// Copyright (C) 2020-2025 Free Software Foundation, Inc.
// This file is part of GCC.
// GCC is free software; you can redistribute it and/or modify it under
// the terms of the GNU General Public License as published by the Free
// Software Foundation; either version 3, or (at your option) any later
// version.
// GCC is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or
// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
// for more details.
// You should have received a copy of the GNU General Public License
// along with GCC; see the file COPYING3. If not see
// <http://www.gnu.org/licenses/>.
#ifndef RUST_TOPLEVEL_NAME_RESOLVER_2_0_H
#define RUST_TOPLEVEL_NAME_RESOLVER_2_0_H
#include "optional.h"
#include "rust-ast-visitor.h"
#include "rust-ast.h"
#include "rust-item.h"
#include "rust-name-resolution-context.h"
#include "rust-default-resolver.h"
namespace Rust {
namespace Resolver2_0 {
/**
* The `TopLevel` visitor takes care of collecting all the definitions in a
* crate, and inserting them into the proper namespaces. These definitions can
* then be accessed by subsequent resolvers, such as `Early` or `Late`.
*/
class TopLevel : public DefaultResolver
{
using DefaultResolver::visit;
public:
TopLevel (NameResolutionContext &resolver);
void go (AST::Crate &crate);
// Each import will be transformed into an instance of `ImportKind`, a class
// representing some of the data we need to resolve in the
// `EarlyNameResolver`. Basically, for each `UseTree` that we see in
// `TopLevel`, create one of these. `TopLevel` should build a list of these
// `ImportKind`s, which `Early` can then resolve to their proper definitions.
// Then, a final pass will insert the definitions into the `ForeverStack` -
// `FinalizeImports`.
//
// Using this struct should be very simple - each path within a `UseTree`
// becomes one `ImportKind`. The complex case is glob imports, in which case
// one glob import will become one `ImportKind` which will later become
// multiple definitions thanks to the `GlobbingVisitor`.
struct ImportKind
{
enum class Kind
{
Glob,
Simple,
Rebind,
} kind;
static ImportKind Glob (AST::SimplePath &&to_resolve, Rib &values_rib,
Rib &types_rib, Rib ¯os_rib)
{
return ImportKind (Kind::Glob, std::move (to_resolve), values_rib,
types_rib, macros_rib);
}
static ImportKind Simple (AST::SimplePath &&to_resolve, Rib &values_rib,
Rib &types_rib, Rib ¯os_rib)
{
return ImportKind (Kind::Simple, std::move (to_resolve), values_rib,
types_rib, macros_rib);
}
static ImportKind Rebind (AST::SimplePath &&to_resolve,
AST::UseTreeRebind &&rebind, Rib &values_rib,
Rib &types_rib, Rib ¯os_rib)
{
return ImportKind (Kind::Rebind, std::move (to_resolve), values_rib,
types_rib, macros_rib, std::move (rebind));
}
// The path for `Early` to resolve.
AST::SimplePath to_resolve;
// The path to rebind an import to - only present if kind is Kind::Rebind
tl::optional<AST::UseTreeRebind> rebind;
Rib &values_rib;
Rib &types_rib;
Rib ¯os_rib;
private:
ImportKind (Kind kind, AST::SimplePath &&to_resolve, Rib &values_rib,
Rib &types_rib, Rib ¯os_rib,
tl::optional<AST::UseTreeRebind> &&rebind = tl::nullopt)
: kind (kind), to_resolve (std::move (to_resolve)),
rebind (std::move (rebind)), values_rib (values_rib),
types_rib (types_rib), macros_rib (macros_rib)
{}
};
std::unordered_map<NodeId, std::vector<ImportKind>> &&
get_imports_to_resolve ()
{
return std::move (imports_to_resolve);
}
/**
* Insert a new definition or error out if a definition with the same name was
* already present in the same namespace in the same scope.
*
* @param identifier The identifier of the definition to add.
* @param node A reference to the node, so we can get its `NodeId` and
* location.
* @param ns The namespace in which to add the definition.
*/
template <typename T>
void insert_or_error_out (const Identifier &identifier, const T &node,
Namespace ns);
void insert_or_error_out (const Identifier &identifier,
const location_t &locus, const NodeId &id,
Namespace ns);
private:
// FIXME: Do we move these to our mappings?
std::unordered_map<NodeId, location_t> node_locations;
// Store node forwarding for use declaration, the link between a
// definition and its new local name.
std::unordered_map<NodeId, NodeId> node_forwarding;
// One of the outputs of the `TopLevel` visitor - the list of imports that
// `Early` should take care of resolving
std::unordered_map<NodeId, std::vector<ImportKind>> imports_to_resolve;
void visit (AST::Module &module) override;
void visit (AST::Trait &trait) override;
void visit (AST::MacroRulesDefinition ¯o) override;
void visit (AST::Function &function) override;
void visit (AST::BlockExpr &expr) override;
void visit (AST::StaticItem &static_item) override;
void visit (AST::StructStruct &struct_item) override;
void visit (AST::TupleStruct &tuple_struct) override;
void visit (AST::EnumItem &variant) override;
void visit (AST::EnumItemTuple &variant) override;
void visit (AST::EnumItemStruct &variant) override;
void visit (AST::EnumItemDiscriminant &variant) override;
void visit (AST::Enum &enum_item) override;
void visit (AST::Union &union_item) override;
void visit (AST::ConstantItem &const_item) override;
void visit (AST::ExternCrate &crate) override;
void visit (AST::UseDeclaration &use) override;
};
} // namespace Resolver2_0
} // namespace Rust
// For storing Imports as keys in maps
namespace std {
template <> struct less<Rust::Resolver2_0::TopLevel::ImportKind>
{
bool operator() (const Rust::Resolver2_0::TopLevel::ImportKind &lhs,
const Rust::Resolver2_0::TopLevel::ImportKind &rhs) const
{
return lhs.to_resolve.as_string () < rhs.to_resolve.as_string ()
&& lhs.kind < rhs.kind;
}
};
} // namespace std
#endif // !RUST_TOPLEVEL_NAME_RESOLVER_2_0_H