include/clang/Lex/MacroInfo.h - clang - Git at Google

 //===--- MacroInfo.h - Information about #defined identifiers ---*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file defines the MacroInfo interface.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_MACROINFO_H
 #define LLVM_CLANG_MACROINFO_H

 #include "clang/Lex/Token.h"
 #include "llvm/ADT/SmallVector.h"
 #include "llvm/Support/Allocator.h"
 #include <vector>
 #include <cassert>

 namespace clang {
   class Preprocessor;

 /// MacroInfo - Each identifier that is #define'd has an instance of this class
 /// associated with it, used to implement macro expansion.
 class MacroInfo {
   //===--------------------------------------------------------------------===//
   // State set when the macro is defined.

   /// Location - This is the place the macro is defined.
   SourceLocation Location;
   /// EndLocation - The location of the last token in the macro.
   SourceLocation EndLocation;

   /// Arguments - The list of arguments for a function-like macro.  This can be
   /// empty, for, e.g. "#define X()".  In a C99-style variadic macro, this
   /// includes the __VA_ARGS__ identifier on the list.
   IdentifierInfo **ArgumentList;
   unsigned NumArguments;

   /// ReplacementTokens - This is the list of tokens that the macro is defined
   /// to.
   llvm::SmallVector<Token, 8> ReplacementTokens;

   /// IsFunctionLike - True if this macro is a function-like macro, false if it
   /// is an object-like macro.
   bool IsFunctionLike : 1;

   /// IsC99Varargs - True if this macro is of the form "#define X(...)" or
   /// "#define X(Y,Z,...)".  The __VA_ARGS__ token should be replaced with the
   /// contents of "..." in an invocation.
   bool IsC99Varargs : 1;

   /// IsGNUVarargs -  True if this macro is of the form "#define X(a...)".  The
   /// "a" identifier in the replacement list will be replaced with all arguments
   /// of the macro starting with the specified one.
   bool IsGNUVarargs : 1;

   /// IsBuiltinMacro - True if this is a builtin macro, such as __LINE__, and if
   /// it has not yet been redefined or undefined.
   bool IsBuiltinMacro : 1;

 private:
   //===--------------------------------------------------------------------===//
   // State that changes as the macro is used.

   /// IsDisabled - True if we have started an expansion of this macro already.
   /// This disbles recursive expansion, which would be quite bad for things like
   /// #define A A.
   bool IsDisabled : 1;

   /// IsUsed - True if this macro is either defined in the main file and has
   /// been used, or if it is not defined in the main file.  This is used to
   /// emit -Wunused-macros diagnostics.
   bool IsUsed : 1;

   ~MacroInfo() {
     assert(ArgumentList == 0 && "Didn't call destroy before dtor!");
   }

 public:
   MacroInfo(SourceLocation DefLoc);

   /// FreeArgumentList - Free the argument list of the macro, restoring it to a
   /// state where it can be reused for other devious purposes.
   void FreeArgumentList(llvm::BumpPtrAllocator &PPAllocator) {
     PPAllocator.Deallocate(ArgumentList);
     ArgumentList = 0;
     NumArguments = 0;
   }

   /// Destroy - destroy this MacroInfo object.
   void Destroy(llvm::BumpPtrAllocator &PPAllocator) {
     FreeArgumentList(PPAllocator);
     this->~MacroInfo();
   }

   /// getDefinitionLoc - Return the location that the macro was defined at.
   ///
   SourceLocation getDefinitionLoc() const { return Location; }

   /// setDefinitionEndLoc - Set the location of the last token in the macro.
   ///
   void setDefinitionEndLoc(SourceLocation EndLoc) { EndLocation = EndLoc; }
   /// getDefinitionEndLoc - Return the location of the last token in the macro.
   ///
   SourceLocation getDefinitionEndLoc() const { return EndLocation; }

   /// isIdenticalTo - Return true if the specified macro definition is equal to
   /// this macro in spelling, arguments, and whitespace.  This is used to emit
   /// duplicate definition warnings.  This implements the rules in C99 6.10.3.
   bool isIdenticalTo(const MacroInfo &Other, Preprocessor &PP) const;

   /// setIsBuiltinMacro - Set or clear the isBuiltinMacro flag.
   ///
   void setIsBuiltinMacro(bool Val = true) {
     IsBuiltinMacro = Val;
   }

   /// setIsUsed - Set the value of the IsUsed flag.
   ///
   void setIsUsed(bool Val) {
     IsUsed = Val;
   }

   /// setArgumentList - Set the specified list of identifiers as the argument
   /// list for this macro.
   void setArgumentList(IdentifierInfo* const *List, unsigned NumArgs,
                        llvm::BumpPtrAllocator &PPAllocator) {
     assert(ArgumentList == 0 && NumArguments == 0 &&
            "Argument list already set!");
     if (NumArgs == 0) return;

     NumArguments = NumArgs;
     ArgumentList = PPAllocator.Allocate<IdentifierInfo*>(NumArgs);
     for (unsigned i = 0; i != NumArgs; ++i)
       ArgumentList[i] = List[i];
   }

   /// Arguments - The list of arguments for a function-like macro.  This can be
   /// empty, for, e.g. "#define X()".
   typedef IdentifierInfo* const *arg_iterator;
   bool arg_empty() const { return NumArguments == 0; }
   arg_iterator arg_begin() const { return ArgumentList; }
   arg_iterator arg_end() const { return ArgumentList+NumArguments; }
   unsigned getNumArgs() const { return NumArguments; }

   /// getArgumentNum - Return the argument number of the specified identifier,
   /// or -1 if the identifier is not a formal argument identifier.
   int getArgumentNum(IdentifierInfo *Arg) const {
     for (arg_iterator I = arg_begin(), E = arg_end(); I != E; ++I)
       if (*I == Arg) return I-arg_begin();
     return -1;
   }

   /// Function/Object-likeness.  Keep track of whether this macro has formal
   /// parameters.
   void setIsFunctionLike() { IsFunctionLike = true; }
   bool isFunctionLike() const { return IsFunctionLike; }
   bool isObjectLike() const { return !IsFunctionLike; }

   /// Varargs querying methods.  This can only be set for function-like macros.
   void setIsC99Varargs() { IsC99Varargs = true; }
   void setIsGNUVarargs() { IsGNUVarargs = true; }
   bool isC99Varargs() const { return IsC99Varargs; }
   bool isGNUVarargs() const { return IsGNUVarargs; }
   bool isVariadic() const { return IsC99Varargs | IsGNUVarargs; }

   /// isBuiltinMacro - Return true if this macro is a builtin macro, such as
   /// __LINE__, which requires processing before expansion.
   bool isBuiltinMacro() const { return IsBuiltinMacro; }

   /// isUsed - Return false if this macro is defined in the main file and has
   /// not yet been used.
   bool isUsed() const { return IsUsed; }

   /// getNumTokens - Return the number of tokens that this macro expands to.
   ///
   unsigned getNumTokens() const {
     return ReplacementTokens.size();
   }

   const Token &getReplacementToken(unsigned Tok) const {
     assert(Tok < ReplacementTokens.size() && "Invalid token #");
     return ReplacementTokens[Tok];
   }

   typedef llvm::SmallVector<Token, 8>::const_iterator tokens_iterator;
   tokens_iterator tokens_begin() const { return ReplacementTokens.begin(); }
   tokens_iterator tokens_end() const { return ReplacementTokens.end(); }
   bool tokens_empty() const { return ReplacementTokens.empty(); }

   /// AddTokenToBody - Add the specified token to the replacement text for the
   /// macro.
   void AddTokenToBody(const Token &Tok) {
     ReplacementTokens.push_back(Tok);
   }

   /// isEnabled - Return true if this macro is enabled: in other words, that we
   /// are not currently in an expansion of this macro.
   bool isEnabled() const { return !IsDisabled; }

   void EnableMacro() {
     assert(IsDisabled && "Cannot enable an already-enabled macro!");
     IsDisabled = false;
   }

   void DisableMacro() {
     assert(!IsDisabled && "Cannot disable an already-disabled macro!");
     IsDisabled = true;
   }
 };

 }  // end namespace clang

 #endif
	//===--- MacroInfo.h - Information about #defined identifiers ---- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file defines the MacroInfo interface.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_MACROINFO_H
	#define LLVM_CLANG_MACROINFO_H

	#include "clang/Lex/Token.h"
	#include "llvm/ADT/SmallVector.h"
	#include "llvm/Support/Allocator.h"
	#include <vector>
	#include <cassert>

	namespace clang {
	class Preprocessor;

	/// MacroInfo - Each identifier that is #define'd has an instance of this class
	/// associated with it, used to implement macro expansion.
	class MacroInfo {
	//===--------------------------------------------------------------------===//
	// State set when the macro is defined.

	/// Location - This is the place the macro is defined.
	SourceLocation Location;
	/// EndLocation - The location of the last token in the macro.
	SourceLocation EndLocation;

	/// Arguments - The list of arguments for a function-like macro. This can be
	/// empty, for, e.g. "#define X()". In a C99-style variadic macro, this
	/// includes the __VA_ARGS__ identifier on the list.
	IdentifierInfo **ArgumentList;
	unsigned NumArguments;

	/// ReplacementTokens - This is the list of tokens that the macro is defined
	/// to.
	llvm::SmallVector<Token, 8> ReplacementTokens;

	/// IsFunctionLike - True if this macro is a function-like macro, false if it
	/// is an object-like macro.
	bool IsFunctionLike : 1;

	/// IsC99Varargs - True if this macro is of the form "#define X(...)" or
	/// "#define X(Y,Z,...)". The __VA_ARGS__ token should be replaced with the
	/// contents of "..." in an invocation.
	bool IsC99Varargs : 1;

	/// IsGNUVarargs - True if this macro is of the form "#define X(a...)". The
	/// "a" identifier in the replacement list will be replaced with all arguments
	/// of the macro starting with the specified one.
	bool IsGNUVarargs : 1;

	/// IsBuiltinMacro - True if this is a builtin macro, such as __LINE__, and if
	/// it has not yet been redefined or undefined.
	bool IsBuiltinMacro : 1;

	private:
	//===--------------------------------------------------------------------===//
	// State that changes as the macro is used.

	/// IsDisabled - True if we have started an expansion of this macro already.
	/// This disbles recursive expansion, which would be quite bad for things like
	/// #define A A.
	bool IsDisabled : 1;

	/// IsUsed - True if this macro is either defined in the main file and has
	/// been used, or if it is not defined in the main file. This is used to
	/// emit -Wunused-macros diagnostics.
	bool IsUsed : 1;

	~MacroInfo() {
	assert(ArgumentList == 0 && "Didn't call destroy before dtor!");
	}

	public:
	MacroInfo(SourceLocation DefLoc);

	/// FreeArgumentList - Free the argument list of the macro, restoring it to a
	/// state where it can be reused for other devious purposes.
	void FreeArgumentList(llvm::BumpPtrAllocator &PPAllocator) {
	PPAllocator.Deallocate(ArgumentList);
	ArgumentList = 0;
	NumArguments = 0;
	}

	/// Destroy - destroy this MacroInfo object.
	void Destroy(llvm::BumpPtrAllocator &PPAllocator) {
	FreeArgumentList(PPAllocator);
	this->~MacroInfo();
	}

	/// getDefinitionLoc - Return the location that the macro was defined at.
	///
	SourceLocation getDefinitionLoc() const { return Location; }

	/// setDefinitionEndLoc - Set the location of the last token in the macro.
	///
	void setDefinitionEndLoc(SourceLocation EndLoc) { EndLocation = EndLoc; }
	/// getDefinitionEndLoc - Return the location of the last token in the macro.
	///
	SourceLocation getDefinitionEndLoc() const { return EndLocation; }

	/// isIdenticalTo - Return true if the specified macro definition is equal to
	/// this macro in spelling, arguments, and whitespace. This is used to emit
	/// duplicate definition warnings. This implements the rules in C99 6.10.3.
	bool isIdenticalTo(const MacroInfo &Other, Preprocessor &PP) const;

	/// setIsBuiltinMacro - Set or clear the isBuiltinMacro flag.
	///
	void setIsBuiltinMacro(bool Val = true) {
	IsBuiltinMacro = Val;
	}

	/// setIsUsed - Set the value of the IsUsed flag.
	///
	void setIsUsed(bool Val) {
	IsUsed = Val;
	}

	/// setArgumentList - Set the specified list of identifiers as the argument
	/// list for this macro.
	void setArgumentList(IdentifierInfo* const *List, unsigned NumArgs,
	llvm::BumpPtrAllocator &PPAllocator) {
	assert(ArgumentList == 0 && NumArguments == 0 &&
	"Argument list already set!");
	if (NumArgs == 0) return;

	NumArguments = NumArgs;
	ArgumentList = PPAllocator.Allocate<IdentifierInfo*>(NumArgs);
	for (unsigned i = 0; i != NumArgs; ++i)
	ArgumentList[i] = List[i];
	}

	/// Arguments - The list of arguments for a function-like macro. This can be
	/// empty, for, e.g. "#define X()".
	typedef IdentifierInfo* const *arg_iterator;
	bool arg_empty() const { return NumArguments == 0; }
	arg_iterator arg_begin() const { return ArgumentList; }
	arg_iterator arg_end() const { return ArgumentList+NumArguments; }
	unsigned getNumArgs() const { return NumArguments; }

	/// getArgumentNum - Return the argument number of the specified identifier,
	/// or -1 if the identifier is not a formal argument identifier.
	int getArgumentNum(IdentifierInfo *Arg) const {
	for (arg_iterator I = arg_begin(), E = arg_end(); I != E; ++I)
	if (*I == Arg) return I-arg_begin();
	return -1;
	}

	/// Function/Object-likeness. Keep track of whether this macro has formal
	/// parameters.
	void setIsFunctionLike() { IsFunctionLike = true; }
	bool isFunctionLike() const { return IsFunctionLike; }
	bool isObjectLike() const { return !IsFunctionLike; }

	/// Varargs querying methods. This can only be set for function-like macros.
	void setIsC99Varargs() { IsC99Varargs = true; }
	void setIsGNUVarargs() { IsGNUVarargs = true; }
	bool isC99Varargs() const { return IsC99Varargs; }
	bool isGNUVarargs() const { return IsGNUVarargs; }
	bool isVariadic() const { return IsC99Varargs \| IsGNUVarargs; }

	/// isBuiltinMacro - Return true if this macro is a builtin macro, such as
	/// __LINE__, which requires processing before expansion.
	bool isBuiltinMacro() const { return IsBuiltinMacro; }

	/// isUsed - Return false if this macro is defined in the main file and has
	/// not yet been used.
	bool isUsed() const { return IsUsed; }

	/// getNumTokens - Return the number of tokens that this macro expands to.
	///
	unsigned getNumTokens() const {
	return ReplacementTokens.size();
	}

	const Token &getReplacementToken(unsigned Tok) const {
	assert(Tok < ReplacementTokens.size() && "Invalid token #");
	return ReplacementTokens[Tok];
	}

	typedef llvm::SmallVector<Token, 8>::const_iterator tokens_iterator;
	tokens_iterator tokens_begin() const { return ReplacementTokens.begin(); }
	tokens_iterator tokens_end() const { return ReplacementTokens.end(); }
	bool tokens_empty() const { return ReplacementTokens.empty(); }

	/// AddTokenToBody - Add the specified token to the replacement text for the
	/// macro.
	void AddTokenToBody(const Token &Tok) {
	ReplacementTokens.push_back(Tok);
	}

	/// isEnabled - Return true if this macro is enabled: in other words, that we
	/// are not currently in an expansion of this macro.
	bool isEnabled() const { return !IsDisabled; }

	void EnableMacro() {
	assert(IsDisabled && "Cannot enable an already-enabled macro!");
	IsDisabled = false;
	}

	void DisableMacro() {
	assert(!IsDisabled && "Cannot disable an already-disabled macro!");
	IsDisabled = true;
	}
	};

	} // end namespace clang

	#endif