// Code generated by "go test -run=Generate -write=all"; DO NOT EDIT. // Copyright 2011 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. // This file sets up the universe scope and the unsafe package. package types import ( "go/constant" "strings" ) // The Universe scope contains all predeclared objects of Go. // It is the outermost scope of any chain of nested scopes. var Universe *Scope // The Unsafe package is the package returned by an importer // for the import path "unsafe". var Unsafe *Package var ( universeIota Object universeByte Type // uint8 alias, but has name "byte" universeRune Type // int32 alias, but has name "rune" universeAny Object universeError Type universeComparable Object ) // Typ contains the predeclared *Basic types indexed by their // corresponding BasicKind. // // The *Basic type for Typ[Byte] will have the name "uint8". // Use Universe.Lookup("byte").Type() to obtain the specific // alias basic type named "byte" (and analogous for "rune"). var Typ = []*Basic{ Invalid: {Invalid, 0, "invalid type"}, Bool: {Bool, IsBoolean, "bool"}, Int: {Int, IsInteger, "int"}, Int8: {Int8, IsInteger, "int8"}, Int16: {Int16, IsInteger, "int16"}, Int32: {Int32, IsInteger, "int32"}, Int64: {Int64, IsInteger, "int64"}, Uint: {Uint, IsInteger | IsUnsigned, "uint"}, Uint8: {Uint8, IsInteger | IsUnsigned, "uint8"}, Uint16: {Uint16, IsInteger | IsUnsigned, "uint16"}, Uint32: {Uint32, IsInteger | IsUnsigned, "uint32"}, Uint64: {Uint64, IsInteger | IsUnsigned, "uint64"}, Uintptr: {Uintptr, IsInteger | IsUnsigned, "uintptr"}, Float32: {Float32, IsFloat, "float32"}, Float64: {Float64, IsFloat, "float64"}, Complex64: {Complex64, IsComplex, "complex64"}, Complex128: {Complex128, IsComplex, "complex128"}, String: {String, IsString, "string"}, UnsafePointer: {UnsafePointer, 0, "Pointer"}, UntypedBool: {UntypedBool, IsBoolean | IsUntyped, "untyped bool"}, UntypedInt: {UntypedInt, IsInteger | IsUntyped, "untyped int"}, UntypedRune: {UntypedRune, IsInteger | IsUntyped, "untyped rune"}, UntypedFloat: {UntypedFloat, IsFloat | IsUntyped, "untyped float"}, UntypedComplex: {UntypedComplex, IsComplex | IsUntyped, "untyped complex"}, UntypedString: {UntypedString, IsString | IsUntyped, "untyped string"}, UntypedNil: {UntypedNil, IsUntyped, "untyped nil"}, } var aliases = [...]*Basic{ {Byte, IsInteger | IsUnsigned, "byte"}, {Rune, IsInteger, "rune"}, } func defPredeclaredTypes() { for _, t := range Typ { def(NewTypeName(nopos, nil, t.name, t)) } for _, t := range aliases { def(NewTypeName(nopos, nil, t.name, t)) } // type any = interface{} // Note: don't use &emptyInterface for the type of any. Using a unique // pointer allows us to detect any and format it as "any" rather than // interface{}, which clarifies user-facing error messages significantly. def(NewTypeName(nopos, nil, "any", &Interface{complete: true, tset: &topTypeSet})) // type error interface{ Error() string } { obj := NewTypeName(nopos, nil, "error", nil) obj.setColor(black) typ := NewNamed(obj, nil, nil) // error.Error() string recv := NewVar(nopos, nil, "", typ) res := NewVar(nopos, nil, "", Typ[String]) sig := NewSignatureType(recv, nil, nil, nil, NewTuple(res), false) err := NewFunc(nopos, nil, "Error", sig) // interface{ Error() string } ityp := &Interface{methods: []*Func{err}, complete: true} computeInterfaceTypeSet(nil, nopos, ityp) // prevent races due to lazy computation of tset typ.SetUnderlying(ityp) def(obj) } // type comparable interface{} // marked as comparable { obj := NewTypeName(nopos, nil, "comparable", nil) obj.setColor(black) typ := NewNamed(obj, nil, nil) // interface{} // marked as comparable ityp := &Interface{complete: true, tset: &_TypeSet{nil, allTermlist, true}} typ.SetUnderlying(ityp) def(obj) } } var predeclaredConsts = [...]struct { name string kind BasicKind val constant.Value }{ {"true", UntypedBool, constant.MakeBool(true)}, {"false", UntypedBool, constant.MakeBool(false)}, {"iota", UntypedInt, constant.MakeInt64(0)}, } func defPredeclaredConsts() { for _, c := range predeclaredConsts { def(NewConst(nopos, nil, c.name, Typ[c.kind], c.val)) } } func defPredeclaredNil() { def(&Nil{object{name: "nil", typ: Typ[UntypedNil], color_: black}}) } // A builtinId is the id of a builtin function. type builtinId int const ( // universe scope _Append builtinId = iota _Cap _Clear _Close _Complex _Copy _Delete _Imag _Len _Make _Max _Min _New _Panic _Print _Println _Real _Recover // package unsafe _Add _Alignof _Offsetof _Sizeof _Slice _SliceData _String _StringData // testing support _Assert _Trace ) var predeclaredFuncs = [...]struct { name string nargs int variadic bool kind exprKind }{ _Append: {"append", 1, true, expression}, _Cap: {"cap", 1, false, expression}, _Clear: {"clear", 1, false, statement}, _Close: {"close", 1, false, statement}, _Complex: {"complex", 2, false, expression}, _Copy: {"copy", 2, false, statement}, _Delete: {"delete", 2, false, statement}, _Imag: {"imag", 1, false, expression}, _Len: {"len", 1, false, expression}, _Make: {"make", 1, true, expression}, // To disable max/min, remove the next two lines. _Max: {"max", 1, true, expression}, _Min: {"min", 1, true, expression}, _New: {"new", 1, false, expression}, _Panic: {"panic", 1, false, statement}, _Print: {"print", 0, true, statement}, _Println: {"println", 0, true, statement}, _Real: {"real", 1, false, expression}, _Recover: {"recover", 0, false, statement}, _Add: {"Add", 2, false, expression}, _Alignof: {"Alignof", 1, false, expression}, _Offsetof: {"Offsetof", 1, false, expression}, _Sizeof: {"Sizeof", 1, false, expression}, _Slice: {"Slice", 2, false, expression}, _SliceData: {"SliceData", 1, false, expression}, _String: {"String", 2, false, expression}, _StringData: {"StringData", 1, false, expression}, _Assert: {"assert", 1, false, statement}, _Trace: {"trace", 0, true, statement}, } func defPredeclaredFuncs() { for i := range predeclaredFuncs { id := builtinId(i) if id == _Assert || id == _Trace { continue // only define these in testing environment } def(newBuiltin(id)) } } // DefPredeclaredTestFuncs defines the assert and trace built-ins. // These built-ins are intended for debugging and testing of this // package only. func DefPredeclaredTestFuncs() { if Universe.Lookup("assert") != nil { return // already defined } def(newBuiltin(_Assert)) def(newBuiltin(_Trace)) } func init() { Universe = NewScope(nil, nopos, nopos, "universe") Unsafe = NewPackage("unsafe", "unsafe") Unsafe.complete = true defPredeclaredTypes() defPredeclaredConsts() defPredeclaredNil() defPredeclaredFuncs() universeIota = Universe.Lookup("iota") universeByte = Universe.Lookup("byte").Type() universeRune = Universe.Lookup("rune").Type() universeAny = Universe.Lookup("any") universeError = Universe.Lookup("error").Type() universeComparable = Universe.Lookup("comparable") } // Objects with names containing blanks are internal and not entered into // a scope. Objects with exported names are inserted in the unsafe package // scope; other objects are inserted in the universe scope. func def(obj Object) { assert(obj.color() == black) name := obj.Name() if strings.Contains(name, " ") { return // nothing to do } // fix Obj link for named types if typ := asNamed(obj.Type()); typ != nil { typ.obj = obj.(*TypeName) } // exported identifiers go into package unsafe scope := Universe if obj.Exported() { scope = Unsafe.scope // set Pkg field switch obj := obj.(type) { case *TypeName: obj.pkg = Unsafe case *Builtin: obj.pkg = Unsafe default: unreachable() } } if scope.Insert(obj) != nil { panic("double declaration of predeclared identifier") } }