#if !defined(lint) && defined(DOSCCS) static char sccsid[] = "@(#)y1.c 4.1.1 (2.11BSD) 1995/05/11"; #endif # include "dextern" /* variables used locally */ /* lookahead computations */ int tbitset; /* size of lookahead sets */ struct looksets lkst [ LSETSIZE ]; int nlset = 0; /* next lookahead set index */ int nolook = 0; /* flag to suppress lookahead computations */ struct looksets clset; /* temporary storage for lookahead computations */ /* working set computations */ struct wset wsets[ WSETSIZE ]; struct wset *cwp; /* state information */ int nstate = 0; /* number of states */ struct item *pstate[NSTATES+2]; /* pointers to the descriptions of the states */ int tystate[NSTATES]; /* contains type information about the states */ int indgo[NSTATES]; /* index to the stored goto table */ int tstates[ NTERMS ]; /* states generated by terminal gotos */ int ntstates[ NNONTERM ]; /* states generated by nonterminal gotos */ int mstates[ NSTATES ]; /* chain of overflows of term/nonterm generation lists */ /* storage for the actions in the parser */ int amem[ACTSIZE]; /* action table storage */ int *memp = amem; /* next free action table position */ /* other storage areas */ int temp1[TEMPSIZE]; /* temporary storage, indexed by terms + ntokens or states */ int lineno= 1; /* current input line number */ int fatfl = 1; /* if on, error is fatal */ int nerrors = 0; /* number of errors */ /* storage for information about the nonterminals */ int **pres[NNONTERM+2]; /* vector of pointers to productions yielding each nonterminal */ struct looksets *pfirst[NNONTERM+2]; /* vector of pointers to first sets for each nonterminal */ int pempty[NNONTERM+1]; /* vector of nonterminals nontrivially deriving e */ main(argc,argv) int argc; char *argv[]; { setup(argc,argv); /* initialize and read productions */ tbitset = NWORDS(ntokens); cpres(); /* make table of which productions yield a given nonterminal */ cempty(); /* make a table of which nonterminals can match the empty string */ cpfir(); /* make a table of firsts of nonterminals */ stagen(); /* generate the states */ output(); /* write the states and the tables */ go2out(); hideprod(); summary(); callopt(); others(); exit(0); } others(){ /* put out other arrays, copy the parsers */ register c, i, j; finput = fopen( PARSER, "r" ); if( finput == NULL ) error( "cannot find parser %s", PARSER ); warray( "yyr1", levprd, nprod ); aryfil( temp1, nprod, 0 ); PLOOP(1,i)temp1[i] = prdptr[i+1]-prdptr[i]-2; warray( "yyr2", temp1, nprod ); aryfil( temp1, nstate, -1000 ); TLOOP(i){ for( j=tstates[i]; j!=0; j=mstates[j] ){ temp1[j] = tokset[i].value; } } NTLOOP(i){ for( j=ntstates[i]; j!=0; j=mstates[j] ){ temp1[j] = -i; } } warray( "yychk", temp1, nstate ); warray( "yydef", defact, nstate ); /* copy parser text */ while( (c=getc(finput) ) != EOF ){ if( c == '$' ){ if( (c=getc(finput)) != 'A' ) putc( '$', ftable ); else { /* copy actions */ faction = fopen( ACTNAME, "r" ); if( faction == NULL ) error( "cannot reopen action tempfile" ); while( (c=getc(faction) ) != EOF ) putc( c, ftable ); fclose(faction); ZAPFILE(ACTNAME); c = getc(finput); } } putc( c, ftable ); } fclose( ftable ); } char *chcopy( p, q ) register char *p, *q; { /* copies string q into p, returning next free char ptr */ while( *p = *q++ ) ++p; return( p ); } # define ISIZE 400 char *writem(pp) int *pp; { /* creates output string for item pointed to by pp */ register int i,*p; static char sarr[ISIZE]; register char *q; for( p=pp; *p>0 ; ++p ) ; p = prdptr[-*p]; q = chcopy( sarr, nontrst[*p-NTBASE].name ); q = chcopy( q, " : " ); for(;;){ *q++ = ++p==pp ? '_' : ' '; *q = '\0'; if((i = *p) <= 0) break; q = chcopy( q, symnam(i) ); if( q> &sarr[ISIZE-30] ) error( "item too big" ); } if( (i = *pp) < 0 ){ /* an item calling for a reduction */ q = chcopy( q, " (" ); sprintf( q, "%d)", -i ); } return( sarr ); } char *symnam(i){ /* return a pointer to the name of symbol i */ register char *cp; cp = (i>=NTBASE) ? nontrst[i-NTBASE].name : tokset[i].name ; if( *cp == ' ' ) ++cp; return( cp ); } struct wset *zzcwp = wsets; int zzgoent = 0; int zzgobest = 0; int zzacent = 0; int zzexcp = 0; int zzclose = 0; int zzsrconf = 0; int * zzmemsz = mem0; int zzrrconf = 0; summary(){ /* output the summary on the tty */ if( foutput!=NULL ){ fprintf( foutput, "\n%d/%d terminals, %d/%d nonterminals\n", ntokens, NTERMS, nnonter, NNONTERM ); fprintf( foutput, "%d/%d grammar rules, %d/%d states\n", nprod, NPROD, nstate, NSTATES ); fprintf( foutput, "%d shift/reduce, %d reduce/reduce conflicts reported\n", zzsrconf, zzrrconf ); fprintf( foutput, "%d/%d working sets used\n", zzcwp-wsets, WSETSIZE ); fprintf( foutput, "memory: states,etc. %d/%d, parser %d/%d\n", zzmemsz-mem0, MEMSIZE, memp-amem, ACTSIZE ); fprintf( foutput, "%d/%d distinct lookahead sets\n", nlset, LSETSIZE ); fprintf( foutput, "%d extra closures\n", zzclose - 2*nstate ); fprintf( foutput, "%d shift entries, %d exceptions\n", zzacent, zzexcp ); fprintf( foutput, "%d goto entries\n", zzgoent ); fprintf( foutput, "%d entries saved by goto default\n", zzgobest ); } if( zzsrconf!=0 || zzrrconf!=0 ){ fprintf( stdout,"\nconflicts: "); if( zzsrconf )fprintf( stdout, "%d shift/reduce" , zzsrconf ); if( zzsrconf && zzrrconf )fprintf( stdout, ", " ); if( zzrrconf )fprintf( stdout, "%d reduce/reduce" , zzrrconf ); fprintf( stdout, "\n" ); } fclose( ftemp ); if( fdefine != NULL ) fclose( fdefine ); } /* VARARGS1 */ error(s,a1) char *s; { /* write out error comment */ ++nerrors; fprintf( stderr, "\n fatal error: "); fprintf( stderr, s,a1); fprintf( stderr, ", line %d\n", lineno ); if( !fatfl ) return; summary(); exit(1); } aryfil( v, n, c ) int *v,n,c; { /* set elements 0 through n-1 to c */ register int i; for( i=0; ilset; if( pp == 0 ) fprintf( foutput, "\tNULL"); else { fprintf( foutput, " { " ); TLOOP(j) { if( BIT(pp,j) ) fprintf( foutput, "%s ", symnam(j) ); } fprintf( foutput, "}" ); } } cpres(){ /* compute an array with the beginnings of productions yielding given nonterminals The array pres points to these lists */ /* the array pyield has the lists: the total size is only NPROD+1 */ int **pmem; register c, j, i; static int * pyield[NPROD]; pmem = pyield; NTLOOP(i){ c = i+NTBASE; pres[i] = pmem; fatfl = 0; /* make undefined symbols nonfatal */ PLOOP(0,j){ if (*prdptr[j] == c) *pmem++ = prdptr[j]+1; } if(pres[i] == pmem){ error("nonterminal %s not defined!", nontrst[i].name); } } pres[i] = pmem; fatfl = 1; if( nerrors ){ summary(); exit(1); } if( pmem != &pyield[nprod] ) error( "internal Yacc error: pyield %d", pmem-&pyield[nprod] ); } int indebug = 0; cpfir() { /* compute an array with the first of nonterminals */ register *p, **s, i, **t, ch, changes; zzcwp = &wsets[nnonter]; NTLOOP(i){ aryfil( wsets[i].ws.lset, tbitset, 0 ); t = pres[i+1]; for( s=pres[i]; s 0 ; ++p ) { if( ch < NTBASE ) { SETBIT( wsets[i].ws.lset, ch ); break; } else if( !pempty[ch-NTBASE] ) break; } } } /* now, reflect transitivity */ changes = 1; while( changes ){ changes = 0; NTLOOP(i){ t = pres[i+1]; for( s=pres[i]; s= 0; ++p ) { changes |= setunion( wsets[i].ws.lset, wsets[ch].ws.lset ); if( !pempty[ch] ) break; } } } } NTLOOP(i) pfirst[i] = flset( &wsets[i].ws ); if( !indebug ) return; if( (foutput!=NULL) ){ NTLOOP(i) { fprintf( foutput, "\n%s: ", nontrst[i].name ); prlook( pfirst[i] ); fprintf( foutput, " %d\n", pempty[i] ); } } } state(c){ /* sorts last state,and sees if it equals earlier ones. returns state number */ int size1,size2; register i; struct item *p1, *p2, *k, *l, *q1, *q2; p1 = pstate[nstate]; p2 = pstate[nstate+1]; if(p1==p2) return(0); /* null state */ /* sort the items */ for(k=p2-1;k>p1;k--) { /* make k the biggest */ for(l=k-1;l>=p1;--l)if( l->pitem > k->pitem ){ int *s; struct looksets *ss; s = k->pitem; k->pitem = l->pitem; l->pitem = s; ss = k->look; k->look = l->look; l->look = ss; } } size1 = p2 - p1; /* size of state */ for( i= (c>=NTBASE)?ntstates[c-NTBASE]:tstates[c]; i != 0; i = mstates[i] ) { /* get ith state */ q1 = pstate[i]; q2 = pstate[i+1]; size2 = q2 - q1; if (size1 != size2) continue; k=p1; for(l=q1;lpitem != k->pitem ) break; ++k; } if (l != q2) continue; /* found it */ pstate[nstate+1] = pstate[nstate]; /* delete last state */ /* fix up lookaheads */ if( nolook ) return(i); for( l=q1,k=p1; llook->lset[s]; if( setunion( clset.lset, k->look->lset ) ) { tystate[i] = MUSTDO; /* register the new set */ l->look = flset( &clset ); } } return (i); } /* state is new */ if( nolook ) error( "yacc state/nolook error" ); pstate[nstate+2] = p2; if(nstate+1 >= NSTATES) error("too many states" ); if( c >= NTBASE ){ mstates[ nstate ] = ntstates[ c-NTBASE ]; ntstates[ c-NTBASE ] = nstate; } else { mstates[ nstate ] = tstates[ c ]; tstates[ c ] = nstate; } tystate[nstate]=MUSTDO; return(nstate++); } int pidebug = 0; /* debugging flag for putitem */ putitem( ptr, lptr ) int *ptr; struct looksets *lptr; { register struct item *j; if( pidebug && (foutput!=NULL) ) { fprintf( foutput, "putitem(%s), state %d\n", writem(ptr), nstate ); } j = pstate[nstate+1]; j->pitem = ptr; if( !nolook ) j->look = flset( lptr ); pstate[nstate+1] = ++j; if( (int *)j > zzmemsz ){ zzmemsz = (int *)j; if( zzmemsz >= &mem0[MEMSIZE] ) error( "out of state space" ); } } cempty(){ /* mark nonterminals which derive the empty string */ /* also, look for nonterminals which don't derive any token strings */ # define EMPTY 1 # define WHOKNOWS 0 # define OK 1 register i, *p; /* first, use the array pempty to detect productions that can never be reduced */ /* set pempty to WHONOWS */ aryfil( pempty, nnonter+1, WHOKNOWS ); /* now, look at productions, marking nonterminals which derive something */ more: PLOOP(0,i){ if( pempty[ *prdptr[i] - NTBASE ] ) continue; for( p=prdptr[i]+1; *p>=0; ++p ){ if( *p>=NTBASE && pempty[ *p-NTBASE ] == WHOKNOWS ) break; } if( *p < 0 ){ /* production can be derived */ pempty[ *prdptr[i]-NTBASE ] = OK; goto more; } } /* now, look at the nonterminals, to see if they are all OK */ NTLOOP(i){ /* the added production rises or falls as the start symbol ... */ if( i == 0 ) continue; if( pempty[ i ] != OK ) { fatfl = 0; error( "nonterminal %s never derives any token string", nontrst[i].name ); } } if( nerrors ){ summary(); exit(1); } /* now, compute the pempty array, to see which nonterminals derive the empty string */ /* set pempty to WHOKNOWS */ aryfil( pempty, nnonter+1, WHOKNOWS ); /* loop as long as we keep finding empty nonterminals */ again: PLOOP(1,i){ if( pempty[ *prdptr[i]-NTBASE ]==WHOKNOWS ){ /* not known to be empty */ for( p=prdptr[i]+1; *p>=NTBASE && pempty[*p-NTBASE]==EMPTY ; ++p ) ; if( *p < 0 ){ /* we have a nontrivially empty nonterminal */ pempty[*prdptr[i]-NTBASE] = EMPTY; goto again; /* got one ... try for another */ } } } } int gsdebug = 0; stagen(){ /* generate the states */ int i, j; register c; register struct wset *p, *q; /* initialize */ nstate = 0; /* THIS IS FUNNY from the standpoint of portability */ /* it represents the magic moment when the mem0 array, which has /* been holding the productions, starts to hold item pointers, of a /* different type... */ /* someday, alloc should be used to allocate all this stuff... for now, we /* accept that if pointers don't fit in integers, there is a problem... */ pstate[0] = pstate[1] = (struct item *)mem; aryfil( clset.lset, tbitset, 0 ); putitem( prdptr[0]+1, &clset ); tystate[0] = MUSTDO; nstate = 1; pstate[2] = pstate[1]; aryfil( amem, ACTSIZE, 0 ); /* now, the main state generation loop */ more: SLOOP(i){ if( tystate[i] != MUSTDO ) continue; tystate[i] = DONE; aryfil( temp1, nnonter+1, 0 ); /* take state i, close it, and do gotos */ closure(i); WSLOOP(wsets,p){ /* generate goto's */ if( p->flag ) continue; p->flag = 1; c = *(p->pitem); if( c <= 1 ) { if( pstate[i+1]-pstate[i] <= p-wsets ) tystate[i] = MUSTLOOKAHEAD; continue; } /* do a goto on c */ WSLOOP(p,q){ if( c == *(q->pitem) ){ /* this item contributes to the goto */ putitem( q->pitem + 1, &q->ws ); q->flag = 1; } } if( c < NTBASE ) { state(c); /* register new state */ } else { temp1[c-NTBASE] = state(c); } } if( gsdebug && (foutput!=NULL) ){ fprintf( foutput, "%d: ", i ); NTLOOP(j) { if( temp1[j] ) fprintf( foutput, "%s %d, ", nontrst[j].name, temp1[j] ); } fprintf( foutput, "\n"); } indgo[i] = apack( &temp1[1], nnonter-1 ) - 1; goto more; /* we have done one goto; do some more */ } /* no more to do... stop */ } int cldebug = 0; /* debugging flag for closure */ closure(i){ /* generate the closure of state i */ int c, ch, work, k; register struct wset *u, *v; int *pi; int **s, **t; struct item *q; register struct item *p; ++zzclose; /* first, copy kernel of state i to wsets */ cwp = wsets; ITMLOOP(i,p,q){ cwp->pitem = p->pitem; cwp->flag = 1; /* this item must get closed */ SETLOOP(k) cwp->ws.lset[k] = p->look->lset[k]; WSBUMP(cwp); } /* now, go through the loop, closing each item */ work = 1; while( work ){ work = 0; WSLOOP(wsets,u){ if( u->flag == 0 ) continue; c = *(u->pitem); /* dot is before c */ if( c < NTBASE ){ u->flag = 0; continue; /* only interesting case is where . is before nonterminal */ } /* compute the lookahead */ aryfil( clset.lset, tbitset, 0 ); /* find items involving c */ WSLOOP(u,v){ if( v->flag == 1 && *(pi=v->pitem) == c ){ v->flag = 0; if( nolook ) continue; while( (ch= *++pi)>0 ){ if( ch < NTBASE ){ /* terminal symbol */ SETBIT( clset.lset, ch ); break; } /* nonterminal symbol */ setunion( clset.lset, pfirst[ch-NTBASE]->lset ); if( !pempty[ch-NTBASE] ) break; } if( ch<=0 ) setunion( clset.lset, v->ws.lset ); } } /* now loop over productions derived from c */ c -= NTBASE; /* c is now nonterminal number */ t = pres[c+1]; for( s=pres[c]; spitem == *s ){ /* yes, it is there */ if( nolook ) goto nexts; if( setunion( v->ws.lset, clset.lset ) ) v->flag = work = 1; goto nexts; } } /* not there; make a new entry */ if( cwp-wsets+1 >= WSETSIZE ) error( "working set overflow" ); cwp->pitem = *s; cwp->flag = 1; if( !nolook ){ work = 1; SETLOOP(k) cwp->ws.lset[k] = clset.lset[k]; } WSBUMP(cwp); nexts: ; } } } /* have computed closure; flags are reset; return */ if( cwp > zzcwp ) zzcwp = cwp; if( cldebug && (foutput!=NULL) ){ fprintf( foutput, "\nState %d, nolook = %d\n", i, nolook ); WSLOOP(wsets,u){ if( u->flag ) fprintf( foutput, "flag set!\n"); u->flag = 0; fprintf( foutput, "\t%s", writem(u->pitem)); prlook( &u->ws ); fprintf( foutput, "\n" ); } } } struct looksets *flset( p ) struct looksets *p; { /* decide if the lookahead set pointed to by p is known */ /* return pointer to a perminent location for the set */ register struct looksets *q; int j, *w; register *u, *v; for( q = &lkst[nlset]; q-- > lkst; ){ u = p->lset; v = q->lset; w = & v[tbitset]; while( v= LSETSIZE )error("too many lookahead sets" ); SETLOOP(j){ q->lset[j] = p->lset[j]; } return( q ); }