# ifndef lint static char *sccsid ="@(#)local2.c 1.14 (Berkeley) 4/23/86"; # endif # include "pass2.h" # include "ctype.h" # ifdef FORT int ftlab1, ftlab2; # endif /* a lot of the machine dependent parts of the second pass */ # define putstr(s) fputs((s), stdout) # define BITMASK(n) ((1L<= AUTOINIT ) spoff -= AUTOINIT; spoff /= SZCHAR; SETOFF(spoff,4); #ifndef FLEXNAMES printf( " .set .F%d,%ld\n", ftnno, spoff ); #else /* SHOULD BE L%d ... ftnno but must change pc/f77 */ printf( " .set LF%d,%ld\n", ftnno, spoff ); #endif #else extern int ftlab1, ftlab2; spoff = maxoff; if( spoff >= AUTOINIT ) spoff -= AUTOINIT; spoff /= SZCHAR; SETOFF(spoff,4); printf( "L%d:\n", ftlab1); if( spoff!=0 ) if( spoff < 64 ) printf( " subl2 $%ld,sp\n", spoff); else printf( " movab -%ld(sp),sp\n", spoff); printf( " jbr L%d\n", ftlab2); #endif maxargs = -1; } struct hoptab { int opmask; char * opstring; } ioptab[] = { ASG PLUS, "add", ASG MINUS, "sub", ASG MUL, "mul", ASG DIV, "div", ASG OR, "bis", ASG ER, "xor", ASG AND, "bic", PLUS, "add", MINUS, "sub", MUL, "mul", DIV, "div", OR, "bis", ER, "xor", AND, "bic", -1, "" }; hopcode( f, o ){ /* output the appropriate string from the above table */ register struct hoptab *q; for( q = ioptab; q->opmask>=0; ++q ){ if( q->opmask == o ){ putstr( q->opstring ); /* tbl if( f == 'F' ) putchar( 'e' ); else if( f == 'D' ) putchar( 'd' ); tbl */ /* tbl */ switch( f ) { case 'L': case 'W': case 'B': case 'D': case 'F': putchar(tolower(f)); break; } /* tbl */ return; } } cerror( "no hoptab for %s", opst[o] ); } char * rnames[] = { /* keyed to register number tokens */ "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", "r8", "r9", "r10", "r11", "ap", "fp", "sp", "pc", }; int rstatus[] = { SAREG|STAREG, SAREG|STAREG, SAREG|STAREG, SAREG|STAREG, SAREG|STAREG, SAREG|STAREG, SAREG, SAREG, SAREG, SAREG, SAREG, SAREG, SAREG, SAREG, SAREG, SAREG, }; tlen(p) NODE *p; { switch(p->in.type) { case CHAR: case UCHAR: return(1); case SHORT: case USHORT: return(2); case DOUBLE: return(8); default: return(4); } } mixtypes(p, q) NODE *p, *q; { register TWORD tp, tq; tp = p->in.type; tq = q->in.type; return( (tp==FLOAT || tp==DOUBLE) != (tq==FLOAT || tq==DOUBLE) ); } prtype(n) NODE *n; { switch (n->in.type) { case DOUBLE: putchar('d'); return; case FLOAT: putchar('f'); return; case LONG: case ULONG: case INT: case UNSIGNED: putchar('l'); return; case SHORT: case USHORT: putchar('w'); return; case CHAR: case UCHAR: putchar('b'); return; default: if ( !ISPTR( n->in.type ) ) cerror("zzzcode- bad type"); else { putchar('l'); return; } } } zzzcode( p, c ) register NODE *p; { register m; CONSZ val; switch( c ){ case 'N': /* logical ops, turned into 0-1 */ /* use register given by register 1 */ cbgen( 0, m=getlab(), 'I' ); deflab( p->bn.label ); printf( " clrl %s\n", rnames[getlr( p, '1' )->tn.rval] ); deflab( m ); return; case 'I': case 'P': cbgen( p->in.op, p->bn.label, c ); return; case 'A': { register NODE *l, *r; if (xdebug) eprint(p, 0, &val, &val); r = getlr(p, 'R'); if (p->in.op == ASSIGN) l = getlr(p, 'L'); else if (p->in.op == SCONV) { l = resc; #if defined(FORT) || defined(SPRECC) l->in.type = r->in.type; #else l->in.type = r->in.type==FLOAT ? DOUBLE : r->in.type; #endif r = getlr(p, 'L'); } else { /* OPLTYPE */ l = resc; #if defined(FORT) || defined(SPRECC) l->in.type = (r->in.type==FLOAT || r->in.type==DOUBLE ? r->in.type : INT); #else l->in.type = (r->in.type==FLOAT || r->in.type==DOUBLE ? DOUBLE : INT); #endif } if (r->in.op == ICON) if (r->in.name[0] == '\0') { if (r->tn.lval == 0) { putstr("clr"); prtype(l); putchar('\t'); adrput(l); return; } if (r->tn.lval < 0 && r->tn.lval >= -63) { putstr("mneg"); prtype(l); r->tn.lval = -r->tn.lval; goto ops; } if (r->tn.lval < 0) r->in.type = r->tn.lval >= -128 ? CHAR : (r->tn.lval >= -32768 ? SHORT : INT); else if (l->in.type == FLOAT || l->in.type == DOUBLE) r->in.type = r->tn.lval <= 63 ? INT : (r->tn.lval <= 127 ? CHAR : (r->tn.lval <= 32767 ? SHORT : INT)); else r->in.type = r->tn.lval <= 63 ? INT : (r->tn.lval <= 127 ? CHAR : (r->tn.lval <= 255 ? UCHAR : (r->tn.lval <= 32767 ? SHORT : (r->tn.lval <= 65535 ? USHORT : INT)))); } else { putstr("moval"); putchar('\t'); acon(r); putchar(','); adrput(l); return; } if (p->in.op == SCONV && !(l->in.type == FLOAT || l->in.type == DOUBLE) && !mixtypes(l, r)) { /* * Because registers must always contain objects * of the same width as INTs, we may have to * perform two conversions to get an INT. Can * the conversions be collapsed into one? */ if (m = collapsible(l, r)) r->in.type = m; else { /* * Two steps are required. */ NODE *x = &resc[1]; *x = *l; if (tlen(x) > tlen(r) && ISUNSIGNED(r->in.type)) putstr("movz"); else putstr("cvt"); prtype(r); prtype(x); putchar('\t'); adrput(r); putchar(','); adrput(x); putchar('\n'); putchar('\t'); r = x; } l->in.type = (ISUNSIGNED(l->in.type) ? UNSIGNED : INT); } if ((r->in.type == UNSIGNED || r->in.type == ULONG) && mixtypes(l, r)) { int label1, label2; label1 = getlab(); label2 = getlab(); putstr("movl\t"); adrput(r); putchar(','); adrput(l); putstr("\n\tjbsc\t$31,"); adrput(l); printf(",L%d\n\tcvtl", label1); prtype(l); putchar('\t'); adrput(l); putchar(','); adrput(l); printf("\n\tjbr\tL%d\nL%d:\n\tcvtl", label2, label1); prtype(l); putchar('\t'); adrput(l); putchar(','); adrput(l); putstr("\n\tadd"); prtype(l); putstr("2\t$0"); prtype(l); putstr("2.147483648e9,"); adrput(l); printf("\nL%d:", label2); return; } if (!mixtypes(l,r)) { if (tlen(l) == tlen(r)) { putstr("mov"); #ifdef FORT if (Oflag) prtype(l); else { if (l->in.type == DOUBLE) putchar('q'); else if(l->in.type == FLOAT) putchar('l'); else prtype(l); } #else prtype(l); #endif FORT goto ops; } else if (tlen(l) > tlen(r) && ISUNSIGNED(r->in.type)) putstr("movz"); else putstr("cvt"); } else putstr("cvt"); prtype(r); prtype(l); ops: putchar('\t'); adrput(r); putchar(','); adrput(l); return; } case 'G': /* i *= f; asgops with int lhs and float rhs */ { register NODE *l, *r, *s; int rt; l = p->in.left; r = p->in.right; s = talloc(); rt = r->in.type; s->in.op = SCONV; s->in.left = l; s->in.type = rt; zzzcode(s, 'A'); putstr("\n\t"); hopcode(rt == FLOAT ? 'F' : 'D', p->in.op); putstr("2\t"); adrput(r); putchar(','); adrput(resc); putstr("\n\t"); s->in.op = ASSIGN; s->in.left = l; s->in.right = resc; s->in.type = l->in.type; zzzcode(s, 'A'); s->in.op = FREE; return; } case 'B': /* get oreg value in temp register for left shift */ { register NODE *r; if (xdebug) eprint(p, 0, &val, &val); r = p->in.right; if( tlen(r) == sizeof(int) && r->in.type != FLOAT ) putstr("movl"); else { putstr("cvt"); prtype(r); putchar('l'); } return; } case 'C': /* num words pushed on arg stack */ { extern int gc_numbytes; extern int xdebug; if (xdebug) printf("->%d<-",gc_numbytes); printf("$%d", gc_numbytes/(SZLONG/SZCHAR) ); return; } case 'D': /* INCR and DECR */ zzzcode(p->in.left, 'A'); putchar('\n'); putchar('\t'); case 'E': /* INCR and DECR, FOREFF */ if (p->in.right->tn.lval == 1) { putstr( p->in.op == INCR ? "inc" : "dec" ); prtype(p->in.left); putchar('\t'); adrput(p->in.left); return; } putstr( p->in.op == INCR ? "add" : "sub" ); prtype(p->in.left); putchar('2'); putchar('\t'); adrput(p->in.right); putchar(','); adrput(p->in.left); return; case 'F': /* register type of right operand */ { register NODE *n; extern int xdebug; register int ty; n = getlr( p, 'R' ); ty = n->in.type; if (xdebug) printf("->%d<-", ty); if ( ty==DOUBLE) putchar('d'); else if ( ty==FLOAT ) putchar('f'); else putchar('l'); return; } case 'L': /* type of left operand */ case 'R': /* type of right operand */ { register NODE *n; extern int xdebug; n = getlr( p, c ); if (xdebug) printf("->%d<-", n->in.type); prtype(n); return; } case 'Z': /* complement mask for bit instr */ printf("$%ld", ~p->in.right->tn.lval); return; case 'U': /* 32 - n, for unsigned right shifts */ printf("$%d", 32 - p->in.right->tn.lval ); return; case 'T': /* rounded structure length for arguments */ { int size; size = p->stn.stsize; SETOFF( size, 4); printf("$%d", size); return; } case 'S': /* structure assignment */ { register NODE *l, *r; register size; if( p->in.op == STASG ){ l = p->in.left; r = p->in.right; } else if( p->in.op == STARG ){ /* store an arg into a temporary */ r = p->in.left; } else cerror( "STASG bad" ); if( r->in.op == ICON ) r->in.op = NAME; else if( r->in.op == REG ) r->in.op = OREG; else if( r->in.op != OREG ) cerror( "STASG-r" ); size = p->stn.stsize; if( size <= 0 || size > 65535 ) cerror("structure size <0=0 or >65535"); switch(size) { case 1: putstr(" movb "); break; case 2: putstr(" movw "); break; case 4: putstr(" movl "); break; case 8: putstr(" movq "); break; default: printf(" movc3 $%d,", size); break; } adrput(r); if( p->in.op == STASG ){ putchar(','); adrput(l); putchar('\n'); } else putstr(",(sp)\n"); if( r->in.op == NAME ) r->in.op = ICON; else if( r->in.op == OREG ) r->in.op = REG; } break; default: cerror( "illegal zzzcode" ); } } /* * collapsible(dest, src) -- if a conversion with a register destination * can be accomplished in one instruction, return the type of src * that will do the job correctly; otherwise return 0. Note that * a register must always end up having type INT or UNSIGNED. */ int collapsible(dest, src) NODE *dest, *src; { int st = src->in.type; int dt = dest->in.type; int newt = 0; /* * Are there side effects of evaluating src? * If the derived type will not be the same size as src, * we may have to use two steps. */ if (tlen(src) > tlen(dest)) { if (tshape(src, STARREG)) return (0); if (src->in.op == OREG && R2TEST(src->tn.rval)) return (0); } /* * Can we get an object of dest's type by punning src? * Praises be to great Cthulhu for little-endian machines... */ if (st == CHAR && dt == USHORT) /* * Special case -- we must sign-extend to 16 bits. */ return (0); if (tlen(src) < tlen(dest)) newt = st; else newt = dt; return (newt); } rmove( rt, rs, t ) TWORD t; { printf( " %s %s,%s\n", #ifdef FORT !Oflag ? (t==DOUBLE ? "movq" : "movl") : #endif (t==FLOAT ? "movf" : (t==DOUBLE ? "movd" : "movl")), rnames[rs], rnames[rt] ); } struct respref respref[] = { INTAREG|INTBREG, INTAREG|INTBREG, INAREG|INBREG, INAREG|INBREG|SOREG|STARREG|STARNM|SNAME|SCON, INTEMP, INTEMP, FORARG, FORARG, INTEMP, INTAREG|INAREG|INTBREG|INBREG|SOREG|STARREG|STARNM, 0, 0 }; setregs(){ /* set up temporary registers */ fregs = 6; /* tbl- 6 free regs on VAX (0-5) */ ; } rewfld( p ) NODE *p; { return(1); } callreg(p) NODE *p; { return( R0 ); } base( p ) register NODE *p; { register int o = p->in.op; if( (o==ICON && p->in.name[0] != '\0')) return( 100 ); /* ie no base reg */ if( o==REG ) return( p->tn.rval ); if( (o==PLUS || o==MINUS) && p->in.left->in.op == REG && p->in.right->in.op==ICON) return( p->in.left->tn.rval ); if( o==OREG && !R2TEST(p->tn.rval) && (p->in.type==INT || p->in.type==UNSIGNED || ISPTR(p->in.type)) ) return( p->tn.rval + 0200*1 ); if( o==INCR && p->in.left->in.op==REG ) return( p->in.left->tn.rval + 0200*2 ); if( o==ASG MINUS && p->in.left->in.op==REG) return( p->in.left->tn.rval + 0200*4 ); if( o==UNARY MUL && p->in.left->in.op==INCR && p->in.left->in.left->in.op==REG && (p->in.type==INT || p->in.type==UNSIGNED || ISPTR(p->in.type)) ) return( p->in.left->in.left->tn.rval + 0200*(1+2) ); return( -1 ); } offset( p, tyl ) register NODE *p; int tyl; { if( tyl==1 && p->in.op==REG && (p->in.type==INT || p->in.type==UNSIGNED) ) return( p->tn.rval ); if( p->in.op==LS && p->in.left->in.op==REG && (p->in.left->in.type==INT || p->in.left->in.type==UNSIGNED) && p->in.right->in.op==ICON && p->in.right->in.name[0]=='\0' && (1<in.right->tn.lval)==tyl) return( p->in.left->tn.rval ); if( tyl==2 && p->in.op==PLUS && (p->in.left->in.type==INT || p->in.left->in.type==UNSIGNED) && p->in.left->in.op==REG && p->in.right->in.op==REG && p->in.left->tn.rval==p->in.right->tn.rval ) return( p->in.left->tn.rval ); return( -1 ); } makeor2( p, q, b, o) register NODE *p, *q; register int b, o; { register NODE *t; register int i; NODE *f; p->in.op = OREG; f = p->in.left; /* have to free this subtree later */ /* init base */ switch (q->in.op) { case ICON: case REG: case OREG: t = q; break; case MINUS: q->in.right->tn.lval = -q->in.right->tn.lval; case PLUS: t = q->in.right; break; case INCR: case ASG MINUS: t = q->in.left; break; case UNARY MUL: t = q->in.left->in.left; break; default: cerror("illegal makeor2"); } p->tn.lval = t->tn.lval; #ifndef FLEXNAMES for(i=0; iin.name[i] = t->in.name[i]; #else p->in.name = t->in.name; #endif /* init offset */ p->tn.rval = R2PACK( (b & 0177), o, (b>>7) ); tfree(f); return; } canaddr( p ) NODE *p; { register int o = p->in.op; if( o==NAME || o==REG || o==ICON || o==OREG || (o==UNARY MUL && shumul(p->in.left)) ) return(1); return(0); } flshape( p ) register NODE *p; { return( p->in.op == REG || p->in.op == NAME || p->in.op == ICON || (p->in.op == OREG && (!R2TEST(p->tn.rval) || tlen(p) == 1)) ); } shtemp( p ) register NODE *p; { if( p->in.op == STARG ) p = p->in.left; return( p->in.op==NAME || p->in.op ==ICON || p->in.op == OREG || (p->in.op==UNARY MUL && shumul(p->in.left)) ); } shumul( p ) register NODE *p; { register o; extern int xdebug; if (xdebug) { printf("\nshumul:op=%d,lop=%d,rop=%d", p->in.op, p->in.left->in.op, p->in.right->in.op); printf(" prname=%s,plty=%d, prlval=%D\n", p->in.right->in.name, p->in.left->in.type, p->in.right->tn.lval); } o = p->in.op; if( o == NAME || (o == OREG && !R2TEST(p->tn.rval)) || o == ICON ) return( STARNM ); if( ( o == INCR || o == ASG MINUS ) && ( p->in.left->in.op == REG && p->in.right->in.op == ICON ) && p->in.right->in.name[0] == '\0' ) { switch (p->in.type) { case CHAR|PTR: case UCHAR|PTR: o = 1; break; case SHORT|PTR: case USHORT|PTR: o = 2; break; case INT|PTR: case UNSIGNED|PTR: case LONG|PTR: case ULONG|PTR: case FLOAT|PTR: o = 4; break; case DOUBLE|PTR: o = 8; break; default: if ( ISPTR(p->in.type) && ISPTR(DECREF(p->in.type)) ) { o = 4; break; } else return(0); } return( p->in.right->tn.lval == o ? STARREG : 0); } return( 0 ); } adrcon( val ) CONSZ val; { putchar( '$' ); printf( CONFMT, val ); } conput( p ) register NODE *p; { switch( p->in.op ){ case ICON: acon( p ); return; case REG: putstr( rnames[p->tn.rval] ); return; default: cerror( "illegal conput" ); } } insput( p ) register NODE *p; { cerror( "insput" ); } upput( p ) register NODE *p; { cerror( "upput" ); } adrput( p ) register NODE *p; { register int r; /* output an address, with offsets, from p */ if( p->in.op == FLD ){ p = p->in.left; } switch( p->in.op ){ case NAME: acon( p ); return; case ICON: /* addressable value of the constant */ putchar( '$' ); acon( p ); return; case REG: putstr( rnames[p->tn.rval] ); return; case OREG: r = p->tn.rval; if( R2TEST(r) ){ /* double indexing */ register int flags; flags = R2UPK3(r); if( flags & 1 ) putchar('*'); if( flags & 4 ) putchar('-'); if( p->tn.lval != 0 || p->in.name[0] != '\0' ) acon(p); if( R2UPK1(r) != 100) printf( "(%s)", rnames[R2UPK1(r)] ); if( flags & 2 ) putchar('+'); printf( "[%s]", rnames[R2UPK2(r)] ); return; } if( r == AP ){ /* in the argument region */ if( p->tn.lval <= 0 || p->in.name[0] != '\0' ) werror( "bad arg temp" ); printf( CONFMT, p->tn.lval ); putstr( "(ap)" ); return; } if( p->tn.lval != 0 || p->in.name[0] != '\0') acon( p ); printf( "(%s)", rnames[p->tn.rval] ); return; case UNARY MUL: /* STARNM or STARREG found */ if( tshape(p, STARNM) ) { putchar( '*' ); adrput( p->in.left); } else { /* STARREG - really auto inc or dec */ register NODE *q; /* tbl p = p->in.left; p->in.left->in.op = OREG; if( p->in.op == INCR ) { adrput( p->in.left ); putchar( '+' ); } else { putchar( '-' ); adrput( p->in.left ); } tbl */ q = p->in.left; if( q->in.right->tn.lval != tlen(p) ) cerror("adrput: bad auto-increment/decrement"); printf("%s(%s)%s", (q->in.op==INCR ? "" : "-"), rnames[q->in.left->tn.rval], (q->in.op==INCR ? "+" : "") ); p->in.op = OREG; p->tn.rval = q->in.left->tn.rval; p->tn.lval = (q->in.op == INCR ? -q->in.right->tn.lval : 0); #ifndef FLEXNAMES p->in.name[0] = '\0'; #else p->in.name = ""; #endif tfree(q); } return; default: cerror( "illegal address" ); return; } } acon( p ) register NODE *p; { /* print out a constant */ if( p->in.name[0] == '\0' ){ printf( CONFMT, p->tn.lval); } else if( p->tn.lval == 0 ) { #ifndef FLEXNAMES printf( "%.8s", p->in.name ); #else putstr( p->in.name ); #endif } else { #ifndef FLEXNAMES printf( "%.8s+", p->in.name ); #else printf( "%s+", p->in.name ); #endif printf( CONFMT, p->tn.lval ); } } /* aacon( p ) register NODE *p; { /* print out a constant */ /* if( p->in.name[0] == '\0' ){ printf( CONFMT, p->tn.lval); return( 0 ); } else if( p->tn.lval == 0 ) { #ifndef FLEXNAMES printf( "$%.8s", p->in.name ); #else printf( "$%s", p->in.name ); #endif return( 1 ); } else { printf( "$(" ); printf( CONFMT, p->tn.lval ); printf( "+" ); #ifndef FLEXNAMES printf( "%.8s)", p->in.name ); #else printf( "%s)", p->in.name ); #endif return(1); } } */ genscall( p, cookie ) register NODE *p; { /* structure valued call */ return( gencall( p, cookie ) ); } /* tbl */ int gc_numbytes; /* tbl */ gencall( p, cookie ) register NODE *p; { /* generate the call given by p */ register NODE *p1; register temp, temp1; register m; if( p->in.right ) temp = argsize( p->in.right ); else temp = 0; if( p->in.op == STCALL || p->in.op == UNARY STCALL ){ /* set aside room for structure return */ if( p->stn.stsize > temp ) temp1 = p->stn.stsize; else temp1 = temp; } if( temp > maxargs ) maxargs = temp; SETOFF(temp1,4); if( p->in.right ){ /* make temp node, put offset in, and generate args */ genargs( p->in.right ); } p1 = p->in.left; if( p1->in.op != ICON ){ if( p1->in.op != REG ){ if( p1->in.op != OREG || R2TEST(p1->tn.rval) ){ if( p1->in.op != NAME ){ order( p1, INAREG ); } } } } /* if( p1->in.op == REG && p->tn.rval == R5 ){ cerror( "call register overwrite" ); } */ /* tbl setup gc_numbytes so reference to ZC works */ gc_numbytes = temp&(0x3ff); /* tbl */ p->in.op = UNARY CALL; m = match( p, INTAREG|INTBREG ); /* compensate for deficiency in 'ret' instruction ... wah,kre */ /* (plus in assignment to gc_numbytes above, for neatness only) */ if (temp >= 1024) printf(" addl2 $%d,sp\n", (temp&(~0x3ff))); /* tbl switch( temp ) { case 0: break; case 2: printf( " tst (sp)+\n" ); break; case 4: printf( " cmp (sp)+,(sp)+\n" ); break; default: printf( " add $%d,sp\n", temp); } tbl */ return(m != MDONE); } /* tbl */ char * ccbranches[] = { " jeql L%d\n", " jneq L%d\n", " jleq L%d\n", " jlss L%d\n", " jgeq L%d\n", " jgtr L%d\n", " jlequ L%d\n", " jlssu L%d\n", " jgequ L%d\n", " jgtru L%d\n", }; /* tbl */ cbgen( o, lab, mode ) { /* printf conditional and unconditional branches */ /* tbl */ if( o == 0 ) printf( " jbr L%d\n", lab ); /* tbl */ else { if( o > UGT ) cerror( "bad conditional branch: %s", opst[o] ); printf( ccbranches[o-EQ], lab ); } } nextcook( p, cookie ) NODE *p; { /* we have failed to match p with cookie; try another */ if( cookie == FORREW ) return( 0 ); /* hopeless! */ if( !(cookie&(INTAREG|INTBREG)) ) return( INTAREG|INTBREG ); if( !(cookie&INTEMP) && asgop(p->in.op) ) return( INTEMP|INAREG|INTAREG|INTBREG|INBREG ); return( FORREW ); } lastchance( p, cook ) NODE *p; { /* forget it! */ return(0); } optim2( p ) register NODE *p; { /* do local tree transformations and optimizations */ register NODE *l, *r; int m, ml; switch( p->in.op ) { case AND: /* commute L and R to eliminate complements and constants */ if( (l = p->in.left)->in.op == ICON && l->in.name[0] == 0 || l->in.op == COMPL ) { p->in.left = p->in.right; p->in.right = l; } case ASG AND: /* change meaning of AND to ~R&L - bic on pdp11 */ r = p->in.right; if( r->in.op==ICON && r->in.name[0]==0 ) { /* complement constant */ r->tn.lval = ~r->tn.lval; } else if( r->in.op==COMPL ) { /* ~~A => A */ r->in.op = FREE; p->in.right = r->in.left; } else { /* insert complement node */ p->in.right = l = talloc(); l->in.op = COMPL; l->in.rall = NOPREF; l->in.type = r->in.type; l->in.left = r; l->in.right = NULL; } break; case SCONV: l = p->in.left; #if defined(FORT) || defined(SPRECC) if( p->in.type == FLOAT || p->in.type == DOUBLE || l->in.type == FLOAT || l->in.type == DOUBLE ) return; #else if( mixtypes(p, l) ) return; #endif if( l->in.op == PCONV ) return; /* Only trust it to get it right if the size is the same */ if( tlen(p) != tlen(l) ) return; /* clobber conversion */ if( l->in.op != FLD ) l->in.type = p->in.type; ncopy( p, l ); l->in.op = FREE; break; case ASSIGN: /* * Conversions are equivalent to assignments; * when the two operations are combined, * we can sometimes zap the conversion. */ r = p->in.right; l = p->in.left; if ( r->in.op == SCONV && !mixtypes(l, r) && tlen(l) == tlen(r) ) { p->in.right = r->in.left; r->in.op = FREE; } break; } } NODE * addroreg(l) NODE *l; /* OREG was built in clocal() * for an auto or formal parameter * now its address is being taken * local code must unwind it * back to PLUS/MINUS REG ICON * according to local conventions */ { cerror("address of OREG taken"); /*NOTREACHED*/ } # ifndef ONEPASS main( argc, argv ) char *argv[]; { return( mainp2( argc, argv ) ); } # endif /* added by jwf */ struct functbl { int fop; TWORD ftype; char *func; } opfunc[] = { DIV, TANY, "udiv", MOD, TANY, "urem", ASG DIV, TANY, "audiv", ASG MOD, TANY, "aurem", 0, 0, 0 }; hardops(p) register NODE *p; { /* change hard to do operators into function calls. */ register NODE *q; register struct functbl *f; register o; NODE *old,*temp; o = p->in.op; if( ! (optype(o)==BITYPE && (ISUNSIGNED(p->in.left->in.type) || ISUNSIGNED(p->in.right->in.type))) ) return; for( f=opfunc; f->fop; f++ ) { if( o==f->fop ) goto convert; } return; convert: if( asgop( o ) ) { old = NIL; switch( p->in.left->in.op ){ case FLD: q = p->in.left->in.left; /* * rewrite (lval.fld /= rval); as * ((*temp).fld = udiv((*(temp = &lval)).fld,rval)); * else the compiler will evaluate lval twice. */ if( q->in.op == UNARY MUL ){ /* first allocate a temp storage */ temp = talloc(); temp->in.op = OREG; temp->tn.rval = TMPREG; temp->tn.lval = BITOOR(freetemp(1)); temp->in.type = INCREF(p->in.type); #ifdef FLEXNAMES temp->in.name = ""; #else temp->in.name[0] = '\0'; #endif old = q->in.left; q->in.left = temp; } /* fall thru ... */ case REG: case NAME: case OREG: /* change ASG OP to a simple OP */ q = talloc(); q->in.op = NOASG p->in.op; q->in.rall = NOPREF; q->in.type = p->in.type; q->in.left = tcopy(p->in.left); q->in.right = p->in.right; p->in.op = ASSIGN; p->in.right = q; p = q; f -= 2; /* Note: this depends on the table order */ /* on the right side only - replace *temp with *(temp = &lval), build the assignment node */ if( old ){ temp = q->in.left->in.left; /* the "*" node */ q = talloc(); q->in.op = ASSIGN; q->in.left = temp->in.left; q->in.right = old; q->in.type = old->in.type; #ifdef FLEXNAMES q->in.name = ""; #else q->in.name[0] = '\0'; #endif temp->in.left = q; } break; case UNARY MUL: /* avoid doing side effects twice */ q = p->in.left; p->in.left = q->in.left; q->in.op = FREE; break; default: cerror( "hardops: can't compute & LHS" ); } } /* build comma op for args to function */ q = talloc(); q->in.op = CM; q->in.rall = NOPREF; q->in.type = INT; q->in.left = p->in.left; q->in.right = p->in.right; p->in.op = CALL; p->in.right = q; /* put function name in left node of call */ p->in.left = q = talloc(); q->in.op = ICON; q->in.rall = NOPREF; q->in.type = INCREF( FTN + p->in.type ); #ifndef FLEXNAMES strcpy( q->in.name, f->func ); #else q->in.name = f->func; #endif q->tn.lval = 0; q->tn.rval = 0; } zappost(p) NODE *p; { /* look for ++ and -- operators and remove them */ register o, ty; register NODE *q; o = p->in.op; ty = optype( o ); switch( o ){ case INCR: case DECR: q = p->in.left; p->in.right->in.op = FREE; /* zap constant */ ncopy( p, q ); q->in.op = FREE; return; } if( ty == BITYPE ) zappost( p->in.right ); if( ty != LTYPE ) zappost( p->in.left ); } fixpre(p) NODE *p; { register o, ty; o = p->in.op; ty = optype( o ); switch( o ){ case ASG PLUS: p->in.op = PLUS; break; case ASG MINUS: p->in.op = MINUS; break; } if( ty == BITYPE ) fixpre( p->in.right ); if( ty != LTYPE ) fixpre( p->in.left ); } strip(p) register NODE *p; { NODE *q; /* strip nodes off the top when no side effects occur */ for( ; ; ) { switch( p->in.op ) { case SCONV: /* remove lint tidbits */ q = p->in.left; ncopy( p, q ); q->in.op = FREE; break; /* could probably add a few more here */ default: return; } } } myreader(p) register NODE *p; { strip( p ); /* strip off operations with no side effects */ canon( p ); /* expands r-vals for fields */ walkf( p, hardops ); /* convert ops to function calls */ walkf( p, optim2 ); /* jwf toff = 0; /* stack offset swindle */ }