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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgo/] [go/] [reflect/] [all_test.go] - Rev 747
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// Copyright 2009 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_testimport ("bytes""encoding/base64""fmt""io""os". "reflect"/* "runtime" */"testing""unsafe")func TestBool(t *testing.T) {v := ValueOf(true)if v.Bool() != true {t.Fatal("ValueOf(true).Bool() = false")}}type integer inttype T struct {a intb float64c stringd *int}type pair struct {i interface{}s string}func isDigit(c uint8) bool { return '0' <= c && c <= '9' }func assert(t *testing.T, s, want string) {if s != want {t.Errorf("have %#q want %#q", s, want)}}func typestring(i interface{}) string { return TypeOf(i).String() }var typeTests = []pair{{struct{ x int }{}, "int"},{struct{ x int8 }{}, "int8"},{struct{ x int16 }{}, "int16"},{struct{ x int32 }{}, "int32"},{struct{ x int64 }{}, "int64"},{struct{ x uint }{}, "uint"},{struct{ x uint8 }{}, "uint8"},{struct{ x uint16 }{}, "uint16"},{struct{ x uint32 }{}, "uint32"},{struct{ x uint64 }{}, "uint64"},{struct{ x float32 }{}, "float32"},{struct{ x float64 }{}, "float64"},{struct{ x int8 }{}, "int8"},{struct{ x (**int8) }{}, "**int8"},{struct{ x (**integer) }{}, "**reflect_test.integer"},{struct{ x ([32]int32) }{}, "[32]int32"},{struct{ x ([]int8) }{}, "[]int8"},{struct{ x (map[string]int32) }{}, "map[string]int32"},{struct{ x (chan<- string) }{}, "chan<- string"},{struct {x struct {c chan *int32d float32}}{},"struct { c chan *int32; d float32 }",},{struct{ x (func(a int8, b int32)) }{}, "func(int8, int32)"},{struct {x struct {c func(chan *integer, *int8)}}{},"struct { c func(chan *reflect_test.integer, *int8) }",},{struct {x struct {a int8b int32}}{},"struct { a int8; b int32 }",},{struct {x struct {a int8b int8c int32}}{},"struct { a int8; b int8; c int32 }",},{struct {x struct {a int8b int8c int8d int32}}{},"struct { a int8; b int8; c int8; d int32 }",},{struct {x struct {a int8b int8c int8d int8e int32}}{},"struct { a int8; b int8; c int8; d int8; e int32 }",},{struct {x struct {a int8b int8c int8d int8e int8f int32}}{},"struct { a int8; b int8; c int8; d int8; e int8; f int32 }",},{struct {x struct {a int8 `reflect:"hi there"`}}{},`struct { a int8 "reflect:\"hi there\"" }`,},{struct {x struct {a int8 `reflect:"hi \x00there\t\n\"\\"`}}{},`struct { a int8 "reflect:\"hi \\x00there\\t\\n\\\"\\\\\"" }`,},{struct {x struct {f func(args ...int)}}{},"struct { f func(...int) }",},{struct {x (interface {a(func(func(int) int) func(func(int)) int)b()})}{},"interface { reflect_test.a(func(func(int) int) func(func(int)) int); reflect_test.b() }",},}var valueTests = []pair{{new(int8), "8"},{new(int16), "16"},{new(int32), "32"},{new(int64), "64"},{new(uint8), "8"},{new(uint16), "16"},{new(uint32), "32"},{new(uint64), "64"},{new(float32), "256.25"},{new(float64), "512.125"},{new(string), "stringy cheese"},{new(bool), "true"},{new(*int8), "*int8(0)"},{new(**int8), "**int8(0)"},{new([5]int32), "[5]int32{0, 0, 0, 0, 0}"},{new(**integer), "**reflect_test.integer(0)"},{new(map[string]int32), "map[string]int32{<can't iterate on maps>}"},{new(chan<- string), "chan<- string"},{new(func(a int8, b int32)), "func(int8, int32)(0)"},{new(struct {c chan *int32d float32}),"struct { c chan *int32; d float32 }{chan *int32, 0}",},{new(struct{ c func(chan *integer, *int8) }),"struct { c func(chan *reflect_test.integer, *int8) }{func(chan *reflect_test.integer, *int8)(0)}",},{new(struct {a int8b int32}),"struct { a int8; b int32 }{0, 0}",},{new(struct {a int8b int8c int32}),"struct { a int8; b int8; c int32 }{0, 0, 0}",},}func testType(t *testing.T, i int, typ Type, want string) {s := typ.String()if s != want {t.Errorf("#%d: have %#q, want %#q", i, s, want)}}func TestTypes(t *testing.T) {for i, tt := range typeTests {testType(t, i, ValueOf(tt.i).Field(0).Type(), tt.s)}}func TestSet(t *testing.T) {for i, tt := range valueTests {v := ValueOf(tt.i)v = v.Elem()switch v.Kind() {case Int:v.SetInt(132)case Int8:v.SetInt(8)case Int16:v.SetInt(16)case Int32:v.SetInt(32)case Int64:v.SetInt(64)case Uint:v.SetUint(132)case Uint8:v.SetUint(8)case Uint16:v.SetUint(16)case Uint32:v.SetUint(32)case Uint64:v.SetUint(64)case Float32:v.SetFloat(256.25)case Float64:v.SetFloat(512.125)case Complex64:v.SetComplex(532.125 + 10i)case Complex128:v.SetComplex(564.25 + 1i)case String:v.SetString("stringy cheese")case Bool:v.SetBool(true)}s := valueToString(v)if s != tt.s {t.Errorf("#%d: have %#q, want %#q", i, s, tt.s)}}}func TestSetValue(t *testing.T) {for i, tt := range valueTests {v := ValueOf(tt.i).Elem()switch v.Kind() {case Int:v.Set(ValueOf(int(132)))case Int8:v.Set(ValueOf(int8(8)))case Int16:v.Set(ValueOf(int16(16)))case Int32:v.Set(ValueOf(int32(32)))case Int64:v.Set(ValueOf(int64(64)))case Uint:v.Set(ValueOf(uint(132)))case Uint8:v.Set(ValueOf(uint8(8)))case Uint16:v.Set(ValueOf(uint16(16)))case Uint32:v.Set(ValueOf(uint32(32)))case Uint64:v.Set(ValueOf(uint64(64)))case Float32:v.Set(ValueOf(float32(256.25)))case Float64:v.Set(ValueOf(512.125))case Complex64:v.Set(ValueOf(complex64(532.125 + 10i)))case Complex128:v.Set(ValueOf(complex128(564.25 + 1i)))case String:v.Set(ValueOf("stringy cheese"))case Bool:v.Set(ValueOf(true))}s := valueToString(v)if s != tt.s {t.Errorf("#%d: have %#q, want %#q", i, s, tt.s)}}}var _i = 7var valueToStringTests = []pair{{123, "123"},{123.5, "123.5"},{byte(123), "123"},{"abc", "abc"},{T{123, 456.75, "hello", &_i}, "reflect_test.T{123, 456.75, hello, *int(&7)}"},{new(chan *T), "*chan *reflect_test.T(&chan *reflect_test.T)"},{[10]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}, "[10]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}"},{&[10]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}, "*[10]int(&[10]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10})"},{[]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}, "[]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}"},{&[]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}, "*[]int(&[]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10})"},}func TestValueToString(t *testing.T) {for i, test := range valueToStringTests {s := valueToString(ValueOf(test.i))if s != test.s {t.Errorf("#%d: have %#q, want %#q", i, s, test.s)}}}func TestArrayElemSet(t *testing.T) {v := ValueOf(&[10]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}).Elem()v.Index(4).SetInt(123)s := valueToString(v)const want = "[10]int{1, 2, 3, 4, 123, 6, 7, 8, 9, 10}"if s != want {t.Errorf("[10]int: have %#q want %#q", s, want)}v = ValueOf([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10})v.Index(4).SetInt(123)s = valueToString(v)const want1 = "[]int{1, 2, 3, 4, 123, 6, 7, 8, 9, 10}"if s != want1 {t.Errorf("[]int: have %#q want %#q", s, want1)}}func TestPtrPointTo(t *testing.T) {var ip *int32var i int32 = 1234vip := ValueOf(&ip)vi := ValueOf(&i).Elem()vip.Elem().Set(vi.Addr())if *ip != 1234 {t.Errorf("got %d, want 1234", *ip)}ip = nilvp := ValueOf(&ip).Elem()vp.Set(Zero(vp.Type()))if ip != nil {t.Errorf("got non-nil (%p), want nil", ip)}}func TestPtrSetNil(t *testing.T) {var i int32 = 1234ip := &ivip := ValueOf(&ip)vip.Elem().Set(Zero(vip.Elem().Type()))if ip != nil {t.Errorf("got non-nil (%d), want nil", *ip)}}func TestMapSetNil(t *testing.T) {m := make(map[string]int)vm := ValueOf(&m)vm.Elem().Set(Zero(vm.Elem().Type()))if m != nil {t.Errorf("got non-nil (%p), want nil", m)}}func TestAll(t *testing.T) {testType(t, 1, TypeOf((int8)(0)), "int8")testType(t, 2, TypeOf((*int8)(nil)).Elem(), "int8")typ := TypeOf((*struct {c chan *int32d float32})(nil))testType(t, 3, typ, "*struct { c chan *int32; d float32 }")etyp := typ.Elem()testType(t, 4, etyp, "struct { c chan *int32; d float32 }")styp := etypf := styp.Field(0)testType(t, 5, f.Type, "chan *int32")f, present := styp.FieldByName("d")if !present {t.Errorf("FieldByName says present field is absent")}testType(t, 6, f.Type, "float32")f, present = styp.FieldByName("absent")if present {t.Errorf("FieldByName says absent field is present")}typ = TypeOf([32]int32{})testType(t, 7, typ, "[32]int32")testType(t, 8, typ.Elem(), "int32")typ = TypeOf((map[string]*int32)(nil))testType(t, 9, typ, "map[string]*int32")mtyp := typtestType(t, 10, mtyp.Key(), "string")testType(t, 11, mtyp.Elem(), "*int32")typ = TypeOf((chan<- string)(nil))testType(t, 12, typ, "chan<- string")testType(t, 13, typ.Elem(), "string")// make sure tag strings are not part of element typetyp = TypeOf(struct {d []uint32 `reflect:"TAG"`}{}).Field(0).TypetestType(t, 14, typ, "[]uint32")}func TestInterfaceGet(t *testing.T) {var inter struct {E interface{}}inter.E = 123.456v1 := ValueOf(&inter)v2 := v1.Elem().Field(0)assert(t, v2.Type().String(), "interface {}")i2 := v2.Interface()v3 := ValueOf(i2)assert(t, v3.Type().String(), "float64")}func TestInterfaceValue(t *testing.T) {var inter struct {E interface{}}inter.E = 123.456v1 := ValueOf(&inter)v2 := v1.Elem().Field(0)assert(t, v2.Type().String(), "interface {}")v3 := v2.Elem()assert(t, v3.Type().String(), "float64")i3 := v2.Interface()if _, ok := i3.(float64); !ok {t.Error("v2.Interface() did not return float64, got ", TypeOf(i3))}}func TestFunctionValue(t *testing.T) {var x interface{} = func() {}v := ValueOf(x)if fmt.Sprint(v.Interface()) != fmt.Sprint(x) {t.Fatalf("TestFunction returned wrong pointer")}assert(t, v.Type().String(), "func()")}var appendTests = []struct {orig, extra []int}{{make([]int, 2, 4), []int{22}},{make([]int, 2, 4), []int{22, 33, 44}},}func sameInts(x, y []int) bool {if len(x) != len(y) {return false}for i, xx := range x {if xx != y[i] {return false}}return true}func TestAppend(t *testing.T) {for i, test := range appendTests {origLen, extraLen := len(test.orig), len(test.extra)want := append(test.orig, test.extra...)// Convert extra from []int to []Value.e0 := make([]Value, len(test.extra))for j, e := range test.extra {e0[j] = ValueOf(e)}// Convert extra from []int to *SliceValue.e1 := ValueOf(test.extra)// Test Append.a0 := ValueOf(test.orig)have0 := Append(a0, e0...).Interface().([]int)if !sameInts(have0, want) {t.Errorf("Append #%d: have %v, want %v (%p %p)", i, have0, want, test.orig, have0)}// Check that the orig and extra slices were not modified.if len(test.orig) != origLen {t.Errorf("Append #%d origLen: have %v, want %v", i, len(test.orig), origLen)}if len(test.extra) != extraLen {t.Errorf("Append #%d extraLen: have %v, want %v", i, len(test.extra), extraLen)}// Test AppendSlice.a1 := ValueOf(test.orig)have1 := AppendSlice(a1, e1).Interface().([]int)if !sameInts(have1, want) {t.Errorf("AppendSlice #%d: have %v, want %v", i, have1, want)}// Check that the orig and extra slices were not modified.if len(test.orig) != origLen {t.Errorf("AppendSlice #%d origLen: have %v, want %v", i, len(test.orig), origLen)}if len(test.extra) != extraLen {t.Errorf("AppendSlice #%d extraLen: have %v, want %v", i, len(test.extra), extraLen)}}}func TestCopy(t *testing.T) {a := []int{1, 2, 3, 4, 10, 9, 8, 7}b := []int{11, 22, 33, 44, 1010, 99, 88, 77, 66, 55, 44}c := []int{11, 22, 33, 44, 1010, 99, 88, 77, 66, 55, 44}for i := 0; i < len(b); i++ {if b[i] != c[i] {t.Fatalf("b != c before test")}}a1 := ab1 := baa := ValueOf(&a1).Elem()ab := ValueOf(&b1).Elem()for tocopy := 1; tocopy <= 7; tocopy++ {aa.SetLen(tocopy)Copy(ab, aa)aa.SetLen(8)for i := 0; i < tocopy; i++ {if a[i] != b[i] {t.Errorf("(i) tocopy=%d a[%d]=%d, b[%d]=%d",tocopy, i, a[i], i, b[i])}}for i := tocopy; i < len(b); i++ {if b[i] != c[i] {if i < len(a) {t.Errorf("(ii) tocopy=%d a[%d]=%d, b[%d]=%d, c[%d]=%d",tocopy, i, a[i], i, b[i], i, c[i])} else {t.Errorf("(iii) tocopy=%d b[%d]=%d, c[%d]=%d",tocopy, i, b[i], i, c[i])}} else {t.Logf("tocopy=%d elem %d is okay\n", tocopy, i)}}}}func TestCopyArray(t *testing.T) {a := [8]int{1, 2, 3, 4, 10, 9, 8, 7}b := [11]int{11, 22, 33, 44, 1010, 99, 88, 77, 66, 55, 44}c := baa := ValueOf(&a).Elem()ab := ValueOf(&b).Elem()Copy(ab, aa)for i := 0; i < len(a); i++ {if a[i] != b[i] {t.Errorf("(i) a[%d]=%d, b[%d]=%d", i, a[i], i, b[i])}}for i := len(a); i < len(b); i++ {if b[i] != c[i] {t.Errorf("(ii) b[%d]=%d, c[%d]=%d", i, b[i], i, c[i])} else {t.Logf("elem %d is okay\n", i)}}}func TestBigUnnamedStruct(t *testing.T) {b := struct{ a, b, c, d int64 }{1, 2, 3, 4}v := ValueOf(b)b1 := v.Interface().(struct {a, b, c, d int64})if b1.a != b.a || b1.b != b.b || b1.c != b.c || b1.d != b.d {t.Errorf("ValueOf(%v).Interface().(*Big) = %v", b, b1)}}type big struct {a, b, c, d, e int64}func TestBigStruct(t *testing.T) {b := big{1, 2, 3, 4, 5}v := ValueOf(b)b1 := v.Interface().(big)if b1.a != b.a || b1.b != b.b || b1.c != b.c || b1.d != b.d || b1.e != b.e {t.Errorf("ValueOf(%v).Interface().(big) = %v", b, b1)}}type Basic struct {x inty float32}type NotBasic Basictype DeepEqualTest struct {a, b interface{}eq bool}var deepEqualTests = []DeepEqualTest{// Equalities{1, 1, true},{int32(1), int32(1), true},{0.5, 0.5, true},{float32(0.5), float32(0.5), true},{"hello", "hello", true},{make([]int, 10), make([]int, 10), true},{&[3]int{1, 2, 3}, &[3]int{1, 2, 3}, true},{Basic{1, 0.5}, Basic{1, 0.5}, true},{error(nil), error(nil), true},{map[int]string{1: "one", 2: "two"}, map[int]string{2: "two", 1: "one"}, true},// Inequalities{1, 2, false},{int32(1), int32(2), false},{0.5, 0.6, false},{float32(0.5), float32(0.6), false},{"hello", "hey", false},{make([]int, 10), make([]int, 11), false},{&[3]int{1, 2, 3}, &[3]int{1, 2, 4}, false},{Basic{1, 0.5}, Basic{1, 0.6}, false},{Basic{1, 0}, Basic{2, 0}, false},{map[int]string{1: "one", 3: "two"}, map[int]string{2: "two", 1: "one"}, false},{map[int]string{1: "one", 2: "txo"}, map[int]string{2: "two", 1: "one"}, false},{map[int]string{1: "one"}, map[int]string{2: "two", 1: "one"}, false},{map[int]string{2: "two", 1: "one"}, map[int]string{1: "one"}, false},{nil, 1, false},{1, nil, false},// Nil vs empty: not the same.{[]int{}, []int(nil), false},{[]int{}, []int{}, true},{[]int(nil), []int(nil), true},{map[int]int{}, map[int]int(nil), false},{map[int]int{}, map[int]int{}, true},{map[int]int(nil), map[int]int(nil), true},// Mismatched types{1, 1.0, false},{int32(1), int64(1), false},{0.5, "hello", false},{[]int{1, 2, 3}, [3]int{1, 2, 3}, false},{&[3]interface{}{1, 2, 4}, &[3]interface{}{1, 2, "s"}, false},{Basic{1, 0.5}, NotBasic{1, 0.5}, false},{map[uint]string{1: "one", 2: "two"}, map[int]string{2: "two", 1: "one"}, false},}func TestDeepEqual(t *testing.T) {for _, test := range deepEqualTests {if r := DeepEqual(test.a, test.b); r != test.eq {t.Errorf("DeepEqual(%v, %v) = %v, want %v", test.a, test.b, r, test.eq)}}}func TestTypeOf(t *testing.T) {for _, test := range deepEqualTests {v := ValueOf(test.a)if !v.IsValid() {continue}typ := TypeOf(test.a)if typ != v.Type() {t.Errorf("TypeOf(%v) = %v, but ValueOf(%v).Type() = %v", test.a, typ, test.a, v.Type())}}}type Recursive struct {x intr *Recursive}func TestDeepEqualRecursiveStruct(t *testing.T) {a, b := new(Recursive), new(Recursive)*a = Recursive{12, a}*b = Recursive{12, b}if !DeepEqual(a, b) {t.Error("DeepEqual(recursive same) = false, want true")}}type _Complex struct {a intb [3]*_Complexc *stringd map[float64]float64}func TestDeepEqualComplexStruct(t *testing.T) {m := make(map[float64]float64)stra, strb := "hello", "hello"a, b := new(_Complex), new(_Complex)*a = _Complex{5, [3]*_Complex{a, b, a}, &stra, m}*b = _Complex{5, [3]*_Complex{b, a, a}, &strb, m}if !DeepEqual(a, b) {t.Error("DeepEqual(complex same) = false, want true")}}func TestDeepEqualComplexStructInequality(t *testing.T) {m := make(map[float64]float64)stra, strb := "hello", "helloo" // Difference is herea, b := new(_Complex), new(_Complex)*a = _Complex{5, [3]*_Complex{a, b, a}, &stra, m}*b = _Complex{5, [3]*_Complex{b, a, a}, &strb, m}if DeepEqual(a, b) {t.Error("DeepEqual(complex different) = true, want false")}}type UnexpT struct {m map[int]int}func TestDeepEqualUnexportedMap(t *testing.T) {// Check that DeepEqual can look at unexported fields.x1 := UnexpT{map[int]int{1: 2}}x2 := UnexpT{map[int]int{1: 2}}if !DeepEqual(&x1, &x2) {t.Error("DeepEqual(x1, x2) = false, want true")}y1 := UnexpT{map[int]int{2: 3}}if DeepEqual(&x1, &y1) {t.Error("DeepEqual(x1, y1) = true, want false")}}func check2ndField(x interface{}, offs uintptr, t *testing.T) {s := ValueOf(x)f := s.Type().Field(1)if f.Offset != offs {t.Error("mismatched offsets in structure alignment:", f.Offset, offs)}}// Check that structure alignment & offsets viewed through reflect agree with those// from the compiler itself.func TestAlignment(t *testing.T) {type T1inner struct {a int}type T1 struct {T1innerf int}type T2inner struct {a, b int}type T2 struct {T2innerf int}x := T1{T1inner{2}, 17}check2ndField(x, uintptr(unsafe.Pointer(&x.f))-uintptr(unsafe.Pointer(&x)), t)x1 := T2{T2inner{2, 3}, 17}check2ndField(x1, uintptr(unsafe.Pointer(&x1.f))-uintptr(unsafe.Pointer(&x1)), t)}func Nil(a interface{}, t *testing.T) {n := ValueOf(a).Field(0)if !n.IsNil() {t.Errorf("%v should be nil", a)}}func NotNil(a interface{}, t *testing.T) {n := ValueOf(a).Field(0)if n.IsNil() {t.Errorf("value of type %v should not be nil", ValueOf(a).Type().String())}}func TestIsNil(t *testing.T) {// These implement IsNil.// Wrap in extra struct to hide interface type.doNil := []interface{}{struct{ x *int }{},struct{ x interface{} }{},struct{ x map[string]int }{},struct{ x func() bool }{},struct{ x chan int }{},struct{ x []string }{},}for _, ts := range doNil {ty := TypeOf(ts).Field(0).Typev := Zero(ty)v.IsNil() // panics if not okay to call}// Check the implementationsvar pi struct {x *int}Nil(pi, t)pi.x = new(int)NotNil(pi, t)var si struct {x []int}Nil(si, t)si.x = make([]int, 10)NotNil(si, t)var ci struct {x chan int}Nil(ci, t)ci.x = make(chan int)NotNil(ci, t)var mi struct {x map[int]int}Nil(mi, t)mi.x = make(map[int]int)NotNil(mi, t)var ii struct {x interface{}}Nil(ii, t)ii.x = 2NotNil(ii, t)var fi struct {x func(t *testing.T)}Nil(fi, t)fi.x = TestIsNilNotNil(fi, t)}func TestInterfaceExtraction(t *testing.T) {var s struct {W io.Writer}s.W = os.Stdoutv := Indirect(ValueOf(&s)).Field(0).Interface()if v != s.W.(interface{}) {t.Error("Interface() on interface: ", v, s.W)}}func TestNilPtrValueSub(t *testing.T) {var pi *intif pv := ValueOf(pi); pv.Elem().IsValid() {t.Error("ValueOf((*int)(nil)).Elem().IsValid()")}}func TestMap(t *testing.T) {m := map[string]int{"a": 1, "b": 2}mv := ValueOf(m)if n := mv.Len(); n != len(m) {t.Errorf("Len = %d, want %d", n, len(m))}keys := mv.MapKeys()newmap := MakeMap(mv.Type())for k, v := range m {// Check that returned Keys match keys in range.// These aren't required to be in the same order.seen := falsefor _, kv := range keys {if kv.String() == k {seen = truebreak}}if !seen {t.Errorf("Missing key %q", k)}// Check that value lookup is correct.vv := mv.MapIndex(ValueOf(k))if vi := vv.Int(); vi != int64(v) {t.Errorf("Key %q: have value %d, want %d", k, vi, v)}// Copy into new map.newmap.SetMapIndex(ValueOf(k), ValueOf(v))}vv := mv.MapIndex(ValueOf("not-present"))if vv.IsValid() {t.Errorf("Invalid key: got non-nil value %s", valueToString(vv))}newm := newmap.Interface().(map[string]int)if len(newm) != len(m) {t.Errorf("length after copy: newm=%d, m=%d", newm, m)}for k, v := range newm {mv, ok := m[k]if mv != v {t.Errorf("newm[%q] = %d, but m[%q] = %d, %v", k, v, k, mv, ok)}}newmap.SetMapIndex(ValueOf("a"), Value{})v, ok := newm["a"]if ok {t.Errorf("newm[\"a\"] = %d after delete", v)}mv = ValueOf(&m).Elem()mv.Set(Zero(mv.Type()))if m != nil {t.Errorf("mv.Set(nil) failed")}}func TestChan(t *testing.T) {for loop := 0; loop < 2; loop++ {var c chan intvar cv Value// check both ways to allocate channelsswitch loop {case 1:c = make(chan int, 1)cv = ValueOf(c)case 0:cv = MakeChan(TypeOf(c), 1)c = cv.Interface().(chan int)}// Sendcv.Send(ValueOf(2))if i := <-c; i != 2 {t.Errorf("reflect Send 2, native recv %d", i)}// Recvc <- 3if i, ok := cv.Recv(); i.Int() != 3 || !ok {t.Errorf("native send 3, reflect Recv %d, %t", i.Int(), ok)}// TryRecv failval, ok := cv.TryRecv()if val.IsValid() || ok {t.Errorf("TryRecv on empty chan: %s, %t", valueToString(val), ok)}// TryRecv successc <- 4val, ok = cv.TryRecv()if !val.IsValid() {t.Errorf("TryRecv on ready chan got nil")} else if i := val.Int(); i != 4 || !ok {t.Errorf("native send 4, TryRecv %d, %t", i, ok)}// TrySend failc <- 100ok = cv.TrySend(ValueOf(5))i := <-cif ok {t.Errorf("TrySend on full chan succeeded: value %d", i)}// TrySend successok = cv.TrySend(ValueOf(6))if !ok {t.Errorf("TrySend on empty chan failed")} else {if i = <-c; i != 6 {t.Errorf("TrySend 6, recv %d", i)}}// Closec <- 123cv.Close()if i, ok := cv.Recv(); i.Int() != 123 || !ok {t.Errorf("send 123 then close; Recv %d, %t", i.Int(), ok)}if i, ok := cv.Recv(); i.Int() != 0 || ok {t.Errorf("after close Recv %d, %t", i.Int(), ok)}}// check creation of unbuffered channelvar c chan intcv := MakeChan(TypeOf(c), 0)c = cv.Interface().(chan int)if cv.TrySend(ValueOf(7)) {t.Errorf("TrySend on sync chan succeeded")}if v, ok := cv.TryRecv(); v.IsValid() || ok {t.Errorf("TryRecv on sync chan succeeded: isvalid=%v ok=%v", v.IsValid(), ok)}// len/capcv = MakeChan(TypeOf(c), 10)c = cv.Interface().(chan int)for i := 0; i < 3; i++ {c <- i}if l, m := cv.Len(), cv.Cap(); l != len(c) || m != cap(c) {t.Errorf("Len/Cap = %d/%d want %d/%d", l, m, len(c), cap(c))}}// Difficult test for function call because of// implicit padding between arguments.func dummy(b byte, c int, d byte) (i byte, j int, k byte) {return b, c, d}func TestFunc(t *testing.T) {ret := ValueOf(dummy).Call([]Value{ValueOf(byte(10)), ValueOf(20), ValueOf(byte(30))})if len(ret) != 3 {t.Fatalf("Call returned %d values, want 3", len(ret))}i := byte(ret[0].Uint())j := int(ret[1].Int())k := byte(ret[2].Uint())if i != 10 || j != 20 || k != 30 {t.Errorf("Call returned %d, %d, %d; want 10, 20, 30", i, j, k)}}type Point struct {x, y int}// This will be index 0.func (p Point) AnotherMethod(scale int) int {return -1}// This will be index 1.func (p Point) Dist(scale int) int {// println("Point.Dist", p.x, p.y, scale)return p.x*p.x*scale + p.y*p.y*scale}func TestMethod(t *testing.T) {// Non-curried method of type.p := Point{3, 4}i := TypeOf(p).Method(1).Func.Call([]Value{ValueOf(p), ValueOf(10)})[0].Int()if i != 250 {t.Errorf("Type Method returned %d; want 250", i)}m, ok := TypeOf(p).MethodByName("Dist")if !ok {t.Fatalf("method by name failed")}m.Func.Call([]Value{ValueOf(p), ValueOf(10)})[0].Int()if i != 250 {t.Errorf("Type MethodByName returned %d; want 250", i)}i = TypeOf(&p).Method(1).Func.Call([]Value{ValueOf(&p), ValueOf(10)})[0].Int()if i != 250 {t.Errorf("Pointer Type Method returned %d; want 250", i)}m, ok = TypeOf(&p).MethodByName("Dist")if !ok {t.Fatalf("ptr method by name failed")}i = m.Func.Call([]Value{ValueOf(&p), ValueOf(10)})[0].Int()if i != 250 {t.Errorf("Pointer Type MethodByName returned %d; want 250", i)}// Curried method of value.tfunc := TypeOf(func(int) int(nil))v := ValueOf(p).Method(1)if tt := v.Type(); tt != tfunc {t.Errorf("Value Method Type is %s; want %s", tt, tfunc)}i = v.Call([]Value{ValueOf(10)})[0].Int()if i != 250 {t.Errorf("Value Method returned %d; want 250", i)}v = ValueOf(p).MethodByName("Dist")if tt := v.Type(); tt != tfunc {t.Errorf("Value MethodByName Type is %s; want %s", tt, tfunc)}i = v.Call([]Value{ValueOf(10)})[0].Int()if i != 250 {t.Errorf("Value MethodByName returned %d; want 250", i)}// Curried method of pointer.v = ValueOf(&p).Method(1)if tt := v.Type(); tt != tfunc {t.Errorf("Pointer Value Method Type is %s; want %s", tt, tfunc)}i = v.Call([]Value{ValueOf(10)})[0].Int()if i != 250 {t.Errorf("Pointer Value Method returned %d; want 250", i)}v = ValueOf(&p).MethodByName("Dist")if tt := v.Type(); tt != tfunc {t.Errorf("Pointer Value MethodByName Type is %s; want %s", tt, tfunc)}i = v.Call([]Value{ValueOf(10)})[0].Int()if i != 250 {t.Errorf("Pointer Value MethodByName returned %d; want 250", i)}// Curried method of interface value.// Have to wrap interface value in a struct to get at it.// Passing it to ValueOf directly would// access the underlying Point, not the interface.var s = struct {X interface {Dist(int) int}}{p}pv := ValueOf(s).Field(0)v = pv.Method(0)if tt := v.Type(); tt != tfunc {t.Errorf("Interface Method Type is %s; want %s", tt, tfunc)}i = v.Call([]Value{ValueOf(10)})[0].Int()if i != 250 {t.Errorf("Interface Method returned %d; want 250", i)}v = pv.MethodByName("Dist")if tt := v.Type(); tt != tfunc {t.Errorf("Interface MethodByName Type is %s; want %s", tt, tfunc)}i = v.Call([]Value{ValueOf(10)})[0].Int()if i != 250 {t.Errorf("Interface MethodByName returned %d; want 250", i)}}func TestInterfaceSet(t *testing.T) {p := &Point{3, 4}var s struct {I interface{}P interface {Dist(int) int}}sv := ValueOf(&s).Elem()sv.Field(0).Set(ValueOf(p))if q := s.I.(*Point); q != p {t.Errorf("i: have %p want %p", q, p)}pv := sv.Field(1)pv.Set(ValueOf(p))if q := s.P.(*Point); q != p {t.Errorf("i: have %p want %p", q, p)}i := pv.Method(0).Call([]Value{ValueOf(10)})[0].Int()if i != 250 {t.Errorf("Interface Method returned %d; want 250", i)}}type T1 struct {a stringint}func TestAnonymousFields(t *testing.T) {var field StructFieldvar ok boolvar t1 T1type1 := TypeOf(t1)if field, ok = type1.FieldByName("int"); !ok {t.Error("no field 'int'")}if field.Index[0] != 1 {t.Error("field index should be 1; is", field.Index)}}type FTest struct {s interface{}name stringindex []intvalue int}type D1 struct {d int}type D2 struct {d int}type S0 struct {A, B, C intD1D2}type S1 struct {B intS0}type S2 struct {A int*S1}type S1x struct {S1}type S1y struct {S1}type S3 struct {S1xS2D, E int*S1y}type S4 struct {*S4A int}var fieldTests = []FTest{{struct{}{}, "", nil, 0},{struct{}{}, "Foo", nil, 0},{S0{A: 'a'}, "A", []int{0}, 'a'},{S0{}, "D", nil, 0},{S1{S0: S0{A: 'a'}}, "A", []int{1, 0}, 'a'},{S1{B: 'b'}, "B", []int{0}, 'b'},{S1{}, "S0", []int{1}, 0},{S1{S0: S0{C: 'c'}}, "C", []int{1, 2}, 'c'},{S2{A: 'a'}, "A", []int{0}, 'a'},{S2{}, "S1", []int{1}, 0},{S2{S1: &S1{B: 'b'}}, "B", []int{1, 0}, 'b'},{S2{S1: &S1{S0: S0{C: 'c'}}}, "C", []int{1, 1, 2}, 'c'},{S2{}, "D", nil, 0},{S3{}, "S1", nil, 0},{S3{S2: S2{A: 'a'}}, "A", []int{1, 0}, 'a'},{S3{}, "B", nil, 0},{S3{D: 'd'}, "D", []int{2}, 0},{S3{E: 'e'}, "E", []int{3}, 'e'},{S4{A: 'a'}, "A", []int{1}, 'a'},{S4{}, "B", nil, 0},}func TestFieldByIndex(t *testing.T) {for _, test := range fieldTests {s := TypeOf(test.s)f := s.FieldByIndex(test.index)if f.Name != "" {if test.index != nil {if f.Name != test.name {t.Errorf("%s.%s found; want %s", s.Name(), f.Name, test.name)}} else {t.Errorf("%s.%s found", s.Name(), f.Name)}} else if len(test.index) > 0 {t.Errorf("%s.%s not found", s.Name(), test.name)}if test.value != 0 {v := ValueOf(test.s).FieldByIndex(test.index)if v.IsValid() {if x, ok := v.Interface().(int); ok {if x != test.value {t.Errorf("%s%v is %d; want %d", s.Name(), test.index, x, test.value)}} else {t.Errorf("%s%v value not an int", s.Name(), test.index)}} else {t.Errorf("%s%v value not found", s.Name(), test.index)}}}}func TestFieldByName(t *testing.T) {for _, test := range fieldTests {s := TypeOf(test.s)f, found := s.FieldByName(test.name)if found {if test.index != nil {// Verify field depth and index.if len(f.Index) != len(test.index) {t.Errorf("%s.%s depth %d; want %d", s.Name(), test.name, len(f.Index), len(test.index))} else {for i, x := range f.Index {if x != test.index[i] {t.Errorf("%s.%s.Index[%d] is %d; want %d", s.Name(), test.name, i, x, test.index[i])}}}} else {t.Errorf("%s.%s found", s.Name(), f.Name)}} else if len(test.index) > 0 {t.Errorf("%s.%s not found", s.Name(), test.name)}if test.value != 0 {v := ValueOf(test.s).FieldByName(test.name)if v.IsValid() {if x, ok := v.Interface().(int); ok {if x != test.value {t.Errorf("%s.%s is %d; want %d", s.Name(), test.name, x, test.value)}} else {t.Errorf("%s.%s value not an int", s.Name(), test.name)}} else {t.Errorf("%s.%s value not found", s.Name(), test.name)}}}}func TestImportPath(t *testing.T) {tests := []struct {t Typepath string}{{TypeOf(&base64.Encoding{}).Elem(), "libgo_encoding.base64"},{TypeOf(uint(0)), ""},{TypeOf(map[string]int{}), ""},{TypeOf((*error)(nil)).Elem(), ""},}for _, test := range tests {if path := test.t.PkgPath(); path != test.path {t.Errorf("%v.PkgPath() = %q, want %q", test.t, path, test.path)}}}func TestVariadicType(t *testing.T) {// Test example from Type documentation.var f func(x int, y ...float64)typ := TypeOf(f)if typ.NumIn() == 2 && typ.In(0) == TypeOf(int(0)) {sl := typ.In(1)if sl.Kind() == Slice {if sl.Elem() == TypeOf(0.0) {// okreturn}}}// Failedt.Errorf("want NumIn() = 2, In(0) = int, In(1) = []float64")s := fmt.Sprintf("have NumIn() = %d", typ.NumIn())for i := 0; i < typ.NumIn(); i++ {s += fmt.Sprintf(", In(%d) = %s", i, typ.In(i))}t.Error(s)}type inner struct {x int}type outer struct {y intinner}func (*inner) m() {}func (*outer) m() {}func TestNestedMethods(t *testing.T) {typ := TypeOf((*outer)(nil))if typ.NumMethod() != 1 || typ.Method(0).Func.Pointer() != ValueOf((*outer).m).Pointer() {t.Errorf("Wrong method table for outer: (m=%p)", (*outer).m)for i := 0; i < typ.NumMethod(); i++ {m := typ.Method(i)t.Errorf("\t%d: %s %#x\n", i, m.Name, m.Func.Pointer())}}}type InnerInt struct {X int}type OuterInt struct {Y intInnerInt}func (i *InnerInt) M() int {return i.X}func TestEmbeddedMethods(t *testing.T) {typ := TypeOf((*OuterInt)(nil))if typ.NumMethod() != 1 || typ.Method(0).Func.Pointer() != ValueOf((*OuterInt).M).Pointer() {t.Errorf("Wrong method table for OuterInt: (m=%p)", (*OuterInt).M)for i := 0; i < typ.NumMethod(); i++ {m := typ.Method(i)t.Errorf("\t%d: %s %#x\n", i, m.Name, m.Func.Pointer())}}i := &InnerInt{3}if v := ValueOf(i).Method(0).Call(nil)[0].Int(); v != 3 {t.Errorf("i.M() = %d, want 3", v)}o := &OuterInt{1, InnerInt{2}}if v := ValueOf(o).Method(0).Call(nil)[0].Int(); v != 2 {t.Errorf("i.M() = %d, want 2", v)}f := (*OuterInt).Mif v := f(o); v != 2 {t.Errorf("f(o) = %d, want 2", v)}}func TestPtrTo(t *testing.T) {var i inttyp := TypeOf(i)for i = 0; i < 100; i++ {typ = PtrTo(typ)}for i = 0; i < 100; i++ {typ = typ.Elem()}if typ != TypeOf(i) {t.Errorf("after 100 PtrTo and Elem, have %s, want %s", typ, TypeOf(i))}}func TestAddr(t *testing.T) {var p struct {X, Y int}v := ValueOf(&p)v = v.Elem()v = v.Addr()v = v.Elem()v = v.Field(0)v.SetInt(2)if p.X != 2 {t.Errorf("Addr.Elem.Set failed to set value")}// Again but take address of the ValueOf value.// Exercises generation of PtrTypes not present in the binary.q := &pv = ValueOf(&q).Elem()v = v.Addr()v = v.Elem()v = v.Elem()v = v.Addr()v = v.Elem()v = v.Field(0)v.SetInt(3)if p.X != 3 {t.Errorf("Addr.Elem.Set failed to set value")}// Starting without pointer we should get changed value// in interface.qq := pv = ValueOf(&qq).Elem()v0 := vv = v.Addr()v = v.Elem()v = v.Field(0)v.SetInt(4)if p.X != 3 { // should be unchanged from last timet.Errorf("somehow value Set changed original p")}p = v0.Interface().(struct {X, Y int})if p.X != 4 {t.Errorf("Addr.Elem.Set valued to set value in top value")}// Verify that taking the address of a type gives us a pointer// which we can convert back using the usual interface// notation.var s struct {B *bool}ps := ValueOf(&s).Elem().Field(0).Addr().Interface()*(ps.(**bool)) = new(bool)if s.B == nil {t.Errorf("Addr.Interface direct assignment failed")}}/* gccgo does do allocations here.func noAlloc(t *testing.T, n int, f func(int)) {// once to prime everythingf(-1)memstats := new(runtime.MemStats)runtime.ReadMemStats(memstats)oldmallocs := memstats.Mallocsfor j := 0; j < n; j++ {f(j)}// A few allocs may happen in the testing package when GOMAXPROCS > 1, so don't// require zero mallocs.runtime.ReadMemStats(memstats)mallocs := memstats.Mallocs - oldmallocsif mallocs > 5 {t.Fatalf("%d mallocs after %d iterations", mallocs, n)}}func TestAllocations(t *testing.T) {noAlloc(t, 100, func(j int) {var i interface{}var v Valuei = 42 + jv = ValueOf(i)if int(v.Int()) != 42+j {panic("wrong int")}})}*/func TestSmallNegativeInt(t *testing.T) {i := int16(-1)v := ValueOf(i)if v.Int() != -1 {t.Errorf("int16(-1).Int() returned %v", v.Int())}}func TestSlice(t *testing.T) {xs := []int{1, 2, 3, 4, 5, 6, 7, 8}v := ValueOf(xs).Slice(3, 5).Interface().([]int)if len(v) != 2 {t.Errorf("len(xs.Slice(3, 5)) = %d", len(v))}if cap(v) != 5 {t.Errorf("cap(xs.Slice(3, 5)) = %d", cap(v))}if !DeepEqual(v[0:5], xs[3:]) {t.Errorf("xs.Slice(3, 5)[0:5] = %v", v[0:5])}xa := [8]int{10, 20, 30, 40, 50, 60, 70, 80}v = ValueOf(&xa).Elem().Slice(2, 5).Interface().([]int)if len(v) != 3 {t.Errorf("len(xa.Slice(2, 5)) = %d", len(v))}if cap(v) != 6 {t.Errorf("cap(xa.Slice(2, 5)) = %d", cap(v))}if !DeepEqual(v[0:6], xa[2:]) {t.Errorf("xs.Slice(2, 5)[0:6] = %v", v[0:6])}}func TestVariadic(t *testing.T) {var b bytes.BufferV := ValueOfb.Reset()V(fmt.Fprintf).Call([]Value{V(&b), V("%s, %d world"), V("hello"), V(42)})if b.String() != "hello, 42 world" {t.Errorf("after Fprintf Call: %q != %q", b.String(), "hello 42 world")}b.Reset()V(fmt.Fprintf).CallSlice([]Value{V(&b), V("%s, %d world"), V([]interface{}{"hello", 42})})if b.String() != "hello, 42 world" {t.Errorf("after Fprintf CallSlice: %q != %q", b.String(), "hello 42 world")}}var tagGetTests = []struct {Tag StructTagKey stringValue string}{{`protobuf:"PB(1,2)"`, `protobuf`, `PB(1,2)`},{`protobuf:"PB(1,2)"`, `foo`, ``},{`protobuf:"PB(1,2)"`, `rotobuf`, ``},{`protobuf:"PB(1,2)" json:"name"`, `json`, `name`},{`protobuf:"PB(1,2)" json:"name"`, `protobuf`, `PB(1,2)`},}func TestTagGet(t *testing.T) {for _, tt := range tagGetTests {if v := tt.Tag.Get(tt.Key); v != tt.Value {t.Errorf("StructTag(%#q).Get(%#q) = %#q, want %#q", tt.Tag, tt.Key, v, tt.Value)}}}func TestBytes(t *testing.T) {type B []bytex := B{1, 2, 3, 4}y := ValueOf(x).Bytes()if !bytes.Equal(x, y) {t.Fatalf("ValueOf(%v).Bytes() = %v", x, y)}if &x[0] != &y[0] {t.Errorf("ValueOf(%p).Bytes() = %p", &x[0], &y[0])}}func TestSetBytes(t *testing.T) {type B []bytevar x By := []byte{1, 2, 3, 4}ValueOf(&x).Elem().SetBytes(y)if !bytes.Equal(x, y) {t.Fatalf("ValueOf(%v).Bytes() = %v", x, y)}if &x[0] != &y[0] {t.Errorf("ValueOf(%p).Bytes() = %p", &x[0], &y[0])}}type Private struct {x inty **int}func (p *Private) m() {}type Public struct {X intY **int}func (p *Public) M() {}func TestUnexported(t *testing.T) {var pub Publicv := ValueOf(&pub)isValid(v.Elem().Field(0))isValid(v.Elem().Field(1))isValid(v.Elem().FieldByName("X"))isValid(v.Elem().FieldByName("Y"))isValid(v.Type().Method(0).Func)isNonNil(v.Elem().Field(0).Interface())isNonNil(v.Elem().Field(1).Interface())isNonNil(v.Elem().FieldByName("X").Interface())isNonNil(v.Elem().FieldByName("Y").Interface())isNonNil(v.Type().Method(0).Func.Interface())var priv Privatev = ValueOf(&priv)isValid(v.Elem().Field(0))isValid(v.Elem().Field(1))isValid(v.Elem().FieldByName("x"))isValid(v.Elem().FieldByName("y"))isValid(v.Type().Method(0).Func)shouldPanic(func() { v.Elem().Field(0).Interface() })shouldPanic(func() { v.Elem().Field(1).Interface() })shouldPanic(func() { v.Elem().FieldByName("x").Interface() })shouldPanic(func() { v.Elem().FieldByName("y").Interface() })shouldPanic(func() { v.Type().Method(0).Func.Interface() })}func shouldPanic(f func()) {defer func() {if recover() == nil {panic("did not panic")}}()f()}func isNonNil(x interface{}) {if x == nil {panic("nil interface")}}func isValid(v Value) {if !v.IsValid() {panic("zero Value")}}