func (f *File) validResultType(typ types.Type) *Error { switch typ.(type) { default: name := typ.String() if named, ok := typ.(*types.Named); ok { name = named.Obj().Name() } return &Error{errors.New(fmt.Sprint("Invalid result type:", name)), 0} case *types.Basic: typ := typ.(*types.Basic) switch typ.Kind() { default: return &Error{errors.New(fmt.Sprint("Invalid basic type for result type :", typ.Info())), 0} case types.Bool: return nil case types.Int: return nil case types.Int8: return nil case types.Int16: return nil case types.Int32: return nil case types.Int64: return nil case types.Uint: return nil case types.Uint8: return nil case types.Uint16: return nil case types.Uint32: return nil case types.Uint64: return nil case types.Float32: return nil case types.Float64: return nil } } }
// zeroConst returns a new "zero" constant of the specified type, // which must not be an array or struct type: the zero values of // aggregates are well-defined but cannot be represented by Const. // func zeroConst(t types.Type) *Const { switch t := t.(type) { case *types.Basic: switch { case t.Info()&types.IsBoolean != 0: return NewConst(exact.MakeBool(false), t) case t.Info()&types.IsNumeric != 0: return NewConst(exact.MakeInt64(0), t) case t.Info()&types.IsString != 0: return NewConst(exact.MakeString(""), t) case t.Kind() == types.UnsafePointer: fallthrough case t.Kind() == types.UntypedNil: return nilConst(t) default: panic(fmt.Sprint("zeroConst for unexpected type:", t)) } case *types.Pointer, *types.Slice, *types.Interface, *types.Chan, *types.Map, *types.Signature: return nilConst(t) case *types.Named: return NewConst(zeroConst(t.Underlying()).Value, t) case *types.Array, *types.Struct, *types.Tuple: panic(fmt.Sprint("zeroConst applied to aggregate:", t)) } panic(fmt.Sprint("zeroConst: unexpected ", t)) }
// zero returns a new "zero" value of the specified type. func zero(t types.Type) value { switch t := t.(type) { case *types.Basic: if t.Kind() == types.UntypedNil { panic("untyped nil has no zero value") } if t.Info()&types.IsUntyped != 0 { // TODO(adonovan): make it an invariant that // this is unreachable. Currently some // constants have 'untyped' types when they // should be defaulted by the typechecker. t = ssa.DefaultType(t).(*types.Basic) } switch t.Kind() { case types.Bool: return false case types.Int: return int(0) case types.Int8: return int8(0) case types.Int16: return int16(0) case types.Int32: return int32(0) case types.Int64: return int64(0) case types.Uint: return uint(0) case types.Uint8: return uint8(0) case types.Uint16: return uint16(0) case types.Uint32: return uint32(0) case types.Uint64: return uint64(0) case types.Uintptr: return uintptr(0) case types.Float32: return float32(0) case types.Float64: return float64(0) case types.Complex64: return complex64(0) case types.Complex128: return complex128(0) case types.String: return "" case types.UnsafePointer: return unsafe.Pointer(nil) default: panic(fmt.Sprint("zero for unexpected type:", t)) } case *types.Pointer: return (*value)(nil) case *types.Array: a := make(array, t.Len()) for i := range a { a[i] = zero(t.Elem()) } return a case *types.Named: return zero(t.Underlying()) case *types.Interface: return iface{} // nil type, methodset and value case *types.Slice: return []value(nil) case *types.Struct: s := make(structure, t.NumFields()) for i := range s { s[i] = zero(t.Field(i).Type()) } return s case *types.Tuple: if t.Len() == 1 { return zero(t.At(0).Type()) } s := make(tuple, t.Len()) for i := range s { s[i] = zero(t.At(i).Type()) } return s case *types.Chan: return chan value(nil) case *types.Map: if usesBuiltinMap(t.Key()) { return map[value]value(nil) } return (*hashmap)(nil) case *types.Signature: return (*ssa.Function)(nil) } panic(fmt.Sprint("zero: unexpected ", t)) }