// 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. package reflect_test import ( "bytes" "go/ast" "io" . "reflect" "testing" "unsafe" ) type MyBuffer bytes.Buffer func TestImplicitMapConversion(t *testing.T) { // Test implicit conversions in MapIndex and SetMapIndex. { // direct m := make(map[int]int) mv := ValueOf(m) mv.SetMapIndex(ValueOf(1), ValueOf(2)) x, ok := m[1] if x != 2 { t.Errorf("#1 after SetMapIndex(1,2): %d, %t (map=%v)", x, ok, m) } if n := mv.MapIndex(ValueOf(1)).Interface().(int); n != 2 { t.Errorf("#1 MapIndex(1) = %d", n) } } { // convert interface key m := make(map[interface{}]int) mv := ValueOf(m) mv.SetMapIndex(ValueOf(1), ValueOf(2)) x, ok := m[1] if x != 2 { t.Errorf("#2 after SetMapIndex(1,2): %d, %t (map=%v)", x, ok, m) } if n := mv.MapIndex(ValueOf(1)).Interface().(int); n != 2 { t.Errorf("#2 MapIndex(1) = %d", n) } } { // convert interface value m := make(map[int]interface{}) mv := ValueOf(m) mv.SetMapIndex(ValueOf(1), ValueOf(2)) x, ok := m[1] if x != 2 { t.Errorf("#3 after SetMapIndex(1,2): %d, %t (map=%v)", x, ok, m) } if n := mv.MapIndex(ValueOf(1)).Interface().(int); n != 2 { t.Errorf("#3 MapIndex(1) = %d", n) } } { // convert both interface key and interface value m := make(map[interface{}]interface{}) mv := ValueOf(m) mv.SetMapIndex(ValueOf(1), ValueOf(2)) x, ok := m[1] if x != 2 { t.Errorf("#4 after SetMapIndex(1,2): %d, %t (map=%v)", x, ok, m) } if n := mv.MapIndex(ValueOf(1)).Interface().(int); n != 2 { t.Errorf("#4 MapIndex(1) = %d", n) } } { // convert both, with non-empty interfaces m := make(map[io.Reader]io.Writer) mv := ValueOf(m) b1 := new(bytes.Buffer) b2 := new(bytes.Buffer) mv.SetMapIndex(ValueOf(b1), ValueOf(b2)) x, ok := m[b1] if x != b2 { t.Errorf("#5 after SetMapIndex(b1, b2): %p (!= %p), %t (map=%v)", x, b2, ok, m) } if p := mv.MapIndex(ValueOf(b1)).Elem().Pointer(); p != uintptr(unsafe.Pointer(b2)) { t.Errorf("#5 MapIndex(b1) = %#x want %p", p, b2) } } { // convert channel direction m := make(map[<-chan int]chan int) mv := ValueOf(m) c1 := make(chan int) c2 := make(chan int) mv.SetMapIndex(ValueOf(c1), ValueOf(c2)) x, ok := m[c1] if x != c2 { t.Errorf("#6 after SetMapIndex(c1, c2): %p (!= %p), %t (map=%v)", x, c2, ok, m) } if p := mv.MapIndex(ValueOf(c1)).Pointer(); p != ValueOf(c2).Pointer() { t.Errorf("#6 MapIndex(c1) = %#x want %p", p, c2) } } { // convert identical underlying types // TODO(rsc): Should be able to define MyBuffer here. // 6l prints very strange messages about .this.Bytes etc // when we do that though, so MyBuffer is defined // at top level. m := make(map[*MyBuffer]*bytes.Buffer) mv := ValueOf(m) b1 := new(MyBuffer) b2 := new(bytes.Buffer) mv.SetMapIndex(ValueOf(b1), ValueOf(b2)) x, ok := m[b1] if x != b2 { t.Errorf("#7 after SetMapIndex(b1, b2): %p (!= %p), %t (map=%v)", x, b2, ok, m) } if p := mv.MapIndex(ValueOf(b1)).Pointer(); p != uintptr(unsafe.Pointer(b2)) { t.Errorf("#7 MapIndex(b1) = %#x want %p", p, b2) } } } func TestImplicitSetConversion(t *testing.T) { // Assume TestImplicitMapConversion covered the basics. // Just make sure conversions are being applied at all. var r io.Reader b := new(bytes.Buffer) rv := ValueOf(&r).Elem() rv.Set(ValueOf(b)) if r != b { t.Errorf("after Set: r=%T(%v)", r, r) } } func TestImplicitSendConversion(t *testing.T) { c := make(chan io.Reader, 10) b := new(bytes.Buffer) ValueOf(c).Send(ValueOf(b)) if bb := <-c; bb != b { t.Errorf("Received %p != %p", bb, b) } } func TestImplicitCallConversion(t *testing.T) { // Arguments must be assignable to parameter types. fv := ValueOf(io.WriteString) b := new(bytes.Buffer) fv.Call([]Value{ValueOf(b), ValueOf("hello world")}) if b.String() != "hello world" { t.Errorf("After call: string=%q want %q", b.String(), "hello world") } } func TestImplicitAppendConversion(t *testing.T) { // Arguments must be assignable to the slice's element type. s := []io.Reader{} sv := ValueOf(&s).Elem() b := new(bytes.Buffer) sv.Set(Append(sv, ValueOf(b))) if len(s) != 1 || s[0] != b { t.Errorf("after append: s=%v want [%p]", s, b) } } var implementsTests = []struct { x interface{} t interface{} b bool }{ {new(*bytes.Buffer), new(io.Reader), true}, {new(bytes.Buffer), new(io.Reader), false}, {new(*bytes.Buffer), new(io.ReaderAt), false}, {new(*ast.Ident), new(ast.Expr), true}, } func TestImplements(t *testing.T) { for _, tt := range implementsTests { xv := TypeOf(tt.x).Elem() xt := TypeOf(tt.t).Elem() if b := xv.Implements(xt); b != tt.b { t.Errorf("(%s).Implements(%s) = %v, want %v", xv.String(), xt.String(), b, tt.b) } } } var assignableTests = []struct { x interface{} t interface{} b bool }{ {new(chan int), new(<-chan int), true}, {new(<-chan int), new(chan int), false}, {new(*int), new(IntPtr), true}, {new(IntPtr), new(*int), true}, {new(IntPtr), new(IntPtr1), false}, {new(Ch), new(<-chan interface{}), true}, // test runs implementsTests too } type IntPtr *int type IntPtr1 *int type Ch <-chan interface{} func TestAssignableTo(t *testing.T) { for _, tt := range append(assignableTests, implementsTests...) { xv := TypeOf(tt.x).Elem() xt := TypeOf(tt.t).Elem() if b := xv.AssignableTo(xt); b != tt.b { t.Errorf("(%s).AssignableTo(%s) = %v, want %v", xv.String(), xt.String(), b, tt.b) } } }