safecode/tools/clang/include/clang/Lex/MultipleIncludeOpt.h - llvm-archive - Git at Google

 //===--- MultipleIncludeOpt.h - Header Multiple-Include Optzn ---*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 ///
 /// \file
 /// \brief Defines the MultipleIncludeOpt interface.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_MULTIPLEINCLUDEOPT_H
 #define LLVM_CLANG_MULTIPLEINCLUDEOPT_H

 namespace clang {
 class IdentifierInfo;

 /// \brief Implements the simple state machine that the Lexer class uses to
 /// detect files subject to the 'multiple-include' optimization.
 ///
 /// The public methods in this class are triggered by various
 /// events that occur when a file is lexed, and after the entire file is lexed,
 /// information about which macro (if any) controls the header is returned.
 class MultipleIncludeOpt {
   /// ReadAnyTokens - This is set to false when a file is first opened and true
   /// any time a token is returned to the client or a (non-multiple-include)
   /// directive is parsed.  When the final \#endif is parsed this is reset back
   /// to false, that way any tokens before the first \#ifdef or after the last
   /// \#endif can be easily detected.
   bool ReadAnyTokens;

   /// ReadAnyTokens - This is set to false when a file is first opened and true
   /// any time a token is returned to the client or a (non-multiple-include)
   /// directive is parsed.  When the final #endif is parsed this is reset back
   /// to false, that way any tokens before the first #ifdef or after the last
   /// #endif can be easily detected.
   bool DidMacroExpansion;

   /// TheMacro - The controlling macro for a file, if valid.
   ///
   const IdentifierInfo *TheMacro;
 public:
   MultipleIncludeOpt() {
     ReadAnyTokens = false;
     DidMacroExpansion = false;
     TheMacro = 0;
   }

   /// Invalidate - Permanently mark this file as not being suitable for the
   /// include-file optimization.
   void Invalidate() {
     // If we have read tokens but have no controlling macro, the state-machine
     // below can never "accept".
     ReadAnyTokens = true;
     TheMacro = 0;
   }

   /// getHasReadAnyTokensVal - This is used for the \#ifndef hande-shake at the
   /// top of the file when reading preprocessor directives.  Otherwise, reading
   /// the "ifndef x" would count as reading tokens.
   bool getHasReadAnyTokensVal() const { return ReadAnyTokens; }

   // If a token is read, remember that we have seen a side-effect in this file.
   void ReadToken() { ReadAnyTokens = true; }

   /// ExpandedMacro - When a macro is expanded with this lexer as the current
   /// buffer, this method is called to disable the MIOpt if needed.
   void ExpandedMacro() { DidMacroExpansion = true; }

   /// \brief Called when entering a top-level \#ifndef directive (or the
   /// "\#if !defined" equivalent) without any preceding tokens.
   ///
   /// Note, we don't care about the input value of 'ReadAnyTokens'.  The caller
   /// ensures that this is only called if there are no tokens read before the
   /// \#ifndef.  The caller is required to do this, because reading the \#if
   /// line obviously reads in in tokens.
   void EnterTopLevelIFNDEF(const IdentifierInfo *M) {
     // If the macro is already set, this is after the top-level #endif.
     if (TheMacro)
       return Invalidate();

     // If we have already expanded a macro by the end of the #ifndef line, then
     // there is a macro expansion *in* the #ifndef line.  This means that the
     // condition could evaluate differently when subsequently #included.  Reject
     // this.
     if (DidMacroExpansion)
       return Invalidate();

     // Remember that we're in the #if and that we have the macro.
     ReadAnyTokens = true;
     TheMacro = M;
   }

   /// \brief Invoked when a top level conditional (except \#ifndef) is found.
   void EnterTopLevelConditional() {
     // If a conditional directive (except #ifndef) is found at the top level,
     // there is a chunk of the file not guarded by the controlling macro.
     Invalidate();
   }

   /// \brief Called when the lexer exits the top-level conditional.
   void ExitTopLevelConditional() {
     // If we have a macro, that means the top of the file was ok.  Set our state
     // back to "not having read any tokens" so we can detect anything after the
     // #endif.
     if (!TheMacro) return Invalidate();

     // At this point, we haven't "read any tokens" but we do have a controlling
     // macro.
     ReadAnyTokens = false;
   }

   /// \brief Once the entire file has been lexed, if there is a controlling
   /// macro, return it.
   const IdentifierInfo *GetControllingMacroAtEndOfFile() const {
     // If we haven't read any tokens after the #endif, return the controlling
     // macro if it's valid (if it isn't, it will be null).
     if (!ReadAnyTokens)
       return TheMacro;
     return 0;
   }
 };

 }  // end namespace clang

 #endif
	//===--- MultipleIncludeOpt.h - Header Multiple-Include Optzn ---- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	///
	/// \file
	/// \brief Defines the MultipleIncludeOpt interface.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_MULTIPLEINCLUDEOPT_H
	#define LLVM_CLANG_MULTIPLEINCLUDEOPT_H

	namespace clang {
	class IdentifierInfo;

	/// \brief Implements the simple state machine that the Lexer class uses to
	/// detect files subject to the 'multiple-include' optimization.
	///
	/// The public methods in this class are triggered by various
	/// events that occur when a file is lexed, and after the entire file is lexed,
	/// information about which macro (if any) controls the header is returned.
	class MultipleIncludeOpt {
	/// ReadAnyTokens - This is set to false when a file is first opened and true
	/// any time a token is returned to the client or a (non-multiple-include)
	/// directive is parsed. When the final \#endif is parsed this is reset back
	/// to false, that way any tokens before the first \#ifdef or after the last
	/// \#endif can be easily detected.
	bool ReadAnyTokens;

	/// ReadAnyTokens - This is set to false when a file is first opened and true
	/// any time a token is returned to the client or a (non-multiple-include)
	/// directive is parsed. When the final #endif is parsed this is reset back
	/// to false, that way any tokens before the first #ifdef or after the last
	/// #endif can be easily detected.
	bool DidMacroExpansion;

	/// TheMacro - The controlling macro for a file, if valid.
	///
	const IdentifierInfo *TheMacro;
	public:
	MultipleIncludeOpt() {
	ReadAnyTokens = false;
	DidMacroExpansion = false;
	TheMacro = 0;
	}

	/// Invalidate - Permanently mark this file as not being suitable for the
	/// include-file optimization.
	void Invalidate() {
	// If we have read tokens but have no controlling macro, the state-machine
	// below can never "accept".
	ReadAnyTokens = true;
	TheMacro = 0;
	}

	/// getHasReadAnyTokensVal - This is used for the \#ifndef hande-shake at the
	/// top of the file when reading preprocessor directives. Otherwise, reading
	/// the "ifndef x" would count as reading tokens.
	bool getHasReadAnyTokensVal() const { return ReadAnyTokens; }

	// If a token is read, remember that we have seen a side-effect in this file.
	void ReadToken() { ReadAnyTokens = true; }

	/// ExpandedMacro - When a macro is expanded with this lexer as the current
	/// buffer, this method is called to disable the MIOpt if needed.
	void ExpandedMacro() { DidMacroExpansion = true; }

	/// \brief Called when entering a top-level \#ifndef directive (or the
	/// "\#if !defined" equivalent) without any preceding tokens.
	///
	/// Note, we don't care about the input value of 'ReadAnyTokens'. The caller
	/// ensures that this is only called if there are no tokens read before the
	/// \#ifndef. The caller is required to do this, because reading the \#if
	/// line obviously reads in in tokens.
	void EnterTopLevelIFNDEF(const IdentifierInfo *M) {
	// If the macro is already set, this is after the top-level #endif.
	if (TheMacro)
	return Invalidate();

	// If we have already expanded a macro by the end of the #ifndef line, then
	// there is a macro expansion in the #ifndef line. This means that the
	// condition could evaluate differently when subsequently #included. Reject
	// this.
	if (DidMacroExpansion)
	return Invalidate();

	// Remember that we're in the #if and that we have the macro.
	ReadAnyTokens = true;
	TheMacro = M;
	}

	/// \brief Invoked when a top level conditional (except \#ifndef) is found.
	void EnterTopLevelConditional() {
	// If a conditional directive (except #ifndef) is found at the top level,
	// there is a chunk of the file not guarded by the controlling macro.
	Invalidate();
	}

	/// \brief Called when the lexer exits the top-level conditional.
	void ExitTopLevelConditional() {
	// If we have a macro, that means the top of the file was ok. Set our state
	// back to "not having read any tokens" so we can detect anything after the
	// #endif.
	if (!TheMacro) return Invalidate();

	// At this point, we haven't "read any tokens" but we do have a controlling
	// macro.
	ReadAnyTokens = false;
	}

	/// \brief Once the entire file has been lexed, if there is a controlling
	/// macro, return it.
	const IdentifierInfo *GetControllingMacroAtEndOfFile() const {
	// If we haven't read any tokens after the #endif, return the controlling
	// macro if it's valid (if it isn't, it will be null).
	if (!ReadAnyTokens)
	return TheMacro;
	return 0;
	}
	};

	} // end namespace clang

	#endif