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295 lines
6.6 KiB
295 lines
6.6 KiB
/********************************************************************/
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/** Microsoft LAN Manager **/
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/** Copyright(c) Microsoft Corp., 1987-1990 **/
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/********************************************************************/
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#ifndef DEBUG
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#ifndef NDEBUG // for assert()
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#define NDEBUG // for assert()
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#endif
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#endif
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#define INCL_NOCOMMON
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#include <os2.h>
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#include <stdio.h>
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#include <assert.h>
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#include <process.h>
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#include "netcmds.h"
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#include "interpre.h"
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#include <msystem.h>
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#include "os2incl.h"
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#include "os2cmd.h"
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#define STACKSIZE 20
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#define RECURSE 10
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/*
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* XXSTKCHECK - checks the given expression. if true, then the stack
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* is ok, else stack overflow will occur.
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*/
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#define xxstkcheck(cond) if(!(cond))xxovfl()
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TOKSTACK *Tokptr, *Tokmax;
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TOKSTACK Tokstack[STACKSIZE];
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int Condition = FALSE;
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int S_orstack[INTER_OR * 3 * RECURSE];
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XX_USERTYPE S_frstack[INTER_FRAME * RECURSE];
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extern TCHAR *xxswitch[];
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/* Function Prototypes. */
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XX_USERTYPE xx_parser(int, int *, int);
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int XX_USERLEX(TOKSTACK *);
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void xxinit(void);
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void xxovfl(void);
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int xxnext(void);
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int (*XXulex)(TOKSTACK *) = XX_USERLEX;
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int XXtoken = 0;
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XX_USERTYPE XXnode = 0;
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extern TCHAR *Rule_strings[];
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extern SHORT Index_strings[];
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/*
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** XX_USERPARSE : this is what the user calls to parse a tree.
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*/
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XX_USERTYPE XX_USERPARSE(VOID)
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{
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xxinit();
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return(xx_parser(XX_START,S_orstack,0));
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}
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/*
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** xx_parser : this is what we call to actually parse the tree
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*/
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XX_USERTYPE xx_parser(pc,or_ptr,fp)
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register int pc;
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register int *or_ptr;
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register int fp;
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{
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register int type;
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register TOKSTACK *ptok;
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int *or_start = or_ptr;
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int fp_start = fp;
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S_frstack[fp] = (XX_USERTYPE) 1;
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while(1)
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{
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#ifdef DEBUG
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WriteToCon(TEXT("Current PC = %3d value = %4d type is "),pc,XXvalues[pc]);
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#endif
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switch(XXtype[pc])
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{
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case X_RULE :
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#ifdef DEBUG
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WriteToCon( TEXT("X_RULE\n"));
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#endif
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break;
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case X_OR :
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#ifdef DEBUG
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WriteToCon( TEXT("X_OR\n"));
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#endif
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type = XXtype[pc + 1];
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/*
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** before we go through the bother of pushing a backup place,
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** if the a token or a check and the current token
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** does not match the value, then immediately update the pc
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** to have the value of the X_OR.
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** otherwise, save all the current info.
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*/
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if( ((type == X_TOKEN) || (type == X_CHECK))
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&&
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(XXvalues[pc + 1] != (SHORT) XXtoken))
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{
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pc = XXvalues[pc];
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continue;
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}
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xxstkcheck(or_ptr < &S_orstack[DIMENSION(S_orstack) - 3]);
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*(or_ptr++) = XXvalues[pc]; /* link to next subsection */
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*(or_ptr++) = fp; /* the current frame ptr */
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*(or_ptr++) = (int)(Tokptr - Tokstack); /* the Tokstack index */
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break;
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case X_PROC :
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#ifdef DEBUG
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WriteToCon( TEXT("X_PROC\n"));
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#endif
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xxstkcheck(fp < (DIMENSION(S_frstack) - 1));
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if( ! (S_frstack[fp] = xx_parser(XXvalues[pc],or_ptr,fp)))
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{
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goto backout;
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}
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fp++;
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break;
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case X_CHECK :
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#ifdef DEBUG
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WriteToCon( TEXT("X_CHECK\n"));
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#endif
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if(XXtoken != XXvalues[pc])
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{
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goto backout;
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}
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break;
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case X_SWITCH :
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#ifdef DEBUG
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WriteToCon( TEXT("X_SWITCH\n"));
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#endif
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/* if "/anything" was in the grammar, we call this
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* routine for an implementation defined switch
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* check, passing the text of the string as an argument.
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*/
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if(!CheckSwitch(xxswitch[XXvalues[pc]]))
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{
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goto backout;
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}
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break;
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case X_ANY :
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#ifdef DEBUG
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WriteToCon( TEXT("X_ANY\n"));
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#endif
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/* match anything */
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xxstkcheck(fp < DIMENSION(S_frstack));
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S_frstack[fp++] = XXnode; /* must be here, read comment */
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if (XXtoken == EOS)
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goto backout;
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else
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xxnext();
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break;
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case X_TOKEN :
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#ifdef DEBUG
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WriteToCon( TEXT("X_TOKEN\n"));
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#endif
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xxstkcheck(fp < DIMENSION(S_frstack));
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/*
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** we first save the node, then check the token, since
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** if the tokens match, xxlex will get the next one and we'll
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** lose the current one of interest.
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*/
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S_frstack[fp++] = XXnode; /* must be here, read comment */
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if(XXvalues[pc] != (SHORT) XXtoken)
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{
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goto backout;
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}
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else
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xxnext();
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break;
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case X_CONDIT :
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#ifdef DEBUG
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WriteToCon( TEXT("X_CONDIT\n"));
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#endif
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if( ! xxcondition(XXvalues[pc], &S_frstack[fp_start]))
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{
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goto backout;
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}
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break;
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case X_ACTION :
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#ifdef DEBUG
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WriteToCon( TEXT("X_ACTION\n"));
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#endif
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xxaction(XXvalues[pc],&S_frstack[fp_start]);
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break;
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case X_ACCEPT :
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#ifdef DEBUG
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WriteToCon( TEXT("X_ACCEPT\n"));
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#endif
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return(S_frstack[fp_start]);
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case X_DEFINE :
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#ifdef DEBUG
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WriteToCon( TEXT("X_DEFINE\n"));
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#endif
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break;
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/*
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**case X_PUSH :
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#ifdef DEBUG
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WriteToCon( TEXT("X_PUSH\n"));
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#endif
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** ppush(XXvalues[pc],S_frstack[fp_start]);
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** break;
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*/
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default :
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#ifdef DEBUG
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WriteToCon( TEXT("UNKNOWN\n"));
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#endif
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assert(FALSE);
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break;
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}
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pc++;
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continue;
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backout: /* BACK OUT !!! recover an earlier state */
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if(or_ptr != or_start)
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{
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/*
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** reset the 'or' stack
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*/
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Tokptr = ptok = Tokstack + *(--or_ptr);
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XXtoken = ptok->token;
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XXnode = ptok->node;
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fp = *(--or_ptr);
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pc = *(--or_ptr);
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}
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else
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{
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return((XX_USERTYPE) 0);
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}
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}
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}
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/*
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** xxinit - Clear the input stack and get the first token.
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**/
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VOID
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xxinit(VOID)
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{
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register TOKSTACK *ptok;
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/* fill the first one with a token */
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Tokmax = Tokptr = ptok = &Tokstack[0];
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(*XXulex)(ptok);
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XXtoken = ptok->token;
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XXnode = ptok->node;
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#ifdef DEBUG
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WriteToCon( TEXT("xxinit, new token value is %d\n"),XXtoken);
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#endif
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}
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/*
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** XXOVFL - a common subexpression, used in xxstkcheck macro above
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**/
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VOID
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xxovfl(VOID)
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{
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WriteToCon(TEXT("PANIC: expression too complex, please simplify;"));
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}
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/*
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* XXLEX - If a match occurs, get the next input token and return TRUE.
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* Otherwise return FALSE. If backup has occured, the token will be
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* fetched from the token stack. Otherwise the user routine will be called.
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*/
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int
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xxnext(VOID)
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{
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register TOKSTACK *ptok;
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ptok = ++Tokptr;
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xxstkcheck(ptok < &Tokstack[DIMENSION(Tokstack)]);
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if (ptok > Tokmax)
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{
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(*XXulex)(ptok);
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Tokmax++;
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}
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XXtoken = ptok->token;
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XXnode = ptok->node;
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#ifdef DEBUG
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WriteToCon( TEXT("xxnext, new token value is %d\n"),XXtoken);
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#endif
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return(1);
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}
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#if XX_XACCLEX
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XXlex(VOID)
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{
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}
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#endif
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