Exemplo n.º 1
0
// blockcopy copies w bytes from &n to &res
func blockcopy(n, res *gc.Node, osrc, odst, w int64) {
	var dst gc.Node
	var src gc.Node
	if n.Ullman >= res.Ullman {
		gc.Agenr(n, &dst, res) // temporarily use dst
		gc.Regalloc(&src, gc.Types[gc.Tptr], nil)
		gins(s390x.AMOVD, &dst, &src)
		if res.Op == gc.ONAME {
			gc.Gvardef(res)
		}
		gc.Agen(res, &dst)
	} else {
		if res.Op == gc.ONAME {
			gc.Gvardef(res)
		}
		gc.Agenr(res, &dst, res)
		gc.Agenr(n, &src, nil)
	}
	defer gc.Regfree(&src)
	defer gc.Regfree(&dst)

	var tmp gc.Node
	gc.Regalloc(&tmp, gc.Types[gc.Tptr], nil)
	defer gc.Regfree(&tmp)

	offset := int64(0)
	dir := _FORWARDS
	if osrc < odst && odst < osrc+w {
		// Reverse. Can't use MVC, fall back onto basic moves.
		dir = _BACKWARDS
		const copiesPerIter = 2
		if w >= 8*copiesPerIter {
			cnt := w - (w % (8 * copiesPerIter))
			ginscon(s390x.AADD, w, &src)
			ginscon(s390x.AADD, w, &dst)

			var end gc.Node
			gc.Regalloc(&end, gc.Types[gc.Tptr], nil)
			p := gins(s390x.ASUB, nil, &end)
			p.From.Type = obj.TYPE_CONST
			p.From.Offset = cnt
			p.Reg = src.Reg

			var label *obj.Prog
			for i := 0; i < copiesPerIter; i++ {
				offset := int64(-8 * (i + 1))
				p := gins(s390x.AMOVD, &src, &tmp)
				p.From.Type = obj.TYPE_MEM
				p.From.Offset = offset
				if i == 0 {
					label = p
				}
				p = gins(s390x.AMOVD, &tmp, &dst)
				p.To.Type = obj.TYPE_MEM
				p.To.Offset = offset
			}

			ginscon(s390x.ASUB, 8*copiesPerIter, &src)
			ginscon(s390x.ASUB, 8*copiesPerIter, &dst)
			gins(s390x.ACMP, &src, &end)
			gc.Patch(gc.Gbranch(s390x.ABNE, nil, 0), label)
			gc.Regfree(&end)

			w -= cnt
		} else {
			offset = w
		}
	}

	if dir == _FORWARDS && w > 1024 {
		// Loop over MVCs
		cnt := w - (w % 256)

		var end gc.Node
		gc.Regalloc(&end, gc.Types[gc.Tptr], nil)
		add := gins(s390x.AADD, nil, &end)
		add.From.Type = obj.TYPE_CONST
		add.From.Offset = cnt
		add.Reg = src.Reg

		mvc := gins(s390x.AMVC, &src, &dst)
		mvc.From.Type = obj.TYPE_MEM
		mvc.From.Offset = 0
		mvc.To.Type = obj.TYPE_MEM
		mvc.To.Offset = 0
		mvc.From3 = new(obj.Addr)
		mvc.From3.Type = obj.TYPE_CONST
		mvc.From3.Offset = 256

		ginscon(s390x.AADD, 256, &src)
		ginscon(s390x.AADD, 256, &dst)
		gins(s390x.ACMP, &src, &end)
		gc.Patch(gc.Gbranch(s390x.ABNE, nil, 0), mvc)
		gc.Regfree(&end)

		w -= cnt
	}

	for w > 0 {
		cnt := w
		// If in reverse we can only do 8, 4, 2 or 1 bytes at a time.
		if dir == _BACKWARDS {
			switch {
			case cnt >= 8:
				cnt = 8
			case cnt >= 4:
				cnt = 4
			case cnt >= 2:
				cnt = 2
			}
		} else if cnt > 256 {
			cnt = 256
		}

		switch cnt {
		case 8, 4, 2, 1:
			op := s390x.AMOVB
			switch cnt {
			case 8:
				op = s390x.AMOVD
			case 4:
				op = s390x.AMOVW
			case 2:
				op = s390x.AMOVH
			}
			load := gins(op, &src, &tmp)
			load.From.Type = obj.TYPE_MEM
			load.From.Offset = offset

			store := gins(op, &tmp, &dst)
			store.To.Type = obj.TYPE_MEM
			store.To.Offset = offset

			if dir == _BACKWARDS {
				load.From.Offset -= cnt
				store.To.Offset -= cnt
			}

		default:
			p := gins(s390x.AMVC, &src, &dst)
			p.From.Type = obj.TYPE_MEM
			p.From.Offset = offset
			p.To.Type = obj.TYPE_MEM
			p.To.Offset = offset
			p.From3 = new(obj.Addr)
			p.From3.Type = obj.TYPE_CONST
			p.From3.Offset = cnt
		}

		switch dir {
		case _FORWARDS:
			offset += cnt
		case _BACKWARDS:
			offset -= cnt
		}
		w -= cnt
	}
}
Exemplo n.º 2
0
func blockcopy(n, res *gc.Node, osrc, odst, w int64) {
	// determine alignment.
	// want to avoid unaligned access, so have to use
	// smaller operations for less aligned types.
	// for example moving [4]byte must use 4 MOVB not 1 MOVW.
	align := int(n.Type.Align)

	var op obj.As
	switch align {
	default:
		gc.Fatalf("sgen: invalid alignment %d for %v", align, n.Type)

	case 1:
		op = ppc64.AMOVBU

	case 2:
		op = ppc64.AMOVHU

	case 4:
		op = ppc64.AMOVWZU // there is no lwau, only lwaux

	case 8:
		op = ppc64.AMOVDU
	}

	if w%int64(align) != 0 {
		gc.Fatalf("sgen: unaligned size %d (align=%d) for %v", w, align, n.Type)
	}
	c := int32(w / int64(align))

	// if we are copying forward on the stack and
	// the src and dst overlap, then reverse direction
	dir := align

	if osrc < odst && odst < osrc+w {
		dir = -dir
	}

	var dst gc.Node
	var src gc.Node
	if n.Ullman >= res.Ullman {
		gc.Agenr(n, &dst, res) // temporarily use dst
		gc.Regalloc(&src, gc.Types[gc.Tptr], nil)
		gins(ppc64.AMOVD, &dst, &src)
		if res.Op == gc.ONAME {
			gc.Gvardef(res)
		}
		gc.Agen(res, &dst)
	} else {
		if res.Op == gc.ONAME {
			gc.Gvardef(res)
		}
		gc.Agenr(res, &dst, res)
		gc.Agenr(n, &src, nil)
	}

	var tmp gc.Node
	gc.Regalloc(&tmp, gc.Types[gc.Tptr], nil)

	// set up end marker
	var nend gc.Node

	// move src and dest to the end of block if necessary
	if dir < 0 {
		if c >= 4 {
			gc.Regalloc(&nend, gc.Types[gc.Tptr], nil)
			gins(ppc64.AMOVD, &src, &nend)
		}

		p := gins(ppc64.AADD, nil, &src)
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = w

		p = gins(ppc64.AADD, nil, &dst)
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = w
	} else {
		p := gins(ppc64.AADD, nil, &src)
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = int64(-dir)

		p = gins(ppc64.AADD, nil, &dst)
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = int64(-dir)

		if c >= 4 {
			gc.Regalloc(&nend, gc.Types[gc.Tptr], nil)
			p := gins(ppc64.AMOVD, &src, &nend)
			p.From.Type = obj.TYPE_ADDR
			p.From.Offset = w
		}
	}

	// move
	// TODO: enable duffcopy for larger copies.
	if c >= 4 {
		p := gins(op, &src, &tmp)
		p.From.Type = obj.TYPE_MEM
		p.From.Offset = int64(dir)
		ploop := p

		p = gins(op, &tmp, &dst)
		p.To.Type = obj.TYPE_MEM
		p.To.Offset = int64(dir)

		p = gins(ppc64.ACMP, &src, &nend)

		gc.Patch(gc.Gbranch(ppc64.ABNE, nil, 0), ploop)
		gc.Regfree(&nend)
	} else {
		// TODO(austin): Instead of generating ADD $-8,R8; ADD
		// $-8,R7; n*(MOVDU 8(R8),R9; MOVDU R9,8(R7);) just
		// generate the offsets directly and eliminate the
		// ADDs. That will produce shorter, more
		// pipeline-able code.
		var p *obj.Prog
		for ; c > 0; c-- {
			p = gins(op, &src, &tmp)
			p.From.Type = obj.TYPE_MEM
			p.From.Offset = int64(dir)

			p = gins(op, &tmp, &dst)
			p.To.Type = obj.TYPE_MEM
			p.To.Offset = int64(dir)
		}
	}

	gc.Regfree(&dst)
	gc.Regfree(&src)
	gc.Regfree(&tmp)
}
Exemplo n.º 3
0
func blockcopy(n, res *gc.Node, osrc, odst, w int64) {
	// determine alignment.
	// want to avoid unaligned access, so have to use
	// smaller operations for less aligned types.
	// for example moving [4]byte must use 4 MOVB not 1 MOVW.
	align := int(n.Type.Align)

	var op obj.As
	switch align {
	default:
		gc.Fatalf("sgen: invalid alignment %d for %v", align, n.Type)

	case 1:
		op = arm.AMOVB

	case 2:
		op = arm.AMOVH

	case 4:
		op = arm.AMOVW
	}

	if w%int64(align) != 0 {
		gc.Fatalf("sgen: unaligned size %d (align=%d) for %v", w, align, n.Type)
	}
	c := int32(w / int64(align))

	if osrc%int64(align) != 0 || odst%int64(align) != 0 {
		gc.Fatalf("sgen: unaligned offset src %d or dst %d (align %d)", osrc, odst, align)
	}

	// if we are copying forward on the stack and
	// the src and dst overlap, then reverse direction
	dir := align
	if osrc < odst && odst < osrc+w {
		dir = -dir
	}

	if op == arm.AMOVW && !gc.Nacl && dir > 0 && c >= 4 && c <= 128 {
		var r0 gc.Node
		r0.Op = gc.OREGISTER
		r0.Reg = arm.REG_R0
		var r1 gc.Node
		r1.Op = gc.OREGISTER
		r1.Reg = arm.REG_R0 + 1
		var r2 gc.Node
		r2.Op = gc.OREGISTER
		r2.Reg = arm.REG_R0 + 2

		var src gc.Node
		gc.Regalloc(&src, gc.Types[gc.Tptr], &r1)
		var dst gc.Node
		gc.Regalloc(&dst, gc.Types[gc.Tptr], &r2)
		if n.Ullman >= res.Ullman {
			// eval n first
			gc.Agen(n, &src)

			if res.Op == gc.ONAME {
				gc.Gvardef(res)
			}
			gc.Agen(res, &dst)
		} else {
			// eval res first
			if res.Op == gc.ONAME {
				gc.Gvardef(res)
			}
			gc.Agen(res, &dst)
			gc.Agen(n, &src)
		}

		var tmp gc.Node
		gc.Regalloc(&tmp, gc.Types[gc.Tptr], &r0)
		f := gc.Sysfunc("duffcopy")
		p := gins(obj.ADUFFCOPY, nil, f)
		gc.Afunclit(&p.To, f)

		// 8 and 128 = magic constants: see ../../runtime/asm_arm.s
		p.To.Offset = 8 * (128 - int64(c))

		gc.Regfree(&tmp)
		gc.Regfree(&src)
		gc.Regfree(&dst)
		return
	}

	var dst gc.Node
	var src gc.Node
	if n.Ullman >= res.Ullman {
		gc.Agenr(n, &dst, res) // temporarily use dst
		gc.Regalloc(&src, gc.Types[gc.Tptr], nil)
		gins(arm.AMOVW, &dst, &src)
		if res.Op == gc.ONAME {
			gc.Gvardef(res)
		}
		gc.Agen(res, &dst)
	} else {
		if res.Op == gc.ONAME {
			gc.Gvardef(res)
		}
		gc.Agenr(res, &dst, res)
		gc.Agenr(n, &src, nil)
	}

	var tmp gc.Node
	gc.Regalloc(&tmp, gc.Types[gc.TUINT32], nil)

	// set up end marker
	var nend gc.Node

	if c >= 4 {
		gc.Regalloc(&nend, gc.Types[gc.TUINT32], nil)

		p := gins(arm.AMOVW, &src, &nend)
		p.From.Type = obj.TYPE_ADDR
		if dir < 0 {
			p.From.Offset = int64(dir)
		} else {
			p.From.Offset = w
		}
	}

	// move src and dest to the end of block if necessary
	if dir < 0 {
		p := gins(arm.AMOVW, &src, &src)
		p.From.Type = obj.TYPE_ADDR
		p.From.Offset = w + int64(dir)

		p = gins(arm.AMOVW, &dst, &dst)
		p.From.Type = obj.TYPE_ADDR
		p.From.Offset = w + int64(dir)
	}

	// move
	if c >= 4 {
		p := gins(op, &src, &tmp)
		p.From.Type = obj.TYPE_MEM
		p.From.Offset = int64(dir)
		p.Scond |= arm.C_PBIT
		ploop := p

		p = gins(op, &tmp, &dst)
		p.To.Type = obj.TYPE_MEM
		p.To.Offset = int64(dir)
		p.Scond |= arm.C_PBIT

		p = gins(arm.ACMP, &src, nil)
		raddr(&nend, p)

		gc.Patch(gc.Gbranch(arm.ABNE, nil, 0), ploop)
		gc.Regfree(&nend)
	} else {
		var p *obj.Prog
		for ; c > 0; c-- {
			p = gins(op, &src, &tmp)
			p.From.Type = obj.TYPE_MEM
			p.From.Offset = int64(dir)
			p.Scond |= arm.C_PBIT

			p = gins(op, &tmp, &dst)
			p.To.Type = obj.TYPE_MEM
			p.To.Offset = int64(dir)
			p.Scond |= arm.C_PBIT
		}
	}

	gc.Regfree(&dst)
	gc.Regfree(&src)
	gc.Regfree(&tmp)
}
Exemplo n.º 4
0
func blockcopy(n, ns *gc.Node, osrc, odst, w int64) {
	var noddi gc.Node
	gc.Nodreg(&noddi, gc.Types[gc.Tptr], x86.REG_DI)
	var nodsi gc.Node
	gc.Nodreg(&nodsi, gc.Types[gc.Tptr], x86.REG_SI)

	var nodl gc.Node
	var nodr gc.Node
	if n.Ullman >= ns.Ullman {
		gc.Agenr(n, &nodr, &nodsi)
		if ns.Op == gc.ONAME {
			gc.Gvardef(ns)
		}
		gc.Agenr(ns, &nodl, &noddi)
	} else {
		if ns.Op == gc.ONAME {
			gc.Gvardef(ns)
		}
		gc.Agenr(ns, &nodl, &noddi)
		gc.Agenr(n, &nodr, &nodsi)
	}

	if nodl.Reg != x86.REG_DI {
		gmove(&nodl, &noddi)
	}
	if nodr.Reg != x86.REG_SI {
		gmove(&nodr, &nodsi)
	}
	gc.Regfree(&nodl)
	gc.Regfree(&nodr)

	c := w % 8 // bytes
	q := w / 8 // quads

	var oldcx gc.Node
	var cx gc.Node
	savex(x86.REG_CX, &cx, &oldcx, nil, gc.Types[gc.TINT64])

	// if we are copying forward on the stack and
	// the src and dst overlap, then reverse direction
	if osrc < odst && odst < osrc+w {
		// reverse direction
		gins(x86.ASTD, nil, nil) // set direction flag
		if c > 0 {
			gconreg(addptr, w-1, x86.REG_SI)
			gconreg(addptr, w-1, x86.REG_DI)

			gconreg(movptr, c, x86.REG_CX)
			gins(x86.AREP, nil, nil)   // repeat
			gins(x86.AMOVSB, nil, nil) // MOVB *(SI)-,*(DI)-
		}

		if q > 0 {
			if c > 0 {
				gconreg(addptr, -7, x86.REG_SI)
				gconreg(addptr, -7, x86.REG_DI)
			} else {
				gconreg(addptr, w-8, x86.REG_SI)
				gconreg(addptr, w-8, x86.REG_DI)
			}

			gconreg(movptr, q, x86.REG_CX)
			gins(x86.AREP, nil, nil)   // repeat
			gins(x86.AMOVSQ, nil, nil) // MOVQ *(SI)-,*(DI)-
		}

		// we leave with the flag clear
		gins(x86.ACLD, nil, nil)
	} else {
		// normal direction
		if q > 128 || (gc.Nacl && q >= 4) || (obj.Getgoos() == "plan9" && q >= 4) {
			gconreg(movptr, q, x86.REG_CX)
			gins(x86.AREP, nil, nil)   // repeat
			gins(x86.AMOVSQ, nil, nil) // MOVQ *(SI)+,*(DI)+
		} else if q >= 4 {
			var oldx0 gc.Node
			var x0 gc.Node
			savex(x86.REG_X0, &x0, &oldx0, nil, gc.Types[gc.TFLOAT64])

			p := gins(obj.ADUFFCOPY, nil, nil)
			p.To.Type = obj.TYPE_ADDR
			p.To.Sym = gc.Linksym(gc.Pkglookup("duffcopy", gc.Runtimepkg))

			// 64 blocks taking 14 bytes each
			// see ../../../../runtime/mkduff.go
			p.To.Offset = 14 * (64 - q/2)
			restx(&x0, &oldx0)

			if q%2 != 0 {
				gins(x86.AMOVSQ, nil, nil) // MOVQ *(SI)+,*(DI)+
			}
		} else if !gc.Nacl && c == 0 {
			// We don't need the MOVSQ side-effect of updating SI and DI,
			// and issuing a sequence of MOVQs directly is faster.
			nodsi.Op = gc.OINDREG

			noddi.Op = gc.OINDREG
			for q > 0 {
				gmove(&nodsi, &cx) // MOVQ x+(SI),CX
				gmove(&cx, &noddi) // MOVQ CX,x+(DI)
				nodsi.Xoffset += 8
				noddi.Xoffset += 8
				q--
			}
		} else {
			for q > 0 {
				gins(x86.AMOVSQ, nil, nil) // MOVQ *(SI)+,*(DI)+
				q--
			}
		}

		// copy the remaining c bytes
		if w < 4 || c <= 1 || (odst < osrc && osrc < odst+w) {
			for c > 0 {
				gins(x86.AMOVSB, nil, nil) // MOVB *(SI)+,*(DI)+
				c--
			}
		} else if w < 8 || c <= 4 {
			nodsi.Op = gc.OINDREG
			noddi.Op = gc.OINDREG
			cx.Type = gc.Types[gc.TINT32]
			nodsi.Type = gc.Types[gc.TINT32]
			noddi.Type = gc.Types[gc.TINT32]
			if c > 4 {
				nodsi.Xoffset = 0
				noddi.Xoffset = 0
				gmove(&nodsi, &cx)
				gmove(&cx, &noddi)
			}

			nodsi.Xoffset = c - 4
			noddi.Xoffset = c - 4
			gmove(&nodsi, &cx)
			gmove(&cx, &noddi)
		} else {
			nodsi.Op = gc.OINDREG
			noddi.Op = gc.OINDREG
			cx.Type = gc.Types[gc.TINT64]
			nodsi.Type = gc.Types[gc.TINT64]
			noddi.Type = gc.Types[gc.TINT64]
			nodsi.Xoffset = c - 8
			noddi.Xoffset = c - 8
			gmove(&nodsi, &cx)
			gmove(&cx, &noddi)
		}
	}

	restx(&cx, &oldcx)
}
Exemplo n.º 5
0
func clearfat(nl *gc.Node) {
	/* clear a fat object */
	if gc.Debug['g'] != 0 {
		gc.Dump("\nclearfat", nl)
	}

	// Avoid taking the address for simple enough types.
	if gc.Componentgen(nil, nl) {
		return
	}

	w := nl.Type.Width

	if w > 1024 || (w >= 64 && (gc.Nacl || isPlan9)) {
		var oldn1 gc.Node
		var n1 gc.Node
		savex(x86.REG_DI, &n1, &oldn1, nil, gc.Types[gc.Tptr])
		gc.Agen(nl, &n1)

		var ax gc.Node
		var oldax gc.Node
		savex(x86.REG_AX, &ax, &oldax, nil, gc.Types[gc.Tptr])
		gconreg(x86.AMOVL, 0, x86.REG_AX)
		gconreg(movptr, w/8, x86.REG_CX)

		gins(x86.AREP, nil, nil)   // repeat
		gins(x86.ASTOSQ, nil, nil) // STOQ AL,*(DI)+

		if w%8 != 0 {
			n1.Op = gc.OINDREG
			clearfat_tail(&n1, w%8)
		}

		restx(&n1, &oldn1)
		restx(&ax, &oldax)
		return
	}

	if w >= 64 {
		var oldn1 gc.Node
		var n1 gc.Node
		savex(x86.REG_DI, &n1, &oldn1, nil, gc.Types[gc.Tptr])
		gc.Agen(nl, &n1)

		var vec_zero gc.Node
		var old_x0 gc.Node
		savex(x86.REG_X0, &vec_zero, &old_x0, nil, gc.Types[gc.TFLOAT64])
		gins(x86.AXORPS, &vec_zero, &vec_zero)

		if di := dzDI(w); di != 0 {
			gconreg(addptr, di, x86.REG_DI)
		}
		p := gins(obj.ADUFFZERO, nil, nil)
		p.To.Type = obj.TYPE_ADDR
		p.To.Sym = gc.Linksym(gc.Pkglookup("duffzero", gc.Runtimepkg))
		p.To.Offset = dzOff(w)

		if w%16 != 0 {
			n1.Op = gc.OINDREG
			n1.Xoffset -= 16 - w%16
			gins(x86.AMOVUPS, &vec_zero, &n1)
		}

		restx(&vec_zero, &old_x0)
		restx(&n1, &oldn1)
		return
	}

	// NOTE: Must use agen, not igen, so that optimizer sees address
	// being taken. We are not writing on field boundaries.
	var n1 gc.Node
	gc.Agenr(nl, &n1, nil)
	n1.Op = gc.OINDREG

	clearfat_tail(&n1, w)

	gc.Regfree(&n1)
}