(hidden)]
#[unsafe(export_name = #link_drop)]
unsafe extern "C" fn __drop #impl_generics(this: *mut ::cxx::alloc::boxed::Box<#inner_with_generics>) {
let __fn = ::cxx::core::concat!("<", #prevent_unwind_type_label, " as Drop>::drop");
::cxx::private::prevent_unwind(__fn, || unsafe { ::cxx::core::ptr::drop_in_place(this) });
}
})
}
fn expand_rust_vec(
key: &NamedImplKey,
types: &Types,
conditional_impl: &ConditionalImpl,
) -> TokenStream {
let link_prefix = format!("cxxbridge1$rust_vec${}$", key.symbol);
let link_new = format!("{}new", link_prefix);
let link_drop = format!("{}drop", link_prefix);
let link_len = format!("{}len", link_prefix);
let link_capacity = format!("{}capacity", link_prefix);
let link_data = format!("{}data", link_prefix);
let link_reserve_total = format!("{}reserve_total", link_prefix);
let link_set_len = format!("{}set_len", link_prefix);
let link_truncate = format!("{}truncate", link_prefix);
let (impl_generics, inner_with_generics) =
generics::split_for_impl(key, conditional_impl, types);
let cfg = conditional_impl.cfg.into_attr();
let begin_span = conditional_impl
.explicit_impl
.map_or(key.begin_span, |explicit| explicit.impl_token.span);
let end_span = conditional_impl
.explicit_impl
.map_or(key.end_span, |explicit| explicit.brace_token.span.join());
let unsafe_token = format_ident!("unsafe", span = begin_span);
let prevent_unwind_type_label = generics::format_for_prevent_unwind_label(key.inner);
quote_spanned!(end_span=> {
#cfg
#[automatically_derived]
#[doc(hidden)]
#unsafe_token impl #impl_generics ::cxx::private::ImplVec for #inner_with_generics {}
#cfg
#[doc(hidden)]
#[unsafe(export_name = #link_new)]
unsafe extern "C" fn __new #impl_generics(this: *mut ::cxx::private::RustVec<#inner_with_generics>) {
unsafe {
::cxx::core::ptr::write(this, ::cxx::private::RustVec::new());
}
}
#cfg
#[doc(hidden)]
#[unsafe(export_name = #link_drop)]
unsafe extern "C" fn __drop #impl_generics(this: *mut ::cxx::private::RustVec<#inner_with_generics>) {
let __fn = ::cxx::core::concat!("<", #prevent_unwind_type_label, " as Drop>::drop");
::cxx::private::prevent_unwind(
__fn,
|| unsafe { ::cxx::core::ptr::drop_in_place(this) },
);
}
#cfg
#[doc(hidden)]
#[unsafe(export_name = #link_len)]
unsafe extern "C" fn __len #impl_generics(this: *const ::cxx::private::RustVec<#inner_with_generics>) -> ::cxx::core::primitive::usize {
unsafe { (*this).len() }
}
#cfg
#[doc(hidden)]
#[unsafe(export_name = #link_capacity)]
unsafe extern "C" fn __capacity #impl_generics(this: *const ::cxx::private::RustVec<#inner_with_generics>) -> ::cxx::core::primitive::usize {
unsafe { (*this).capacity() }
}
#cfg
#[doc(hidden)]
#[unsafe(export_name = #link_data)]
unsafe extern "C" fn __data #impl_generics(this: *const ::cxx::private::RustVec<#inner_with_generics>) -> *const #inner_with_generics {
unsafe { (*this).as_ptr() }
}
#cfg
#[doc(hidden)]
#[unsafe(export_name = #link_reserve_total)]
unsafe extern "C" fn __reserve_total #impl_generics(this: *mut ::cxx::private::RustVec<#inner_with_generics>, new_cap: ::cxx::core::primitive::usize) {
unsafe {
(*this).reserve_total(new_cap);
}
}
#cfg
#[doc(hidden)]
#[unsafe(export_name = #link_set_len)]
unsafe extern "C" fn __set_len #impl_generics(this: *mut ::cxx::private::RustVec<#inner_with_generics>, len: ::cxx::core::primitive::usize) {
unsafe {
(*this).set_len(len);
}
}
#cfg
#[doc(hidden)]
#[unsafe(export_name = #link_truncate)]
unsafe extern "C" fn __truncate #impl_generics(this: *mut ::cxx::private::RustVec<#inner_with_generics>, len: ::cxx::core::primitive::usize) {
let __fn = ::cxx::core::concat!("<", #prevent_unwind_type_label, " as Drop>::drop");
::cxx::private::prevent_unwind(
__fn,
|| unsafe { (*this).truncate(len) },
);
}
})
}
fn expand_unique_ptr(
key: &NamedImplKey,
types: &Types,
conditional_impl: &ConditionalImpl,
) -> TokenStream {
let prefix = format!("cxxbridge1$unique_ptr${}$", key.symbol);
let link_null = format!("{}null", prefix);
let link_uninit = format!("{}uninit", prefix);
let link_raw = format!("{}raw", prefix);
let link_get = format!("{}get", prefix);
let link_release = format!("{}release", prefix);
let link_drop = format!("{}drop", prefix);
let name = generics::concise_rust_name(key.inner);
let (impl_generics, inner_with_generics) =
generics::split_for_impl(key, conditional_impl, types);
let can_construct_from_value = types.is_maybe_trivial(key.inner);
let new_method = if can_construct_from_value {
Some(quote! {
fn __new(value: Self) -> ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void> {
unsafe extern "C" {
#[link_name = #link_uninit]
fn __uninit(this: *mut ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>) -> *mut ::cxx::core::ffi::c_void;
}
let mut repr = ::cxx::core::mem::MaybeUninit::uninit();
unsafe {
__uninit(&raw mut repr).cast::<#inner_with_generics>().write(value);
}
repr
}
})
} else {
None
};
let cfg = conditional_impl.cfg.into_attr();
let begin_span = conditional_impl
.explicit_impl
.map_or(key.begin_span, |explicit| explicit.impl_token.span);
let end_span = conditional_impl
.explicit_impl
.map_or(key.end_span, |explicit| explicit.brace_token.span.join());
let unsafe_token = format_ident!("unsafe", span = begin_span);
quote_spanned! {end_span=>
#cfg
#[automatically_derived]
#unsafe_token impl #impl_generics ::cxx::memory::UniquePtrTarget for #inner_with_generics {
fn __typename(f: &mut ::cxx::core::fmt::Formatter<'_>) -> ::cxx::core::fmt::Result {
f.write_str(#name)
}
fn __null() -> ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void> {
unsafe extern "C" {
#[link_name = #link_null]
fn __null(this: *mut ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>);
}
let mut repr = ::cxx::core::mem::MaybeUninit::uninit();
unsafe {
__null(&raw mut repr);
}
repr
}
#new_method
unsafe fn __raw(raw: *mut Self) -> ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void> {
unsafe extern "C" {
#[link_name = #link_raw]
fn __raw(this: *mut ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>, raw: *mut ::cxx::core::ffi::c_void);
}
let mut repr = ::cxx::core::mem::MaybeUninit::uninit();
unsafe {
__raw(&raw mut repr, raw.cast());
}
repr
}
unsafe fn __get(repr: ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>) -> *const Self {
unsafe extern "C" {
#[link_name = #link_get]
fn __get(this: *const ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>) -> *const ::cxx::core::ffi::c_void;
}
unsafe { __get(&raw const repr).cast() }
}
unsafe fn __release(mut repr: ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>) -> *mut Self {
unsafe extern "C" {
#[link_name = #link_release]
fn __release(this: *mut ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>) -> *mut ::cxx::core::ffi::c_void;
}
unsafe { __release(&raw mut repr).cast() }
}
unsafe fn __drop(mut repr: ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>) {
unsafe extern "C" {
#[link_name = #link_drop]
fn __drop(this: *mut ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>);
}
unsafe {
__drop(&raw mut repr);
}
}
}
}
}
fn expand_shared_ptr(
key: &NamedImplKey,
types: &Types,
conditional_impl: &ConditionalImpl,
) -> TokenStream {
let prefix = format!("cxxbridge1$shared_ptr${}$", key.symbol);
let link_null = format!("{}null", prefix);
let link_uninit = format!("{}uninit", prefix);
let link_raw = format!("{}raw", prefix);
let link_clone = format!("{}clone", prefix);
let link_get = format!("{}get", prefix);
let link_drop = format!("{}drop", prefix);
let name = generics::concise_rust_name(key.inner);
let (impl_generics, inner_with_generics) =
generics::split_for_impl(key, conditional_impl, types);
let can_construct_from_value = types.is_maybe_trivial(key.inner);
let new_method = if can_construct_from_value {
Some(quote! {
unsafe fn __new(value: Self, new: *mut ::cxx::core::ffi::c_void) {
unsafe extern "C" {
#[link_name = #link_uninit]
fn __uninit(new: *mut ::cxx::core::ffi::c_void) -> *mut ::cxx::core::ffi::c_void;
}
unsafe {
__uninit(new).cast::<#inner_with_generics>().write(value);
}
}
})
} else {
None
};
let cfg = conditional_impl.cfg.into_attr();
let begin_span = conditional_impl
.explicit_impl
.map_or(key.begin_span, |explicit| explicit.impl_token.span);
let end_span = conditional_impl
.explicit_impl
.map_or(key.end_span, |explicit| explicit.brace_token.span.join());
let unsafe_token = format_ident!("unsafe", span = begin_span);
let not_destructible_err = format!(
"{} is not destructible",
generics::concise_cxx_name(key.inner, types),
);
quote_spanned! {end_span=>
#cfg
#[automatically_derived]
#unsafe_token impl #impl_generics ::cxx::memory::SharedPtrTarget for #inner_with_generics {
fn __typename(f: &mut ::cxx::core::fmt::Formatter<'_>) -> ::cxx::core::fmt::Result {
f.write_str(#name)
}
unsafe fn __null(new: *mut ::cxx::core::ffi::c_void) {
unsafe extern "C" {
#[link_name = #link_null]
fn __null(new: *mut ::cxx::core::ffi::c_void);
}
unsafe {
__null(new);
}
}
#new_method
#[track_caller]
unsafe fn __raw(new: *mut ::cxx::core::ffi::c_void, raw: *mut Self) {
unsafe extern "C" {
#[link_name = #link_raw]
fn __raw(new: *const ::cxx::core::ffi::c_void, raw: *mut ::cxx::core::ffi::c_void) -> ::cxx::core::primitive::bool;
}
if !unsafe { __raw(new, raw.cast::<::cxx::core::ffi::c_void>()) } {
::cxx::core::panic!(#not_destructible_err);
}
}
unsafe fn __clone(this: *const ::cxx::core::ffi::c_void, new: *mut ::cxx::core::ffi::c_void) {
unsafe extern "C" {
#[link_name = #link_clone]
fn __clone(this: *const ::cxx::core::ffi::c_void, new: *mut ::cxx::core::ffi::c_void);
}
unsafe {
__clone(this, new);
}
}
unsafe fn __get(this: *const ::cxx::core::ffi::c_void) -> *const Self {
unsafe extern "C" {
#[link_name = #link_get]
fn __get(this: *const ::cxx::core::ffi::c_void) -> *const ::cxx::core::ffi::c_void;
}
unsafe { __get(this).cast() }
}
unsafe fn __drop(this: *mut ::cxx::core::ffi::c_void) {
unsafe extern "C" {
#[link_name = #link_drop]
fn __drop(this: *mut ::cxx::core::ffi::c_void);
}
unsafe {
__drop(this);
}
}
}
}
}
fn expand_weak_ptr(
key: &NamedImplKey,
types: &Types,
conditional_impl: &ConditionalImpl,
) -> TokenStream {
let prefix = format!("cxxbridge1$weak_ptr${}$", key.symbol);
let link_null = format!("{}null", prefix);
let link_clone = format!("{}clone", prefix);
let link_downgrade = format!("{}downgrade", prefix);
let link_upgrade = format!("{}upgrade", prefix);
let link_drop = format!("{}drop", prefix);
let name = generics::concise_rust_name(key.inner);
let (impl_generics, inner_with_generics) =
generics::split_for_impl(key, conditional_impl, types);
let cfg = conditional_impl.cfg.into_attr();
let begin_span = conditional_impl
.explicit_impl
.map_or(key.begin_span, |explicit| explicit.impl_token.span);
let end_span = conditional_impl
.explicit_impl
.map_or(key.end_span, |explicit| explicit.brace_token.span.join());
let unsafe_token = format_ident!("unsafe", span = begin_span);
quote_spanned! {end_span=>
#cfg
#[automatically_derived]
#unsafe_token impl #impl_generics ::cxx::memory::WeakPtrTarget for #inner_with_generics {
fn __typename(f: &mut ::cxx::core::fmt::Formatter<'_>) -> ::cxx::core::fmt::Result {
f.write_str(#name)
}
unsafe fn __null(new: *mut ::cxx::core::ffi::c_void) {
unsafe extern "C" {
#[link_name = #link_null]
fn __null(new: *mut ::cxx::core::ffi::c_void);
}
unsafe {
__null(new);
}
}
unsafe fn __clone(this: *const ::cxx::core::ffi::c_void, new: *mut ::cxx::core::ffi::c_void) {
unsafe extern "C" {
#[link_name = #link_clone]
fn __clone(this: *const ::cxx::core::ffi::c_void, new: *mut ::cxx::core::ffi::c_void);
}
unsafe {
__clone(this, new);
}
}
unsafe fn __downgrade(shared: *const ::cxx::core::ffi::c_void, weak: *mut ::cxx::core::ffi::c_void) {
unsafe extern "C" {
#[link_name = #link_downgrade]
fn __downgrade(shared: *const ::cxx::core::ffi::c_void, weak: *mut ::cxx::core::ffi::c_void);
}
unsafe {
__downgrade(shared, weak);
}
}
unsafe fn __upgrade(weak: *const ::cxx::core::ffi::c_void, shared: *mut ::cxx::core::ffi::c_void) {
unsafe extern "C" {
#[link_name = #link_upgrade]
fn __upgrade(weak: *const ::cxx::core::ffi::c_void, shared: *mut ::cxx::core::ffi::c_void);
}
unsafe {
__upgrade(weak, shared);
}
}
unsafe fn __drop(this: *mut ::cxx::core::ffi::c_void) {
unsafe extern "C" {
#[link_name = #link_drop]
fn __drop(this: *mut ::cxx::core::ffi::c_void);
}
unsafe {
__drop(this);
}
}
}
}
}
fn expand_cxx_vector(
key: &NamedImplKey,
conditional_impl: &ConditionalImpl,
types: &Types,
) -> TokenStream {
let prefix = format!("cxxbridge1$std$vector${}$", key.symbol);
let link_new = format!("{}new", prefix);
let link_size = format!("{}size", prefix);
let link_capacity = format!("{}capacity", prefix);
let link_get_unchecked = format!("{}get_unchecked", prefix);
let link_reserve = format!("{}reserve", prefix);
let link_push_back = format!("{}push_back", prefix);
let link_pop_back = format!("{}pop_back", prefix);
let unique_ptr_prefix = format!("cxxbridge1$unique_ptr$std$vector${}$", key.symbol);
let link_unique_ptr_null = format!("{}null", unique_ptr_prefix);
let link_unique_ptr_raw = format!("{}raw", unique_ptr_prefix);
let link_unique_ptr_get = format!("{}get", unique_ptr_prefix);
let link_unique_ptr_release = format!("{}release", unique_ptr_prefix);
let link_unique_ptr_drop = format!("{}drop", unique_ptr_prefix);
let name = generics::concise_rust_name(key.inner);
let (impl_generics, inner_with_generics) =
generics::split_for_impl(key, conditional_impl, types);
let cfg = conditional_impl.cfg.into_attr();
let begin_span = conditional_impl
.explicit_impl
.map_or(key.begin_span, |explicit| explicit.impl_token.span);
let end_span = conditional_impl
.explicit_impl
.map_or(key.end_span, |explicit| explicit.brace_token.span.join());
let unsafe_token = format_ident!("unsafe", span = begin_span);
let can_pass_element_by_value = types.is_maybe_trivial(key.inner);
let by_value_methods = if can_pass_element_by_value {
Some(quote_spanned! {end_span=>
unsafe fn __push_back(
this: ::cxx::core::pin::Pin<&mut ::cxx::CxxVector<Self>>,
value: &mut ::cxx::core::mem::ManuallyDrop<Self>,
) {
unsafe extern "C" {
#[link_name = #link_push_back]
fn __push_back #impl_generics(
this: ::cxx::core::pin::Pin<&mut ::cxx::CxxVector<#inner_with_generics>>,
value: *mut ::cxx::core::ffi::c_void,
);
}
unsafe {
__push_back(
this,
::cxx::core::ptr::from_mut::<::cxx::core::mem::ManuallyDrop<Self>>(value).cast::<::cxx::core::ffi::c_void>(),
);
}
}
unsafe fn __pop_back(
this: ::cxx::core::pin::Pin<&mut ::cxx::CxxVector<Self>>,
out: &mut ::cxx::core::mem::MaybeUninit<Self>,
) {
unsafe extern "C" {
#[link_name = #link_pop_back]
fn __pop_back #impl_generics(
this: ::cxx::core::pin::Pin<&mut ::cxx::CxxVector<#inner_with_generics>>,
out: *mut ::cxx::core::ffi::c_void,
);
}
unsafe {
__pop_back(
this,
::cxx::core::ptr::from_mut::<::cxx::core::mem::MaybeUninit<Self>>(out).cast::<::cxx::core::ffi::c_void>(),
);
}
}
})
} else {
None
};
let not_move_constructible_err = format!(
"{} is not move constructible",
generics::concise_cxx_name(key.inner, types),
);
quote_spanned! {end_span=>
#cfg
#[automatically_derived]
#unsafe_token impl #impl_generics ::cxx::vector::VectorElement for #inner_with_generics {
fn __typename(f: &mut ::cxx::core::fmt::Formatter<'_>) -> ::cxx::core::fmt::Result {
f.write_str(#name)
}
fn __vector_new() -> *mut ::cxx::CxxVector<Self> {
unsafe extern "C" {
#[link_name = #link_new]
fn __vector_new #impl_generics() -> *mut ::cxx::CxxVector<#inner_with_generics>;
}
unsafe { __vector_new() }
}
fn __vector_size(v: &::cxx::CxxVector<Self>) -> ::cxx::core::primitive::usize {
unsafe extern "C" {
#[link_name = #link_size]
fn __vector_size #impl_generics(_: &::cxx::CxxVector<#inner_with_generics>) -> ::cxx::core::primitive::usize;
}
unsafe { __vector_size(v) }
}
fn __vector_capacity(v: &::cxx::CxxVector<Self>) -> ::cxx::core::primitive::usize {
unsafe extern "C" {
#[link_name = #link_capacity]
fn __vector_capacity #impl_generics(_: &::cxx::CxxVector<#inner_with_generics>) -> ::cxx::core::primitive::usize;
}
unsafe { __vector_capacity(v) }
}
unsafe fn __get_unchecked(v: *mut ::cxx::CxxVector<Self>, pos: ::cxx::core::primitive::usize) -> *mut Self {
unsafe extern "C" {
#[link_name = #link_get_unchecked]
fn __get_unchecked #impl_generics(
v: *mut ::cxx::CxxVector<#inner_with_generics>,
pos: ::cxx::core::primitive::usize,
) -> *mut ::cxx::core::ffi::c_void;
}
unsafe { __get_unchecked(v, pos).cast::<Self>() }
}
unsafe fn __reserve(v: ::cxx::core::pin::Pin<&mut ::cxx::CxxVector<Self>>, new_cap: ::cxx::core::primitive::usize) {
unsafe extern "C" {
#[link_name = #link_reserve]
fn __reserve #impl_generics(
v: ::cxx::core::pin::Pin<&mut ::cxx::CxxVector<#inner_with_generics>>,
new_cap: ::cxx::core::primitive::usize,
) -> ::cxx::core::primitive::bool;
}
if !unsafe { __reserve(v, new_cap) } {
::cxx::core::panic!(#not_move_constructible_err);
}
}
#by_value_methods
fn __unique_ptr_null() -> ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void> {
unsafe extern "C" {
#[link_name = #link_unique_ptr_null]
fn __unique_ptr_null(this: *mut ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>);
}
let mut repr = ::cxx::core::mem::MaybeUninit::uninit();
unsafe {
__unique_ptr_null(&raw mut repr);
}
repr
}
unsafe fn __unique_ptr_raw(raw: *mut ::cxx::CxxVector<Self>) -> ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void> {
unsafe extern "C" {
#[link_name = #link_unique_ptr_raw]
fn __unique_ptr_raw #impl_generics(this: *mut ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>, raw: *mut ::cxx::CxxVector<#inner_with_generics>);
}
let mut repr = ::cxx::core::mem::MaybeUninit::uninit();
unsafe {
__unique_ptr_raw(&raw mut repr, raw);
}
repr
}
unsafe fn __unique_ptr_get(repr: ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>) -> *const ::cxx::CxxVector<Self> {
unsafe extern "C" {
#[link_name = #link_unique_ptr_get]
fn __unique_ptr_get #impl_generics(this: *const ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>) -> *const ::cxx::CxxVector<#inner_with_generics>;
}
unsafe { __unique_ptr_get(&raw const repr) }
}
unsafe fn __unique_ptr_release(mut repr: ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>) -> *mut ::cxx::CxxVector<Self> {
unsafe extern "C" {
#[link_name = #link_unique_ptr_release]
fn __unique_ptr_release #impl_generics(this: *mut ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>) -> *mut ::cxx::CxxVector<#inner_with_generics>;
}
unsafe { __unique_ptr_release(&raw mut repr) }
}
unsafe fn __unique_ptr_drop(mut repr: ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>) {
unsafe extern "C" {
#[link_name = #link_unique_ptr_drop]
fn __unique_ptr_drop(this: *mut ::cxx::core::mem::MaybeUninit<*mut ::cxx::core::ffi::c_void>);
}
unsafe {
__unique_ptr_drop(&raw mut repr);
}
}
}
}
}
fn expand_return_type(ret: &Option<Type>) -> TokenStream {
match ret {
Some(ret) => quote!(-> #ret),
None => TokenStream::new(),
}
}
fn indirect_return(sig: &Signature, types: &Types, lang: Lang) -> bool {
sig.ret.as_ref().is_some_and(|ret| {
sig.throws
|| types.needs_indirect_abi(ret)
|| match lang {
Lang::Cxx | Lang::CxxUnwind => types.contains_elided_lifetime(ret),
Lang::Rust => false,
}
})
}
fn expand_extern_type(ty: &Type, types: &Types, proper: bool) -> TokenStream {
match ty {
Type::Ident(ident) if ident.rust == RustString => {
let span = ident.rust.span();
quote_spanned!(span=> ::cxx::private::RustString)
}
Type::RustBox(ty) | Type::UniquePtr(ty) => {
let span = ty.name.span();
if proper && types.is_considered_improper_ctype(&ty.inner) {
quote_spanned!(span=> *mut ::cxx::core::ffi::c_void)
} else {
let inner = expand_extern_type(&ty.inner, types, proper);
quote_spanned!(span=> *mut #inner)
}
}
Type::RustVec(ty) => {
let span = ty.name.span();
let langle = ty.langle;
let elem = &ty.inner;
let rangle = ty.rangle;
quote_spanned!(span=> ::cxx::private::RustVec #langle #elem #rangle)
}
Type::Ref(ty) => {
let ampersand = ty.ampersand;
let lifetime = &ty.lifetime;
let mutability = ty.mutability;
match &ty.inner {
Type::Ident(ident) if ident.rust == RustString => {
let span = ident.rust.span();
quote_spanned!(span=> #ampersand #lifetime #mutability ::cxx::private::RustString)
}
Type::RustVec(ty) => {
let span = ty.name.span();
let langle = ty.langle;
let inner = &ty.inner;
let rangle = ty.rangle;
quote_spanned!(span=> #ampersand #lifetime #mutability ::cxx::private::RustVec #langle #inner #rangle)
}
inner if proper && types.is_considered_improper_ctype(inner) => {
let star = Token;
match ty.mutable {
false => quote!(#star const ::cxx::core::ffi::c_void),
true => quote!(#star #mutability ::cxx::core::ffi::c_void),
}
}
_ => quote!(#ty),
}
}
Type::Ptr(ty) => {
if proper && types.is_considered_improper_ctype(&ty.inner) {
let star = ty.star;
let mutability = ty.mutability;
let constness = ty.constness;
quote!(#star #mutability #constness ::cxx::core::ffi::c_void)
} else {
quote!(#ty)
}
}
Type::Str(ty) => {
let span = ty.ampersand.span;
let rust_str = Ident::new("RustStr", syn::spanned::Spanned::span(&ty.inner));
quote_spanned!(span=> ::cxx::private::#rust_str)
}
Type::SliceRef(ty) => {
let span = ty.ampersand.span;
let rust_slice = Ident::new("RustSlice", ty.bracket.span.join());
quote_spanned!(span=> ::cxx::private::#rust_slice)
}
_ => quote!(#ty),
}
}
fn expand_extern_return_type(
sig: &Signature,
types: &Types,
proper: bool,
lang: Lang,
) -> TokenStream {
let ret = match &sig.ret {
Some(ret) if !indirect_return(sig, types, lang) => ret,
_ => return TokenStream::new(),
};
let ty = expand_extern_type(ret, types, proper);
quote!(-> #ty)
}
pub(crate) fn display_namespaced(name: &Pair) -> impl Display + '_ {
struct Namespaced<'a>(&'a Pair);
impl<'a> Display for Namespaced<'a> {
fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result {
for segment in &self.0.namespace {
write!(formatter, "{segment}::")?;
}
write!(formatter, "{}", self.0.cxx)
}
}
Namespaced(name)
}