pccts 1.33MR33-6+b2 / usr / include / pccts / AParser.h

/* ANTLRParser.h
 *
 * Define the generic ANTLRParser superclass, which is subclassed to
 * define an actual parser.
 *
 * Before entry into this file: ANTLRTokenType must be set.
 *
 * SOFTWARE RIGHTS
 *
 * We reserve no LEGAL rights to the Purdue Compiler Construction Tool
 * Set (PCCTS) -- PCCTS is in the public domain.  An individual or
 * company may do whatever they wish with source code distributed with
 * PCCTS or the code generated by PCCTS, including the incorporation of
 * PCCTS, or its output, into commerical software.
 *
 * We encourage users to develop software with PCCTS.  However, we do ask
 * that credit is given to us for developing PCCTS.  By "credit",
 * we mean that if you incorporate our source code into one of your
 * programs (commercial product, research project, or otherwise) that you
 * acknowledge this fact somewhere in the documentation, research report,
 * etc...  If you like PCCTS and have developed a nice tool with the
 * output, please mention that you developed it using PCCTS.  In
 * addition, we ask that this header remain intact in our source code.
 * As long as these guidelines are kept, we expect to continue enhancing
 * this system and expect to make other tools available as they are
 * completed.
 *
 * ANTLR 1.33
 * Terence Parr
 * Parr Research Corporation
 * with Purdue University and AHPCRC, University of Minnesota
 * 1989-2000
 */

#ifndef APARSER_H_GATE
#define APARSER_H_GATE

#include "pcctscfg.h"

#include "pccts_stdio.h"
#include "pccts_setjmp.h"

PCCTS_NAMESPACE_STD

#include ATOKEN_H
#include ATOKENBUFFER_H

#ifdef ZZCAN_GUESS
#ifndef ZZINF_LOOK
#define ZZINF_LOOK
#endif
#endif


#define NLA			(token_type[lap&(LLk-1)])/* --> next LA */

typedef unsigned char SetWordType;

/* Define external bit set stuff (for SetWordType) */
#define EXT_WORDSIZE	(sizeof(char)*8)
#define EXT_LOGWORDSIZE	3

           /* s y n t a c t i c  p r e d i c a t e  s t u f f */

#ifndef zzUSER_GUESS_HOOK
#define zzUSER_GUESS_HOOK(seqFrozen,zzrv)
#endif

#ifndef zzUSER_GUESS_DONE_HOOK
#define zzUSER_GUESS_DONE_HOOK(seqFrozen)
#endif

/* MR14 Add zzUSER_GUESS_FAIL_HOOK and related code */

#define zzUSER_GUESS_FAIL_HOOK_INTERNAL zzUSER_GUESS_FAIL_HOOK(SeqFrozen)
#ifndef zzUSER_GUESS_FAIL_HOOK
#define zzUSER_GUESS_FAIL_HOOK(zzGuessSeq)
#endif


typedef struct _zzjmp_buf {
			jmp_buf state;
		} zzjmp_buf;

/* these need to be macros not member functions */
#define zzGUESS_BLOCK		ANTLRParserState zzst; int zzrv; int _marker; int zzGuessSeqFrozen;
#define zzNON_GUESS_MODE	if ( !guessing )
#define zzGUESS_FAIL		guess_fail();

/*  Note:  zzGUESS_DONE does not execute longjmp() */

#define zzGUESS_DONE		{zzrv=1; inputTokens->rewind(_marker); guess_done(&zzst);zzUSER_GUESS_DONE_HOOK(zzGuessSeqFrozen) }
#define zzGUESS				saveState(&zzst); \
							guessing = 1; \
                            zzGuessSeqFrozen = ++zzGuessSeq; \
							_marker = inputTokens->mark(); \
							zzrv = setjmp(guess_start.state); \
                            zzUSER_GUESS_HOOK(zzGuessSeqFrozen,zzrv) \
						    if ( zzrv ) zzGUESS_DONE

#define zzTRACEdata     const ANTLRChar *zzTracePrevRuleName = NULL;

#ifndef zzTRACEIN
#define zzTRACEIN(r)	zzTracePrevRuleName=traceCurrentRuleName;tracein(r);
#endif
#ifndef zzTRACEOUT
#define zzTRACEOUT(r)	traceout(r);traceCurrentRuleName=zzTracePrevRuleName;
#endif

                  /* a n t l r  p a r s e r  d e f */

struct ANTLRParserState {
	/* class variables */
	zzjmp_buf guess_start;
	int guessing;

	int inf_labase;
	int inf_last;

	int dirty;

    int             traceOptionValue;       // MR10
    int             traceGuessOptionValue;  // MR10
    const ANTLRChar *traceCurrentRuleName;  // MR10
    int             traceDepth;             // MR10

};

/* notes:
 *
 * multiple inheritance is a cool way to include what stuff is needed
 * in this structure (like guess stuff).  however, i'm not convinced that
 * multiple inheritance works correctly on all platforms.  not that
 * much space is used--just include all possibly useful members.
 *
 * the class should also be a template with arguments for the lookahead
 * depth and so on.  that way, more than one parser can be defined (as
 * each will probably have different lookahead requirements).  however,
 * am i sure that templates work?  no, i'm not sure.
 *
 * no attributes are maintained and, hence, the 'asp' variable is not
 * needed.  $i can still be referenced, but it refers to the token
 * associated with that rule element.  question: where are the token's
 * stored if not on the software stack?  in local variables created
 * and assigned to by antlr.
 */
class ANTLRParser {
protected:
	/* class variables */
	static SetWordType bitmask[sizeof(SetWordType)*8];
	static char eMsgBuffer[500];

protected:
	int LLk;					// number of lookahead symbols (old LL_K)
	int demand_look;
	ANTLRTokenType eofToken;			// when do I stop during resynch()s
	int bsetsize;           			// size of bitsets created by ANTLR in
        								// units of SetWordType

	ANTLRTokenBuffer *inputTokens;	//place to get input tokens

	zzjmp_buf guess_start;		// where to jump back to upon failure
	int guessing;				// if guessing (using (...)? predicate)

	// infinite lookahead stuff
	int can_use_inf_look;		// set by subclass (generated by ANTLR)
	int inf_lap;
	int inf_labase;
	int inf_last;
	int *_inf_line;

	const ANTLRChar **token_tbl; // pointer to table of token type strings MR20 const

	int dirty;					// used during demand lookahead

	ANTLRTokenType *token_type;		// fast reference cache of token.getType()
//	ANTLRLightweightToken **token;	// the token with all its attributes
	int lap;
	int labase;
#ifdef ZZDEFER_FETCH
	int stillToFetch;                               // MR19 V.H. Simonis
#endif

private:
	void fill_inf_look();

protected:
	virtual void guess_fail() {                         // MR9 27-Sep-97 make virtual
        traceGuessFail();                               // MR10
        longjmp(guess_start.state, 1); }                // MR9
	virtual void guess_done(ANTLRParserState *st) {     // MR9 27-Sep-97 make virtual
         restoreState(st); }                            // MR9
	virtual int guess(ANTLRParserState *);              // MR9 27-Sep-97 make virtual
	void look(int);
    int _match(ANTLRTokenType, ANTLRChar **, ANTLRTokenType *,
			   _ANTLRTokenPtr *, SetWordType **);
    int _setmatch(SetWordType *, ANTLRChar **, ANTLRTokenType *,
			   _ANTLRTokenPtr *, SetWordType **,
			   SetWordType * tokclassErrset /* MR23 */);
    int _match_wsig(ANTLRTokenType);
    int _setmatch_wsig(SetWordType *);
    virtual void consume();
    virtual void resynch(SetWordType *wd,SetWordType mask); // MR21
	void prime_lookahead();
	virtual void tracein(const ANTLRChar *r);              // MR10
	virtual void traceout(const ANTLRChar *r);             // MR10
	static unsigned MODWORD(unsigned x) {return x & (EXT_WORDSIZE-1);}	// x % EXT_WORDSIZE // MR9
	static unsigned DIVWORD(unsigned x) {return x >> EXT_LOGWORDSIZE;}	// x / EXT_WORDSIZE // MR9
	int set_deg(SetWordType *);
	int set_el(ANTLRTokenType, SetWordType *);
	virtual void edecode(SetWordType *);				// MR1
	virtual void FAIL(int k, ...);					    // MR1
    int                 traceOptionValue;                           // MR10
    int                 traceGuessOptionValue;                      // MR10
    const ANTLRChar     *traceCurrentRuleName;                      // MR10
    int                 traceDepth;                                 // MR10
    void                traceReset();                               // MR10
    virtual void        traceGuessFail();                           // MR10
    virtual void        traceGuessDone(const ANTLRParserState *);   // MR10
    int                 zzGuessSeq;                                 // MR10

public:
	ANTLRParser(ANTLRTokenBuffer *,
				int k=1,
				int use_inf_look=0,
				int demand_look=0,
				int bsetsize=1);
	virtual ~ANTLRParser();

	virtual void init();
	
	ANTLRTokenType LA(int i)
	{
//
//  MR14 demand look will always be 0 for C++ mode
//
////	return demand_look ? token_type[(labase+(i)-1)&(LLk-1)] :
////						token_type[(lap+(i)-1)&(LLk-1)];

// MR19 V.H. Simonis Defer fetch feature

#ifdef ZZDEFER_FETCH
      undeferFetch();
#endif
	  return token_type[(lap+(i)-1)&(LLk-1)];
	}
	_ANTLRTokenPtr LT(int i);

	void setEofToken(ANTLRTokenType t)	{ eofToken = t; }
	ANTLRTokenType getEofToken() const  { return eofToken; }    // MR14

	void noGarbageCollectTokens()	{ inputTokens->noGarbageCollectTokens(); }
	void garbageCollectTokens()		{ inputTokens->garbageCollectTokens(); }

    virtual void syn(_ANTLRTokenPtr tok, ANTLRChar *egroup,
					 SetWordType *eset, ANTLRTokenType etok, int k);
	virtual void saveState(ANTLRParserState *);     // MR9 27-Sep-97 make virtual
	virtual void restoreState(ANTLRParserState *);  // MR9 27-Sep-97 make virtual

	virtual void panic(const char *msg); // MR20 const

	static char *eMsgd(char *,int);
	static char *eMsg(char *,char *);
	static char *eMsg2(char *,char *,char *);

	virtual int printMessage(FILE* pFile, const char* pFormat, ...); // MR23
	virtual int printMessageV(FILE* pFile, const char* pFormat, va_list arglist); // MR23

	void consumeUntil(SetWordType *st);
	void consumeUntilToken(int t);

	virtual int _setmatch_wdfltsig(SetWordType *tokensWanted,
					 ANTLRTokenType tokenTypeOfSet,
					 SetWordType *whatFollows);
	virtual int _match_wdfltsig(ANTLRTokenType tokenWanted,
					 SetWordType *whatFollows);
	
	const ANTLRChar * parserTokenName(int tok);			// MR1

    int                 traceOptionValueDefault;        // MR11
    int                 traceOption(int delta);         // MR11
    int                 traceGuessOption(int delta);    // MR11

//  MR8  5-Aug-97   S.Bochnak@microtool.com.pl
//  MR8             Move resynch static local variable
//  MR8               to class instance

    int                 syntaxErrCount;                      // MR12
    ANTLRTokenStream   *getLexer() const {                   // MR12
      return inputTokens ? inputTokens->getLexer() : 0; }    // MR12
protected:                                              // MR8
    int     resynchConsumed;                            // MR8
    char    *zzFAILtext; // workarea required by zzFAIL // MR9
    void    undeferFetch();                             // MR19 V.H. Simonis
    int     isDeferFetchEnabled();                      // MR19 V.H. Simonis
    virtual void failedSemanticPredicate(const char* predicate); /* MR23 */
};

#define zzmatch(_t)							\
	if ( !_match((ANTLRTokenType)_t, &zzMissText, &zzMissTok, \
				 (_ANTLRTokenPtr *) &zzBadTok, &zzMissSet) ) goto fail;

#define zzmatch_wsig(_t,handler)						\
	if ( !_match_wsig((ANTLRTokenType)_t) ) if ( guessing ) zzGUESS_FAIL else {_signal=MismatchedToken; goto handler;}

#define zzsetmatch(_ts,_tokclassErrset)							\
	if ( !_setmatch(_ts, &zzMissText, &zzMissTok, \
				 (_ANTLRTokenPtr *) &zzBadTok, &zzMissSet, _tokclassErrset) ) goto fail;

#define zzsetmatch_wsig(_ts, handler)				\
	if ( !_setmatch_wsig(_ts) ) if ( guessing ) zzGUESS_FAIL else {_signal=MismatchedToken; goto handler;}

/* For the dflt signal matchers, a FALSE indicates that an error occurred
 * just like the other matchers, but in this case, the routine has already
 * recovered--we do NOT want to consume another token.  However, when
 * the match was successful, we do want to consume hence _signal=0 so that
 * a token is consumed by the "if (!_signal) consume(); _signal=NoSignal;"
 * preamble.
 */
#define zzsetmatch_wdfltsig(tokensWanted, tokenTypeOfSet, whatFollows) \
	if ( !_setmatch_wdfltsig(tokensWanted, tokenTypeOfSet, whatFollows) ) \
		_signal = MismatchedToken;

#define zzmatch_wdfltsig(tokenWanted, whatFollows) \
	if ( !_match_wdfltsig(tokenWanted, whatFollows) ) _signal = MismatchedToken;


//  MR1  10-Apr-97 	zzfailed_pred() macro does not backtrack in guess mode.
//  MR1	   		    Identification and correction due to J. Lilley
//
//  MR23            Call virtual method to report error.
//  MR23            Provide more control over failed predicate action
//                  without any need for user to worry about guessing internals.

#ifndef zzfailed_pred
#define zzfailed_pred(_p,_hasuseraction,_useraction) \
  if (guessing) { \
    zzGUESS_FAIL; \
  } else { \
    zzfailed_pred_action(_p,_hasuseraction,_useraction) \
  }
#endif

//  MR23            Provide more control over failed predicate action
//                  without any need for user to worry about guessing internals.
//                  _hasuseraction == 0 => no user specified error action
//                  _hasuseraction == 1 => user specified error action

#ifndef zzfailed_pred_action
#define zzfailed_pred_action(_p,_hasuseraction,_useraction) \
    if (_hasuseraction) { _useraction } else { failedSemanticPredicate(_p); }
#endif

#define zzRULE \
		SetWordType *zzMissSet=NULL; ANTLRTokenType zzMissTok=(ANTLRTokenType)0;	\
		_ANTLRTokenPtr zzBadTok=NULL; ANTLRChar *zzBadText=(ANTLRChar *)"";	\
		int zzErrk=1,zzpf=0; \
        zzTRACEdata \
		ANTLRChar *zzMissText=(ANTLRChar *)"";

#endif

        /* S t a n d a r d  E x c e p t i o n  S i g n a l s */

#define NoSignal			0
#define MismatchedToken		1
#define NoViableAlt			2
#define NoSemViableAlt		3

/* MR7  Allow more control over signalling                                  */
/*        by adding "Unwind" and "SetSignal"                                */

#define Unwind              4
#define setSignal(newValue) *_retsignal=_signal=(newValue)
#define suppressSignal       *_retsignal=_signal=0
#define exportSignal        *_retsignal=_signal