| // Copyright (c) 2015, the Dart project authors. Please see the AUTHORS file |
| // for details. All rights reserved. Use of this source code is governed by a |
| // BSD-style license that can be found in the LICENSE file. |
| |
| // Verify semantics of the ?. operator when it appears on the LHS of an |
| // assignment. |
| |
| import "package:expect/expect.dart"; |
| import "conditional_access_helper.dart" as h; |
| |
| bad() { |
| Expect.fail('Should not be executed'); |
| } |
| |
| noMethod(e) => e is NoSuchMethodError; |
| |
| class B {} |
| |
| class C extends B { |
| int v; |
| C(this.v); |
| static int staticInt; |
| } |
| |
| class D { |
| E v; |
| D(this.v); |
| static E staticE; |
| } |
| |
| class E { |
| G operator+(int i) => new I(); |
| } |
| |
| class F {} |
| |
| class G extends E implements F {} |
| |
| class H {} |
| |
| class I extends G implements H {} |
| |
| C nullC() => null; |
| |
| main() { |
| // Make sure the "none" test fails if assignment to "?." is not implemented. |
| // This makes status files easier to maintain. |
| nullC()?.v = 1; |
| |
| // e1?.v = e2 is equivalent to ((x) => x == null ? null : x.v = e2)(e1). |
| Expect.equals(null, nullC()?.v = bad()); /// 01: ok |
| { C c = new C(1); Expect.equals(2, c?.v = 2); Expect.equals(2, c.v); } /// 02: ok |
| |
| // C?.v = e2 is equivalent to C.v = e2. |
| { C.staticInt = 1; Expect.equals(2, C?.staticInt = 2); Expect.equals(2, C.staticInt); } /// 23: ok |
| { h.C.staticInt = 1; Expect.equals(2, h.C?.staticInt = 2); Expect.equals(2, h.C.staticInt); } /// 24: ok |
| |
| // The static type of e1?.v = e2 is the static type of e2. |
| { D d = new D(new E()); G g = new G(); F f = (d?.v = g); Expect.identical(f, g); } /// 03: ok |
| { D d = new D(new E()); E e = new G(); F f = (d?.v = e); Expect.identical(f, e); } /// 04: static type warning |
| { D.staticE = new E(); G g = new G(); F f = (D?.staticE = g); Expect.identical(f, g); } /// 25: ok |
| { h.D.staticE = new h.E(); h.G g = new h.G(); h.F f = (h.D?.staticE = g); Expect.identical(f, g); } /// 26: ok |
| { D.staticE = new E(); E e = new G(); F f = (D?.staticE = e); Expect.identical(f, e); } /// 27: static type warning |
| { h.D.staticE = new h.E(); h.E e = new h.G(); h.F f = (h.D?.staticE = e); Expect.identical(f, e); } /// 28: static type warning |
| |
| // Exactly the same static warnings that would be caused by e1.v = e2 are |
| // also generated in the case of e1?.v = e2. |
| Expect.equals(null, nullC()?.bad = bad()); /// 05: static type warning |
| { B b = new C(1); Expect.equals(2, b?.v = 2); Expect.equals(2, (b as C).v); } /// 06: static type warning |
| |
| // e1?.v op= e2 is equivalent to ((x) => x?.v = x.v op e2)(e1). |
| Expect.equals(null, nullC()?.v += bad()); /// 07: ok |
| { C c = new C(1); Expect.equals(3, c?.v += 2); Expect.equals(3, c.v); } /// 08: ok |
| |
| // C?.v op= e2 is equivalent to C.v op= e2. |
| { C.staticInt = 1; Expect.equals(3, C?.staticInt += 2); Expect.equals(3, C?.staticInt); } /// 29: ok |
| |
| // The static type of e1?.v op= e2 is the static type of e1.v op e2. |
| { D d = new D(new E()); F f = (d?.v += 1); Expect.identical(d.v, f); } /// 09: ok |
| { D.staticE = new E(); F f = (D?.staticE += 1); Expect.identical(D.staticE, f); } /// 30: ok |
| { h.D.staticE = new h.E(); h.F f = (h.D?.staticE += 1); Expect.identical(h.D.staticE, f); } /// 31: ok |
| |
| // Let T be the static type of e1 and let y be a fresh variable of type T. |
| // Exactly the same static warnings that would be caused by y.v op e2 are |
| // also generated in the case of e1?.v op= e2. |
| Expect.equals(null, nullC()?.bad = bad()); /// 10: static type warning |
| { B b = new C(1); Expect.equals(3, b?.v += 2); Expect.equals(3, (b as C).v); } /// 11: static type warning |
| { D d = new D(new E()); F f = (d?.v += nullC()); Expect.identical(d.v, f); } /// 12: static type warning |
| { D d = new D(new E()); H h = (d?.v += 1); Expect.identical(d.v, h); } /// 13: static type warning |
| { D.staticE = new E(); F f = (D?.staticE += nullC()); Expect.identical(D.staticE, f); } /// 32: static type warning |
| { h.D.staticE = new h.E(); h.F f = (h.D?.staticE += h.nullC()); Expect.identical(h.D.staticE, f); } /// 33: static type warning |
| { D.staticE = new E(); H h = (D?.staticE += 1); Expect.identical(D.staticE, h); } /// 34: static type warning |
| { h.D.staticE = new h.E(); h.H hh = (h.D?.staticE += 1); Expect.identical(h.D.staticE, hh); } /// 35: static type warning |
| |
| // '?.' cannot be used to assign to toplevel properties in libraries imported |
| // via prefix. |
| h?.topLevelVar = null; /// 20: compile-time error |
| h?.topLevelVar += null; /// 21: compile-time error |
| h?.topLevelVar ??= null; /// 22: compile-time error |
| } |