pkg/kernel/testcases/reify/generic_methods_overriding_contravariance_test.dart.expect - sdk.git - Git at Google

 library generic_methods_overriding_contravariance_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 "./test_base.dart" as tes;
 import "../../runtime/reify/declarations.dart" as dec;

 class X extends core::Object implements int::HasRuntimeTypeGetter {
   constructor •() → void
     : super core::Object::•()
     ;
   get $type() → typ::ReifiedType
     return new typ::Interface::•(self::$declarations.[](0));
 }
 class Y extends self::X implements int::HasRuntimeTypeGetter {
   constructor •() → void
     : super self::X::•()
     ;
   get $type() → typ::ReifiedType
     return new typ::Interface::•(self::$declarations.[](1));
 }
 class Z extends self::Y implements int::HasRuntimeTypeGetter {
   constructor •() → void
     : super self::Y::•()
     ;
   get $type() → typ::ReifiedType
     return new typ::Interface::•(self::$declarations.[](2));
 }
 class C extends core::Object implements int::HasRuntimeTypeGetter {
   constructor •() → void
     : super core::Object::•()
     ;
   method fun<T extends self::Y>(dynamic t, {core::List<typ::ReifiedType> $typeParameters}) → core::String {
     return "C";
   }
   get $type() → typ::ReifiedType
     return new typ::Interface::•(self::$declarations.[](3));
 }
 class E extends self::C implements int::HasRuntimeTypeGetter {
   constructor •() → void
     : super self::C::•()
     ;
   method fun<T extends self::Y>(self::Y y, {core::List<typ::ReifiedType> $typeParameters}) → core::String {
     return "E";
   }
   get $type() → typ::ReifiedType
     return new typ::Interface::•(self::$declarations.[](4));
 }
 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.[](18)));
   dec::init(d, 1, new typ::Interface::•(d.[](0)));
   dec::init(d, 2, new typ::Interface::•(d.[](1)));
   dec::init(d, 3, new typ::Interface::•(d.[](18)));
   dec::init(d, 4, new typ::Interface::•(d.[](3)));
   dec::init(d, 5, new typ::Interface::•(d.[](18)));
   dec::init(d, 6, new typ::Interface::•(d.[](18)));
   dec::init(d, 7, new typ::Interface::•(d.[](18)), <dynamic>[new typ::Interface::•(d.[](20), <dynamic>[new typ::Interface::•(d.[](7))]), new typ::Interface::•(d.[](21))]);
   dec::init(d, 8, new typ::Interface::•(d.[](22)));
   dec::init(d, 9, new typ::Interface::•(d.[](22)));
   dec::init(d, 10, new typ::Interface::•(d.[](18)));
   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.[](23)));
   dec::init(d, 15, new typ::Interface::•(d.[](18)), <dynamic>[new typ::Interface::•(d.[](24))]);
   dec::init(d, 16, new typ::Interface::•(d.[](17)));
   dec::init(d, 17, new typ::Interface::•(d.[](23)));
   dec::init(d, 18, null);
   dec::init(d, 20, new typ::Interface::•(d.[](18)));
   dec::init(d, 21, new typ::Interface::•(d.[](18)));
   dec::init(d, 22, new typ::Interface::•(d.[](18)), <dynamic>[new typ::Interface::•(d.[](20), <dynamic>[new typ::Interface::•(d.[](22))])]);
   dec::init(d, 23, new typ::Interface::•(d.[](18)));
   dec::init(d, 24, new typ::Interface::•(d.[](18)));
   return d;
 }.call(dec::allocateDeclarations(<dynamic>["X", "Y", "Z", "C", "E", "Null", "bool", "String", "int", "double", "Type", "AbstractClassInstantiationError", "NoSuchMethodError", "CyclicInitializationError", "UnsupportedError", "IntegerDivisionByZeroException", "RangeError", "ArgumentError", "Object", "HasRuntimeTypeGetter", "Comparable", "Pattern", "num", "Error", "Exception"], <dynamic>[0, 0, 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 {
   self::Y y = new self::Y::•();
   self::C c = new self::C::•();
   self::E e = new self::E::•();
   tes::expectTrue(c.{self::C::fun}(y, $typeParameters: <typ::ReifiedType>[new typ::Interface::•(self::$declarations.[](1))]).{core::String::==}("C"));
   tes::expectTrue(e.{self::E::fun}(y, $typeParameters: <typ::ReifiedType>[new typ::Interface::•(self::$declarations.[](1))]).{core::String::==}("E"));
 }
	library generic_methods_overriding_contravariance_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 "./test_base.dart" as tes;
	import "../../runtime/reify/declarations.dart" as dec;

	class X extends core::Object implements int::HasRuntimeTypeGetter {
	constructor •() → void
	: super core::Object::•()
	;
	get $type() → typ::ReifiedType
	return new typ::Interface::•(self::$declarations.[](0));
	}
	class Y extends self::X implements int::HasRuntimeTypeGetter {
	constructor •() → void
	: super self::X::•()
	;
	get $type() → typ::ReifiedType
	return new typ::Interface::•(self::$declarations.[](1));
	}
	class Z extends self::Y implements int::HasRuntimeTypeGetter {
	constructor •() → void
	: super self::Y::•()
	;
	get $type() → typ::ReifiedType
	return new typ::Interface::•(self::$declarations.[](2));
	}
	class C extends core::Object implements int::HasRuntimeTypeGetter {
	constructor •() → void
	: super core::Object::•()
	;
	method fun<T extends self::Y>(dynamic t, {core::List<typ::ReifiedType> $typeParameters}) → core::String {
	return "C";
	}
	get $type() → typ::ReifiedType
	return new typ::Interface::•(self::$declarations.[](3));
	}
	class E extends self::C implements int::HasRuntimeTypeGetter {
	constructor •() → void
	: super self::C::•()
	;
	method fun<T extends self::Y>(self::Y y, {core::List<typ::ReifiedType> $typeParameters}) → core::String {
	return "E";
	}
	get $type() → typ::ReifiedType
	return new typ::Interface::•(self::$declarations.[](4));
	}
	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.[](18)));
	dec::init(d, 1, new typ::Interface::•(d.[](0)));
	dec::init(d, 2, new typ::Interface::•(d.[](1)));
	dec::init(d, 3, new typ::Interface::•(d.[](18)));
	dec::init(d, 4, new typ::Interface::•(d.[](3)));
	dec::init(d, 5, new typ::Interface::•(d.[](18)));
	dec::init(d, 6, new typ::Interface::•(d.[](18)));
	dec::init(d, 7, new typ::Interface::•(d.[](18)), <dynamic>[new typ::Interface::•(d.[](20), <dynamic>[new typ::Interface::•(d.[](7))]), new typ::Interface::•(d.[](21))]);
	dec::init(d, 8, new typ::Interface::•(d.[](22)));
	dec::init(d, 9, new typ::Interface::•(d.[](22)));
	dec::init(d, 10, new typ::Interface::•(d.[](18)));
	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.[](23)));
	dec::init(d, 15, new typ::Interface::•(d.[](18)), <dynamic>[new typ::Interface::•(d.[](24))]);
	dec::init(d, 16, new typ::Interface::•(d.[](17)));
	dec::init(d, 17, new typ::Interface::•(d.[](23)));
	dec::init(d, 18, null);
	dec::init(d, 20, new typ::Interface::•(d.[](18)));
	dec::init(d, 21, new typ::Interface::•(d.[](18)));
	dec::init(d, 22, new typ::Interface::•(d.[](18)), <dynamic>[new typ::Interface::•(d.[](20), <dynamic>[new typ::Interface::•(d.[](22))])]);
	dec::init(d, 23, new typ::Interface::•(d.[](18)));
	dec::init(d, 24, new typ::Interface::•(d.[](18)));
	return d;
	}.call(dec::allocateDeclarations(<dynamic>["X", "Y", "Z", "C", "E", "Null", "bool", "String", "int", "double", "Type", "AbstractClassInstantiationError", "NoSuchMethodError", "CyclicInitializationError", "UnsupportedError", "IntegerDivisionByZeroException", "RangeError", "ArgumentError", "Object", "HasRuntimeTypeGetter", "Comparable", "Pattern", "num", "Error", "Exception"], <dynamic>[0, 0, 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 {
	self::Y y = new self::Y::•();
	self::C c = new self::C::•();
	self::E e = new self::E::•();
	tes::expectTrue(c.{self::C::fun}(y, $typeParameters: <typ::ReifiedType>[new typ::Interface::•(self::$declarations.[](1))]).{core::String::==}("C"));
	tes::expectTrue(e.{self::E::fun}(y, $typeParameters: <typ::ReifiedType>[new typ::Interface::•(self::$declarations.[](1))]).{core::String::==}("E"));
	}