/* $OpenBSD: optim.c,v 1.3 2008/04/11 20:45:52 stefan Exp $ */ /* * Copyright(C) Caldera International Inc. 2001-2002. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code and documentation must retain the above * copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright * notice, this list of conditionsand the following disclaimer in the * documentation and/or other materials provided with the distribution. * All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed or owned by Caldera * International, Inc. * Neither the name of Caldera International, Inc. nor the names of other * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * USE OF THE SOFTWARE PROVIDED FOR UNDER THIS LICENSE BY CALDERA * INTERNATIONAL, INC. AND CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CALDERA INTERNATIONAL, INC. BE LIABLE * FOR ANY DIRECT, INDIRECT INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OFLIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ # include "pass1.h" # define SWAP(p,q) {sp=p; p=q; q=sp;} # define RCON(p) (p->n_right->n_op==ICON) # define RO(p) p->n_right->n_op # define RV(p) p->n_right->n_lval # define LCON(p) (p->n_left->n_op==ICON) # define LO(p) p->n_left->n_op # define LV(p) p->n_left->n_lval int oflag = 0; /* remove left node */ static NODE * zapleft(NODE *p) { NODE *q; q = p->n_left; nfree(p->n_right); nfree(p); return q; } /* * fortran function arguments */ static NODE * fortarg(NODE *p) { if( p->n_op == CM ){ p->n_left = fortarg( p->n_left ); p->n_right = fortarg( p->n_right ); return(p); } while( ISPTR(p->n_type) ){ p = buildtree( UMUL, p, NIL ); } return( optim(p) ); } /* mapping relationals when the sides are reversed */ short revrel[] ={ EQ, NE, GE, GT, LE, LT, UGE, UGT, ULE, ULT }; /* * local optimizations, most of which are probably * machine independent */ NODE * optim(NODE *p) { int o, ty; NODE *sp, *q; int i; TWORD t; t = BTYPE(p->n_type); if( oflag ) return(p); ty = coptype(p->n_op); if( ty == LTYPE ) return(p); if( ty == BITYPE ) p->n_right = optim(p->n_right); p->n_left = optim(p->n_left); /* collect constants */ again: o = p->n_op; switch(o){ case SCONV: case PCONV: return( clocal(p) ); case FORTCALL: p->n_right = fortarg( p->n_right ); break; case ADDROF: if (LO(p) == TEMP) return p; if( LO(p) != NAME ) cerror( "& error" ); if( !andable(p->n_left) ) return(p); LO(p) = ICON; setuleft: /* paint over the type of the left hand side with the type of the top */ p->n_left->n_type = p->n_type; p->n_left->n_df = p->n_df; p->n_left->n_sue = p->n_sue; q = p->n_left; nfree(p); return q; case UMUL: if( LO(p) != ICON ) break; LO(p) = NAME; goto setuleft; case RS: if (LO(p) == RS && RCON(p->n_left) && RCON(p)) { /* two right-shift by constants */ RV(p) += RV(p->n_left); p->n_left = zapleft(p->n_left); } #if 0 else if (LO(p) == LS && RCON(p->n_left) && RCON(p)) { RV(p) -= RV(p->n_left); if (RV(p) < 0) o = p->n_op = LS, RV(p) = -RV(p); p->n_left = zapleft(p->n_left); } #endif if (RO(p) == ICON) { if (RV(p) < 0) { RV(p) = -RV(p); p->n_op = LS; goto again; } #ifdef notyet /* must check for side effects, --a >> 32; */ if (RV(p) >= tsize(p->n_type, p->n_df, p->n_sue) && ISUNSIGNED(p->n_type)) { /* ignore signed shifts */ /* too many shifts */ tfree(p->n_left); nfree(p->n_right); p->n_op = ICON; p->n_lval = 0; p->n_sp = NULL; } else #endif /* avoid larger shifts than type size */ if (RV(p) >= p->n_sue->suesize) { RV(p) = RV(p) % p->n_sue->suesize; werror("shift larger than type"); } if (RV(p) == 0) p = zapleft(p); } break; case LS: if (LO(p) == LS && RCON(p->n_left) && RCON(p)) { /* two left-shift by constants */ RV(p) += RV(p->n_left); p->n_left = zapleft(p->n_left); } #if 0 else if (LO(p) == RS && RCON(p->n_left) && RCON(p)) { RV(p) -= RV(p->n_left); p->n_left = zapleft(p->n_left); } #endif if (RO(p) == ICON) { if (RV(p) < 0) { RV(p) = -RV(p); p->n_op = RS; goto again; } #ifdef notyet /* must check for side effects */ if (RV(p) >= tsize(p->n_type, p->n_df, p->n_sue)) { /* too many shifts */ tfree(p->n_left); nfree(p->n_right); p->n_op = ICON; p->n_lval = 0; p->n_sp = NULL; } else #endif /* avoid larger shifts than type size */ if (RV(p) >= p->n_sue->suesize) { RV(p) = RV(p) % p->n_sue->suesize; werror("shift larger than type"); } if (RV(p) == 0) p = zapleft(p); } break; case MINUS: if (LCON(p) && RCON(p) && p->n_left->n_sp == p->n_right->n_sp) { /* link-time constants, but both are the same */ /* solve it now by forgetting the symbols */ p->n_left->n_sp = p->n_right->n_sp = NULL; } if( !nncon(p->n_right) ) break; RV(p) = -RV(p); o = p->n_op = PLUS; case MUL: case PLUS: case AND: case OR: case ER: /* commutative ops; for now, just collect constants */ /* someday, do it right */ if( nncon(p->n_left) || ( LCON(p) && !RCON(p) ) ) SWAP( p->n_left, p->n_right ); /* make ops tower to the left, not the right */ if( RO(p) == o ){ NODE *t1, *t2, *t3; t1 = p->n_left; sp = p->n_right; t2 = sp->n_left; t3 = sp->n_right; /* now, put together again */ p->n_left = sp; sp->n_left = t1; sp->n_right = t2; p->n_right = t3; } if(o == PLUS && LO(p) == MINUS && RCON(p) && RCON(p->n_left) && conval(p->n_right, MINUS, p->n_left->n_right)){ zapleft: q = p->n_left->n_left; nfree(p->n_left->n_right); nfree(p->n_left); p->n_left = q; } if( RCON(p) && LO(p)==o && RCON(p->n_left) && conval( p->n_right, o, p->n_left->n_right ) ){ goto zapleft; } else if( LCON(p) && RCON(p) && conval( p->n_left, o, p->n_right ) ){ zapright: nfree(p->n_right); q = makety(p->n_left, p->n_type, p->n_qual, p->n_df, p->n_sue); nfree(p); return clocal(q); } /* change muls to shifts */ if( o == MUL && nncon(p->n_right) && (i=ispow2(RV(p)))>=0){ if( i == 0 ) { /* multiplication by 1 */ goto zapright; } o = p->n_op = LS; p->n_right->n_type = INT; p->n_right->n_df = NULL; RV(p) = i; } /* change +'s of negative consts back to - */ if( o==PLUS && nncon(p->n_right) && RV(p)<0 ){ RV(p) = -RV(p); o = p->n_op = MINUS; } /* remove ops with RHS 0 */ if ((o == PLUS || o == MINUS || o == OR || o == ER) && nncon(p->n_right) && RV(p) == 0) { goto zapright; } break; case DIV: if( nncon( p->n_right ) && p->n_right->n_lval == 1 ) goto zapright; if (LCON(p) && RCON(p) && conval(p->n_left, DIV, p->n_right)) goto zapright; if (RCON(p) && ISUNSIGNED(p->n_type) && (i=ispow2(RV(p))) > 0) { p->n_op = RS; RV(p) = i; q = p->n_right; if(tsize(q->n_type, q->n_df, q->n_sue) > SZINT) p->n_right = makety(q, INT, 0, 0, MKSUE(INT)); break; } break; case MOD: if (RCON(p) && ISUNSIGNED(p->n_type) && ispow2(RV(p)) > 0) { p->n_op = AND; RV(p) = RV(p) -1; break; } break; case EQ: case NE: case LT: case LE: case GT: case GE: case ULT: case ULE: case UGT: case UGE: if( !LCON(p) ) break; /* exchange operands */ sp = p->n_left; p->n_left = p->n_right; p->n_right = sp; p->n_op = revrel[p->n_op - EQ ]; break; } return(p); } int ispow2(CONSZ c) { int i; if( c <= 0 || (c&(c-1)) ) return(-1); for( i=0; c>1; ++i) c >>= 1; return(i); } int nncon( p ) NODE *p; { /* is p a constant without a name */ return( p->n_op == ICON && p->n_sp == NULL ); }