Golang Regfree示例

说明

golang regfree示例是从最受好评的开源项目中提取的实现代码,你可以参考下面示例的使用方式。

编程语言: Golang

命名空间/包名称: cmd/compile/internal/gc

示例#1
文件: ggen.go 项目: Greentor/go

/*
 * generate division.
 * generates one of:
 *	res = nl / nr
 *	res = nl % nr
 * according to op.
 */
func dodiv(op gc.Op, nl *gc.Node, nr *gc.Node, res *gc.Node) {
	t := nl.Type

	t0 := t

	if t.Width < 8 {
		if t.IsSigned() {
			t = gc.Types[gc.TINT64]
		} else {
			t = gc.Types[gc.TUINT64]
		}
	}

	a := optoas(gc.ODIV, t)

	var tl gc.Node
	gc.Regalloc(&tl, t0, nil)
	var tr gc.Node
	gc.Regalloc(&tr, t0, nil)
	if nl.Ullman >= nr.Ullman {
		gc.Cgen(nl, &tl)
		gc.Cgen(nr, &tr)
	} else {
		gc.Cgen(nr, &tr)
		gc.Cgen(nl, &tl)
	}

	if t != t0 {
		// Convert
		tl2 := tl

		tr2 := tr
		tl.Type = t
		tr.Type = t
		gmove(&tl2, &tl)
		gmove(&tr2, &tr)
	}

	// Handle divide-by-zero panic.
	p1 := ginsbranch(mips.ABNE, nil, &tr, nil, 0)
	if panicdiv == nil {
		panicdiv = gc.Sysfunc("panicdivide")
	}
	gc.Ginscall(panicdiv, -1)
	gc.Patch(p1, gc.Pc)

	gins3(a, &tr, &tl, nil)
	gc.Regfree(&tr)
	if op == gc.ODIV {
		var lo gc.Node
		gc.Nodreg(&lo, gc.Types[gc.TUINT64], mips.REG_LO)
		gins(mips.AMOVV, &lo, &tl)
	} else { // remainder in REG_HI
		var hi gc.Node
		gc.Nodreg(&hi, gc.Types[gc.TUINT64], mips.REG_HI)
		gins(mips.AMOVV, &hi, &tl)
	}
	gmove(&tl, res)
	gc.Regfree(&tl)
}

示例#2
文件: ggen.go 项目: arnold8/go

func ginscmp(op int, t *gc.Type, n1, n2 *gc.Node, likely int) *obj.Prog {
	if gc.Isint[t.Etype] && n1.Op == gc.OLITERAL && n1.Int() == 0 && n2.Op != gc.OLITERAL {
		op = gc.Brrev(op)
		n1, n2 = n2, n1
	}
	var r1, r2, g1, g2 gc.Node
	gc.Regalloc(&r1, t, n1)
	gc.Regalloc(&g1, n1.Type, &r1)
	gc.Cgen(n1, &g1)
	gmove(&g1, &r1)
	if gc.Isint[t.Etype] && n2.Op == gc.OLITERAL && n2.Int() == 0 {
		gins(arm.ACMP, &r1, n2)
	} else {
		gc.Regalloc(&r2, t, n2)
		gc.Regalloc(&g2, n1.Type, &r2)
		gc.Cgen(n2, &g2)
		gmove(&g2, &r2)
		gins(optoas(gc.OCMP, t), &r1, &r2)
		gc.Regfree(&g2)
		gc.Regfree(&r2)
	}
	gc.Regfree(&g1)
	gc.Regfree(&r1)
	return gc.Gbranch(optoas(op, t), nil, likely)
}

示例#3
文件: ggen.go 项目: duhaibo0404/go-1

/*
 * generate high multiply:
 *   res = (nl*nr) >> width
 */
func cgen_hmul(nl *gc.Node, nr *gc.Node, res *gc.Node) {
	t := nl.Type
	a := optoas(gc.OHMUL, t)
	if nl.Ullman < nr.Ullman {
		nl, nr = nr, nl
	}

	var n1 gc.Node
	gc.Cgenr(nl, &n1, res)
	var n2 gc.Node
	gc.Cgenr(nr, &n2, nil)
	var ax, oldax, dx, olddx gc.Node
	savex(x86.REG_AX, &ax, &oldax, res, gc.Types[gc.TUINT64])
	savex(x86.REG_DX, &dx, &olddx, res, gc.Types[gc.TUINT64])
	gmove(&n1, &ax)
	gins(a, &n2, nil)
	gc.Regfree(&n2)
	gc.Regfree(&n1)

	if t.Width == 1 {
		// byte multiply behaves differently.
		var byteAH, byteDX gc.Node
		gc.Nodreg(&byteAH, t, x86.REG_AH)
		gc.Nodreg(&byteDX, t, x86.REG_DX)
		gmove(&byteAH, &byteDX)
	}
	gmove(&dx, res)

	restx(&ax, &oldax)
	restx(&dx, &olddx)
}

示例#4
文件: cgen.go 项目: rentongzhang/go

/*
 * generate array index into res.
 * n might be any size; res is 32-bit.
 * returns Prog* to patch to panic call.
 */
func cgenindex(n *gc.Node, res *gc.Node, bounded bool) *obj.Prog {
	if !gc.Is64(n.Type) {
		gc.Cgen(n, res)
		return nil
	}

	var tmp gc.Node
	gc.Tempname(&tmp, gc.Types[gc.TINT64])
	gc.Cgen(n, &tmp)
	var lo gc.Node
	var hi gc.Node
	split64(&tmp, &lo, &hi)
	gmove(&lo, res)
	if bounded {
		splitclean()
		return nil
	}

	var n1 gc.Node
	gc.Regalloc(&n1, gc.Types[gc.TINT32], nil)
	var n2 gc.Node
	gc.Regalloc(&n2, gc.Types[gc.TINT32], nil)
	var zero gc.Node
	gc.Nodconst(&zero, gc.Types[gc.TINT32], 0)
	gmove(&hi, &n1)
	gmove(&zero, &n2)
	gins(arm.ACMP, &n1, &n2)
	gc.Regfree(&n2)
	gc.Regfree(&n1)
	splitclean()
	return gc.Gbranch(arm.ABNE, nil, -1)
}

示例#5
文件: gsubr.go 项目: wheelcomplex/go-1

func ginscmp(op int, t *gc.Type, n1, n2 *gc.Node, likely int) *obj.Prog {
	if gc.Isint[t.Etype] && n1.Op == gc.OLITERAL && gc.Smallintconst(n1) && n2.Op != gc.OLITERAL {
		// Reverse comparison to place constant last.
		op = gc.Brrev(op)
		n1, n2 = n2, n1
	}
	// General case.
	var r1, r2, g1, g2 gc.Node
	if n1.Op == gc.ONAME && n1.Class&gc.PHEAP == 0 || n1.Op == gc.OINDREG {
		r1 = *n1
	} else {
		gc.Regalloc(&r1, t, n1)
		gc.Regalloc(&g1, n1.Type, &r1)
		gc.Cgen(n1, &g1)
		gmove(&g1, &r1)
	}
	if n2.Op == gc.OLITERAL && gc.Isint[t.Etype] && gc.Smallintconst(n2) {
		r2 = *n2
	} else {
		gc.Regalloc(&r2, t, n2)
		gc.Regalloc(&g2, n1.Type, &r2)
		gc.Cgen(n2, &g2)
		gmove(&g2, &r2)
	}
	gins(optoas(gc.OCMP, t), &r1, &r2)
	if r1.Op == gc.OREGISTER {
		gc.Regfree(&g1)
		gc.Regfree(&r1)
	}
	if r2.Op == gc.OREGISTER {
		gc.Regfree(&g2)
		gc.Regfree(&r2)
	}
	return gc.Gbranch(optoas(op, t), nil, likely)
}

示例#6
文件: ggen.go 项目: rentongzhang/go

/*
 * generate high multiply:
 *   res = (nl*nr) >> width
 */
func cgen_hmul(nl *gc.Node, nr *gc.Node, res *gc.Node) {
	t := nl.Type
	a := optoas(gc.OHMUL, t)
	if nl.Ullman < nr.Ullman {
		tmp := nl
		nl = nr
		nr = tmp
	}

	var n1 gc.Node
	gc.Cgenr(nl, &n1, res)
	var n2 gc.Node
	gc.Cgenr(nr, &n2, nil)
	var ax gc.Node
	gc.Nodreg(&ax, t, x86.REG_AX)
	gmove(&n1, &ax)
	gins(a, &n2, nil)
	gc.Regfree(&n2)
	gc.Regfree(&n1)

	var dx gc.Node
	if t.Width == 1 {
		// byte multiply behaves differently.
		gc.Nodreg(&ax, t, x86.REG_AH)

		gc.Nodreg(&dx, t, x86.REG_DX)
		gmove(&ax, &dx)
	}

	gc.Nodreg(&dx, t, x86.REG_DX)
	gmove(&dx, res)
}

示例#7
文件: gsubr.go 项目: arnold8/go

func ginscmp(op int, t *gc.Type, n1, n2 *gc.Node, likely int) *obj.Prog {
	if gc.Isint[t.Etype] && n1.Op == gc.OLITERAL && n2.Op != gc.OLITERAL {
		// Reverse comparison to place constant last.
		op = gc.Brrev(op)
		n1, n2 = n2, n1
	}

	var r1, r2, g1, g2 gc.Node
	gc.Regalloc(&r1, t, n1)
	gc.Regalloc(&g1, n1.Type, &r1)
	gc.Cgen(n1, &g1)
	gmove(&g1, &r1)
	if gc.Isint[t.Etype] && gc.Isconst(n2, gc.CTINT) {
		ginscon2(optoas(gc.OCMP, t), &r1, n2.Int())
	} else {
		gc.Regalloc(&r2, t, n2)
		gc.Regalloc(&g2, n1.Type, &r2)
		gc.Cgen(n2, &g2)
		gmove(&g2, &r2)
		gcmp(optoas(gc.OCMP, t), &r1, &r2)
		gc.Regfree(&g2)
		gc.Regfree(&r2)
	}
	gc.Regfree(&g1)
	gc.Regfree(&r1)
	return gc.Gbranch(optoas(op, t), nil, likely)
}

示例#8
文件: ggen.go 项目: Samurais/go

/*
 * generate byte multiply:
 *	res = nl * nr
 * there is no 2-operand byte multiply instruction so
 * we do a full-width multiplication and truncate afterwards.
 */
func cgen_bmul(op gc.Op, nl *gc.Node, nr *gc.Node, res *gc.Node) bool {
	if optoas(op, nl.Type) != x86.AIMULB {
		return false
	}

	// copy from byte to full registers
	t := gc.Types[gc.TUINT32]

	if gc.Issigned[nl.Type.Etype] {
		t = gc.Types[gc.TINT32]
	}

	// largest ullman on left.
	if nl.Ullman < nr.Ullman {
		nl, nr = nr, nl
	}

	var nt gc.Node
	gc.Tempname(&nt, nl.Type)
	gc.Cgen(nl, &nt)
	var n1 gc.Node
	gc.Regalloc(&n1, t, res)
	gc.Cgen(nr, &n1)
	var n2 gc.Node
	gc.Regalloc(&n2, t, nil)
	gmove(&nt, &n2)
	a := optoas(op, t)
	gins(a, &n2, &n1)
	gc.Regfree(&n2)
	gmove(&n1, res)
	gc.Regfree(&n1)

	return true
}

示例#9
文件: gsubr.go 项目: wheelcomplex/go-1

func sudoclean() {
	if clean[cleani-1].Op != gc.OEMPTY {
		gc.Regfree(&clean[cleani-1])
	}
	if clean[cleani-2].Op != gc.OEMPTY {
		gc.Regfree(&clean[cleani-2])
	}
	cleani -= 2
}

示例#10
文件: ggen.go 项目: Greentor/go

/*
 * generate high multiply:
 *   res = (nl*nr) >> width
 */
func cgen_hmul(nl *gc.Node, nr *gc.Node, res *gc.Node) {
	// largest ullman on left.
	if nl.Ullman < nr.Ullman {
		nl, nr = nr, nl
	}

	t := nl.Type
	w := t.Width * 8
	var n1 gc.Node
	gc.Cgenr(nl, &n1, res)
	var n2 gc.Node
	gc.Cgenr(nr, &n2, nil)
	switch gc.Simtype[t.Etype] {
	case gc.TINT8,
		gc.TINT16,
		gc.TINT32:
		gins3(optoas(gc.OMUL, t), &n2, &n1, nil)
		var lo gc.Node
		gc.Nodreg(&lo, gc.Types[gc.TUINT64], mips.REG_LO)
		gins(mips.AMOVV, &lo, &n1)
		p := gins(mips.ASRAV, nil, &n1)
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = w

	case gc.TUINT8,
		gc.TUINT16,
		gc.TUINT32:
		gins3(optoas(gc.OMUL, t), &n2, &n1, nil)
		var lo gc.Node
		gc.Nodreg(&lo, gc.Types[gc.TUINT64], mips.REG_LO)
		gins(mips.AMOVV, &lo, &n1)
		p := gins(mips.ASRLV, nil, &n1)
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = w

	case gc.TINT64,
		gc.TUINT64:
		if t.IsSigned() {
			gins3(mips.AMULV, &n2, &n1, nil)
		} else {
			gins3(mips.AMULVU, &n2, &n1, nil)
		}
		var hi gc.Node
		gc.Nodreg(&hi, gc.Types[gc.TUINT64], mips.REG_HI)
		gins(mips.AMOVV, &hi, &n1)

	default:
		gc.Fatalf("cgen_hmul %v", t)
	}

	gc.Cgen(&n1, res)
	gc.Regfree(&n1)
	gc.Regfree(&n2)
}

示例#11
文件: ggen.go 项目: rentongzhang/go

/*
 * generate high multiply
 *  res = (nl * nr) >> wordsize
 */
func cgen_hmul(nl *gc.Node, nr *gc.Node, res *gc.Node) {
	if nl.Ullman < nr.Ullman {
		tmp := nl
		nl = nr
		nr = tmp
	}

	t := nl.Type
	w := int(t.Width * 8)
	var n1 gc.Node
	gc.Regalloc(&n1, t, res)
	gc.Cgen(nl, &n1)
	var n2 gc.Node
	gc.Regalloc(&n2, t, nil)
	gc.Cgen(nr, &n2)
	switch gc.Simtype[t.Etype] {
	case gc.TINT8,
		gc.TINT16:
		gins(optoas(gc.OMUL, t), &n2, &n1)
		gshift(arm.AMOVW, &n1, arm.SHIFT_AR, int32(w), &n1)

	case gc.TUINT8,
		gc.TUINT16:
		gins(optoas(gc.OMUL, t), &n2, &n1)
		gshift(arm.AMOVW, &n1, arm.SHIFT_LR, int32(w), &n1)

		// perform a long multiplication.
	case gc.TINT32,
		gc.TUINT32:
		var p *obj.Prog
		if gc.Issigned[t.Etype] {
			p = gins(arm.AMULL, &n2, nil)
		} else {
			p = gins(arm.AMULLU, &n2, nil)
		}

		// n2 * n1 -> (n1 n2)
		p.Reg = n1.Reg

		p.To.Type = obj.TYPE_REGREG
		p.To.Reg = n1.Reg
		p.To.Offset = int64(n2.Reg)

	default:
		gc.Fatalf("cgen_hmul %v", t)
	}

	gc.Cgen(&n1, res)
	gc.Regfree(&n1)
	gc.Regfree(&n2)
}

示例#12
文件: gsubr.go 项目: wheelcomplex/go-1

/*
 * generate
 *	as $c, n
 */
func ginscon(as int, c int64, n2 *gc.Node) {
	var n1 gc.Node

	switch as {
	case x86.AADDL,
		x86.AMOVL,
		x86.ALEAL:
		gc.Nodconst(&n1, gc.Types[gc.TINT32], c)

	default:
		gc.Nodconst(&n1, gc.Types[gc.TINT64], c)
	}

	if as != x86.AMOVQ && (c < -(1<<31) || c >= 1<<31) {
		// cannot have 64-bit immediate in ADD, etc.
		// instead, MOV into register first.
		var ntmp gc.Node
		gc.Regalloc(&ntmp, gc.Types[gc.TINT64], nil)

		gins(x86.AMOVQ, &n1, &ntmp)
		gins(as, &ntmp, n2)
		gc.Regfree(&ntmp)
		return
	}

	gins(as, &n1, n2)
}

示例#13
文件: gsubr.go 项目: arnold8/go

/*
 * generate
 *	as n, $c (CMP/CMPU)
 */
func ginscon2(as int, n2 *gc.Node, c int64) {
	var n1 gc.Node

	gc.Nodconst(&n1, gc.Types[gc.TINT64], c)

	switch as {
	default:
		gc.Fatalf("ginscon2")

	case ppc64.ACMP:
		if -ppc64.BIG <= c && c <= ppc64.BIG {
			rawgins(as, n2, &n1)
			return
		}

	case ppc64.ACMPU:
		if 0 <= c && c <= 2*ppc64.BIG {
			rawgins(as, n2, &n1)
			return
		}
	}

	// MOV n1 into register first
	var ntmp gc.Node
	gc.Regalloc(&ntmp, gc.Types[gc.TINT64], nil)

	rawgins(ppc64.AMOVD, &n1, &ntmp)
	rawgins(as, n2, &ntmp)
	gc.Regfree(&ntmp)
}

示例#14
文件: ggen.go 项目: 2thetop/go

// RightShiftWithCarry generates a constant unsigned
// right shift with carry.
//
// res = n >> shift // with carry
func RightShiftWithCarry(n *gc.Node, shift uint, res *gc.Node) {
	// Extra 1 is for carry bit.
	maxshift := uint(n.Type.Width*8 + 1)
	if shift == 0 {
		gmove(n, res)
	} else if shift < maxshift {
		// 1. clear rightmost bit of target
		var n1 gc.Node
		gc.Nodconst(&n1, n.Type, 1)
		gins(optoas(gc.ORSH, n.Type), &n1, n)
		gins(optoas(gc.OLSH, n.Type), &n1, n)
		// 2. add carry flag to target
		var n2 gc.Node
		gc.Nodconst(&n1, n.Type, 0)
		gc.Regalloc(&n2, n.Type, nil)
		gins(optoas(gc.OAS, n.Type), &n1, &n2)
		gins(arm64.AADC, &n2, n)
		// 3. right rotate 1 bit
		gc.Nodconst(&n1, n.Type, 1)
		gins(arm64.AROR, &n1, n)

		// ARM64 backend doesn't eliminate shifts by 0. It is manually checked here.
		if shift > 1 {
			var n3 gc.Node
			gc.Nodconst(&n3, n.Type, int64(shift-1))
			cgen_shift(gc.ORSH, true, n, &n3, res)
		} else {
			gmove(n, res)
		}
		gc.Regfree(&n2)
	} else {
		gc.Fatalf("RightShiftWithCarry: shift(%v) is bigger than max size(%v)", shift, maxshift)
	}
}

示例#15
文件: ggen.go 项目: Ericean/go

/*
 * generate high multiply:
 *   res = (nl*nr) >> width
 */
func cgen_hmul(nl *gc.Node, nr *gc.Node, res *gc.Node) {
	// largest ullman on left.
	if nl.Ullman < nr.Ullman {
		tmp := (*gc.Node)(nl)
		nl = nr
		nr = tmp
	}

	t := (*gc.Type)(nl.Type)
	w := int(int(t.Width * 8))
	var n1 gc.Node
	gc.Cgenr(nl, &n1, res)
	var n2 gc.Node
	gc.Cgenr(nr, &n2, nil)
	switch gc.Simtype[t.Etype] {
	case gc.TINT8,
		gc.TINT16,
		gc.TINT32:
		gins(optoas(gc.OMUL, t), &n2, &n1)
		p := (*obj.Prog)(gins(ppc64.ASRAD, nil, &n1))
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = int64(w)

	case gc.TUINT8,
		gc.TUINT16,
		gc.TUINT32:
		gins(optoas(gc.OMUL, t), &n2, &n1)
		p := (*obj.Prog)(gins(ppc64.ASRD, nil, &n1))
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = int64(w)

	case gc.TINT64,
		gc.TUINT64:
		if gc.Issigned[t.Etype] {
			gins(ppc64.AMULHD, &n2, &n1)
		} else {
			gins(ppc64.AMULHDU, &n2, &n1)
		}

	default:
		gc.Fatal("cgen_hmul %v", t)
	}

	gc.Cgen(&n1, res)
	gc.Regfree(&n1)
	gc.Regfree(&n2)
}

示例#16
文件: ggen.go 项目: Samurais/go

func restx(x *gc.Node, oldx *gc.Node) {
	gc.Regfree(x)

	if oldx.Op != 0 {
		x.Type = gc.Types[gc.TINT32]
		gmove(oldx, x)
	}
}

示例#17
文件: ggen.go 项目: Ericean/go

func restx(x *gc.Node, oldx *gc.Node) {
	if oldx.Op != 0 {
		x.Type = gc.Types[gc.TINT64]
		reg[x.Reg] = oldx.Etype
		gmove(oldx, x)
		gc.Regfree(oldx)
	}
}

示例#18
文件: ggen.go 项目: rentongzhang/go

func restx(x *gc.Node, oldx *gc.Node) {
	if oldx.Op != 0 {
		x.Type = gc.Types[gc.TINT64]
		gc.SetReg(int(x.Reg), int(oldx.Etype))
		gmove(oldx, x)
		gc.Regfree(oldx)
	}
}

示例#19
文件: gsubr.go 项目: sreis/go

func ginscmp(op gc.Op, t *gc.Type, n1, n2 *gc.Node, likely int) *obj.Prog {
	if gc.Isint[t.Etype] || t.Etype == gc.Tptr {
		if (n1.Op == gc.OLITERAL || n1.Op == gc.OADDR && n1.Left.Op == gc.ONAME) && n2.Op != gc.OLITERAL {
			// Reverse comparison to place constant (including address constant) last.
			op = gc.Brrev(op)
			n1, n2 = n2, n1
		}
	}

	// General case.
	var r1, r2, g1, g2 gc.Node

	// A special case to make write barriers more efficient.
	// Comparing the first field of a named struct can be done directly.
	base := n1
	if n1.Op == gc.ODOT && n1.Left.Type.Etype == gc.TSTRUCT && n1.Left.Type.Type.Sym == n1.Right.Sym {
		base = n1.Left
	}

	if base.Op == gc.ONAME && base.Class&gc.PHEAP == 0 || n1.Op == gc.OINDREG {
		r1 = *n1
	} else {
		gc.Regalloc(&r1, t, n1)
		gc.Regalloc(&g1, n1.Type, &r1)
		gc.Cgen(n1, &g1)
		gmove(&g1, &r1)
	}
	if n2.Op == gc.OLITERAL && gc.Isint[t.Etype] || n2.Op == gc.OADDR && n2.Left.Op == gc.ONAME && n2.Left.Class == gc.PEXTERN {
		r2 = *n2
	} else {
		gc.Regalloc(&r2, t, n2)
		gc.Regalloc(&g2, n1.Type, &r2)
		gc.Cgen(n2, &g2)
		gmove(&g2, &r2)
	}
	gins(optoas(gc.OCMP, t), &r1, &r2)
	if r1.Op == gc.OREGISTER {
		gc.Regfree(&g1)
		gc.Regfree(&r1)
	}
	if r2.Op == gc.OREGISTER {
		gc.Regfree(&g2)
		gc.Regfree(&r2)
	}
	return gc.Gbranch(optoas(op, t), nil, likely)
}

示例#20
文件: ggen.go 项目: duhaibo0404/go-1

/*
 * generate high multiply:
 *   res = (nl*nr) >> width
 */
func cgen_hmul(nl *gc.Node, nr *gc.Node, res *gc.Node) {
	// largest ullman on left.
	if nl.Ullman < nr.Ullman {
		nl, nr = nr, nl
	}

	t := nl.Type
	w := t.Width * 8
	var n1 gc.Node
	gc.Cgenr(nl, &n1, res)
	var n2 gc.Node
	gc.Cgenr(nr, &n2, nil)
	switch gc.Simtype[t.Etype] {
	case gc.TINT8,
		gc.TINT16,
		gc.TINT32:
		gins(optoas(gc.OMUL, t), &n2, &n1)
		p := gins(arm64.AASR, nil, &n1)
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = w

	case gc.TUINT8,
		gc.TUINT16,
		gc.TUINT32:
		gins(optoas(gc.OMUL, t), &n2, &n1)
		p := gins(arm64.ALSR, nil, &n1)
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = w

	case gc.TINT64,
		gc.TUINT64:
		if gc.Issigned[t.Etype] {
			gins(arm64.ASMULH, &n2, &n1)
		} else {
			gins(arm64.AUMULH, &n2, &n1)
		}

	default:
		gc.Fatalf("cgen_hmul %v", t)
	}

	gc.Cgen(&n1, res)
	gc.Regfree(&n1)
	gc.Regfree(&n2)
}

示例#21
文件: gsubr.go 项目: sreis/go

func splitclean() {
	if nsclean <= 0 {
		gc.Fatalf("splitclean")
	}
	nsclean--
	if sclean[nsclean].Op != gc.OEMPTY {
		gc.Regfree(&sclean[nsclean])
	}
}

示例#22
文件: ggen.go 项目: arnold8/go

/*
 * generate
 *	as $c, n
 */
func ginscon(as int, c int64, n *gc.Node) {
	var n1 gc.Node
	gc.Nodconst(&n1, gc.Types[gc.TINT32], c)
	var n2 gc.Node
	gc.Regalloc(&n2, gc.Types[gc.TINT32], nil)
	gmove(&n1, &n2)
	gins(as, &n2, n)
	gc.Regfree(&n2)
}

示例#23
文件: gsubr.go 项目: Greentor/go

func ginscmp(op gc.Op, t *gc.Type, n1, n2 *gc.Node, likely int) *obj.Prog {
	if t.IsInteger() && n1.Op == gc.OLITERAL && gc.Smallintconst(n1) && n2.Op != gc.OLITERAL {
		// Reverse comparison to place constant last.
		op = gc.Brrev(op)
		n1, n2 = n2, n1
	}
	// General case.
	var r1, r2, g1, g2 gc.Node

	// A special case to make write barriers more efficient.
	// Comparing the first field of a named struct can be done directly.
	base := n1
	if n1.Op == gc.ODOT && n1.Left.Type.IsStruct() && n1.Left.Type.Field(0).Sym == n1.Sym {
		base = n1.Left
	}

	if base.Op == gc.ONAME && base.Class != gc.PAUTOHEAP || n1.Op == gc.OINDREG {
		r1 = *n1
	} else {
		gc.Regalloc(&r1, t, n1)
		gc.Regalloc(&g1, n1.Type, &r1)
		gc.Cgen(n1, &g1)
		gmove(&g1, &r1)
	}
	if n2.Op == gc.OLITERAL && t.IsInteger() && gc.Smallintconst(n2) {
		r2 = *n2
	} else {
		gc.Regalloc(&r2, t, n2)
		gc.Regalloc(&g2, n1.Type, &r2)
		gc.Cgen(n2, &g2)
		gmove(&g2, &r2)
	}
	gins(optoas(gc.OCMP, t), &r1, &r2)
	if r1.Op == gc.OREGISTER {
		gc.Regfree(&g1)
		gc.Regfree(&r1)
	}
	if r2.Op == gc.OREGISTER {
		gc.Regfree(&g2)
		gc.Regfree(&r2)
	}
	return gc.Gbranch(optoas(op, t), nil, likely)
}

示例#24
文件: ggen.go 项目: 2thetop/go

/*
 * generate high multiply:
 *   res = (nl*nr) >> width
 */
func cgen_hmul(nl *gc.Node, nr *gc.Node, res *gc.Node) {
	// largest ullman on left.
	if nl.Ullman < nr.Ullman {
		nl, nr = nr, nl
	}

	t := nl.Type
	w := int(t.Width) * 8
	var n1 gc.Node
	gc.Cgenr(nl, &n1, res)
	var n2 gc.Node
	gc.Cgenr(nr, &n2, nil)
	switch gc.Simtype[t.Etype] {
	case gc.TINT8,
		gc.TINT16,
		gc.TINT32:
		gins(optoas(gc.OMUL, t), &n2, &n1)
		p := gins(s390x.ASRAD, nil, &n1)
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = int64(w)

	case gc.TUINT8,
		gc.TUINT16,
		gc.TUINT32:
		gins(optoas(gc.OMUL, t), &n2, &n1)
		p := gins(s390x.ASRD, nil, &n1)
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = int64(w)

	case gc.TINT64:
		gins(s390x.AMULHD, &n2, &n1)

	case gc.TUINT64:
		gins(s390x.AMULHDU, &n2, &n1)

	default:
		gc.Fatalf("cgen_hmul %v", t)
	}

	gc.Cgen(&n1, res)
	gc.Regfree(&n1)
	gc.Regfree(&n2)
}

示例#25
文件: ggen.go 项目: rentongzhang/go

/*
 * generate byte multiply:
 *	res = nl * nr
 * there is no 2-operand byte multiply instruction so
 * we do a full-width multiplication and truncate afterwards.
 */
func cgen_bmul(op int, nl *gc.Node, nr *gc.Node, res *gc.Node) bool {
	if optoas(op, nl.Type) != x86.AIMULB {
		return false
	}

	// largest ullman on left.
	if nl.Ullman < nr.Ullman {
		tmp := nl
		nl = nr
		nr = tmp
	}

	// generate operands in "8-bit" registers.
	var n1b gc.Node
	gc.Regalloc(&n1b, nl.Type, res)

	gc.Cgen(nl, &n1b)
	var n2b gc.Node
	gc.Regalloc(&n2b, nr.Type, nil)
	gc.Cgen(nr, &n2b)

	// perform full-width multiplication.
	t := gc.Types[gc.TUINT64]

	if gc.Issigned[nl.Type.Etype] {
		t = gc.Types[gc.TINT64]
	}
	var n1 gc.Node
	gc.Nodreg(&n1, t, int(n1b.Reg))
	var n2 gc.Node
	gc.Nodreg(&n2, t, int(n2b.Reg))
	a := optoas(op, t)
	gins(a, &n2, &n1)

	// truncate.
	gmove(&n1, res)

	gc.Regfree(&n1b)
	gc.Regfree(&n2b)
	return true
}

示例#26
文件: ggen.go 项目: rentongzhang/go

// res = runtime.getg()
func getg(res *gc.Node) {
	var n1 gc.Node
	gc.Regalloc(&n1, res.Type, res)
	mov := optoas(gc.OAS, gc.Types[gc.Tptr])
	p := gins(mov, nil, &n1)
	p.From.Type = obj.TYPE_REG
	p.From.Reg = x86.REG_TLS
	p = gins(mov, nil, &n1)
	p.From = p.To
	p.From.Type = obj.TYPE_MEM
	p.From.Index = x86.REG_TLS
	p.From.Scale = 1
	gmove(&n1, res)
	gc.Regfree(&n1)
}

示例#27
文件: gsubr.go 项目: arnold8/go

/*
 * generate
 *	as $c, n
 */
func ginscon(as int, c int64, n2 *gc.Node) {
	var n1 gc.Node

	gc.Nodconst(&n1, gc.Types[gc.TINT64], c)

	if as != arm64.AMOVD && (c < -arm64.BIG || c > arm64.BIG) || as == arm64.AMUL || n2 != nil && n2.Op != gc.OREGISTER {
		// cannot have more than 16-bit of immediate in ADD, etc.
		// instead, MOV into register first.
		var ntmp gc.Node
		gc.Regalloc(&ntmp, gc.Types[gc.TINT64], nil)

		gins(arm64.AMOVD, &n1, &ntmp)
		gins(as, &ntmp, n2)
		gc.Regfree(&ntmp)
		return
	}

	rawgins(as, &n1, n2)
}

示例#28
文件: gsubr.go 项目: 4ad/go

/*
 * generate
 *	as $c, n
 */
func ginscon(as int, c int64, n2 *gc.Node) {
	var n1 gc.Node

	gc.Nodconst(&n1, gc.Types[gc.TINT64], c)

	if as != mips.AMOVV && (c < -mips.BIG || c > mips.BIG) || n2.Op != gc.OREGISTER || as == mips.AMUL || as == mips.AMULU || as == mips.AMULV || as == mips.AMULVU {
		// cannot have more than 16-bit of immediate in ADD, etc.
		// instead, MOV into register first.
		var ntmp gc.Node
		gc.Regalloc(&ntmp, gc.Types[gc.TINT64], nil)

		rawgins(mips.AMOVV, &n1, &ntmp)
		rawgins(as, &ntmp, n2)
		gc.Regfree(&ntmp)
		return
	}

	rawgins(as, &n1, n2)
}

示例#29
文件: gsubr.go 项目: Greentor/go

// generate
//	as $c, n
func ginscon(as obj.As, c int64, n2 *gc.Node) {
	var n1 gc.Node

	gc.Nodconst(&n1, gc.Types[gc.TINT64], c)

	if as != s390x.AMOVD && (c < -s390x.BIG || c > s390x.BIG) || n2.Op != gc.OREGISTER {
		// cannot have more than 16-bit of immediate in ADD, etc.
		// instead, MOV into register first.
		var ntmp gc.Node
		gc.Regalloc(&ntmp, gc.Types[gc.TINT64], nil)

		rawgins(s390x.AMOVD, &n1, &ntmp)
		rawgins(as, &ntmp, n2)
		gc.Regfree(&ntmp)
		return
	}

	rawgins(as, &n1, n2)
}

示例#30
文件: ggen.go 项目: gmwu/go

/*
 * generate high multiply:
 *   res = (nl*nr) >> width
 */
func cgen_hmul(nl *gc.Node, nr *gc.Node, res *gc.Node) {
	var n1 gc.Node
	var n2 gc.Node
	var ax gc.Node
	var dx gc.Node

	t := nl.Type
	a := optoas(gc.OHMUL, t)

	// gen nl in n1.
	gc.Tempname(&n1, t)

	gc.Cgen(nl, &n1)

	// gen nr in n2.
	gc.Regalloc(&n2, t, res)

	gc.Cgen(nr, &n2)

	// multiply.
	gc.Nodreg(&ax, t, x86.REG_AX)

	gmove(&n2, &ax)
	gins(a, &n1, nil)
	gc.Regfree(&n2)

	if t.Width == 1 {
		// byte multiply behaves differently.
		gc.Nodreg(&ax, t, x86.REG_AH)

		gc.Nodreg(&dx, t, x86.REG_DX)
		gmove(&ax, &dx)
	}

	gc.Nodreg(&dx, t, x86.REG_DX)
	gmove(&dx, res)
}

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