Example #1
0
struct property *sellProp (struct property *head, int user)
{
    char lotname [PROPNAME];

    //data for property to buy
    printf("Which property would you like to sell?\n");
    scanf("%s",lotname);

    subprop(head, lotname, user);



};
Example #2
0
void
peep(Prog *firstp)
{
	Flow *r, *r1;
	Graph *g;
	Prog *p, *p1;
	int t;

	g = flowstart(firstp, sizeof(Flow));
	if(g == nil)
		return;
	for(r=g->start, t=0; r!=nil; r=r->link, t++)
		r->active = t;

	// byte, word arithmetic elimination.
	elimshortmov(g);

	// constant propagation
	// find MOV $con,R followed by
	// another MOV $con,R without
	// setting R in the interim
	for(r=g->start; r!=nil; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case ALEAL:
		case ALEAQ:
			if(regtyp(&p->to))
			if(p->from.sym != S)
			if(p->from.index == D_NONE || p->from.index == D_CONST)
				conprop(r);
			break;

		case AMOVB:
		case AMOVW:
		case AMOVL:
		case AMOVQ:
		case AMOVSS:
		case AMOVSD:
			if(regtyp(&p->to))
			if(p->from.type == D_CONST)
				conprop(r);
			break;
		}
	}

loop1:
	if(debug['P'] && debug['v'])
		dumpit("loop1", g->start, 0);

	t = 0;
	for(r=g->start; r!=nil; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case AMOVL:
		case AMOVQ:
		case AMOVSS:
		case AMOVSD:
			if(regtyp(&p->to))
			if(regtyp(&p->from)) {
				if(copyprop(g, r)) {
					excise(r);
					t++;
				} else
				if(subprop(r) && copyprop(g, r)) {
					excise(r);
					t++;
				}
			}
			break;

		case AMOVBLZX:
		case AMOVWLZX:
		case AMOVBLSX:
		case AMOVWLSX:
			if(regtyp(&p->to)) {
				r1 = rnops(uniqs(r));
				if(r1 != nil) {
					p1 = r1->prog;
					if(p->as == p1->as && p->to.type == p1->from.type){
						p1->as = AMOVL;
						t++;
					}
				}
			}
			break;

		case AMOVBQSX:
		case AMOVBQZX:
		case AMOVWQSX:
		case AMOVWQZX:
		case AMOVLQSX:
		case AMOVLQZX:
		case AMOVQL:
			if(regtyp(&p->to)) {
				r1 = rnops(uniqs(r));
				if(r1 != nil) {
					p1 = r1->prog;
					if(p->as == p1->as && p->to.type == p1->from.type){
						p1->as = AMOVQ;
						t++;
					}
				}
			}
			break;

		case AADDL:
		case AADDQ:
		case AADDW:
			if(p->from.type != D_CONST || needc(p->link))
				break;
			if(p->from.offset == -1){
				if(p->as == AADDQ)
					p->as = ADECQ;
				else
				if(p->as == AADDL)
					p->as = ADECL;
				else
					p->as = ADECW;
				p->from = zprog.from;
				break;
			}
			if(p->from.offset == 1){
				if(p->as == AADDQ)
					p->as = AINCQ;
				else if(p->as == AADDL)
					p->as = AINCL;
				else
					p->as = AINCW;
				p->from = zprog.from;
				break;
			}
			break;

		case ASUBL:
		case ASUBQ:
		case ASUBW:
			if(p->from.type != D_CONST || needc(p->link))
				break;
			if(p->from.offset == -1) {
				if(p->as == ASUBQ)
					p->as = AINCQ;
				else
				if(p->as == ASUBL)
					p->as = AINCL;
				else
					p->as = AINCW;
				p->from = zprog.from;
				break;
			}
			if(p->from.offset == 1){
				if(p->as == ASUBQ)
					p->as = ADECQ;
				else
				if(p->as == ASUBL)
					p->as = ADECL;
				else
					p->as = ADECW;
				p->from = zprog.from;
				break;
			}
			break;
		}
	}
	if(t)
		goto loop1;

	// MOVLQZX removal.
	// The MOVLQZX exists to avoid being confused for a
	// MOVL that is just copying 32-bit data around during
	// copyprop.  Now that copyprop is done, remov MOVLQZX R1, R2
	// if it is dominated by an earlier ADDL/MOVL/etc into R1 that
	// will have already cleared the high bits.
	//
	// MOVSD removal.
	// We never use packed registers, so a MOVSD between registers
	// can be replaced by MOVAPD, which moves the pair of float64s
	// instead of just the lower one.  We only use the lower one, but
	// the processor can do better if we do moves using both.
	for(r=g->start; r!=nil; r=r->link) {
		p = r->prog;
		if(p->as == AMOVLQZX)
		if(regtyp(&p->from))
		if(p->from.type == p->to.type)
		if(prevl(r, p->from.type))
			excise(r);
		
		if(p->as == AMOVSD)
		if(regtyp(&p->from))
		if(regtyp(&p->to))
			p->as = AMOVAPD;
	}

	// load pipelining
	// push any load from memory as early as possible
	// to give it time to complete before use.
	for(r=g->start; r!=nil; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case AMOVB:
		case AMOVW:
		case AMOVL:
		case AMOVQ:
		case AMOVLQZX:
			if(regtyp(&p->to) && !regconsttyp(&p->from))
				pushback(r);
		}
	}

	flowend(g);
}
Example #3
0
void
peep(void)
{
	Reg *r, *r1, *r2;
	Prog *p, *p1;
	int t;

	/*
	 * complete R structure
	 */
	t = 0;
	for(r=firstr; r!=R; r=r1) {
		r1 = r->link;
		if(r1 == R)
			break;
		p = r->prog->link;
		while(p != r1->prog)
		switch(p->as) {
		default:
			r2 = rega();
			r->link = r2;
			r2->link = r1;

			r2->prog = p;
			p->reg = r2;

			r2->p1 = r;
			r->s1 = r2;
			r2->s1 = r1;
			r1->p1 = r2;

			r = r2;
			t++;

		case ADATA:
		case AGLOBL:
		case ANAME:
		case ASIGNAME:
		case ALOCALS:
		case ATYPE:
			p = p->link;
		}
	}
	
	// byte, word arithmetic elimination.
	elimshortmov(r);

	// constant propagation
	// find MOV $con,R followed by
	// another MOV $con,R without
	// setting R in the interim
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case ALEAL:
		case ALEAQ:
			if(regtyp(&p->to))
			if(p->from.sym != S)
			if(p->from.index == D_NONE || p->from.index == D_CONST)
				conprop(r);
			break;

		case AMOVB:
		case AMOVW:
		case AMOVL:
		case AMOVQ:
		case AMOVSS:
		case AMOVSD:
			if(regtyp(&p->to))
			if(p->from.type == D_CONST)
				conprop(r);
			break;
		}
	}

loop1:
	if(debug['P'] && debug['v'])
		dumpit("loop1", firstr);

	t = 0;
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case AMOVL:
		case AMOVQ:
		case AMOVSS:
		case AMOVSD:
			if(regtyp(&p->to))
			if(regtyp(&p->from)) {
				if(copyprop(r)) {
					excise(r);
					t++;
				} else
				if(subprop(r) && copyprop(r)) {
					excise(r);
					t++;
				}
			}
			break;

		case AMOVBLZX:
		case AMOVWLZX:
		case AMOVBLSX:
		case AMOVWLSX:
			if(regtyp(&p->to)) {
				r1 = rnops(uniqs(r));
				if(r1 != R) {
					p1 = r1->prog;
					if(p->as == p1->as && p->to.type == p1->from.type){
						p1->as = AMOVL;
						t++;
					}
				}
			}
			break;

		case AMOVBQSX:
		case AMOVBQZX:
		case AMOVWQSX:
		case AMOVWQZX:
		case AMOVLQSX:
		case AMOVLQZX:
		case AMOVQL:
			if(regtyp(&p->to)) {
				r1 = rnops(uniqs(r));
				if(r1 != R) {
					p1 = r1->prog;
					if(p->as == p1->as && p->to.type == p1->from.type){
						p1->as = AMOVQ;
						t++;
					}
				}
			}
			break;

		case AADDL:
		case AADDQ:
		case AADDW:
			if(p->from.type != D_CONST || needc(p->link))
				break;
			if(p->from.offset == -1){
				if(p->as == AADDQ)
					p->as = ADECQ;
				else
				if(p->as == AADDL)
					p->as = ADECL;
				else
					p->as = ADECW;
				p->from = zprog.from;
				break;
			}
			if(p->from.offset == 1){
				if(p->as == AADDQ)
					p->as = AINCQ;
				else if(p->as == AADDL)
					p->as = AINCL;
				else
					p->as = AINCW;
				p->from = zprog.from;
				break;
			}
			break;

		case ASUBL:
		case ASUBQ:
		case ASUBW:
			if(p->from.type != D_CONST || needc(p->link))
				break;
			if(p->from.offset == -1) {
				if(p->as == ASUBQ)
					p->as = AINCQ;
				else
				if(p->as == ASUBL)
					p->as = AINCL;
				else
					p->as = AINCW;
				p->from = zprog.from;
				break;
			}
			if(p->from.offset == 1){
				if(p->as == ASUBQ)
					p->as = ADECQ;
				else
				if(p->as == ASUBL)
					p->as = ADECL;
				else
					p->as = ADECW;
				p->from = zprog.from;
				break;
			}
			break;
		}
	}
	if(t)
		goto loop1;

	// MOVLQZX removal.
	// The MOVLQZX exists to avoid being confused for a
	// MOVL that is just copying 32-bit data around during
	// copyprop.  Now that copyprop is done, remov MOVLQZX R1, R2
	// if it is dominated by an earlier ADDL/MOVL/etc into R1 that
	// will have already cleared the high bits.
	//
	// MOVSD removal.
	// We never use packed registers, so a MOVSD between registers
	// can be replaced by MOVAPD, which moves the pair of float64s
	// instead of just the lower one.  We only use the lower one, but
	// the processor can do better if we do moves using both.
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		if(p->as == AMOVLQZX)
		if(regtyp(&p->from))
		if(p->from.type == p->to.type)
		if(prevl(r, p->from.type))
			excise(r);
		
		if(p->as == AMOVSD)
		if(regtyp(&p->from))
		if(regtyp(&p->to))
			p->as = AMOVAPD;
	}

	// load pipelining
	// push any load from memory as early as possible
	// to give it time to complete before use.
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case AMOVB:
		case AMOVW:
		case AMOVL:
		case AMOVQ:
		case AMOVLQZX:
			if(regtyp(&p->to) && !regconsttyp(&p->from))
				pushback(r);
		}
	}
}
Example #4
0
void
peep(void)
{
	Reg *r, *r1, *r2;
	Prog *p, *p1;
	int t;
/*
 * complete R structure
 */
	t = 0;
	for(r=firstr; r!=R; r=r1) {
		r1 = r->link;
		if(r1 == R)
			break;
		p = r->prog->link;
		while(p != r1->prog)
		switch(p->as) {
		default:
			r2 = rega();
			r->link = r2;
			r2->link = r1;

			r2->prog = p;
			r2->p1 = r;
			r->s1 = r2;
			r2->s1 = r1;
			r1->p1 = r2;

			r = r2;
			t++;

		case ADATA:
		case AGLOBL:
		case ANAME:
		case ASIGNAME:
			p = p->link;
		}
	}

loop1:
	t = 0;
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		if(p->as == ASLL || p->as == ASRL || p->as == ASRA) {
			/*
			 * elide shift into D_SHIFT operand of subsequent instruction
			 */
			if(shiftprop(r)) {
				excise(r);
				t++;
			}
		}
		if(p->as == AMOVW || p->as == AMOVF || p->as == AMOVD)
		if(regtyp(&p->to)) {
			if(p->from.type == D_CONST)
				constprop(&p->from, &p->to, r->s1);
			else if(regtyp(&p->from))
			if(p->from.type == p->to.type) {
				if(copyprop(r)) {
					excise(r);
					t++;
				} else
				if(subprop(r) && copyprop(r)) {
					excise(r);
					t++;
				}
			}
		}
	}
	if(t)
		goto loop1;
	/*
	 * look for MOVB x,R; MOVB R,R
	 */
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		default:
			continue;
		case AEOR:
			/*
			 * EOR -1,x,y => MVN x,y
			 */
			if(p->from.type == D_CONST && p->from.offset == -1) {
				p->as = AMVN;
				p->from.type = D_REG;
				if(p->reg != NREG)
					p->from.reg = p->reg;
				else
					p->from.reg = p->to.reg;
				p->reg = NREG;
			}
			continue;
		case AMOVH:
		case AMOVHU:
		case AMOVB:
		case AMOVBU:
			if(p->to.type != D_REG)
				continue;
			break;
		}
		r1 = r->link;
		if(r1 == R)
			continue;
		p1 = r1->prog;
		if(p1->as != p->as)
			continue;
		if(p1->from.type != D_REG || p1->from.reg != p->to.reg)
			continue;
		if(p1->to.type != D_REG || p1->to.reg != p->to.reg)
			continue;
		excise(r1);
	}

	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case AMOVW:
		case AMOVB:
		case AMOVBU:
			if(p->from.type == D_OREG && p->from.offset == 0)
				xtramodes(r, &p->from);
			else if(p->to.type == D_OREG && p->to.offset == 0)
				xtramodes(r, &p->to);
			else
				continue;
			break;
		case ACMP:
			/*
			 * elide CMP $0,x if calculation of x can set condition codes
			 */
			if(p->from.type != D_CONST || p->from.offset != 0)
				continue;
			r2 = r->s1;
			if(r2 == R)
				continue;
			t = r2->prog->as;
			switch(t) {
			default:
				continue;
			case ABEQ:
			case ABNE:
			case ABMI:
			case ABPL:
				break;
			case ABGE:
				t = ABPL;
				break;
			case ABLT:
				t = ABMI;
				break;
			case ABHI:
				t = ABNE;
				break;
			case ABLS:
				t = ABEQ;
				break;
			}
			r1 = r;
			do
				r1 = uniqp(r1);
			while (r1 != R && r1->prog->as == ANOP);
			if(r1 == R)
				continue;
			p1 = r1->prog;
			if(p1->to.type != D_REG)
				continue;
			if(p1->to.reg != p->reg)
			if(!(p1->as == AMOVW && p1->from.type == D_REG && p1->from.reg == p->reg))
				continue;
			switch(p1->as) {
			default:
				continue;
			case AMOVW:
				if(p1->from.type != D_REG)
					continue;
			case AAND:
			case AEOR:
			case AORR:
			case ABIC:
			case AMVN:
			case ASUB:
			case ARSB:
			case AADD:
			case AADC:
			case ASBC:
			case ARSC:
				break;
			}
			p1->scond |= C_SBIT;
			r2->prog->as = t;
			excise(r);
			continue;
		}
	}

	predicate();
}
Example #5
0
File: peep.c Project: 99years/plan9 
void
peep(void)
{
	Reg *r, *r1, *r2;
	Prog *p, *p1;
	int t;
/*
 * complete R structure
 */
	t = 0;
	for(r=firstr; r!=R; r=r1) {
		r1 = r->link;
		if(r1 == R)
			break;
		p = r->prog->link;
		while(p != r1->prog)
		switch(p->as) {
		default:
			r2 = rega();
			r->link = r2;
			r2->link = r1;

			r2->prog = p;
			r2->p1 = r;
			r->s1 = r2;
			r2->s1 = r1;
			r1->p1 = r2;

			r = r2;
			t++;

		case ADATA:
		case AGLOBL:
		case ANAME:
		case ASIGNAME:
			p = p->link;
		}
	}

loop1:
	t = 0;
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		if(p->as == AMOVW || p->as == AFMOVF || p->as == AFMOVD)
		if(regtyp(&p->to)) {
			if(regtyp(&p->from))
			if(p->from.type == p->to.type) {
				if(copyprop(r)) {
					excise(r);
					t++;
				} else
				if(subprop(r) && copyprop(r)) {
					excise(r);
					t++;
				}
			}
			if(regzer(&p->from))
			if(p->to.type == D_REG) {
				p->from.type = D_REG;
				p->from.reg = 0;
				if(copyprop(r)) {
					excise(r);
					t++;
				} else
				if(subprop(r) && copyprop(r)) {
					excise(r);
					t++;
				}
			}
		}
	}
	if(t)
		goto loop1;
	/*
	 * look for MOVB x,R; MOVB R,R
	 */
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		default:
			continue;
		case AMOVH:
		case AMOVHU:
		case AMOVB:
		case AMOVBU:
			if(p->to.type != D_REG)
				continue;
			break;
		}
		r1 = r->link;
		if(r1 == R)
			continue;
		p1 = r1->prog;
		if(p1->as != p->as)
			continue;
		if(p1->from.type != D_REG || p1->from.reg != p->to.reg)
			continue;
		if(p1->to.type != D_REG || p1->to.reg != p->to.reg)
			continue;
		excise(r1);
	}
}
Example #6
0
File: peep.c Project: gnanderson/go 
void
peep(void)
{
    Reg *r, *r1, *r2;
    Prog *p, *p1;
    int t;

    /*
     * complete R structure
     */
    t = 0;
    for(r=firstr; r!=R; r=r1) {
        r1 = r->link;
        if(r1 == R)
            break;
        p = r->prog->link;
        while(p != r1->prog)
            switch(p->as) {
            default:
                r2 = rega();
                r->link = r2;
                r2->link = r1;

                r2->prog = p;
                r2->p1 = r;
                r->s1 = r2;
                r2->s1 = r1;
                r1->p1 = r2;

                r = r2;
                t++;

            case ADATA:
            case AGLOBL:
            case ANAME:
            case ASIGNAME:
                p = p->link;
            }
    }

    pc = 0;	/* speculating it won't kill */

loop1:

    t = 0;
    for(r=firstr; r!=R; r=r->link) {
        p = r->prog;
        switch(p->as) {
        case AMOVL:
            if(regtyp(&p->to))
                if(regtyp(&p->from)) {
                    if(copyprop(r)) {
                        excise(r);
                        t++;
                    }
                    if(subprop(r) && copyprop(r)) {
                        excise(r);
                        t++;
                    }
                }
            break;

        case AMOVBLSX:
        case AMOVBLZX:
        case AMOVWLSX:
        case AMOVWLZX:
            if(regtyp(&p->to)) {
                r1 = uniqs(r);
                if(r1 != R) {
                    p1 = r1->prog;
                    if(p->as == p1->as && p->to.type == p1->from.type)
                        p1->as = AMOVL;
                }
            }
            break;
        case AADDL:
        case AADDW:
            if(p->from.type != D_CONST || needc(p->link))
                break;
            if(p->from.offset == -1) {
                if(p->as == AADDL)
                    p->as = ADECL;
                else
                    p->as = ADECW;
                p->from = zprog.from;
            }
            else if(p->from.offset == 1) {
                if(p->as == AADDL)
                    p->as = AINCL;
                else
                    p->as = AINCW;
                p->from = zprog.from;
            }
            break;
        case ASUBL:
        case ASUBW:
            if(p->from.type != D_CONST || needc(p->link))
                break;
            if(p->from.offset == -1) {
                if(p->as == ASUBL)
                    p->as = AINCL;
                else
                    p->as = AINCW;
                p->from = zprog.from;
            }
            else if(p->from.offset == 1) {
                if(p->as == ASUBL)
                    p->as = ADECL;
                else
                    p->as = ADECW;
                p->from = zprog.from;
            }
            break;
        }
    }
    if(t)
        goto loop1;
}
Example #7
0
void
peep(void)
{
	Reg *r, *r1, *r2;
	Prog *p, *p1;
	int t;

	/*
	 * complete R structure
	 */
	t = 0;
	for(r=firstr; r!=R; r=r1) {
		r1 = r->link;
		if(r1 == R)
			break;
		p = r->prog->link;
		while(p != r1->prog)
		switch(p->as) {
		default:
			r2 = rega();
			r->link = r2;
			r2->link = r1;

			r2->prog = p;
			p->reg = r2;

			r2->p1 = r;
			r->s1 = r2;
			r2->s1 = r1;
			r1->p1 = r2;

			r = r2;
			t++;

		case ADATA:
		case AGLOBL:
		case ANAME:
		case ASIGNAME:
			p = p->link;
		}
	}

	// constant propagation
	// find MOV $con,R followed by
	// another MOV $con,R without
	// setting R in the interim
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case ALEAL:
		case ALEAQ:
			if(regtyp(&p->to))
			if(p->from.sym != S)
				conprop(r);
			break;

		case AMOVB:
		case AMOVW:
		case AMOVL:
		case AMOVQ:
		case AMOVSS:
		case AMOVSD:
			if(regtyp(&p->to))
			if(p->from.type == D_CONST)
				conprop(r);
			break;
		}
	}

loop1:
	if(debug['P'] && debug['v'])
		dumpit("loop1", firstr);

	t = 0;
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case AMOVL:
		case AMOVQ:
		case AMOVSS:
		case AMOVSD:
			if(regtyp(&p->to))
			if(regtyp(&p->from)) {
				if(copyprop(r)) {
					excise(r);
					t++;
				} else
				if(subprop(r) && copyprop(r)) {
					excise(r);
					t++;
				}
			}
			break;

		case AMOVBLZX:
		case AMOVWLZX:
		case AMOVBLSX:
		case AMOVWLSX:
			if(regtyp(&p->to)) {
				r1 = rnops(uniqs(r));
				if(r1 != R) {
					p1 = r1->prog;
					if(p->as == p1->as && p->to.type == p1->from.type){
						p1->as = AMOVL;
						t++;
					}
				}
			}
			break;

		case AMOVBQSX:
		case AMOVBQZX:
		case AMOVWQSX:
		case AMOVWQZX:
		case AMOVLQSX:
		case AMOVLQZX:
			if(regtyp(&p->to)) {
				r1 = rnops(uniqs(r));
				if(r1 != R) {
					p1 = r1->prog;
					if(p->as == p1->as && p->to.type == p1->from.type){
						p1->as = AMOVQ;
						t++;
					}
				}
			}
			break;

		case AADDL:
		case AADDQ:
		case AADDW:
			if(p->from.type != D_CONST || needc(p->link))
				break;
			if(p->from.offset == -1){
				if(p->as == AADDQ)
					p->as = ADECQ;
				else
				if(p->as == AADDL)
					p->as = ADECL;
				else
					p->as = ADECW;
				p->from = zprog.from;
				break;
			}
			if(p->from.offset == 1){
				if(p->as == AADDQ)
					p->as = AINCQ;
				else if(p->as == AADDL)
					p->as = AINCL;
				else
					p->as = AINCW;
				p->from = zprog.from;
				break;
			}
			break;

		case ASUBL:
		case ASUBQ:
		case ASUBW:
			if(p->from.type != D_CONST || needc(p->link))
				break;
			if(p->from.offset == -1) {
				if(p->as == ASUBQ)
					p->as = AINCQ;
				else
				if(p->as == ASUBL)
					p->as = AINCL;
				else
					p->as = AINCW;
				p->from = zprog.from;
				break;
			}
			if(p->from.offset == 1){
				if(p->as == ASUBQ)
					p->as = ADECQ;
				else
				if(p->as == ASUBL)
					p->as = ADECL;
				else
					p->as = ADECW;
				p->from = zprog.from;
				break;
			}
			break;
		}
	}
	if(t)
		goto loop1;
}
Example #8
0
void
peep(Prog *firstp)
{
	Flow *r, *r1;
	Graph *g;
	Prog *p, *p1;
	int t;

	g = flowstart(firstp, sizeof(Flow));
	if(g == nil)
		return;
	for(r=g->start, t=0; r!=nil; r=r->link, t++)
		r->active = t;

	// byte, word arithmetic elimination.
	elimshortmov(g);

	// constant propagation
	// find MOV $con,R followed by
	// another MOV $con,R without
	// setting R in the interim
	for(r=g->start; r!=nil; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case ALEAL:
			if(regtyp(&p->to))
			if(p->from.sym != S)
			if(p->from.index == D_NONE || p->from.index == D_CONST)
				conprop(r);
			break;

		case AMOVB:
		case AMOVW:
		case AMOVL:
		case AMOVSS:
		case AMOVSD:
			if(regtyp(&p->to))
			if(p->from.type == D_CONST)
				conprop(r);
			break;
		}
	}

loop1:
	if(debug['P'] && debug['v'])
		dumpit("loop1", g->start, 0);

	t = 0;
	for(r=g->start; r!=nil; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case AMOVL:
		case AMOVSS:
		case AMOVSD:
			if(regtyp(&p->to))
			if(regtyp(&p->from)) {
				if(copyprop(g, r)) {
					excise(r);
					t++;
				} else
				if(subprop(r) && copyprop(g, r)) {
					excise(r);
					t++;
				}
			}
			break;

		case AMOVBLZX:
		case AMOVWLZX:
		case AMOVBLSX:
		case AMOVWLSX:
			if(regtyp(&p->to)) {
				r1 = rnops(uniqs(r));
				if(r1 != nil) {
					p1 = r1->prog;
					if(p->as == p1->as && p->to.type == p1->from.type){
						p1->as = AMOVL;
						t++;
					}
				}
			}
			break;

		case AADDL:
		case AADDW:
			if(p->from.type != D_CONST || needc(p->link))
				break;
			if(p->from.offset == -1){
				if(p->as == AADDL)
					p->as = ADECL;
				else
					p->as = ADECW;
				p->from = zprog.from;
				break;
			}
			if(p->from.offset == 1){
				if(p->as == AADDL)
					p->as = AINCL;
				else
					p->as = AINCW;
				p->from = zprog.from;
				break;
			}
			break;

		case ASUBL:
		case ASUBW:
			if(p->from.type != D_CONST || needc(p->link))
				break;
			if(p->from.offset == -1) {
				if(p->as == ASUBL)
					p->as = AINCL;
				else
					p->as = AINCW;
				p->from = zprog.from;
				break;
			}
			if(p->from.offset == 1){
				if(p->as == ASUBL)
					p->as = ADECL;
				else
					p->as = ADECW;
				p->from = zprog.from;
				break;
			}
			break;
		}
	}
	if(t)
		goto loop1;

	// MOVSD removal.
	// We never use packed registers, so a MOVSD between registers
	// can be replaced by MOVAPD, which moves the pair of float64s
	// instead of just the lower one.  We only use the lower one, but
	// the processor can do better if we do moves using both.
	for(r=g->start; r!=nil; r=r->link) {
		p = r->prog;
		if(p->as == AMOVSD)
		if(regtyp(&p->from))
		if(regtyp(&p->to))
			p->as = AMOVAPD;
	}
	
	flowend(g);
}
Example #9
0
void
peep(void)
{
	Reg *r, *r1, *r2;
	Prog *p, *p1;
	int t;
/*
 * complete R structure
 */
	t = 0;
	for(r=firstr; r!=R; r=r1) {
		r1 = r->link;
		if(r1 == R)
			break;
		p = r->prog->link;
		while(p != r1->prog)
		switch(p->as) {
		default:
			r2 = rega();
			r->link = r2;
			r2->link = r1;

			r2->prog = p;
			r2->p1 = r;
			r->s1 = r2;
			r2->s1 = r1;
			r1->p1 = r2;

			r = r2;
			t++;

		case ADATA:
		case AGLOBL:
		case ANAME:
		case ASIGNAME:
			p = p->link;
		}
	}

loop1:
	t = 0;
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		if(p->as == AMOVW || p->as == AFMOVS || p->as == AFMOVD)
		if(regtyp(&p->to)) {
			if(regtyp(&p->from))
			if(p->from.type == p->to.type) {
				if(copyprop(r)) {
					excise(r);
					t++;
				} else
				if(subprop(r) && copyprop(r)) {
					excise(r);
					t++;
				}
			}
			if(regzer(&p->from))
			if(p->to.type == D_REG) {
				p->from.type = D_REG;
				p->from.reg = REGZERO;
				if(copyprop(r)) {
					excise(r);
					t++;
				} else
				if(subprop(r) && copyprop(r)) {
					excise(r);
					t++;
				}
			}
		}
	}
	if(t)
		goto loop1;
	/*
	 * look for MOVB x,R; MOVB R,R
	 */
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		default:
			continue;
		case AMOVH:
		case AMOVHZ:
		case AMOVB:
		case AMOVBZ:
			if(p->to.type != D_REG)
				continue;
			break;
		}
		r1 = r->link;
		if(r1 == R)
			continue;
		p1 = r1->prog;
		if(p1->as != p->as)
			continue;
		if(p1->from.type != D_REG || p1->from.reg != p->to.reg)
			continue;
		if(p1->to.type != D_REG || p1->to.reg != p->to.reg)
			continue;
		excise(r1);
	}

	if(debug['Q'] > 1)
		return;	/* allow following code improvement to be suppressed */

	/*
	 * look for OP x,y,R; CMP R, $0 -> OPCC x,y,R
	 * when OP can set condition codes correctly
	 */
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case ACMP:
			if(!regzer(&p->to))
				continue;
			r1 = r->s1;
			if(r1 == R)
				continue;
			switch(r1->prog->as) {
			default:
				continue;
			case ABCL:
			case ABC:
				/* the conditions can be complex and these are currently little used */
				continue;
			case ABEQ:
			case ABGE:
			case ABGT:
			case ABLE:
			case ABLT:
			case ABNE:
			case ABVC:
			case ABVS:
				break;
			}
			r1 = r;
			do
				r1 = uniqp(r1);
			while (r1 != R && r1->prog->as == ANOP);
			if(r1 == R)
				continue;
			p1 = r1->prog;
			if(p1->to.type != D_REG || p1->to.reg != p->from.reg)
				continue;
			switch(p1->as) {
			case ASUB:
			case AADD:
			case AXOR:
			case AOR:
				/* irregular instructions */
				if(p1->from.type == D_CONST)
					continue;
				break;
			}
			switch(p1->as) {
			default:
				continue;
			case AMOVW:
				if(p1->from.type != D_REG)
					continue;
				continue;
			case AANDCC:
			case AANDNCC:
			case AORCC:
			case AORNCC:
			case AXORCC:
			case ASUBCC:
			case AADDCC:
				t = p1->as;
				break;
			/* don't deal with floating point instructions for now */
/*
			case AFABS:	t = AFABSCC; break;
			case AFADD:	t = AFADDCC; break;
			case AFADDS:	t = AFADDSCC; break;
			case AFCTIW:	t = AFCTIWCC; break;
			case AFCTIWZ:	t = AFCTIWZCC; break;
			case AFDIV:	t = AFDIVCC; break;
			case AFDIVS:	t = AFDIVSCC; break;
			case AFMADD:	t = AFMADDCC; break;
			case AFMADDS:	t = AFMADDSCC; break;
			case AFMOVD:	t = AFMOVDCC; break;
			case AFMSUB:	t = AFMSUBCC; break;
			case AFMSUBS:	t = AFMSUBSCC; break;
			case AFMUL:	t = AFMULCC; break;
			case AFMULS:	t = AFMULSCC; break;
			case AFNABS:	t = AFNABSCC; break;
			case AFNEG:	t = AFNEGCC; break;
			case AFNMADD:	t = AFNMADDCC; break;
			case AFNMADDS:	t = AFNMADDSCC; break;
			case AFNMSUB:	t = AFNMSUBCC; break;
			case AFNMSUBS:	t = AFNMSUBSCC; break;
			case AFRSP:	t = AFRSPCC; break;
			case AFSUB:	t = AFSUBCC; break;
			case AFSUBS:	t = AFSUBSCC; break;
			case ACNTLZW:	t = ACNTLZWCC; break;
			case AMTFSB0:	t = AMTFSB0CC; break;
			case AMTFSB1:	t = AMTFSB1CC; break;
*/
			case AADD:	t = AADDCC; break;
			case AADDV:	t = AADDVCC; break;
			case AADDC:	t = AADDCCC; break;
			case AADDCV:	t = AADDCVCC; break;
			case AADDME:	t = AADDMECC; break;
			case AADDMEV:	t = AADDMEVCC; break;
			case AADDE:	t = AADDECC; break;
			case AADDEV:	t = AADDEVCC; break;
			case AADDZE:	t = AADDZECC; break;
			case AADDZEV:	t = AADDZEVCC; break;
			case AAND:	t = AANDCC; break;
			case AANDN:	t = AANDNCC; break;
			case ADIVW:	t = ADIVWCC; break;
			case ADIVWV:	t = ADIVWVCC; break;
			case ADIVWU:	t = ADIVWUCC; break;
			case ADIVWUV:	t = ADIVWUVCC; break;
			case AEQV:	t = AEQVCC; break;
			case AEXTSB:	t = AEXTSBCC; break;
			case AEXTSH:	t = AEXTSHCC; break;
			case AMULHW:	t = AMULHWCC; break;
			case AMULHWU:	t = AMULHWUCC; break;
			case AMULLW:	t = AMULLWCC; break;
			case AMULLWV:	t = AMULLWVCC; break;
			case ANAND:	t = ANANDCC; break;
			case ANEG:	t = ANEGCC; break;
			case ANEGV:	t = ANEGVCC; break;
			case ANOR:	t = ANORCC; break;
			case AOR:	t = AORCC; break;
			case AORN:	t = AORNCC; break;
			case AREM:	t = AREMCC; break;
			case AREMV:	t = AREMVCC; break;
			case AREMU:	t = AREMUCC; break;
			case AREMUV:	t = AREMUVCC; break;
			case ARLWMI:	t = ARLWMICC; break;
			case ARLWNM:	t = ARLWNMCC; break;
			case ASLW:	t = ASLWCC; break;
			case ASRAW:	t = ASRAWCC; break;
			case ASRW:	t = ASRWCC; break;
			case ASUB:	t = ASUBCC; break;
			case ASUBV:	t = ASUBVCC; break;
			case ASUBC:	t = ASUBCCC; break;
			case ASUBCV:	t = ASUBCVCC; break;
			case ASUBME:	t = ASUBMECC; break;
			case ASUBMEV:	t = ASUBMEVCC; break;
			case ASUBE:	t = ASUBECC; break;
			case ASUBEV:	t = ASUBEVCC; break;
			case ASUBZE:	t = ASUBZECC; break;
			case ASUBZEV:	t = ASUBZEVCC; break;
			case AXOR:	t = AXORCC; break;
				break;
			}
			if(debug['Q'])
				print("cmp %P; %P -> ", p1, p);
			p1->as = t;
			if(debug['Q'])
				print("%P\n", p1);
			excise(r);
			continue;
		}
	}
}
Example #10
0
void
peep(Prog *firstp)
{
	Flow *r;
	Graph *g;
	Prog *p;
	int t;

	g = flowstart(firstp, sizeof(Flow));
	if(g == nil)
		return;
	for(r=g->start, t=0; r!=nil; r=r->link, t++)
		r->active = t;

loop1:
	if(debug['P'] && debug['v'])
		dumpit("loop1", g->start, 0);

	t = 0;
	for(r=g->start; r!=nil; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case ASLL:
		case ASRL:
		case ASRA:
			/*
			 * elide shift into D_SHIFT operand of subsequent instruction
			 */
//			if(shiftprop(r)) {
//				excise(r);
//				t++;
//				break;
//			}
			break;

		case AMOVB:
		case AMOVH:
		case AMOVW:
		case AMOVF:
		case AMOVD:
			if(regtyp(&p->from))
			if(p->from.type == p->to.type)
			if(p->scond == C_SCOND_NONE) {
				if(copyprop(g, r)) {
					excise(r);
					t++;
					break;
				}
				if(subprop(r) && copyprop(g, r)) {
					excise(r);
					t++;
					break;
				}
			}
			break;

		case AMOVHS:
		case AMOVHU:
		case AMOVBS:
		case AMOVBU:
			if(p->from.type == D_REG) {
				if(shortprop(r))
					t++;
			}
			break;

#ifdef NOTDEF
			if(p->scond == C_SCOND_NONE)
			if(regtyp(&p->to))
			if(isdconst(&p->from)) {
				constprop(&p->from, &p->to, r->s1);
			}
			break;
#endif
		}
	}
	if(t)
		goto loop1;

	for(r=g->start; r!=nil; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case AEOR:
			/*
			 * EOR -1,x,y => MVN x,y
			 */
			if(isdconst(&p->from) && p->from.offset == -1) {
				p->as = AMVN;
				p->from.type = D_REG;
				if(p->reg != NREG)
					p->from.reg = p->reg;
				else
					p->from.reg = p->to.reg;
				p->reg = NREG;
			}
			break;
		}
	}

	for(r=g->start; r!=nil; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case AMOVW:
		case AMOVB:
		case AMOVBS:
		case AMOVBU:
			if(p->from.type == D_OREG && p->from.offset == 0)
				xtramodes(g, r, &p->from);
			else
			if(p->to.type == D_OREG && p->to.offset == 0)
				xtramodes(g, r, &p->to);
			else
				continue;
			break;
//		case ACMP:
//			/*
//			 * elide CMP $0,x if calculation of x can set condition codes
//			 */
//			if(isdconst(&p->from) || p->from.offset != 0)
//				continue;
//			r2 = r->s1;
//			if(r2 == nil)
//				continue;
//			t = r2->prog->as;
//			switch(t) {
//			default:
//				continue;
//			case ABEQ:
//			case ABNE:
//			case ABMI:
//			case ABPL:
//				break;
//			case ABGE:
//				t = ABPL;
//				break;
//			case ABLT:
//				t = ABMI;
//				break;
//			case ABHI:
//				t = ABNE;
//				break;
//			case ABLS:
//				t = ABEQ;
//				break;
//			}
//			r1 = r;
//			do
//				r1 = uniqp(r1);
//			while (r1 != nil && r1->prog->as == ANOP);
//			if(r1 == nil)
//				continue;
//			p1 = r1->prog;
//			if(p1->to.type != D_REG)
//				continue;
//			if(p1->to.reg != p->reg)
//			if(!(p1->as == AMOVW && p1->from.type == D_REG && p1->from.reg == p->reg))
//				continue;
//
//			switch(p1->as) {
//			default:
//				continue;
//			case AMOVW:
//				if(p1->from.type != D_REG)
//					continue;
//			case AAND:
//			case AEOR:
//			case AORR:
//			case ABIC:
//			case AMVN:
//			case ASUB:
//			case ARSB:
//			case AADD:
//			case AADC:
//			case ASBC:
//			case ARSC:
//				break;
//			}
//			p1->scond |= C_SBIT;
//			r2->prog->as = t;
//			excise(r);
//			continue;
		}
	}

//	predicate(g);

	flowend(g);
}
Example #11
0
void
peep(void)
{
	Reg *r, *r1, *r2;
	Prog *p, *p1;
	int t;

	p1 = nil;
	USED(p1);		// ... in unreachable code...
/*
 * complete R structure
 */
	for(r=firstr; r!=R; r=r1) {
		r1 = r->link;
		if(r1 == R)
			break;
		p = r->prog->link;
		while(p != r1->prog)
		switch(p->as) {
		default:
			r2 = rega();
			r->link = r2;
			r2->link = r1;

			r2->prog = p;
			r2->p1 = r;
			r->s1 = r2;
			r2->s1 = r1;
			r1->p1 = r2;

			r = r2;

		case ADATA:
		case AGLOBL:
		case ANAME:
		case ASIGNAME:
			p = p->link;
		}
	}
//dumpit("begin", firstr);

loop1:

	t = 0;
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case ASLL:
		case ASRL:
		case ASRA:
			/*
			 * elide shift into D_SHIFT operand of subsequent instruction
			 */
//			if(shiftprop(r)) {
//				excise(r);
//				t++;
//				break;
//			}
			break;

		case AMOVW:
		case AMOVF:
		case AMOVD:
			if(regtyp(&p->from))
			if(p->from.type == p->to.type)
			if(p->scond == C_SCOND_NONE) {
				if(copyprop(r)) {
					excise(r);
					t++;
					break;
				}
				if(subprop(r) && copyprop(r)) {
					excise(r);
					t++;
					break;
				}
			}
			break;

#ifdef	NOTDEF
			if(p->scond == C_SCOND_NONE)
			if(regtyp(&p->to))
			if(isdconst(&p->from)) {
				constprop(&p->from, &p->to, r->s1);
			}
			break;
#endif
		}
	}
	if(t)
		goto loop1;

return;

#ifdef	NOTDEF
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
//		case AEOR:
//			/*
//			 * EOR -1,x,y => MVN x,y
//			 */
//			if(isdconst(&p->from) && p->from.offset == -1) {
//				p->as = AMVN;
//				p->from.type = D_REG;
//				if(p->reg != NREG)
//					p->from.reg = p->reg;
//				else
//					p->from.reg = p->to.reg;
//				p->reg = NREG;
//			}
//			break;

		case AMOVH:
		case AMOVHU:
		case AMOVB:
		case AMOVBU:
			/*
			 * look for MOVB x,R; MOVB R,R
			 */
			if(p->to.type != D_REG)
				break;
			if(r1 == R)
				break;
			p1 = r1->prog;
			if(p1->as != p->as)
				break;
			if(p1->from.type != D_REG || p1->from.reg != p->to.reg)
				break;
			if(p1->to.type != D_REG || p1->to.reg != p->to.reg)
				break;
			excise(r1);
			break;
		}
		r1 = r->link;
	}

//	for(r=firstr; r!=R; r=r->link) {
//		p = r->prog;
//		switch(p->as) {
//		case AMOVW:
//		case AMOVB:
//		case AMOVBU:
//			if(p->from.type == D_OREG && p->from.offset == 0)
//				xtramodes(r, &p->from);
//			else
//			if(p->to.type == D_OREG && p->to.offset == 0)
//				xtramodes(r, &p->to);
//			else
//				continue;
//			break;
//		case ACMP:
//			/*
//			 * elide CMP $0,x if calculation of x can set condition codes
//			 */
//			if(isdconst(&p->from) || p->from.offset != 0)
//				continue;
//			r2 = r->s1;
//			if(r2 == R)
//				continue;
//			t = r2->prog->as;
//			switch(t) {
//			default:
//				continue;
//			case ABEQ:
//			case ABNE:
//			case ABMI:
//			case ABPL:
//				break;
//			case ABGE:
//				t = ABPL;
//				break;
//			case ABLT:
//				t = ABMI;
//				break;
//			case ABHI:
//				t = ABNE;
//				break;
//			case ABLS:
//				t = ABEQ;
//				break;
//			}
//			r1 = r;
//			do
//				r1 = uniqp(r1);
//			while (r1 != R && r1->prog->as == ANOP);
//			if(r1 == R)
//				continue;
//			p1 = r1->prog;
//			if(p1->to.type != D_REG)
//				continue;
//			if(p1->to.reg != p->reg)
//			if(!(p1->as == AMOVW && p1->from.type == D_REG && p1->from.reg == p->reg))
//				continue;
//
//			switch(p1->as) {
//			default:
//				continue;
//			case AMOVW:
//				if(p1->from.type != D_REG)
//					continue;
//			case AAND:
//			case AEOR:
//			case AORR:
//			case ABIC:
//			case AMVN:
//			case ASUB:
//			case ARSB:
//			case AADD:
//			case AADC:
//			case ASBC:
//			case ARSC:
//				break;
//			}
//			p1->scond |= C_SBIT;
//			r2->prog->as = t;
//			excise(r);
//			continue;
//		}
//	}

	predicate();
#endif
}
Example #12
0
void
peep(void)
{
	Reg *r, *r1, *r2;
	Prog *p, *p1;
	int t;

	/*
	 * complete R structure
	 */
	t = 0;
	for(r=firstr; r!=R; r=r1) {
		r1 = r->link;
		if(r1 == R)
			break;
		p = r->prog->link;
		while(p != r1->prog)
		switch(p->as) {
		default:
			r2 = rega();
			r->link = r2;
			r2->link = r1;

			r2->prog = p;
			p->reg = r2;

			r2->p1 = r;
			r->s1 = r2;
			r2->s1 = r1;
			r1->p1 = r2;

			r = r2;
			t++;

		case ADATA:
		case AGLOBL:
		case ANAME:
		case ASIGNAME:
			p = p->link;
		}
	}

	// byte, word arithmetic elimination.
	elimshortmov(r);

	// constant propagation
	// find MOV $con,R followed by
	// another MOV $con,R without
	// setting R in the interim
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case ALEAL:
			if(regtyp(&p->to))
			if(p->from.sym != S)
				conprop(r);
			break;

		case AMOVB:
		case AMOVW:
		case AMOVL:
		case AMOVSS:
		case AMOVSD:
			if(regtyp(&p->to))
			if(p->from.type == D_CONST)
				conprop(r);
			break;
		}
	}

loop1:
	if(debug['P'] && debug['v'])
		dumpit("loop1", firstr);

	t = 0;
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		switch(p->as) {
		case AMOVL:
		case AMOVSS:
		case AMOVSD:
			if(regtyp(&p->to))
			if(regtyp(&p->from)) {
				if(copyprop(r)) {
					excise(r);
					t++;
				} else
				if(subprop(r) && copyprop(r)) {
					excise(r);
					t++;
				}
			}
			break;

		case AMOVBLZX:
		case AMOVWLZX:
		case AMOVBLSX:
		case AMOVWLSX:
			if(regtyp(&p->to)) {
				r1 = rnops(uniqs(r));
				if(r1 != R) {
					p1 = r1->prog;
					if(p->as == p1->as && p->to.type == p1->from.type){
						p1->as = AMOVL;
						t++;
					}
				}
			}
			break;

		case AADDL:
		case AADDW:
			if(p->from.type != D_CONST || needc(p->link))
				break;
			if(p->from.offset == -1){
				if(p->as == AADDL)
					p->as = ADECL;
				else
					p->as = ADECW;
				p->from = zprog.from;
				break;
			}
			if(p->from.offset == 1){
				if(p->as == AADDL)
					p->as = AINCL;
				else
					p->as = AINCW;
				p->from = zprog.from;
				break;
			}
			break;

		case ASUBL:
		case ASUBW:
			if(p->from.type != D_CONST || needc(p->link))
				break;
			if(p->from.offset == -1) {
				if(p->as == ASUBL)
					p->as = AINCL;
				else
					p->as = AINCW;
				p->from = zprog.from;
				break;
			}
			if(p->from.offset == 1){
				if(p->as == ASUBL)
					p->as = ADECL;
				else
					p->as = ADECW;
				p->from = zprog.from;
				break;
			}
			break;
		}
	}
	if(t)
		goto loop1;

	// MOVSD removal.
	// We never use packed registers, so a MOVSD between registers
	// can be replaced by MOVAPD, which moves the pair of float64s
	// instead of just the lower one.  We only use the lower one, but
	// the processor can do better if we do moves using both.
	for(r=firstr; r!=R; r=r->link) {
		p = r->prog;
		if(p->as == AMOVSD)
		if(regtyp(&p->from))
		if(regtyp(&p->to))
			p->as = AMOVAPD;
	}
}