carbon-lang/toolchain/check/context.h

// 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

#ifndef CARBON_TOOLCHAIN_CHECK_CONTEXT_H_
#define CARBON_TOOLCHAIN_CHECK_CONTEXT_H_

#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/FoldingSet.h"
#include "llvm/ADT/SmallVector.h"
#include "toolchain/check/decl_name_stack.h"
#include "toolchain/check/decl_state.h"
#include "toolchain/check/diagnostic_helpers.h"
#include "toolchain/check/inst_block_stack.h"
#include "toolchain/check/node_stack.h"
#include "toolchain/check/param_and_arg_refs_stack.h"
#include "toolchain/check/scope_stack.h"
#include "toolchain/parse/node_ids.h"
#include "toolchain/parse/tree.h"
#include "toolchain/sem_ir/file.h"
#include "toolchain/sem_ir/ids.h"
#include "toolchain/sem_ir/import_ir.h"
#include "toolchain/sem_ir/inst.h"

namespace Carbon::Check {

// Context and shared functionality for semantics handlers.
class Context {
 public:
  using DiagnosticEmitter = Carbon::DiagnosticEmitter<SemIRLoc>;
  using DiagnosticBuilder = DiagnosticEmitter::DiagnosticBuilder;

  // Stores references for work.
  explicit Context(const Lex::TokenizedBuffer& tokens,
                   DiagnosticEmitter& emitter, const Parse::Tree& parse_tree,
                   SemIR::File& sem_ir, llvm::raw_ostream* vlog_stream);

  // Marks an implementation TODO. Always returns false.
  auto TODO(SemIRLoc loc, std::string label) -> bool;

  // Runs verification that the processing cleanly finished.
  auto VerifyOnFinish() -> void;

  // Adds an instruction to the current block, returning the produced ID.
  auto AddInst(SemIR::LocIdAndInst loc_id_and_inst) -> SemIR::InstId;

  // Adds an instruction in no block, returning the produced ID. Should be used
  // rarely.
  auto AddInstInNoBlock(SemIR::LocIdAndInst loc_id_and_inst) -> SemIR::InstId;

  // Adds an instruction to the current block, returning the produced ID. The
  // instruction is a placeholder that is expected to be replaced by
  // `ReplaceInstBeforeConstantUse`.
  auto AddPlaceholderInst(SemIR::LocIdAndInst loc_id_and_inst) -> SemIR::InstId;

  // Adds an instruction in no block, returning the produced ID. Should be used
  // rarely. The instruction is a placeholder that is expected to be replaced by
  // `ReplaceInstBeforeConstantUse`.
  auto AddPlaceholderInstInNoBlock(SemIR::LocIdAndInst loc_id_and_inst)
      -> SemIR::InstId;

  // Adds an instruction to the constants block, returning the produced ID.
  auto AddConstant(SemIR::Inst inst, bool is_symbolic) -> SemIR::ConstantId;

  // Pushes a parse tree node onto the stack, storing the SemIR::Inst as the
  // result. Only valid if the LocId is for a NodeId.
  auto AddInstAndPush(SemIR::LocIdAndInst loc_id_and_inst) -> void;

  // Replaces the instruction `inst_id` with `loc_id_and_inst`. The instruction
  // is required to not have been used in any constant evaluation, either
  // because it's newly created and entirely unused, or because it's only used
  // in a position that constant evaluation ignores, such as a return slot.
  auto ReplaceLocIdAndInstBeforeConstantUse(SemIR::InstId inst_id,
                                            SemIR::LocIdAndInst loc_id_and_inst)
      -> void;

  // Replaces the instruction `inst_id` with `inst`, not affecting location.
  // The instruction is required to not have been used in any constant
  // evaluation, either because it's newly created and entirely unused, or
  // because it's only used in a position that constant evaluation ignores, such
  // as a return slot.
  auto ReplaceInstBeforeConstantUse(SemIR::InstId inst_id, SemIR::Inst inst)
      -> void;

  // Adds an import_ref instruction for the specified instruction in the
  // specified IR. The import_ref is initially marked as unused.
  auto AddImportRef(SemIR::ImportIRInst import_ir_inst) -> SemIR::InstId;

  // Sets only the parse node of an instruction. This is only used when setting
  // the parse node of an imported namespace. Versus
  // ReplaceInstBeforeConstantUse, it is safe to use after the namespace is used
  // in constant evaluation. It's exposed this way mainly so that `insts()` can
  // remain const.
  auto SetNamespaceNodeId(SemIR::InstId inst_id, Parse::NodeId node_id)
      -> void {
    sem_ir().insts().SetLocId(inst_id, SemIR::LocId(node_id));
  }

  // Adds a name to name lookup. Prints a diagnostic for name conflicts.
  auto AddNameToLookup(SemIR::NameId name_id, SemIR::InstId target_id) -> void;

  // Performs name lookup in a specified scope for a name appearing in a
  // declaration, returning the referenced instruction. If scope_id is invalid,
  // uses the current contextual scope.
  auto LookupNameInDecl(SemIR::LocId loc_id, SemIR::NameId name_id,
                        SemIR::NameScopeId scope_id, bool mark_imports_used)
      -> SemIR::InstId;

  // Performs an unqualified name lookup, returning the referenced instruction.
  auto LookupUnqualifiedName(Parse::NodeId node_id, SemIR::NameId name_id)
      -> SemIR::InstId;

  // Performs a name lookup in a specified scope, returning the referenced
  // instruction. Does not look into extended scopes. Returns an invalid
  // instruction if the name is not found.
  auto LookupNameInExactScope(SemIRLoc loc, SemIR::NameId name_id,
                              const SemIR::NameScope& scope,
                              bool mark_imports_used) -> SemIR::InstId;

  // Performs a qualified name lookup in a specified scope and in scopes that
  // it extends, returning the referenced instruction.
  auto LookupQualifiedName(Parse::NodeId node_id, SemIR::NameId name_id,
                           SemIR::NameScopeId scope_id, bool required = true)
      -> SemIR::InstId;

  // Returns the instruction corresponding to a name in the core package, or
  // BuiltinError if not found.
  auto LookupNameInCore(SemIRLoc loc, llvm::StringRef name) -> SemIR::InstId;

  // Prints a diagnostic for a duplicate name.
  auto DiagnoseDuplicateName(SemIRLoc dup_def, SemIRLoc prev_def) -> void;

  // Prints a diagnostic for a missing name.
  auto DiagnoseNameNotFound(SemIRLoc loc, SemIR::NameId name_id) -> void;

  // Adds a note to a diagnostic explaining that a class is incomplete.
  auto NoteIncompleteClass(SemIR::ClassId class_id, DiagnosticBuilder& builder)
      -> void;

  // Adds a note to a diagnostic explaining that an interface is not defined.
  auto NoteUndefinedInterface(SemIR::InterfaceId interface_id,
                              DiagnosticBuilder& builder) -> void;

  // Returns the current scope, if it is of the specified kind. Otherwise,
  // returns nullopt.
  template <typename InstT>
  auto GetCurrentScopeAs() -> std::optional<InstT> {
    return scope_stack().GetCurrentScopeAs<InstT>(sem_ir());
  }

  // Adds a `Branch` instruction branching to a new instruction block, and
  // returns the ID of the new block. All paths to the branch target must go
  // through the current block, though not necessarily through this branch.
  auto AddDominatedBlockAndBranch(Parse::NodeId node_id) -> SemIR::InstBlockId;

  // Adds a `Branch` instruction branching to a new instruction block with a
  // value, and returns the ID of the new block. All paths to the branch target
  // must go through the current block.
  auto AddDominatedBlockAndBranchWithArg(Parse::NodeId node_id,
                                         SemIR::InstId arg_id)
      -> SemIR::InstBlockId;

  // Adds a `BranchIf` instruction branching to a new instruction block, and
  // returns the ID of the new block. All paths to the branch target must go
  // through the current block.
  auto AddDominatedBlockAndBranchIf(Parse::NodeId node_id,
                                    SemIR::InstId cond_id)
      -> SemIR::InstBlockId;

  // Handles recovergence of control flow. Adds branches from the top
  // `num_blocks` on the instruction block stack to a new block, pops the
  // existing blocks, and pushes the new block onto the instruction block stack.
  auto AddConvergenceBlockAndPush(Parse::NodeId node_id, int num_blocks)
      -> void;

  // Handles recovergence of control flow with a result value. Adds branches
  // from the top few blocks on the instruction block stack to a new block, pops
  // the existing blocks, and pushes the new block onto the instruction block
  // stack. The number of blocks popped is the size of `block_args`, and the
  // corresponding result values are the elements of `block_args`. Returns an
  // instruction referring to the result value.
  auto AddConvergenceBlockWithArgAndPush(
      Parse::NodeId node_id, std::initializer_list<SemIR::InstId> block_args)
      -> SemIR::InstId;

  // Sets the constant value of a block argument created as the result of a
  // branch.  `select_id` should be a `BlockArg` that selects between two
  // values. `cond_id` is the condition, `if_false` is the value to use if the
  // condition is false, and `if_true` is the value to use if the condition is
  // true.  We don't track enough information in the `BlockArg` inst for
  // `TryEvalInst` to do this itself.
  auto SetBlockArgResultBeforeConstantUse(SemIR::InstId select_id,
                                          SemIR::InstId cond_id,
                                          SemIR::InstId if_true,
                                          SemIR::InstId if_false) -> void;

  // Add the current code block to the enclosing function.
  // TODO: The node_id is taken for expressions, which can occur in
  // non-function contexts. This should be refactored to support non-function
  // contexts, and node_id removed.
  auto AddCurrentCodeBlockToFunction(
      Parse::NodeId node_id = Parse::NodeId::Invalid) -> void;

  // Returns whether the current position in the current block is reachable.
  auto is_current_position_reachable() -> bool;

  // Returns the type ID for a constant of type `type`.
  auto GetTypeIdForTypeConstant(SemIR::ConstantId constant_id) -> SemIR::TypeId;

  // Returns the type ID for an instruction whose constant value is of type
  // `type`.
  auto GetTypeIdForTypeInst(SemIR::InstId inst_id) -> SemIR::TypeId {
    return GetTypeIdForTypeConstant(constant_values().Get(inst_id));
  }

  // Attempts to complete the type `type_id`. Returns `true` if the type is
  // complete, or `false` if it could not be completed. A complete type has
  // known object and value representations.
  //
  // If the type is not complete, `diagnoser` is invoked to diagnose the issue,
  // if a `diagnoser` is provided. The builder it returns will be annotated to
  // describe the reason why the type is not complete.
  auto TryToCompleteType(
      SemIR::TypeId type_id,
      std::optional<llvm::function_ref<auto()->DiagnosticBuilder>> diagnoser =
          std::nullopt) -> bool;

  // Returns the type `type_id` as a complete type, or produces an incomplete
  // type error and returns an error type. This is a convenience wrapper around
  // TryToCompleteType.
  auto AsCompleteType(SemIR::TypeId type_id,
                      llvm::function_ref<auto()->DiagnosticBuilder> diagnoser)
      -> SemIR::TypeId {
    return TryToCompleteType(type_id, diagnoser) ? type_id
                                                 : SemIR::TypeId::Error;
  }

  // TODO: Consider moving these `Get*Type` functions to a separate class.

  // Gets the type for the name of an associated entity.
  auto GetAssociatedEntityType(SemIR::InterfaceId interface_id,
                               SemIR::TypeId entity_type_id) -> SemIR::TypeId;

  // Gets a builtin type. The returned type will be complete.
  auto GetBuiltinType(SemIR::BuiltinKind kind) -> SemIR::TypeId;

  // Returns a pointer type whose pointee type is `pointee_type_id`.
  auto GetPointerType(SemIR::TypeId pointee_type_id) -> SemIR::TypeId;

  // Returns a struct type with the given fields, which should be a block of
  // `StructTypeField`s.
  auto GetStructType(SemIR::InstBlockId refs_id) -> SemIR::TypeId;

  // Returns a tuple type with the given element types.
  auto GetTupleType(llvm::ArrayRef<SemIR::TypeId> type_ids) -> SemIR::TypeId;

  // Returns an unbound element type.
  auto GetUnboundElementType(SemIR::TypeId class_type_id,
                             SemIR::TypeId element_type_id) -> SemIR::TypeId;

  // Removes any top-level `const` qualifiers from a type.
  auto GetUnqualifiedType(SemIR::TypeId type_id) -> SemIR::TypeId;

  // Adds an exported name.
  auto AddExport(SemIR::InstId inst_id) -> void { exports_.push_back(inst_id); }

  // Finalizes the list of exports on the IR.
  auto FinalizeExports() -> void {
    inst_blocks().Set(SemIR::InstBlockId::Exports, exports_);
  }

  // Finalizes the initialization function (__global_init).
  auto FinalizeGlobalInit() -> void;

  // Prints information for a stack dump.
  auto PrintForStackDump(llvm::raw_ostream& output) const -> void;

  // Get the Lex::TokenKind of a node for diagnostics.
  auto token_kind(Parse::NodeId node_id) -> Lex::TokenKind {
    return tokens().GetKind(parse_tree().node_token(node_id));
  }

  auto tokens() -> const Lex::TokenizedBuffer& { return *tokens_; }

  auto emitter() -> DiagnosticEmitter& { return *emitter_; }

  auto parse_tree() -> const Parse::Tree& { return *parse_tree_; }

  auto sem_ir() -> SemIR::File& { return *sem_ir_; }

  auto node_stack() -> NodeStack& { return node_stack_; }

  auto inst_block_stack() -> InstBlockStack& { return inst_block_stack_; }

  auto param_and_arg_refs_stack() -> ParamAndArgRefsStack& {
    return param_and_arg_refs_stack_;
  }

  auto args_type_info_stack() -> InstBlockStack& {
    return args_type_info_stack_;
  }

  auto decl_name_stack() -> DeclNameStack& { return decl_name_stack_; }

  auto decl_state_stack() -> DeclStateStack& { return decl_state_stack_; }

  auto scope_stack() -> ScopeStack& { return scope_stack_; }

  auto return_scope_stack() -> llvm::SmallVector<ScopeStack::ReturnScope>& {
    return scope_stack().return_scope_stack();
  }

  auto break_continue_stack()
      -> llvm::SmallVector<ScopeStack::BreakContinueScope>& {
    return scope_stack().break_continue_stack();
  }

  auto import_ir_constant_values()
      -> llvm::SmallVector<SemIR::ConstantValueStore, 0>& {
    return import_ir_constant_values_;
  }

  // Directly expose SemIR::File data accessors for brevity in calls.

  auto identifiers() -> StringStoreWrapper<IdentifierId>& {
    return sem_ir().identifiers();
  }
  auto ints() -> ValueStore<IntId>& { return sem_ir().ints(); }
  auto reals() -> ValueStore<RealId>& { return sem_ir().reals(); }
  auto string_literal_values() -> StringStoreWrapper<StringLiteralValueId>& {
    return sem_ir().string_literal_values();
  }
  auto bind_names() -> ValueStore<SemIR::BindNameId>& {
    return sem_ir().bind_names();
  }
  auto functions() -> ValueStore<SemIR::FunctionId>& {
    return sem_ir().functions();
  }
  auto classes() -> ValueStore<SemIR::ClassId>& { return sem_ir().classes(); }
  auto interfaces() -> ValueStore<SemIR::InterfaceId>& {
    return sem_ir().interfaces();
  }
  auto impls() -> SemIR::ImplStore& { return sem_ir().impls(); }
  auto import_irs() -> ValueStore<SemIR::ImportIRId>& {
    return sem_ir().import_irs();
  }
  auto import_ir_insts() -> ValueStore<SemIR::ImportIRInstId>& {
    return sem_ir().import_ir_insts();
  }
  auto names() -> SemIR::NameStoreWrapper { return sem_ir().names(); }
  auto name_scopes() -> SemIR::NameScopeStore& {
    return sem_ir().name_scopes();
  }
  auto types() -> SemIR::TypeStore& { return sem_ir().types(); }
  auto type_blocks() -> SemIR::BlockValueStore<SemIR::TypeBlockId>& {
    return sem_ir().type_blocks();
  }
  // Instructions should be added with `AddInst` or `AddInstInNoBlock`. This is
  // `const` to prevent accidental misuse.
  auto insts() -> const SemIR::InstStore& { return sem_ir().insts(); }
  auto constant_values() -> SemIR::ConstantValueStore& {
    return sem_ir().constant_values();
  }
  auto inst_blocks() -> SemIR::InstBlockStore& {
    return sem_ir().inst_blocks();
  }
  auto constants() -> SemIR::ConstantStore& { return sem_ir().constants(); }

 private:
  // A FoldingSet node for a type.
  class TypeNode : public llvm::FastFoldingSetNode {
   public:
    explicit TypeNode(const llvm::FoldingSetNodeID& node_id,
                      SemIR::TypeId type_id)
        : llvm::FastFoldingSetNode(node_id), type_id_(type_id) {}

    auto type_id() -> SemIR::TypeId { return type_id_; }

   private:
    SemIR::TypeId type_id_;
  };

  // Tokens for getting data on literals.
  const Lex::TokenizedBuffer* tokens_;

  // Handles diagnostics.
  DiagnosticEmitter* emitter_;

  // The file's parse tree.
  const Parse::Tree* parse_tree_;

  // The SemIR::File being added to.
  SemIR::File* sem_ir_;

  // Whether to print verbose output.
  llvm::raw_ostream* vlog_stream_;

  // The stack during Build. Will contain file-level parse nodes on return.
  NodeStack node_stack_;

  // The stack of instruction blocks being used for general IR generation.
  InstBlockStack inst_block_stack_;

  // The stack of instruction blocks being used for param and arg ref blocks.
  ParamAndArgRefsStack param_and_arg_refs_stack_;

  // The stack of instruction blocks being used for type information while
  // processing arguments. This is used in parallel with
  // param_and_arg_refs_stack_. It's currently only used for struct literals,
  // where we need to track names for a type separate from the literal
  // arguments.
  InstBlockStack args_type_info_stack_;

  // The stack used for qualified declaration name construction.
  DeclNameStack decl_name_stack_;

  // The stack of declarations that could have modifiers.
  DeclStateStack decl_state_stack_;

  // The stack of scopes we are currently within.
  ScopeStack scope_stack_;

  // Cache of reverse mapping from type constants to types.
  //
  // TODO: Instead of mapping to a dense `TypeId` space, we could make `TypeId`
  // be a thin wrapper around `ConstantId` and only perform the lookup only when
  // we want to access the completeness and value representation of a type. It's
  // not clear whether that would result in more or fewer lookups.
  //
  // TODO: Should this be part of the `TypeStore`?
  llvm::DenseMap<SemIR::ConstantId, SemIR::TypeId> type_ids_for_type_constants_;

  // The list which will form NodeBlockId::Exports.
  llvm::SmallVector<SemIR::InstId> exports_;

  // Per-import constant values. These refer to the main IR and mainly serve as
  // a lookup table for quick access.
  //
  // Inline 0 elements because it's expected to require heap allocation.
  llvm::SmallVector<SemIR::ConstantValueStore, 0> import_ir_constant_values_;
};

}  // namespace Carbon::Check

#endif  // CARBON_TOOLCHAIN_CHECK_CONTEXT_H_