Source/Pccts/antlr/egman.c - edk2 - Git at Google

 /*
  * egman.c
  *
  * 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 1.33MR10
  * 2001
  *
  */

 #include <stdio.h>
 #include <stdlib.h>

 #include "set.h"
 #include "syn.h"
 #include "hash.h"
 #include "generic.h"
 #include "proto.h"

 static ExceptionGroup **egArray=NULL;   /* ExceptionGroup by BlkLevel */
 static LabelEntry     **leArray=NULL;   /* LabelEntry by BlkLevel     */
 static Junction       **altArray=NULL;  /* start of alternates        */
 static int              arraySize=0;
 static int              highWater=0;
 static ExceptionGroup *lastEG=NULL;     /* used in altFixup()         */
 static int             lastBlkLevel=0;  /* used in altFixup()         */

 #ifdef __USE_PROTOS
 static void arrayCheck(void);
 #else
 static void arrayCheck();
 #endif

 /* Called to add an exception group for an alternative EG */

 #ifdef __USE_PROTOS
 void egAdd(ExceptionGroup * eg)
 #else
 void egAdd(eg)
 ExceptionGroup *eg;
 #endif
 {
   int               i;

   ExceptionGroup    *nextEG;
   ExceptionGroup    *innerEG;

   LabelEntry        *nextLE;
   LabelEntry        *innerLE;

   Junction          *nextAlt;
   Junction          *innerAlt;

   lastEG=eg;
   lastBlkLevel=BlkLevel;

   arrayCheck();
   eg->pendingLink=egArray[BlkLevel];
   egArray[BlkLevel]=eg;

   /* EG for alternates already have their altID filled in      */

   for (i=BlkLevel+1; i<=highWater ; i++) {
     for (innerEG=egArray[i]; innerEG != NULL ; innerEG=nextEG) {
       nextEG=innerEG->pendingLink;
       innerEG->pendingLink=NULL;
       innerEG->outerEG=eg;
     };
     egArray[i]=NULL;
   };

   /*
    *  for patching up the LabelEntry you might use an EG for the
    *  current alternative - unlike patching up an alternative EG
    *    i.e. start the loop at BlkLevel rather than (BlkLevel+1)
    *  fill it in only if the EG and the LE are for the very
    *    same alternative if they're at the same BlkLevel
    *  it's easier to leave the LE on this list (filled in) rather than
    *    trying to selectively remove it.  It will eventually be
    *    removed anyway when the BlkLevel gets small enough.
    */

   for (i=BlkLevel; i<=highWater ; i++) {
     for (innerLE=leArray[i]; innerLE != NULL ; innerLE=nextLE) {
       nextLE=innerLE->pendingLink;
       if (BlkLevel != i ||
         innerLE->curAltNum == CurAltNum_array[BlkLevel]) {
         if (innerLE->outerEG == NULL) {
           innerLE->outerEG=eg;
         };
       };
     };
     if (BlkLevel != i) leArray[i]=NULL;
   };

 /*
  * For the start of alternatives it is necessary to make a
  * distinction between the exception group for the current
  * alternative and the "fallback" EG for the block which
  * contains the alternative
  *
  * The fallback outerEG is used to handle the case where
  * no alternative of a block matches.  In that case the
  * signal is "NoViableAlt" (or "NoSemViableAlt" and the
  * generator needs the EG of the block CONTAINING the
  * current one.
  *
  *      rule: ( ( ( a
  *                | b
  *                )
  *              | c
  *              )
  *            | d
  *            );
  */

   for (i=BlkLevel; i <= highWater ; i++) {
     for (innerAlt=altArray[i]; innerAlt != NULL ; innerAlt=nextAlt) {
       nextAlt=innerAlt->pendingLink;

       /*  first fill in the EG for the current alternative         */
       /*  but leave it on the list in order to get the fallback EG */
       /*  if the EG is at the same LEVEL as the alternative then   */
       /*    fill it in only if in the very same alternative        */
       /*                                                           */
       /*        rule: ( a                                          */
       /*              | b                                          */
       /*              | c  exception ...                           */
       /*              )                                            */
       /*                                                           */
       /*  if the EG is outside the alternative (e.g. BlkLevel < i) */
       /*    then it doesn't matter about the alternative           */
       /*                                                           */
       /*        rule: ( a                                          */
       /*              | b                                          */
       /*              | c                                          */
       /*              )   exception ...                            */
       /*                                                           */

 #if 0
       printf("BlkLevel=%d i=%d altnum=%d CurAltNum=%d altID=%s\n",
         BlkLevel,i,innerAlt->curAltNum,CurAltNum_array[BlkLevel],eg->altID);
 #endif
       if (BlkLevel != i ||
           innerAlt->curAltNum == CurAltNum_array[BlkLevel]) {
         if (innerAlt->exception_label == NULL) {
           innerAlt->exception_label=eg->altID;
         };
       };

       /*  ocurs at a later pass then for the exception_label       */
       /*  if an outerEG has been found then fill in the outer EG   */
       /*  remove if from the list when the BlkLevel gets smaller   */

       if (BlkLevel != i) {
         if (innerAlt->outerEG == NULL) {
           innerAlt->outerEG=eg;
         };
       };
     };
     if (BlkLevel != i) altArray[i]=NULL;
   };
 }

 #ifdef __USE_PROTOS
 void leAdd(LabelEntry * le)
 #else
 void leAdd(le)
 LabelEntry *le;
 #endif

 {
   arrayCheck();
   le->pendingLink=leArray[BlkLevel];
   le->curAltNum=CurAltNum_array[BlkLevel];
   leArray[BlkLevel]=le;
 }

 #ifdef __USE_PROTOS
 void altAdd(Junction *alt)
 #else
 void altAdd(alt)
 Junction *alt;
 #endif

 {
   arrayCheck();
 #if 0
   printf("BlkLevel=%d CurAltNum=%d\n",
             BlkLevel,CurAltNum_array[BlkLevel]);
 #endif
   alt->curAltNum=CurAltNum_array[BlkLevel];
   alt->pendingLink=altArray[BlkLevel];
   altArray[BlkLevel]=alt;
 }

 static void
 #ifdef __USE_PROTOS
 arrayCheck(void)
 #else
 arrayCheck()
 #endif
 {
   ExceptionGroup    **egArrayNew;
   LabelEntry        **leArrayNew;
   Junction          **altArrayNew;
   int               arraySizeNew;
   int               i;

   if (BlkLevel > highWater) highWater=BlkLevel;

   if (BlkLevel >= arraySize) {
     arraySizeNew=BlkLevel+5;	/* MR20 */
     egArrayNew=(ExceptionGroup **)
         calloc(arraySizeNew,sizeof(ExceptionGroup *));
     leArrayNew=(LabelEntry **)
         calloc(arraySizeNew,sizeof(LabelEntry *));
     altArrayNew=(Junction **)
         calloc(arraySizeNew,sizeof(Junction *));
     for (i=0; i<arraySize ; i++) {
       egArrayNew[i]=egArray[i];
       leArrayNew[i]=leArray[i];
       altArrayNew[i]=altArray[i];
     };
     arraySize=arraySizeNew;
     if (egArray != NULL) free( (char *) egArray);
     if (leArray != NULL) free( (char *) leArray);
     if (altArray != NULL) free( (char *) altArray);
     egArray=egArrayNew;
     leArray=leArrayNew;
     altArray=altArrayNew;
   };
 }

 /* always call leFixup() BEFORE egFixup() */

 void
 #ifdef __USE_PROTOS
 egFixup(void)
 #else
 egFixup()
 #endif
 {
   int               i;
   ExceptionGroup    *nextEG;
   ExceptionGroup    *innerEG;

   for (i=1; i<=highWater ; i++) {
     for (innerEG=egArray[i]; innerEG != NULL ; innerEG=nextEG) {
       nextEG=innerEG->pendingLink;
       innerEG->pendingLink=NULL;
     };
     egArray[i]=NULL;
   };
   lastEG=NULL;
   lastBlkLevel=0;
 }

 /* always call leFixup() BEFORE egFixup() */

 #ifdef __USE_PROTOS
 void leFixup(void)
 #else
 void leFixup()
 #endif
 {

   int               i;
   LabelEntry        *nextLE;
   LabelEntry        *innerLE;

   for (i=BlkLevel; i<=highWater ; i++) {
     for (innerLE=leArray[i]; innerLE != NULL ; innerLE=nextLE) {
       nextLE=innerLE->pendingLink;
       innerLE->pendingLink=NULL;
     };
     leArray[i]=NULL;
   };
 }

 /* always call altFixup() BEFORE egFixup() */

 #ifdef __USE_PROTOS
 void altFixup(void)
 #else
 void altFixup()
 #endif
 {

   int               i;
   Junction          *nextAlt;
   Junction          *innerAlt;

   for (i=BlkLevel; i<=highWater ; i++) {
     for (innerAlt=altArray[i]; innerAlt != NULL ; innerAlt=nextAlt) {

       /*  if an outerEG has been found then fill in the outer EG   */

       if (lastBlkLevel <= i) {
         if (innerAlt->outerEG == NULL) {
           innerAlt->outerEG=lastEG;
         };
       };
       nextAlt=innerAlt->pendingLink;
       innerAlt->pendingLink=NULL;
     };
     altArray[i]=NULL;
   };
 }
	/*
	* egman.c
	*
	* 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 1.33MR10
	* 2001
	*
	*/

	#include <stdio.h>
	#include <stdlib.h>

	#include "set.h"
	#include "syn.h"
	#include "hash.h"
	#include "generic.h"
	#include "proto.h"

	static ExceptionGroup *egArray=NULL; / ExceptionGroup by BlkLevel */
	static LabelEntry *leArray=NULL; / LabelEntry by BlkLevel */
	static Junction *altArray=NULL; / start of alternates */
	static int arraySize=0;
	static int highWater=0;
	static ExceptionGroup lastEG=NULL; / used in altFixup() */
	static int lastBlkLevel=0; /* used in altFixup() */

	#ifdef __USE_PROTOS
	static void arrayCheck(void);
	#else
	static void arrayCheck();
	#endif

	/* Called to add an exception group for an alternative EG */

	#ifdef __USE_PROTOS
	void egAdd(ExceptionGroup * eg)
	#else
	void egAdd(eg)
	ExceptionGroup *eg;
	#endif
	{
	int i;

	ExceptionGroup *nextEG;
	ExceptionGroup *innerEG;

	LabelEntry *nextLE;
	LabelEntry *innerLE;

	Junction *nextAlt;
	Junction *innerAlt;

	lastEG=eg;
	lastBlkLevel=BlkLevel;

	arrayCheck();
	eg->pendingLink=egArray[BlkLevel];
	egArray[BlkLevel]=eg;

	/* EG for alternates already have their altID filled in */

	for (i=BlkLevel+1; i<=highWater ; i++) {
	for (innerEG=egArray[i]; innerEG != NULL ; innerEG=nextEG) {
	nextEG=innerEG->pendingLink;
	innerEG->pendingLink=NULL;
	innerEG->outerEG=eg;
	};
	egArray[i]=NULL;
	};

	/*
	* for patching up the LabelEntry you might use an EG for the
	* current alternative - unlike patching up an alternative EG
	* i.e. start the loop at BlkLevel rather than (BlkLevel+1)
	* fill it in only if the EG and the LE are for the very
	* same alternative if they're at the same BlkLevel
	* it's easier to leave the LE on this list (filled in) rather than
	* trying to selectively remove it. It will eventually be
	* removed anyway when the BlkLevel gets small enough.
	*/

	for (i=BlkLevel; i<=highWater ; i++) {
	for (innerLE=leArray[i]; innerLE != NULL ; innerLE=nextLE) {
	nextLE=innerLE->pendingLink;
	if (BlkLevel != i \|\|
	innerLE->curAltNum == CurAltNum_array[BlkLevel]) {
	if (innerLE->outerEG == NULL) {
	innerLE->outerEG=eg;
	};
	};
	};
	if (BlkLevel != i) leArray[i]=NULL;
	};

	/*
	* For the start of alternatives it is necessary to make a
	* distinction between the exception group for the current
	* alternative and the "fallback" EG for the block which
	* contains the alternative
	*
	* The fallback outerEG is used to handle the case where
	* no alternative of a block matches. In that case the
	* signal is "NoViableAlt" (or "NoSemViableAlt" and the
	* generator needs the EG of the block CONTAINING the
	* current one.
	*
	* rule: ( ( ( a
	* \| b
	* )
	* \| c
	* )
	* \| d
	* );
	*/

	for (i=BlkLevel; i <= highWater ; i++) {
	for (innerAlt=altArray[i]; innerAlt != NULL ; innerAlt=nextAlt) {
	nextAlt=innerAlt->pendingLink;

	/* first fill in the EG for the current alternative */
	/* but leave it on the list in order to get the fallback EG */
	/* if the EG is at the same LEVEL as the alternative then */
	/* fill it in only if in the very same alternative */
	/* */
	/* rule: ( a */
	/* \| b */
	/* \| c exception ... */
	/* ) */
	/* */
	/* if the EG is outside the alternative (e.g. BlkLevel < i) */
	/* then it doesn't matter about the alternative */
	/* */
	/* rule: ( a */
	/* \| b */
	/* \| c */
	/* ) exception ... */
	/* */

	#if 0
	printf("BlkLevel=%d i=%d altnum=%d CurAltNum=%d altID=%s\n",
	BlkLevel,i,innerAlt->curAltNum,CurAltNum_array[BlkLevel],eg->altID);
	#endif
	if (BlkLevel != i \|\|
	innerAlt->curAltNum == CurAltNum_array[BlkLevel]) {
	if (innerAlt->exception_label == NULL) {
	innerAlt->exception_label=eg->altID;
	};
	};

	/* ocurs at a later pass then for the exception_label */
	/* if an outerEG has been found then fill in the outer EG */
	/* remove if from the list when the BlkLevel gets smaller */

	if (BlkLevel != i) {
	if (innerAlt->outerEG == NULL) {
	innerAlt->outerEG=eg;
	};
	};
	};
	if (BlkLevel != i) altArray[i]=NULL;
	};
	}

	#ifdef __USE_PROTOS
	void leAdd(LabelEntry * le)
	#else
	void leAdd(le)
	LabelEntry *le;
	#endif

	{
	arrayCheck();
	le->pendingLink=leArray[BlkLevel];
	le->curAltNum=CurAltNum_array[BlkLevel];
	leArray[BlkLevel]=le;
	}

	#ifdef __USE_PROTOS
	void altAdd(Junction *alt)
	#else
	void altAdd(alt)
	Junction *alt;
	#endif

	{
	arrayCheck();
	#if 0
	printf("BlkLevel=%d CurAltNum=%d\n",
	BlkLevel,CurAltNum_array[BlkLevel]);
	#endif
	alt->curAltNum=CurAltNum_array[BlkLevel];
	alt->pendingLink=altArray[BlkLevel];
	altArray[BlkLevel]=alt;
	}

	static void
	#ifdef __USE_PROTOS
	arrayCheck(void)
	#else
	arrayCheck()
	#endif
	{
	ExceptionGroup **egArrayNew;
	LabelEntry **leArrayNew;
	Junction **altArrayNew;
	int arraySizeNew;
	int i;

	if (BlkLevel > highWater) highWater=BlkLevel;

	if (BlkLevel >= arraySize) {
	arraySizeNew=BlkLevel+5; /* MR20 */
	egArrayNew=(ExceptionGroup **)
	calloc(arraySizeNew,sizeof(ExceptionGroup *));
	leArrayNew=(LabelEntry **)
	calloc(arraySizeNew,sizeof(LabelEntry *));
	altArrayNew=(Junction **)
	calloc(arraySizeNew,sizeof(Junction *));
	for (i=0; i<arraySize ; i++) {
	egArrayNew[i]=egArray[i];
	leArrayNew[i]=leArray[i];
	altArrayNew[i]=altArray[i];
	};
	arraySize=arraySizeNew;
	if (egArray != NULL) free( (char *) egArray);
	if (leArray != NULL) free( (char *) leArray);
	if (altArray != NULL) free( (char *) altArray);
	egArray=egArrayNew;
	leArray=leArrayNew;
	altArray=altArrayNew;
	};
	}

	/* always call leFixup() BEFORE egFixup() */

	void
	#ifdef __USE_PROTOS
	egFixup(void)
	#else
	egFixup()
	#endif
	{
	int i;
	ExceptionGroup *nextEG;
	ExceptionGroup *innerEG;

	for (i=1; i<=highWater ; i++) {
	for (innerEG=egArray[i]; innerEG != NULL ; innerEG=nextEG) {
	nextEG=innerEG->pendingLink;
	innerEG->pendingLink=NULL;
	};
	egArray[i]=NULL;
	};
	lastEG=NULL;
	lastBlkLevel=0;
	}

	/* always call leFixup() BEFORE egFixup() */

	#ifdef __USE_PROTOS
	void leFixup(void)
	#else
	void leFixup()
	#endif
	{

	int i;
	LabelEntry *nextLE;
	LabelEntry *innerLE;

	for (i=BlkLevel; i<=highWater ; i++) {
	for (innerLE=leArray[i]; innerLE != NULL ; innerLE=nextLE) {
	nextLE=innerLE->pendingLink;
	innerLE->pendingLink=NULL;
	};
	leArray[i]=NULL;
	};
	}

	/* always call altFixup() BEFORE egFixup() */

	#ifdef __USE_PROTOS
	void altFixup(void)
	#else
	void altFixup()
	#endif
	{

	int i;
	Junction *nextAlt;
	Junction *innerAlt;

	for (i=BlkLevel; i<=highWater ; i++) {
	for (innerAlt=altArray[i]; innerAlt != NULL ; innerAlt=nextAlt) {

	/* if an outerEG has been found then fill in the outer EG */

	if (lastBlkLevel <= i) {
	if (innerAlt->outerEG == NULL) {
	innerAlt->outerEG=lastEG;
	};
	};
	nextAlt=innerAlt->pendingLink;
	innerAlt->pendingLink=NULL;
	};
	altArray[i]=NULL;
	};
	}