pkg/kernel/test/metadata_test.dart - sdk - Git at Google

 // Copyright (c) 2017, 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:convert';
 import 'dart:io';

 import 'package:kernel/ast.dart';
 import 'package:kernel/binary/ast_from_binary.dart';
 import 'package:kernel/binary/ast_to_binary.dart';
 import 'package:kernel/text/ast_to_text.dart';
 import 'package:test/test.dart';
 import 'package:front_end/src/compute_platform_binaries_location.dart'
     show computePlatformBinariesLocation;

 /// Test metadata: to each node we attach a metadata that contains
 /// * node formatted as string
 /// * reference to its enclosing member
 /// * type representing the first type parameter of its enclosing function
 class Metadata {
   final String string;
   final Reference _memberRef;
   final DartType type;

   Member get member => _memberRef?.asMember;

   Metadata.forNode(TreeNode n)
       : this(n.toString(), getMemberReference(getMemberForMetadata(n)),
             getTypeForMetadata(n));

   Metadata(this.string, this._memberRef, this.type);
 }

 Member getMemberForMetadata(TreeNode node) {
   final parent = node.parent;
   if (parent == null) return null;
   if (parent is Member) return parent;
   return getMemberForMetadata(parent);
 }

 DartType getTypeForMetadata(TreeNode node) {
   final parent = node.parent;
   if (parent == null) return const VoidType();
   if (parent is FunctionNode) {
     if (parent.typeParameters.isEmpty) {
       return const VoidType();
     }
     return new TypeParameterType(parent.typeParameters[0]);
   }
   return getTypeForMetadata(parent);
 }

 class TestMetadataRepository extends MetadataRepository<Metadata> {
   static const kTag = 'kernel.metadata.test';

   final String tag = kTag;

   final Map<TreeNode, Metadata> mapping = <TreeNode, Metadata>{};

   void writeToBinary(Metadata metadata, Node node, BinarySink sink) {
     expect(metadata, equals(mapping[node]));
     sink.writeByteList(utf8.encode(metadata.string));
     sink.writeStringReference(metadata.string);
     sink.writeCanonicalNameReference(metadata.member?.canonicalName);
     sink.writeDartType(metadata.type);
   }

   Metadata readFromBinary(Node node, BinarySource source) {
     final string1 = utf8.decode(source.readByteList());
     final string2 = source.readStringReference();
     final memberRef = source.readCanonicalNameReference()?.reference;
     final type = source.readDartType();
     expect(string1, equals(string2));
     return new Metadata(string2, memberRef, type);
   }
 }

 class BytesBuilderSink implements Sink<List<int>> {
   final builder = new BytesBuilder(copy: false);

   @override
   void add(List<int> bytes) {
     builder.add(bytes);
   }

   @override
   void close() {}
 }

 /// Visitor that assigns [Metadata] object created with [Metadata.forNode] to
 /// each supported node in the component.
 class Annotator extends RecursiveVisitor<Null> {
   final TestMetadataRepository repository;

   Annotator(Component component)
       : repository = component.metadata[TestMetadataRepository.kTag];

   defaultTreeNode(TreeNode node) {
     super.defaultTreeNode(node);
     if (MetadataRepository.isSupported(node)) {
       repository.mapping[node] = new Metadata.forNode(node);
     }
   }

   static void annotate(Component p) {
     globalDebuggingNames = new NameSystem();
     p.accept(new Annotator(p));
   }
 }

 /// Visitor that checks that each supported node in the component has correct
 /// metadata.
 class Validator extends RecursiveVisitor<Null> {
   final TestMetadataRepository repository;

   Validator(Component component)
       : repository = component.metadata[TestMetadataRepository.kTag];

   defaultTreeNode(TreeNode node) {
     super.defaultTreeNode(node);
     if (MetadataRepository.isSupported(node)) {
       final m = repository.mapping[node];
       final expected = new Metadata.forNode(node);

       expect(m.string, equals(expected.string));
       expect(m.member, equals(expected.member));
       expect(m.type, equals(expected.type));
     }
   }

   static void validate(Component p) {
     globalDebuggingNames = new NameSystem();
     p.accept(new Validator(p));
   }
 }

 Component fromBinary(List<int> bytes) {
   var component = new Component();
   component.addMetadataRepository(new TestMetadataRepository());
   new BinaryBuilderWithMetadata(bytes).readSingleFileComponent(component);
   return component;
 }

 List<int> toBinary(Component p) {
   final sink = new BytesBuilderSink();
   new BinaryPrinter(sink).writeComponentFile(p);
   return sink.builder.takeBytes();
 }

 main() {
   test('annotate-serialize-deserialize-validate', () async {
     final Uri platform = computePlatformBinariesLocation(forceBuildDir: true)
         .resolve("vm_platform_strong.dill");
     final List<int> platformBinary =
         await new File(platform.toFilePath()).readAsBytes();

     final component = fromBinary(platformBinary);
     Annotator.annotate(component);
     Validator.validate(component);

     final annotatedComponentBinary = toBinary(component);
     final annotatedComponentFromBinary = fromBinary(annotatedComponentBinary);
     Validator.validate(annotatedComponentFromBinary);
   });
 }
	// Copyright (c) 2017, 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:convert';
	import 'dart:io';

	import 'package:kernel/ast.dart';
	import 'package:kernel/binary/ast_from_binary.dart';
	import 'package:kernel/binary/ast_to_binary.dart';
	import 'package:kernel/text/ast_to_text.dart';
	import 'package:test/test.dart';
	import 'package:front_end/src/compute_platform_binaries_location.dart'
	show computePlatformBinariesLocation;

	/// Test metadata: to each node we attach a metadata that contains
	/// * node formatted as string
	/// * reference to its enclosing member
	/// * type representing the first type parameter of its enclosing function
	class Metadata {
	final String string;
	final Reference _memberRef;
	final DartType type;

	Member get member => _memberRef?.asMember;

	Metadata.forNode(TreeNode n)
	: this(n.toString(), getMemberReference(getMemberForMetadata(n)),
	getTypeForMetadata(n));

	Metadata(this.string, this._memberRef, this.type);
	}

	Member getMemberForMetadata(TreeNode node) {
	final parent = node.parent;
	if (parent == null) return null;
	if (parent is Member) return parent;
	return getMemberForMetadata(parent);
	}

	DartType getTypeForMetadata(TreeNode node) {
	final parent = node.parent;
	if (parent == null) return const VoidType();
	if (parent is FunctionNode) {
	if (parent.typeParameters.isEmpty) {
	return const VoidType();
	}
	return new TypeParameterType(parent.typeParameters[0]);
	}
	return getTypeForMetadata(parent);
	}

	class TestMetadataRepository extends MetadataRepository<Metadata> {
	static const kTag = 'kernel.metadata.test';

	final String tag = kTag;

	final Map<TreeNode, Metadata> mapping = <TreeNode, Metadata>{};

	void writeToBinary(Metadata metadata, Node node, BinarySink sink) {
	expect(metadata, equals(mapping[node]));
	sink.writeByteList(utf8.encode(metadata.string));
	sink.writeStringReference(metadata.string);
	sink.writeCanonicalNameReference(metadata.member?.canonicalName);
	sink.writeDartType(metadata.type);
	}

	Metadata readFromBinary(Node node, BinarySource source) {
	final string1 = utf8.decode(source.readByteList());
	final string2 = source.readStringReference();
	final memberRef = source.readCanonicalNameReference()?.reference;
	final type = source.readDartType();
	expect(string1, equals(string2));
	return new Metadata(string2, memberRef, type);
	}
	}

	class BytesBuilderSink implements Sink<List<int>> {
	final builder = new BytesBuilder(copy: false);

	@override
	void add(List<int> bytes) {
	builder.add(bytes);
	}

	@override
	void close() {}
	}

	/// Visitor that assigns [Metadata] object created with [Metadata.forNode] to
	/// each supported node in the component.
	class Annotator extends RecursiveVisitor<Null> {
	final TestMetadataRepository repository;

	Annotator(Component component)
	: repository = component.metadata[TestMetadataRepository.kTag];

	defaultTreeNode(TreeNode node) {
	super.defaultTreeNode(node);
	if (MetadataRepository.isSupported(node)) {
	repository.mapping[node] = new Metadata.forNode(node);
	}
	}

	static void annotate(Component p) {
	globalDebuggingNames = new NameSystem();
	p.accept(new Annotator(p));
	}
	}

	/// Visitor that checks that each supported node in the component has correct
	/// metadata.
	class Validator extends RecursiveVisitor<Null> {
	final TestMetadataRepository repository;

	Validator(Component component)
	: repository = component.metadata[TestMetadataRepository.kTag];

	defaultTreeNode(TreeNode node) {
	super.defaultTreeNode(node);
	if (MetadataRepository.isSupported(node)) {
	final m = repository.mapping[node];
	final expected = new Metadata.forNode(node);

	expect(m.string, equals(expected.string));
	expect(m.member, equals(expected.member));
	expect(m.type, equals(expected.type));
	}
	}

	static void validate(Component p) {
	globalDebuggingNames = new NameSystem();
	p.accept(new Validator(p));
	}
	}

	Component fromBinary(List<int> bytes) {
	var component = new Component();
	component.addMetadataRepository(new TestMetadataRepository());
	new BinaryBuilderWithMetadata(bytes).readSingleFileComponent(component);
	return component;
	}

	List<int> toBinary(Component p) {
	final sink = new BytesBuilderSink();
	new BinaryPrinter(sink).writeComponentFile(p);
	return sink.builder.takeBytes();
	}

	main() {
	test('annotate-serialize-deserialize-validate', () async {
	final Uri platform = computePlatformBinariesLocation(forceBuildDir: true)
	.resolve("vm_platform_strong.dill");
	final List<int> platformBinary =
	await new File(platform.toFilePath()).readAsBytes();

	final component = fromBinary(platformBinary);
	Annotator.annotate(component);
	Validator.validate(component);

	final annotatedComponentBinary = toBinary(component);
	final annotatedComponentFromBinary = fromBinary(annotatedComponentBinary);
	Validator.validate(annotatedComponentFromBinary);
	});
	}