// run // Copyright 2022 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. // Test that implicit conversions of derived types to interface type // in range loops work correctly. package main import ( "fmt" "reflect" ) func main() { test{"int", "V"}.match(RangeArrayAny[V]()) test{"int", "V"}.match(RangeArrayIface[V]()) test{"V"}.match(RangeChanAny[V]()) test{"V"}.match(RangeChanIface[V]()) test{"K", "V"}.match(RangeMapAny[K, V]()) test{"K", "V"}.match(RangeMapIface[K, V]()) test{"int", "V"}.match(RangeSliceAny[V]()) test{"int", "V"}.match(RangeSliceIface[V]()) } type test []string func (t test) match(args ...any) { if len(t) != len(args) { fmt.Printf("FAIL: want %v values, have %v\n", len(t), len(args)) return } for i, want := range t { if have := reflect.TypeOf(args[i]).Name(); want != have { fmt.Printf("FAIL: %v: want type %v, have %v\n", i, want, have) } } } type iface interface{ M() int } type K int type V int func (K) M() int { return 0 } func (V) M() int { return 0 } func RangeArrayAny[V any]() (k, v any) { for k, v = range [...]V{zero[V]()} { } return } func RangeArrayIface[V iface]() (k any, v iface) { for k, v = range [...]V{zero[V]()} { } return } func RangeChanAny[V any]() (v any) { for v = range chanOf(zero[V]()) { } return } func RangeChanIface[V iface]() (v iface) { for v = range chanOf(zero[V]()) { } return } func RangeMapAny[K comparable, V any]() (k, v any) { for k, v = range map[K]V{zero[K](): zero[V]()} { } return } func RangeMapIface[K interface { iface comparable }, V iface]() (k, v iface) { for k, v = range map[K]V{zero[K](): zero[V]()} { } return } func RangeSliceAny[V any]() (k, v any) { for k, v = range []V{zero[V]()} { } return } func RangeSliceIface[V iface]() (k any, v iface) { for k, v = range []V{zero[V]()} { } return } func chanOf[T any](elems ...T) chan T { c := make(chan T, len(elems)) for _, elem := range elems { c <- elem } close(c) return c } func zero[T any]() (_ T) { return }