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https://github.com/golang/go
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reflect.Values may point to tagged objects with interface type, e.g. x := reflect.ValueOf(new(interface{})).Elem(). We failed to consider this when implementing Elem. Also, (reflect.Value).Interface() must do one "unboxing" when it encounters such tagged objects. i.e., x.Elem().Interface() and x.Interface() are equivalent in that case. Also: - add example of tagged object with interface type. - untabify (Label).String docstring. - added tests. R=crawshaw CC=golang-dev https://golang.org/cl/18020044
192 lines
5.5 KiB
Go
192 lines
5.5 KiB
Go
// +build ignore
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package main
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// Test of arrays & slices with reflection.
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import "reflect"
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var a, b int
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type S string
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func reflectValueSlice() {
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// reflect.Value contains a slice.
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slice := make([]*int, 10) // @line slice
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slice[0] = &a
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rvsl := reflect.ValueOf(slice).Slice(0, 0)
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print(rvsl.Interface()) // @types []*int
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print(rvsl.Interface().([]*int)) // @pointsto makeslice@slice:15
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print(rvsl.Interface().([]*int)[42]) // @pointsto main.a
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// reflect.Value contains an arrayay (non-addressable).
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array := [10]*int{&a} // @line array
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rvarray := reflect.ValueOf(array).Slice(0, 0)
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print(rvarray.Interface()) // @types
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print(rvarray.Interface().([]*int)) // @pointsto
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print(rvarray.Interface().([]*int)[42]) // @pointsto
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// reflect.Value contains a pointer-to-array
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rvparray := reflect.ValueOf(&array).Slice(0, 0)
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print(rvparray.Interface()) // @types []*int
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print(rvparray.Interface().([]*int)) // @pointsto array@array:2
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print(rvparray.Interface().([]*int)[42]) // @pointsto main.a
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// reflect.Value contains a string.
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rvstring := reflect.ValueOf("hi").Slice(0, 0)
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print(rvstring.Interface()) // @types string
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// reflect.Value contains a (named) string type.
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rvS := reflect.ValueOf(S("hi")).Slice(0, 0)
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print(rvS.Interface()) // @types S
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// reflect.Value contains a non-array pointer.
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rvptr := reflect.ValueOf(new(int)).Slice(0, 0)
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print(rvptr.Interface()) // @types
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// reflect.Value contains a non-string basic type.
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rvint := reflect.ValueOf(3).Slice(0, 0)
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print(rvint.Interface()) // @types
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}
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func reflectValueBytes() {
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sl1 := make([]byte, 0) // @line ar5sl1
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sl2 := make([]byte, 0) // @line ar5sl2
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rvsl1 := reflect.ValueOf(sl1)
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print(rvsl1.Interface()) // @types []byte
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print(rvsl1.Interface().([]byte)) // @pointsto makeslice@ar5sl1:13
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print(rvsl1.Bytes()) // @pointsto makeslice@ar5sl1:13
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rvsl2 := reflect.ValueOf(123)
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rvsl2.SetBytes(sl2)
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print(rvsl2.Interface()) // @types int
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print(rvsl2.Interface().([]byte)) // @pointsto
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print(rvsl2.Bytes()) // @pointsto
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rvsl3 := reflect.ValueOf([]byte(nil))
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rvsl3.SetBytes(sl2)
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print(rvsl3.Interface()) // @types []byte
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print(rvsl3.Interface().([]byte)) // @pointsto makeslice@ar5sl2:13
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print(rvsl3.Bytes()) // @pointsto makeslice@ar5sl2:13
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}
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func reflectValueIndex() {
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slice := []*int{&a} // @line ar6slice
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rv1 := reflect.ValueOf(slice)
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print(rv1.Index(42).Interface()) // @types *int
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print(rv1.Index(42).Interface().(*int)) // @pointsto main.a
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array := [10]*int{&a}
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rv2 := reflect.ValueOf(array)
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print(rv2.Index(42).Interface()) // @types *int
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print(rv2.Index(42).Interface().(*int)) // @pointsto main.a
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rv3 := reflect.ValueOf("string")
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print(rv3.Index(42).Interface()) // @types rune
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rv4 := reflect.ValueOf(&array)
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print(rv4.Index(42).Interface()) // @types
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rv5 := reflect.ValueOf(3)
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print(rv5.Index(42).Interface()) // @types
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}
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func reflectValueElem() {
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// Interface.
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var iface interface{} = &a
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rv1 := reflect.ValueOf(&iface).Elem()
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print(rv1.Interface()) // @types *int
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print(rv1.Interface().(*int)) // @pointsto main.a
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print(rv1.Elem().Interface()) // @types *int
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print(rv1.Elem().Interface().(*int)) // @pointsto main.a
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print(reflect.ValueOf(new(interface{})).Elem().Elem()) // @types
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// Pointer.
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ptr := &a
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rv2 := reflect.ValueOf(&ptr)
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print(rv2.Elem().Interface()) // @types *int
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print(rv2.Elem().Interface().(*int)) // @pointsto main.a
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// No other type works with (rV).Elem, not even those that
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// work with (rT).Elem: slice, array, map, chan.
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rv3 := reflect.ValueOf([]*int{&a})
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print(rv3.Elem().Interface()) // @types
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rv4 := reflect.ValueOf([10]*int{&a})
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print(rv4.Elem().Interface()) // @types
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rv5 := reflect.ValueOf(map[*int]*int{&a: &b})
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print(rv5.Elem().Interface()) // @types
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ch := make(chan *int)
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ch <- &a
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rv6 := reflect.ValueOf(ch)
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print(rv6.Elem().Interface()) // @types
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rv7 := reflect.ValueOf(3)
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print(rv7.Elem().Interface()) // @types
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}
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func reflectTypeElem() {
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rt1 := reflect.TypeOf(make([]*int, 0))
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print(reflect.Zero(rt1.Elem())) // @types *int
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rt2 := reflect.TypeOf([10]*int{})
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print(reflect.Zero(rt2.Elem())) // @types *int
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rt3 := reflect.TypeOf(map[*int]*int{})
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print(reflect.Zero(rt3.Elem())) // @types *int
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rt4 := reflect.TypeOf(make(chan *int))
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print(reflect.Zero(rt4.Elem())) // @types *int
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ptr := &a
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rt5 := reflect.TypeOf(&ptr)
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print(reflect.Zero(rt5.Elem())) // @types *int
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rt6 := reflect.TypeOf(3)
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print(reflect.Zero(rt6.Elem())) // @types
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}
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func reflectPtrTo() {
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tInt := reflect.TypeOf(3)
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tPtrInt := reflect.PtrTo(tInt)
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print(reflect.Zero(tPtrInt)) // @types *int
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tPtrPtrInt := reflect.PtrTo(tPtrInt)
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print(reflect.Zero(tPtrPtrInt)) // @types **int
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}
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func reflectSliceOf() {
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tInt := reflect.TypeOf(3)
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tSliceInt := reflect.SliceOf(tInt)
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print(reflect.Zero(tSliceInt)) // @types []int
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}
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type T struct{ x int }
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func reflectMakeSlice() {
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rt := []reflect.Type{
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reflect.TypeOf(3),
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reflect.TypeOf([]int{}),
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reflect.TypeOf([]T{}),
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}[0]
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sl := reflect.MakeSlice(rt, 0, 0)
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print(sl) // @types []int | []T
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print(sl) // @pointsto <alloc in reflect.MakeSlice> | <alloc in reflect.MakeSlice>
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print(&sl.Interface().([]T)[0].x) // @pointsto <alloc in reflect.MakeSlice>[*].x
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}
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func main() {
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reflectValueSlice()
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reflectValueBytes()
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reflectValueIndex()
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reflectValueElem()
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reflectTypeElem()
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reflectPtrTo()
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reflectSliceOf()
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reflectMakeSlice()
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}
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