pkg/analyzer/test/src/summary/resynthesize_ast_test.dart - sdk - Git at Google

 // 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 'dart:async';

 import 'package:analyzer/dart/ast/ast.dart';
 import 'package:analyzer/dart/element/element.dart';
 import 'package:analyzer/error/error.dart';
 import 'package:analyzer/src/dart/element/element.dart';
 import 'package:analyzer/src/generated/engine.dart'
     show AnalysisContext, AnalysisOptionsImpl;
 import 'package:analyzer/src/generated/sdk.dart';
 import 'package:analyzer/src/generated/source.dart';
 import 'package:analyzer/src/summary/format.dart';
 import 'package:analyzer/src/summary/idl.dart';
 import 'package:analyzer/src/summary/link.dart';
 import 'package:analyzer/src/summary/prelink.dart';
 import 'package:analyzer/src/summary/resynthesize.dart';
 import 'package:analyzer/src/summary/summarize_ast.dart';
 import 'package:analyzer/src/summary/summarize_elements.dart'
     show PackageBundleAssembler;
 import 'package:analyzer/src/task/api/dart.dart' show PARSED_UNIT;
 import 'package:analyzer/src/task/api/general.dart';
 import 'package:test/test.dart';
 import 'package:test_reflective_loader/test_reflective_loader.dart';

 import '../context/abstract_context.dart';
 import 'element_text.dart';
 import 'resynthesize_common.dart';
 import 'test_strategies.dart';

 main() {
   defineReflectiveSuite(() {
     defineReflectiveTests(ResynthesizeAstStrongTest);
     defineReflectiveTests(ApplyCheckElementTextReplacements);
   });
 }

 @reflectiveTest
 class ApplyCheckElementTextReplacements {
   test_applyReplacements() {
     applyCheckElementTextReplacements();
   }
 }

 /// Mixin for serializing ASTs during testing.
 abstract class AstSerializeTestMixin
     implements _AstSerializeTestMixinInterface {
   final Set<Source> serializedSources = new Set<Source>();
   PackageBundleAssembler bundleAssembler = new PackageBundleAssembler();
   final Map<String, UnlinkedUnitBuilder> uriToUnit =
       <String, UnlinkedUnitBuilder>{};

   AnalysisContext get context;

   TestSummaryResynthesizer encodeLibrary(Source source) {
     _serializeLibrary(source);

     PackageBundle bundle =
         new PackageBundle.fromBuffer(bundleAssembler.assemble().toBuffer());

     Map<String, UnlinkedUnit> unlinkedSummaries = <String, UnlinkedUnit>{};
     for (int i = 0; i < bundle.unlinkedUnitUris.length; i++) {
       String uri = bundle.unlinkedUnitUris[i];
       unlinkedSummaries[uri] = bundle.unlinkedUnits[i];
     }

     LinkedLibrary getDependency(String absoluteUri) {
       Map<String, LinkedLibrary> sdkLibraries =
           SerializedMockSdk.instance.uriToLinkedLibrary;
       LinkedLibrary linkedLibrary = sdkLibraries[absoluteUri];
       if (linkedLibrary == null && !allowMissingFiles) {
         fail('Linker unexpectedly requested LinkedLibrary for "$absoluteUri".'
             '  Libraries available: ${sdkLibraries.keys}');
       }
       return linkedLibrary;
     }

     UnlinkedUnit getUnit(String absoluteUri) {
       UnlinkedUnit unit = uriToUnit[absoluteUri] ??
           SerializedMockSdk.instance.uriToUnlinkedUnit[absoluteUri];
       if (unit == null && !allowMissingFiles) {
         fail('Linker unexpectedly requested unit for "$absoluteUri".');
       }
       return unit;
     }

     Set<String> nonSdkLibraryUris = serializedSources
         .where((Source source) =>
             !source.isInSystemLibrary &&
             context.computeKindOf(source) == SourceKind.LIBRARY)
         .map((Source source) => source.uri.toString())
         .toSet();

     Map<String, LinkedLibrary> linkedSummaries = link(nonSdkLibraryUris,
         getDependency, getUnit, context.declaredVariables.get);

     return new TestSummaryResynthesizer(
         context,
         new Map<String, UnlinkedUnit>()
           ..addAll(SerializedMockSdk.instance.uriToUnlinkedUnit)
           ..addAll(unlinkedSummaries),
         new Map<String, LinkedLibrary>()
           ..addAll(SerializedMockSdk.instance.uriToLinkedLibrary)
           ..addAll(linkedSummaries),
         allowMissingFiles);
   }

   UnlinkedUnit _getUnlinkedUnit(Source source) {
     if (source == null) {
       return new UnlinkedUnitBuilder();
     }

     String uriStr = source.uri.toString();
     {
       UnlinkedUnit unlinkedUnitInSdk =
           SerializedMockSdk.instance.uriToUnlinkedUnit[uriStr];
       if (unlinkedUnitInSdk != null) {
         return unlinkedUnitInSdk;
       }
     }
     return uriToUnit.putIfAbsent(uriStr, () {
       int modificationTime = context.computeResult(source, MODIFICATION_TIME);
       if (modificationTime < 0) {
         // Source does not exist.
         if (!allowMissingFiles) {
           fail('Unexpectedly tried to get unlinked summary for $source');
         }
         return null;
       }
       CompilationUnit unit = context.computeResult(source, PARSED_UNIT);
       UnlinkedUnitBuilder unlinkedUnit = serializeAstUnlinked(unit);
       bundleAssembler.addUnlinkedUnit(source, unlinkedUnit);
       return unlinkedUnit;
     });
   }

   void _serializeLibrary(Source librarySource) {
     if (librarySource == null || librarySource.isInSystemLibrary) {
       return;
     }
     if (!serializedSources.add(librarySource)) {
       return;
     }

     UnlinkedUnit getPart(String absoluteUri) {
       Source source = context.sourceFactory.forUri(absoluteUri);
       return _getUnlinkedUnit(source);
     }

     UnlinkedPublicNamespace getImport(String relativeUri) {
       return getPart(relativeUri)?.publicNamespace;
     }

     UnlinkedUnit definingUnit = _getUnlinkedUnit(librarySource);
     if (definingUnit != null) {
       LinkedLibraryBuilder linkedLibrary = prelink(librarySource.uri.toString(),
           definingUnit, getPart, getImport, context.declaredVariables.get);
       linkedLibrary.dependencies.skip(1).forEach((LinkedDependency d) {
         Source source = context.sourceFactory.forUri(d.uri);
         _serializeLibrary(source);
       });
     }
   }
 }

 @reflectiveTest
 class ResynthesizeAstStrongTest extends _ResynthesizeAstTest {
   @failingTest // See dartbug.com/32290
   test_const_constructor_inferred_args() =>
       super.test_const_constructor_inferred_args();

   @failingTest // See dartbug.com/33441
   test_const_list_inferredType() => super.test_const_list_inferredType();

   @failingTest // See dartbug.com/33441
   test_const_map_inferredType() => super.test_const_map_inferredType();

   @override
   @failingTest
   test_syntheticFunctionType_genericClosure() async {
     await super.test_syntheticFunctionType_genericClosure();
   }

   @override
   @failingTest
   test_syntheticFunctionType_inGenericClass() async {
     await super.test_syntheticFunctionType_inGenericClass();
   }

   @override
   @failingTest
   test_syntheticFunctionType_noArguments() async {
     await super.test_syntheticFunctionType_noArguments();
   }

   @override
   @failingTest
   test_syntheticFunctionType_withArguments() async {
     await super.test_syntheticFunctionType_withArguments();
   }
 }

 /**
  * Abstract mixin for serializing ASTs and resynthesizing elements from it.
  */
 abstract class _AstResynthesizeTestMixin
     implements _AstSerializeTestMixinInterface {
   AnalysisContext get context;

   TestSummaryResynthesizer encodeLibrary(Source source);

   LibraryElementImpl _encodeDecodeLibraryElement(Source source) {
     SummaryResynthesizer resynthesizer = encodeLibrary(source);
     return resynthesizer.getLibraryElement(source.uri.toString());
   }
 }

 /**
  * Interface that [_AstSerializeTestMixin] requires of classes it's mixed
  * into.  We can't place the getter below into [_AstSerializeTestMixin]
  * directly, because then it would be overriding a field at the site where the
  * mixin is instantiated.
  */
 abstract class _AstSerializeTestMixinInterface {
   /**
    * A test should return `true` to indicate that a missing file at the time of
    * summary resynthesis shouldn't trigger an error.
    */
   bool get allowMissingFiles;
 }

 abstract class _ResynthesizeAstTest extends ResynthesizeTest
     with _AstResynthesizeTestMixin, AstSerializeTestMixin {
   bool get shouldCompareLibraryElements;

   @override
   Future<LibraryElementImpl> checkLibrary(String text,
       {bool allowErrors: false, bool dumpSummaries: false}) async {
     Source source = addTestSource(text);
     LibraryElementImpl resynthesized = _encodeDecodeLibraryElement(source);
     LibraryElementImpl original = context.computeLibraryElement(source);
     if (!allowErrors) {
       List<AnalysisError> errors = context.computeErrors(source);
       if (errors.where((e) => e.message.startsWith('unused')).isNotEmpty) {
         fail('Analysis errors: $errors');
       }
     }
     if (shouldCompareLibraryElements) {
       checkLibraryElements(original, resynthesized);
     }
     return resynthesized;
   }

   @override
   DartSdk createDartSdk() => AbstractContextTest.SHARED_MOCK_SDK;

   @override
   AnalysisOptionsImpl createOptions() {
     return super.createOptions()
       ..previewDart2 = true
       ..isMixinSupportEnabled = true;
   }

   test_getElement_constructor_named() async {
     String text = 'class C { C.named(); }';
     Source source = addLibrarySource('/test.dart', text);
     ConstructorElement original = context
         .computeLibraryElement(source)
         .getType('C')
         .getNamedConstructor('named');
     expect(original, isNotNull);
     ConstructorElement resynthesized = _validateGetElement(text, original);
     compareConstructorElements(resynthesized, original, 'C.constructor named');
   }

   test_getElement_constructor_unnamed() async {
     String text = 'class C { C(); }';
     Source source = addLibrarySource('/test.dart', text);
     ConstructorElement original =
         context.computeLibraryElement(source).getType('C').unnamedConstructor;
     expect(original, isNotNull);
     ConstructorElement resynthesized = _validateGetElement(text, original);
     compareConstructorElements(resynthesized, original, 'C.constructor');
   }

   test_getElement_field() async {
     String text = 'class C { var f; }';
     Source source = addLibrarySource('/test.dart', text);
     FieldElement original =
         context.computeLibraryElement(source).getType('C').getField('f');
     expect(original, isNotNull);
     FieldElement resynthesized = _validateGetElement(text, original);
     compareFieldElements(resynthesized, original, 'C.field f');
   }

   test_getElement_getter() async {
     String text = 'class C { get f => null; }';
     Source source = addLibrarySource('/test.dart', text);
     PropertyAccessorElement original =
         context.computeLibraryElement(source).getType('C').getGetter('f');
     expect(original, isNotNull);
     PropertyAccessorElement resynthesized = _validateGetElement(text, original);
     comparePropertyAccessorElements(resynthesized, original, 'C.getter f');
   }

   test_getElement_method() async {
     String text = 'class C { f() {} }';
     Source source = addLibrarySource('/test.dart', text);
     MethodElement original =
         context.computeLibraryElement(source).getType('C').getMethod('f');
     expect(original, isNotNull);
     MethodElement resynthesized = _validateGetElement(text, original);
     compareMethodElements(resynthesized, original, 'C.method f');
   }

   test_getElement_operator() async {
     String text = 'class C { operator+(x) => null; }';
     Source source = addLibrarySource('/test.dart', text);
     MethodElement original =
         context.computeLibraryElement(source).getType('C').getMethod('+');
     expect(original, isNotNull);
     MethodElement resynthesized = _validateGetElement(text, original);
     compareMethodElements(resynthesized, original, 'C.operator+');
   }

   test_getElement_setter() async {
     String text = 'class C { void set f(value) {} }';
     Source source = addLibrarySource('/test.dart', text);
     PropertyAccessorElement original =
         context.computeLibraryElement(source).getType('C').getSetter('f');
     expect(original, isNotNull);
     PropertyAccessorElement resynthesized = _validateGetElement(text, original);
     comparePropertyAccessorElements(resynthesized, original, 'C.setter f');
   }

   test_getElement_unit() async {
     String text = 'class C { f() {} }';
     Source source = addLibrarySource('/test.dart', text);
     CompilationUnitElement original =
         context.computeLibraryElement(source).definingCompilationUnit;
     expect(original, isNotNull);
     CompilationUnitElement resynthesized = _validateGetElement(text, original);
     compareCompilationUnitElements(resynthesized, original);
   }

   /**
    * Encode the library containing [original] into a summary and then use
    * [TestSummaryResynthesizer.getElement] to retrieve just the original
    * element from the resynthesized summary.
    */
   Element _validateGetElement(String text, Element original) {
     SummaryResynthesizer resynthesizer = encodeLibrary(original.library.source);
     ElementLocationImpl location = original.location;
     Element result = resynthesizer.getElement(location);
     checkMinimalResynthesisWork(resynthesizer, original.library);
     // Check that no other summaries needed to be resynthesized to resynthesize
     // the library element.
     expect(resynthesizer.resynthesisCount, 3);
     expect(result.location, location);
     return result;
   }
 }
	// 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 'dart:async';

	import 'package:analyzer/dart/ast/ast.dart';
	import 'package:analyzer/dart/element/element.dart';
	import 'package:analyzer/error/error.dart';
	import 'package:analyzer/src/dart/element/element.dart';
	import 'package:analyzer/src/generated/engine.dart'
	show AnalysisContext, AnalysisOptionsImpl;
	import 'package:analyzer/src/generated/sdk.dart';
	import 'package:analyzer/src/generated/source.dart';
	import 'package:analyzer/src/summary/format.dart';
	import 'package:analyzer/src/summary/idl.dart';
	import 'package:analyzer/src/summary/link.dart';
	import 'package:analyzer/src/summary/prelink.dart';
	import 'package:analyzer/src/summary/resynthesize.dart';
	import 'package:analyzer/src/summary/summarize_ast.dart';
	import 'package:analyzer/src/summary/summarize_elements.dart'
	show PackageBundleAssembler;
	import 'package:analyzer/src/task/api/dart.dart' show PARSED_UNIT;
	import 'package:analyzer/src/task/api/general.dart';
	import 'package:test/test.dart';
	import 'package:test_reflective_loader/test_reflective_loader.dart';

	import '../context/abstract_context.dart';
	import 'element_text.dart';
	import 'resynthesize_common.dart';
	import 'test_strategies.dart';

	main() {
	defineReflectiveSuite(() {
	defineReflectiveTests(ResynthesizeAstStrongTest);
	defineReflectiveTests(ApplyCheckElementTextReplacements);
	});
	}

	@reflectiveTest
	class ApplyCheckElementTextReplacements {
	test_applyReplacements() {
	applyCheckElementTextReplacements();
	}
	}

	/// Mixin for serializing ASTs during testing.
	abstract class AstSerializeTestMixin
	implements _AstSerializeTestMixinInterface {
	final Set<Source> serializedSources = new Set<Source>();
	PackageBundleAssembler bundleAssembler = new PackageBundleAssembler();
	final Map<String, UnlinkedUnitBuilder> uriToUnit =
	<String, UnlinkedUnitBuilder>{};

	AnalysisContext get context;

	TestSummaryResynthesizer encodeLibrary(Source source) {
	_serializeLibrary(source);

	PackageBundle bundle =
	new PackageBundle.fromBuffer(bundleAssembler.assemble().toBuffer());

	Map<String, UnlinkedUnit> unlinkedSummaries = <String, UnlinkedUnit>{};
	for (int i = 0; i < bundle.unlinkedUnitUris.length; i++) {
	String uri = bundle.unlinkedUnitUris[i];
	unlinkedSummaries[uri] = bundle.unlinkedUnits[i];
	}

	LinkedLibrary getDependency(String absoluteUri) {
	Map<String, LinkedLibrary> sdkLibraries =
	SerializedMockSdk.instance.uriToLinkedLibrary;
	LinkedLibrary linkedLibrary = sdkLibraries[absoluteUri];
	if (linkedLibrary == null && !allowMissingFiles) {
	fail('Linker unexpectedly requested LinkedLibrary for "$absoluteUri".'
	' Libraries available: ${sdkLibraries.keys}');
	}
	return linkedLibrary;
	}

	UnlinkedUnit getUnit(String absoluteUri) {
	UnlinkedUnit unit = uriToUnit[absoluteUri] ??
	SerializedMockSdk.instance.uriToUnlinkedUnit[absoluteUri];
	if (unit == null && !allowMissingFiles) {
	fail('Linker unexpectedly requested unit for "$absoluteUri".');
	}
	return unit;
	}

	Set<String> nonSdkLibraryUris = serializedSources
	.where((Source source) =>
	!source.isInSystemLibrary &&
	context.computeKindOf(source) == SourceKind.LIBRARY)
	.map((Source source) => source.uri.toString())
	.toSet();

	Map<String, LinkedLibrary> linkedSummaries = link(nonSdkLibraryUris,
	getDependency, getUnit, context.declaredVariables.get);

	return new TestSummaryResynthesizer(
	context,
	new Map<String, UnlinkedUnit>()
	..addAll(SerializedMockSdk.instance.uriToUnlinkedUnit)
	..addAll(unlinkedSummaries),
	new Map<String, LinkedLibrary>()
	..addAll(SerializedMockSdk.instance.uriToLinkedLibrary)
	..addAll(linkedSummaries),
	allowMissingFiles);
	}

	UnlinkedUnit _getUnlinkedUnit(Source source) {
	if (source == null) {
	return new UnlinkedUnitBuilder();
	}

	String uriStr = source.uri.toString();
	{
	UnlinkedUnit unlinkedUnitInSdk =
	SerializedMockSdk.instance.uriToUnlinkedUnit[uriStr];
	if (unlinkedUnitInSdk != null) {
	return unlinkedUnitInSdk;
	}
	}
	return uriToUnit.putIfAbsent(uriStr, () {
	int modificationTime = context.computeResult(source, MODIFICATION_TIME);
	if (modificationTime < 0) {
	// Source does not exist.
	if (!allowMissingFiles) {
	fail('Unexpectedly tried to get unlinked summary for $source');
	}
	return null;
	}
	CompilationUnit unit = context.computeResult(source, PARSED_UNIT);
	UnlinkedUnitBuilder unlinkedUnit = serializeAstUnlinked(unit);
	bundleAssembler.addUnlinkedUnit(source, unlinkedUnit);
	return unlinkedUnit;
	});
	}

	void _serializeLibrary(Source librarySource) {
	if (librarySource == null \|\| librarySource.isInSystemLibrary) {
	return;
	}
	if (!serializedSources.add(librarySource)) {
	return;
	}

	UnlinkedUnit getPart(String absoluteUri) {
	Source source = context.sourceFactory.forUri(absoluteUri);
	return _getUnlinkedUnit(source);
	}

	UnlinkedPublicNamespace getImport(String relativeUri) {
	return getPart(relativeUri)?.publicNamespace;
	}

	UnlinkedUnit definingUnit = _getUnlinkedUnit(librarySource);
	if (definingUnit != null) {
	LinkedLibraryBuilder linkedLibrary = prelink(librarySource.uri.toString(),
	definingUnit, getPart, getImport, context.declaredVariables.get);
	linkedLibrary.dependencies.skip(1).forEach((LinkedDependency d) {
	Source source = context.sourceFactory.forUri(d.uri);
	_serializeLibrary(source);
	});
	}
	}
	}

	@reflectiveTest
	class ResynthesizeAstStrongTest extends _ResynthesizeAstTest {
	@failingTest // See dartbug.com/32290
	test_const_constructor_inferred_args() =>
	super.test_const_constructor_inferred_args();

	@failingTest // See dartbug.com/33441
	test_const_list_inferredType() => super.test_const_list_inferredType();

	@failingTest // See dartbug.com/33441
	test_const_map_inferredType() => super.test_const_map_inferredType();

	@override
	@failingTest
	test_syntheticFunctionType_genericClosure() async {
	await super.test_syntheticFunctionType_genericClosure();
	}

	@override
	@failingTest
	test_syntheticFunctionType_inGenericClass() async {
	await super.test_syntheticFunctionType_inGenericClass();
	}

	@override
	@failingTest
	test_syntheticFunctionType_noArguments() async {
	await super.test_syntheticFunctionType_noArguments();
	}

	@override
	@failingTest
	test_syntheticFunctionType_withArguments() async {
	await super.test_syntheticFunctionType_withArguments();
	}
	}

	/**
	* Abstract mixin for serializing ASTs and resynthesizing elements from it.
	*/
	abstract class _AstResynthesizeTestMixin
	implements _AstSerializeTestMixinInterface {
	AnalysisContext get context;

	TestSummaryResynthesizer encodeLibrary(Source source);

	LibraryElementImpl _encodeDecodeLibraryElement(Source source) {
	SummaryResynthesizer resynthesizer = encodeLibrary(source);
	return resynthesizer.getLibraryElement(source.uri.toString());
	}
	}

	/**
	* Interface that [_AstSerializeTestMixin] requires of classes it's mixed
	* into. We can't place the getter below into [_AstSerializeTestMixin]
	* directly, because then it would be overriding a field at the site where the
	* mixin is instantiated.
	*/
	abstract class _AstSerializeTestMixinInterface {
	/**
	* A test should return `true` to indicate that a missing file at the time of
	* summary resynthesis shouldn't trigger an error.
	*/
	bool get allowMissingFiles;
	}

	abstract class _ResynthesizeAstTest extends ResynthesizeTest
	with _AstResynthesizeTestMixin, AstSerializeTestMixin {
	bool get shouldCompareLibraryElements;

	@override
	Future<LibraryElementImpl> checkLibrary(String text,
	{bool allowErrors: false, bool dumpSummaries: false}) async {
	Source source = addTestSource(text);
	LibraryElementImpl resynthesized = _encodeDecodeLibraryElement(source);
	LibraryElementImpl original = context.computeLibraryElement(source);
	if (!allowErrors) {
	List<AnalysisError> errors = context.computeErrors(source);
	if (errors.where((e) => e.message.startsWith('unused')).isNotEmpty) {
	fail('Analysis errors: $errors');
	}
	}
	if (shouldCompareLibraryElements) {
	checkLibraryElements(original, resynthesized);
	}
	return resynthesized;
	}

	@override
	DartSdk createDartSdk() => AbstractContextTest.SHARED_MOCK_SDK;

	@override
	AnalysisOptionsImpl createOptions() {
	return super.createOptions()
	..previewDart2 = true
	..isMixinSupportEnabled = true;
	}

	test_getElement_constructor_named() async {
	String text = 'class C { C.named(); }';
	Source source = addLibrarySource('/test.dart', text);
	ConstructorElement original = context
	.computeLibraryElement(source)
	.getType('C')
	.getNamedConstructor('named');
	expect(original, isNotNull);
	ConstructorElement resynthesized = _validateGetElement(text, original);
	compareConstructorElements(resynthesized, original, 'C.constructor named');
	}

	test_getElement_constructor_unnamed() async {
	String text = 'class C { C(); }';
	Source source = addLibrarySource('/test.dart', text);
	ConstructorElement original =
	context.computeLibraryElement(source).getType('C').unnamedConstructor;
	expect(original, isNotNull);
	ConstructorElement resynthesized = _validateGetElement(text, original);
	compareConstructorElements(resynthesized, original, 'C.constructor');
	}

	test_getElement_field() async {
	String text = 'class C { var f; }';
	Source source = addLibrarySource('/test.dart', text);
	FieldElement original =
	context.computeLibraryElement(source).getType('C').getField('f');
	expect(original, isNotNull);
	FieldElement resynthesized = _validateGetElement(text, original);
	compareFieldElements(resynthesized, original, 'C.field f');
	}

	test_getElement_getter() async {
	String text = 'class C { get f => null; }';
	Source source = addLibrarySource('/test.dart', text);
	PropertyAccessorElement original =
	context.computeLibraryElement(source).getType('C').getGetter('f');
	expect(original, isNotNull);
	PropertyAccessorElement resynthesized = _validateGetElement(text, original);
	comparePropertyAccessorElements(resynthesized, original, 'C.getter f');
	}

	test_getElement_method() async {
	String text = 'class C { f() {} }';
	Source source = addLibrarySource('/test.dart', text);
	MethodElement original =
	context.computeLibraryElement(source).getType('C').getMethod('f');
	expect(original, isNotNull);
	MethodElement resynthesized = _validateGetElement(text, original);
	compareMethodElements(resynthesized, original, 'C.method f');
	}

	test_getElement_operator() async {
	String text = 'class C { operator+(x) => null; }';
	Source source = addLibrarySource('/test.dart', text);
	MethodElement original =
	context.computeLibraryElement(source).getType('C').getMethod('+');
	expect(original, isNotNull);
	MethodElement resynthesized = _validateGetElement(text, original);
	compareMethodElements(resynthesized, original, 'C.operator+');
	}

	test_getElement_setter() async {
	String text = 'class C { void set f(value) {} }';
	Source source = addLibrarySource('/test.dart', text);
	PropertyAccessorElement original =
	context.computeLibraryElement(source).getType('C').getSetter('f');
	expect(original, isNotNull);
	PropertyAccessorElement resynthesized = _validateGetElement(text, original);
	comparePropertyAccessorElements(resynthesized, original, 'C.setter f');
	}

	test_getElement_unit() async {
	String text = 'class C { f() {} }';
	Source source = addLibrarySource('/test.dart', text);
	CompilationUnitElement original =
	context.computeLibraryElement(source).definingCompilationUnit;
	expect(original, isNotNull);
	CompilationUnitElement resynthesized = _validateGetElement(text, original);
	compareCompilationUnitElements(resynthesized, original);
	}

	/**
	* Encode the library containing [original] into a summary and then use
	* [TestSummaryResynthesizer.getElement] to retrieve just the original
	* element from the resynthesized summary.
	*/
	Element _validateGetElement(String text, Element original) {
	SummaryResynthesizer resynthesizer = encodeLibrary(original.library.source);
	ElementLocationImpl location = original.location;
	Element result = resynthesizer.getElement(location);
	checkMinimalResynthesisWork(resynthesizer, original.library);
	// Check that no other summaries needed to be resynthesized to resynthesize
	// the library element.
	expect(resynthesizer.resynthesisCount, 3);
	expect(result.location, location);
	return result;
	}
	}