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Diff for /OpenXM/src/kan96xx/Kan/stackmachine.c between version 1.28 and 1.43

version 1.28, 2004/09/17 02:42:57 version 1.43, 2018/09/07 00:15:44
Line 1 
Line 1 
 /* $OpenXM: OpenXM/src/kan96xx/Kan/stackmachine.c,v 1.27 2004/09/16 23:53:44 takayama Exp $ */  /* $OpenXM: OpenXM/src/kan96xx/Kan/stackmachine.c,v 1.42 2016/03/31 06:34:29 takayama Exp $ */
 /*   stackmachin.c */  /*   stackmachin.c */
   
 #include <stdio.h>  #include <stdio.h>
   #include <stdlib.h>
   #include <string.h>
 #include "datatype.h"  #include "datatype.h"
 #include "stackm.h"  #include "stackm.h"
 #include "extern.h"  #include "extern.h"
Line 9 
Line 11 
 #include "kclass.h"  #include "kclass.h"
 #include <signal.h>  #include <signal.h>
 #include <sys/types.h>  #include <sys/types.h>
   #include "mysig.h"
   
   /* The msys2 seems to make a buffer overflow of  EnvOfStackmachine[].
   The code
   [(x) ring_of_differential_operators 11] define_ring
   ( Dx*(x+Dx) ) /ff set
   causes the segfault because Mp_zero is borken. Is it a bug of msys2?
   Anyway, the following definition seems to be a workaround. 2015.09
   Singnals do not work properly on msys2. (gcc -dM -E ... to see macros defs)
   See stackm.h
   */
   
 /* #define OPERAND_STACK_SIZE  2000 */  /* #define OPERAND_STACK_SIZE  2000 */
 #define OPERAND_STACK_SIZE 30000  #define OPERAND_STACK_SIZE 30000
Line 52  struct context *CurrentContextp = &StandardContext;
Line 64  struct context *CurrentContextp = &StandardContext;
 struct context *PrimitiveContextp = &StandardContext;  struct context *PrimitiveContextp = &StandardContext;
   
   
 static struct object ObjTmp; /* for poor compiler */  static struct object ObjTmp = OINIT; /* for poor compiler */
   
 int Calling_ctrlC_hook = 0;  int Calling_ctrlC_hook = 0;
   
Line 74  static strToInteger(char *);
Line 86  static strToInteger(char *);
 static power(int s,int i);  static power(int s,int i);
 static void pstack(void);  static void pstack(void);
 static struct object executableStringToExecutableArray(char *str);  static struct object executableStringToExecutableArray(char *str);
   static int isThereExecutableArrayOnStack(int n);
   
 extern int SerialCurrent;  extern int SerialCurrent;
 extern int QuoteMode;  extern int QuoteMode;
Line 86  int OXlockSaved = 0;
Line 99  int OXlockSaved = 0;
 char *UD_str;  char *UD_str;
 int  UD_attr;  int  UD_attr;
   
   struct object *MsgStackTraceInArrayp = NULL;
   char *MsgStackTrace = NULL;
   char *MsgSourceTrace = NULL;
   
 struct object * newObject()  struct object * newObject()
 {  {
   struct object *r;    struct object *r;
Line 94  struct object * newObject() 
Line 111  struct object * newObject() 
   r->tag = 0;    r->tag = 0;
   (r->lc).ival = 0;    (r->lc).ival = 0;
   (r->rc).ival = 0;    (r->rc).ival = 0;
     r->attr = NULL;
   return(r);    return(r);
 }  }
   
 struct object newObjectArray(size)  struct object newObjectArray(size)
      int size;       int size;
 {  {
   struct object rob;    struct object rob = OINIT;
   struct object *op;    struct object *op;
   if (size < 0) return(NullObject);    if (size < 0) return(NullObject);
   if (size > 0) {    if (size > 0) {
Line 322  int putPrimitiveFunction(str,number)
Line 340  int putPrimitiveFunction(str,number)
      char *str;       char *str;
      int number;       int number;
 {  {
   struct object ob;    struct object ob = OINIT;
   ob.tag = Soperator;    ob.tag = Soperator;
   ob.lc.ival = number;    ob.lc.ival = number;
   return(putSystemDictionary(str,ob));    return(putSystemDictionary(str,ob));
Line 464  struct object peek(k)
Line 482  struct object peek(k)
   }    }
 }  }
   
   static int isThereExecutableArray(struct object ob) {
     int n,i;
     struct object otmp = OINIT;
     if (ob.tag == SexecutableArray) return(1);
     if (ob.tag == Sarray) {
       n = getoaSize(ob);
       for (i=0; i<n; i++) {
         otmp = getoa(ob,i);
         if (isThereExecutableArray(otmp)) return(1);
       }
       return(0);
     }
     /* Class and list is not checked, since there is no parser
        to directory translte these objects. */
     return(0);
   }
   static int isThereExecutableArrayOnStack(int n) {
     int i;
     struct object ob = OINIT;
     for (i=0; i<n; i++) {
       if (Osp-i-1 < 0) return(0);
       ob = peek(i);
       if (isThereExecutableArray(ob)) return(1);
     }
     return(0);
   }
   
 struct object newOperandStack(int size)  struct object newOperandStack(int size)
 {  {
   struct operandStack *os ;    struct operandStack *os ;
   struct object ob;    struct object ob = OINIT;
   os = (struct operandStack *)sGC_malloc(sizeof(struct operandStack));    os = (struct operandStack *)sGC_malloc(sizeof(struct operandStack));
   if (os == (void *)NULL) errorStackmachine("No more memory.");    if (os == (void *)NULL) errorStackmachine("No more memory.");
   if (size <= 0) errorStackmachine("Size of stack must be more than 1.");    if (size <= 0) errorStackmachine("Size of stack must be more than 1.");
Line 549  void KsetContext(struct object contextObj)  {
Line 593  void KsetContext(struct object contextObj)  {
   
   
 struct object getSuperContext(struct object contextObj) {  struct object getSuperContext(struct object contextObj) {
   struct object rob;    struct object rob = OINIT;
   struct context *cp;    struct context *cp;
   if (contextObj.tag != Sclass) {    if (contextObj.tag != Sclass) {
     errorStackmachine("Usage:supercontext");      errorStackmachine("Usage:supercontext");
Line 615  int isLiteral(str)
Line 659  int isLiteral(str)
   
 void printOperandStack() {  void printOperandStack() {
   int i;    int i;
   struct object ob;    struct object ob = OINIT;
   int vs;    int vs;
   vs = VerboseStack; VerboseStack = 2;    vs = VerboseStack; VerboseStack = 2;
   for (i=Osp-1; i>=0; i--) {    for (i=Osp-1; i>=0; i--) {
Line 651  struct object showSystemDictionary(int f) {
Line 695  struct object showSystemDictionary(int f) {
   int maxl;    int maxl;
   char format[1000];    char format[1000];
   int nl;    int nl;
   struct object rob;    struct object rob = OINIT;
   rob = NullObject;    rob = NullObject;
   if (f != 0) {    if (f != 0) {
     rob = newObjectArray(Sdp);      rob = newObjectArray(Sdp);
Line 724  static struct object executableStringToExecutableArray
Line 768  static struct object executableStringToExecutableArray
      char *s;       char *s;
 {  {
   struct tokens *tokenArray;    struct tokens *tokenArray;
   struct object ob;    struct object ob = OINIT;
   int i;    int i;
   int size;    int size;
   tokenArray = decomposeToTokens(s,&size);    tokenArray = decomposeToTokens(s,&size);
Line 743  static struct object executableStringToExecutableArray
Line 787  static struct object executableStringToExecutableArray
 /****************  stack machine **************************/  /****************  stack machine **************************/
 void scanner() {  void scanner() {
   struct tokens token;    struct tokens token;
   struct object ob;    struct object ob = OINIT;
   extern int Quiet;    extern int Quiet;
   extern void ctrlC();    extern void ctrlC();
   int tmp, status;    int tmp, status;
Line 758  void scanner() {
Line 802  void scanner() {
   initSystemDictionary();    initSystemDictionary();
   
 #if defined(__CYGWIN__)  #if defined(__CYGWIN__)
   if (sigsetjmp(EnvOfStackMachine,1)) {    if (MYSIGSETJMP(EnvOfStackMachine,1)) {
 #else  #else
   if (setjmp(EnvOfStackMachine)) {    if (MYSETJMP(EnvOfStackMachine)) {
 #endif  #endif
     /* do nothing in the case of error */      /* do nothing in the case of error */
     fprintf(stderr,"An error or interrupt in reading macros, files and command strings.\n");      fprintf(stderr,"An error or interrupt in reading macros, files and command strings.\n");
     exit(10);      exit(10);
   } else {  }    } else {  }
   if (signal(SIGINT,SIG_IGN) != SIG_IGN) {    if (mysignal(SIGINT,SIG_IGN) != SIG_IGN) {
     signal(SIGINT,ctrlC);      mysignal(SIGINT,ctrlC);
   }    }
   
   /* setup quiet mode or not */    /* setup quiet mode or not */
Line 822  void scanner() {
Line 866  void scanner() {
   
   for (;;) {    for (;;) {
 #if defined(__CYGWIN__)  #if defined(__CYGWIN__)
     if (jval=sigsetjmp(EnvOfStackMachine,1)) {      if (jval=MYSIGSETJMP(EnvOfStackMachine,1)) {
 #else  #else
     if (jval=setjmp(EnvOfStackMachine)) {      if (jval=MYSETJMP(EnvOfStackMachine)) {
 #endif  #endif
       /* ***  The following does not work properly.  ****        /* ***  The following does not work properly.  ****
          if (jval == 2) {           if (jval == 2) {
Line 872  void ctrlC(sig)
Line 916  void ctrlC(sig)
   extern int OXlock;    extern int OXlock;
   extern int RestrictedMode, RestrictedMode_saved;    extern int RestrictedMode, RestrictedMode_saved;
   
   signal(sig,SIG_IGN);    mysignal(sig,SIG_IGN);
   /* see 133p */    /* see 133p */
   RestrictedMode = RestrictedMode_saved;    RestrictedMode = RestrictedMode_saved;
   cancelAlarm();    cancelAlarm();
Line 883  void ctrlC(sig)
Line 927  void ctrlC(sig)
   if (SGClock) {    if (SGClock) {
     UserCtrlC = 1;      UserCtrlC = 1;
     fprintf(stderr,"ctrl-c is locked because of gc.\n");      fprintf(stderr,"ctrl-c is locked because of gc.\n");
     signal(sig,ctrlC);  if (sig == SIGALRM) alarm((unsigned int)10);      mysignal(sig,ctrlC);  if (sig == SIGALRM) alarm((unsigned int)10);
     return;      return;
   }    }
   if (OXlock) {    if (OXlock) {
Line 892  void ctrlC(sig)
Line 936  void ctrlC(sig)
     if (UserCtrlC > 3) {      if (UserCtrlC > 3) {
       fprintf(stderr,"OK. You are eager to cancel the computation.\n");        fprintf(stderr,"OK. You are eager to cancel the computation.\n");
       fprintf(stderr,"You should close the ox communication cannel.\n");        fprintf(stderr,"You should close the ox communication cannel.\n");
       signal(SIGINT,ctrlC);        mysignal(SIGINT,ctrlC);
       unlockCtrlCForOx();        unlockCtrlCForOx();
     }      }
     fprintf(stderr,"ctrl-c is locked because of ox lock %d.\n",UserCtrlC);      fprintf(stderr,"ctrl-c is locked because of ox lock %d.\n",UserCtrlC);
     signal(sig,ctrlC);  if (sig == SIGALRM) alarm((unsigned int)10);      mysignal(sig,ctrlC);  if (sig == SIGALRM) alarm((unsigned int)10);
     return;      return;
   }    }
   if (ErrorMessageMode != 1) {    if (ErrorMessageMode != 1) {
Line 918  void ctrlC(sig)
Line 962  void ctrlC(sig)
     It SOMETIMES makes core dump.      It SOMETIMES makes core dump.
   */    */
   getokenSM(INIT); /* It might fix the bug above. 1992/11/14 */    getokenSM(INIT); /* It might fix the bug above. 1992/11/14 */
   signal(SIGINT,ctrlC);    mysignal(SIGINT,ctrlC);
 #if defined(__CYGWIN__)  #if defined(__CYGWIN__)
   siglongjmp(EnvOfStackMachine,2);    MYSIGLONGJMP(EnvOfStackMachine,2);
 #else  #else
   longjmp(EnvOfStackMachine,2); /* returns 2 for ctrl-C */    MYLONGJMP(EnvOfStackMachine,2); /* returns 2 for ctrl-C */
 #endif  #endif
 }  }
   
 int executeToken(token)  int executeToken(token)
      struct tokens token;       struct tokens token;
 {  {
   struct object ob;    struct object ob = OINIT;
   int primitive;    int primitive;
   int size;    int size;
   int status;    int status;
Line 997  int executeToken(token)
Line 1041  int executeToken(token)
           if (RestrictedMode) {            if (RestrictedMode) {
             if (UD_attr & ATTR_EXPORT) {              if (UD_attr & ATTR_EXPORT) {
               localRestrictedMode_saved = RestrictedMode; RestrictedMode = 0;                localRestrictedMode_saved = RestrictedMode; RestrictedMode = 0;
                 if (isThereExecutableArrayOnStack(5)) {
                                   int i;
                   for (i=0; i<5; i++) { (void) Kpop(); }
                   errorStackmachine("Executable array is on the argument stack (restricted mode). They are automatically removed.\n");
                             }
             }else{              }else{
               tracePushName(token.token);                tracePushName(token.token);
               errorStackmachine("You cannot execute this function in restricted mode.\n");                errorStackmachine("You cannot execute this function in restricted mode.\n");
Line 1026  int executeToken(token)
Line 1075  int executeToken(token)
             return(0); /* normal exit.*/              return(0); /* normal exit.*/
           }            }
                 }                  }
         if (WarningMessageMode == 1 || WarningMessageMode == 2) {          {
           char tmpc[1024];            char tmpc[1024];
           if (strlen(token.token) < 900) {            if (strlen(token.token) < 900) {
             sprintf(tmpc,"\n%%Warning: The identifier <<%s>> is not in the system dictionary\n%%   nor in the user dictionaries. Push NullObject.\n",token.token);              sprintf(tmpc,"\n>>Warning: The identifier <<%s>> is not in the system dictionary\n>>   nor in the user dictionaries. Push NullObject.\n",token.token);
           }else {strcpy(tmpc,"Warning: identifier is not in the dictionaries.");}            }else {strcpy(tmpc,"\n>>Warning: identifier is not in the dictionaries.\n");}
           pushErrorStack(KnewErrorPacket(SerialCurrent,-1,tmpc));            /* do not use %% in a string. tmpc will be used as  fprintf(stderr,tmpc); */
             if (WarningMessageMode == 1 || WarningMessageMode == 2) {
               pushErrorStack(KnewErrorPacket(SerialCurrent,-1,tmpc));
             }
             if (WarningMessageMode != 1) {
               fprintf(Fstack,"%s",tmpc);
               /*fprintf(Fstack,"(%d,%d)\n",h0,h1);*/
             }
             if (Strict) {
               errorStackmachine(tmpc);
             }
             Kpush(NullObject);
         }          }
         if (WarningMessageMode != 1) {  
           fprintf(Fstack,"\n%%Warning: The identifier <<%s>> is not in the system dictionary\n%%   nor in the user dictionaries. Push NullObject.\n",token.token);  
           /*fprintf(Fstack,"(%d,%d)\n",h0,h1);*/  
         }  
         if (Strict) {  
           errorStackmachine("Warning: identifier is not in the dictionaries");  
         }  
         Kpush(NullObject);  
       }        }
     }      }
   } else if (token.kind == EXECUTABLE_STRING) {    } else if (token.kind == EXECUTABLE_STRING) {
Line 1076  errorStackmachine(str)
Line 1128  errorStackmachine(str)
   extern int RestrictedMode, RestrictedMode_saved;    extern int RestrictedMode, RestrictedMode_saved;
   RestrictedMode = RestrictedMode_saved;    RestrictedMode = RestrictedMode_saved;
   cancelAlarm();    cancelAlarm();
     MsgStackTrace = NULL;
     MsgSourceTrace = NULL;
   if (ErrorMessageMode == 1 || ErrorMessageMode == 2) {    if (ErrorMessageMode == 1 || ErrorMessageMode == 2) {
     pushErrorStack(KnewErrorPacket(SerialCurrent,-1,str));      pushErrorStack(KnewErrorPacket(SerialCurrent,-1,str));
   }    }
Line 1109  errorStackmachine(str)
Line 1163  errorStackmachine(str)
       fprintf(stderr,str);        fprintf(stderr,str);
     }      }
     fprintf(stderr,"\n");      fprintf(stderr,"\n");
     (void) traceShowStack();          MsgStackTraceInArrayp = traceNameStackToArrayp();
       MsgStackTrace = traceShowStack();
       MsgSourceTrace = traceShowScannerBuf();
   }    }
   traceClearStack();    traceClearStack();
   if (GotoP) {    if (GotoP) {
Line 1119  errorStackmachine(str)
Line 1175  errorStackmachine(str)
   stdOperandStack(); contextControl(CCRESTORE);    stdOperandStack(); contextControl(CCRESTORE);
   getokenSM(INIT); /* It might fix the bug. 1996/3/10 */    getokenSM(INIT); /* It might fix the bug. 1996/3/10 */
   /* fprintf(stderr,"Now, Long jump!\n"); */    /* fprintf(stderr,"Now, Long jump!\n"); */
   longjmp(EnvOfStackMachine,1);    MYLONGJMP(EnvOfStackMachine,1);
 }  }
   
 warningStackmachine(str)  warningStackmachine(str)
Line 1147  KSexecuteString(s)
Line 1203  KSexecuteString(s)
      char *s;       char *s;
 {  {
   struct tokens token;    struct tokens token;
   struct object ob;    struct object ob = OINIT;
   int tmp;    int tmp;
   extern int CatchCtrlC;    extern int CatchCtrlC;
   int jval;    int jval;
Line 1164  KSexecuteString(s)
Line 1220  KSexecuteString(s)
      we crash. So, we use localCatchCtrlC. */       we crash. So, we use localCatchCtrlC. */
   
   if (localCatchCtrlC) {    if (localCatchCtrlC) {
     sigfunc = signal(SIGINT,SIG_IGN);      sigfunc = mysignal(SIGINT,SIG_IGN);
     signal(SIGINT,ctrlC);      mysignal(SIGINT,ctrlC);
   }    }
   
   if (KSPushEnvMode) {    if (KSPushEnvMode) {
     *saved_EnvOfStackMachine = *EnvOfStackMachine;      *saved_EnvOfStackMachine = *EnvOfStackMachine;
 #if defined(__CYGWIN__)  #if defined(__CYGWIN__)
     if (jval = sigsetjmp(EnvOfStackMachine,1)) {      if (jval = MYSIGSETJMP(EnvOfStackMachine,1)) {
 #else  #else
     if (jval = setjmp(EnvOfStackMachine)) {      if (jval = MYSETJMP(EnvOfStackMachine)) {
 #endif  #endif
       *EnvOfStackMachine = *saved_EnvOfStackMachine;        *EnvOfStackMachine = *saved_EnvOfStackMachine;
       if (jval == 2) {        if (jval == 2) {
Line 1182  KSexecuteString(s)
Line 1238  KSexecuteString(s)
         }          }
       }        }
       recursive--;        recursive--;
       if (localCatchCtrlC) { signal(SIGINT, sigfunc); }        if (localCatchCtrlC) { mysignal(SIGINT, sigfunc); }
       if (!Calling_ctrlC_hook) {        if (!Calling_ctrlC_hook) {
         Calling_ctrlC_hook = 1; RestrictedMode = 0;          Calling_ctrlC_hook = 1; RestrictedMode = 0;
         KSexecuteString(" ctrlC-hook "); /* Execute User Defined functions. */          KSexecuteString(" ctrlC-hook "); /* Execute User Defined functions. */
Line 1190  KSexecuteString(s)
Line 1246  KSexecuteString(s)
       }        }
       Calling_ctrlC_hook = 0;        Calling_ctrlC_hook = 0;
       KSexecuteString(" (Computation is interrupted.) "); /* move to ctrlC-hook?*/        KSexecuteString(" (Computation is interrupted.) "); /* move to ctrlC-hook?*/
         /* fprintf(stderr,"result code=-1 for %s\n",s); */
       return(-1);        return(-1);
     }else{ }      }else{ }
   }else{    }else{
     if (recursive == 0) {      if (recursive == 0) {
 #if defined(__CYGWIN__)  #if defined(__CYGWIN__)
       if (jval=sigsetjmp(EnvOfStackMachine,1)) {        if (jval=MYSIGSETJMP(EnvOfStackMachine,1)) {
 #else  #else
       if (jval=setjmp(EnvOfStackMachine)) {        if (jval=MYSETJMP(EnvOfStackMachine)) {
 #endif  #endif
         if (jval == 2) {          if (jval == 2) {
           if (ErrorMessageMode == 1 || ErrorMessageMode == 2) {            if (ErrorMessageMode == 1 || ErrorMessageMode == 2) {
Line 1205  KSexecuteString(s)
Line 1262  KSexecuteString(s)
           }            }
         }          }
         recursive = 0;          recursive = 0;
         if (localCatchCtrlC) { signal(SIGINT, sigfunc); }          if (localCatchCtrlC) { mysignal(SIGINT, sigfunc); }
         if (!Calling_ctrlC_hook) {          if (!Calling_ctrlC_hook) {
           Calling_ctrlC_hook = 1; RestrictedMode = 0;            Calling_ctrlC_hook = 1; RestrictedMode = 0;
           KSexecuteString(" ctrlC-hook "); /* Execute User Defined functions. */            KSexecuteString(" ctrlC-hook "); /* Execute User Defined functions. */
Line 1214  KSexecuteString(s)
Line 1271  KSexecuteString(s)
         Calling_ctrlC_hook = 0;          Calling_ctrlC_hook = 0;
         Calling_ctrlC_hook = 0;          Calling_ctrlC_hook = 0;
                 KSexecuteString(" (Computation is interrupted.) ");                  KSexecuteString(" (Computation is interrupted.) ");
                   /* fprintf(stderr,"result code=-1 for %s\n",s);*/
         return(-1);          return(-1);
       }else { }        }else { }
     }      }
Line 1232  KSexecuteString(s)
Line 1290  KSexecuteString(s)
   executePrimitive(ob);    executePrimitive(ob);
   recursive--;    recursive--;
   if (KSPushEnvMode) *EnvOfStackMachine = *saved_EnvOfStackMachine;    if (KSPushEnvMode) *EnvOfStackMachine = *saved_EnvOfStackMachine;
   if (localCatchCtrlC) { signal(SIGINT, sigfunc); }    if (localCatchCtrlC) { mysignal(SIGINT, sigfunc); }
   return(0);    return(0);
 }  }
   
 KSdefineMacros() {  KSdefineMacros() {
   struct tokens token;    struct tokens token;
   int tmp;    int tmp;
   struct object ob;    struct object ob = OINIT;
   
   if (StandardMacros && (strlen(SMacros))) {    if (StandardMacros && (strlen(SMacros))) {
     token.kind = EXECUTABLE_STRING; token.tflag = 0;      token.kind = EXECUTABLE_STRING; token.tflag = 0;
Line 1257  KSdefineMacros() {
Line 1315  KSdefineMacros() {
   
 }  }
   
   void KSstart_quiet() {
     extern int Quiet;
     Quiet=1;
     KSstart();
   }
 void KSstart() {  void KSstart() {
   struct tokens token;    struct tokens token;
   int tmp;    int tmp;
   struct object ob;    struct object ob = OINIT;
   extern int Quiet;    extern int Quiet;
   
   stackmachine_init(); KinitKan();    stackmachine_init(); KinitKan();
Line 1269  void KSstart() {
Line 1332  void KSstart() {
   /* The following line may cause a core dump, if you do not setjmp properly    /* The following line may cause a core dump, if you do not setjmp properly
      after calling KSstart().*/       after calling KSstart().*/
   /*    /*
     if (setjmp(EnvOfStackMachine)) {      if (MYSETJMP(EnvOfStackMachine)) {
     fprintf(stderr,"KSstart(): An error or interrupt in reading macros, files and command strings.\n");      fprintf(stderr,"KSstart(): An error or interrupt in reading macros, files and command strings.\n");
     exit(10);      exit(10);
     } else {  }  */      } else {  }  */
Line 1314  struct object KSpeek(k) {
Line 1377  struct object KSpeek(k) {
   
 char *KSstringPop() {  char *KSstringPop() {
   /* pop a string */    /* pop a string */
   struct object rob;    struct object rob = OINIT;
   rob = Kpop();    rob = Kpop();
   if (rob.tag == Sdollar) {    if (rob.tag == Sdollar) {
     return(rob.lc.str);      return(rob.lc.str);
Line 1354  char *KSpopBinary(int *size) {
Line 1417  char *KSpopBinary(int *size) {
   return((char *)NULL);    return((char *)NULL);
 }  }
   
   struct object KSnewObjectArray(int k) {
      return newObjectArray(k);
   }
   
 int pushErrorStack(struct object obj)  int pushErrorStack(struct object obj)
 {  {
   if (CurrentOperandStack == &ErrorStack) {    if (CurrentOperandStack == &ErrorStack) {
Line 1384  struct object popErrorStack(void) {
Line 1451  struct object popErrorStack(void) {
 }  }
   
 char *popErrorStackByString(void) {  char *popErrorStackByString(void) {
   struct object obj;    struct object obj = OINIT;
   struct object eobj;    struct object eobj = OINIT;
   eobj = popErrorStack();    eobj = popErrorStack();
   if (ectag(eobj) != CLASSNAME_ERROR_PACKET) {    if (ectag(eobj) != CLASSNAME_ERROR_PACKET) {
     return(NULL);      return(NULL);
Line 1414  int KScheckErrorStack(void)
Line 1481  int KScheckErrorStack(void)
   
 struct object KnewErrorPacket(int serial,int no,char *message)  struct object KnewErrorPacket(int serial,int no,char *message)
 {  {
   struct object obj;    struct object obj = OINIT;
   struct object *myop;    struct object *myop;
   char *s;    char *s;
   /* Set extended tag. */    /* Set extended tag. */
Line 1436  struct object KnewErrorPacket(int serial,int no,char *
Line 1503  struct object KnewErrorPacket(int serial,int no,char *
   
 struct object KnewErrorPacketObj(struct object ob1)  struct object KnewErrorPacketObj(struct object ob1)
 {  {
   struct object obj;    struct object obj = OINIT;
   struct object *myop;    struct object *myop;
   char *s;    char *s;
   /* Set extended tag. */    /* Set extended tag. */
Line 1535  int KSstackPointer() {
Line 1602  int KSstackPointer() {
 }  }
   
 struct object KSdupErrors() {  struct object KSdupErrors() {
   struct object rob;    struct object rob = OINIT;
   struct object ob;    struct object ob = OINIT;
   int i;    int i;
   int n;    int n;
   int m;    int m;
Line 1563  struct object KSdupErrors() {
Line 1630  struct object KSdupErrors() {
   
 void cancelAlarm() {  void cancelAlarm() {
   alarm((unsigned int) 0);    alarm((unsigned int) 0);
   signal(SIGALRM,SIG_DFL);    mysignal(SIGALRM,SIG_DFL);
 }  }
   
 /* back-trace */  /* back-trace */
Line 1592  void traceClearStack(void) {
Line 1659  void traceClearStack(void) {
 char *tracePopName(void) {  char *tracePopName(void) {
   if (TraceNameStackp <= 0) return (char *) NULL;    if (TraceNameStackp <= 0) return (char *) NULL;
   return TraceNameStack[--TraceNameStackp];    return TraceNameStack[--TraceNameStackp];
   }
   struct object *traceNameStackToArrayp(void) {
     int n,i;
     struct object *op;
     op = sGC_malloc(sizeof(struct object));
     n = TraceNameStackp; if (n < 0) n = 0;
     *op = newObjectArray(n);
     for (i=0; i<n; i++) {
           putoa((*op),i, KpoString(TraceNameStack[i]));
     }
     return op;
 }  }
 #define TRACE_MSG_SIZE 320  #define TRACE_MSG_SIZE 320
 char *traceShowStack(void) {  char *traceShowStack(void) {

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