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

 //===--- Token.h - Token interface ------------------------------*- 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 Token interface.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_TOKEN_H
 #define LLVM_CLANG_TOKEN_H

 #include "clang/Basic/TemplateKinds.h"
 #include "clang/Basic/TokenKinds.h"
 #include "clang/Basic/SourceLocation.h"
 #include "clang/Basic/OperatorKinds.h"
 #include <cstdlib>

 namespace clang {

 class IdentifierInfo;

 /// Token - This structure provides full information about a lexed token.
 /// It is not intended to be space efficient, it is intended to return as much
 /// information as possible about each returned token.  This is expected to be
 /// compressed into a smaller form if memory footprint is important.
 ///
 /// The parser can create a special "annotation token" representing a stream of
 /// tokens that were parsed and semantically resolved, e.g.: "foo::MyClass<int>"
 /// can be represented by a single typename annotation token that carries
 /// information about the SourceRange of the tokens and the type object.
 class Token {
   /// The location of the token.
   SourceLocation Loc;

   // Conceptually these next two fields could be in a union.  However, this
   // causes gcc 4.2 to pessimize LexTokenInternal, a very performance critical
   // routine. Keeping as separate members with casts until a more beautiful fix
   // presents itself.

   /// UintData - This holds either the length of the token text, when
   /// a normal token, or the end of the SourceRange when an annotation
   /// token.
   unsigned UintData;

   /// PtrData - This is a union of four different pointer types, which depends
   /// on what type of token this is:
   ///  Identifiers, keywords, etc:
   ///    This is an IdentifierInfo*, which contains the uniqued identifier
   ///    spelling.
   ///  Literals:  isLiteral() returns true.
   ///    This is a pointer to the start of the token in a text buffer, which
   ///    may be dirty (have trigraphs / escaped newlines).
   ///  Annotations (resolved type names, C++ scopes, etc): isAnnotation().
   ///    This is a pointer to sema-specific data for the annotation token.
   ///  Other:
   ///    This is null.
   void *PtrData;

   /// Kind - The actual flavor of token this is.
   ///
   unsigned char Kind; // DON'T make Kind a 'tok::TokenKind';
                       // MSVC will treat it as a signed char and
                       // TokenKinds > 127 won't be handled correctly.

   /// Flags - Bits we track about this token, members of the TokenFlags enum.
   unsigned char Flags;
 public:

   // Various flags set per token:
   enum TokenFlags {
     StartOfLine   = 0x01,  // At start of line or only after whitespace.
     LeadingSpace  = 0x02,  // Whitespace exists before this token.
     DisableExpand = 0x04,  // This identifier may never be macro expanded.
     NeedsCleaning = 0x08   // Contained an escaped newline or trigraph.
   };

   tok::TokenKind getKind() const { return (tok::TokenKind)Kind; }
   void setKind(tok::TokenKind K) { Kind = K; }

   /// is/isNot - Predicates to check if this token is a specific kind, as in
   /// "if (Tok.is(tok::l_brace)) {...}".
   bool is(tok::TokenKind K) const { return Kind == (unsigned) K; }
   bool isNot(tok::TokenKind K) const { return Kind != (unsigned) K; }

   /// isLiteral - Return true if this is a "literal", like a numeric
   /// constant, string, etc.
   bool isLiteral() const {
     return is(tok::numeric_constant) || is(tok::char_constant) ||
            is(tok::string_literal) || is(tok::wide_string_literal) ||
            is(tok::angle_string_literal);
   }

   bool isAnnotation() const {
     return is(tok::annot_typename) ||
            is(tok::annot_cxxscope) ||
            is(tok::annot_template_id);
   }

   /// getLocation - Return a source location identifier for the specified
   /// offset in the current file.
   SourceLocation getLocation() const { return Loc; }
   unsigned getLength() const {
     assert(!isAnnotation() && "Annotation tokens have no length field");
     return UintData;
   }

   void setLocation(SourceLocation L) { Loc = L; }
   void setLength(unsigned Len) {
     assert(!isAnnotation() && "Annotation tokens have no length field");
     UintData = Len;
   }

   SourceLocation getAnnotationEndLoc() const {
     assert(isAnnotation() && "Used AnnotEndLocID on non-annotation token");
     return SourceLocation::getFromRawEncoding(UintData);
   }
   void setAnnotationEndLoc(SourceLocation L) {
     assert(isAnnotation() && "Used AnnotEndLocID on non-annotation token");
     UintData = L.getRawEncoding();
   }

   SourceLocation getLastLoc() const {
     return isAnnotation() ? getAnnotationEndLoc() : getLocation();
   }

   /// getAnnotationRange - SourceRange of the group of tokens that this
   /// annotation token represents.
   SourceRange getAnnotationRange() const {
     return SourceRange(getLocation(), getAnnotationEndLoc());
   }
   void setAnnotationRange(SourceRange R) {
     setLocation(R.getBegin());
     setAnnotationEndLoc(R.getEnd());
   }

   const char *getName() const {
     return tok::getTokenName( (tok::TokenKind) Kind);
   }

   /// startToken - Reset all flags to cleared.
   ///
   void startToken() {
     Kind = tok::unknown;
     Flags = 0;
     PtrData = 0;
     Loc = SourceLocation();
   }

   IdentifierInfo *getIdentifierInfo() const {
     assert(!isAnnotation() && "Used IdentInfo on annotation token!");
     if (isLiteral()) return 0;
     return (IdentifierInfo*) PtrData;
   }
   void setIdentifierInfo(IdentifierInfo *II) {
     PtrData = (void*) II;
   }

   /// getLiteralData - For a literal token (numeric constant, string, etc), this
   /// returns a pointer to the start of it in the text buffer if known, null
   /// otherwise.
   const char *getLiteralData() const {
     assert(isLiteral() && "Cannot get literal data of non-literal");
     return reinterpret_cast<const char*>(PtrData);
   }
   void setLiteralData(const char *Ptr) {
     assert(isLiteral() && "Cannot set literal data of non-literal");
     PtrData = (void*)Ptr;
   }

   void *getAnnotationValue() const {
     assert(isAnnotation() && "Used AnnotVal on non-annotation token");
     return PtrData;
   }
   void setAnnotationValue(void *val) {
     assert(isAnnotation() && "Used AnnotVal on non-annotation token");
     PtrData = val;
   }

   /// setFlag - Set the specified flag.
   void setFlag(TokenFlags Flag) {
     Flags |= Flag;
   }

   /// clearFlag - Unset the specified flag.
   void clearFlag(TokenFlags Flag) {
     Flags &= ~Flag;
   }

   /// getFlags - Return the internal represtation of the flags.
   ///  Only intended for low-level operations such as writing tokens to
   //   disk.
   unsigned getFlags() const {
     return Flags;
   }

   /// setFlagValue - Set a flag to either true or false.
   void setFlagValue(TokenFlags Flag, bool Val) {
     if (Val)
       setFlag(Flag);
     else
       clearFlag(Flag);
   }

   /// isAtStartOfLine - Return true if this token is at the start of a line.
   ///
   bool isAtStartOfLine() const { return (Flags & StartOfLine) ? true : false; }

   /// hasLeadingSpace - Return true if this token has whitespace before it.
   ///
   bool hasLeadingSpace() const { return (Flags & LeadingSpace) ? true : false; }

   /// isExpandDisabled - Return true if this identifier token should never
   /// be expanded in the future, due to C99 6.10.3.4p2.
   bool isExpandDisabled() const {
     return (Flags & DisableExpand) ? true : false;
   }

   /// isObjCAtKeyword - Return true if we have an ObjC keyword identifier.
   bool isObjCAtKeyword(tok::ObjCKeywordKind objcKey) const;

   /// getObjCKeywordID - Return the ObjC keyword kind.
   tok::ObjCKeywordKind getObjCKeywordID() const;

   /// needsCleaning - Return true if this token has trigraphs or escaped
   /// newlines in it.
   ///
   bool needsCleaning() const { return (Flags & NeedsCleaning) ? true : false; }
 };

 /// PPConditionalInfo - Information about the conditional stack (#if directives)
 /// currently active.
 struct PPConditionalInfo {
   /// IfLoc - Location where the conditional started.
   ///
   SourceLocation IfLoc;

   /// WasSkipping - True if this was contained in a skipping directive, e.g.
   /// in a "#if 0" block.
   bool WasSkipping;

   /// FoundNonSkip - True if we have emitted tokens already, and now we're in
   /// an #else block or something.  Only useful in Skipping blocks.
   bool FoundNonSkip;

   /// FoundElse - True if we've seen a #else in this block.  If so,
   /// #elif/#else directives are not allowed.
   bool FoundElse;
 };

 }  // end namespace clang

 #endif
	//===--- Token.h - Token interface ------------------------------- 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 Token interface.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_TOKEN_H
	#define LLVM_CLANG_TOKEN_H

	#include "clang/Basic/TemplateKinds.h"
	#include "clang/Basic/TokenKinds.h"
	#include "clang/Basic/SourceLocation.h"
	#include "clang/Basic/OperatorKinds.h"
	#include <cstdlib>

	namespace clang {

	class IdentifierInfo;

	/// Token - This structure provides full information about a lexed token.
	/// It is not intended to be space efficient, it is intended to return as much
	/// information as possible about each returned token. This is expected to be
	/// compressed into a smaller form if memory footprint is important.
	///
	/// The parser can create a special "annotation token" representing a stream of
	/// tokens that were parsed and semantically resolved, e.g.: "foo::MyClass<int>"
	/// can be represented by a single typename annotation token that carries
	/// information about the SourceRange of the tokens and the type object.
	class Token {
	/// The location of the token.
	SourceLocation Loc;

	// Conceptually these next two fields could be in a union. However, this
	// causes gcc 4.2 to pessimize LexTokenInternal, a very performance critical
	// routine. Keeping as separate members with casts until a more beautiful fix
	// presents itself.

	/// UintData - This holds either the length of the token text, when
	/// a normal token, or the end of the SourceRange when an annotation
	/// token.
	unsigned UintData;

	/// PtrData - This is a union of four different pointer types, which depends
	/// on what type of token this is:
	/// Identifiers, keywords, etc:
	/// This is an IdentifierInfo*, which contains the uniqued identifier
	/// spelling.
	/// Literals: isLiteral() returns true.
	/// This is a pointer to the start of the token in a text buffer, which
	/// may be dirty (have trigraphs / escaped newlines).
	/// Annotations (resolved type names, C++ scopes, etc): isAnnotation().
	/// This is a pointer to sema-specific data for the annotation token.
	/// Other:
	/// This is null.
	void *PtrData;

	/// Kind - The actual flavor of token this is.
	///
	unsigned char Kind; // DON'T make Kind a 'tok::TokenKind';
	// MSVC will treat it as a signed char and
	// TokenKinds > 127 won't be handled correctly.

	/// Flags - Bits we track about this token, members of the TokenFlags enum.
	unsigned char Flags;
	public:

	// Various flags set per token:
	enum TokenFlags {
	StartOfLine = 0x01, // At start of line or only after whitespace.
	LeadingSpace = 0x02, // Whitespace exists before this token.
	DisableExpand = 0x04, // This identifier may never be macro expanded.
	NeedsCleaning = 0x08 // Contained an escaped newline or trigraph.
	};

	tok::TokenKind getKind() const { return (tok::TokenKind)Kind; }
	void setKind(tok::TokenKind K) { Kind = K; }

	/// is/isNot - Predicates to check if this token is a specific kind, as in
	/// "if (Tok.is(tok::l_brace)) {...}".
	bool is(tok::TokenKind K) const { return Kind == (unsigned) K; }
	bool isNot(tok::TokenKind K) const { return Kind != (unsigned) K; }

	/// isLiteral - Return true if this is a "literal", like a numeric
	/// constant, string, etc.
	bool isLiteral() const {
	return is(tok::numeric_constant) \|\| is(tok::char_constant) \|\|
	is(tok::string_literal) \|\| is(tok::wide_string_literal) \|\|
	is(tok::angle_string_literal);
	}

	bool isAnnotation() const {
	return is(tok::annot_typename) \|\|
	is(tok::annot_cxxscope) \|\|
	is(tok::annot_template_id);
	}

	/// getLocation - Return a source location identifier for the specified
	/// offset in the current file.
	SourceLocation getLocation() const { return Loc; }
	unsigned getLength() const {
	assert(!isAnnotation() && "Annotation tokens have no length field");
	return UintData;
	}

	void setLocation(SourceLocation L) { Loc = L; }
	void setLength(unsigned Len) {
	assert(!isAnnotation() && "Annotation tokens have no length field");
	UintData = Len;
	}

	SourceLocation getAnnotationEndLoc() const {
	assert(isAnnotation() && "Used AnnotEndLocID on non-annotation token");
	return SourceLocation::getFromRawEncoding(UintData);
	}
	void setAnnotationEndLoc(SourceLocation L) {
	assert(isAnnotation() && "Used AnnotEndLocID on non-annotation token");
	UintData = L.getRawEncoding();
	}

	SourceLocation getLastLoc() const {
	return isAnnotation() ? getAnnotationEndLoc() : getLocation();
	}

	/// getAnnotationRange - SourceRange of the group of tokens that this
	/// annotation token represents.
	SourceRange getAnnotationRange() const {
	return SourceRange(getLocation(), getAnnotationEndLoc());
	}
	void setAnnotationRange(SourceRange R) {
	setLocation(R.getBegin());
	setAnnotationEndLoc(R.getEnd());
	}

	const char *getName() const {
	return tok::getTokenName( (tok::TokenKind) Kind);
	}

	/// startToken - Reset all flags to cleared.
	///
	void startToken() {
	Kind = tok::unknown;
	Flags = 0;
	PtrData = 0;
	Loc = SourceLocation();
	}

	IdentifierInfo *getIdentifierInfo() const {
	assert(!isAnnotation() && "Used IdentInfo on annotation token!");
	if (isLiteral()) return 0;
	return (IdentifierInfo*) PtrData;
	}
	void setIdentifierInfo(IdentifierInfo *II) {
	PtrData = (void*) II;
	}

	/// getLiteralData - For a literal token (numeric constant, string, etc), this
	/// returns a pointer to the start of it in the text buffer if known, null
	/// otherwise.
	const char *getLiteralData() const {
	assert(isLiteral() && "Cannot get literal data of non-literal");
	return reinterpret_cast<const char*>(PtrData);
	}
	void setLiteralData(const char *Ptr) {
	assert(isLiteral() && "Cannot set literal data of non-literal");
	PtrData = (void*)Ptr;
	}

	void *getAnnotationValue() const {
	assert(isAnnotation() && "Used AnnotVal on non-annotation token");
	return PtrData;
	}
	void setAnnotationValue(void *val) {
	assert(isAnnotation() && "Used AnnotVal on non-annotation token");
	PtrData = val;
	}

	/// setFlag - Set the specified flag.
	void setFlag(TokenFlags Flag) {
	Flags \|= Flag;
	}

	/// clearFlag - Unset the specified flag.
	void clearFlag(TokenFlags Flag) {
	Flags &= ~Flag;
	}

	/// getFlags - Return the internal represtation of the flags.
	/// Only intended for low-level operations such as writing tokens to
	// disk.
	unsigned getFlags() const {
	return Flags;
	}

	/// setFlagValue - Set a flag to either true or false.
	void setFlagValue(TokenFlags Flag, bool Val) {
	if (Val)
	setFlag(Flag);
	else
	clearFlag(Flag);
	}

	/// isAtStartOfLine - Return true if this token is at the start of a line.
	///
	bool isAtStartOfLine() const { return (Flags & StartOfLine) ? true : false; }

	/// hasLeadingSpace - Return true if this token has whitespace before it.
	///
	bool hasLeadingSpace() const { return (Flags & LeadingSpace) ? true : false; }

	/// isExpandDisabled - Return true if this identifier token should never
	/// be expanded in the future, due to C99 6.10.3.4p2.
	bool isExpandDisabled() const {
	return (Flags & DisableExpand) ? true : false;
	}

	/// isObjCAtKeyword - Return true if we have an ObjC keyword identifier.
	bool isObjCAtKeyword(tok::ObjCKeywordKind objcKey) const;

	/// getObjCKeywordID - Return the ObjC keyword kind.
	tok::ObjCKeywordKind getObjCKeywordID() const;

	/// needsCleaning - Return true if this token has trigraphs or escaped
	/// newlines in it.
	///
	bool needsCleaning() const { return (Flags & NeedsCleaning) ? true : false; }
	};

	/// PPConditionalInfo - Information about the conditional stack (#if directives)
	/// currently active.
	struct PPConditionalInfo {
	/// IfLoc - Location where the conditional started.
	///
	SourceLocation IfLoc;

	/// WasSkipping - True if this was contained in a skipping directive, e.g.
	/// in a "#if 0" block.
	bool WasSkipping;

	/// FoundNonSkip - True if we have emitted tokens already, and now we're in
	/// an #else block or something. Only useful in Skipping blocks.
	bool FoundNonSkip;

	/// FoundElse - True if we've seen a #else in this block. If so,
	/// #elif/#else directives are not allowed.
	bool FoundElse;
	};

	} // end namespace clang

	#endif