| use crate::gen::block::Block; |
| use crate::gen::nested::NamespaceEntries; |
| use crate::gen::out::OutFile; |
| use crate::gen::{builtin, include, Opt}; |
| use crate::syntax::atom::Atom::{self, *}; |
| use crate::syntax::instantiate::{ImplKey, NamedImplKey}; |
| use crate::syntax::map::UnorderedMap as Map; |
| use crate::syntax::set::UnorderedSet; |
| use crate::syntax::symbol::Symbol; |
| use crate::syntax::trivial::{self, TrivialReason}; |
| use crate::syntax::{ |
| derive, mangle, Api, Doc, Enum, EnumRepr, ExternFn, ExternType, Pair, Signature, Struct, Trait, |
| Type, TypeAlias, Types, Var, |
| }; |
| use proc_macro2::Ident; |
| |
| pub(super) fn gen(apis: &[Api], types: &Types, opt: &Opt, header: bool) -> Vec<u8> { |
| let mut out_file = OutFile::new(header, opt, types); |
| let out = &mut out_file; |
| |
| pick_includes_and_builtins(out, apis); |
| out.include.extend(&opt.include); |
| |
| write_forward_declarations(out, apis); |
| write_data_structures(out, apis); |
| write_functions(out, apis); |
| write_generic_instantiations(out); |
| |
| builtin::write(out); |
| include::write(out); |
| |
| out_file.content() |
| } |
| |
| fn write_forward_declarations(out: &mut OutFile, apis: &[Api]) { |
| let needs_forward_declaration = |api: &&Api| match api { |
| Api::Struct(_) | Api::CxxType(_) | Api::RustType(_) => true, |
| Api::Enum(enm) => !out.types.cxx.contains(&enm.name.rust), |
| _ => false, |
| }; |
| |
| let apis_by_namespace = |
| NamespaceEntries::new(apis.iter().filter(needs_forward_declaration).collect()); |
| |
| write(out, &apis_by_namespace, 0); |
| |
| fn write(out: &mut OutFile, ns_entries: &NamespaceEntries, indent: usize) { |
| let apis = ns_entries.direct_content(); |
| |
| for api in apis { |
| write!(out, "{:1$}", "", indent); |
| match api { |
| Api::Struct(strct) => write_struct_decl(out, &strct.name), |
| Api::Enum(enm) => write_enum_decl(out, enm), |
| Api::CxxType(ety) => write_struct_using(out, &ety.name), |
| Api::RustType(ety) => write_struct_decl(out, &ety.name), |
| _ => unreachable!(), |
| } |
| } |
| |
| for (namespace, nested_ns_entries) in ns_entries.nested_content() { |
| writeln!(out, "{:2$}namespace {} {{", "", namespace, indent); |
| write(out, nested_ns_entries, indent + 2); |
| writeln!(out, "{:1$}}}", "", indent); |
| } |
| } |
| } |
| |
| fn write_data_structures<'a>(out: &mut OutFile<'a>, apis: &'a [Api]) { |
| let mut methods_for_type = Map::new(); |
| for api in apis { |
| if let Api::CxxFunction(efn) | Api::RustFunction(efn) = api { |
| if let Some(receiver) = &efn.sig.receiver { |
| methods_for_type |
| .entry(&receiver.ty.rust) |
| .or_insert_with(Vec::new) |
| .push(efn); |
| } |
| } |
| } |
| |
| let mut structs_written = UnorderedSet::new(); |
| let mut toposorted_structs = out.types.toposorted_structs.iter(); |
| for api in apis { |
| match api { |
| Api::Struct(strct) if !structs_written.contains(&strct.name.rust) => { |
| for next in &mut toposorted_structs { |
| if !out.types.cxx.contains(&strct.name.rust) { |
| out.next_section(); |
| let methods = methods_for_type |
| .get(&strct.name.rust) |
| .map(Vec::as_slice) |
| .unwrap_or_default(); |
| write_struct(out, next, methods); |
| } |
| structs_written.insert(&next.name.rust); |
| if next.name.rust == strct.name.rust { |
| break; |
| } |
| } |
| } |
| Api::Enum(enm) => { |
| out.next_section(); |
| if !out.types.cxx.contains(&enm.name.rust) { |
| write_enum(out, enm); |
| } else if !enm.variants_from_header { |
| check_enum(out, enm); |
| } |
| } |
| Api::RustType(ety) => { |
| out.next_section(); |
| let methods = methods_for_type |
| .get(&ety.name.rust) |
| .map(Vec::as_slice) |
| .unwrap_or_default(); |
| write_opaque_type(out, ety, methods); |
| } |
| _ => {} |
| } |
| } |
| |
| if out.header { |
| return; |
| } |
| |
| out.set_namespace(Default::default()); |
| |
| out.next_section(); |
| for api in apis { |
| if let Api::TypeAlias(ety) = api { |
| if let Some(reasons) = out.types.required_trivial.get(&ety.name.rust) { |
| check_trivial_extern_type(out, ety, reasons) |
| } |
| } |
| } |
| } |
| |
| fn write_functions<'a>(out: &mut OutFile<'a>, apis: &'a [Api]) { |
| if !out.header { |
| for api in apis { |
| match api { |
| Api::Struct(strct) => write_struct_operator_decls(out, strct), |
| Api::RustType(ety) => write_opaque_type_layout_decls(out, ety), |
| Api::CxxFunction(efn) => write_cxx_function_shim(out, efn), |
| Api::RustFunction(efn) => write_rust_function_decl(out, efn), |
| _ => {} |
| } |
| } |
| |
| write_std_specializations(out, apis); |
| } |
| |
| for api in apis { |
| match api { |
| Api::Struct(strct) => write_struct_operators(out, strct), |
| Api::RustType(ety) => write_opaque_type_layout(out, ety), |
| Api::RustFunction(efn) => { |
| out.next_section(); |
| write_rust_function_shim(out, efn); |
| } |
| _ => {} |
| } |
| } |
| } |
| |
| fn write_std_specializations(out: &mut OutFile, apis: &[Api]) { |
| out.set_namespace(Default::default()); |
| out.begin_block(Block::Namespace("std")); |
| |
| for api in apis { |
| if let Api::Struct(strct) = api { |
| if derive::contains(&strct.derives, Trait::Hash) { |
| out.next_section(); |
| out.include.cstddef = true; |
| out.include.functional = true; |
| let qualified = strct.name.to_fully_qualified(); |
| writeln!(out, "template <> struct hash<{}> {{", qualified); |
| writeln!( |
| out, |
| " ::std::size_t operator()(const {} &self) const noexcept {{", |
| qualified, |
| ); |
| let link_name = mangle::operator(&strct.name, "hash"); |
| write!(out, " return ::"); |
| for name in &strct.name.namespace { |
| write!(out, "{}::", name); |
| } |
| writeln!(out, "{}(self);", link_name); |
| writeln!(out, " }}"); |
| writeln!(out, "}};"); |
| } |
| } |
| } |
| |
| out.end_block(Block::Namespace("std")); |
| } |
| |
| fn pick_includes_and_builtins(out: &mut OutFile, apis: &[Api]) { |
| for api in apis { |
| if let Api::Include(include) = api { |
| out.include.insert(include); |
| } |
| } |
| |
| for ty in out.types { |
| match ty { |
| Type::Ident(ident) => match Atom::from(&ident.rust) { |
| Some(U8) | Some(U16) | Some(U32) | Some(U64) | Some(I8) | Some(I16) | Some(I32) |
| | Some(I64) => out.include.cstdint = true, |
| Some(Usize) => out.include.cstddef = true, |
| Some(Isize) => out.builtin.rust_isize = true, |
| Some(CxxString) => out.include.string = true, |
| Some(RustString) => out.builtin.rust_string = true, |
| Some(Bool) | Some(Char) | Some(F32) | Some(F64) | None => {} |
| }, |
| Type::RustBox(_) => out.builtin.rust_box = true, |
| Type::RustVec(_) => out.builtin.rust_vec = true, |
| Type::UniquePtr(_) => out.include.memory = true, |
| Type::SharedPtr(_) | Type::WeakPtr(_) => out.include.memory = true, |
| Type::Str(_) => out.builtin.rust_str = true, |
| Type::CxxVector(_) => out.include.vector = true, |
| Type::Fn(_) => out.builtin.rust_fn = true, |
| Type::SliceRef(_) => out.builtin.rust_slice = true, |
| Type::Array(_) => out.include.array = true, |
| Type::Ref(_) | Type::Void(_) | Type::Ptr(_) => {} |
| } |
| } |
| } |
| |
| fn write_struct<'a>(out: &mut OutFile<'a>, strct: &'a Struct, methods: &[&ExternFn]) { |
| let operator_eq = derive::contains(&strct.derives, Trait::PartialEq); |
| let operator_ord = derive::contains(&strct.derives, Trait::PartialOrd); |
| |
| out.set_namespace(&strct.name.namespace); |
| let guard = format!("CXXBRIDGE1_STRUCT_{}", strct.name.to_symbol()); |
| writeln!(out, "#ifndef {}", guard); |
| writeln!(out, "#define {}", guard); |
| for line in strct.doc.to_string().lines() { |
| writeln!(out, "//{}", line); |
| } |
| writeln!(out, "struct {} final {{", strct.name.cxx); |
| |
| for field in &strct.fields { |
| for line in field.doc.to_string().lines() { |
| writeln!(out, " //{}", line); |
| } |
| write!(out, " "); |
| write_type_space(out, &field.ty); |
| writeln!(out, "{};", field.name.cxx); |
| } |
| |
| out.next_section(); |
| |
| for method in methods { |
| if !method.doc.is_empty() { |
| out.next_section(); |
| } |
| for line in method.doc.to_string().lines() { |
| writeln!(out, " //{}", line); |
| } |
| write!(out, " "); |
| let sig = &method.sig; |
| let local_name = method.name.cxx.to_string(); |
| let indirect_call = false; |
| write_rust_function_shim_decl(out, &local_name, sig, indirect_call); |
| writeln!(out, ";"); |
| if !method.doc.is_empty() { |
| out.next_section(); |
| } |
| } |
| |
| if operator_eq { |
| writeln!( |
| out, |
| " bool operator==(const {} &) const noexcept;", |
| strct.name.cxx, |
| ); |
| writeln!( |
| out, |
| " bool operator!=(const {} &) const noexcept;", |
| strct.name.cxx, |
| ); |
| } |
| |
| if operator_ord { |
| writeln!( |
| out, |
| " bool operator<(const {} &) const noexcept;", |
| strct.name.cxx, |
| ); |
| writeln!( |
| out, |
| " bool operator<=(const {} &) const noexcept;", |
| strct.name.cxx, |
| ); |
| writeln!( |
| out, |
| " bool operator>(const {} &) const noexcept;", |
| strct.name.cxx, |
| ); |
| writeln!( |
| out, |
| " bool operator>=(const {} &) const noexcept;", |
| strct.name.cxx, |
| ); |
| } |
| |
| out.include.type_traits = true; |
| writeln!(out, " using IsRelocatable = ::std::true_type;"); |
| |
| writeln!(out, "}};"); |
| writeln!(out, "#endif // {}", guard); |
| } |
| |
| fn write_struct_decl(out: &mut OutFile, ident: &Pair) { |
| writeln!(out, "struct {};", ident.cxx); |
| } |
| |
| fn write_enum_decl(out: &mut OutFile, enm: &Enum) { |
| let repr = match &enm.repr { |
| EnumRepr::Foreign { .. } => return, |
| EnumRepr::Native { atom, .. } => *atom, |
| }; |
| write!(out, "enum class {} : ", enm.name.cxx); |
| write_atom(out, repr); |
| writeln!(out, ";"); |
| } |
| |
| fn write_struct_using(out: &mut OutFile, ident: &Pair) { |
| writeln!(out, "using {} = {};", ident.cxx, ident.to_fully_qualified()); |
| } |
| |
| fn write_opaque_type<'a>(out: &mut OutFile<'a>, ety: &'a ExternType, methods: &[&ExternFn]) { |
| out.set_namespace(&ety.name.namespace); |
| let guard = format!("CXXBRIDGE1_STRUCT_{}", ety.name.to_symbol()); |
| writeln!(out, "#ifndef {}", guard); |
| writeln!(out, "#define {}", guard); |
| for line in ety.doc.to_string().lines() { |
| writeln!(out, "//{}", line); |
| } |
| |
| out.builtin.opaque = true; |
| writeln!( |
| out, |
| "struct {} final : public ::rust::Opaque {{", |
| ety.name.cxx, |
| ); |
| |
| for (i, method) in methods.iter().enumerate() { |
| if i > 0 && !method.doc.is_empty() { |
| out.next_section(); |
| } |
| for line in method.doc.to_string().lines() { |
| writeln!(out, " //{}", line); |
| } |
| write!(out, " "); |
| let sig = &method.sig; |
| let local_name = method.name.cxx.to_string(); |
| let indirect_call = false; |
| write_rust_function_shim_decl(out, &local_name, sig, indirect_call); |
| writeln!(out, ";"); |
| if !method.doc.is_empty() { |
| out.next_section(); |
| } |
| } |
| |
| writeln!(out, " ~{}() = delete;", ety.name.cxx); |
| writeln!(out); |
| |
| out.builtin.layout = true; |
| out.include.cstddef = true; |
| writeln!(out, "private:"); |
| writeln!(out, " friend ::rust::layout;"); |
| writeln!(out, " struct layout {{"); |
| writeln!(out, " static ::std::size_t size() noexcept;"); |
| writeln!(out, " static ::std::size_t align() noexcept;"); |
| writeln!(out, " }};"); |
| writeln!(out, "}};"); |
| writeln!(out, "#endif // {}", guard); |
| } |
| |
| fn write_enum<'a>(out: &mut OutFile<'a>, enm: &'a Enum) { |
| let repr = match &enm.repr { |
| EnumRepr::Foreign { .. } => return, |
| EnumRepr::Native { atom, .. } => *atom, |
| }; |
| out.set_namespace(&enm.name.namespace); |
| let guard = format!("CXXBRIDGE1_ENUM_{}", enm.name.to_symbol()); |
| writeln!(out, "#ifndef {}", guard); |
| writeln!(out, "#define {}", guard); |
| for line in enm.doc.to_string().lines() { |
| writeln!(out, "//{}", line); |
| } |
| write!(out, "enum class {} : ", enm.name.cxx); |
| write_atom(out, repr); |
| writeln!(out, " {{"); |
| for variant in &enm.variants { |
| for line in variant.doc.to_string().lines() { |
| writeln!(out, " //{}", line); |
| } |
| writeln!(out, " {} = {},", variant.name.cxx, variant.discriminant); |
| } |
| writeln!(out, "}};"); |
| writeln!(out, "#endif // {}", guard); |
| } |
| |
| fn check_enum<'a>(out: &mut OutFile<'a>, enm: &'a Enum) { |
| let repr = match &enm.repr { |
| EnumRepr::Foreign { .. } => return, |
| EnumRepr::Native { atom, .. } => *atom, |
| }; |
| out.set_namespace(&enm.name.namespace); |
| out.include.type_traits = true; |
| writeln!( |
| out, |
| "static_assert(::std::is_enum<{}>::value, \"expected enum\");", |
| enm.name.cxx, |
| ); |
| write!(out, "static_assert(sizeof({}) == sizeof(", enm.name.cxx); |
| write_atom(out, repr); |
| writeln!(out, "), \"incorrect size\");"); |
| for variant in &enm.variants { |
| write!(out, "static_assert(static_cast<"); |
| write_atom(out, repr); |
| writeln!( |
| out, |
| ">({}::{}) == {}, \"disagrees with the value in #[cxx::bridge]\");", |
| enm.name.cxx, variant.name.cxx, variant.discriminant, |
| ); |
| } |
| } |
| |
| fn check_trivial_extern_type(out: &mut OutFile, alias: &TypeAlias, reasons: &[TrivialReason]) { |
| // NOTE: The following static assertion is just nice-to-have and not |
| // necessary for soundness. That's because triviality is always declared by |
| // the user in the form of an unsafe impl of cxx::ExternType: |
| // |
| // unsafe impl ExternType for MyType { |
| // type Id = cxx::type_id!("..."); |
| // type Kind = cxx::kind::Trivial; |
| // } |
| // |
| // Since the user went on the record with their unsafe impl to unsafely |
| // claim they KNOW that the type is trivial, it's fine for that to be on |
| // them if that were wrong. However, in practice correctly reasoning about |
| // the relocatability of C++ types is challenging, particularly if the type |
| // definition were to change over time, so for now we add this check. |
| // |
| // There may be legitimate reasons to opt out of this assertion for support |
| // of types that the programmer knows are soundly Rust-movable despite not |
| // being recognized as such by the C++ type system due to a move constructor |
| // or destructor. To opt out of the relocatability check, they need to do |
| // one of the following things in any header used by `include!` in their |
| // bridge. |
| // |
| // --- if they define the type: |
| // struct MyType { |
| // ... |
| // + using IsRelocatable = std::true_type; |
| // }; |
| // |
| // --- otherwise: |
| // + template <> |
| // + struct rust::IsRelocatable<MyType> : std::true_type {}; |
| // |
| |
| let id = alias.name.to_fully_qualified(); |
| out.builtin.relocatable = true; |
| writeln!(out, "static_assert("); |
| writeln!(out, " ::rust::IsRelocatable<{}>::value,", id); |
| writeln!( |
| out, |
| " \"type {} should be trivially move constructible and trivially destructible in C++ to be used as {} in Rust\");", |
| id.trim_start_matches("::"), |
| trivial::as_what(&alias.name, reasons), |
| ); |
| } |
| |
| fn write_struct_operator_decls<'a>(out: &mut OutFile<'a>, strct: &'a Struct) { |
| out.set_namespace(&strct.name.namespace); |
| out.begin_block(Block::ExternC); |
| |
| if derive::contains(&strct.derives, Trait::PartialEq) { |
| let link_name = mangle::operator(&strct.name, "eq"); |
| writeln!( |
| out, |
| "bool {}(const {1} &, const {1} &) noexcept;", |
| link_name, strct.name.cxx, |
| ); |
| |
| if !derive::contains(&strct.derives, Trait::Eq) { |
| let link_name = mangle::operator(&strct.name, "ne"); |
| writeln!( |
| out, |
| "bool {}(const {1} &, const {1} &) noexcept;", |
| link_name, strct.name.cxx, |
| ); |
| } |
| } |
| |
| if derive::contains(&strct.derives, Trait::PartialOrd) { |
| let link_name = mangle::operator(&strct.name, "lt"); |
| writeln!( |
| out, |
| "bool {}(const {1} &, const {1} &) noexcept;", |
| link_name, strct.name.cxx, |
| ); |
| |
| let link_name = mangle::operator(&strct.name, "le"); |
| writeln!( |
| out, |
| "bool {}(const {1} &, const {1} &) noexcept;", |
| link_name, strct.name.cxx, |
| ); |
| |
| if !derive::contains(&strct.derives, Trait::Ord) { |
| let link_name = mangle::operator(&strct.name, "gt"); |
| writeln!( |
| out, |
| "bool {}(const {1} &, const {1} &) noexcept;", |
| link_name, strct.name.cxx, |
| ); |
| |
| let link_name = mangle::operator(&strct.name, "ge"); |
| writeln!( |
| out, |
| "bool {}(const {1} &, const {1} &) noexcept;", |
| link_name, strct.name.cxx, |
| ); |
| } |
| } |
| |
| if derive::contains(&strct.derives, Trait::Hash) { |
| out.include.cstddef = true; |
| let link_name = mangle::operator(&strct.name, "hash"); |
| writeln!( |
| out, |
| "::std::size_t {}(const {} &) noexcept;", |
| link_name, strct.name.cxx, |
| ); |
| } |
| |
| out.end_block(Block::ExternC); |
| } |
| |
| fn write_struct_operators<'a>(out: &mut OutFile<'a>, strct: &'a Struct) { |
| if out.header { |
| return; |
| } |
| |
| out.set_namespace(&strct.name.namespace); |
| |
| if derive::contains(&strct.derives, Trait::PartialEq) { |
| out.next_section(); |
| writeln!( |
| out, |
| "bool {0}::operator==(const {0} &rhs) const noexcept {{", |
| strct.name.cxx, |
| ); |
| let link_name = mangle::operator(&strct.name, "eq"); |
| writeln!(out, " return {}(*this, rhs);", link_name); |
| writeln!(out, "}}"); |
| |
| out.next_section(); |
| writeln!( |
| out, |
| "bool {0}::operator!=(const {0} &rhs) const noexcept {{", |
| strct.name.cxx, |
| ); |
| if derive::contains(&strct.derives, Trait::Eq) { |
| writeln!(out, " return !(*this == rhs);"); |
| } else { |
| let link_name = mangle::operator(&strct.name, "ne"); |
| writeln!(out, " return {}(*this, rhs);", link_name); |
| } |
| writeln!(out, "}}"); |
| } |
| |
| if derive::contains(&strct.derives, Trait::PartialOrd) { |
| out.next_section(); |
| writeln!( |
| out, |
| "bool {0}::operator<(const {0} &rhs) const noexcept {{", |
| strct.name.cxx, |
| ); |
| let link_name = mangle::operator(&strct.name, "lt"); |
| writeln!(out, " return {}(*this, rhs);", link_name); |
| writeln!(out, "}}"); |
| |
| out.next_section(); |
| writeln!( |
| out, |
| "bool {0}::operator<=(const {0} &rhs) const noexcept {{", |
| strct.name.cxx, |
| ); |
| let link_name = mangle::operator(&strct.name, "le"); |
| writeln!(out, " return {}(*this, rhs);", link_name); |
| writeln!(out, "}}"); |
| |
| out.next_section(); |
| writeln!( |
| out, |
| "bool {0}::operator>(const {0} &rhs) const noexcept {{", |
| strct.name.cxx, |
| ); |
| if derive::contains(&strct.derives, Trait::Ord) { |
| writeln!(out, " return !(*this <= rhs);"); |
| } else { |
| let link_name = mangle::operator(&strct.name, "gt"); |
| writeln!(out, " return {}(*this, rhs);", link_name); |
| } |
| writeln!(out, "}}"); |
| |
| out.next_section(); |
| writeln!( |
| out, |
| "bool {0}::operator>=(const {0} &rhs) const noexcept {{", |
| strct.name.cxx, |
| ); |
| if derive::contains(&strct.derives, Trait::Ord) { |
| writeln!(out, " return !(*this < rhs);"); |
| } else { |
| let link_name = mangle::operator(&strct.name, "ge"); |
| writeln!(out, " return {}(*this, rhs);", link_name); |
| } |
| writeln!(out, "}}"); |
| } |
| } |
| |
| fn write_opaque_type_layout_decls<'a>(out: &mut OutFile<'a>, ety: &'a ExternType) { |
| out.set_namespace(&ety.name.namespace); |
| out.begin_block(Block::ExternC); |
| |
| let link_name = mangle::operator(&ety.name, "sizeof"); |
| writeln!(out, "::std::size_t {}() noexcept;", link_name); |
| |
| let link_name = mangle::operator(&ety.name, "alignof"); |
| writeln!(out, "::std::size_t {}() noexcept;", link_name); |
| |
| out.end_block(Block::ExternC); |
| } |
| |
| fn write_opaque_type_layout<'a>(out: &mut OutFile<'a>, ety: &'a ExternType) { |
| if out.header { |
| return; |
| } |
| |
| out.set_namespace(&ety.name.namespace); |
| |
| out.next_section(); |
| let link_name = mangle::operator(&ety.name, "sizeof"); |
| writeln!( |
| out, |
| "::std::size_t {}::layout::size() noexcept {{", |
| ety.name.cxx, |
| ); |
| writeln!(out, " return {}();", link_name); |
| writeln!(out, "}}"); |
| |
| out.next_section(); |
| let link_name = mangle::operator(&ety.name, "alignof"); |
| writeln!( |
| out, |
| "::std::size_t {}::layout::align() noexcept {{", |
| ety.name.cxx, |
| ); |
| writeln!(out, " return {}();", link_name); |
| writeln!(out, "}}"); |
| } |
| |
| fn begin_function_definition(out: &mut OutFile) { |
| if let Some(annotation) = &out.opt.cxx_impl_annotations { |
| write!(out, "{} ", annotation); |
| } |
| } |
| |
| fn write_cxx_function_shim<'a>(out: &mut OutFile<'a>, efn: &'a ExternFn) { |
| out.next_section(); |
| out.set_namespace(&efn.name.namespace); |
| out.begin_block(Block::ExternC); |
| begin_function_definition(out); |
| if efn.throws { |
| out.builtin.ptr_len = true; |
| write!(out, "::rust::repr::PtrLen "); |
| } else { |
| write_extern_return_type_space(out, &efn.ret); |
| } |
| let mangled = mangle::extern_fn(efn, out.types); |
| write!(out, "{}(", mangled); |
| if let Some(receiver) = &efn.receiver { |
| if !receiver.mutable { |
| write!(out, "const "); |
| } |
| write!( |
| out, |
| "{} &self", |
| out.types.resolve(&receiver.ty).name.to_fully_qualified(), |
| ); |
| } |
| for (i, arg) in efn.args.iter().enumerate() { |
| if i > 0 || efn.receiver.is_some() { |
| write!(out, ", "); |
| } |
| if arg.ty == RustString { |
| write!(out, "const "); |
| } else if let Type::RustVec(_) = arg.ty { |
| write!(out, "const "); |
| } |
| write_extern_arg(out, arg); |
| } |
| let indirect_return = indirect_return(efn, out.types); |
| if indirect_return { |
| if !efn.args.is_empty() || efn.receiver.is_some() { |
| write!(out, ", "); |
| } |
| write_indirect_return_type_space(out, efn.ret.as_ref().unwrap()); |
| write!(out, "*return$"); |
| } |
| writeln!(out, ") noexcept {{"); |
| write!(out, " "); |
| write_return_type(out, &efn.ret); |
| match &efn.receiver { |
| None => write!(out, "(*{}$)(", efn.name.rust), |
| Some(receiver) => write!( |
| out, |
| "({}::*{}$)(", |
| out.types.resolve(&receiver.ty).name.to_fully_qualified(), |
| efn.name.rust, |
| ), |
| } |
| for (i, arg) in efn.args.iter().enumerate() { |
| if i > 0 { |
| write!(out, ", "); |
| } |
| write_type(out, &arg.ty); |
| } |
| write!(out, ")"); |
| if let Some(receiver) = &efn.receiver { |
| if !receiver.mutable { |
| write!(out, " const"); |
| } |
| } |
| write!(out, " = "); |
| match &efn.receiver { |
| None => write!(out, "{}", efn.name.to_fully_qualified()), |
| Some(receiver) => write!( |
| out, |
| "&{}::{}", |
| out.types.resolve(&receiver.ty).name.to_fully_qualified(), |
| efn.name.cxx, |
| ), |
| } |
| writeln!(out, ";"); |
| write!(out, " "); |
| if efn.throws { |
| out.builtin.ptr_len = true; |
| out.builtin.trycatch = true; |
| writeln!(out, "::rust::repr::PtrLen throw$;"); |
| writeln!(out, " ::rust::behavior::trycatch("); |
| writeln!(out, " [&] {{"); |
| write!(out, " "); |
| } |
| if indirect_return { |
| out.include.new = true; |
| write!(out, "new (return$) "); |
| write_indirect_return_type(out, efn.ret.as_ref().unwrap()); |
| write!(out, "("); |
| } else if efn.ret.is_some() { |
| write!(out, "return "); |
| } |
| match &efn.ret { |
| Some(Type::Ref(_)) => write!(out, "&"), |
| Some(Type::Str(_)) if !indirect_return => { |
| out.builtin.rust_str_repr = true; |
| write!(out, "::rust::impl<::rust::Str>::repr("); |
| } |
| Some(ty @ Type::SliceRef(_)) if !indirect_return => { |
| out.builtin.rust_slice_repr = true; |
| write!(out, "::rust::impl<"); |
| write_type(out, ty); |
| write!(out, ">::repr("); |
| } |
| _ => {} |
| } |
| match &efn.receiver { |
| None => write!(out, "{}$(", efn.name.rust), |
| Some(_) => write!(out, "(self.*{}$)(", efn.name.rust), |
| } |
| for (i, arg) in efn.args.iter().enumerate() { |
| if i > 0 { |
| write!(out, ", "); |
| } |
| if let Type::RustBox(_) = &arg.ty { |
| write_type(out, &arg.ty); |
| write!(out, "::from_raw({})", arg.name.cxx); |
| } else if let Type::UniquePtr(_) = &arg.ty { |
| write_type(out, &arg.ty); |
| write!(out, "({})", arg.name.cxx); |
| } else if arg.ty == RustString { |
| out.builtin.unsafe_bitcopy = true; |
| write!( |
| out, |
| "::rust::String(::rust::unsafe_bitcopy, *{})", |
| arg.name.cxx, |
| ); |
| } else if let Type::RustVec(_) = arg.ty { |
| out.builtin.unsafe_bitcopy = true; |
| write_type(out, &arg.ty); |
| write!(out, "(::rust::unsafe_bitcopy, *{})", arg.name.cxx); |
| } else if out.types.needs_indirect_abi(&arg.ty) { |
| out.include.utility = true; |
| write!(out, "::std::move(*{})", arg.name.cxx); |
| } else { |
| write!(out, "{}", arg.name.cxx); |
| } |
| } |
| write!(out, ")"); |
| match &efn.ret { |
| Some(Type::RustBox(_)) => write!(out, ".into_raw()"), |
| Some(Type::UniquePtr(_)) => write!(out, ".release()"), |
| Some(Type::Str(_)) | Some(Type::SliceRef(_)) if !indirect_return => write!(out, ")"), |
| _ => {} |
| } |
| if indirect_return { |
| write!(out, ")"); |
| } |
| writeln!(out, ";"); |
| if efn.throws { |
| out.include.cstring = true; |
| out.builtin.exception = true; |
| writeln!(out, " throw$.ptr = nullptr;"); |
| writeln!(out, " }},"); |
| writeln!(out, " [&](const char *catch$) noexcept {{"); |
| writeln!(out, " throw$.len = ::std::strlen(catch$);"); |
| writeln!( |
| out, |
| " throw$.ptr = const_cast<char *>(::cxxbridge1$exception(catch$, throw$.len));", |
| ); |
| writeln!(out, " }});"); |
| writeln!(out, " return throw$;"); |
| } |
| writeln!(out, "}}"); |
| for arg in &efn.args { |
| if let Type::Fn(f) = &arg.ty { |
| let var = &arg.name; |
| write_function_pointer_trampoline(out, efn, var, f); |
| } |
| } |
| out.end_block(Block::ExternC); |
| } |
| |
| fn write_function_pointer_trampoline(out: &mut OutFile, efn: &ExternFn, var: &Pair, f: &Signature) { |
| let r_trampoline = mangle::r_trampoline(efn, var, out.types); |
| let indirect_call = true; |
| write_rust_function_decl_impl(out, &r_trampoline, f, indirect_call); |
| |
| out.next_section(); |
| let c_trampoline = mangle::c_trampoline(efn, var, out.types).to_string(); |
| let doc = Doc::new(); |
| write_rust_function_shim_impl(out, &c_trampoline, f, &doc, &r_trampoline, indirect_call); |
| } |
| |
| fn write_rust_function_decl<'a>(out: &mut OutFile<'a>, efn: &'a ExternFn) { |
| out.set_namespace(&efn.name.namespace); |
| out.begin_block(Block::ExternC); |
| let link_name = mangle::extern_fn(efn, out.types); |
| let indirect_call = false; |
| write_rust_function_decl_impl(out, &link_name, efn, indirect_call); |
| out.end_block(Block::ExternC); |
| } |
| |
| fn write_rust_function_decl_impl( |
| out: &mut OutFile, |
| link_name: &Symbol, |
| sig: &Signature, |
| indirect_call: bool, |
| ) { |
| out.next_section(); |
| if sig.throws { |
| out.builtin.ptr_len = true; |
| write!(out, "::rust::repr::PtrLen "); |
| } else { |
| write_extern_return_type_space(out, &sig.ret); |
| } |
| write!(out, "{}(", link_name); |
| let mut needs_comma = false; |
| if let Some(receiver) = &sig.receiver { |
| if !receiver.mutable { |
| write!(out, "const "); |
| } |
| write!( |
| out, |
| "{} &self", |
| out.types.resolve(&receiver.ty).name.to_fully_qualified(), |
| ); |
| needs_comma = true; |
| } |
| for arg in &sig.args { |
| if needs_comma { |
| write!(out, ", "); |
| } |
| write_extern_arg(out, arg); |
| needs_comma = true; |
| } |
| if indirect_return(sig, out.types) { |
| if needs_comma { |
| write!(out, ", "); |
| } |
| match sig.ret.as_ref().unwrap() { |
| Type::Ref(ret) => { |
| write_pointee_type(out, &ret.inner, ret.mutable); |
| write!(out, " *"); |
| } |
| ret => write_type_space(out, ret), |
| } |
| write!(out, "*return$"); |
| needs_comma = true; |
| } |
| if indirect_call { |
| if needs_comma { |
| write!(out, ", "); |
| } |
| write!(out, "void *"); |
| } |
| writeln!(out, ") noexcept;"); |
| } |
| |
| fn write_rust_function_shim<'a>(out: &mut OutFile<'a>, efn: &'a ExternFn) { |
| out.set_namespace(&efn.name.namespace); |
| let local_name = match &efn.sig.receiver { |
| None => efn.name.cxx.to_string(), |
| Some(receiver) => format!( |
| "{}::{}", |
| out.types.resolve(&receiver.ty).name.cxx, |
| efn.name.cxx, |
| ), |
| }; |
| let doc = &efn.doc; |
| let invoke = mangle::extern_fn(efn, out.types); |
| let indirect_call = false; |
| write_rust_function_shim_impl(out, &local_name, efn, doc, &invoke, indirect_call); |
| } |
| |
| fn write_rust_function_shim_decl( |
| out: &mut OutFile, |
| local_name: &str, |
| sig: &Signature, |
| indirect_call: bool, |
| ) { |
| begin_function_definition(out); |
| write_return_type(out, &sig.ret); |
| write!(out, "{}(", local_name); |
| for (i, arg) in sig.args.iter().enumerate() { |
| if i > 0 { |
| write!(out, ", "); |
| } |
| write_type_space(out, &arg.ty); |
| write!(out, "{}", arg.name.cxx); |
| } |
| if indirect_call { |
| if !sig.args.is_empty() { |
| write!(out, ", "); |
| } |
| write!(out, "void *extern$"); |
| } |
| write!(out, ")"); |
| if let Some(receiver) = &sig.receiver { |
| if !receiver.mutable { |
| write!(out, " const"); |
| } |
| } |
| if !sig.throws { |
| write!(out, " noexcept"); |
| } |
| } |
| |
| fn write_rust_function_shim_impl( |
| out: &mut OutFile, |
| local_name: &str, |
| sig: &Signature, |
| doc: &Doc, |
| invoke: &Symbol, |
| indirect_call: bool, |
| ) { |
| if out.header && sig.receiver.is_some() { |
| // We've already defined this inside the struct. |
| return; |
| } |
| if sig.receiver.is_none() { |
| // Member functions already documented at their declaration. |
| for line in doc.to_string().lines() { |
| writeln!(out, "//{}", line); |
| } |
| } |
| write_rust_function_shim_decl(out, local_name, sig, indirect_call); |
| if out.header { |
| writeln!(out, ";"); |
| return; |
| } |
| writeln!(out, " {{"); |
| for arg in &sig.args { |
| if arg.ty != RustString && out.types.needs_indirect_abi(&arg.ty) { |
| out.include.utility = true; |
| out.builtin.manually_drop = true; |
| write!(out, " ::rust::ManuallyDrop<"); |
| write_type(out, &arg.ty); |
| writeln!(out, "> {}$(::std::move({0}));", arg.name.cxx); |
| } |
| } |
| write!(out, " "); |
| let indirect_return = indirect_return(sig, out.types); |
| if indirect_return { |
| out.builtin.maybe_uninit = true; |
| write!(out, "::rust::MaybeUninit<"); |
| match sig.ret.as_ref().unwrap() { |
| Type::Ref(ret) => { |
| write_pointee_type(out, &ret.inner, ret.mutable); |
| write!(out, " *"); |
| } |
| ret => write_type(out, ret), |
| } |
| writeln!(out, "> return$;"); |
| write!(out, " "); |
| } else if let Some(ret) = &sig.ret { |
| write!(out, "return "); |
| match ret { |
| Type::RustBox(_) => { |
| write_type(out, ret); |
| write!(out, "::from_raw("); |
| } |
| Type::UniquePtr(_) => { |
| write_type(out, ret); |
| write!(out, "("); |
| } |
| Type::Ref(_) => write!(out, "*"), |
| Type::Str(_) => { |
| out.builtin.rust_str_new_unchecked = true; |
| write!(out, "::rust::impl<::rust::Str>::new_unchecked("); |
| } |
| Type::SliceRef(_) => { |
| out.builtin.rust_slice_new = true; |
| write!(out, "::rust::impl<"); |
| write_type(out, ret); |
| write!(out, ">::slice("); |
| } |
| _ => {} |
| } |
| } |
| if sig.throws { |
| out.builtin.ptr_len = true; |
| write!(out, "::rust::repr::PtrLen error$ = "); |
| } |
| write!(out, "{}(", invoke); |
| let mut needs_comma = false; |
| if sig.receiver.is_some() { |
| write!(out, "*this"); |
| needs_comma = true; |
| } |
| for arg in &sig.args { |
| if needs_comma { |
| write!(out, ", "); |
| } |
| if out.types.needs_indirect_abi(&arg.ty) { |
| write!(out, "&"); |
| } |
| write!(out, "{}", arg.name.cxx); |
| match &arg.ty { |
| Type::RustBox(_) => write!(out, ".into_raw()"), |
| Type::UniquePtr(_) => write!(out, ".release()"), |
| ty if ty != RustString && out.types.needs_indirect_abi(ty) => write!(out, "$.value"), |
| _ => {} |
| } |
| needs_comma = true; |
| } |
| if indirect_return { |
| if needs_comma { |
| write!(out, ", "); |
| } |
| write!(out, "&return$.value"); |
| needs_comma = true; |
| } |
| if indirect_call { |
| if needs_comma { |
| write!(out, ", "); |
| } |
| write!(out, "extern$"); |
| } |
| write!(out, ")"); |
| if !indirect_return { |
| if let Some(ret) = &sig.ret { |
| if let Type::RustBox(_) | Type::UniquePtr(_) | Type::Str(_) | Type::SliceRef(_) = ret { |
| write!(out, ")"); |
| } |
| } |
| } |
| writeln!(out, ";"); |
| if sig.throws { |
| out.builtin.rust_error = true; |
| writeln!(out, " if (error$.ptr) {{"); |
| writeln!(out, " throw ::rust::impl<::rust::Error>::error(error$);"); |
| writeln!(out, " }}"); |
| } |
| if indirect_return { |
| write!(out, " return "); |
| match sig.ret.as_ref().unwrap() { |
| Type::Ref(_) => write!(out, "*return$.value"), |
| _ => { |
| out.include.utility = true; |
| write!(out, "::std::move(return$.value)"); |
| } |
| } |
| writeln!(out, ";"); |
| } |
| writeln!(out, "}}"); |
| } |
| |
| fn write_return_type(out: &mut OutFile, ty: &Option<Type>) { |
| match ty { |
| None => write!(out, "void "), |
| Some(ty) => write_type_space(out, ty), |
| } |
| } |
| |
| fn indirect_return(sig: &Signature, types: &Types) -> bool { |
| sig.ret |
| .as_ref() |
| .map_or(false, |ret| sig.throws || types.needs_indirect_abi(ret)) |
| } |
| |
| fn write_indirect_return_type(out: &mut OutFile, ty: &Type) { |
| match ty { |
| Type::RustBox(ty) | Type::UniquePtr(ty) => { |
| write_type_space(out, &ty.inner); |
| write!(out, "*"); |
| } |
| Type::Ref(ty) => { |
| if !ty.mutable { |
| write!(out, "const "); |
| } |
| write_type(out, &ty.inner); |
| write!(out, " *"); |
| } |
| _ => write_type(out, ty), |
| } |
| } |
| |
| fn write_indirect_return_type_space(out: &mut OutFile, ty: &Type) { |
| write_indirect_return_type(out, ty); |
| match ty { |
| Type::RustBox(_) | Type::UniquePtr(_) | Type::Ref(_) => {} |
| Type::Str(_) | Type::SliceRef(_) => write!(out, " "), |
| _ => write_space_after_type(out, ty), |
| } |
| } |
| |
| fn write_extern_return_type_space(out: &mut OutFile, ty: &Option<Type>) { |
| match ty { |
| Some(Type::RustBox(ty)) | Some(Type::UniquePtr(ty)) => { |
| write_type_space(out, &ty.inner); |
| write!(out, "*"); |
| } |
| Some(Type::Ref(ty)) => { |
| if !ty.mutable { |
| write!(out, "const "); |
| } |
| write_type(out, &ty.inner); |
| write!(out, " *"); |
| } |
| Some(Type::Str(_)) | Some(Type::SliceRef(_)) => { |
| out.builtin.repr_fat = true; |
| write!(out, "::rust::repr::Fat "); |
| } |
| Some(ty) if out.types.needs_indirect_abi(ty) => write!(out, "void "), |
| _ => write_return_type(out, ty), |
| } |
| } |
| |
| fn write_extern_arg(out: &mut OutFile, arg: &Var) { |
| match &arg.ty { |
| Type::RustBox(ty) | Type::UniquePtr(ty) | Type::CxxVector(ty) => { |
| write_type_space(out, &ty.inner); |
| write!(out, "*"); |
| } |
| _ => write_type_space(out, &arg.ty), |
| } |
| if out.types.needs_indirect_abi(&arg.ty) { |
| write!(out, "*"); |
| } |
| write!(out, "{}", arg.name.cxx); |
| } |
| |
| fn write_type(out: &mut OutFile, ty: &Type) { |
| match ty { |
| Type::Ident(ident) => match Atom::from(&ident.rust) { |
| Some(atom) => write_atom(out, atom), |
| None => write!( |
| out, |
| "{}", |
| out.types.resolve(ident).name.to_fully_qualified(), |
| ), |
| }, |
| Type::RustBox(ty) => { |
| write!(out, "::rust::Box<"); |
| write_type(out, &ty.inner); |
| write!(out, ">"); |
| } |
| Type::RustVec(ty) => { |
| write!(out, "::rust::Vec<"); |
| write_type(out, &ty.inner); |
| write!(out, ">"); |
| } |
| Type::UniquePtr(ptr) => { |
| write!(out, "::std::unique_ptr<"); |
| write_type(out, &ptr.inner); |
| write!(out, ">"); |
| } |
| Type::SharedPtr(ptr) => { |
| write!(out, "::std::shared_ptr<"); |
| write_type(out, &ptr.inner); |
| write!(out, ">"); |
| } |
| Type::WeakPtr(ptr) => { |
| write!(out, "::std::weak_ptr<"); |
| write_type(out, &ptr.inner); |
| write!(out, ">"); |
| } |
| Type::CxxVector(ty) => { |
| write!(out, "::std::vector<"); |
| write_type(out, &ty.inner); |
| write!(out, ">"); |
| } |
| Type::Ref(r) => { |
| write_pointee_type(out, &r.inner, r.mutable); |
| write!(out, " &"); |
| } |
| Type::Ptr(p) => { |
| write_pointee_type(out, &p.inner, p.mutable); |
| write!(out, " *"); |
| } |
| Type::Str(_) => { |
| write!(out, "::rust::Str"); |
| } |
| Type::SliceRef(slice) => { |
| write!(out, "::rust::Slice<"); |
| if slice.mutability.is_none() { |
| write!(out, "const "); |
| } |
| write_type(out, &slice.inner); |
| write!(out, ">"); |
| } |
| Type::Fn(f) => { |
| write!(out, "::rust::Fn<"); |
| match &f.ret { |
| Some(ret) => write_type(out, ret), |
| None => write!(out, "void"), |
| } |
| write!(out, "("); |
| for (i, arg) in f.args.iter().enumerate() { |
| if i > 0 { |
| write!(out, ", "); |
| } |
| write_type(out, &arg.ty); |
| } |
| write!(out, ")>"); |
| } |
| Type::Array(a) => { |
| write!(out, "::std::array<"); |
| write_type(out, &a.inner); |
| write!(out, ", {}>", &a.len); |
| } |
| Type::Void(_) => unreachable!(), |
| } |
| } |
| |
| // Write just the T type behind a &T or &mut T or *const T or *mut T. |
| fn write_pointee_type(out: &mut OutFile, inner: &Type, mutable: bool) { |
| if let Type::Ptr(_) = inner { |
| write_type_space(out, inner); |
| if !mutable { |
| write!(out, "const"); |
| } |
| } else { |
| if !mutable { |
| write!(out, "const "); |
| } |
| write_type(out, inner); |
| } |
| } |
| |
| fn write_atom(out: &mut OutFile, atom: Atom) { |
| match atom { |
| Bool => write!(out, "bool"), |
| Char => write!(out, "char"), |
| U8 => write!(out, "::std::uint8_t"), |
| U16 => write!(out, "::std::uint16_t"), |
| U32 => write!(out, "::std::uint32_t"), |
| U64 => write!(out, "::std::uint64_t"), |
| Usize => write!(out, "::std::size_t"), |
| I8 => write!(out, "::std::int8_t"), |
| I16 => write!(out, "::std::int16_t"), |
| I32 => write!(out, "::std::int32_t"), |
| I64 => write!(out, "::std::int64_t"), |
| Isize => write!(out, "::rust::isize"), |
| F32 => write!(out, "float"), |
| F64 => write!(out, "double"), |
| CxxString => write!(out, "::std::string"), |
| RustString => write!(out, "::rust::String"), |
| } |
| } |
| |
| fn write_type_space(out: &mut OutFile, ty: &Type) { |
| write_type(out, ty); |
| write_space_after_type(out, ty); |
| } |
| |
| fn write_space_after_type(out: &mut OutFile, ty: &Type) { |
| match ty { |
| Type::Ident(_) |
| | Type::RustBox(_) |
| | Type::UniquePtr(_) |
| | Type::SharedPtr(_) |
| | Type::WeakPtr(_) |
| | Type::Str(_) |
| | Type::CxxVector(_) |
| | Type::RustVec(_) |
| | Type::SliceRef(_) |
| | Type::Fn(_) |
| | Type::Array(_) => write!(out, " "), |
| Type::Ref(_) | Type::Ptr(_) => {} |
| Type::Void(_) => unreachable!(), |
| } |
| } |
| |
| #[derive(Copy, Clone)] |
| enum UniquePtr<'a> { |
| Ident(&'a Ident), |
| CxxVector(&'a Ident), |
| } |
| |
| trait ToTypename { |
| fn to_typename(&self, types: &Types) -> String; |
| } |
| |
| impl ToTypename for Ident { |
| fn to_typename(&self, types: &Types) -> String { |
| types.resolve(self).name.to_fully_qualified() |
| } |
| } |
| |
| impl<'a> ToTypename for UniquePtr<'a> { |
| fn to_typename(&self, types: &Types) -> String { |
| match self { |
| UniquePtr::Ident(ident) => ident.to_typename(types), |
| UniquePtr::CxxVector(element) => { |
| format!("::std::vector<{}>", element.to_typename(types)) |
| } |
| } |
| } |
| } |
| |
| trait ToMangled { |
| fn to_mangled(&self, types: &Types) -> Symbol; |
| } |
| |
| impl ToMangled for Ident { |
| fn to_mangled(&self, types: &Types) -> Symbol { |
| types.resolve(self).name.to_symbol() |
| } |
| } |
| |
| impl<'a> ToMangled for UniquePtr<'a> { |
| fn to_mangled(&self, types: &Types) -> Symbol { |
| match self { |
| UniquePtr::Ident(ident) => ident.to_mangled(types), |
| UniquePtr::CxxVector(element) => element.to_mangled(types).prefix_with("std$vector$"), |
| } |
| } |
| } |
| |
| fn write_generic_instantiations(out: &mut OutFile) { |
| if out.header { |
| return; |
| } |
| |
| out.next_section(); |
| out.set_namespace(Default::default()); |
| out.begin_block(Block::ExternC); |
| for impl_key in out.types.impls.keys() { |
| out.next_section(); |
| match *impl_key { |
| ImplKey::RustBox(ident) => write_rust_box_extern(out, ident), |
| ImplKey::RustVec(ident) => write_rust_vec_extern(out, ident), |
| ImplKey::UniquePtr(ident) => write_unique_ptr(out, ident), |
| ImplKey::SharedPtr(ident) => write_shared_ptr(out, ident), |
| ImplKey::WeakPtr(ident) => write_weak_ptr(out, ident), |
| ImplKey::CxxVector(ident) => write_cxx_vector(out, ident), |
| } |
| } |
| out.end_block(Block::ExternC); |
| |
| out.begin_block(Block::Namespace("rust")); |
| out.begin_block(Block::InlineNamespace("cxxbridge1")); |
| for impl_key in out.types.impls.keys() { |
| match *impl_key { |
| ImplKey::RustBox(ident) => write_rust_box_impl(out, ident), |
| ImplKey::RustVec(ident) => write_rust_vec_impl(out, ident), |
| _ => {} |
| } |
| } |
| out.end_block(Block::InlineNamespace("cxxbridge1")); |
| out.end_block(Block::Namespace("rust")); |
| } |
| |
| fn write_rust_box_extern(out: &mut OutFile, key: NamedImplKey) { |
| let resolve = out.types.resolve(&key); |
| let inner = resolve.name.to_fully_qualified(); |
| let instance = resolve.name.to_symbol(); |
| |
| writeln!( |
| out, |
| "{} *cxxbridge1$box${}$alloc() noexcept;", |
| inner, instance, |
| ); |
| writeln!( |
| out, |
| "void cxxbridge1$box${}$dealloc({} *) noexcept;", |
| instance, inner, |
| ); |
| writeln!( |
| out, |
| "void cxxbridge1$box${}$drop(::rust::Box<{}> *ptr) noexcept;", |
| instance, inner, |
| ); |
| } |
| |
| fn write_rust_vec_extern(out: &mut OutFile, key: NamedImplKey) { |
| let element = key.rust; |
| let inner = element.to_typename(out.types); |
| let instance = element.to_mangled(out.types); |
| |
| out.include.cstddef = true; |
| |
| writeln!( |
| out, |
| "void cxxbridge1$rust_vec${}$new(const ::rust::Vec<{}> *ptr) noexcept;", |
| instance, inner, |
| ); |
| writeln!( |
| out, |
| "void cxxbridge1$rust_vec${}$drop(::rust::Vec<{}> *ptr) noexcept;", |
| instance, inner, |
| ); |
| writeln!( |
| out, |
| "::std::size_t cxxbridge1$rust_vec${}$len(const ::rust::Vec<{}> *ptr) noexcept;", |
| instance, inner, |
| ); |
| writeln!( |
| out, |
| "::std::size_t cxxbridge1$rust_vec${}$capacity(const ::rust::Vec<{}> *ptr) noexcept;", |
| instance, inner, |
| ); |
| writeln!( |
| out, |
| "const {} *cxxbridge1$rust_vec${}$data(const ::rust::Vec<{0}> *ptr) noexcept;", |
| inner, instance, |
| ); |
| writeln!( |
| out, |
| "void cxxbridge1$rust_vec${}$reserve_total(::rust::Vec<{}> *ptr, ::std::size_t new_cap) noexcept;", |
| instance, inner, |
| ); |
| writeln!( |
| out, |
| "void cxxbridge1$rust_vec${}$set_len(::rust::Vec<{}> *ptr, ::std::size_t len) noexcept;", |
| instance, inner, |
| ); |
| } |
| |
| fn write_rust_box_impl(out: &mut OutFile, key: NamedImplKey) { |
| let resolve = out.types.resolve(&key); |
| let inner = resolve.name.to_fully_qualified(); |
| let instance = resolve.name.to_symbol(); |
| |
| writeln!(out, "template <>"); |
| begin_function_definition(out); |
| writeln!( |
| out, |
| "{} *Box<{}>::allocation::alloc() noexcept {{", |
| inner, inner, |
| ); |
| writeln!(out, " return cxxbridge1$box${}$alloc();", instance); |
| writeln!(out, "}}"); |
| |
| writeln!(out, "template <>"); |
| begin_function_definition(out); |
| writeln!( |
| out, |
| "void Box<{}>::allocation::dealloc({} *ptr) noexcept {{", |
| inner, inner, |
| ); |
| writeln!(out, " cxxbridge1$box${}$dealloc(ptr);", instance); |
| writeln!(out, "}}"); |
| |
| writeln!(out, "template <>"); |
| begin_function_definition(out); |
| writeln!(out, "void Box<{}>::drop() noexcept {{", inner); |
| writeln!(out, " cxxbridge1$box${}$drop(this);", instance); |
| writeln!(out, "}}"); |
| } |
| |
| fn write_rust_vec_impl(out: &mut OutFile, key: NamedImplKey) { |
| let element = key.rust; |
| let inner = element.to_typename(out.types); |
| let instance = element.to_mangled(out.types); |
| |
| out.include.cstddef = true; |
| |
| writeln!(out, "template <>"); |
| begin_function_definition(out); |
| writeln!(out, "Vec<{}>::Vec() noexcept {{", inner); |
| writeln!(out, " cxxbridge1$rust_vec${}$new(this);", instance); |
| writeln!(out, "}}"); |
| |
| writeln!(out, "template <>"); |
| begin_function_definition(out); |
| writeln!(out, "void Vec<{}>::drop() noexcept {{", inner); |
| writeln!(out, " return cxxbridge1$rust_vec${}$drop(this);", instance); |
| writeln!(out, "}}"); |
| |
| writeln!(out, "template <>"); |
| begin_function_definition(out); |
| writeln!( |
| out, |
| "::std::size_t Vec<{}>::size() const noexcept {{", |
| inner, |
| ); |
| writeln!(out, " return cxxbridge1$rust_vec${}$len(this);", instance); |
| writeln!(out, "}}"); |
| |
| writeln!(out, "template <>"); |
| begin_function_definition(out); |
| writeln!( |
| out, |
| "::std::size_t Vec<{}>::capacity() const noexcept {{", |
| inner, |
| ); |
| writeln!( |
| out, |
| " return cxxbridge1$rust_vec${}$capacity(this);", |
| instance, |
| ); |
| writeln!(out, "}}"); |
| |
| writeln!(out, "template <>"); |
| begin_function_definition(out); |
| writeln!(out, "const {} *Vec<{0}>::data() const noexcept {{", inner); |
| writeln!(out, " return cxxbridge1$rust_vec${}$data(this);", instance); |
| writeln!(out, "}}"); |
| |
| writeln!(out, "template <>"); |
| begin_function_definition(out); |
| writeln!( |
| out, |
| "void Vec<{}>::reserve_total(::std::size_t new_cap) noexcept {{", |
| inner, |
| ); |
| writeln!( |
| out, |
| " return cxxbridge1$rust_vec${}$reserve_total(this, new_cap);", |
| instance, |
| ); |
| writeln!(out, "}}"); |
| |
| writeln!(out, "template <>"); |
| begin_function_definition(out); |
| writeln!( |
| out, |
| "void Vec<{}>::set_len(::std::size_t len) noexcept {{", |
| inner, |
| ); |
| writeln!( |
| out, |
| " return cxxbridge1$rust_vec${}$set_len(this, len);", |
| instance, |
| ); |
| writeln!(out, "}}"); |
| } |
| |
| fn write_unique_ptr(out: &mut OutFile, key: NamedImplKey) { |
| let ty = UniquePtr::Ident(key.rust); |
| write_unique_ptr_common(out, ty); |
| } |
| |
| // Shared by UniquePtr<T> and UniquePtr<CxxVector<T>>. |
| fn write_unique_ptr_common(out: &mut OutFile, ty: UniquePtr) { |
| out.include.new = true; |
| out.include.utility = true; |
| let inner = ty.to_typename(out.types); |
| let instance = ty.to_mangled(out.types); |
| |
| let can_construct_from_value = match ty { |
| // Some aliases are to opaque types; some are to trivial types. We can't |
| // know at code generation time, so we generate both C++ and Rust side |
| // bindings for a "new" method anyway. But the Rust code can't be called |
| // for Opaque types because the 'new' method is not implemented. |
| UniquePtr::Ident(ident) => out.types.is_maybe_trivial(ident), |
| UniquePtr::CxxVector(_) => false, |
| }; |
| |
| let conditional_delete = match ty { |
| UniquePtr::Ident(ident) => { |
| !out.types.structs.contains_key(ident) && !out.types.enums.contains_key(ident) |
| } |
| UniquePtr::CxxVector(_) => false, |
| }; |
| |
| if conditional_delete { |
| out.builtin.is_complete = true; |
| let definition = match ty { |
| UniquePtr::Ident(ty) => &out.types.resolve(ty).name.cxx, |
| UniquePtr::CxxVector(_) => unreachable!(), |
| }; |
| writeln!( |
| out, |
| "static_assert(::rust::detail::is_complete<{}>::value, \"definition of {} is required\");", |
| inner, definition, |
| ); |
| } |
| writeln!( |
| out, |
| "static_assert(sizeof(::std::unique_ptr<{}>) == sizeof(void *), \"\");", |
| inner, |
| ); |
| writeln!( |
| out, |
| "static_assert(alignof(::std::unique_ptr<{}>) == alignof(void *), \"\");", |
| inner, |
| ); |
| writeln!( |
| out, |
| "void cxxbridge1$unique_ptr${}$null(::std::unique_ptr<{}> *ptr) noexcept {{", |
| instance, inner, |
| ); |
| writeln!(out, " ::new (ptr) ::std::unique_ptr<{}>();", inner); |
| writeln!(out, "}}"); |
| if can_construct_from_value { |
| out.builtin.maybe_uninit = true; |
| writeln!( |
| out, |
| "{} *cxxbridge1$unique_ptr${}$uninit(::std::unique_ptr<{}> *ptr) noexcept {{", |
| inner, instance, inner, |
| ); |
| writeln!( |
| out, |
| " {} *uninit = reinterpret_cast<{} *>(new ::rust::MaybeUninit<{}>);", |
| inner, inner, inner, |
| ); |
| writeln!(out, " ::new (ptr) ::std::unique_ptr<{}>(uninit);", inner); |
| writeln!(out, " return uninit;"); |
| writeln!(out, "}}"); |
| } |
| writeln!( |
| out, |
| "void cxxbridge1$unique_ptr${}$raw(::std::unique_ptr<{}> *ptr, {} *raw) noexcept {{", |
| instance, inner, inner, |
| ); |
| writeln!(out, " ::new (ptr) ::std::unique_ptr<{}>(raw);", inner); |
| writeln!(out, "}}"); |
| writeln!( |
| out, |
| "const {} *cxxbridge1$unique_ptr${}$get(const ::std::unique_ptr<{}>& ptr) noexcept {{", |
| inner, instance, inner, |
| ); |
| writeln!(out, " return ptr.get();"); |
| writeln!(out, "}}"); |
| writeln!( |
| out, |
| "{} *cxxbridge1$unique_ptr${}$release(::std::unique_ptr<{}>& ptr) noexcept {{", |
| inner, instance, inner, |
| ); |
| writeln!(out, " return ptr.release();"); |
| writeln!(out, "}}"); |
| writeln!( |
| out, |
| "void cxxbridge1$unique_ptr${}$drop(::std::unique_ptr<{}> *ptr) noexcept {{", |
| instance, inner, |
| ); |
| if conditional_delete { |
| out.builtin.deleter_if = true; |
| writeln!( |
| out, |
| " ::rust::deleter_if<::rust::detail::is_complete<{}>::value>{{}}(ptr);", |
| inner, |
| ); |
| } else { |
| writeln!(out, " ptr->~unique_ptr();"); |
| } |
| writeln!(out, "}}"); |
| } |
| |
| fn write_shared_ptr(out: &mut OutFile, key: NamedImplKey) { |
| let ident = key.rust; |
| let resolve = out.types.resolve(ident); |
| let inner = resolve.name.to_fully_qualified(); |
| let instance = resolve.name.to_symbol(); |
| |
| out.include.new = true; |
| out.include.utility = true; |
| |
| // Some aliases are to opaque types; some are to trivial types. We can't |
| // know at code generation time, so we generate both C++ and Rust side |
| // bindings for a "new" method anyway. But the Rust code can't be called for |
| // Opaque types because the 'new' method is not implemented. |
| let can_construct_from_value = out.types.is_maybe_trivial(ident); |
| |
| writeln!( |
| out, |
| "static_assert(sizeof(::std::shared_ptr<{}>) == 2 * sizeof(void *), \"\");", |
| inner, |
| ); |
| writeln!( |
| out, |
| "static_assert(alignof(::std::shared_ptr<{}>) == alignof(void *), \"\");", |
| inner, |
| ); |
| writeln!( |
| out, |
| "void cxxbridge1$shared_ptr${}$null(::std::shared_ptr<{}> *ptr) noexcept {{", |
| instance, inner, |
| ); |
| writeln!(out, " ::new (ptr) ::std::shared_ptr<{}>();", inner); |
| writeln!(out, "}}"); |
| if can_construct_from_value { |
| out.builtin.maybe_uninit = true; |
| writeln!( |
| out, |
| "{} *cxxbridge1$shared_ptr${}$uninit(::std::shared_ptr<{}> *ptr) noexcept {{", |
| inner, instance, inner, |
| ); |
| writeln!( |
| out, |
| " {} *uninit = reinterpret_cast<{} *>(new ::rust::MaybeUninit<{}>);", |
| inner, inner, inner, |
| ); |
| writeln!(out, " ::new (ptr) ::std::shared_ptr<{}>(uninit);", inner); |
| writeln!(out, " return uninit;"); |
| writeln!(out, "}}"); |
| } |
| writeln!( |
| out, |
| "void cxxbridge1$shared_ptr${}$clone(const ::std::shared_ptr<{}>& self, ::std::shared_ptr<{}> *ptr) noexcept {{", |
| instance, inner, inner, |
| ); |
| writeln!(out, " ::new (ptr) ::std::shared_ptr<{}>(self);", inner); |
| writeln!(out, "}}"); |
| writeln!( |
| out, |
| "const {} *cxxbridge1$shared_ptr${}$get(const ::std::shared_ptr<{}>& self) noexcept {{", |
| inner, instance, inner, |
| ); |
| writeln!(out, " return self.get();"); |
| writeln!(out, "}}"); |
| writeln!( |
| out, |
| "void cxxbridge1$shared_ptr${}$drop(::std::shared_ptr<{}> *self) noexcept {{", |
| instance, inner, |
| ); |
| writeln!(out, " self->~shared_ptr();"); |
| writeln!(out, "}}"); |
| } |
| |
| fn write_weak_ptr(out: &mut OutFile, key: NamedImplKey) { |
| let resolve = out.types.resolve(&key); |
| let inner = resolve.name.to_fully_qualified(); |
| let instance = resolve.name.to_symbol(); |
| |
| out.include.new = true; |
| out.include.utility = true; |
| |
| writeln!( |
| out, |
| "static_assert(sizeof(::std::weak_ptr<{}>) == 2 * sizeof(void *), \"\");", |
| inner, |
| ); |
| writeln!( |
| out, |
| "static_assert(alignof(::std::weak_ptr<{}>) == alignof(void *), \"\");", |
| inner, |
| ); |
| writeln!( |
| out, |
| "void cxxbridge1$weak_ptr${}$null(::std::weak_ptr<{}> *ptr) noexcept {{", |
| instance, inner, |
| ); |
| writeln!(out, " ::new (ptr) ::std::weak_ptr<{}>();", inner); |
| writeln!(out, "}}"); |
| writeln!( |
| out, |
| "void cxxbridge1$weak_ptr${}$clone(const ::std::weak_ptr<{}>& self, ::std::weak_ptr<{}> *ptr) noexcept {{", |
| instance, inner, inner, |
| ); |
| writeln!(out, " ::new (ptr) ::std::weak_ptr<{}>(self);", inner); |
| writeln!(out, "}}"); |
| writeln!( |
| out, |
| "void cxxbridge1$weak_ptr${}$downgrade(const ::std::shared_ptr<{}>& shared, ::std::weak_ptr<{}> *weak) noexcept {{", |
| instance, inner, inner, |
| ); |
| writeln!(out, " ::new (weak) ::std::weak_ptr<{}>(shared);", inner); |
| writeln!(out, "}}"); |
| writeln!( |
| out, |
| "void cxxbridge1$weak_ptr${}$upgrade(const ::std::weak_ptr<{}>& weak, ::std::shared_ptr<{}> *shared) noexcept {{", |
| instance, inner, inner, |
| ); |
| writeln!( |
| out, |
| " ::new (shared) ::std::shared_ptr<{}>(weak.lock());", |
| inner, |
| ); |
| writeln!(out, "}}"); |
| writeln!( |
| out, |
| "void cxxbridge1$weak_ptr${}$drop(::std::weak_ptr<{}> *self) noexcept {{", |
| instance, inner, |
| ); |
| writeln!(out, " self->~weak_ptr();"); |
| writeln!(out, "}}"); |
| } |
| |
| fn write_cxx_vector(out: &mut OutFile, key: NamedImplKey) { |
| let element = key.rust; |
| let inner = element.to_typename(out.types); |
| let instance = element.to_mangled(out.types); |
| |
| out.include.cstddef = true; |
| out.include.utility = true; |
| out.builtin.destroy = true; |
| |
| writeln!( |
| out, |
| "::std::size_t cxxbridge1$std$vector${}$size(const ::std::vector<{}> &s) noexcept {{", |
| instance, inner, |
| ); |
| writeln!(out, " return s.size();"); |
| writeln!(out, "}}"); |
| |
| writeln!( |
| out, |
| "{} *cxxbridge1$std$vector${}$get_unchecked(::std::vector<{}> *s, ::std::size_t pos) noexcept {{", |
| inner, instance, inner, |
| ); |
| writeln!(out, " return &(*s)[pos];"); |
| writeln!(out, "}}"); |
| |
| if out.types.is_maybe_trivial(element) { |
| writeln!( |
| out, |
| "void cxxbridge1$std$vector${}$push_back(::std::vector<{}> *v, {} *value) noexcept {{", |
| instance, inner, inner, |
| ); |
| writeln!(out, " v->push_back(::std::move(*value));"); |
| writeln!(out, " ::rust::destroy(value);"); |
| writeln!(out, "}}"); |
| |
| writeln!( |
| out, |
| "void cxxbridge1$std$vector${}$pop_back(::std::vector<{}> *v, {} *out) noexcept {{", |
| instance, inner, inner, |
| ); |
| writeln!(out, " ::new (out) {}(::std::move(v->back()));", inner); |
| writeln!(out, " v->pop_back();"); |
| writeln!(out, "}}"); |
| } |
| |
| out.include.memory = true; |
| write_unique_ptr_common(out, UniquePtr::CxxVector(element)); |
| } |