| library closure2_test; |
| import self as self; |
| import "dart:core" as core; |
| import "../../runtime/reify/interceptors.dart" as int; |
| import "../../runtime/reify/types.dart" as typ; |
| import "dart:mock" as mock; |
| import "./test_base.dart" as tes; |
| import "../../runtime/reify/declarations.dart" as dec; |
| |
| class A extends core::Object implements int::HasRuntimeTypeGetter { |
| final field typ::ReifiedType $type; |
| constructor •(typ::ReifiedType $type) → void |
| : self::A::$type = $type, super core::Object::•() |
| ; |
| method fun() → dynamic { |
| return new self::Closure#A#fun#function::•(new typ::Interface::•(self::$declarations.[](1), typ::getTypeArguments(typ::asInstanceOf(this.$type, self::$declarations.[](0)))), null); |
| } |
| get $A$T() → typ::ReifiedType |
| return typ::getTypeArguments(typ::asInstanceOf(this.$type, self::$declarations.[](0))).[](0); |
| get runtimeType() → core::Type |
| return this.{=self::A::$type}; |
| } |
| class X extends core::Object implements int::HasRuntimeTypeGetter { |
| constructor •() → void |
| : super core::Object::•() |
| ; |
| get $type() → typ::ReifiedType |
| return new typ::Interface::•(self::$declarations.[](2)); |
| } |
| class Y extends core::Object implements int::HasRuntimeTypeGetter { |
| constructor •() → void |
| : super core::Object::•() |
| ; |
| get $type() → typ::ReifiedType |
| return new typ::Interface::•(self::$declarations.[](3)); |
| } |
| class Closure#A#fun#function extends core::Object implements core::Function, int::HasRuntimeTypeGetter { |
| field core::String note = "This is temporary. The VM doesn't need closure classes."; |
| field mock::Context context; |
| final field typ::ReifiedType $type; |
| constructor •(typ::ReifiedType $type, final mock::Context context) → dynamic |
| : self::Closure#A#fun#function::$type = $type, self::Closure#A#fun#function::context = context |
| ; |
| method call(dynamic o) → dynamic { |
| "This is a temporary solution. In the VM, this will become an additional parameter."; |
| final mock::Context #contextParameter = this.{self::Closure#A#fun#function::context}; |
| return typ::isSubtypeOf(int::type(o), this.$Closure#A#fun#function$T); |
| } |
| get $Closure#A#fun#function$T() → typ::ReifiedType |
| return typ::getTypeArguments(typ::asInstanceOf(this.$type, self::$declarations.[](1))).[](0); |
| get runtimeType() → core::Type |
| return this.{=self::Closure#A#fun#function::$type}; |
| } |
| static final field core::List<dec::Class> $declarations = (core::List<dec::Class> d) → core::List<dec::Class> { |
| dec::init(d, 0, new typ::Interface::•(d.[](17))); |
| dec::init(d, 1, new typ::Interface::•(d.[](17)), <dynamic>[new typ::Interface::•(d.[](19))], new typ::FunctionType::•(new typ::Interface::•(d.[](19)), const typ::Dynamic::•(), 0, <dynamic>[const typ::Dynamic::•()])); |
| dec::init(d, 2, new typ::Interface::•(d.[](17))); |
| dec::init(d, 3, new typ::Interface::•(d.[](17))); |
| dec::init(d, 4, new typ::Interface::•(d.[](17))); |
| dec::init(d, 5, new typ::Interface::•(d.[](17))); |
| dec::init(d, 6, new typ::Interface::•(d.[](17)), <dynamic>[new typ::Interface::•(d.[](20), <dynamic>[new typ::Interface::•(d.[](6))]), new typ::Interface::•(d.[](21))]); |
| dec::init(d, 7, new typ::Interface::•(d.[](22))); |
| dec::init(d, 8, new typ::Interface::•(d.[](22))); |
| dec::init(d, 9, new typ::Interface::•(d.[](17))); |
| dec::init(d, 10, new typ::Interface::•(d.[](23))); |
| dec::init(d, 11, new typ::Interface::•(d.[](23))); |
| dec::init(d, 12, new typ::Interface::•(d.[](23))); |
| dec::init(d, 13, new typ::Interface::•(d.[](23))); |
| dec::init(d, 14, new typ::Interface::•(d.[](17)), <dynamic>[new typ::Interface::•(d.[](24))]); |
| dec::init(d, 15, new typ::Interface::•(d.[](16))); |
| dec::init(d, 16, new typ::Interface::•(d.[](23))); |
| dec::init(d, 17, null); |
| dec::init(d, 19, new typ::Interface::•(d.[](17))); |
| dec::init(d, 20, new typ::Interface::•(d.[](17))); |
| dec::init(d, 21, new typ::Interface::•(d.[](17))); |
| dec::init(d, 22, new typ::Interface::•(d.[](17)), <dynamic>[new typ::Interface::•(d.[](20), <dynamic>[new typ::Interface::•(d.[](22))])]); |
| dec::init(d, 23, new typ::Interface::•(d.[](17))); |
| dec::init(d, 24, new typ::Interface::•(d.[](17))); |
| return d; |
| }.call(dec::allocateDeclarations(<dynamic>["A", "Closure#A#fun#function", "X", "Y", "Null", "bool", "String", "int", "double", "Type", "AbstractClassInstantiationError", "NoSuchMethodError", "CyclicInitializationError", "UnsupportedError", "IntegerDivisionByZeroException", "RangeError", "ArgumentError", "Object", "HasRuntimeTypeGetter", "Function", "Comparable", "Pattern", "num", "Error", "Exception"], <dynamic>[1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0])); |
| static method main() → dynamic { |
| dynamic tester = new self::A::•(new typ::Interface::•(self::$declarations.[](0), <dynamic>[new typ::Interface::•(self::$declarations.[](2))])).fun(); |
| tes::expectTrue(tester.call(new self::X::•())); |
| tes::expectFalse(tester.call(new self::Y::•())); |
| } |