pkg/analyzer/test/src/summary/linker_test.dart

// Copyright (c) 2016, 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/element/type.dart';
import 'package:analyzer/src/dart/element/element.dart';
import 'package:analyzer/src/summary/format.dart';
import 'package:analyzer/src/summary/idl.dart';
import 'package:analyzer/src/summary/link.dart';
import 'package:test/test.dart';
import 'package:test_reflective_loader/test_reflective_loader.dart';

import 'summarize_ast_test.dart';

main() {
  defineReflectiveSuite(() {
    defineReflectiveTests(LinkerUnitTest);
  });
}

@reflectiveTest
class LinkerUnitTest extends SummaryLinkerTest {
  Linker linker;

  LinkerInputs linkerInputs;
  LibraryElementInBuildUnit _testLibrary;
  @override
  bool get allowMissingFiles => false;

  Matcher get isUndefined => new isInstanceOf<UndefinedElementForLink>();

  LibraryElementInBuildUnit get testLibrary => _testLibrary ??=
      linker.getLibrary(linkerInputs.testDartUri) as LibraryElementInBuildUnit;

  void createLinker(String text, {String path: '/test.dart'}) {
    linkerInputs = createLinkerInputs(text, path: path);
    Map<String, LinkedLibraryBuilder> linkedLibraries = setupForLink(
        linkerInputs.linkedLibraries,
        linkerInputs.getUnit,
        linkerInputs.getDeclaredVariable);
    linker = new Linker(linkedLibraries, linkerInputs.getDependency,
        linkerInputs.getUnit, true);
  }

  LibraryElementForLink getLibrary(String uri) {
    return linker.getLibrary(Uri.parse(uri));
  }

  void test_apiSignature_apiChanges() {
    var bundle0 =
        createPackageBundle('f(int i) { print(i); }', path: '/test.dart');
    var bundle1 =
        createPackageBundle('f(String s) { print(s); }', path: '/test.dart');
    expect(bundle0.apiSignature, isNotEmpty);
    expect(bundle1.apiSignature, isNotEmpty);
    expect(bundle0.apiSignature, isNot(bundle1.apiSignature));
  }

  void test_apiSignature_localChanges() {
    var bundle0 = createPackageBundle('f() { print(0); }', path: '/test.dart');
    var bundle1 = createPackageBundle('f() { print(1); }', path: '/test.dart');
    expect(bundle0.apiSignature, isNotEmpty);
    expect(bundle1.apiSignature, isNotEmpty);
    expect(bundle0.apiSignature, bundle1.apiSignature);
  }

  void test_apiSignature_orderChange() {
    // A change to the order in which files are processed should not affect the
    // API signature.
    addNamedSource('/a.dart', 'class A {}');
    var bundle0 = createPackageBundle('class B {}', path: '/b.dart');
    addNamedSource('/b.dart', 'class B {}');
    var bundle1 = createPackageBundle('class A {}', path: '/a.dart');
    expect(bundle0.apiSignature, isNotEmpty);
    expect(bundle1.apiSignature, isNotEmpty);
    expect(bundle0.apiSignature, bundle1.apiSignature);
  }

  void test_apiSignature_unlinkedOnly() {
    // The API signature of a package bundle should only contain unlinked
    // information.  In this test, the linked information for bundle2 and
    // bundle3 refer to class C as existing in different files.  But the
    // unlinked information for bundle2 and bundle3 should be the same, so their
    // API signatures should be the same.
    addNamedSource('/a.dart', 'class C {}');
    var bundle0 = createPackageBundle('', path: '/b.dart');
    addNamedSource('/a.dart', '');
    var bundle1 = createPackageBundle('class C {}', path: '/b.dart');
    var text = '''
import 'a.dart';
import 'b.dart';
class D extends C {}
''';
    addBundle('/bundle0.ds', bundle0);
    var bundle2 = createPackageBundle(text, path: '/c.dart');
    addBundle('/bundle1.ds', bundle1);
    var bundle3 = createPackageBundle(text, path: '/c.dart');
    expect(bundle2.apiSignature, isNotEmpty);
    expect(bundle3.apiSignature, isNotEmpty);
    expect(bundle2.apiSignature, bundle3.apiSignature);
  }

  void test_baseClass_genericWithAccessor() {
    createLinker('''
class B<T> {
  int get i => null;
}
class C<U> extends B<U> {
  var j;
}
    ''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    // No assertions--just make sure it doesn't crash.
  }

  void test_baseClass_genericWithField() {
    createLinker('''
class B<T> {
  int i = 0;
}
class C<T> extends B<T> {
  void f() {}
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    // No assertions--just make sure it doesn't crash.
  }

  void test_baseClass_genericWithFunctionTypedParameter() {
    createLinker('''
class B<T> {
  void f(void g(T t));
}
class C<U> extends B<U> {
  void f(g) {}
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    // No assertions--just make sure it doesn't crash.
  }

  void test_baseClass_genericWithGenericMethod() {
    createLinker('''
class B<T> {
  List<U> f<U>(U u) => null;
}
class C<V> extends B<V> {
  var j;
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    // No assertions--just make sure it doesn't crash.
  }

  void test_baseClass_genericWithGenericMethod_returnsGenericFuture() {
    createLinker('''
import 'dart:async';
class B<T> {
  Future<T> f() => null;
}
class C<T> extends B<T> {
  Future<T> f() => null;
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    // No assertions--just make sure it doesn't crash.
  }

  void test_baseClass_genericWithStaticFinal() {
    createLinker('''
class B<T> {
  static final int i = 0;
}
class C<T> extends B<T> {
  void f() {}
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
  }

  void test_baseClass_withPrivateField() {
    createLinker('''
class B {
  var _b;
}
class C extends B {
  var c;
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    // No assertions--just make sure it doesn't crash.
  }

  void test_bundle_refers_to_bundle() {
    var bundle1 = createPackageBundle(
        '''
var x = 0;
''',
        path: '/a.dart');
    addBundle('/a.ds', bundle1);
    var bundle2 = createPackageBundle(
        '''
import "a.dart";
var y = x;
''',
        path: '/b.dart');
    expect(bundle2.dependencies, hasLength(1));
    expect(bundle2.dependencies[0].summaryPath, '/a.ds');
    expect(bundle2.dependencies[0].apiSignature, bundle1.apiSignature);
    addBundle('/a.ds', bundle1);
    addBundle('/b.ds', bundle2);
    createLinker('''
import "b.dart";
var z = y;
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    expect(_getVariable(library.getContainedName('z')).inferredType.toString(),
        'int');
  }

  void test_constCycle_viaLength() {
    createLinker('''
class C {
  final y;
  const C() : y = x.length;
}
const x = [const C()];
''');
    testLibrary.libraryCycleForLink.ensureLinked();
    ClassElementForLink classC = testLibrary.getContainedName('C');
    expect(classC.unnamedConstructor.isCycleFree, false);
  }

  void test_covariance() {
    // Note: due to dartbug.com/27393, the keyword "checked" is identified by
    // its presence in a library called "meta".  If that bug is fixed, this test
    // may need to be changed.
    createLinker('''
library meta;
const checked = null;
class A<T> {
  void f(@checked T t) {}
}
class B<T> extends A<T> {
  void f(T t) {}
}
''');
    testLibrary.libraryCycleForLink.ensureLinked();
    ClassElementForLink classA = testLibrary.getContainedName('A');
    MethodElementForLink methodAF = classA.getContainedName('f');
    ParameterElementForLink parameterAFT = methodAF.parameters[0];
    expect(parameterAFT.isCovariant, isTrue);
    expect(parameterAFT.inheritsCovariant, isFalse);
    ClassElementForLink classB = testLibrary.getContainedName('B');
    MethodElementForLink methodBF = classB.getContainedName('f');
    ParameterElementForLink parameterBFT = methodBF.parameters[0];
    expect(parameterAFT.isCovariant, isTrue);
    expect(parameterBFT.inheritsCovariant, isTrue);
  }

  void test_createPackageBundle_withPackageUri() {
    PackageBundle bundle = createPackageBundle(
        '''
class B {
  void f(int i) {}
}
class C extends B {
  f(i) {} // Inferred param type: int
}
''',
        uri: 'package:foo/bar.dart');
    UnlinkedExecutable cf = bundle.unlinkedUnits[0].classes[1].executables[0];
    UnlinkedParam cfi = cf.parameters[0];
    expect(cfi.inferredTypeSlot, isNot(0));
    EntityRef typeRef = _lookupInferredType(
        bundle.linkedLibraries[0].units[0], cfi.inferredTypeSlot);
    expect(typeRef, isNotNull);
    expect(bundle.unlinkedUnits[0].references[typeRef.reference].name, 'int');
  }

  void test_getContainedName_nonStaticField() {
    createLinker('class C { var f; }');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    ClassElementForLink_Class c = library.getContainedName('C');
    expect(c.getContainedName('f'), isNot(isUndefined));
  }

  void test_getContainedName_nonStaticGetter() {
    createLinker('class C { get g => null; }');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    ClassElementForLink_Class c = library.getContainedName('C');
    expect(c.getContainedName('g'), isNot(isUndefined));
  }

  void test_getContainedName_nonStaticMethod() {
    createLinker('class C { m() {} }');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    ClassElementForLink_Class c = library.getContainedName('C');
    expect(c.getContainedName('m'), isNot(isUndefined));
  }

  void test_getContainedName_nonStaticSetter() {
    createLinker('class C { void set s(value) {} }');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    ClassElementForLink_Class c = library.getContainedName('C');
    expect(c.getContainedName('s='), isNot(isUndefined));
  }

  void test_inferredType_closure_fromBundle() {
    var bundle = createPackageBundle(
        '''
var x = () {};
''',
        path: '/a.dart');
    addBundle('/a.ds', bundle);
    createLinker('''
import 'a.dart';
var y = x;
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    expect(_getVariable(library.getContainedName('y')).inferredType.toString(),
        '() → dynamic');
  }

  void test_inferredType_closure_fromBundle_identifierSequence() {
    var bundle = createPackageBundle(
        '''
class C {
  static final x = (D d) => d.e;
}
class D {
  E e;
}
class E {}
''',
        path: '/a.dart');
    addBundle('/a.ds', bundle);
    createLinker('''
import 'a.dart';
var y = C.x;
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    expect(_getVariable(library.getContainedName('y')).inferredType.toString(),
        '(D) → dynamic');
  }

  void test_inferredType_instanceField_conditional_genericFunctions() {
    createLinker('''
class C {
  final f = true ? <T>(T t) => 0 : <T>(T t) => 1;
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    ClassElementForLink_Class cls = library.getContainedName('C');
    expect(cls.fields, hasLength(1));
    var field = cls.fields[0];
    expect(field.type.toString(), '(<bottom>) → dynamic');
  }

  void test_inferredType_instanceField_dynamic() {
    createLinker('''
var x;
class C {
  var f = x; // Inferred type: dynamic
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    ClassElementForLink_Class cls = library.getContainedName('C');
    expect(cls.fields, hasLength(1));
    var field = cls.fields[0];
    expect(field.type.toString(), 'dynamic');
  }

  void test_inferredType_methodParamType_dynamic() {
    createLinker('''
clas B {
  void f(dynamic x) {}
}
class C extends B {
  f(x) {} // Inferred param type: dynamic
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    ClassElementForLink_Class cls = library.getContainedName('C');
    expect(cls.methods, hasLength(1));
    var method = cls.methods[0];
    expect(method.parameters, hasLength(1));
    expect(method.parameters[0].type.toString(), 'dynamic');
  }

  void test_inferredType_methodReturnType_dynamic() {
    createLinker('''
class B {
  dynamic f() {}
}
class C extends B {
  f() {} // Inferred return type: dynamic
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    ClassElementForLink_Class cls = library.getContainedName('C');
    expect(cls.methods, hasLength(1));
    expect(cls.methods[0].returnType.toString(), 'dynamic');
  }

  void test_inferredType_methodReturnType_void() {
    createLinker('''
class B {
  void f() {}
}
class C extends B {
  f() {}
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    ClassElementForLink_Class cls = library.getContainedName('C');
    expect(cls.methods, hasLength(1));
    expect(cls.methods[0].returnType.toString(), 'void');
  }

  void test_inferredType_staticField_dynamic() {
    createLinker('''
dynamic x = null;
class C {
  static var y = x;
}
''');
    expect(
        _getVariable(linker
                .getLibrary(linkerInputs.testDartUri)
                .getContainedName('C')
                .getContainedName('y'))
            .inferredType
            .toString(),
        'dynamic');
  }

  void test_inferredType_topLevelVariable_dynamic() {
    createLinker('''
dynamic x = null;
var y = x;
''');
    expect(
        _getVariable(linker
                .getLibrary(linkerInputs.testDartUri)
                .getContainedName('y'))
            .inferredType
            .toString(),
        'dynamic');
  }

  void test_inferredTypeFromOutsideBuildUnit_dynamic() {
    var bundle = createPackageBundle(
        '''
var x;
var y = x; // Inferred type: dynamic
''',
        path: '/a.dart');
    addBundle('/a.ds', bundle);
    createLinker('''
import 'a.dart';
var z = y; // Inferred type: dynamic
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    expect(_getVariable(library.getContainedName('z')).inferredType.toString(),
        'dynamic');
  }

  void test_inferredTypeFromOutsideBuildUnit_instanceField() {
    var bundle = createPackageBundle(
        '''
class C {
  var f = 0; // Inferred type: int
}
''',
        path: '/a.dart');
    addBundle('/a.ds', bundle);
    createLinker('''
import 'a.dart';
var x = new C().f; // Inferred type: dynamic
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    expect(_getVariable(library.getContainedName('x')).inferredType.toString(),
        'dynamic');
  }

  void test_inferredTypeFromOutsideBuildUnit_instanceField_toInstanceField() {
    var bundle = createPackageBundle(
        '''
class C {
  var f = 0; // Inferred type: int
}
''',
        path: '/a.dart');
    addBundle('/a.ds', bundle);
    createLinker('''
import 'a.dart';
class D {
  var g = new C().f; // Inferred type: dynamic
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    ClassElementForLink_Class classD = library.getContainedName('D');
    expect(classD.fields[0].inferredType.toString(), 'dynamic');
  }

  void test_inferredTypeFromOutsideBuildUnit_methodParamType_viaInheritance() {
    var bundle = createPackageBundle(
        '''
class B {
  void f(int i) {}
}
class C extends B {
  f(i) {} // Inferred param type: int
}
''',
        path: '/a.dart');
    addBundle('/a.ds', bundle);
    createLinker('''
import 'a.dart';
class D extends C {
  f(i) {} // Inferred param type: int
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    ClassElementForLink_Class cls = library.getContainedName('D');
    expect(cls.methods, hasLength(1));
    var method = cls.methods[0];
    expect(method.parameters, hasLength(1));
    expect(method.parameters[0].type.toString(), 'int');
  }

  void test_inferredTypeFromOutsideBuildUnit_methodReturnType_viaCall() {
    var bundle = createPackageBundle(
        '''
class B {
  int f() => 0;
}
class C extends B {
  f() => 1; // Inferred return type: int
}
''',
        path: '/a.dart');
    addBundle('/a.ds', bundle);
    createLinker('''
import 'a.dart';
var x = new C().f(); // Inferred type: int
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    expect(_getVariable(library.getContainedName('x')).inferredType.toString(),
        'int');
  }

  void test_inferredTypeFromOutsideBuildUnit_methodReturnType_viaInheritance() {
    var bundle = createPackageBundle(
        '''
class B {
  int f() => 0;
}
class C extends B {
  f() => 1; // Inferred return type: int
}
''',
        path: '/a.dart');
    addBundle('/a.ds', bundle);
    createLinker('''
import 'a.dart';
class D extends C {
  f() => 2; //Inferred return type: int
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    ClassElementForLink_Class cls = library.getContainedName('D');
    expect(cls.methods, hasLength(1));
    expect(cls.methods[0].returnType.toString(), 'int');
  }

  void test_inferredTypeFromOutsideBuildUnit_staticField() {
    var bundle =
        createPackageBundle('class C { static var f = 0; }', path: '/a.dart');
    addBundle('/a.ds', bundle);
    createLinker('import "a.dart"; var x = C.f;', path: '/b.dart');
    expect(
        _getVariable(linker
                .getLibrary(linkerInputs.testDartUri)
                .getContainedName('x'))
            .inferredType
            .toString(),
        'int');
  }

  void test_inferredTypeFromOutsideBuildUnit_topLevelVariable() {
    var bundle = createPackageBundle('var a = 0;', path: '/a.dart');
    addBundle('/a.ds', bundle);
    createLinker('import "a.dart"; var b = a;', path: '/b.dart');
    expect(
        _getVariable(linker
                .getLibrary(linkerInputs.testDartUri)
                .getContainedName('b'))
            .inferredType
            .toString(),
        'int');
  }

  void test_instantiate_param_of_param_to_bounds() {
    createLinker('''
class C<T> {}
class D<T extends num> {}
final x = new C<D>();
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    PropertyAccessorElementForLink_Variable x = library.getContainedName('x');
    ParameterizedType type1 = x.returnType;
    expect(type1.element.name, 'C');
    expect(type1.typeArguments, hasLength(1));
    ParameterizedType type2 = type1.typeArguments[0];
    expect(type2.element.name, 'D');
    expect(type2.typeArguments, hasLength(1));
    DartType type3 = type2.typeArguments[0];
    expect(type3.toString(), 'num');
  }

  void test_instantiate_param_to_bounds_class() {
    createLinker('''
class C<T extends num> {}
final x = new C();
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    PropertyAccessorElementForLink_Variable x = library.getContainedName('x');
    ParameterizedType type1 = x.returnType;
    expect(type1.element.name, 'C');
    expect(type1.typeArguments, hasLength(1));
    DartType type2 = type1.typeArguments[0];
    expect(type2.toString(), 'num');
  }

  void test_instantiate_param_to_bounds_typedef() {
    createLinker('''
typedef T F<T extends num>();
final x = new List<F>();
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    PropertyAccessorElementForLink_Variable x = library.getContainedName('x');
    ParameterizedType type1 = x.returnType;
    expect(type1.element.name, 'List');
    expect(type1.typeArguments, hasLength(1));
    FunctionType type2 = type1.typeArguments[0];
    expect(type2.element.name, 'F');
    expect(type2.returnType.toString(), 'num');
  }

  void test_leastUpperBound_functionAndClass() {
    createLinker('''
class C {}
void f() {}
var x = {
  'C': C,
  'f': f
};
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    // No assertions--just make sure it doesn't crash.
  }

  void test_libraryCycle_ignoresDependenciesOutsideBuildUnit() {
    createLinker('import "dart:async";');
    LibraryCycleForLink libraryCycle = testLibrary.libraryCycleForLink;
    expect(libraryCycle.dependencies, isEmpty);
    expect(libraryCycle.libraries, [testLibrary]);
  }

  void test_libraryCycle_linkEnsuresDependenciesLinked() {
    addNamedSource('/a.dart', 'import "b.dart";');
    addNamedSource('/b.dart', '');
    addNamedSource('/c.dart', '');
    createLinker('import "a.dart"; import "c.dart";');
    LibraryElementForLink libA = getLibrary('file:///a.dart');
    LibraryElementForLink libB = getLibrary('file:///b.dart');
    LibraryElementForLink libC = getLibrary('file:///c.dart');
    expect(libA.libraryCycleForLink.node.isEvaluated, isFalse);
    expect(libB.libraryCycleForLink.node.isEvaluated, isFalse);
    expect(libC.libraryCycleForLink.node.isEvaluated, isFalse);
    libA.libraryCycleForLink.ensureLinked();
    expect(libA.libraryCycleForLink.node.isEvaluated, isTrue);
    expect(libB.libraryCycleForLink.node.isEvaluated, isTrue);
    expect(libC.libraryCycleForLink.node.isEvaluated, isFalse);
  }

  void test_libraryCycle_nontrivial() {
    addNamedSource('/a.dart', 'import "b.dart";');
    addNamedSource('/b.dart', 'import "a.dart";');
    createLinker('');
    LibraryElementForLink libA = getLibrary('file:///a.dart');
    LibraryElementForLink libB = getLibrary('file:///b.dart');
    LibraryCycleForLink libraryCycle = libA.libraryCycleForLink;
    expect(libB.libraryCycleForLink, same(libraryCycle));
    expect(libraryCycle.dependencies, isEmpty);
    expect(libraryCycle.libraries, unorderedEquals([libA, libB]));
  }

  void test_libraryCycle_nontrivial_dependencies() {
    addNamedSource('/a.dart', '');
    addNamedSource('/b.dart', '');
    addNamedSource('/c.dart', 'import "a.dart"; import "d.dart";');
    addNamedSource('/d.dart', 'import "b.dart"; import "c.dart";');
    createLinker('');
    LibraryElementForLink libA = getLibrary('file:///a.dart');
    LibraryElementForLink libB = getLibrary('file:///b.dart');
    LibraryElementForLink libC = getLibrary('file:///c.dart');
    LibraryElementForLink libD = getLibrary('file:///d.dart');
    LibraryCycleForLink libraryCycle = libC.libraryCycleForLink;
    expect(libD.libraryCycleForLink, same(libraryCycle));
    expect(libraryCycle.dependencies,
        unorderedEquals([libA.libraryCycleForLink, libB.libraryCycleForLink]));
    expect(libraryCycle.libraries, unorderedEquals([libC, libD]));
  }

  void test_libraryCycle_nontrivial_via_export() {
    addNamedSource('/a.dart', 'export "b.dart";');
    addNamedSource('/b.dart', 'export "a.dart";');
    createLinker('');
    LibraryElementForLink libA = getLibrary('file:///a.dart');
    LibraryElementForLink libB = getLibrary('file:///b.dart');
    LibraryCycleForLink libraryCycle = libA.libraryCycleForLink;
    expect(libB.libraryCycleForLink, same(libraryCycle));
    expect(libraryCycle.dependencies, isEmpty);
    expect(libraryCycle.libraries, unorderedEquals([libA, libB]));
  }

  void test_libraryCycle_trivial() {
    createLinker('');
    LibraryCycleForLink libraryCycle = testLibrary.libraryCycleForLink;
    expect(libraryCycle.dependencies, isEmpty);
    expect(libraryCycle.libraries, [testLibrary]);
  }

  void test_libraryCycle_trivial_dependencies() {
    addNamedSource('/a.dart', '');
    addNamedSource('/b.dart', '');
    createLinker('import "a.dart"; import "b.dart";');
    LibraryElementForLink libA = getLibrary('file:///a.dart');
    LibraryElementForLink libB = getLibrary('file:///b.dart');
    LibraryCycleForLink libraryCycle = testLibrary.libraryCycleForLink;
    expect(libraryCycle.dependencies,
        unorderedEquals([libA.libraryCycleForLink, libB.libraryCycleForLink]));
    expect(libraryCycle.libraries, [testLibrary]);
  }

  void test_malformed_function_reference() {
    // Create a corrupted package bundle in which the inferred type of `x`
    // refers to a non-existent local function.
    var bundle = createPackageBundle('var x = () {}', path: '/a.dart');
    expect(bundle.linkedLibraries, hasLength(1));
    expect(bundle.linkedLibraries[0].units, hasLength(1));
    for (LinkedReferenceBuilder ref
        in bundle.linkedLibraries[0].units[0].references) {
      if (ref.kind == ReferenceKind.function) {
        ref.localIndex = 1234;
      }
    }
    addBundle('/a.ds', bundle);
    createLinker('''
import 'a.dart';
var y = x;
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    expect(_getVariable(library.getContainedName('y')).inferredType.toString(),
        'dynamic');
  }

  @failingTest
  void test_methodCall_withTypeArguments_topLevelVariable() {
    // The following code is incorrect but it shouldn't crash analyzer.
    // TODO(paulberry): fix this.
    createLinker('var f = f/*<int>*/();');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
  }

  void test_multiplyInheritedExecutable_differentSignatures() {
    createLinker('''
class B {
  void f() {}
}
abstract class I {
   f();
}
class C extends B with I {}
class D extends C {
  void f() {}
}
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    library.libraryCycleForLink.ensureLinked();
    // No assertions--just make sure it doesn't crash.
  }

  void test_parameterParentElementForLink_implicitFunctionTypeIndices() {
    createLinker('void f(a, void g(b, c, d, void h())) {}');
    TopLevelFunctionElementForLink f = testLibrary.getContainedName('f');
    expect(f.implicitFunctionTypeIndices, []);
    ParameterElementForLink g = f.parameters[1];
    FunctionType gType = g.type;
    FunctionElementForLink_FunctionTypedParam gTypeElement = gType.element;
    expect(gTypeElement.implicitFunctionTypeIndices, [1]);
    ParameterElementForLink h = gTypeElement.parameters[3];
    FunctionType hType = h.type;
    FunctionElementForLink_FunctionTypedParam hTypeElement = hType.element;
    expect(hTypeElement.implicitFunctionTypeIndices, [1, 3]);
  }

  void test_parameterParentElementForLink_innermostExecutable() {
    createLinker('void f(void g(void h())) {}');
    TopLevelFunctionElementForLink f = testLibrary.getContainedName('f');
    expect(f.typeParameterContext, same(f));
    ParameterElementForLink g = f.parameters[0];
    FunctionType gType = g.type;
    FunctionElementForLink_FunctionTypedParam gTypeElement = gType.element;
    expect(gTypeElement.typeParameterContext, same(f));
    ParameterElementForLink h = gTypeElement.parameters[0];
    FunctionType hType = h.type;
    FunctionElementForLink_FunctionTypedParam hTypeElement = hType.element;
    expect(hTypeElement.typeParameterContext, same(f));
  }

  void test_topLevelFunction_isStatic() {
    createLinker('f() {}');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    TopLevelFunctionElementForLink f = library.getContainedName('f');
    expect(f.isStatic, true);
  }

  void test_topLevelGetter_isStatic() {
    createLinker('get x => null;');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    PropertyAccessorElementForLink_Executable x = library.getContainedName('x');
    expect(x.isStatic, true);
  }

  void test_topLevelSetter_isStatic() {
    createLinker('void set x(value) {}');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    PropertyAccessorElementForLink_Executable x =
        library.getContainedName('x=');
    expect(x.isStatic, true);
  }

  void test_topLevelVariable_isStatic() {
    createLinker('var x;');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    PropertyAccessorElementForLink_Variable x = library.getContainedName('x');
    expect(x.isStatic, true);
    expect(x.variable.isStatic, true);
  }

  void test_typeParameter_isTypeParameterInScope_direct() {
    createLinker('class C<T, U> {}');
    ClassElementForLink_Class c = testLibrary.getContainedName('C');
    TypeParameterElementImpl t = c.typeParameters[0];
    TypeParameterElementImpl u = c.typeParameters[1];
    expect(c.isTypeParameterInScope(t), true);
    expect(c.isTypeParameterInScope(u), true);
  }

  void test_typeParameter_isTypeParameterInScope_indirect() {
    createLinker('class C<T, U> { f<V, W>() {} }');
    ClassElementForLink_Class c = testLibrary.getContainedName('C');
    MethodElementForLink f = c.methods[0];
    TypeParameterElementImpl t = c.typeParameters[0];
    TypeParameterElementImpl u = c.typeParameters[1];
    expect(f.isTypeParameterInScope(t), true);
    expect(f.isTypeParameterInScope(u), true);
  }

  void test_typeParameter_isTypeParameterInScope_reversed() {
    createLinker('class C<T, U> { f<V, W>() {} }');
    ClassElementForLink_Class c = testLibrary.getContainedName('C');
    MethodElementForLink f = c.methods[0];
    TypeParameterElementImpl v = f.typeParameters[0];
    TypeParameterElementImpl w = f.typeParameters[1];
    expect(c.isTypeParameterInScope(v), false);
    expect(c.isTypeParameterInScope(w), false);
  }

  void test_typeParameter_isTypeParameterInScope_unrelated() {
    createLinker('class C<T, U> {} class D<V, W> {}');
    ClassElementForLink_Class c = testLibrary.getContainedName('C');
    ClassElementForLink_Class d = testLibrary.getContainedName('D');
    TypeParameterElementImpl t = c.typeParameters[0];
    TypeParameterElementImpl u = c.typeParameters[1];
    TypeParameterElementImpl v = d.typeParameters[0];
    TypeParameterElementImpl w = d.typeParameters[1];
    expect(c.isTypeParameterInScope(v), false);
    expect(c.isTypeParameterInScope(w), false);
    expect(d.isTypeParameterInScope(t), false);
    expect(d.isTypeParameterInScope(u), false);
  }

  void test_variable_initializer_presence() {
    // Any variable declaration with an initializer should have a non-null value
    // for `initializer`, regardless of whether it is constant and regardless of
    // whether it has an explicit type.
    createLinker('''
const int c = 0;
int i = 0;
int j;
var v = 0;
''');
    LibraryElementForLink library = linker.getLibrary(linkerInputs.testDartUri);
    PropertyAccessorElementForLink_Variable c = library.getContainedName('c');
    expect(c.variable.initializer, isNotNull);
    PropertyAccessorElementForLink_Variable i = library.getContainedName('i');
    expect(i.variable.initializer, isNotNull);
    PropertyAccessorElementForLink_Variable j = library.getContainedName('j');
    expect(j.variable.initializer, isNull);
    PropertyAccessorElementForLink_Variable v = library.getContainedName('v');
    expect(v.variable.initializer, isNotNull);
  }

  VariableElementForLink _getVariable(ReferenceableElementForLink element) {
    return (element as PropertyAccessorElementForLink_Variable).variable;
  }

  /**
   * Finds the first inferred type stored in [unit] whose slot matches [slot].
   */
  EntityRef _lookupInferredType(LinkedUnit unit, int slot) {
    for (EntityRef ref in unit.types) {
      if (ref.slot == slot) {
        return ref;
      }
    }
    return null;
  }
}