carbon-lang/toolchain/parse/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_PARSE_CONTEXT_H_
#define CARBON_TOOLCHAIN_PARSE_CONTEXT_H_

#include <optional>

#include "common/check.h"
#include "common/vlog.h"
#include "toolchain/lex/token_kind.h"
#include "toolchain/lex/tokenized_buffer.h"
#include "toolchain/parse/node_kind.h"
#include "toolchain/parse/precedence.h"
#include "toolchain/parse/state.h"
#include "toolchain/parse/tree.h"

namespace Carbon::Parse {

// Context and shared functionality for parser handlers. See state.def for state
// documentation.
class Context {
 public:
  // Possible operator fixities for errors.
  enum class OperatorFixity : int8_t { Prefix, Infix, Postfix };

  // Possible return values for FindListToken.
  enum class ListTokenKind : int8_t { Comma, Close, CommaClose };

  // Supported kinds for HandlePattern.
  enum class PatternKind : int8_t {
    DeducedParameter,
    Parameter,
    Variable,
    Let
  };

  // Supported return values for GetDeclarationContext.
  enum class DeclarationContext : int8_t {
    File,  // Top-level context.
    Class,
    Interface,
    NamedConstraint,
  };

  // Used to track state on state_stack_.
  struct StateStackEntry : public Printable<StateStackEntry> {
    explicit StateStackEntry(State state, PrecedenceGroup ambient_precedence,
                             PrecedenceGroup lhs_precedence, Lex::Token token,
                             int32_t subtree_start)
        : state(state),
          ambient_precedence(ambient_precedence),
          lhs_precedence(lhs_precedence),
          token(token),
          subtree_start(subtree_start) {}

    // Prints state information for verbose output.
    auto Print(llvm::raw_ostream& output) const -> void {
      output << state << " @" << token << " subtree_start=" << subtree_start
             << " has_error=" << has_error;
    };

    // The state.
    State state;
    // Set to true to indicate that an error was found, and that contextual
    // error recovery may be needed.
    bool has_error = false;

    // Precedence information used by expression states in order to determine
    // operator precedence. The ambient_precedence deals with how the expression
    // should interact with outside context, while the lhs_precedence is
    // specific to the lhs of an operator expression.
    PrecedenceGroup ambient_precedence;
    PrecedenceGroup lhs_precedence;

    // A token providing context based on the subtree. This will typically be
    // the first token in the subtree, but may sometimes be a token within. It
    // will typically be used for the subtree's root node.
    Lex::Token token;
    // The offset within the Tree of the subtree start.
    int32_t subtree_start;
  };

  // We expect StateStackEntry to fit into 12 bytes:
  //   state = 1 byte
  //   has_error = 1 byte
  //   ambient_precedence = 1 byte
  //   lhs_precedence = 1 byte
  //   token = 4 bytes
  //   subtree_start = 4 bytes
  // If it becomes bigger, it'd be worth examining better packing; it should be
  // feasible to pack the 1-byte entries more tightly.
  static_assert(sizeof(StateStackEntry) == 12,
                "StateStackEntry has unexpected size!");

  explicit Context(Tree& tree, Lex::TokenizedBuffer& tokens,
                   Lex::TokenDiagnosticEmitter& emitter,
                   llvm::raw_ostream* vlog_stream);

  // Adds a node to the parse tree that has no children (a leaf).
  auto AddLeafNode(NodeKind kind, Lex::Token token, bool has_error = false)
      -> void;

  // Adds a node to the parse tree that has children.
  auto AddNode(NodeKind kind, Lex::Token token, int subtree_start,
               bool has_error) -> void;

  // Returns the current position and moves past it.
  auto Consume() -> Lex::Token { return *(position_++); }

  // Parses an open paren token, possibly diagnosing if necessary. Creates a
  // leaf parse node of the specified start kind. The default_token is used when
  // there's no open paren. Returns the open paren token if it was found.
  auto ConsumeAndAddOpenParen(Lex::Token default_token, NodeKind start_kind)
      -> std::optional<Lex::Token>;

  // Parses a closing symbol corresponding to the opening symbol
  // `expected_open`, possibly skipping forward and diagnosing if necessary.
  // Creates a parse node of the specified close kind. If `expected_open` is not
  // an opening symbol, the parse node will be associated with `state.token`,
  // no input will be consumed, and no diagnostic will be emitted.
  auto ConsumeAndAddCloseSymbol(Lex::Token expected_open, StateStackEntry state,
                                NodeKind close_kind) -> void;

  // Composes `ConsumeIf` and `AddLeafNode`, returning false when ConsumeIf
  // fails.
  auto ConsumeAndAddLeafNodeIf(Lex::TokenKind token_kind, NodeKind node_kind)
      -> bool;

  // Returns the current position and moves past it. Requires the token is the
  // expected kind.
  auto ConsumeChecked(Lex::TokenKind kind) -> Lex::Token;

  // If the current position's token matches this `Kind`, returns it and
  // advances to the next position. Otherwise returns an empty optional.
  auto ConsumeIf(Lex::TokenKind kind) -> std::optional<Lex::Token>;

  // Find the next token of any of the given kinds at the current bracketing
  // level.
  auto FindNextOf(std::initializer_list<Lex::TokenKind> desired_kinds)
      -> std::optional<Lex::Token>;

  // If the token is an opening symbol for a matched group, skips to the matched
  // closing symbol and returns true. Otherwise, returns false.
  auto SkipMatchingGroup() -> bool;

  // Skips forward to move past the likely end of a declaration or statement.
  //
  // Looks forward, skipping over any matched symbol groups, to find the next
  // position that is likely past the end of a declaration or statement. This
  // is a heuristic and should only be called when skipping past parse errors.
  //
  // The strategy for recognizing when we have likely passed the end of a
  // declaration or statement:
  // - If we get to a close curly brace, we likely ended the entire context.
  // - If we get to a semicolon, that should have ended the declaration or
  //   statement.
  // - If we get to a new line from the `SkipRoot` token, but with the same or
  //   less indentation, there is likely a missing semicolon. Continued
  //   declarations or statements across multiple lines should be indented.
  //
  // Returns a semicolon token if one is the likely end.
  auto SkipPastLikelyEnd(Lex::Token skip_root) -> std::optional<Lex::Token>;

  // Skip forward to the given token. Verifies that it is actually forward.
  auto SkipTo(Lex::Token t) -> void;

  // Returns true if the current token satisfies the lexical validity rules
  // for an infix operator.
  auto IsLexicallyValidInfixOperator() -> bool;

  // Determines whether the current trailing operator should be treated as
  // infix.
  auto IsTrailingOperatorInfix() -> bool;

  // Diagnoses whether the current token is not written properly for the given
  // fixity. For example, because mandatory whitespace is missing. Regardless of
  // whether there's an error, it's expected that parsing continues.
  auto DiagnoseOperatorFixity(OperatorFixity fixity) -> void;

  // If the current position is a `,`, consumes it, adds the provided token, and
  // returns `Comma`. Returns `Close` if the current position is close_token
  // (for example, `)`). `CommaClose` indicates it found both (for example,
  // `,)`). Handles cases where invalid tokens are present by advancing the
  // position, and may emit errors. Pass already_has_error in order to suppress
  // duplicate errors.
  auto ConsumeListToken(NodeKind comma_kind, Lex::TokenKind close_kind,
                        bool already_has_error) -> ListTokenKind;

  // Gets the kind of the next token to be consumed.
  auto PositionKind() const -> Lex::TokenKind {
    return tokens_->GetKind(*position_);
  }

  // Tests whether the next token to be consumed is of the specified kind.
  auto PositionIs(Lex::TokenKind kind) const -> bool {
    return PositionKind() == kind;
  }

  // Pops the state and keeps the value for inspection.
  auto PopState() -> StateStackEntry {
    auto back = state_stack_.pop_back_val();
    CARBON_VLOG() << "Pop " << state_stack_.size() << ": " << back << "\n";
    return back;
  }

  // Pops the state and discards it.
  auto PopAndDiscardState() -> void {
    CARBON_VLOG() << "PopAndDiscard " << state_stack_.size() - 1 << ": "
                  << state_stack_.back() << "\n";
    state_stack_.pop_back();
  }

  // Pushes a new state with the current position for context.
  auto PushState(State state) -> void {
    PushState(StateStackEntry(state, PrecedenceGroup::ForTopLevelExpression(),
                              PrecedenceGroup::ForTopLevelExpression(),
                              *position_, tree_->size()));
  }

  // Pushes a new state with a specific token for context. Used when forming a
  // new subtree with a token that isn't the start of the subtree.
  auto PushState(State state, Lex::Token token) -> void {
    PushState(StateStackEntry(state, PrecedenceGroup::ForTopLevelExpression(),
                              PrecedenceGroup::ForTopLevelExpression(), token,
                              tree_->size()));
  }

  // Pushes a new expression state with specific precedence.
  auto PushStateForExpression(PrecedenceGroup ambient_precedence) -> void {
    PushState(StateStackEntry(State::Expression, ambient_precedence,
                              PrecedenceGroup::ForTopLevelExpression(),
                              *position_, tree_->size()));
  }

  // Pushes a new state with detailed precedence for expression resume states.
  auto PushStateForExpressionLoop(State state,
                                  PrecedenceGroup ambient_precedence,
                                  PrecedenceGroup lhs_precedence) -> void {
    PushState(StateStackEntry(state, ambient_precedence, lhs_precedence,
                              *position_, tree_->size()));
  }

  // Pushes a constructed state onto the stack.
  auto PushState(StateStackEntry state) -> void {
    CARBON_VLOG() << "Push " << state_stack_.size() << ": " << state << "\n";
    state_stack_.push_back(state);
    CARBON_CHECK(state_stack_.size() < (1 << 20))
        << "Excessive stack size: likely infinite loop";
  }

  // Returns the current declaration context according to state_stack_.
  // This is expected to be called in cases which are close to a context.
  // Although it looks like it could be O(n) for state_stack_'s depth, valid
  // parses should only need to look down a couple steps.
  //
  // This currently assumes it's being called from within the declaration's
  // DeclarationScopeLoop.
  auto GetDeclarationContext() -> DeclarationContext;

  // Propagates an error up the state stack, to the parent state.
  auto ReturnErrorOnState() -> void { state_stack_.back().has_error = true; }

  // For HandlePattern, tries to consume a wrapping keyword.
  auto ConsumeIfPatternKeyword(Lex::TokenKind keyword_token,
                               State keyword_state, int subtree_start) -> void;

  // Emits a diagnostic for a declaration missing a semi.
  auto EmitExpectedDeclarationSemi(Lex::TokenKind expected_kind) -> void;

  // Emits a diagnostic for a declaration missing a semi or definition.
  auto EmitExpectedDeclarationSemiOrDefinition(Lex::TokenKind expected_kind)
      -> void;

  // Handles error recovery in a declaration, particularly before any possible
  // definition has started (although one could be present). Recover to a
  // semicolon when it makes sense as a possible end, otherwise use the
  // introducer token for the error.
  auto RecoverFromDeclarationError(StateStackEntry state,
                                   NodeKind parse_node_kind,
                                   bool skip_past_likely_end) -> void;

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

  auto tree() const -> const Tree& { return *tree_; }

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

  auto emitter() -> Lex::TokenDiagnosticEmitter& { return *emitter_; }

  auto position() -> Lex::TokenIterator& { return position_; }
  auto position() const -> Lex::TokenIterator { return position_; }

  auto state_stack() -> llvm::SmallVector<StateStackEntry>& {
    return state_stack_;
  }

  auto state_stack() const -> const llvm::SmallVector<StateStackEntry>& {
    return state_stack_;
  }

 private:
  // Prints a single token for a stack dump. Used by PrintForStackDump.
  auto PrintTokenForStackDump(llvm::raw_ostream& output, Lex::Token token) const
      -> void;

  Tree* tree_;
  Lex::TokenizedBuffer* tokens_;
  Lex::TokenDiagnosticEmitter* emitter_;

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

  // The current position within the token buffer.
  Lex::TokenIterator position_;
  // The EndOfFile token.
  Lex::TokenIterator end_;

  llvm::SmallVector<StateStackEntry> state_stack_;
};

// `clang-format` has a bug with spacing around `->` returns in macros. See
// https://bugs.llvm.org/show_bug.cgi?id=48320 for details.
#define CARBON_PARSE_STATE(Name) auto Handle##Name(Context& context)->void;
#include "toolchain/parse/state.def"

}  // namespace Carbon::Parse

#endif  // CARBON_TOOLCHAIN_PARSE_CONTEXT_H_