| // +build ignore |
| |
| package main |
| |
| // Test of maps with reflection. |
| |
| import "reflect" |
| |
| var a int |
| var b bool |
| |
| func reflectMapKeysIndex() { |
| m := make(map[*int]*bool) // @line mr1make |
| m[&a] = &b |
| |
| mrv := reflect.ValueOf(m) |
| print(mrv.Interface()) // @types map[*int]*bool |
| print(mrv.Interface().(map[*int]*bool)) // @pointsto makemap@mr1make:11 |
| print(mrv) // @pointsto makeinterface:map[*int]*bool |
| print(mrv) // @types map[*int]*bool |
| |
| keys := mrv.MapKeys() |
| print(keys) // @pointsto <alloc in (reflect.Value).MapKeys> |
| for _, k := range keys { |
| print(k) // @pointsto <alloc in (reflect.Value).MapKeys> |
| print(k) // @types *int |
| print(k.Interface()) // @types *int |
| print(k.Interface().(*int)) // @pointsto main.a |
| |
| v := mrv.MapIndex(k) |
| print(v.Interface()) // @types *bool |
| print(v.Interface().(*bool)) // @pointsto main.b |
| } |
| } |
| |
| func reflectSetMapIndex() { |
| m := make(map[*int]*bool) |
| mrv := reflect.ValueOf(m) |
| mrv.SetMapIndex(reflect.ValueOf(&a), reflect.ValueOf(&b)) |
| |
| print(m[nil]) // @pointsto main.b |
| |
| for _, k := range mrv.MapKeys() { |
| print(k.Interface()) // @types *int |
| print(k.Interface().(*int)) // @pointsto main.a |
| } |
| |
| tmap := reflect.TypeOf(m) |
| // types.EvalNode won't let us refer to non-exported types: |
| // print(tmap) // #@types *reflect.rtype |
| print(tmap) // @pointsto map[*int]*bool |
| |
| zmap := reflect.Zero(tmap) |
| print(zmap) // @pointsto <alloc in reflect.Zero> |
| print(zmap.Interface()) // @pointsto <alloc in reflect.Zero> |
| |
| print(tmap.Key()) // @pointsto *int |
| print(tmap.Elem()) // @pointsto *bool |
| print(reflect.Zero(tmap.Key())) // @pointsto <alloc in reflect.Zero> |
| print(reflect.Zero(tmap.Key()).Interface()) // @pointsto <alloc in reflect.Zero> |
| print(reflect.Zero(tmap.Key()).Interface()) // @types *int |
| print(reflect.Zero(tmap.Elem())) // @pointsto <alloc in reflect.Zero> |
| print(reflect.Zero(tmap.Elem()).Interface()) // @pointsto <alloc in reflect.Zero> |
| print(reflect.Zero(tmap.Elem()).Interface()) // @types *bool |
| } |
| |
| func reflectSetMapIndexInterface() { |
| // Exercises reflect.Value conversions to/from interfaces: |
| // a different code path than for concrete types. |
| m := make(map[interface{}]interface{}) |
| reflect.ValueOf(m).SetMapIndex(reflect.ValueOf(&a), reflect.ValueOf(&b)) |
| for k, v := range m { |
| print(k) // @types *int |
| print(k.(*int)) // @pointsto main.a |
| print(v) // @types *bool |
| print(v.(*bool)) // @pointsto main.b |
| } |
| } |
| |
| func reflectSetMapIndexAssignable() { |
| // SetMapIndex performs implicit assignability conversions. |
| type I *int |
| type J *int |
| |
| str := reflect.ValueOf("") |
| |
| // *int is assignable to I. |
| m1 := make(map[string]I) |
| reflect.ValueOf(m1).SetMapIndex(str, reflect.ValueOf(new(int))) // @line int |
| print(m1[""]) // @pointsto new@int:58 |
| |
| // I is assignable to I. |
| m2 := make(map[string]I) |
| reflect.ValueOf(m2).SetMapIndex(str, reflect.ValueOf(I(new(int)))) // @line I |
| print(m2[""]) // @pointsto new@I:60 |
| |
| // J is not assignable to I. |
| m3 := make(map[string]I) |
| reflect.ValueOf(m3).SetMapIndex(str, reflect.ValueOf(J(new(int)))) |
| print(m3[""]) // @pointsto |
| } |
| |
| func reflectMakeMap() { |
| t := reflect.TypeOf(map[*int]*bool(nil)) |
| v := reflect.MakeMap(t) |
| print(v) // @types map[*int]*bool |
| print(v) // @pointsto <alloc in reflect.MakeMap> |
| } |
| |
| func main() { |
| reflectMapKeysIndex() |
| reflectSetMapIndex() |
| reflectSetMapIndexInterface() |
| reflectSetMapIndexAssignable() |
| reflectMakeMap() |
| // TODO(adonovan): reflect.MapOf(Type) |
| } |
