func zerorange(p *obj.Prog, frame int64, lo int64, hi int64, ax *uint32) *obj.Prog { cnt := hi - lo if cnt == 0 { return p } if *ax == 0 { p = appendpp(p, x86.AMOVQ, obj.TYPE_CONST, 0, 0, obj.TYPE_REG, x86.REG_AX, 0) *ax = 1 } if cnt%int64(gc.Widthreg) != 0 { // should only happen with nacl if cnt%int64(gc.Widthptr) != 0 { gc.Fatal("zerorange count not a multiple of widthptr %d", cnt) } p = appendpp(p, x86.AMOVL, obj.TYPE_REG, x86.REG_AX, 0, obj.TYPE_MEM, x86.REG_SP, frame+lo) lo += int64(gc.Widthptr) cnt -= int64(gc.Widthptr) } if cnt <= int64(4*gc.Widthreg) { for i := int64(0); i < cnt; i += int64(gc.Widthreg) { p = appendpp(p, x86.AMOVQ, obj.TYPE_REG, x86.REG_AX, 0, obj.TYPE_MEM, x86.REG_SP, frame+lo+i) } } else if !gc.Nacl && (cnt <= int64(128*gc.Widthreg)) { q := cnt / int64(gc.Widthreg) p = appendpp(p, leaptr, obj.TYPE_MEM, x86.REG_SP, frame+lo+dzDI(q), obj.TYPE_REG, x86.REG_DI, 0) p = appendpp(p, obj.ADUFFZERO, obj.TYPE_NONE, 0, 0, obj.TYPE_ADDR, 0, dzOff(q)) p.To.Sym = gc.Linksym(gc.Pkglookup("duffzero", gc.Runtimepkg)) } else { p = appendpp(p, x86.AMOVQ, obj.TYPE_CONST, 0, cnt/int64(gc.Widthreg), obj.TYPE_REG, x86.REG_CX, 0) p = appendpp(p, leaptr, obj.TYPE_MEM, x86.REG_SP, frame+lo, obj.TYPE_REG, x86.REG_DI, 0) p = appendpp(p, x86.AREP, obj.TYPE_NONE, 0, 0, obj.TYPE_NONE, 0, 0) p = appendpp(p, x86.ASTOSQ, obj.TYPE_NONE, 0, 0, obj.TYPE_NONE, 0, 0) } return p }
func stackcopy(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) { gconreg(movptr, q, x86.REG_CX) gins(x86.AREP, nil, nil) // repeat gins(x86.AMOVSQ, nil, nil) // MOVQ *(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)) // 14 and 128 = magic constants: see ../../runtime/asm_amd64.s p.To.Offset = 14 * (128 - q) } 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) }
func clearfat(nl *gc.Node) { /* clear a fat object */ if gc.Debug['g'] != 0 { gc.Dump("\nclearfat", nl) } w := nl.Type.Width // Avoid taking the address for simple enough types. if gc.Componentgen(nil, nl) { return } c := w % 8 // bytes q := w / 8 // quads if q < 4 { // Write sequence of MOV 0, off(base) instead of using STOSQ. // The hope is that although the code will be slightly longer, // the MOVs will have no dependencies and pipeline better // than the unrolled STOSQ loop. // 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 var z gc.Node gc.Nodconst(&z, gc.Types[gc.TUINT64], 0) for { tmp14 := q q-- if tmp14 <= 0 { break } n1.Type = z.Type gins(x86.AMOVQ, &z, &n1) n1.Xoffset += 8 } if c >= 4 { gc.Nodconst(&z, gc.Types[gc.TUINT32], 0) n1.Type = z.Type gins(x86.AMOVL, &z, &n1) n1.Xoffset += 4 c -= 4 } gc.Nodconst(&z, gc.Types[gc.TUINT8], 0) for { tmp15 := c c-- if tmp15 <= 0 { break } n1.Type = z.Type gins(x86.AMOVB, &z, &n1) n1.Xoffset++ } gc.Regfree(&n1) return } 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) if q > 128 || gc.Nacl { gconreg(movptr, q, x86.REG_CX) gins(x86.AREP, nil, nil) // repeat gins(x86.ASTOSQ, nil, nil) // STOQ AL,*(DI)+ } else { if di := dzDI(q); 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(q) } z := ax di := n1 if w >= 8 && c >= 4 { di.Op = gc.OINDREG z.Type = gc.Types[gc.TINT64] di.Type = z.Type p := gins(x86.AMOVQ, &z, &di) p.To.Scale = 1 p.To.Offset = c - 8 } else if c >= 4 { di.Op = gc.OINDREG z.Type = gc.Types[gc.TINT32] di.Type = z.Type gins(x86.AMOVL, &z, &di) if c > 4 { p := gins(x86.AMOVL, &z, &di) p.To.Scale = 1 p.To.Offset = c - 4 } } else { for c > 0 { gins(x86.ASTOSB, nil, nil) // STOB AL,*(DI)+ c-- } } restx(&n1, &oldn1) restx(&ax, &oldax) }