tomteb
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carbon-lang


			
				
					
						
						
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							// Part of the Carbon Language project, under the Apache License v2.0 with LLVM
// Exceptions. See /LICENSE for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception

#include "toolchain/check/declaration_name_stack.h"

#include "toolchain/check/context.h"

namespace Carbon::Check {

auto DeclarationNameStack::MakeEmptyNameContext() -> NameContext {
  return NameContext{.target_scope_id = context_->current_scope_id()};
}

auto DeclarationNameStack::MakeUnqualifiedName(Parse::Node parse_node,
                                               StringId name_id)
    -> NameContext {
  NameContext context = MakeEmptyNameContext();
  ApplyNameQualifierTo(context, parse_node, name_id);
  return context;
}

auto DeclarationNameStack::Push() -> void {
  declaration_name_stack_.push_back(MakeEmptyNameContext());
}

auto DeclarationNameStack::Pop() -> NameContext {
  if (context_->parse_tree().node_kind(
          context_->node_stack().PeekParseNode()) ==
      Parse::NodeKind::QualifiedDeclaration) {
    // Any parts from a QualifiedDeclaration will already have been processed
    // into the name.
    context_->node_stack()
        .PopAndDiscardSoloParseNode<Parse::NodeKind::QualifiedDeclaration>();
  } else {
    // The name had no qualifiers, so we need to process the node now.
    auto [parse_node, name_id] =
        context_->node_stack().PopWithParseNode<Parse::NodeKind::Name>();
    ApplyNameQualifier(parse_node, name_id);
  }

  return declaration_name_stack_.pop_back_val();
}

auto DeclarationNameStack::LookupOrAddName(NameContext name_context,
                                           SemIR::NodeId target_id)
    -> SemIR::NodeId {
  switch (name_context.state) {
    case NameContext::State::Error:
      // The name is invalid and a diagnostic has already been emitted.
      return SemIR::NodeId::Invalid;

    case NameContext::State::Empty:
      CARBON_FATAL() << "Name is missing, not expected to call AddNameToLookup "
                        "(but that may change based on error handling).";

    case NameContext::State::Resolved:
    case NameContext::State::ResolvedNonScope:
      return name_context.resolved_node_id;

    case NameContext::State::Unresolved:
      if (name_context.target_scope_id == SemIR::NameScopeId::Invalid) {
        context_->AddNameToLookup(name_context.parse_node,
                                  name_context.unresolved_name_id, target_id);
      } else {
        // TODO: Reject unless the scope is a namespace scope or the name is
        // unqualified.
        bool success = context_->semantics_ir().AddNameScopeEntry(
            name_context.target_scope_id, name_context.unresolved_name_id,
            target_id);
        CARBON_CHECK(success)
            << "Duplicate names should have been resolved previously: "
            << name_context.unresolved_name_id << " in "
            << name_context.target_scope_id;
      }
      return SemIR::NodeId::Invalid;
  }
}

auto DeclarationNameStack::AddNameToLookup(NameContext name_context,
                                           SemIR::NodeId target_id) -> void {
  auto existing_node_id = LookupOrAddName(name_context, target_id);
  if (existing_node_id.is_valid()) {
    context_->DiagnoseDuplicateName(name_context.parse_node, existing_node_id);
  }
}

auto DeclarationNameStack::ApplyExpressionQualifier(Parse::Node parse_node,
                                                    SemIR::NodeId node_id)
    -> void {
  auto& name_context = declaration_name_stack_.back();
  if (CanResolveQualifier(name_context, parse_node)) {
    if (node_id == SemIR::NodeId::BuiltinError) {
      // The input node is an error, so error the context.
      name_context.state = NameContext::State::Error;
      return;
    }

    // For other nodes, we expect a regular resolved node, for example a
    // namespace or generic type. Store it and continue for the target scope
    // update.
    name_context.resolved_node_id = node_id;

    UpdateScopeIfNeeded(name_context);
  }
}

auto DeclarationNameStack::ApplyNameQualifier(Parse::Node parse_node,
                                              StringId name_id) -> void {
  ApplyNameQualifierTo(declaration_name_stack_.back(), parse_node, name_id);
}

auto DeclarationNameStack::ApplyNameQualifierTo(NameContext& name_context,
                                                Parse::Node parse_node,
                                                StringId name_id) -> void {
  if (CanResolveQualifier(name_context, parse_node)) {
    // For identifier nodes, we need to perform a lookup on the identifier.
    // This means the input node_id is actually a string ID.
    //
    // TODO: This doesn't perform the right kind of lookup. We will find names
    // from enclosing lexical scopes here, in the case where `target_scope_id`
    // is invalid.
    auto resolved_node_id = context_->LookupName(
        name_context.parse_node, name_id, name_context.target_scope_id,
        /*print_diagnostics=*/false);
    if (resolved_node_id == SemIR::NodeId::BuiltinError) {
      // Invalid indicates an unresolved node. Store it and return.
      name_context.state = NameContext::State::Unresolved;
      name_context.unresolved_name_id = name_id;
      return;
    } else {
      // Store the resolved node and continue for the target scope update.
      name_context.resolved_node_id = resolved_node_id;
    }

    UpdateScopeIfNeeded(name_context);
  }
}

auto DeclarationNameStack::UpdateScopeIfNeeded(NameContext& name_context)
    -> void {
  // This will only be reached for resolved nodes. We update the target
  // scope based on the resolved type.
  auto resolved_node =
      context_->semantics_ir().GetNode(name_context.resolved_node_id);
  switch (resolved_node.kind()) {
    case SemIR::ClassDeclaration::Kind: {
      auto& class_info = context_->semantics_ir().GetClass(
          resolved_node.As<SemIR::ClassDeclaration>().class_id);
      // TODO: Check that the class is complete rather than that it has a scope.
      if (class_info.scope_id.is_valid()) {
        name_context.state = NameContext::State::Resolved;
        name_context.target_scope_id = class_info.scope_id;
      } else {
        name_context.state = NameContext::State::ResolvedNonScope;
      }
      break;
    }
    case SemIR::Namespace::Kind:
      name_context.state = NameContext::State::Resolved;
      name_context.target_scope_id =
          resolved_node.As<SemIR::Namespace>().name_scope_id;
      break;
    default:
      name_context.state = NameContext::State::ResolvedNonScope;
      break;
  }
}

auto DeclarationNameStack::CanResolveQualifier(NameContext& name_context,
                                               Parse::Node parse_node) -> bool {
  switch (name_context.state) {
    case NameContext::State::Error:
      // Already in an error state, so return without examining.
      return false;

    case NameContext::State::Unresolved:
      // Because more qualifiers were found, we diagnose that the earlier
      // qualifier failed to resolve.
      name_context.state = NameContext::State::Error;
      context_->DiagnoseNameNotFound(name_context.parse_node,
                                     name_context.unresolved_name_id);
      return false;

    case NameContext::State::ResolvedNonScope: {
      // Because more qualifiers were found, we diagnose that the earlier
      // qualifier didn't resolve to a scoped entity.
      if (auto class_decl = context_->semantics_ir()
                                .GetNode(name_context.resolved_node_id)
                                .TryAs<SemIR::ClassDeclaration>()) {
        CARBON_DIAGNOSTIC(QualifiedDeclarationInIncompleteClassScope, Error,
                          "Cannot declare a member of incomplete class `{0}`.",
                          std::string);
        auto builder = context_->emitter().Build(
            name_context.parse_node, QualifiedDeclarationInIncompleteClassScope,
            context_->semantics_ir().StringifyTypeExpression(
                name_context.resolved_node_id, true));
        context_->NoteIncompleteClass(*class_decl, builder);
        builder.Emit();
      } else {
        CARBON_DIAGNOSTIC(
            QualifiedDeclarationInNonScope, Error,
            "Declaration qualifiers are only allowed for entities "
            "that provide a scope.");
        CARBON_DIAGNOSTIC(QualifiedDeclarationNonScopeEntity, Note,
                          "Non-scope entity referenced here.");
        context_->emitter()
            .Build(parse_node, QualifiedDeclarationInNonScope)
            .Note(name_context.parse_node, QualifiedDeclarationNonScopeEntity)
            .Emit();
      }
      name_context.state = NameContext::State::Error;
      return false;
    }

    case NameContext::State::Empty:
    case NameContext::State::Resolved: {
      name_context.parse_node = parse_node;
      return true;
    }
  }
}

}  // namespace Carbon::Check