Compiler projects using llvm
//===--- MacroArgs.h - Formal argument info for Macros ----------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file defines the MacroArgs interface.
//
//===----------------------------------------------------------------------===//

#ifndef LLVM_CLANG_LEX_MACROARGS_H
#define LLVM_CLANG_LEX_MACROARGS_H

#include "clang/Basic/LLVM.h"
#include "clang/Lex/Token.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/Support/TrailingObjects.h"
#include <vector>

namespace clang {
  class MacroInfo;
  class Preprocessor;
  class SourceLocation;

/// MacroArgs - An instance of this class captures information about
/// the formal arguments specified to a function-like macro invocation.
class MacroArgs final
    : private llvm::TrailingObjects<MacroArgs, Token> {

  friend TrailingObjects;
  /// NumUnexpArgTokens - The number of raw, unexpanded tokens for the
  /// arguments.  All of the actual argument tokens are allocated immediately
  /// after the MacroArgs object in memory.  This is all of the arguments
  /// concatenated together, with 'EOF' markers at the end of each argument.
  unsigned NumUnexpArgTokens;

  /// VarargsElided - True if this is a C99 style varargs macro invocation and
  /// there was no argument specified for the "..." argument.  If the argument
  /// was specified (even empty) or this isn't a C99 style varargs function, or
  /// if in strict mode and the C99 varargs macro had only a ... argument, this
  /// is false.
  bool VarargsElided;

  /// PreExpArgTokens - Pre-expanded tokens for arguments that need them.  Empty
  /// if not yet computed.  This includes the EOF marker at the end of the
  /// stream.
  std::vector<std::vector<Token> > PreExpArgTokens;

  /// ArgCache - This is a linked list of MacroArgs objects that the
  /// Preprocessor owns which we use to avoid thrashing malloc/free.
  MacroArgs *ArgCache;

  /// MacroArgs - The number of arguments the invoked macro expects.
  unsigned NumMacroArgs;

  MacroArgs(unsigned NumToks, bool varargsElided, unsigned MacroArgs)
      : NumUnexpArgTokens(NumToks), VarargsElided(varargsElided),
        ArgCache(nullptr), NumMacroArgs(MacroArgs) {}
  ~MacroArgs() = default;

public:
  /// MacroArgs ctor function - Create a new MacroArgs object with the specified
  /// macro and argument info.
  static MacroArgs *create(const MacroInfo *MI,
                           ArrayRef<Token> UnexpArgTokens,
                           bool VarargsElided, Preprocessor &PP);

  /// destroy - Destroy and deallocate the memory for this object.
  ///
  void destroy(Preprocessor &PP);

  /// ArgNeedsPreexpansion - If we can prove that the argument won't be affected
  /// by pre-expansion, return false.  Otherwise, conservatively return true.
  bool ArgNeedsPreexpansion(const Token *ArgTok, Preprocessor &PP) const;

  /// getUnexpArgument - Return a pointer to the first token of the unexpanded
  /// token list for the specified formal.
  ///
  const Token *getUnexpArgument(unsigned Arg) const;

  /// getArgLength - Given a pointer to an expanded or unexpanded argument,
  /// return the number of tokens, not counting the EOF, that make up the
  /// argument.
  static unsigned getArgLength(const Token *ArgPtr);

  /// getPreExpArgument - Return the pre-expanded form of the specified
  /// argument.
  const std::vector<Token> &
    getPreExpArgument(unsigned Arg, Preprocessor &PP);

  /// getNumMacroArguments - Return the number of arguments the invoked macro
  /// expects.
  unsigned getNumMacroArguments() const { return NumMacroArgs; }

  /// isVarargsElidedUse - Return true if this is a C99 style varargs macro
  /// invocation and there was no argument specified for the "..." argument.  If
  /// the argument was specified (even empty) or this isn't a C99 style varargs
  /// function, or if in strict mode and the C99 varargs macro had only a ...
  /// argument, this returns false.
  bool isVarargsElidedUse() const { return VarargsElided; }

  /// Returns true if the macro was defined with a variadic (ellipsis) parameter
  /// AND was invoked with at least one token supplied as a variadic argument
  /// (after pre-expansion).
  ///
  /// \code
  ///   #define F(a)  a
  ///   #define V(a, ...) __VA_OPT__(a)
  ///   F()     <-- returns false on this invocation.
  ///   V(,a)   <-- returns true on this invocation.
  ///   V(,)    <-- returns false on this invocation.
  ///   V(,F()) <-- returns false on this invocation.
  /// \endcode
  ///
  bool invokedWithVariadicArgument(const MacroInfo *const MI, Preprocessor &PP);

  /// StringifyArgument - Implement C99 6.10.3.2p2, converting a sequence of
  /// tokens into the literal string token that should be produced by the C #
  /// preprocessor operator.  If Charify is true, then it should be turned into
  /// a character literal for the Microsoft charize (#@) extension.
  ///
  static Token StringifyArgument(const Token *ArgToks,
                                 Preprocessor &PP, bool Charify,
                                 SourceLocation ExpansionLocStart,
                                 SourceLocation ExpansionLocEnd);


  /// deallocate - This should only be called by the Preprocessor when managing
  /// its freelist.
  MacroArgs *deallocate();
};

}  // end namespace clang

#endif