src/cmd/compile/internal/x86/cgen.go - go - Git at Google

 // Copyright 2009 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package x86

 import (
 	"cmd/compile/internal/gc"
 	"cmd/internal/obj"
 	"cmd/internal/obj/x86"
 )

 /*
  * generate an addressable node in res, containing the value of n.
  * n is an array index, and might be any size; res width is <= 32-bit.
  * returns Prog* to patch to panic call.
  */
 func igenindex(n *gc.Node, res *gc.Node, bounded bool) *obj.Prog {
 	if !gc.Is64(n.Type) {
 		if n.Addable && (gc.Simtype[n.Etype] == gc.TUINT32 || gc.Simtype[n.Etype] == gc.TINT32) {
 			// nothing to do.
 			*res = *n
 		} else {
 			gc.Tempname(res, gc.Types[gc.TUINT32])
 			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)
 	gc.Tempname(res, gc.Types[gc.TUINT32])
 	gmove(&lo, res)
 	if bounded {
 		splitclean()
 		return nil
 	}

 	var zero gc.Node
 	gc.Nodconst(&zero, gc.Types[gc.TINT32], 0)
 	gins(x86.ACMPL, &hi, &zero)
 	splitclean()
 	return gc.Gbranch(x86.AJNE, nil, +1)
 }

 func blockcopy(n, res *gc.Node, osrc, odst, w int64) {
 	var dst gc.Node
 	gc.Nodreg(&dst, gc.Types[gc.Tptr], x86.REG_DI)
 	var src gc.Node
 	gc.Nodreg(&src, gc.Types[gc.Tptr], x86.REG_SI)

 	var tsrc gc.Node
 	gc.Tempname(&tsrc, gc.Types[gc.Tptr])
 	var tdst gc.Node
 	gc.Tempname(&tdst, gc.Types[gc.Tptr])
 	if !n.Addable {
 		gc.Agen(n, &tsrc)
 	}
 	if !res.Addable {
 		gc.Agen(res, &tdst)
 	}
 	if n.Addable {
 		gc.Agen(n, &src)
 	} else {
 		gmove(&tsrc, &src)
 	}

 	if res.Op == gc.ONAME {
 		gc.Gvardef(res)
 	}

 	if res.Addable {
 		gc.Agen(res, &dst)
 	} else {
 		gmove(&tdst, &dst)
 	}

 	c := int32(w % 4) // bytes
 	q := int32(w / 4) // doublewords

 	// 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(x86.AADDL, w-1, x86.REG_SI)
 			gconreg(x86.AADDL, w-1, x86.REG_DI)

 			gconreg(x86.AMOVL, int64(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(x86.AADDL, -3, x86.REG_SI)
 				gconreg(x86.AADDL, -3, x86.REG_DI)
 			} else {
 				gconreg(x86.AADDL, w-4, x86.REG_SI)
 				gconreg(x86.AADDL, w-4, x86.REG_DI)
 			}

 			gconreg(x86.AMOVL, int64(q), x86.REG_CX)
 			gins(x86.AREP, nil, nil)   // repeat
 			gins(x86.AMOVSL, nil, nil) // MOVL *(SI)-,*(DI)-
 		}

 		// we leave with the flag clear
 		gins(x86.ACLD, nil, nil)
 	} else {
 		gins(x86.ACLD, nil, nil) // paranoia.  TODO(rsc): remove?

 		// normal direction
 		if q > 128 || (q >= 4 && gc.Nacl) {
 			gconreg(x86.AMOVL, int64(q), x86.REG_CX)
 			gins(x86.AREP, nil, nil)   // repeat
 			gins(x86.AMOVSL, nil, nil) // MOVL *(SI)+,*(DI)+
 		} else if q >= 4 {
 			p := gins(obj.ADUFFCOPY, nil, nil)
 			p.To.Type = obj.TYPE_ADDR
 			p.To.Sym = gc.Linksym(gc.Pkglookup("duffcopy", gc.Runtimepkg))

 			// 10 and 128 = magic constants: see ../../runtime/asm_386.s
 			p.To.Offset = 10 * (128 - int64(q))
 		} else if !gc.Nacl && c == 0 {
 			var cx gc.Node
 			gc.Nodreg(&cx, gc.Types[gc.TINT32], x86.REG_CX)

 			// We don't need the MOVSL side-effect of updating SI and DI,
 			// and issuing a sequence of MOVLs directly is faster.
 			src.Op = gc.OINDREG

 			dst.Op = gc.OINDREG
 			for q > 0 {
 				gmove(&src, &cx) // MOVL x+(SI),CX
 				gmove(&cx, &dst) // MOVL CX,x+(DI)
 				src.Xoffset += 4
 				dst.Xoffset += 4
 				q--
 			}
 		} else {
 			for q > 0 {
 				gins(x86.AMOVSL, nil, nil) // MOVL *(SI)+,*(DI)+
 				q--
 			}
 		}

 		for c > 0 {
 			gins(x86.AMOVSB, nil, nil) // MOVB *(SI)+,*(DI)+
 			c--
 		}
 	}
 }
	// Copyright 2009 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package x86

	import (
	"cmd/compile/internal/gc"
	"cmd/internal/obj"
	"cmd/internal/obj/x86"
	)

	/*
	* generate an addressable node in res, containing the value of n.
	* n is an array index, and might be any size; res width is <= 32-bit.
	* returns Prog* to patch to panic call.
	*/
	func igenindex(n gc.Node, res gc.Node, bounded bool) *obj.Prog {
	if !gc.Is64(n.Type) {
	if n.Addable && (gc.Simtype[n.Etype] == gc.TUINT32 \|\| gc.Simtype[n.Etype] == gc.TINT32) {
	// nothing to do.
	res = n
	} else {
	gc.Tempname(res, gc.Types[gc.TUINT32])
	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)
	gc.Tempname(res, gc.Types[gc.TUINT32])
	gmove(&lo, res)
	if bounded {
	splitclean()
	return nil
	}

	var zero gc.Node
	gc.Nodconst(&zero, gc.Types[gc.TINT32], 0)
	gins(x86.ACMPL, &hi, &zero)
	splitclean()
	return gc.Gbranch(x86.AJNE, nil, +1)
	}

	func blockcopy(n, res *gc.Node, osrc, odst, w int64) {
	var dst gc.Node
	gc.Nodreg(&dst, gc.Types[gc.Tptr], x86.REG_DI)
	var src gc.Node
	gc.Nodreg(&src, gc.Types[gc.Tptr], x86.REG_SI)

	var tsrc gc.Node
	gc.Tempname(&tsrc, gc.Types[gc.Tptr])
	var tdst gc.Node
	gc.Tempname(&tdst, gc.Types[gc.Tptr])
	if !n.Addable {
	gc.Agen(n, &tsrc)
	}
	if !res.Addable {
	gc.Agen(res, &tdst)
	}
	if n.Addable {
	gc.Agen(n, &src)
	} else {
	gmove(&tsrc, &src)
	}

	if res.Op == gc.ONAME {
	gc.Gvardef(res)
	}

	if res.Addable {
	gc.Agen(res, &dst)
	} else {
	gmove(&tdst, &dst)
	}

	c := int32(w % 4) // bytes
	q := int32(w / 4) // doublewords

	// 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(x86.AADDL, w-1, x86.REG_SI)
	gconreg(x86.AADDL, w-1, x86.REG_DI)

	gconreg(x86.AMOVL, int64(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(x86.AADDL, -3, x86.REG_SI)
	gconreg(x86.AADDL, -3, x86.REG_DI)
	} else {
	gconreg(x86.AADDL, w-4, x86.REG_SI)
	gconreg(x86.AADDL, w-4, x86.REG_DI)
	}

	gconreg(x86.AMOVL, int64(q), x86.REG_CX)
	gins(x86.AREP, nil, nil) // repeat
	gins(x86.AMOVSL, nil, nil) // MOVL (SI)-,(DI)-
	}

	// we leave with the flag clear
	gins(x86.ACLD, nil, nil)
	} else {
	gins(x86.ACLD, nil, nil) // paranoia. TODO(rsc): remove?

	// normal direction
	if q > 128 \|\| (q >= 4 && gc.Nacl) {
	gconreg(x86.AMOVL, int64(q), x86.REG_CX)
	gins(x86.AREP, nil, nil) // repeat
	gins(x86.AMOVSL, nil, nil) // MOVL (SI)+,(DI)+
	} else if q >= 4 {
	p := gins(obj.ADUFFCOPY, nil, nil)
	p.To.Type = obj.TYPE_ADDR
	p.To.Sym = gc.Linksym(gc.Pkglookup("duffcopy", gc.Runtimepkg))

	// 10 and 128 = magic constants: see ../../runtime/asm_386.s
	p.To.Offset = 10 * (128 - int64(q))
	} else if !gc.Nacl && c == 0 {
	var cx gc.Node
	gc.Nodreg(&cx, gc.Types[gc.TINT32], x86.REG_CX)

	// We don't need the MOVSL side-effect of updating SI and DI,
	// and issuing a sequence of MOVLs directly is faster.
	src.Op = gc.OINDREG

	dst.Op = gc.OINDREG
	for q > 0 {
	gmove(&src, &cx) // MOVL x+(SI),CX
	gmove(&cx, &dst) // MOVL CX,x+(DI)
	src.Xoffset += 4
	dst.Xoffset += 4
	q--
	}
	} else {
	for q > 0 {
	gins(x86.AMOVSL, nil, nil) // MOVL (SI)+,(DI)+
	q--
	}
	}

	for c > 0 {
	gins(x86.AMOVSB, nil, nil) // MOVB (SI)+,(DI)+
	c--
	}
	}
	}