blob: 5bd8d77e4e2daa78dd7449f05bc122413a872676 [file] [log] [blame]
// 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.
import 'package:analyzer/dart/analysis/declared_variables.dart';
import 'package:analyzer/dart/analysis/features.dart';
import 'package:analyzer/dart/ast/ast.dart';
import 'package:analyzer/dart/element/element.dart';
import 'package:analyzer/dart/element/type.dart';
import 'package:analyzer/file_system/file_system.dart';
import 'package:analyzer/src/dart/analysis/experiments.dart';
import 'package:analyzer/src/dart/element/element.dart';
import 'package:analyzer/src/generated/source.dart';
import 'package:analyzer/src/source/package_map_resolver.dart';
import 'package:analyzer/src/test_utilities/mock_sdk.dart';
import 'package:analyzer/src/test_utilities/resource_provider_mixin.dart';
import 'package:pub_semver/pub_semver.dart';
import 'package:test/test.dart';
import 'package:test_reflective_loader/test_reflective_loader.dart';
import 'element_text.dart';
/// Abstract base class for resynthesizing and comparing elements.
///
/// The return type separator: →
abstract class AbstractResynthesizeTest with ResourceProviderMixin {
/// The set of features enabled in this test.
late FeatureSet featureSet;
DeclaredVariables declaredVariables = DeclaredVariables();
late final SourceFactory sourceFactory;
late final MockSdk sdk;
late String testFile;
late Source testSource;
Set<Source> otherLibrarySources = <Source>{};
AbstractResynthesizeTest() {
sdk = MockSdk(resourceProvider: resourceProvider);
sourceFactory = SourceFactory(
[
DartUriResolver(sdk),
PackageMapUriResolver(resourceProvider, {
'test': [
getFolder('/home/test/lib'),
],
}),
ResourceUriResolver(resourceProvider),
],
);
testFile = convertPath('/test.dart');
}
void addLibrary(String uri) {
var source = sourceFactory.forUri(uri)!;
otherLibrarySources.add(source);
}
Source addLibrarySource(String filePath, String contents) {
var source = addSource(filePath, contents);
otherLibrarySources.add(source);
return source;
}
Source addSource(String path, String contents) {
var file = newFile(path, content: contents);
var fileSource = file.createSource();
var uri = sourceFactory.restoreUri(fileSource)!;
return sourceFactory.forUri2(uri)!;
}
Source addTestSource(String code, [Uri? uri]) {
testSource = addSource(testFile, code);
return testSource;
}
Future<LibraryElementImpl> checkLibrary(String text,
{bool allowErrors = false});
}
class FeatureSets {
static final FeatureSet language_2_9 = FeatureSet.fromEnableFlags2(
sdkLanguageVersion: Version.parse('2.9.0'),
flags: [],
);
static final FeatureSet language_2_12 = FeatureSet.fromEnableFlags2(
sdkLanguageVersion: Version.parse('2.12.0'),
flags: [],
);
static final FeatureSet latestWithExperiments = FeatureSet.fromEnableFlags2(
sdkLanguageVersion: Version.parse('2.15.0'),
flags: [
EnableString.constructor_tearoffs,
],
);
}
/// Mixin containing test cases exercising summary resynthesis. Intended to be
/// applied to a class implementing [AbstractResynthesizeTest].
mixin ResynthesizeTestCases on AbstractResynthesizeTest {
test_class_abstract() async {
var library = await checkLibrary('abstract class C {}');
checkElementText(library, r'''
library
definingUnit
classes
abstract class C @15
constructors
synthetic @-1
''');
}
test_class_alias() async {
var library = await checkLibrary('''
class C = D with E, F, G;
class D {}
class E {}
class F {}
class G {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class alias C @6
supertype: D
mixins
E
F
G
constructors
synthetic @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
staticElement: self::@class::D::@constructor::•
superKeyword: super @0
class D @32
constructors
synthetic @-1
class E @43
constructors
synthetic @-1
class F @54
constructors
synthetic @-1
class G @65
constructors
synthetic @-1
''');
}
test_class_alias_abstract() async {
var library = await checkLibrary('''
abstract class C = D with E;
class D {}
class E {}
''');
checkElementText(library, r'''
library
definingUnit
classes
abstract class alias C @15
supertype: D
mixins
E
constructors
synthetic @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
staticElement: self::@class::D::@constructor::•
superKeyword: super @0
class D @35
constructors
synthetic @-1
class E @46
constructors
synthetic @-1
''');
}
test_class_alias_documented() async {
var library = await checkLibrary('''
/**
* Docs
*/
class C = D with E;
class D {}
class E {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class alias C @22
documentationComment: /**\n * Docs\n */
supertype: D
mixins
E
constructors
synthetic @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
staticElement: self::@class::D::@constructor::•
superKeyword: super @0
class D @43
constructors
synthetic @-1
class E @54
constructors
synthetic @-1
''');
}
test_class_alias_documented_tripleSlash() async {
var library = await checkLibrary('''
/// aaa
/// b
/// cc
class C = D with E;
class D {}
class E {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class alias C @27
documentationComment: /// aaa\n/// b\n/// cc
supertype: D
mixins
E
constructors
synthetic @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
staticElement: self::@class::D::@constructor::•
superKeyword: super @0
class D @48
constructors
synthetic @-1
class E @59
constructors
synthetic @-1
''');
}
test_class_alias_documented_withLeadingNonDocumentation() async {
var library = await checkLibrary('''
// Extra comment so doc comment offset != 0
/**
* Docs
*/
class C = D with E;
class D {}
class E {}''');
checkElementText(library, r'''
library
definingUnit
classes
class alias C @66
documentationComment: /**\n * Docs\n */
supertype: D
mixins
E
constructors
synthetic @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
staticElement: self::@class::D::@constructor::•
superKeyword: super @0
class D @87
constructors
synthetic @-1
class E @98
constructors
synthetic @-1
''');
}
test_class_alias_generic() async {
var library = await checkLibrary('''
class Z = A with B<int>, C<double>;
class A {}
class B<B1> {}
class C<C1> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class alias Z @6
supertype: A
mixins
B<int>
C<double>
constructors
synthetic @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
staticElement: self::@class::A::@constructor::•
superKeyword: super @0
class A @42
constructors
synthetic @-1
class B @53
typeParameters
covariant B1 @55
defaultType: dynamic
constructors
synthetic @-1
class C @68
typeParameters
covariant C1 @70
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_alias_notSimplyBounded_self() async {
var library = await checkLibrary('''
class C<T extends C> = D with E;
class D {}
class E {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class alias C @6
typeParameters
covariant T @8
bound: C<dynamic>
defaultType: dynamic
supertype: D
mixins
E
constructors
synthetic @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
staticElement: self::@class::D::@constructor::•
superKeyword: super @0
class D @39
constructors
synthetic @-1
class E @50
constructors
synthetic @-1
''');
}
test_class_alias_notSimplyBounded_simple_no_type_parameter_bound() async {
// If no bounds are specified, then the class is simply bounded by syntax
// alone, so there is no reason to assign it a slot.
var library = await checkLibrary('''
class C<T> = D with E;
class D {}
class E {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class alias C @6
typeParameters
covariant T @8
defaultType: dynamic
supertype: D
mixins
E
constructors
synthetic @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
staticElement: self::@class::D::@constructor::•
superKeyword: super @0
class D @29
constructors
synthetic @-1
class E @40
constructors
synthetic @-1
''');
}
test_class_alias_notSimplyBounded_simple_non_generic() async {
// If no type parameters are specified, then the class is simply bounded, so
// there is no reason to assign it a slot.
var library = await checkLibrary('''
class C = D with E;
class D {}
class E {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class alias C @6
supertype: D
mixins
E
constructors
synthetic @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
staticElement: self::@class::D::@constructor::•
superKeyword: super @0
class D @26
constructors
synthetic @-1
class E @37
constructors
synthetic @-1
''');
}
test_class_alias_with_const_constructors() async {
testFile = convertPath('/home/test/lib/test.dart');
addLibrarySource('/home/test/lib/a.dart', r'''
class Base {
const Base._priv();
const Base();
const Base.named();
}
''');
var library = await checkLibrary('''
import "a.dart";
class M {}
class MixinApp = Base with M;
''');
checkElementText(library, r'''
library
imports
package:test/a.dart
definingUnit
classes
class M @23
constructors
synthetic @-1
class alias MixinApp @34
supertype: Base
mixins
M
constructors
synthetic const @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
staticElement: package:test/a.dart::@class::Base::@constructor::•
superKeyword: super @0
synthetic const named @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
constructorName: SimpleIdentifier
staticElement: package:test/a.dart::@class::Base::@constructor::named
staticType: null
token: named @-1
period: . @0
staticElement: package:test/a.dart::@class::Base::@constructor::named
superKeyword: super @0
''');
}
test_class_alias_with_forwarding_constructors() async {
testFile = convertPath('/home/test/lib/test.dart');
addLibrarySource('/home/test/lib/a.dart', r'''
class Base {
bool x = true;
Base._priv();
Base();
Base.noArgs();
Base.requiredArg(x);
Base.positionalArg([bool x = true]);
Base.positionalArg2([this.x = true]);
Base.namedArg({int x = 42});
Base.namedArg2({this.x = true});
factory Base.fact() => Base();
factory Base.fact2() = Base.noArgs;
}
''');
var library = await checkLibrary('''
import "a.dart";
class M {}
class MixinApp = Base with M;
''');
checkElementText(library, r'''
library
imports
package:test/a.dart
definingUnit
classes
class M @23
constructors
synthetic @-1
class alias MixinApp @34
supertype: Base
mixins
M
constructors
synthetic @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
staticElement: package:test/a.dart::@class::Base::@constructor::•
superKeyword: super @0
synthetic noArgs @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
constructorName: SimpleIdentifier
staticElement: package:test/a.dart::@class::Base::@constructor::noArgs
staticType: null
token: noArgs @-1
period: . @0
staticElement: package:test/a.dart::@class::Base::@constructor::noArgs
superKeyword: super @0
synthetic requiredArg @-1
parameters
requiredPositional x @-1
type: dynamic
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
arguments
SimpleIdentifier
staticElement: x@-1
staticType: dynamic
token: x @-1
leftParenthesis: ( @0
rightParenthesis: ) @0
constructorName: SimpleIdentifier
staticElement: package:test/a.dart::@class::Base::@constructor::requiredArg
staticType: null
token: requiredArg @-1
period: . @0
staticElement: package:test/a.dart::@class::Base::@constructor::requiredArg
superKeyword: super @0
synthetic positionalArg @-1
parameters
optionalPositional x @-1
type: bool
constantInitializer
BooleanLiteral
literal: true @127
staticType: bool
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
arguments
SimpleIdentifier
staticElement: x@-1
staticType: bool
token: x @-1
leftParenthesis: ( @0
rightParenthesis: ) @0
constructorName: SimpleIdentifier
staticElement: package:test/a.dart::@class::Base::@constructor::positionalArg
staticType: null
token: positionalArg @-1
period: . @0
staticElement: package:test/a.dart::@class::Base::@constructor::positionalArg
superKeyword: super @0
synthetic positionalArg2 @-1
parameters
optionalPositional final x @-1
type: bool
constantInitializer
BooleanLiteral
literal: true @167
staticType: bool
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
arguments
SimpleIdentifier
staticElement: x@-1
staticType: bool
token: x @-1
leftParenthesis: ( @0
rightParenthesis: ) @0
constructorName: SimpleIdentifier
staticElement: package:test/a.dart::@class::Base::@constructor::positionalArg2
staticType: null
token: positionalArg2 @-1
period: . @0
staticElement: package:test/a.dart::@class::Base::@constructor::positionalArg2
superKeyword: super @0
synthetic namedArg @-1
parameters
optionalNamed x @-1
type: int
constantInitializer
IntegerLiteral
literal: 42 @200
staticType: int
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
arguments
SimpleIdentifier
staticElement: x@-1
staticType: int
token: x @-1
leftParenthesis: ( @0
rightParenthesis: ) @0
constructorName: SimpleIdentifier
staticElement: package:test/a.dart::@class::Base::@constructor::namedArg
staticType: null
token: namedArg @-1
period: . @0
staticElement: package:test/a.dart::@class::Base::@constructor::namedArg
superKeyword: super @0
synthetic namedArg2 @-1
parameters
optionalNamed final x @-1
type: bool
constantInitializer
BooleanLiteral
literal: true @233
staticType: bool
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
arguments
SimpleIdentifier
staticElement: x@-1
staticType: bool
token: x @-1
leftParenthesis: ( @0
rightParenthesis: ) @0
constructorName: SimpleIdentifier
staticElement: package:test/a.dart::@class::Base::@constructor::namedArg2
staticType: null
token: namedArg2 @-1
period: . @0
staticElement: package:test/a.dart::@class::Base::@constructor::namedArg2
superKeyword: super @0
''');
}
test_class_alias_with_forwarding_constructors_type_substitution() async {
var library = await checkLibrary('''
class Base<T> {
Base.ctor(T t, List<T> l);
}
class M {}
class MixinApp = Base with M;
''');
checkElementText(library, r'''
library
definingUnit
classes
class Base @6
typeParameters
covariant T @11
defaultType: dynamic
constructors
ctor @23
periodOffset: 22
nameEnd: 27
parameters
requiredPositional t @30
type: T
requiredPositional l @41
type: List<T>
class M @53
constructors
synthetic @-1
class alias MixinApp @64
supertype: Base<dynamic>
mixins
M
constructors
synthetic ctor @-1
parameters
requiredPositional t @-1
type: dynamic
requiredPositional l @-1
type: List<dynamic>
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
arguments
SimpleIdentifier
staticElement: t@-1
staticType: dynamic
token: t @-1
SimpleIdentifier
staticElement: l@-1
staticType: List<dynamic>
token: l @-1
leftParenthesis: ( @0
rightParenthesis: ) @0
constructorName: SimpleIdentifier
staticElement: self::@class::Base::@constructor::ctor
staticType: null
token: ctor @-1
period: . @0
staticElement: self::@class::Base::@constructor::ctor
superKeyword: super @0
''');
}
test_class_alias_with_forwarding_constructors_type_substitution_complex() async {
var library = await checkLibrary('''
class Base<T> {
Base.ctor(T t, List<T> l);
}
class M {}
class MixinApp<U> = Base<List<U>> with M;
''');
checkElementText(library, r'''
library
definingUnit
classes
class Base @6
typeParameters
covariant T @11
defaultType: dynamic
constructors
ctor @23
periodOffset: 22
nameEnd: 27
parameters
requiredPositional t @30
type: T
requiredPositional l @41
type: List<T>
class M @53
constructors
synthetic @-1
class alias MixinApp @64
typeParameters
covariant U @73
defaultType: dynamic
supertype: Base<List<U>>
mixins
M
constructors
synthetic ctor @-1
parameters
requiredPositional t @-1
type: List<U>
requiredPositional l @-1
type: List<List<U>>
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
arguments
SimpleIdentifier
staticElement: t@-1
staticType: List<U>
token: t @-1
SimpleIdentifier
staticElement: l@-1
staticType: List<List<U>>
token: l @-1
leftParenthesis: ( @0
rightParenthesis: ) @0
constructorName: SimpleIdentifier
staticElement: self::@class::Base::@constructor::ctor
staticType: null
token: ctor @-1
period: . @0
staticElement: self::@class::Base::@constructor::ctor
superKeyword: super @0
''');
}
test_class_alias_with_mixin_members() async {
var library = await checkLibrary('''
class C = D with E;
class D {}
class E {
int get a => null;
void set b(int i) {}
void f() {}
int x;
}''');
checkElementText(library, r'''
library
definingUnit
classes
class alias C @6
supertype: D
mixins
E
constructors
synthetic @-1
constantInitializers
SuperConstructorInvocation
argumentList: ArgumentList
leftParenthesis: ( @0
rightParenthesis: ) @0
staticElement: self::@class::D::@constructor::•
superKeyword: super @0
class D @26
constructors
synthetic @-1
class E @37
fields
x @105
type: int
synthetic a @-1
type: int
synthetic b @-1
type: int
constructors
synthetic @-1
accessors
synthetic get x @-1
returnType: int
synthetic set x @-1
parameters
requiredPositional _x @-1
type: int
returnType: void
get a @51
returnType: int
set b @73
parameters
requiredPositional i @79
type: int
returnType: void
methods
f @92
returnType: void
''');
}
test_class_constructor_const() async {
var library = await checkLibrary('class C { const C(); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
const @16
''');
}
test_class_constructor_const_external() async {
var library = await checkLibrary('class C { external const C(); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
external const @25
''');
}
test_class_constructor_explicit_named() async {
var library = await checkLibrary('class C { C.foo(); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
foo @12
periodOffset: 11
nameEnd: 15
''');
}
test_class_constructor_explicit_type_params() async {
var library = await checkLibrary('class C<T, U> { C(); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
covariant T @8
defaultType: dynamic
covariant U @11
defaultType: dynamic
constructors
@16
''');
}
test_class_constructor_explicit_unnamed() async {
var library = await checkLibrary('class C { C(); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
@10
''');
}
test_class_constructor_external() async {
var library = await checkLibrary('class C { external C(); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
external @19
''');
}
test_class_constructor_factory() async {
var library = await checkLibrary('class C { factory C() => throw 0; }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
factory @18
''');
}
test_class_constructor_field_formal_dynamic_dynamic() async {
var library =
await checkLibrary('class C { dynamic x; C(dynamic this.x); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @18
type: dynamic
constructors
@21
parameters
requiredPositional final this.x @36
type: dynamic
accessors
synthetic get x @-1
returnType: dynamic
synthetic set x @-1
parameters
requiredPositional _x @-1
type: dynamic
returnType: void
''');
}
test_class_constructor_field_formal_dynamic_typed() async {
var library = await checkLibrary('class C { dynamic x; C(int this.x); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @18
type: dynamic
constructors
@21
parameters
requiredPositional final this.x @32
type: int
accessors
synthetic get x @-1
returnType: dynamic
synthetic set x @-1
parameters
requiredPositional _x @-1
type: dynamic
returnType: void
''');
}
test_class_constructor_field_formal_dynamic_untyped() async {
var library = await checkLibrary('class C { dynamic x; C(this.x); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @18
type: dynamic
constructors
@21
parameters
requiredPositional final this.x @28
type: dynamic
accessors
synthetic get x @-1
returnType: dynamic
synthetic set x @-1
parameters
requiredPositional _x @-1
type: dynamic
returnType: void
''');
}
test_class_constructor_field_formal_functionTyped_noReturnType() async {
var library = await checkLibrary(r'''
class C {
var x;
C(this.x(double b));
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @16
type: dynamic
constructors
@21
parameters
requiredPositional final this.x @28
type: dynamic Function(double)
parameters
requiredPositional b @37
type: double
accessors
synthetic get x @-1
returnType: dynamic
synthetic set x @-1
parameters
requiredPositional _x @-1
type: dynamic
returnType: void
''');
}
test_class_constructor_field_formal_functionTyped_withReturnType() async {
var library = await checkLibrary(r'''
class C {
var x;
C(int this.x(double b));
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @16
type: dynamic
constructors
@21
parameters
requiredPositional final this.x @32
type: int Function(double)
parameters
requiredPositional b @41
type: double
accessors
synthetic get x @-1
returnType: dynamic
synthetic set x @-1
parameters
requiredPositional _x @-1
type: dynamic
returnType: void
''');
}
test_class_constructor_field_formal_functionTyped_withReturnType_generic() async {
var library = await checkLibrary(r'''
class C {
Function() f;
C(List<U> this.f<T, U>(T t));
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
f @23
type: dynamic Function()
constructors
@28
parameters
requiredPositional final this.f @43
type: List<U> Function<T, U>(T)
typeParameters
covariant T @45
covariant U @48
parameters
requiredPositional t @53
type: T
accessors
synthetic get f @-1
returnType: dynamic Function()
synthetic set f @-1
parameters
requiredPositional _f @-1
type: dynamic Function()
returnType: void
''');
}
test_class_constructor_field_formal_multiple_matching_fields() async {
// This is a compile-time error but it should still analyze consistently.
var library = await checkLibrary('class C { C(this.x); int x; String x; }',
allowErrors: true);
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @25
type: int
x @35
type: String
constructors
@10
parameters
requiredPositional final this.x @17
type: int
accessors
synthetic get x @-1
returnType: int
synthetic set x @-1
parameters
requiredPositional _x @-1
type: int
returnType: void
synthetic get x @-1
returnType: String
synthetic set x @-1
parameters
requiredPositional _x @-1
type: String
returnType: void
''');
}
test_class_constructor_field_formal_no_matching_field() async {
// This is a compile-time error but it should still analyze consistently.
var library =
await checkLibrary('class C { C(this.x); }', allowErrors: true);
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
@10
parameters
requiredPositional final this.x @17
type: dynamic
''');
}
test_class_constructor_field_formal_typed_dynamic() async {
var library = await checkLibrary('class C { num x; C(dynamic this.x); }',
allowErrors: true);
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @14
type: num
constructors
@17
parameters
requiredPositional final this.x @32
type: dynamic
accessors
synthetic get x @-1
returnType: num
synthetic set x @-1
parameters
requiredPositional _x @-1
type: num
returnType: void
''');
}
test_class_constructor_field_formal_typed_typed() async {
var library = await checkLibrary('class C { num x; C(int this.x); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @14
type: num
constructors
@17
parameters
requiredPositional final this.x @28
type: int
accessors
synthetic get x @-1
returnType: num
synthetic set x @-1
parameters
requiredPositional _x @-1
type: num
returnType: void
''');
}
test_class_constructor_field_formal_typed_untyped() async {
var library = await checkLibrary('class C { num x; C(this.x); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @14
type: num
constructors
@17
parameters
requiredPositional final this.x @24
type: num
accessors
synthetic get x @-1
returnType: num
synthetic set x @-1
parameters
requiredPositional _x @-1
type: num
returnType: void
''');
}
test_class_constructor_field_formal_untyped_dynamic() async {
var library = await checkLibrary('class C { var x; C(dynamic this.x); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @14
type: dynamic
constructors
@17
parameters
requiredPositional final this.x @32
type: dynamic
accessors
synthetic get x @-1
returnType: dynamic
synthetic set x @-1
parameters
requiredPositional _x @-1
type: dynamic
returnType: void
''');
}
test_class_constructor_field_formal_untyped_typed() async {
var library = await checkLibrary('class C { var x; C(int this.x); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @14
type: dynamic
constructors
@17
parameters
requiredPositional final this.x @28
type: int
accessors
synthetic get x @-1
returnType: dynamic
synthetic set x @-1
parameters
requiredPositional _x @-1
type: dynamic
returnType: void
''');
}
test_class_constructor_field_formal_untyped_untyped() async {
var library = await checkLibrary('class C { var x; C(this.x); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @14
type: dynamic
constructors
@17
parameters
requiredPositional final this.x @24
type: dynamic
accessors
synthetic get x @-1
returnType: dynamic
synthetic set x @-1
parameters
requiredPositional _x @-1
type: dynamic
returnType: void
''');
}
test_class_constructor_fieldFormal_named_noDefault() async {
var library = await checkLibrary('class C { int x; C({this.x}); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @14
type: int
constructors
@17
parameters
optionalNamed final this.x @25
type: int
accessors
synthetic get x @-1
returnType: int
synthetic set x @-1
parameters
requiredPositional _x @-1
type: int
returnType: void
''');
}
test_class_constructor_fieldFormal_named_withDefault() async {
var library = await checkLibrary('class C { int x; C({this.x: 42}); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @14
type: int
constructors
@17
parameters
optionalNamed final this.x @25
type: int
constantInitializer
IntegerLiteral
literal: 42 @28
staticType: int
accessors
synthetic get x @-1
returnType: int
synthetic set x @-1
parameters
requiredPositional _x @-1
type: int
returnType: void
''');
}
test_class_constructor_fieldFormal_optional_noDefault() async {
var library = await checkLibrary('class C { int x; C([this.x]); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @14
type: int
constructors
@17
parameters
optionalPositional final this.x @25
type: int
accessors
synthetic get x @-1
returnType: int
synthetic set x @-1
parameters
requiredPositional _x @-1
type: int
returnType: void
''');
}
test_class_constructor_fieldFormal_optional_withDefault() async {
var library = await checkLibrary('class C { int x; C([this.x = 42]); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @14
type: int
constructors
@17
parameters
optionalPositional final this.x @25
type: int
constantInitializer
IntegerLiteral
literal: 42 @29
staticType: int
accessors
synthetic get x @-1
returnType: int
synthetic set x @-1
parameters
requiredPositional _x @-1
type: int
returnType: void
''');
}
test_class_constructor_implicit() async {
var library = await checkLibrary('class C {}');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
synthetic @-1
''');
}
test_class_constructor_implicit_type_params() async {
var library = await checkLibrary('class C<T, U> {}');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
covariant T @8
defaultType: dynamic
covariant U @11
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_constructor_params() async {
var library = await checkLibrary('class C { C(x, int y); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
@10
parameters
requiredPositional x @12
type: dynamic
requiredPositional y @19
type: int
''');
}
test_class_constructors() async {
var library = await checkLibrary('class C { C.foo(); C.bar(); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
foo @12
periodOffset: 11
nameEnd: 15
bar @21
periodOffset: 20
nameEnd: 24
''');
}
test_class_documented() async {
var library = await checkLibrary('''
/**
* Docs
*/
class C {}''');
checkElementText(library, r'''
library
definingUnit
classes
class C @22
documentationComment: /**\n * Docs\n */
constructors
synthetic @-1
''');
}
test_class_documented_mix() async {
var library = await checkLibrary('''
/**
* aaa
*/
/**
* bbb
*/
class A {}
/**
* aaa
*/
/// bbb
/// ccc
class B {}
/// aaa
/// bbb
/**
* ccc
*/
class C {}
/// aaa
/// bbb
/**
* ccc
*/
/// ddd
class D {}
/**
* aaa
*/
// bbb
class E {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class A @36
documentationComment: /**\n * bbb\n */
constructors
synthetic @-1
class B @79
documentationComment: /// bbb\n/// ccc
constructors
synthetic @-1
class C @122
documentationComment: /**\n * ccc\n */
constructors
synthetic @-1
class D @173
documentationComment: /// ddd
constructors
synthetic @-1
class E @207
documentationComment: /**\n * aaa\n */
constructors
synthetic @-1
''');
}
test_class_documented_tripleSlash() async {
var library = await checkLibrary('''
/// first
/// second
/// third
class C {}''');
checkElementText(library, r'''
library
definingUnit
classes
class C @37
documentationComment: /// first\n/// second\n/// third
constructors
synthetic @-1
''');
}
test_class_documented_with_references() async {
var library = await checkLibrary('''
/**
* Docs referring to [D] and [E]
*/
class C {}
class D {}
class E {}''');
checkElementText(library, r'''
library
definingUnit
classes
class C @47
documentationComment: /**\n * Docs referring to [D] and [E]\n */
constructors
synthetic @-1
class D @59
constructors
synthetic @-1
class E @70
constructors
synthetic @-1
''');
}
test_class_documented_with_windows_line_endings() async {
var library = await checkLibrary('/**\r\n * Docs\r\n */\r\nclass C {}');
checkElementText(library, r'''
library
definingUnit
classes
class C @25
documentationComment: /**\n * Docs\n */
constructors
synthetic @-1
''');
}
test_class_documented_withLeadingNotDocumentation() async {
var library = await checkLibrary('''
// Extra comment so doc comment offset != 0
/**
* Docs
*/
class C {}''');
checkElementText(library, r'''
library
definingUnit
classes
class C @66
documentationComment: /**\n * Docs\n */
constructors
synthetic @-1
''');
}
test_class_documented_withMetadata() async {
var library = await checkLibrary('''
/// Comment 1
/// Comment 2
@Annotation()
class BeforeMeta {}
/// Comment 1
/// Comment 2
@Annotation.named()
class BeforeMetaNamed {}
@Annotation()
/// Comment 1
/// Comment 2
class AfterMeta {}
/// Comment 1
@Annotation()
/// Comment 2
class AroundMeta {}
/// Doc comment.
@Annotation()
// Not doc comment.
class DocBeforeMetaNotDocAfter {}
class Annotation {
const Annotation();
const Annotation.named();
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class BeforeMeta @48
documentationComment: /// Comment 1\n/// Comment 2
metadata
Annotation
arguments: ArgumentList
leftParenthesis: ( @39
rightParenthesis: ) @40
atSign: @ @28
element: self::@class::Annotation::@constructor::•
name: SimpleIdentifier
staticElement: self::@class::Annotation
staticType: null
token: Annotation @29
constructors
synthetic @-1
class BeforeMetaNamed @117
documentationComment: /// Comment 1\n/// Comment 2
metadata
Annotation
arguments: ArgumentList
leftParenthesis: ( @108
rightParenthesis: ) @109
atSign: @ @91
element: self::@class::Annotation::@constructor::named
name: PrefixedIdentifier
identifier: SimpleIdentifier
staticElement: self::@class::Annotation::@constructor::named
staticType: null
token: named @103
period: . @102
prefix: SimpleIdentifier
staticElement: self::@class::Annotation
staticType: null
token: Annotation @92
staticElement: self::@class::Annotation::@constructor::named
staticType: null
constructors
synthetic @-1
class AfterMeta @185
documentationComment: /// Comment 1\n/// Comment 2
metadata
Annotation
arguments: ArgumentList
leftParenthesis: ( @148
rightParenthesis: ) @149
atSign: @ @137
element: self::@class::Annotation::@constructor::•
name: SimpleIdentifier
staticElement: self::@class::Annotation
staticType: null
token: Annotation @138
constructors
synthetic @-1
class AroundMeta @247
documentationComment: /// Comment 2
metadata
Annotation
arguments: ArgumentList
leftParenthesis: ( @224
rightParenthesis: ) @225
atSign: @ @213
element: self::@class::Annotation::@constructor::•
name: SimpleIdentifier
staticElement: self::@class::Annotation
staticType: null
token: Annotation @214
constructors
synthetic @-1
class DocBeforeMetaNotDocAfter @319
documentationComment: /// Doc comment.
metadata
Annotation
arguments: ArgumentList
leftParenthesis: ( @290
rightParenthesis: ) @291
atSign: @ @279
element: self::@class::Annotation::@constructor::•
name: SimpleIdentifier
staticElement: self::@class::Annotation
staticType: null
token: Annotation @280
constructors
synthetic @-1
class Annotation @354
constructors
const @375
const named @408
periodOffset: 407
nameEnd: 413
''');
}
test_class_field_const() async {
var library = await checkLibrary('class C { static const int i = 0; }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
static const i @27
type: int
constantInitializer
IntegerLiteral
literal: 0 @31
staticType: int
constructors
synthetic @-1
accessors
synthetic static get i @-1
returnType: int
''');
}
test_class_field_const_late() async {
var library =
await checkLibrary('class C { static late const int i = 0; }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
static late const i @32
type: int
constantInitializer
IntegerLiteral
literal: 0 @36
staticType: int
constructors
synthetic @-1
accessors
synthetic static get i @-1
returnType: int
''');
}
test_class_field_final_withSetter() async {
var library = await checkLibrary(r'''
class A {
final int foo;
A(this.foo);
set foo(int newValue) {}
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class A @6
fields
final foo @22
type: int
constructors
@29
parameters
requiredPositional final this.foo @36
type: int
accessors
synthetic get foo @-1
returnType: int
set foo @48
parameters
requiredPositional newValue @56
type: int
returnType: void
''');
}
test_class_field_implicit_type() async {
var library = await checkLibrary('class C { var x; }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
x @14
type: dynamic
constructors
synthetic @-1
accessors
synthetic get x @-1
returnType: dynamic
synthetic set x @-1
parameters
requiredPositional _x @-1
type: dynamic
returnType: void
''');
}
test_class_field_implicit_type_late() async {
var library = await checkLibrary('class C { late var x; }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
late x @19
type: dynamic
constructors
synthetic @-1
accessors
synthetic get x @-1
returnType: dynamic
synthetic set x @-1
parameters
requiredPositional _x @-1
type: dynamic
returnType: void
''');
}
test_class_field_inheritedContextType_double() async {
var library = await checkLibrary('''
abstract class A {
const A();
double get foo;
}
class B extends A {
const B();
final foo = 2;
}
''');
checkElementText(library, r'''
library
definingUnit
classes
abstract class A @15
fields
synthetic foo @-1
type: double
constructors
const @27
accessors
abstract get foo @45
returnType: double
class B @58
supertype: A
fields
final foo @93
type: double
constantInitializer
IntegerLiteral
literal: 2 @99
staticType: double
constructors
const @80
accessors
synthetic get foo @-1
returnType: double
''');
}
test_class_field_static() async {
var library = await checkLibrary('class C { static int i; }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
static i @21
type: int
constructors
synthetic @-1
accessors
synthetic static get i @-1
returnType: int
synthetic static set i @-1
parameters
requiredPositional _i @-1
type: int
returnType: void
''');
}
test_class_field_static_late() async {
var library = await checkLibrary('class C { static late int i; }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
static late i @26
type: int
constructors
synthetic @-1
accessors
synthetic static get i @-1
returnType: int
synthetic static set i @-1
parameters
requiredPositional _i @-1
type: int
returnType: void
''');
}
test_class_fields() async {
var library = await checkLibrary('class C { int i; int j; }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
i @14
type: int
j @21
type: int
constructors
synthetic @-1
accessors
synthetic get i @-1
returnType: int
synthetic set i @-1
parameters
requiredPositional _i @-1
type: int
returnType: void
synthetic get j @-1
returnType: int
synthetic set j @-1
parameters
requiredPositional _j @-1
type: int
returnType: void
''');
}
test_class_fields_late() async {
var library = await checkLibrary('''
class C {
late int foo;
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
late foo @21
type: int
constructors
synthetic @-1
accessors
synthetic get foo @-1
returnType: int
synthetic set foo @-1
parameters
requiredPositional _foo @-1
type: int
returnType: void
''');
}
test_class_fields_late_final() async {
var library = await checkLibrary('''
class C {
late final int foo;
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
late final foo @27
type: int
constructors
synthetic @-1
accessors
synthetic get foo @-1
returnType: int
synthetic set foo @-1
parameters
requiredPositional _foo @-1
type: int
returnType: void
''');
}
test_class_fields_late_final_initialized() async {
var library = await checkLibrary('''
class C {
late final int foo = 0;
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
late final foo @27
type: int
constructors
synthetic @-1
accessors
synthetic get foo @-1
returnType: int
''');
}
test_class_getter_abstract() async {
var library = await checkLibrary('abstract class C { int get x; }');
checkElementText(library, r'''
library
definingUnit
classes
abstract class C @15
fields
synthetic x @-1
type: int
constructors
synthetic @-1
accessors
abstract get x @27
returnType: int
''');
}
test_class_getter_external() async {
var library = await checkLibrary('class C { external int get x; }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: int
constructors
synthetic @-1
accessors
external get x @27
returnType: int
''');
}
test_class_getter_implicit_return_type() async {
var library = await checkLibrary('class C { get x => null; }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: dynamic
constructors
synthetic @-1
accessors
get x @14
returnType: dynamic
''');
}
test_class_getter_native() async {
var library = await checkLibrary('''
class C {
int get x() native;
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: int
constructors
synthetic @-1
accessors
external get x @20
returnType: int
''');
}
test_class_getter_static() async {
var library = await checkLibrary('class C { static int get x => null; }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic static x @-1
type: int
constructors
synthetic @-1
accessors
static get x @25
returnType: int
''');
}
test_class_getters() async {
var library =
await checkLibrary('class C { int get x => null; get y => null; }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: int
synthetic y @-1
type: dynamic
constructors
synthetic @-1
accessors
get x @18
returnType: int
get y @33
returnType: dynamic
''');
}
test_class_implicitField_getterFirst() async {
var library = await checkLibrary('''
class C {
int get x => 0;
void set x(int value) {}
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: int
constructors
synthetic @-1
accessors
get x @20
returnType: int
set x @39
parameters
requiredPositional value @45
type: int
returnType: void
''');
}
test_class_implicitField_setterFirst() async {
var library = await checkLibrary('''
class C {
void set x(int value) {}
int get x => 0;
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: int
constructors
synthetic @-1
accessors
set x @21
parameters
requiredPositional value @27
type: int
returnType: void
get x @47
returnType: int
''');
}
test_class_interfaces() async {
var library = await checkLibrary('''
class C implements D, E {}
class D {}
class E {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
interfaces
D
E
constructors
synthetic @-1
class D @33
constructors
synthetic @-1
class E @44
constructors
synthetic @-1
''');
}
test_class_interfaces_Function() async {
var library = await checkLibrary('''
class A {}
class B {}
class C implements A, Function, B {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class A @6
constructors
synthetic @-1
class B @17
constructors
synthetic @-1
class C @28
interfaces
A
B
constructors
synthetic @-1
''');
}
test_class_interfaces_unresolved() async {
var library = await checkLibrary(
'class C implements X, Y, Z {} class X {} class Z {}',
allowErrors: true);
checkElementText(library, r'''
library
definingUnit
classes
class C @6
interfaces
X
Z
constructors
synthetic @-1
class X @36
constructors
synthetic @-1
class Z @47
constructors
synthetic @-1
''');
}
test_class_method_abstract() async {
var library = await checkLibrary('abstract class C { f(); }');
checkElementText(library, r'''
library
definingUnit
classes
abstract class C @15
constructors
synthetic @-1
methods
abstract f @19
returnType: dynamic
''');
}
test_class_method_external() async {
var library = await checkLibrary('class C { external f(); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
synthetic @-1
methods
external f @19
returnType: dynamic
''');
}
test_class_method_namedAsSupertype() async {
var library = await checkLibrary(r'''
class A {}
class B extends A {
void A() {}
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class A @6
constructors
synthetic @-1
class B @17
supertype: A
constructors
synthetic @-1
methods
A @38
returnType: void
''');
}
test_class_method_native() async {
var library = await checkLibrary('''
class C {
int m() native;
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
synthetic @-1
methods
external m @16
returnType: int
''');
}
test_class_method_params() async {
var library = await checkLibrary('class C { f(x, y) {} }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
synthetic @-1
methods
f @10
parameters
requiredPositional x @12
type: dynamic
requiredPositional y @15
type: dynamic
returnType: dynamic
''');
}
test_class_method_static() async {
var library = await checkLibrary('class C { static f() {} }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
synthetic @-1
methods
static f @17
returnType: dynamic
''');
}
test_class_methods() async {
var library = await checkLibrary('class C { f() {} g() {} }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
synthetic @-1
methods
f @10
returnType: dynamic
g @17
returnType: dynamic
''');
}
test_class_mixins() async {
var library = await checkLibrary('''
class C extends D with E, F, G {}
class D {}
class E {}
class F {}
class G {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
supertype: D
mixins
E
F
G
constructors
synthetic @-1
class D @40
constructors
synthetic @-1
class E @51
constructors
synthetic @-1
class F @62
constructors
synthetic @-1
class G @73
constructors
synthetic @-1
''');
}
test_class_mixins_generic() async {
var library = await checkLibrary('''
class Z extends A with B<int>, C<double> {}
class A {}
class B<B1> {}
class C<C1> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class Z @6
supertype: A
mixins
B<int>
C<double>
constructors
synthetic @-1
class A @50
constructors
synthetic @-1
class B @61
typeParameters
covariant B1 @63
defaultType: dynamic
constructors
synthetic @-1
class C @76
typeParameters
covariant C1 @78
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_mixins_unresolved() async {
var library = await checkLibrary(
'class C extends Object with X, Y, Z {} class X {} class Z {}',
allowErrors: true);
checkElementText(library, r'''
library
definingUnit
classes
class C @6
supertype: Object
mixins
X
Z
constructors
synthetic @-1
class X @45
constructors
synthetic @-1
class Z @56
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_circularity_via_typedef() async {
// C's type parameter T is not simply bounded because its bound, F, expands
// to `dynamic F(C)`, which refers to C.
var library = await checkLibrary('''
class C<T extends F> {}
typedef F(C value);
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: dynamic
defaultType: dynamic
constructors
synthetic @-1
typeAliases
functionTypeAliasBased notSimplyBounded F @32
aliasedType: dynamic Function(C<dynamic>)
aliasedElement: GenericFunctionTypeElement
parameters
requiredPositional value @36
type: C<dynamic>
returnType: dynamic
''');
}
test_class_notSimplyBounded_circularity_with_type_params() async {
// C's type parameter T is simply bounded because even though it refers to
// C, it specifies a bound.
var library = await checkLibrary('''
class C<T extends C<dynamic>> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
covariant T @8
bound: C<dynamic>
defaultType: C<dynamic>
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_complex_by_cycle_class() async {
var library = await checkLibrary('''
class C<T extends D> {}
class D<T extends C> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: D<dynamic>
defaultType: dynamic
constructors
synthetic @-1
notSimplyBounded class D @30
typeParameters
covariant T @32
bound: C<dynamic>
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_complex_by_cycle_typedef_functionType() async {
var library = await checkLibrary('''
typedef C<T extends D> = void Function();
typedef D<T extends C> = void Function();
''');
checkElementText(library, r'''
library
definingUnit
typeAliases
notSimplyBounded C @8
typeParameters
unrelated T @10
bound: dynamic
defaultType: dynamic
aliasedType: void Function()
aliasedElement: GenericFunctionTypeElement
returnType: void
notSimplyBounded D @50
typeParameters
unrelated T @52
bound: dynamic
defaultType: dynamic
aliasedType: void Function()
aliasedElement: GenericFunctionTypeElement
returnType: void
''');
}
test_class_notSimplyBounded_complex_by_cycle_typedef_interfaceType() async {
var library = await checkLibrary('''
typedef C<T extends D> = List<T>;
typedef D<T extends C> = List<T>;
''');
checkElementText(library, r'''
library
definingUnit
typeAliases
notSimplyBounded C @8
typeParameters
covariant T @10
bound: dynamic
defaultType: dynamic
aliasedType: List<T>
notSimplyBounded D @42
typeParameters
covariant T @44
bound: dynamic
defaultType: dynamic
aliasedType: List<T>
''');
}
test_class_notSimplyBounded_complex_by_reference_to_cycle() async {
var library = await checkLibrary('''
class C<T extends D> {}
class D<T extends D> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: D<dynamic>
defaultType: D<dynamic>
constructors
synthetic @-1
notSimplyBounded class D @30
typeParameters
covariant T @32
bound: D<dynamic>
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_complex_by_use_of_parameter() async {
var library = await checkLibrary('''
class C<T extends D<T>> {}
class D<T> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: D<T>
defaultType: D<dynamic>
constructors
synthetic @-1
class D @33
typeParameters
covariant T @35
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_dependency_with_type_params() async {
// C's type parameter T is simply bounded because even though it refers to
// non-simply-bounded type D, it specifies a bound.
var library = await checkLibrary('''
class C<T extends D<dynamic>> {}
class D<T extends D<T>> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
covariant T @8
bound: D<dynamic>
defaultType: D<dynamic>
constructors
synthetic @-1
notSimplyBounded class D @39
typeParameters
covariant T @41
bound: D<T>
defaultType: D<dynamic>
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_function_typed_bound_complex_via_parameter_type() async {
var library = await checkLibrary('''
class C<T extends void Function(T)> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: void Function(T)
defaultType: void Function(Never)
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_function_typed_bound_complex_via_parameter_type_legacy() async {
featureSet = FeatureSets.language_2_9;
var library = await checkLibrary('''
class C<T extends void Function(T)> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: void Function(T*)*
defaultType: void Function(Null*)*
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_function_typed_bound_complex_via_return_type() async {
var library = await checkLibrary('''
class C<T extends T Function()> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: T Function()
defaultType: dynamic Function()
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_function_typed_bound_simple() async {
var library = await checkLibrary('''
class C<T extends void Function()> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
covariant T @8
bound: void Function()
defaultType: void Function()
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_refers_to_circular_typedef() async {
// C's type parameter T has a bound of F, which is a circular typedef. This
// is illegal in Dart, but we need to make sure it doesn't lead to a crash
// or infinite loop.
var library = await checkLibrary('''
class C<T extends F> {}
typedef F(G value);
typedef G(F value);
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: dynamic
defaultType: dynamic
constructors
synthetic @-1
typeAliases
functionTypeAliasBased notSimplyBounded F @32
aliasedType: dynamic Function(dynamic)
aliasedElement: GenericFunctionTypeElement
parameters
requiredPositional value @36
type: dynamic
returnType: dynamic
functionTypeAliasBased notSimplyBounded G @52
aliasedType: dynamic Function(dynamic)
aliasedElement: GenericFunctionTypeElement
parameters
requiredPositional value @56
type: dynamic
returnType: dynamic
''');
}
test_class_notSimplyBounded_self() async {
var library = await checkLibrary('''
class C<T extends C> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: C<dynamic>
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_simple_because_non_generic() async {
// If no type parameters are specified, then the class is simply bounded, so
// there is no reason to assign it a slot.
var library = await checkLibrary('''
class C {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_simple_by_lack_of_cycles() async {
var library = await checkLibrary('''
class C<T extends D> {}
class D<T> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
covariant T @8
bound: D<dynamic>
defaultType: D<dynamic>
constructors
synthetic @-1
class D @30
typeParameters
covariant T @32
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_notSimplyBounded_simple_by_syntax() async {
// If no bounds are specified, then the class is simply bounded by syntax
// alone, so there is no reason to assign it a slot.
var library = await checkLibrary('''
class C<T> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
covariant T @8
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_ref_nullability_none() async {
var library = await checkLibrary('''
class C {}
C c;
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
synthetic @-1
topLevelVariables
static c @13
type: C
accessors
synthetic static get c @-1
returnType: C
synthetic static set c @-1
parameters
requiredPositional _c @-1
type: C
returnType: void
''');
}
test_class_ref_nullability_question() async {
var library = await checkLibrary('''
class C {}
C? c;
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
synthetic @-1
topLevelVariables
static c @14
type: C?
accessors
synthetic static get c @-1
returnType: C?
synthetic static set c @-1
parameters
requiredPositional _c @-1
type: C?
returnType: void
''');
}
test_class_ref_nullability_star() async {
featureSet = FeatureSets.language_2_9;
var library = await checkLibrary('''
class C {}
C c;
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
synthetic @-1
topLevelVariables
static c @13
type: C*
accessors
synthetic static get c @-1
returnType: C*
synthetic static set c @-1
parameters
requiredPositional _c @-1
type: C*
returnType: void
''');
}
test_class_setter_abstract() async {
var library =
await checkLibrary('abstract class C { void set x(int value); }');
checkElementText(library, r'''
library
definingUnit
classes
abstract class C @15
fields
synthetic x @-1
type: int
constructors
synthetic @-1
accessors
abstract set x @28
parameters
requiredPositional value @34
type: int
returnType: void
''');
}
test_class_setter_external() async {
var library =
await checkLibrary('class C { external void set x(int value); }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: int
constructors
synthetic @-1
accessors
external set x @28
parameters
requiredPositional value @34
type: int
returnType: void
''');
}
test_class_setter_implicit_param_type() async {
var library = await checkLibrary('class C { void set x(value) {} }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: dynamic
constructors
synthetic @-1
accessors
set x @19
parameters
requiredPositional value @21
type: dynamic
returnType: void
''');
}
test_class_setter_implicit_return_type() async {
var library = await checkLibrary('class C { set x(int value) {} }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: int
constructors
synthetic @-1
accessors
set x @14
parameters
requiredPositional value @20
type: int
returnType: void
''');
}
test_class_setter_invalid_named_parameter() async {
var library = await checkLibrary('class C { void set x({a}) {} }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: dynamic
constructors
synthetic @-1
accessors
set x @19
parameters
optionalNamed a @22
type: dynamic
returnType: void
''');
}
test_class_setter_invalid_no_parameter() async {
var library = await checkLibrary('class C { void set x() {} }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: dynamic
constructors
synthetic @-1
accessors
set x @19
returnType: void
''');
}
test_class_setter_invalid_optional_parameter() async {
var library = await checkLibrary('class C { void set x([a]) {} }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: dynamic
constructors
synthetic @-1
accessors
set x @19
parameters
optionalPositional a @22
type: dynamic
returnType: void
''');
}
test_class_setter_invalid_too_many_parameters() async {
var library = await checkLibrary('class C { void set x(a, b) {} }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: dynamic
constructors
synthetic @-1
accessors
set x @19
parameters
requiredPositional a @21
type: dynamic
requiredPositional b @24
type: dynamic
returnType: void
''');
}
test_class_setter_native() async {
var library = await checkLibrary('''
class C {
void set x(int value) native;
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: int
constructors
synthetic @-1
accessors
external set x @21
parameters
requiredPositional value @27
type: int
returnType: void
''');
}
test_class_setter_static() async {
var library =
await checkLibrary('class C { static void set x(int value) {} }');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic static x @-1
type: int
constructors
synthetic @-1
accessors
static set x @26
parameters
requiredPositional value @32
type: int
returnType: void
''');
}
test_class_setters() async {
var library = await checkLibrary('''
class C {
void set x(int value) {}
set y(value) {}
}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
fields
synthetic x @-1
type: int
synthetic y @-1
type: dynamic
constructors
synthetic @-1
accessors
set x @21
parameters
requiredPositional value @27
type: int
returnType: void
set y @43
parameters
requiredPositional value @45
type: dynamic
returnType: void
''');
}
test_class_supertype() async {
var library = await checkLibrary('''
class C extends D {}
class D {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
supertype: D
constructors
synthetic @-1
class D @27
constructors
synthetic @-1
''');
}
test_class_supertype_typeArguments() async {
var library = await checkLibrary('''
class C extends D<int, double> {}
class D<T1, T2> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
supertype: D<int, double>
constructors
synthetic @-1
class D @40
typeParameters
covariant T1 @42
defaultType: dynamic
covariant T2 @46
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_supertype_typeArguments_self() async {
var library = await checkLibrary('''
class A<T> {}
class B extends A<B> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class A @6
typeParameters
covariant T @8
defaultType: dynamic
constructors
synthetic @-1
class B @20
supertype: A<B>
constructors
synthetic @-1
''');
}
test_class_supertype_unresolved() async {
var library = await checkLibrary('class C extends D {}', allowErrors: true);
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
synthetic @-1
''');
}
test_class_type_parameters() async {
var library = await checkLibrary('class C<T, U> {}');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
covariant T @8
defaultType: dynamic
covariant U @11
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_type_parameters_bound() async {
var library = await checkLibrary('''
class C<T extends Object, U extends D> {}
class D {}
''');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
covariant T @8
bound: Object
defaultType: Object
covariant U @26
bound: D
defaultType: D
constructors
synthetic @-1
class D @48
constructors
synthetic @-1
''');
}
test_class_type_parameters_cycle_1of1() async {
var library = await checkLibrary('class C<T extends T> {}');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: dynamic
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_type_parameters_cycle_2of3() async {
var library = await checkLibrary(r'''
class C<T extends V, U, V extends T> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: dynamic
defaultType: dynamic
covariant U @21
defaultType: dynamic
covariant V @24
bound: dynamic
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_type_parameters_f_bound_complex() async {
var library = await checkLibrary('class C<T extends List<U>, U> {}');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: List<U>
defaultType: List<dynamic>
covariant U @27
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_type_parameters_f_bound_simple() async {
var library = await checkLibrary('class C<T extends U, U> {}');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: U
defaultType: dynamic
covariant U @21
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_typeParameters_defaultType_cycle_genericFunctionType() async {
var library = await checkLibrary(r'''
class A<T extends void Function(A)> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class A @6
typeParameters
covariant T @8
bound: void Function(A<dynamic>)
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_typeParameters_defaultType_cycle_genericFunctionType2() async {
var library = await checkLibrary(r'''
class C<T extends void Function<U extends C>()> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class C @6
typeParameters
covariant T @8
bound: void Function<U extends C<dynamic>>()
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_typeParameters_defaultType_functionTypeAlias_contravariant_legacy() async {
featureSet = FeatureSets.language_2_9;
var library = await checkLibrary(r'''
typedef F<X> = void Function(X);
class A<X extends F<X>> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class A @40
typeParameters
covariant X @42
bound: void Function(X*)*
aliasElement: self::@typeAlias::F
aliasArguments
X*
defaultType: void Function(Null*)*
aliasElement: self::@typeAlias::F
aliasArguments
Null*
constructors
synthetic @-1
typeAliases
F @8
typeParameters
contravariant X @10
defaultType: dynamic
aliasedType: void Function(X*)*
aliasedElement: GenericFunctionTypeElement
parameters
requiredPositional @-1
type: X*
returnType: void
''');
}
test_class_typeParameters_defaultType_functionTypeAlias_contravariant_nullSafe() async {
var library = await checkLibrary(r'''
typedef F<X> = void Function(X);
class A<X extends F<X>> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class A @40
typeParameters
covariant X @42
bound: void Function(X)
aliasElement: self::@typeAlias::F
aliasArguments
X
defaultType: void Function(Never)
aliasElement: self::@typeAlias::F
aliasArguments
Never
constructors
synthetic @-1
typeAliases
F @8
typeParameters
contravariant X @10
defaultType: dynamic
aliasedType: void Function(X)
aliasedElement: GenericFunctionTypeElement
parameters
requiredPositional @-1
type: X
returnType: void
''');
}
test_class_typeParameters_defaultType_functionTypeAlias_covariant_nullSafe() async {
var library = await checkLibrary(r'''
typedef F<X> = X Function();
class A<X extends F<X>> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class A @36
typeParameters
covariant X @38
bound: X Function()
aliasElement: self::@typeAlias::F
aliasArguments
X
defaultType: dynamic Function()
aliasElement: self::@typeAlias::F
aliasArguments
dynamic
constructors
synthetic @-1
typeAliases
F @8
typeParameters
covariant X @10
defaultType: dynamic
aliasedType: X Function()
aliasedElement: GenericFunctionTypeElement
returnType: X
''');
}
test_class_typeParameters_defaultType_functionTypeAlias_invariant_legacy() async {
var library = await checkLibrary(r'''
typedef F<X> = X Function(X);
class A<X extends F<X>> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class A @37
typeParameters
covariant X @39
bound: X Function(X)
aliasElement: self::@typeAlias::F
aliasArguments
X
defaultType: dynamic Function(dynamic)
aliasElement: self::@typeAlias::F
aliasArguments
dynamic
constructors
synthetic @-1
typeAliases
F @8
typeParameters
invariant X @10
defaultType: dynamic
aliasedType: X Function(X)
aliasedElement: GenericFunctionTypeElement
parameters
requiredPositional @-1
type: X
returnType: X
''');
}
test_class_typeParameters_defaultType_functionTypeAlias_invariant_nullSafe() async {
var library = await checkLibrary(r'''
typedef F<X> = X Function(X);
class A<X extends F<X>> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class A @37
typeParameters
covariant X @39
bound: X Function(X)
aliasElement: self::@typeAlias::F
aliasArguments
X
defaultType: dynamic Function(dynamic)
aliasElement: self::@typeAlias::F
aliasArguments
dynamic
constructors
synthetic @-1
typeAliases
F @8
typeParameters
invariant X @10
defaultType: dynamic
aliasedType: X Function(X)
aliasedElement: GenericFunctionTypeElement
parameters
requiredPositional @-1
type: X
returnType: X
''');
}
test_class_typeParameters_defaultType_genericFunctionType_both_legacy() async {
featureSet = FeatureSets.language_2_9;
var library = await checkLibrary(r'''
class A<X extends X Function(X)> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class A @6
typeParameters
covariant X @8
bound: X* Function(X*)*
defaultType: dynamic Function(Null*)*
constructors
synthetic @-1
''');
}
test_class_typeParameters_defaultType_genericFunctionType_both_nullSafe() async {
var library = await checkLibrary(r'''
class A<X extends X Function(X)> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class A @6
typeParameters
covariant X @8
bound: X Function(X)
defaultType: dynamic Function(Never)
constructors
synthetic @-1
''');
}
test_class_typeParameters_defaultType_genericFunctionType_contravariant_legacy() async {
featureSet = FeatureSets.language_2_9;
var library = await checkLibrary(r'''
class A<X extends void Function(X)> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class A @6
typeParameters
covariant X @8
bound: void Function(X*)*
defaultType: void Function(Null*)*
constructors
synthetic @-1
''');
}
test_class_typeParameters_defaultType_genericFunctionType_contravariant_nullSafe() async {
var library = await checkLibrary(r'''
class A<X extends void Function(X)> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class A @6
typeParameters
covariant X @8
bound: void Function(X)
defaultType: void Function(Never)
constructors
synthetic @-1
''');
}
test_class_typeParameters_defaultType_genericFunctionType_covariant_legacy() async {
var library = await checkLibrary(r'''
class A<X extends X Function()> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class A @6
typeParameters
covariant X @8
bound: X Function()
defaultType: dynamic Function()
constructors
synthetic @-1
''');
}
test_class_typeParameters_defaultType_genericFunctionType_covariant_nullSafe() async {
var library = await checkLibrary(r'''
class A<X extends X Function()> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class A @6
typeParameters
covariant X @8
bound: X Function()
defaultType: dynamic Function()
constructors
synthetic @-1
''');
}
test_class_typeParameters_defaultType_typeAlias_interface_contravariant() async {
var library = await checkLibrary(r'''
typedef A<X> = List<void Function(X)>;
class B<X extends A<X>> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class B @46
typeParameters
covariant X @48
bound: List<void Function(X)>
aliasElement: self::@typeAlias::A
aliasArguments
X
defaultType: List<void Function(Never)>
aliasElement: self::@typeAlias::A
aliasArguments
Never
constructors
synthetic @-1
typeAliases
A @8
typeParameters
contravariant X @10
defaultType: dynamic
aliasedType: List<void Function(X)>
''');
}
test_class_typeParameters_defaultType_typeAlias_interface_covariant() async {
var library = await checkLibrary(r'''
typedef A<X> = Map<X, int>;
class B<X extends A<X>> {}
''');
checkElementText(library, r'''
library
definingUnit
classes
notSimplyBounded class B @35
typeParameters
covariant X @37
bound: Map<X, int>
aliasElement: self::@typeAlias::A
aliasArguments
X
defaultType: Map<dynamic, int>
aliasElement: self::@typeAlias::A
aliasArguments
dynamic
constructors
synthetic @-1
typeAliases
A @8
typeParameters
covariant X @10
defaultType: dynamic
aliasedType: Map<X, int>
''');
}
test_class_typeParameters_variance_contravariant() async {
var library = await checkLibrary('class C<in T> {}');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
contravariant T @11
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_typeParameters_variance_covariant() async {
var library = await checkLibrary('class C<out T> {}');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
covariant T @12
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_typeParameters_variance_invariant() async {
var library = await checkLibrary('class C<inout T> {}');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
invariant T @14
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_class_typeParameters_variance_multiple() async {
var library = await checkLibrary('class C<inout T, in U, out V> {}');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
typeParameters
invariant T @14
defaultType: dynamic
contravariant U @20
defaultType: dynamic
covariant V @27
defaultType: dynamic
constructors
synthetic @-1
''');
}
test_classes() async {
var library = await checkLibrary('class C {} class D {}');
checkElementText(library, r'''
library
definingUnit
classes
class C @6
constructors
synthetic @-1
class D @17
constructors
synthetic @-1
''');
}
test_closure_executable_with_return_type_from_closure() async {
var library = await checkLibrary('''
f() {
print(() {});
print(() => () => 0);
}
''');
checkElementText(library, r'''
library
definingUnit
functions
f @0
returnType: dynamic
''');
}
test_closure_generic() async {
var library = await checkLibrary(r'''
final f = <U, V>(U x, V y) => y;
''');
checkElementText(library, r'''
library
definingUnit
topLevelVariables
static final f @6
type: V Function<U, V>(U, V)
accessors
synthetic static get f @-1
returnType: V Function<U, V>(U, V)
''');
}
test_closure_in_variable_declaration_in_part() async {
addSource('/a.dart', 'part of lib; final f = (int i) => i.toDouble();');
var library = await checkLibrary('''
library lib;
part "a.dart";
''');
checkElementText(library, r'''
library
name: lib
nameOffset: 8
definingUnit
parts
a.dart
topLevelVariables
static final f @19
type: double Function(int)
accessors
synthetic static get f @-1
returnType: double Function(int)
''');
}
test_codeRange_class() async {
var library = await checkLibrary('''
class Raw {}
/// Comment 1.
/// Comment 2.
class HasDocComment {}
@Object()
class HasAnnotation {}
@Object()
/// Comment 1.