Ejemplos de Addr.Reg en Golang

Ejemplo n.º 1

Archivo: peep.go Proyecto: ckeyer/gosrc

/*
 * substitute s for v in a
 * return failure to substitute
 */
func copysub(a *obj.Addr, v *obj.Addr, s *obj.Addr, f int) int {
	if f != 0 {
		if copyau(a, v) {
			if a.Type == obj.TYPE_SHIFT {
				if a.Offset&0xf == int64(v.Reg-arm.REG_R0) {
					a.Offset = a.Offset&^0xf | int64(s.Reg)&0xf
				}
				if (a.Offset&(1<<4) != 0) && (a.Offset>>8)&0xf == int64(v.Reg-arm.REG_R0) {
					a.Offset = a.Offset&^(0xf<<8) | (int64(s.Reg)&0xf)<<8
				}
			} else if a.Type == obj.TYPE_REGREG || a.Type == obj.TYPE_REGREG2 {
				if a.Offset == int64(v.Reg) {
					a.Offset = int64(s.Reg)
				}
				if a.Reg == v.Reg {
					a.Reg = s.Reg
				}
			} else {
				a.Reg = s.Reg
			}
		}
	}

	return 0
}

Ejemplo n.º 2

Archivo: obj6.go Proyecto: ckeyer/gosrc

func nacladdr(ctxt *obj.Link, p *obj.Prog, a *obj.Addr) {
	if p.As == ALEAL || p.As == ALEAQ {
		return
	}

	if a.Reg == REG_BP {
		ctxt.Diag("invalid address: %v", p)
		return
	}

	if a.Reg == REG_TLS {
		a.Reg = REG_BP
	}
	if a.Type == obj.TYPE_MEM && a.Name == obj.NAME_NONE {
		switch a.Reg {
		// all ok
		case REG_BP, REG_SP, REG_R15:
			break

		default:
			if a.Index != REG_NONE {
				ctxt.Diag("invalid address %v", p)
			}
			a.Index = a.Reg
			if a.Index != REG_NONE {
				a.Scale = 1
			}
			a.Reg = REG_R15
		}
	}
}

Ejemplo n.º 3

Archivo: peep.go Proyecto: ckeyer/gosrc

// copysub replaces v with s in a if f!=0 or indicates it if could if f==0.
// Returns 1 on failure to substitute (it always succeeds on mips).
func copysub(a *obj.Addr, v *obj.Addr, s *obj.Addr, f int) int {
	if f != 0 {
		if copyau(a, v) {
			a.Reg = s.Reg
		}
	}
	return 0
}

Ejemplo n.º 4

Archivo: reg.go Proyecto: ckeyer/gosrc

func addreg(a *obj.Addr, rn int) {
	a.Sym = nil
	a.Node = nil
	a.Offset = 0
	a.Type = obj.TYPE_REG
	a.Reg = int16(rn)
	a.Name = 0

	Ostats.Ncvtreg++
}

Ejemplo n.º 5

Archivo: peep.go Proyecto: ckeyer/gosrc

/*
 * substitute s for v in a
 * return failure to substitute
 */
func copysub(a *obj.Addr, v *obj.Addr, s *obj.Addr, f int) int {
	if copyas(a, v) {
		reg := int(int(s.Reg))
		if reg >= x86.REG_AX && reg <= x86.REG_R15 || reg >= x86.REG_X0 && reg <= x86.REG_X0+15 {
			if f != 0 {
				a.Reg = int16(reg)
			}
		}

		return 0
	}

	if regtyp(v) {
		reg := int(int(v.Reg))
		if a.Type == obj.TYPE_MEM && int(a.Reg) == reg {
			if (s.Reg == x86.REG_BP || s.Reg == x86.REG_R13) && a.Index != x86.REG_NONE {
				return 1 /* can't use BP-base with index */
			}
			if f != 0 {
				a.Reg = s.Reg
			}
		}

		//			return 0;
		if int(a.Index) == reg {
			if f != 0 {
				a.Index = s.Reg
			}
			return 0
		}

		return 0
	}

	return 0
}

Ejemplo n.º 6

Archivo: parse.go Proyecto: ckeyer/gosrc

// registerIndirect parses the general form of a register indirection.
// It is can be (R1), (R2*scale), or (R1)(R2*scale) where R1 may be a simple
// register or register pair R:R or (R, R) or (R+R).
// Or it might be a pseudo-indirection like (FP).
// We are sitting on the opening parenthesis.
func (p *Parser) registerIndirect(a *obj.Addr, prefix rune) {
	p.get('(')
	tok := p.next()
	name := tok.String()
	r1, r2, scale, ok := p.register(name, 0)
	if !ok {
		p.errorf("indirect through non-register %s", tok)
	}
	p.get(')')
	a.Type = obj.TYPE_MEM
	if r1 < 0 {
		// Pseudo-register reference.
		if r2 != 0 {
			p.errorf("cannot use pseudo-register in pair")
			return
		}
		// For SB, SP, and FP, there must be a name here. 0(FP) is not legal.
		if name != "PC" && a.Name == obj.NAME_NONE {
			p.errorf("cannot reference %s without a symbol", name)
		}
		p.setPseudoRegister(a, name, false, prefix)
		return
	}
	a.Reg = r1
	if r2 != 0 {
		// TODO: Consistency in the encoding would be nice here.
		if p.arch.Thechar == '5' || p.arch.Thechar == '7' {
			// Special form
			// ARM: destination register pair (R1, R2).
			// ARM64: register pair (R1, R2) for LDP/STP.
			if prefix != 0 || scale != 0 {
				p.errorf("illegal address mode for register pair")
				return
			}
			a.Type = obj.TYPE_REGREG
			a.Offset = int64(r2)
			// Nothing may follow
			return
		}
		if p.arch.Thechar == '9' {
			// Special form for PPC64: (R1+R2); alias for (R1)(R2*1).
			if prefix != 0 || scale != 0 {
				p.errorf("illegal address mode for register+register")
				return
			}
			a.Type = obj.TYPE_MEM
			a.Scale = 1
			a.Index = r2
			// Nothing may follow.
			return
		}
	}
	if r2 != 0 {
		p.errorf("indirect through register pair")
	}
	if prefix == '$' {
		a.Type = obj.TYPE_ADDR
	}
	if r1 == arch.RPC && prefix != 0 {
		p.errorf("illegal addressing mode for PC")
	}
	if scale == 0 && p.peek() == '(' {
		// General form (R)(R*scale).
		p.next()
		tok := p.next()
		r1, r2, scale, ok = p.register(tok.String(), 0)
		if !ok {
			p.errorf("indirect through non-register %s", tok)
		}
		if r2 != 0 {
			p.errorf("unimplemented two-register form")
		}
		a.Index = r1
		a.Scale = int16(scale)
		p.get(')')
	} else if scale != 0 {
		// First (R) was missing, all we have is (R*scale).
		a.Reg = 0
		a.Index = r1
		a.Scale = int16(scale)
	}
}

Ejemplo n.º 7

Archivo: parse.go Proyecto: ckeyer/gosrc

// operand parses a general operand and stores the result in *a.
func (p *Parser) operand(a *obj.Addr) bool {
	//fmt.Printf("Operand: %v\n", p.input)
	if len(p.input) == 0 {
		p.errorf("empty operand: cannot happen")
		return false
	}
	// General address (with a few exceptions) looks like
	//	$sym±offset(SB)(reg)(index*scale)
	// Exceptions are:
	//
	//	R1
	//	offset
	//	$offset
	// Every piece is optional, so we scan left to right and what
	// we discover tells us where we are.

	// Prefix: $.
	var prefix rune
	switch tok := p.peek(); tok {
	case '$', '*':
		prefix = rune(tok)
		p.next()
	}

	// Symbol: sym±offset(SB)
	tok := p.next()
	name := tok.String()
	if tok.ScanToken == scanner.Ident && !p.atStartOfRegister(name) {
		// We have a symbol. Parse $sym±offset(symkind)
		p.symbolReference(a, name, prefix)
		// fmt.Printf("SYM %s\n", obj.Dconv(&emptyProg, 0, a))
		if p.peek() == scanner.EOF {
			return true
		}
	}

	// Special register list syntax for arm: [R1,R3-R7]
	if tok.ScanToken == '[' {
		if prefix != 0 {
			p.errorf("illegal use of register list")
		}
		p.registerList(a)
		p.expect(scanner.EOF)
		return true
	}

	// Register: R1
	if tok.ScanToken == scanner.Ident && p.atStartOfRegister(name) {
		if p.atRegisterShift() {
			// ARM shifted register such as R1<<R2 or R1>>2.
			a.Type = obj.TYPE_SHIFT
			a.Offset = p.registerShift(tok.String(), prefix)
			if p.peek() == '(' {
				// Can only be a literal register here.
				p.next()
				tok := p.next()
				name := tok.String()
				if !p.atStartOfRegister(name) {
					p.errorf("expected register; found %s", name)
				}
				a.Reg, _ = p.registerReference(name)
				p.get(')')
			}
		} else if r1, r2, scale, ok := p.register(tok.String(), prefix); ok {
			if scale != 0 {
				p.errorf("expected simple register reference")
			}
			a.Type = obj.TYPE_REG
			a.Reg = r1
			if r2 != 0 {
				// Form is R1:R2. It is on RHS and the second register
				// needs to go into the LHS.
				panic("cannot happen (Addr.Reg2)")
			}
		}
		// fmt.Printf("REG %s\n", obj.Dconv(&emptyProg, 0, a))
		p.expect(scanner.EOF)
		return true
	}

	// Constant.
	haveConstant := false
	switch tok.ScanToken {
	case scanner.Int, scanner.Float, scanner.String, scanner.Char, '+', '-', '~':
		haveConstant = true
	case '(':
		// Could be parenthesized expression or (R). Must be something, though.
		tok := p.next()
		if tok.ScanToken == scanner.EOF {
			p.errorf("missing right parenthesis")
			return false
		}
		rname := tok.String()
		p.back()
		haveConstant = !p.atStartOfRegister(rname)
		if !haveConstant {
			p.back() // Put back the '('.
		}
	}
	if haveConstant {
		p.back()
		if p.have(scanner.Float) {
			if prefix != '$' {
				p.errorf("floating-point constant must be an immediate")
			}
			a.Type = obj.TYPE_FCONST
			a.Val = p.floatExpr()
			// fmt.Printf("FCONST %s\n", obj.Dconv(&emptyProg, 0, a))
			p.expect(scanner.EOF)
			return true
		}
		if p.have(scanner.String) {
			if prefix != '$' {
				p.errorf("string constant must be an immediate")
				return false
			}
			str, err := strconv.Unquote(p.get(scanner.String).String())
			if err != nil {
				p.errorf("string parse error: %s", err)
			}
			a.Type = obj.TYPE_SCONST
			a.Val = str
			// fmt.Printf("SCONST %s\n", obj.Dconv(&emptyProg, 0, a))
			p.expect(scanner.EOF)
			return true
		}
		a.Offset = int64(p.expr())
		if p.peek() != '(' {
			switch prefix {
			case '$':
				a.Type = obj.TYPE_CONST
			case '*':
				a.Type = obj.TYPE_INDIR // Can appear but is illegal, will be rejected by the linker.
			default:
				a.Type = obj.TYPE_MEM
			}
			// fmt.Printf("CONST %d %s\n", a.Offset, obj.Dconv(&emptyProg, 0, a))
			p.expect(scanner.EOF)
			return true
		}
		// fmt.Printf("offset %d \n", a.Offset)
	}

	// Register indirection: (reg) or (index*scale). We are on the opening paren.
	p.registerIndirect(a, prefix)
	// fmt.Printf("DONE %s\n", p.arch.Dconv(&emptyProg, 0, a))

	p.expect(scanner.EOF)
	return true
}

Ejemplo n.º 8

Archivo: peep.go Proyecto: ckeyer/gosrc

/*
 * xtramodes enables the ARM post increment and
 * shift offset addressing modes to transform
 *   MOVW   0(R3),R1
 *   ADD    $4,R3,R3
 * into
 *   MOVW.P 4(R3),R1
 * and
 *   ADD    R0,R1
 *   MOVBU  0(R1),R0
 * into
 *   MOVBU  R0<<0(R1),R0
 */
func xtramodes(g *gc.Graph, r *gc.Flow, a *obj.Addr) bool {
	p := (*obj.Prog)(r.Prog)
	v := obj.Addr(*a)
	v.Type = obj.TYPE_REG
	r1 := (*gc.Flow)(findpre(r, &v))
	if r1 != nil {
		p1 := r1.Prog
		if p1.To.Type == obj.TYPE_REG && p1.To.Reg == v.Reg {
			switch p1.As {
			case arm.AADD:
				if p1.Scond&arm.C_SBIT != 0 {
					// avoid altering ADD.S/ADC sequences.
					break
				}

				if p1.From.Type == obj.TYPE_REG || (p1.From.Type == obj.TYPE_SHIFT && p1.From.Offset&(1<<4) == 0 && ((p.As != arm.AMOVB && p.As != arm.AMOVBS) || (a == &p.From && p1.From.Offset&^0xf == 0))) || ((p1.From.Type == obj.TYPE_ADDR || p1.From.Type == obj.TYPE_CONST) && p1.From.Offset > -4096 && p1.From.Offset < 4096) {
					if nochange(gc.Uniqs(r1), r, p1) {
						if a != &p.From || v.Reg != p.To.Reg {
							if finduse(g, r.S1, &v) {
								if p1.Reg == 0 || p1.Reg == v.Reg {
									/* pre-indexing */
									p.Scond |= arm.C_WBIT
								} else {
									return false
								}
							}
						}

						switch p1.From.Type {
						/* register offset */
						case obj.TYPE_REG:
							if gc.Nacl {
								return false
							}
							*a = obj.Addr{}
							a.Type = obj.TYPE_SHIFT
							a.Offset = int64(p1.From.Reg) & 15

							/* scaled register offset */
						case obj.TYPE_SHIFT:
							if gc.Nacl {
								return false
							}
							*a = obj.Addr{}
							a.Type = obj.TYPE_SHIFT
							fallthrough

							/* immediate offset */
						case obj.TYPE_CONST,
							obj.TYPE_ADDR:
							a.Offset = p1.From.Offset
						}

						if p1.Reg != 0 {
							a.Reg = p1.Reg
						}
						excise(r1)
						return true
					}
				}

			case arm.AMOVW:
				if p1.From.Type == obj.TYPE_REG {
					r2 := (*gc.Flow)(findinc(r1, r, &p1.From))
					if r2 != nil {
						var r3 *gc.Flow
						for r3 = gc.Uniqs(r2); r3.Prog.As == obj.ANOP; r3 = gc.Uniqs(r3) {
						}
						if r3 == r {
							/* post-indexing */
							p1 := r2.Prog

							a.Reg = p1.To.Reg
							a.Offset = p1.From.Offset
							p.Scond |= arm.C_PBIT
							if !finduse(g, r, &r1.Prog.To) {
								excise(r1)
							}
							excise(r2)
							return true
						}
					}
				}
			}
		}
	}

	if a != &p.From || a.Reg != p.To.Reg {
		r1 := (*gc.Flow)(findinc(r, nil, &v))
		if r1 != nil {
			/* post-indexing */
			p1 := r1.Prog

			a.Offset = p1.From.Offset
			p.Scond |= arm.C_PBIT
			excise(r1)
			return true
		}
	}

	return false
}

Ejemplo n.º 9

Archivo: gsubr.go Proyecto: ckeyer/gosrc

// Naddr rewrites a to refer to n.
// It assumes that a is zeroed on entry.
func Naddr(a *obj.Addr, n *Node) {
	if n == nil {
		return
	}

	if n.Type != nil && n.Type.Etype != TIDEAL {
		// TODO(rsc): This is undone by the selective clearing of width below,
		// to match architectures that were not as aggressive in setting width
		// during naddr. Those widths must be cleared to avoid triggering
		// failures in gins when it detects real but heretofore latent (and one
		// hopes innocuous) type mismatches.
		// The type mismatches should be fixed and the clearing below removed.
		dowidth(n.Type)

		a.Width = n.Type.Width
	}

	switch n.Op {
	default:
		a := a // copy to let escape into Ctxt.Dconv
		Debug['h'] = 1
		Dump("naddr", n)
		Fatalf("naddr: bad %v %v", Oconv(int(n.Op), 0), Ctxt.Dconv(a))

	case OREGISTER:
		a.Type = obj.TYPE_REG
		a.Reg = n.Reg
		a.Sym = nil
		if Thearch.Thechar == '8' { // TODO(rsc): Never clear a->width.
			a.Width = 0
		}

	case OINDREG:
		a.Type = obj.TYPE_MEM
		a.Reg = n.Reg
		a.Sym = Linksym(n.Sym)
		a.Offset = n.Xoffset
		if a.Offset != int64(int32(a.Offset)) {
			Yyerror("offset %d too large for OINDREG", a.Offset)
		}
		if Thearch.Thechar == '8' { // TODO(rsc): Never clear a->width.
			a.Width = 0
		}

		// n->left is PHEAP ONAME for stack parameter.
	// compute address of actual parameter on stack.
	case OPARAM:
		a.Etype = uint8(Simtype[n.Left.Type.Etype])

		a.Width = n.Left.Type.Width
		a.Offset = n.Xoffset
		a.Sym = Linksym(n.Left.Sym)
		a.Type = obj.TYPE_MEM
		a.Name = obj.NAME_PARAM
		a.Node = n.Left.Orig

	case OCLOSUREVAR:
		if !Curfn.Func.Needctxt {
			Fatalf("closurevar without needctxt")
		}
		a.Type = obj.TYPE_MEM
		a.Reg = int16(Thearch.REGCTXT)
		a.Sym = nil
		a.Offset = n.Xoffset

	case OCFUNC:
		Naddr(a, n.Left)
		a.Sym = Linksym(n.Left.Sym)

	case ONAME:
		a.Etype = 0
		if n.Type != nil {
			a.Etype = uint8(Simtype[n.Type.Etype])
		}
		a.Offset = n.Xoffset
		s := n.Sym
		a.Node = n.Orig

		//if(a->node >= (Node*)&n)
		//	fatal("stack node");
		if s == nil {
			s = Lookup(".noname")
		}
		if n.Name.Method {
			if n.Type != nil {
				if n.Type.Sym != nil {
					if n.Type.Sym.Pkg != nil {
						s = Pkglookup(s.Name, n.Type.Sym.Pkg)
					}
				}
			}
		}

		a.Type = obj.TYPE_MEM
		switch n.Class {
		default:
			Fatalf("naddr: ONAME class %v %d\n", n.Sym, n.Class)

		case PEXTERN:
			a.Name = obj.NAME_EXTERN

		case PAUTO:
			a.Name = obj.NAME_AUTO

		case PPARAM, PPARAMOUT:
			a.Name = obj.NAME_PARAM

		case PFUNC:
			a.Name = obj.NAME_EXTERN
			a.Type = obj.TYPE_ADDR
			a.Width = int64(Widthptr)
			s = funcsym(s)
		}

		a.Sym = Linksym(s)

	case ODOT:
		// A special case to make write barriers more efficient.
		// Taking the address of the first field of a named struct
		// is the same as taking the address of the struct.
		if n.Left.Type.Etype != TSTRUCT || n.Left.Type.Type.Sym != n.Right.Sym {
			Debug['h'] = 1
			Dump("naddr", n)
			Fatalf("naddr: bad %v %v", Oconv(int(n.Op), 0), Ctxt.Dconv(a))
		}
		Naddr(a, n.Left)

	case OLITERAL:
		if Thearch.Thechar == '8' {
			a.Width = 0
		}
		switch n.Val().Ctype() {
		default:
			Fatalf("naddr: const %v", Tconv(n.Type, obj.FmtLong))

		case CTFLT:
			a.Type = obj.TYPE_FCONST
			a.Val = mpgetflt(n.Val().U.(*Mpflt))

		case CTINT, CTRUNE:
			a.Sym = nil
			a.Type = obj.TYPE_CONST
			a.Offset = Mpgetfix(n.Val().U.(*Mpint))

		case CTSTR:
			datagostring(n.Val().U.(string), a)

		case CTBOOL:
			a.Sym = nil
			a.Type = obj.TYPE_CONST
			a.Offset = int64(obj.Bool2int(n.Val().U.(bool)))

		case CTNIL:
			a.Sym = nil
			a.Type = obj.TYPE_CONST
			a.Offset = 0
		}

	case OADDR:
		Naddr(a, n.Left)
		a.Etype = uint8(Tptr)
		if Thearch.Thechar != '0' && Thearch.Thechar != '5' && Thearch.Thechar != '7' && Thearch.Thechar != '9' { // TODO(rsc): Do this even for arm, ppc64.
			a.Width = int64(Widthptr)
		}
		if a.Type != obj.TYPE_MEM {
			a := a // copy to let escape into Ctxt.Dconv
			Fatalf("naddr: OADDR %v (from %v)", Ctxt.Dconv(a), Oconv(int(n.Left.Op), 0))
		}
		a.Type = obj.TYPE_ADDR

		// itable of interface value
	case OITAB:
		Naddr(a, n.Left)

		if a.Type == obj.TYPE_CONST && a.Offset == 0 {
			break // itab(nil)
		}
		a.Etype = uint8(Tptr)
		a.Width = int64(Widthptr)

		// pointer in a string or slice
	case OSPTR:
		Naddr(a, n.Left)

		if a.Type == obj.TYPE_CONST && a.Offset == 0 {
			break // ptr(nil)
		}
		a.Etype = uint8(Simtype[Tptr])
		a.Offset += int64(Array_array)
		a.Width = int64(Widthptr)

		// len of string or slice
	case OLEN:
		Naddr(a, n.Left)

		if a.Type == obj.TYPE_CONST && a.Offset == 0 {
			break // len(nil)
		}
		a.Etype = uint8(Simtype[TUINT])
		a.Offset += int64(Array_nel)
		if Thearch.Thechar != '5' { // TODO(rsc): Do this even on arm.
			a.Width = int64(Widthint)
		}

		// cap of string or slice
	case OCAP:
		Naddr(a, n.Left)

		if a.Type == obj.TYPE_CONST && a.Offset == 0 {
			break // cap(nil)
		}
		a.Etype = uint8(Simtype[TUINT])
		a.Offset += int64(Array_cap)
		if Thearch.Thechar != '5' { // TODO(rsc): Do this even on arm.
			a.Width = int64(Widthint)
		}
	}
	return
}