# include "mfile1" struct instk { int in_sz; /* size of array element */ int in_x; /* current index for structure member in structure initializations */ int in_n; /* number of initializations seen */ int in_s; /* sizoff */ int in_d; /* dimoff */ TWORD in_t; /* type */ int in_id; /* stab index */ int in_fl; /* flag which says if this level is controlled by {} */ OFFSZ in_off; /* offset of the beginning of this level */ } instack[10], *pstk; /* defines used for getting things off of the initialization stack */ struct symtab *relook(); int ddebug = 0; defid( q, class ) NODE *q; { register struct symtab *p; int idp; TWORD type; TWORD stp; int scl; int dsym, ddef; int slev, temp; if( q == NIL ) return; /* an error was detected */ if( q < node || q >= &node[TREESZ] ) cerror( "defid call" ); idp = q->rval; if( idp < 0 ) cerror( "tyreduce" ); p = &stab[idp]; if( ddebug ){ printf( "defid( %.8s (%d), ", p->sname, idp ); tprint( q->type ); printf( ", %s, (%d,%d) ), level %d\n", scnames(class), q->cdim, q->csiz, blevel ); } fixtype( q, class ); type = q->type; class = fixclass( class, type ); stp = p->stype; slev = p->slevel; if( ddebug ){ printf( " modified to " ); tprint( type ); printf( ", %s\n", scnames(class) ); printf( " previous def'n: " ); tprint( stp ); printf( ", %s, (%d,%d) ), level %d\n", scnames(p->sclass), p->dimoff, p->sizoff, slev ); } if( stp == UNDEF|| stp == FARG ){ if( blevel==1 && stp!=FARG ) switch( class ){ default: if(!(class&FIELD)) uerror( "declared argument %.8s is missing", p->sname ); case MOS: case STNAME: case MOU: case UNAME: case MOE: case ENAME: case TYPEDEF: ; } goto enter; } if( type != stp ) goto mismatch; /* test (and possibly adjust) dimensions */ dsym = p->dimoff; ddef = q->cdim; for( temp=type; temp&TMASK; temp = DECREF(temp) ){ if( ISARY(temp) ){ if( dimtab[dsym] == 0 ) dimtab[dsym] = dimtab[ddef]; else if( dimtab[ddef]!=0 && dimtab[dsym] != dimtab[ddef] ){ goto mismatch; } ++dsym; ++ddef; } } /* check that redeclarations are to the same structure */ if( (temp==STRTY||temp==UNIONTY||temp==ENUMTY) && p->sizoff != q->csiz && (type&TMASK) ) { goto mismatch; } scl = ( p->sclass ); if( ddebug ){ printf( " previous class: %s\n", scnames(scl) ); } if( class&FIELD ){ /* redefinition */ if( !falloc( p, class&FLDSIZ, 1, NIL ) ) { /* successful allocation */ psave( idp ); return; } /* blew it: resume at end of switch... */ } else switch( class ){ case EXTERN: switch( scl ){ case STATIC: case USTATIC: if( slev==0 ) return; break; case EXTDEF: case EXTERN: case FORTRAN: case UFORTRAN: return; } break; case STATIC: if( scl==USTATIC || (scl==EXTERN && blevel==0) ){ p->sclass = STATIC; if( ISFTN(type) ) curftn = idp; return; } break; case USTATIC: if( scl==STATIC || scl==USTATIC ) return; break; case LABEL: if( scl == ULABEL ){ p->sclass = LABEL; deflab( p->offset ); return; } break; case TYPEDEF: if( scl == class ) return; break; case UFORTRAN: if( scl == UFORTRAN || scl == FORTRAN ) return; break; case FORTRAN: if( scl == UFORTRAN ){ p->sclass = FORTRAN; if( ISFTN(type) ) curftn = idp; return; } break; case MOU: case MOS: if( scl == class ) { if( oalloc( p, &strucoff ) ) break; if( class == MOU ) strucoff = 0; psave( idp ); return; } break; case MOE: if( scl == class ){ if( p->offset!= strucoff++ ) break; psave( idp ); } break; case EXTDEF: if( scl == EXTERN ) { p->sclass = EXTDEF; if( ISFTN(type) ) curftn = idp; return; } break; case STNAME: case UNAME: case ENAME: if( scl != class ) break; if( dimtab[p->sizoff] == 0 ) return; /* previous entry just a mention */ break; case ULABEL: if( scl == LABEL || scl == ULABEL ) return; case PARAM: case AUTO: case REGISTER: ; /* mismatch.. */ } mismatch: if( blevel > slev && class != EXTERN && class != FORTRAN && class != UFORTRAN && !( class == LABEL && slev >= 2 ) ){ q->rval = idp = hide( p ); p = &stab[idp]; goto enter; } uerror( "redeclaration of %.8s", p->sname ); if( class==EXTDEF && ISFTN(type) ) curftn = idp; return; enter: /* make a new entry */ if( ddebug ) printf( " new entry made\n" ); p->stype = type; p->sclass = class; p->slevel = blevel; p->offset = NOOFFSET; p->suse = lineno; if( class == STNAME || class == UNAME || class == ENAME ) { p->sizoff = curdim; dstash( 0 ); /* size */ dstash( -1 ); /* index to members of str or union */ dstash( ALSTRUCT ); /* alignment */ } else { switch( BTYPE(type) ){ case STRTY: case UNIONTY: case ENUMTY: p->sizoff = q->csiz; break; default: p->sizoff = BTYPE(type); } } /* copy dimensions */ p->dimoff = q->cdim; /* allocate offsets */ if( class&FIELD ){ falloc( p, class&FLDSIZ, 0, NIL ); /* new entry */ psave( idp ); } else switch( class ){ case AUTO: oalloc( p, &autooff ); break; case STATIC: case EXTDEF: p->offset = getlab(); if( ISFTN(type) ) curftn = idp; break; case ULABEL: case LABEL: p->offset = getlab(); p->slevel = 2; if( class == LABEL ){ locctr( PROG ); deflab( p->offset ); } break; case EXTERN: case UFORTRAN: case FORTRAN: p->offset = getlab(); p->slevel = 0; break; case MOU: case MOS: oalloc( p, &strucoff ); if( class == MOU ) strucoff = 0; psave( idp ); break; case MOE: p->offset = strucoff++; psave( idp ); break; case REGISTER: p->offset = regvar--; if( blevel == 1 ) p->sflags |= SSET; if( regvar < minrvar ) minrvar = regvar; break; } /* user-supplied routine to fix up new definitions */ FIXDEF(p); if( ddebug ) printf( " dimoff, sizoff, offset: %d, %d, %d\n", p->dimoff, p->sizoff, p->offset ); } psave( i ){ if( paramno >= PARAMSZ ){ cerror( "parameter stack overflow"); } paramstk[ paramno++ ] = i; } ftnend(){ /* end of function */ if( retlab != NOLAB ){ /* inside a real function */ efcode(); } checkst(0); retstat = 0; tcheck(); curclass = SNULL; brklab = contlab = retlab = NOLAB; flostat = 0; if( nerrors == 0 ){ if( psavbc != & asavbc[0] ) cerror("bcsave error"); if( paramno != 0 ) cerror("parameter reset error"); if( swx != 0 ) cerror( "switch error"); } psavbc = &asavbc[0]; paramno = 0; autooff = AUTOINIT; minrvar = regvar = MAXRVAR; reached = 1; swx = 0; swp = swtab; locctr(DATA); } dclargs(){ register i, j; register struct symtab *p; register NODE *q; argoff = ARGINIT; for( i=0; istype == FARG ) { q = block(FREE,NIL,NIL,INT,0,INT); q->rval = j; defid( q, PARAM ); } oalloc( p, &argoff ); /* always set aside space, even for register arguments */ } cendarg(); locctr(PROG); defalign(ALINT); ++ftnno; bfcode( paramstk, paramno ); paramno = 0; } NODE * rstruct( idn, soru ){ /* reference to a structure or union, with no definition */ register struct symtab *p; register NODE *q; p = &stab[idn]; switch( p->stype ){ case UNDEF: def: q = block( FREE, NIL, NIL, 0, 0, 0 ); q->rval = idn; q->type = (soru&INSTRUCT) ? STRTY : ( (soru&INUNION) ? UNIONTY : ENUMTY ); defid( q, (soru&INSTRUCT) ? STNAME : ( (soru&INUNION) ? UNAME : ENAME ) ); break; case STRTY: if( soru & INSTRUCT ) break; goto def; case UNIONTY: if( soru & INUNION ) break; goto def; case ENUMTY: if( !(soru&(INUNION|INSTRUCT)) ) break; goto def; } stwart = instruct; return( mkty( p->stype, 0, p->sizoff ) ); } moedef( idn ){ register NODE *q; q = block( FREE, NIL, NIL, MOETY, 0, 0 ); q -> rval = idn; if( idn>=0 ) defid( q, MOE ); } bstruct( idn, soru ){ /* begining of structure or union declaration */ register NODE *q; psave( instruct ); psave( curclass ); psave( strucoff ); strucoff = 0; instruct = soru; q = block( FREE, NIL, NIL, 0, 0, 0 ); q->rval = idn; if( instruct==INSTRUCT ){ curclass = MOS; q->type = STRTY; if( idn >= 0 ) defid( q, STNAME ); } else if( instruct == INUNION ) { curclass = MOU; q->type = UNIONTY; if( idn >= 0 ) defid( q, UNAME ); } else { /* enum */ curclass = MOE; q->type = ENUMTY; if( idn >= 0 ) defid( q, ENAME ); } psave( q->rval ); return( paramno-4 ); } NODE * dclstruct( oparam ){ register struct symtab *p; register i, al, sa, j, sz, szindex; register TWORD temp; register high, low; /* paramstack contains: paramstack[ oparam ] = previous instruct paramstack[ oparam+1 ] = previous class paramstk[ oparam+2 ] = previous strucoff paramstk[ oparam+3 ] = structure name paramstk[ oparam+4, ... ] = member stab indices */ if( (i=paramstk[oparam+3]) < 0 ){ szindex = curdim; dstash( 0 ); /* size */ dstash( -1 ); /* index to member names */ dstash( ALSTRUCT ); /* alignment */ } else { szindex = stab[i].sizoff; } if( ddebug ){ printf( "dclstruct( %.8s ), szindex = %d\n", (i>=0)? stab[i].sname : "??", szindex ); } temp = (instruct&INSTRUCT)?STRTY:((instruct&INUNION)?UNIONTY:ENUMTY); stwart = instruct = paramstk[ oparam ]; curclass = paramstk[ oparam+1 ]; dimtab[ szindex+1 ] = curdim; al = ALSTRUCT; high = low = 0; for( i = oparam+4; i< paramno; ++i ){ dstash( j=paramstk[i] ); if( j<0 || j>= SYMTSZ ) cerror( "gummy structure member" ); p = &stab[j]; if( temp == ENUMTY ){ if( p->offset < low ) low = p->offset; if( p->offset > high ) high = p->offset; p->sizoff = szindex; continue; } sa = talign( p->stype, p->sizoff ); if( p->sclass & FIELD ){ sz = p->sclass&FLDSIZ; } else { sz = tsize( p->stype, p->dimoff, p->sizoff ); } if( sz == 0 ){ uerror( "illegal zero sized structure member: %.8s", p->sname ); } if( sz > strucoff ) strucoff = sz; /* for use with unions */ SETOFF( al, sa ); /* set al, the alignment, to the lcm of the alignments of the members */ } dstash( -1 ); /* endmarker */ SETOFF( strucoff, al ); if( temp == ENUMTY ){ register TWORD ty; # ifdef ENUMSIZE ty = ENUMSIZE(high,low); # else if( (char)high == high && (char)low == low ) ty = ctype( CHAR ); else if( (short)high == high && (short)low == low ) ty = ctype( SHORT ); else ty = ctype(INT); #endif strucoff = tsize( ty, 0, (int)ty ); dimtab[ szindex+2 ] = al = talign( ty, (int)ty ); } if( strucoff == 0 ) uerror( "zero sized structure" ); dimtab[ szindex ] = strucoff; dimtab[ szindex+2 ] = al; if( ddebug>1 ){ printf( "\tdimtab[%d,%d,%d] = %d,%d,%d\n", szindex,szindex+1,szindex+2, dimtab[szindex],dimtab[szindex+1],dimtab[szindex+2] ); for( i = dimtab[szindex+1]; dimtab[i] >= 0; ++i ){ printf( "\tmember %.8s(%d)\n", stab[dimtab[i]].sname, dimtab[i] ); } } strucoff = paramstk[ oparam+2 ]; paramno = oparam; return( mkty( temp, 0, szindex ) ); } /* VARARGS */ yyerror( s ) char *s; { /* error printing routine in parser */ uerror( s ); } yyaccpt(){ ftnend(); } ftnarg( idn ) { if( stab[idn].stype != UNDEF ){ idn = hide( &stab[idn]); } stab[idn].stype = FARG; stab[idn].sclass = PARAM; psave( idn ); } talign( ty, s) register unsigned ty; register s; { /* compute the alignment of an object with type ty, sizeoff index s */ register i; if( s<0 && ty!=INT && ty!=CHAR && ty!=SHORT && ty!=UNSIGNED && ty!=UCHAR && ty!=USHORT #ifdef LONGFIELDS && ty!=LONG && ty!=ULONG #endif ){ return( fldal( ty ) ); } for( i=0; i<=(SZINT-BTSHIFT-1); i+=TSHIFT ){ switch( (ty>>i)&TMASK ){ case FTN: cerror( "compiler takes alignment of function"); case PTR: return( ALPOINT ); case ARY: continue; case 0: break; } } switch( BTYPE(ty) ){ case UNIONTY: case ENUMTY: case STRTY: return( dimtab[ s+2 ] ); case CHAR: case UCHAR: return( ALCHAR ); case FLOAT: return( ALFLOAT ); case DOUBLE: return( ALDOUBLE ); case LONG: case ULONG: return( ALLONG ); case SHORT: case USHORT: return( ALSHORT ); default: return( ALINT ); } } OFFSZ tsize( ty, d, s ) TWORD ty; { /* compute the size associated with type ty, dimoff d, and sizoff s */ /* BETTER NOT BE CALLED WHEN t, d, and s REFER TO A BIT FIELD... */ int i; OFFSZ mult; mult = 1; for( i=0; i<=(SZINT-BTSHIFT-1); i+=TSHIFT ){ switch( (ty>>i)&TMASK ){ case FTN: cerror( "compiler takes size of function"); case PTR: return( SZPOINT * mult ); case ARY: mult *= dimtab[ d++ ]; continue; case 0: break; } } if( dimtab[s]==0 ) { uerror( "unknown size"); return( SZINT ); } return( dimtab[ s ] * mult ); } inforce( n ) OFFSZ n; { /* force inoff to have the value n */ /* inoff is updated to have the value n */ OFFSZ wb; register rest; /* rest is used to do a lot of conversion to ints... */ if( inoff == n ) return; if( inoff > n ) { cerror( "initialization alignment error"); } wb = inoff; SETOFF( wb, SZINT ); /* wb now has the next higher word boundary */ if( wb >= n ){ /* in the same word */ rest = n - inoff; vfdzero( rest ); return; } /* otherwise, extend inoff to be word aligned */ rest = wb - inoff; vfdzero( rest ); /* now, skip full words until near to n */ rest = (n-inoff)/SZINT; zecode( rest ); /* now, the remainder of the last word */ rest = n-inoff; vfdzero( rest ); if( inoff != n ) cerror( "inoff error"); } vfdalign( n ){ /* make inoff have the offset the next alignment of n */ OFFSZ m; m = inoff; SETOFF( m, n ); inforce( m ); } int idebug = 0; int ibseen = 0; /* the number of } constructions which have been filled */ int iclass; /* storage class of thing being initialized */ int ilocctr = 0; /* location counter for current initialization */ beginit(curid){ /* beginning of initilization; set location ctr and set type */ register struct symtab *p; if( idebug >= 3 ) printf( "beginit(), curid = %d\n", curid ); p = &stab[curid]; iclass = p->sclass; if( curclass == EXTERN || curclass == FORTRAN ) iclass = EXTERN; switch( iclass ){ case UNAME: case EXTERN: return; case AUTO: case REGISTER: break; case EXTDEF: case STATIC: ilocctr = ISARY(p->stype)?ADATA:DATA; locctr( ilocctr ); defalign( talign( p->stype, p->sizoff ) ); defnam( p ); } inoff = 0; ibseen = 0; pstk = 0; instk( curid, p->stype, p->dimoff, p->sizoff, inoff ); } instk( id, t, d, s, off ) OFFSZ off; TWORD t; { /* make a new entry on the parameter stack to initialize id */ register struct symtab *p; for(;;){ if( idebug ) printf( "instk((%d, %o,%d,%d, %d)\n", id, t, d, s, off ); /* save information on the stack */ if( !pstk ) pstk = instack; else ++pstk; pstk->in_fl = 0; /* { flag */ pstk->in_id = id ; pstk->in_t = t ; pstk->in_d = d ; pstk->in_s = s ; pstk->in_n = 0; /* number seen */ pstk->in_x = t==STRTY ?dimtab[s+1] : 0 ; pstk->in_off = off; /* offset at the beginning of this element */ /* if t is an array, DECREF(t) can't be a field */ /* INS_sz has size of array elements, and -size for fields */ if( ISARY(t) ){ pstk->in_sz = tsize( DECREF(t), d+1, s ); } else if( stab[id].sclass & FIELD ){ pstk->in_sz = - ( stab[id].sclass & FLDSIZ ); } else { pstk->in_sz = 0; } if( (iclass==AUTO || iclass == REGISTER ) && (ISARY(t) || t==STRTY) ) uerror( "no automatic aggregate initialization" ); /* now, if this is not a scalar, put on another element */ if( ISARY(t) ){ t = DECREF(t); ++d; continue; } else if( t == STRTY ){ id = dimtab[pstk->in_x]; p = &stab[id]; if( p->sclass != MOS && !(p->sclass&FIELD) ) cerror( "insane structure member list" ); t = p->stype; d = p->dimoff; s = p->sizoff; off += p->offset; continue; } else return; } } NODE * getstr(){ /* decide if the string is external or an initializer, and get the contents accordingly */ register l, temp; register NODE *p; if( (iclass==EXTDEF||iclass==STATIC) && (pstk->in_t == CHAR || pstk->in_t == UCHAR) && pstk!=instack && ISARY( pstk[-1].in_t ) ){ /* treat "abc" as { 'a', 'b', 'c', 0 } */ strflg = 1; ilbrace(); /* simulate { */ inforce( pstk->in_off ); /* if the array is inflexible (not top level), pass in the size and be prepared to throw away unwanted initializers */ lxstr((pstk-1)!=instack?dimtab[(pstk-1)->in_d]:0); /* get the contents */ irbrace(); /* simulate } */ return( NIL ); } else { /* make a label, and get the contents and stash them away */ if( iclass != SNULL ){ /* initializing */ /* fill out previous word, to permit pointer */ vfdalign( ALPOINT ); } temp = locctr( blevel==0?ISTRNG:STRNG ); /* set up location counter */ deflab( l = getlab() ); strflg = 0; lxstr(0); /* get the contents */ locctr( blevel==0?ilocctr:temp ); p = buildtree( STRING, NIL, NIL ); p->rval = -l; return(p); } } putbyte( v ){ /* simulate byte v appearing in a list of integer values */ register NODE *p; p = bcon(v); incode( p, SZCHAR ); tfree( p ); gotscal(); } endinit(){ register TWORD t; register d, s, n, d1; if( idebug ) printf( "endinit(), inoff = %d\n", inoff ); switch( iclass ){ case EXTERN: case AUTO: case REGISTER: return; } pstk = instack; t = pstk->in_t; d = pstk->in_d; s = pstk->in_s; n = pstk->in_n; if( ISARY(t) ){ d1 = dimtab[d]; vfdalign( pstk->in_sz ); /* fill out part of the last element, if needed */ n = inoff/pstk->in_sz; /* real number of initializers */ if( d1 >= n ){ /* once again, t is an array, so no fields */ inforce( tsize( t, d, s ) ); n = d1; } if( d1!=0 && d1!=n ) uerror( "too many initializers"); if( n==0 ) werror( "empty array declaration"); dimtab[d] = n; } else if( t == STRTY || t == UNIONTY ){ /* clearly not fields either */ inforce( tsize( t, d, s ) ); } else if( n > 1 ) uerror( "bad scalar initialization"); /* this will never be called with a field element... */ else inforce( tsize(t,d,s) ); paramno = 0; vfdalign( AL_INIT ); inoff = 0; iclass = SNULL; } doinit( p ) register NODE *p; { /* take care of generating a value for the initializer p */ /* inoff has the current offset (last bit written) in the current word being generated */ register sz, d, s; register TWORD t; /* note: size of an individual initializer is assumed to fit into an int */ if( iclass < 0 ) goto leave; if( iclass == EXTERN || iclass == UNAME ){ uerror( "cannot initialize extern or union" ); iclass = -1; goto leave; } if( iclass == AUTO || iclass == REGISTER ){ /* do the initialization and get out, without regard for filing out the variable with zeros, etc. */ bccode(); idname = pstk->in_id; p = buildtree( ASSIGN, buildtree( NAME, NIL, NIL ), p ); ecomp(p); return; } if( p == NIL ) return; /* for throwing away strings that have been turned into lists */ if( ibseen ){ uerror( "} expected"); goto leave; } if( idebug > 1 ) printf( "doinit(%o)\n", p ); t = pstk->in_t; /* type required */ d = pstk->in_d; s = pstk->in_s; if( pstk->in_sz < 0 ){ /* bit field */ sz = -pstk->in_sz; } else { sz = tsize( t, d, s ); } inforce( pstk->in_off ); p = buildtree( ASSIGN, block( NAME, NIL,NIL, t, d, s ), p ); p->left->op = FREE; p->left = p->right; p->right = NIL; p->left = optim( p->left ); if( p->left->op == UNARY AND ){ p->left->op = FREE; p->left = p->left->left; } p->op = INIT; if( sz < SZINT ){ /* special case: bit fields, etc. */ if( p->left->op != ICON ) uerror( "illegal initialization" ); else incode( p->left, sz ); } else if( p->left->op == FCON ){ fincode( p->left->dval, sz ); } else { cinit( optim(p), sz ); } gotscal(); leave: tfree(p); } gotscal(){ register t, ix; register n, id; struct symtab *p; OFFSZ temp; for( ; pstk > instack; ) { if( pstk->in_fl ) ++ibseen; --pstk; t = pstk->in_t; if( t == STRTY ){ ix = ++pstk->in_x; if( (id=dimtab[ix]) < 0 ) continue; /* otherwise, put next element on the stack */ p = &stab[id]; instk( id, p->stype, p->dimoff, p->sizoff, p->offset+pstk->in_off ); return; } else if( ISARY(t) ){ n = ++pstk->in_n; if( n >= dimtab[pstk->in_d] && pstk > instack ) continue; /* put the new element onto the stack */ temp = pstk->in_sz; instk( pstk->in_id, (TWORD)DECREF(pstk->in_t), pstk->in_d+1, pstk->in_s, pstk->in_off+n*temp ); return; } } } ilbrace(){ /* process an initializer's left brace */ register t; struct instk *temp; temp = pstk; for( ; pstk > instack; --pstk ){ t = pstk->in_t; if( t != STRTY && !ISARY(t) ) continue; /* not an aggregate */ if( pstk->in_fl ){ /* already associated with a { */ if( pstk->in_n ) uerror( "illegal {"); continue; } /* we have one ... */ pstk->in_fl = 1; break; } /* cannot find one */ /* ignore such right braces */ pstk = temp; } irbrace(){ /* called when a '}' is seen */ if( idebug ) printf( "irbrace(): paramno = %d on entry\n", paramno ); if( ibseen ) { --ibseen; return; } for( ; pstk > instack; --pstk ){ if( !pstk->in_fl ) continue; /* we have one now */ pstk->in_fl = 0; /* cancel { */ gotscal(); /* take it away... */ return; } /* these right braces match ignored left braces: throw out */ } upoff( size, alignment, poff ) register alignment, *poff; { /* update the offset pointed to by poff; return the /* offset of a value of size `size', alignment `alignment', /* given that off is increasing */ register off; off = *poff; SETOFF( off, alignment ); *poff = off+size; return( off ); } oalloc( p, poff ) register struct symtab *p; register *poff; { /* allocate p with offset *poff, and update *poff */ register al, off, tsz; int noff; al = talign( p->stype, p->sizoff ); noff = off = *poff; tsz = tsize( p->stype, p->dimoff, p->sizoff ); #ifdef BACKAUTO if( p->sclass == AUTO ){ noff = off + tsz; SETOFF( noff, al ); off = -noff; } else #endif if( p->sclass == PARAM && (p->stype==CHAR||p->stype==UCHAR||p->stype==SHORT|| p->stype==USHORT) ){ off = upoff( SZINT, ALINT, &noff ); # ifndef RTOLBYTES off = noff - tsz; #endif } else { off = upoff( tsz, al, &noff ); } if( p->sclass != REGISTER ){ /* in case we are allocating stack space for register arguments */ if( p->offset == NOOFFSET ) p->offset = off; else if( off != p->offset ) return(1); } *poff = noff; return(0); } falloc( p, w, new, pty ) register struct symtab *p; NODE *pty; { /* allocate a field of width w */ /* new is 0 if new entry, 1 if redefinition, -1 if alignment */ register al,sz,type; type = (new<0)? pty->type : p->stype; /* this must be fixed to use the current type in alignments */ switch( new<0?pty->type:p->stype ){ case ENUMTY: { int s; s = new<0 ? pty->csiz : p->sizoff; al = dimtab[s+2]; sz = dimtab[s]; break; } case CHAR: case UCHAR: al = ALCHAR; sz = SZCHAR; break; case SHORT: case USHORT: al = ALSHORT; sz = SZSHORT; break; case INT: case UNSIGNED: al = ALINT; sz = SZINT; break; #ifdef LONGFIELDS case LONG: case ULONG: al = ALLONG; sz = SZLONG; break; #endif default: if( new < 0 ) { uerror( "illegal field type" ); al = ALINT; } else { al = fldal( p->stype ); sz =SZINT; } } if( w > sz ) { uerror( "field too big"); w = sz; } if( w == 0 ){ /* align only */ SETOFF( strucoff, al ); if( new >= 0 ) uerror( "zero size field"); return(0); } if( strucoff%al + w > sz ) SETOFF( strucoff, al ); if( new < 0 ) { strucoff += w; /* we know it will fit */ return(0); } /* establish the field */ if( new == 1 ) { /* previous definition */ if( p->offset != strucoff || p->sclass != (FIELD|w) ) return(1); } p->offset = strucoff; strucoff += w; p->stype = type; fldty( p ); return(0); } nidcl( p ) NODE *p; { /* handle unitialized declarations */ /* assumed to be not functions */ register class; register commflag; /* flag for labelled common declarations */ commflag = 0; /* compute class */ if( (class=curclass) == SNULL ){ if( blevel > 1 ) class = AUTO; else if( blevel != 0 || instruct ) cerror( "nidcl error" ); else { /* blevel = 0 */ class = noinit(); if( class == EXTERN ) commflag = 1; } } defid( p, class ); if( class==EXTDEF || class==STATIC ){ /* simulate initialization by 0 */ beginit(p->rval); endinit(); } if( commflag ) commdec( p->rval ); } TWORD types( t1, t2, t3 ) TWORD t1, t2, t3; { /* return a basic type from basic types t1, t2, and t3 */ TWORD t[3], noun, adj, unsg; register i; t[0] = t1; t[1] = t2; t[2] = t3; unsg = INT; /* INT or UNSIGNED */ noun = UNDEF; /* INT, CHAR, or FLOAT */ adj = INT; /* INT, LONG, or SHORT */ for( i=0; i<3; ++i ){ switch( t[i] ){ default: bad: uerror( "illegal type combination" ); return( INT ); case UNDEF: continue; case UNSIGNED: if( unsg != INT ) goto bad; unsg = UNSIGNED; continue; case LONG: case SHORT: if( adj != INT ) goto bad; adj = t[i]; continue; case INT: case CHAR: case FLOAT: if( noun != UNDEF ) goto bad; noun = t[i]; continue; } } /* now, construct final type */ if( noun == UNDEF ) noun = INT; else if( noun == FLOAT ){ if( unsg != INT || adj == SHORT ) goto bad; return( adj==LONG ? DOUBLE : FLOAT ); } else if( noun == CHAR && adj != INT ) goto bad; /* now, noun is INT or CHAR */ if( adj != INT ) noun = adj; if( unsg == UNSIGNED ) return( noun + (UNSIGNED-INT) ); else return( noun ); } NODE * tymerge( typ, idp ) NODE *typ, *idp; { /* merge type typ with identifier idp */ register unsigned t; register i; extern int eprint(); if( typ->op != TYPE ) cerror( "tymerge: arg 1" ); if(idp == NIL ) return( NIL ); if( ddebug > 2 ) fwalk( idp, eprint, 0 ); idp->type = typ->type; idp->cdim = curdim; tyreduce( idp ); idp->csiz = typ->csiz; for( t=typ->type, i=typ->cdim; t&TMASK; t = DECREF(t) ){ if( ISARY(t) ) dstash( dimtab[i++] ); } /* now idp is a single node: fix up type */ idp->type = ctype( idp->type ); if( (t = BTYPE(idp->type)) != STRTY && t != UNIONTY && t != ENUMTY ){ idp->csiz = t; /* in case ctype has rewritten things */ } return( idp ); } tyreduce( p ) register NODE *p; { /* build a type, and stash away dimensions, from a parse tree of the declaration */ /* the type is build top down, the dimensions bottom up */ register o, temp; register unsigned t; o = p->op; p->op = FREE; if( o == NAME ) return; t = INCREF( p->type ); if( o == UNARY CALL ) t += (FTN-PTR); else if( o == LB ){ t += (ARY-PTR); temp = p->right->lval; p->right->op = FREE; } p->left->type = t; tyreduce( p->left ); if( o == LB ) dstash( temp ); p->rval = p->left->rval; p->type = p->left->type; } fixtype( p, class ) register NODE *p; { register unsigned t, type; register mod1, mod2; /* fix up the types, and check for legality */ if( (type = p->type) == UNDEF ) return; if( mod2 = (type&TMASK) ){ t = DECREF(type); while( mod1=mod2, mod2 = (t&TMASK) ){ if( mod1 == ARY && mod2 == FTN ){ uerror( "array of functions is illegal" ); type = 0; } else if( mod1 == FTN && ( mod2 == ARY || mod2 == FTN ) ){ uerror( "function returns illegal type" ); type = 0; } t = DECREF(t); } } /* detect function arguments, watching out for structure declarations */ if( class==SNULL && blevel==1 && !(instruct&(INSTRUCT|INUNION)) ) class = PARAM; if( class == PARAM || ( class==REGISTER && blevel==1 ) ){ if( type == FLOAT ) type = DOUBLE; else if( ISARY(type) ){ ++p->cdim; type += (PTR-ARY); } else if( ISFTN(type) ) type = INCREF(type); } if( instruct && ISFTN(type) ){ uerror( "function illegal in structure or union" ); type = INCREF(type); } p->type = type; } uclass( class ) register class; { /* give undefined version of class */ if( class == SNULL ) return( EXTERN ); else if( class == STATIC ) return( USTATIC ); else if( class == FORTRAN ) return( UFORTRAN ); else return( class ); } fixclass( class, type ) TWORD type; { /* first, fix null class */ if( class == SNULL ){ if( instruct&INSTRUCT ) class = MOS; else if( instruct&INUNION ) class = MOU; else if( blevel == 0 ) class = EXTDEF; else if( blevel == 1 ) class = PARAM; else class = AUTO; } /* now, do general checking */ if( ISFTN( type ) ){ switch( class ) { default: uerror( "function has illegal storage class" ); case AUTO: class = EXTERN; case EXTERN: case EXTDEF: case FORTRAN: case TYPEDEF: case STATIC: case UFORTRAN: case USTATIC: ; } } if( class&FIELD ){ if( !(instruct&INSTRUCT) ) uerror( "illegal use of field" ); return( class ); } switch( class ){ case MOU: if( !(instruct&INUNION) ) uerror( "illegal class" ); return( class ); case MOS: if( !(instruct&INSTRUCT) ) uerror( "illegal class" ); return( class ); case MOE: if( instruct & (INSTRUCT|INUNION) ) uerror( "illegal class" ); return( class ); case REGISTER: if( blevel == 0 ) uerror( "illegal register declaration" ); else if( regvar >= MINRVAR && cisreg( type ) ) return( class ); if( blevel == 1 ) return( PARAM ); else return( AUTO ); case AUTO: case LABEL: case ULABEL: if( blevel < 2 ) uerror( "illegal class" ); return( class ); case PARAM: if( blevel != 1 ) uerror( "illegal class" ); return( class ); case UFORTRAN: case FORTRAN: # ifdef NOFORTRAN NOFORTRAN; /* a condition which can regulate the FORTRAN usage */ # endif if( !ISFTN(type) ) uerror( "fortran declaration must apply to function" ); else { type = DECREF(type); if( ISFTN(type) || ISARY(type) || ISPTR(type) ) { uerror( "fortran function has wrong type" ); } } case STNAME: case UNAME: case ENAME: case EXTERN: case STATIC: case EXTDEF: case TYPEDEF: case USTATIC: return( class ); default: cerror( "illegal class: %d", class ); /* NOTREACHED */ } } lookup( name, s) char *name; { /* look up name: must agree with s w.r.t. SMOS and SHIDDEN */ register char *p, *q; int i, j, ii; register struct symtab *sp; /* compute initial hash index */ if( ddebug > 2 ){ printf( "lookup( %s, %d ), stwart=%d, instruct=%d\n", name, s, stwart, instruct ); } i = 0; for( p=name, j=0; *p != '\0'; ++p ){ i += *p; if( ++j >= NCHNAM ) break; } i = i%SYMTSZ; sp = &stab[ii=i]; for(;;){ /* look for name */ if( sp->stype == TNULL ){ /* empty slot */ p = sp->sname; sp->sflags = s; /* set SMOS if needed, turn off all others */ for( j=0; jstype = UNDEF; sp->sclass = SNULL; return( i ); } if( (sp->sflags & (SMOS|SHIDDEN)) != s ) goto next; p = sp->sname; q = name; for( j=0; j= SYMTSZ ){ i = 0; sp = stab; } else ++sp; if( i == ii ) cerror( "symbol table full" ); } } #ifndef checkst /* if not debugging, make checkst a macro */ checkst(lev){ register int s, i, j; register struct symtab *p, *q; for( i=0, p=stab; istype == TNULL ) continue; j = lookup( p->sname, p->sflags&SMOS ); if( j != i ){ q = &stab[j]; if( q->stype == UNDEF || q->slevel <= p->slevel ){ cerror( "check error: %.8s", q->sname ); } } else if( p->slevel > lev ) cerror( "%.8s check at level %d", p->sname, lev ); } } #endif struct symtab * relook(p) register struct symtab *p; { /* look up p again, and see where it lies */ register struct symtab *q; /* I'm not sure that this handles towers of several hidden definitions in all cases */ q = &stab[lookup( p->sname, p->sflags&(SMOS|SHIDDEN) )]; /* make relook always point to either p or an empty cell */ if( q->stype == UNDEF ){ q->stype = TNULL; return(q); } while( q != p ){ if( q->stype == TNULL ) break; if( ++q >= &stab[SYMTSZ] ) q=stab; } return(q); } clearst( lev ){ /* clear entries of internal scope from the symbol table */ register struct symtab *p, *q, *r; register int temp, rehash; temp = lineno; aobeg(); /* first, find an empty slot to prevent newly hashed entries from being slopped into... */ for( q=stab; q< &stab[SYMTSZ]; ++q ){ if( q->stype == TNULL )goto search; } cerror( "symbol table full"); search: p = q; for(;;){ if( p->stype == TNULL ) { rehash = 0; goto next; } lineno = p->suse; if( lineno < 0 ) lineno = - lineno; if( p->slevel>lev ){ /* must clobber */ if( p->stype == UNDEF || ( p->sclass == ULABEL && lev < 2 ) ){ lineno = temp; uerror( "%.8s undefined", p->sname ); } else aocode(p); if (ddebug) printf("removing %8s from stab[ %d], flags %o level %d\n", p->sname,p-stab,p->sflags,p->slevel); if( p->sflags & SHIDES ) unhide(p); p->stype = TNULL; rehash = 1; goto next; } if( rehash ){ if( (r=relook(p)) != p ){ movestab( r, p ); p->stype = TNULL; } } next: if( ++p >= &stab[SYMTSZ] ) p = stab; if( p == q ) break; } lineno = temp; aoend(); } movestab( p, q ) register struct symtab *p, *q; { int k; /* structure assignment: *p = *q; */ p->stype = q->stype; p->sclass = q->sclass; p->slevel = q->slevel; p->offset = q->offset; p->sflags = q->sflags; p->dimoff = q->dimoff; p->sizoff = q->sizoff; p->suse = q->suse; for( k=0; ksname[k] = q->sname[k]; } } hide( p ) register struct symtab *p; { register struct symtab *q; for( q=p+1; ; ++q ){ if( q >= &stab[SYMTSZ] ) q = stab; if( q == p ) cerror( "symbol table full" ); if( q->stype == TNULL ) break; } movestab( q, p ); p->sflags |= SHIDDEN; q->sflags = (p->sflags&SMOS) | SHIDES; if( hflag ) werror( "%.8s redefinition hides earlier one", p->sname ); if( ddebug ) printf( " %d hidden in %d\n", p-stab, q-stab ); return( idname = q-stab ); } unhide( p ) register struct symtab *p; { register struct symtab *q; register s, j; s = p->sflags & SMOS; q = p; for(;;){ if( q == stab ) q = &stab[SYMTSZ-1]; else --q; if( q == p ) break; if( (q->sflags&SMOS) == s ){ for( j =0; jsname[j] != q->sname[j] ) break; if( j == NCHNAM ){ /* found the name */ q->sflags &= ~SHIDDEN; if( ddebug ) printf( "unhide uncovered %d from %d\n", q-stab,p-stab); return; } } } cerror( "unhide fails" ); }