func datagostring(sval string, a *obj.Addr) { symhdr, _ := stringsym(sval) a.Type = obj.TYPE_MEM a.Name = obj.NAME_EXTERN a.Sym = symhdr a.Offset = 0 a.Etype = uint8(TSTRING) }
func Datastring(s string, a *obj.Addr) { _, symdata := stringsym(s) a.Type = obj.TYPE_MEM a.Name = obj.NAME_EXTERN a.Sym = symdata a.Offset = 0 a.Etype = uint8(Simtype[TINT]) }
func datagostring(sval string, a *obj.Addr) { symhdr, _ := stringsym(sval) a.Type = obj.TYPE_MEM a.Name = obj.NAME_EXTERN a.Sym = Linksym(symhdr) a.Node = symhdr.Def a.Offset = 0 a.Etype = TSTRING }
func Datastring(s string, a *obj.Addr) { _, symdata := stringsym(s) a.Type = obj.TYPE_MEM a.Name = obj.NAME_EXTERN a.Sym = Linksym(symdata) a.Node = symdata.Def a.Offset = 0 a.Etype = Simtype[TINT] }
func Datastring(s string, a *obj.Addr) { sym := stringsym(s) a.Type = obj.TYPE_MEM a.Name = obj.NAME_EXTERN a.Sym = Linksym(sym) a.Node = sym.Def a.Offset = int64(Widthptr) + int64(Widthint) // skip header a.Etype = Simtype[TINT] }
// 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 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 }
// 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", n.Op, Ctxt.Dconv(a)) case OREGISTER: a.Type = obj.TYPE_REG a.Reg = n.Reg a.Sym = nil if Thearch.LinkArch.Family == sys.I386 { // 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.LinkArch.Family == sys.I386 { // TODO(rsc): Never clear a->width. a.Width = 0 } 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 && n.Type != nil && n.Type.Sym != nil && 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.IsStruct() || n.Left.Type.Field(0).Sym != n.Sym { Debug['h'] = 1 Dump("naddr", n) Fatalf("naddr: bad %v %v", n.Op, Ctxt.Dconv(a)) } Naddr(a, n.Left) case OLITERAL: if Thearch.LinkArch.Family == sys.I386 { a.Width = 0 } switch u := n.Val().U.(type) { default: Fatalf("naddr: const %v", Tconv(n.Type, FmtLong)) case *Mpflt: a.Type = obj.TYPE_FCONST a.Val = u.Float64() case *Mpint: a.Sym = nil a.Type = obj.TYPE_CONST a.Offset = u.Int64() case string: datagostring(u, a) case bool: a.Sym = nil a.Type = obj.TYPE_CONST a.Offset = int64(obj.Bool2int(u)) case *NilVal: a.Sym = nil a.Type = obj.TYPE_CONST a.Offset = 0 } case OADDR: Naddr(a, n.Left) a.Etype = uint8(Tptr) if !Thearch.LinkArch.InFamily(sys.MIPS64, sys.ARM, sys.ARM64, sys.PPC64, sys.S390X) { // TODO(rsc): Do this even for these architectures. 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), n.Left.Op) } a.Type = obj.TYPE_ADDR case OITAB: // itable of interface value Naddr(a, n.Left) if a.Type == obj.TYPE_CONST && a.Offset == 0 { break // itab(nil) } a.Etype = uint8(Tptr) a.Width = int64(Widthptr) case OIDATA: // idata of interface value Naddr(a, n.Left) if a.Type == obj.TYPE_CONST && a.Offset == 0 { break // idata(nil) } if isdirectiface(n.Type) { a.Etype = uint8(Simtype[n.Type.Etype]) } else { a.Etype = uint8(Tptr) } a.Offset += int64(Widthptr) 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.LinkArch.Family != sys.ARM { // 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.LinkArch.Family != sys.ARM { // TODO(rsc): Do this even on arm. a.Width = int64(Widthint) } } }