// +build ignore package main // Test of arrays & slices with reflection. import "reflect" var a, b int type S string func reflectValueSlice() { // reflect.Value contains a slice. slice := make([]*int, 10) // @line slice slice[0] = &a rvsl := reflect.ValueOf(slice).Slice(0, 0) print(rvsl.Interface()) // @types []*int print(rvsl.Interface().([]*int)) // @pointsto makeslice@slice:15 print(rvsl.Interface().([]*int)[42]) // @pointsto main.a // reflect.Value contains an arrayay (non-addressable). array := [10]*int{&a} // @line array rvarray := reflect.ValueOf(array).Slice(0, 0) print(rvarray.Interface()) // @types print(rvarray.Interface().([]*int)) // @pointsto print(rvarray.Interface().([]*int)[42]) // @pointsto // reflect.Value contains a pointer-to-array rvparray := reflect.ValueOf(&array).Slice(0, 0) print(rvparray.Interface()) // @types []*int print(rvparray.Interface().([]*int)) // @pointsto array@array:2 print(rvparray.Interface().([]*int)[42]) // @pointsto main.a // reflect.Value contains a string. rvstring := reflect.ValueOf("hi").Slice(0, 0) print(rvstring.Interface()) // @types string // reflect.Value contains a (named) string type. rvS := reflect.ValueOf(S("hi")).Slice(0, 0) print(rvS.Interface()) // @types S // reflect.Value contains a non-array pointer. rvptr := reflect.ValueOf(new(int)).Slice(0, 0) print(rvptr.Interface()) // @types // reflect.Value contains a non-string basic type. rvint := reflect.ValueOf(3).Slice(0, 0) print(rvint.Interface()) // @types } func reflectValueBytes() { sl1 := make([]byte, 0) // @line ar5sl1 sl2 := make([]byte, 0) // @line ar5sl2 rvsl1 := reflect.ValueOf(sl1) print(rvsl1.Interface()) // @types []byte print(rvsl1.Interface().([]byte)) // @pointsto makeslice@ar5sl1:13 print(rvsl1.Bytes()) // @pointsto makeslice@ar5sl1:13 rvsl2 := reflect.ValueOf(123) rvsl2.SetBytes(sl2) print(rvsl2.Interface()) // @types int print(rvsl2.Interface().([]byte)) // @pointsto print(rvsl2.Bytes()) // @pointsto rvsl3 := reflect.ValueOf([]byte(nil)) rvsl3.SetBytes(sl2) print(rvsl3.Interface()) // @types []byte print(rvsl3.Interface().([]byte)) // @pointsto makeslice@ar5sl2:13 print(rvsl3.Bytes()) // @pointsto makeslice@ar5sl2:13 } func reflectValueIndex() { slice := []*int{&a} // @line ar6slice rv1 := reflect.ValueOf(slice) print(rv1.Index(42).Interface()) // @types *int print(rv1.Index(42).Interface().(*int)) // @pointsto main.a array := [10]*int{&a} rv2 := reflect.ValueOf(array) print(rv2.Index(42).Interface()) // @types *int print(rv2.Index(42).Interface().(*int)) // @pointsto main.a rv3 := reflect.ValueOf("string") print(rv3.Index(42).Interface()) // @types rune rv4 := reflect.ValueOf(&array) print(rv4.Index(42).Interface()) // @types rv5 := reflect.ValueOf(3) print(rv5.Index(42).Interface()) // @types } func reflectValueElem() { // TODO(adonovan): tests 'interface'. Needs indirect tagged objects. // rv1 := reflect.ValueOf(...) // print(rv1.Elem().Interface()) // #@types *int // print(rv1.Elem().Interface().(*int)) // #@pointsto main.a // Pointer. ptr := &a rv2 := reflect.ValueOf(&ptr) print(rv2.Elem().Interface()) // @types *int print(rv2.Elem().Interface().(*int)) // @pointsto main.a // No other type works with (rV).Elem, not even those that // work with (rT).Elem: slice, array, map, chan. rv3 := reflect.ValueOf([]*int{&a}) print(rv3.Elem().Interface()) // @types rv4 := reflect.ValueOf([10]*int{&a}) print(rv4.Elem().Interface()) // @types rv5 := reflect.ValueOf(map[*int]*int{&a: &b}) print(rv5.Elem().Interface()) // @types ch := make(chan *int) ch <- &a rv6 := reflect.ValueOf(ch) print(rv6.Elem().Interface()) // @types rv7 := reflect.ValueOf(3) print(rv7.Elem().Interface()) // @types } func reflectTypeElem() { rt1 := reflect.TypeOf(make([]*int, 0)) print(reflect.Zero(rt1.Elem())) // @types *int rt2 := reflect.TypeOf([10]*int{}) print(reflect.Zero(rt2.Elem())) // @types *int rt3 := reflect.TypeOf(map[*int]*int{}) print(reflect.Zero(rt3.Elem())) // @types *int rt4 := reflect.TypeOf(make(chan *int)) print(reflect.Zero(rt4.Elem())) // @types *int ptr := &a rt5 := reflect.TypeOf(&ptr) print(reflect.Zero(rt5.Elem())) // @types *int rt6 := reflect.TypeOf(3) print(reflect.Zero(rt6.Elem())) // @types } func reflectPtrTo() { tInt := reflect.TypeOf(3) tPtrInt := reflect.PtrTo(tInt) print(reflect.Zero(tPtrInt)) // @types *int tPtrPtrInt := reflect.PtrTo(tPtrInt) print(reflect.Zero(tPtrPtrInt)) // @types **int } func reflectSliceOf() { tInt := reflect.TypeOf(3) tSliceInt := reflect.SliceOf(tInt) print(reflect.Zero(tSliceInt)) // @types []int } func main() { reflectValueSlice() reflectValueBytes() reflectValueIndex() reflectValueElem() reflectTypeElem() reflectPtrTo() reflectSliceOf() }