pkg/barback/test/utils.dart - sdk.git - Git at Google

 // Copyright (c) 2013, 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.

 library barback.test.utils;

 import 'dart:async';
 import 'dart:collection';
 import 'dart:convert' show Encoding;

 import 'package:barback/barback.dart';
 import 'package:barback/src/cancelable_future.dart';
 import 'package:barback/src/utils.dart';
 import 'package:path/path.dart' as pathos;
 import 'package:scheduled_test/scheduled_test.dart';
 import 'package:stack_trace/stack_trace.dart';
 import 'package:unittest/compact_vm_config.dart';

 export 'transformer/bad.dart';
 export 'transformer/check_content.dart';
 export 'transformer/check_content_and_rename.dart';
 export 'transformer/create_asset.dart';
 export 'transformer/many_to_one.dart';
 export 'transformer/mock.dart';
 export 'transformer/one_to_many.dart';
 export 'transformer/rewrite.dart';

 var _configured = false;

 MockProvider _provider;
 Barback _barback;

 /// Calls to [buildShouldSucceed] and [buildShouldFail] set expectations on
 /// successive [BuildResult]s from [_barback]. This keeps track of how many
 /// calls have already been made so later calls know which result to look for.
 int _nextBuildResult;

 /// Calls to [buildShouldLog] set expectations on successive log entries from
 /// [_barback]. This keeps track of how many calls have already been made so
 /// later calls know which result to look for.
 int _nextLog;

 void initConfig() {
   if (_configured) return;
   _configured = true;
   useCompactVMConfiguration();
   filterStacks = true;
 }

 /// Creates a new [PackageProvider] and [PackageGraph] with the given [assets]
 /// and [transformers].
 ///
 /// This graph is used internally by most of the other functions in this
 /// library so you must call it in the test before calling any of the other
 /// functions.
 ///
 /// [assets] may either be an [Iterable] or a [Map]. If it's an [Iterable],
 /// each element may either be an [AssetId] or a string that can be parsed to
 /// one. If it's a [Map], each key should be a string that can be parsed to an
 /// [AssetId] and the value should be a string defining the contents of that
 /// asset.
 ///
 /// [transformers] is a map from package names to the transformers for each
 /// package.
 void initGraph([assets,
     Map<String, Iterable<Iterable<Transformer>>> transformers]) {
   if (assets == null) assets = [];
   if (transformers == null) transformers = {};

   var assetList;
   if (assets is Map) {
     assetList = assets.keys.map((asset) {
       var id = new AssetId.parse(asset);
       return new _MockAsset(id, assets[asset]);
     });
   } else if (assets is Iterable) {
     assetList = assets.map((asset) {
       var id = new AssetId.parse(asset);
       var contents = pathos.basenameWithoutExtension(id.path);
       return new _MockAsset(id, contents);
     });
   }

   var assetMap = mapMapValues(groupBy(assetList, (asset) => asset.id.package),
       (package, assets) => new AssetSet.from(assets));

   // Make sure that packages that have transformers but no assets are considered
   // by MockProvider to exist.
   for (var package in transformers.keys) {
     assetMap.putIfAbsent(package, () => new AssetSet());
   }

   _provider = new MockProvider(assetMap);
   _barback = new Barback(_provider);
   _nextBuildResult = 0;
   _nextLog = 0;

   transformers.forEach(_barback.updateTransformers);

   // There should be one successful build after adding all the transformers but
   // before adding any sources.
   if (!transformers.isEmpty) buildShouldSucceed();
 }

 /// Updates [assets] in the current [PackageProvider].
 ///
 /// Each item in the list may either be an [AssetId] or a string that can be
 /// parsed as one.
 void updateSources(Iterable assets) {
   assets = _parseAssets(assets);
   schedule(() => _barback.updateSources(assets),
       "updating ${assets.join(', ')}");
 }

 /// Updates [assets] in the current [PackageProvider].
 ///
 /// Each item in the list may either be an [AssetId] or a string that can be
 /// parsed as one. Unlike [updateSources], this is not automatically scheduled
 /// and will be run synchronously when called.
 void updateSourcesSync(Iterable assets) =>
     _barback.updateSources(_parseAssets(assets));

 /// Removes [assets] from the current [PackageProvider].
 ///
 /// Each item in the list may either be an [AssetId] or a string that can be
 /// parsed as one.
 void removeSources(Iterable assets) {
   assets = _parseAssets(assets);
   schedule(() => _barback.removeSources(assets),
       "removing ${assets.join(', ')}");
 }

 /// Removes [assets] from the current [PackageProvider].
 ///
 /// Each item in the list may either be an [AssetId] or a string that can be
 /// parsed as one. Unlike [removeSources], this is not automatically scheduled
 /// and will be run synchronously when called.
 void removeSourcesSync(Iterable assets) =>
     _barback.removeSources(_parseAssets(assets));

 /// Sets the transformers for [package] to [transformers].
 void updateTransformers(String package, Iterable<Iterable> transformers) {
   schedule(() => _barback.updateTransformers(package, transformers),
       "updating transformers for $package");
 }

 /// Parse a list of strings or [AssetId]s into a list of [AssetId]s.
 List<AssetId> _parseAssets(Iterable assets) {
   return assets.map((asset) {
     if (asset is String) return new AssetId.parse(asset);
     return asset;
   }).toList();
 }

 /// Schedules a change to the contents of an asset identified by [name] to
 /// [contents].
 ///
 /// Does not update it in the graph.
 void modifyAsset(String name, String contents) {
   schedule(() {
     _provider._modifyAsset(name, contents);
   }, "modify asset $name");
 }

 /// Schedules an error to be generated when loading the asset identified by
 /// [name].
 ///
 /// Does not update the asset in the graph.
 void setAssetError(String name) {
   schedule(() {
     _provider._setAssetError(name);
   }, "set error for asset $name");
 }

 /// Schedules a pause of the internally created [PackageProvider].
 ///
 /// All asset requests that the [PackageGraph] makes to the provider after this
 /// will not complete until [resumeProvider] is called.
 void pauseProvider() {
   schedule(() => _provider._pause(), "pause provider");
 }

 /// Schedules an unpause of the provider after a call to [pauseProvider] and
 /// allows all pending asset loads to finish.
 void resumeProvider() {
   schedule(() => _provider._resume(), "resume provider");
 }

 /// Asserts that the current build step shouldn't have finished by this point in
 /// the schedule.
 ///
 /// This uses the same build counter as [buildShouldSucceed] and
 /// [buildShouldFail], so those can be used to validate build results before and
 /// after this.
 void buildShouldNotBeDone() {
   _futureShouldNotCompleteUntil(
       _barback.results.elementAt(_nextBuildResult),
       schedule(() => pumpEventQueue(), "build should not terminate"),
       "build");
 }

 /// Expects that the next [BuildResult] is a build success.
 void buildShouldSucceed() {
   expect(_getNextBuildResult("build should succeed").then((result) {
     result.errors.forEach(currentSchedule.signalError);
     expect(result.succeeded, isTrue);
   }), completes);
 }

 /// Expects that the next [BuildResult] emitted is a failure.
 ///
 /// [matchers] is a list of matchers to match against the errors that caused the
 /// build to fail. Every matcher is expected to match an error, but the order of
 /// matchers is unimportant.
 void buildShouldFail(List matchers) {
   expect(_getNextBuildResult("build should fail").then((result) {
     expect(result.succeeded, isFalse);
     expect(result.errors.length, equals(matchers.length));
     for (var matcher in matchers) {
       expect(result.errors, contains(matcher));
     }
   }), completes);
 }

 /// Expects that the nexted logged [LogEntry] matches [matcher] which may be
 /// either a [Matcher] or a string to match a literal string.
 void buildShouldLog(LogLevel level, matcher) {
   expect(_getNextLog("build should log").then((log) {
     expect(log.level, equals(level));
     expect(log.message, matcher);
   }), completes);
 }

 Future<BuildResult> _getNextBuildResult(String description) {
   var result = currentSchedule.wrapFuture(
       _barback.results.elementAt(_nextBuildResult++));
   return schedule(() => result, description);
 }

 Future<LogEntry> _getNextLog(String description) {
   var result = currentSchedule.wrapFuture(
       _barback.log.elementAt(_nextLog++));
   return schedule(() => result, description);
 }

 /// Schedules an expectation that the graph will deliver an asset matching
 /// [name] and [contents].
 ///
 /// If [contents] is omitted, defaults to the asset's filename without an
 /// extension (which is the same default that [initGraph] uses).
 void expectAsset(String name, [String contents]) {
   var id = new AssetId.parse(name);

   if (contents == null) {
     contents = pathos.basenameWithoutExtension(id.path);
   }

   schedule(() {
     return _barback.getAssetById(id).then((asset) {
       // TODO(rnystrom): Make an actual Matcher class for this.
       expect(asset.id, equals(id));
       expect(asset.readAsString(), completion(equals(contents)));
     });
   }, "get asset $name");
 }

 /// Schedules an expectation that the graph will not find an asset matching
 /// [name].
 void expectNoAsset(String name) {
   var id = new AssetId.parse(name);

   // Make sure the future gets the error.
   schedule(() {
     return _barback.getAssetById(id).then((asset) {
       fail("Should have thrown error but got $asset.");
     }).catchError((error) {
       expect(error, new isInstanceOf<AssetNotFoundException>());
       expect(error.id, equals(id));
     });
   }, "get asset $name");
 }

 /// Schedules an expectation that the graph will output all of the given
 /// assets, and no others.
 ///
 /// [assets] is a list of strings that can be parsed to [AssetID]s.
 void expectAllAssets(Iterable<String> assets) {
   var expected = assets.map((asset) => new AssetId.parse(asset));

   schedule(() {
     return _barback.getAllAssets().then((actualAssets) {
       var actualIds = actualAssets.map((asset) => asset.id).toSet();

       for (var id in expected) {
         expect(actualIds, contains(id));
         actualIds.remove(id);
       }

       expect(actualIds, isEmpty);
     });
   }, "get all assets, expecting ${expected.join(', ')}");
 }

 /// Schedules an expectation that [Barback.getAllAssets] will return a [Future]
 /// that completes to a error that matches [matcher].
 ///
 /// If [match] is a [List], then it expects the completed error to be an
 /// [AggregateException] whose errors match each matcher in the list. Otherwise,
 /// [match] should be a single matcher that the error should match.
 void expectAllAssetsShouldFail(Matcher matcher) {
   schedule(() {
     expect(_barback.getAllAssets(), throwsA(matcher));
   }, "get all assets should fail");
 }

 /// Schedules an expectation that a [getAssetById] call for the given asset
 /// won't terminate at this point in the schedule.
 void expectAssetDoesNotComplete(String name) {
   var id = new AssetId.parse(name);

   schedule(() {
     return _futureShouldNotCompleteUntil(
         _barback.getAssetById(id),
         pumpEventQueue(),
         "asset $id");
   }, "asset $id should not complete");
 }

 /// Returns a matcher for an [AggregateException] containing errors that match
 /// [matchers].
 Matcher isAggregateException(Iterable<Matcher> errors) {
   // Match the aggregate error itself.
   var matchers = [
     new isInstanceOf<AggregateException>(),
     transform((error) => error.errors, hasLength(errors.length),
         'errors.length == ${errors.length}')
   ];

   // Make sure its contained errors match the matchers.
   for (var error in errors) {
     matchers.add(transform((error) => error.errors, contains(error),
         error.toString()));
   }

   return allOf(matchers);
 }

 /// Returns a matcher for an [AssetNotFoundException] with the given [id].
 Matcher isAssetNotFoundException(String name) {
   var id = new AssetId.parse(name);
   return allOf(
       new isInstanceOf<AssetNotFoundException>(),
       predicate((error) => error.id == id, 'id == $name'));
 }

 /// Returns a matcher for an [AssetCollisionException] with the given [id].
 Matcher isAssetCollisionException(String name) {
   var id = new AssetId.parse(name);
   return allOf(
       new isInstanceOf<AssetCollisionException>(),
       predicate((error) => error.id == id, 'id == $name'));
 }

 /// Returns a matcher for a [MissingInputException] with the given [id].
 Matcher isMissingInputException(String name) {
   var id = new AssetId.parse(name);
   return allOf(
       new isInstanceOf<MissingInputException>(),
       predicate((error) => error.id == id, 'id == $name'));
 }

 /// Returns a matcher for an [InvalidOutputException] with the given id.
 Matcher isInvalidOutputException(String name) {
   var id = new AssetId.parse(name);
   return allOf(
       new isInstanceOf<InvalidOutputException>(),
       predicate((error) => error.id == id, 'id == $name'));
 }

 /// Returns a matcher for an [AssetLoadException] with the given id and a
 /// wrapped error that matches [error].
 Matcher isAssetLoadException(String name, error) {
   var id = new AssetId.parse(name);
   return allOf(
       new isInstanceOf<AssetLoadException>(),
       transform((error) => error.id, equals(id), 'id'),
       transform((error) => error.error, wrapMatcher(error), 'error'));
 }

 /// Returns a matcher for a [TransformerException] with a wrapped error that
 /// matches [error].
 Matcher isTransformerException(error) {
   return allOf(
       new isInstanceOf<TransformerException>(),
       transform((error) => error.error, wrapMatcher(error), 'error'));
 }

 /// Returns a matcher for a [MockLoadException] with the given [id].
 Matcher isMockLoadException(String name) {
   var id = new AssetId.parse(name);
   return allOf(
       new isInstanceOf<MockLoadException>(),
       predicate((error) => error.id == id, 'id == $name'));
 }

 /// Returns a matcher that runs [transformation] on its input, then matches
 /// the output against [matcher].
 ///
 /// [description] should be a noun phrase that describes the relation of the
 /// output of [transformation] to its input.
 Matcher transform(transformation(value), matcher, String description) =>
   new _TransformMatcher(transformation, wrapMatcher(matcher), description);

 class _TransformMatcher extends Matcher {
   final Function _transformation;
   final Matcher _matcher;
   final String _description;

   _TransformMatcher(this._transformation, this._matcher, this._description);

   bool matches(item, Map matchState) =>
     _matcher.matches(_transformation(item), matchState);

   Description describe(Description description) =>
     description.add(_description).add(' ').addDescriptionOf(_matcher);
 }

 /// Asserts that [future] shouldn't complete until after [delay] completes.
 ///
 /// Once [delay] completes, the output of [future] is ignored, even if it's an
 /// error.
 ///
 /// [description] should describe [future].
 Future _futureShouldNotCompleteUntil(Future future, Future delay,
     String description) {
   var trace = new Trace.current();
   var cancelable = new CancelableFuture(future);
   cancelable.then((result) {
     currentSchedule.signalError(
         new Exception("Expected $description not to complete here, but it "
             "completed with result: $result"),
         trace);
   }).catchError((error) {
     currentSchedule.signalError(error);
   });

   return delay.then((_) => cancelable.cancel());
 }

 /// An [AssetProvider] that provides the given set of assets.
 class MockProvider implements PackageProvider {
   Iterable<String> get packages => _assets.keys;

   Map<String, AssetSet> _assets;

   /// The set of assets for which [MockLoadException]s should be emitted if
   /// they're loaded.
   final _errors = new Set<AssetId>();

   /// The completer that [getAsset()] is waiting on to complete when paused.
   ///
   /// If `null` it will return the asset immediately.
   Completer _pauseCompleter;

   /// Tells the provider to wait during [getAsset] until [complete()]
   /// is called.
   ///
   /// Lets you test the asynchronous behavior of loading.
   void _pause() {
     _pauseCompleter = new Completer();
   }

   void _resume() {
     _pauseCompleter.complete();
     _pauseCompleter = null;
   }

   MockProvider(this._assets) {
     // If there are no assets or transformers, add a dummy package. This better
     // simulates the real world, where there'll always be at least the
     // entrypoint package.
     if (_assets.isEmpty) {
       _assets = {"app": new AssetSet()};
     }
   }

   void _modifyAsset(String name, String contents) {
     var id = new AssetId.parse(name);
     _errors.remove(id);
     (_assets[id.package][id] as _MockAsset).contents = contents;
   }

   void _setAssetError(String name) {
     _errors.add(new AssetId.parse(name));
   }

   List<AssetId> listAssets(String package, {String within}) {
     if (within != null) {
       throw new UnimplementedError("Doesn't handle 'within' yet.");
     }

     return _assets[package].map((asset) => asset.id);
   }

   Future<Asset> getAsset(AssetId id) {
     // Eagerly load the asset so we can test an asset's value changing between
     // when a load starts and when it finishes.
     var assets = _assets[id.package];
     var asset;
     if (assets != null) asset = assets[id];

     var hasError = _errors.contains(id);

     var future;
     if (_pauseCompleter != null) {
       future = _pauseCompleter.future;
     } else {
       future = new Future.value();
     }

     return future.then((_) {
       if (hasError) throw new MockLoadException(id);
       if (asset == null) throw new AssetNotFoundException(id);
       return asset;
     });
   }
 }

 /// Error thrown for assets with [setAssetError] set.
 class MockLoadException implements Exception {
   final AssetId id;

   MockLoadException(this.id);

   String toString() => "Error loading $id.";
 }

 /// An implementation of [Asset] that never hits the file system.
 class _MockAsset implements Asset {
   final AssetId id;
   String contents;

   _MockAsset(this.id, this.contents);

   Future<String> readAsString({Encoding encoding}) =>
       new Future.value(contents);

   Stream<List<int>> read() => throw new UnimplementedError();

   String toString() => "MockAsset $id $contents";
 }
	// Copyright (c) 2013, 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.

	library barback.test.utils;

	import 'dart:async';
	import 'dart:collection';
	import 'dart:convert' show Encoding;

	import 'package:barback/barback.dart';
	import 'package:barback/src/cancelable_future.dart';
	import 'package:barback/src/utils.dart';
	import 'package:path/path.dart' as pathos;
	import 'package:scheduled_test/scheduled_test.dart';
	import 'package:stack_trace/stack_trace.dart';
	import 'package:unittest/compact_vm_config.dart';

	export 'transformer/bad.dart';
	export 'transformer/check_content.dart';
	export 'transformer/check_content_and_rename.dart';
	export 'transformer/create_asset.dart';
	export 'transformer/many_to_one.dart';
	export 'transformer/mock.dart';
	export 'transformer/one_to_many.dart';
	export 'transformer/rewrite.dart';

	var _configured = false;

	MockProvider _provider;
	Barback _barback;

	/// Calls to [buildShouldSucceed] and [buildShouldFail] set expectations on
	/// successive [BuildResult]s from [_barback]. This keeps track of how many
	/// calls have already been made so later calls know which result to look for.
	int _nextBuildResult;

	/// Calls to [buildShouldLog] set expectations on successive log entries from
	/// [_barback]. This keeps track of how many calls have already been made so
	/// later calls know which result to look for.
	int _nextLog;

	void initConfig() {
	if (_configured) return;
	_configured = true;
	useCompactVMConfiguration();
	filterStacks = true;
	}

	/// Creates a new [PackageProvider] and [PackageGraph] with the given [assets]
	/// and [transformers].
	///
	/// This graph is used internally by most of the other functions in this
	/// library so you must call it in the test before calling any of the other
	/// functions.
	///
	/// [assets] may either be an [Iterable] or a [Map]. If it's an [Iterable],
	/// each element may either be an [AssetId] or a string that can be parsed to
	/// one. If it's a [Map], each key should be a string that can be parsed to an
	/// [AssetId] and the value should be a string defining the contents of that
	/// asset.
	///
	/// [transformers] is a map from package names to the transformers for each
	/// package.
	void initGraph([assets,
	Map<String, Iterable<Iterable<Transformer>>> transformers]) {
	if (assets == null) assets = [];
	if (transformers == null) transformers = {};

	var assetList;
	if (assets is Map) {
	assetList = assets.keys.map((asset) {
	var id = new AssetId.parse(asset);
	return new _MockAsset(id, assets[asset]);
	});
	} else if (assets is Iterable) {
	assetList = assets.map((asset) {
	var id = new AssetId.parse(asset);
	var contents = pathos.basenameWithoutExtension(id.path);
	return new _MockAsset(id, contents);
	});
	}

	var assetMap = mapMapValues(groupBy(assetList, (asset) => asset.id.package),
	(package, assets) => new AssetSet.from(assets));

	// Make sure that packages that have transformers but no assets are considered
	// by MockProvider to exist.
	for (var package in transformers.keys) {
	assetMap.putIfAbsent(package, () => new AssetSet());
	}

	_provider = new MockProvider(assetMap);
	_barback = new Barback(_provider);
	_nextBuildResult = 0;
	_nextLog = 0;

	transformers.forEach(_barback.updateTransformers);

	// There should be one successful build after adding all the transformers but
	// before adding any sources.
	if (!transformers.isEmpty) buildShouldSucceed();
	}

	/// Updates [assets] in the current [PackageProvider].
	///
	/// Each item in the list may either be an [AssetId] or a string that can be
	/// parsed as one.
	void updateSources(Iterable assets) {
	assets = _parseAssets(assets);
	schedule(() => _barback.updateSources(assets),
	"updating ${assets.join(', ')}");
	}

	/// Updates [assets] in the current [PackageProvider].
	///
	/// Each item in the list may either be an [AssetId] or a string that can be
	/// parsed as one. Unlike [updateSources], this is not automatically scheduled
	/// and will be run synchronously when called.
	void updateSourcesSync(Iterable assets) =>
	_barback.updateSources(_parseAssets(assets));

	/// Removes [assets] from the current [PackageProvider].
	///
	/// Each item in the list may either be an [AssetId] or a string that can be
	/// parsed as one.
	void removeSources(Iterable assets) {
	assets = _parseAssets(assets);
	schedule(() => _barback.removeSources(assets),
	"removing ${assets.join(', ')}");
	}

	/// Removes [assets] from the current [PackageProvider].
	///
	/// Each item in the list may either be an [AssetId] or a string that can be
	/// parsed as one. Unlike [removeSources], this is not automatically scheduled
	/// and will be run synchronously when called.
	void removeSourcesSync(Iterable assets) =>
	_barback.removeSources(_parseAssets(assets));

	/// Sets the transformers for [package] to [transformers].
	void updateTransformers(String package, Iterable<Iterable> transformers) {
	schedule(() => _barback.updateTransformers(package, transformers),
	"updating transformers for $package");
	}

	/// Parse a list of strings or [AssetId]s into a list of [AssetId]s.
	List<AssetId> _parseAssets(Iterable assets) {
	return assets.map((asset) {
	if (asset is String) return new AssetId.parse(asset);
	return asset;
	}).toList();
	}

	/// Schedules a change to the contents of an asset identified by [name] to
	/// [contents].
	///
	/// Does not update it in the graph.
	void modifyAsset(String name, String contents) {
	schedule(() {
	_provider._modifyAsset(name, contents);
	}, "modify asset $name");
	}

	/// Schedules an error to be generated when loading the asset identified by
	/// [name].
	///
	/// Does not update the asset in the graph.
	void setAssetError(String name) {
	schedule(() {
	_provider._setAssetError(name);
	}, "set error for asset $name");
	}

	/// Schedules a pause of the internally created [PackageProvider].
	///
	/// All asset requests that the [PackageGraph] makes to the provider after this
	/// will not complete until [resumeProvider] is called.
	void pauseProvider() {
	schedule(() => _provider._pause(), "pause provider");
	}

	/// Schedules an unpause of the provider after a call to [pauseProvider] and
	/// allows all pending asset loads to finish.
	void resumeProvider() {
	schedule(() => _provider._resume(), "resume provider");
	}

	/// Asserts that the current build step shouldn't have finished by this point in
	/// the schedule.
	///
	/// This uses the same build counter as [buildShouldSucceed] and
	/// [buildShouldFail], so those can be used to validate build results before and
	/// after this.
	void buildShouldNotBeDone() {
	_futureShouldNotCompleteUntil(
	_barback.results.elementAt(_nextBuildResult),
	schedule(() => pumpEventQueue(), "build should not terminate"),
	"build");
	}

	/// Expects that the next [BuildResult] is a build success.
	void buildShouldSucceed() {
	expect(_getNextBuildResult("build should succeed").then((result) {
	result.errors.forEach(currentSchedule.signalError);
	expect(result.succeeded, isTrue);
	}), completes);
	}

	/// Expects that the next [BuildResult] emitted is a failure.
	///
	/// [matchers] is a list of matchers to match against the errors that caused the
	/// build to fail. Every matcher is expected to match an error, but the order of
	/// matchers is unimportant.
	void buildShouldFail(List matchers) {
	expect(_getNextBuildResult("build should fail").then((result) {
	expect(result.succeeded, isFalse);
	expect(result.errors.length, equals(matchers.length));
	for (var matcher in matchers) {
	expect(result.errors, contains(matcher));
	}
	}), completes);
	}

	/// Expects that the nexted logged [LogEntry] matches [matcher] which may be
	/// either a [Matcher] or a string to match a literal string.
	void buildShouldLog(LogLevel level, matcher) {
	expect(_getNextLog("build should log").then((log) {
	expect(log.level, equals(level));
	expect(log.message, matcher);
	}), completes);
	}

	Future<BuildResult> _getNextBuildResult(String description) {
	var result = currentSchedule.wrapFuture(
	_barback.results.elementAt(_nextBuildResult++));
	return schedule(() => result, description);
	}

	Future<LogEntry> _getNextLog(String description) {
	var result = currentSchedule.wrapFuture(
	_barback.log.elementAt(_nextLog++));
	return schedule(() => result, description);
	}

	/// Schedules an expectation that the graph will deliver an asset matching
	/// [name] and [contents].
	///
	/// If [contents] is omitted, defaults to the asset's filename without an
	/// extension (which is the same default that [initGraph] uses).
	void expectAsset(String name, [String contents]) {
	var id = new AssetId.parse(name);

	if (contents == null) {
	contents = pathos.basenameWithoutExtension(id.path);
	}

	schedule(() {
	return _barback.getAssetById(id).then((asset) {
	// TODO(rnystrom): Make an actual Matcher class for this.
	expect(asset.id, equals(id));
	expect(asset.readAsString(), completion(equals(contents)));
	});
	}, "get asset $name");
	}

	/// Schedules an expectation that the graph will not find an asset matching
	/// [name].
	void expectNoAsset(String name) {
	var id = new AssetId.parse(name);

	// Make sure the future gets the error.
	schedule(() {
	return _barback.getAssetById(id).then((asset) {
	fail("Should have thrown error but got $asset.");
	}).catchError((error) {
	expect(error, new isInstanceOf<AssetNotFoundException>());
	expect(error.id, equals(id));
	});
	}, "get asset $name");
	}

	/// Schedules an expectation that the graph will output all of the given
	/// assets, and no others.
	///
	/// [assets] is a list of strings that can be parsed to [AssetID]s.
	void expectAllAssets(Iterable<String> assets) {
	var expected = assets.map((asset) => new AssetId.parse(asset));

	schedule(() {
	return _barback.getAllAssets().then((actualAssets) {
	var actualIds = actualAssets.map((asset) => asset.id).toSet();

	for (var id in expected) {
	expect(actualIds, contains(id));
	actualIds.remove(id);
	}

	expect(actualIds, isEmpty);
	});
	}, "get all assets, expecting ${expected.join(', ')}");
	}

	/// Schedules an expectation that [Barback.getAllAssets] will return a [Future]
	/// that completes to a error that matches [matcher].
	///
	/// If [match] is a [List], then it expects the completed error to be an
	/// [AggregateException] whose errors match each matcher in the list. Otherwise,
	/// [match] should be a single matcher that the error should match.
	void expectAllAssetsShouldFail(Matcher matcher) {
	schedule(() {
	expect(_barback.getAllAssets(), throwsA(matcher));
	}, "get all assets should fail");
	}

	/// Schedules an expectation that a [getAssetById] call for the given asset
	/// won't terminate at this point in the schedule.
	void expectAssetDoesNotComplete(String name) {
	var id = new AssetId.parse(name);

	schedule(() {
	return _futureShouldNotCompleteUntil(
	_barback.getAssetById(id),
	pumpEventQueue(),
	"asset $id");
	}, "asset $id should not complete");
	}

	/// Returns a matcher for an [AggregateException] containing errors that match
	/// [matchers].
	Matcher isAggregateException(Iterable<Matcher> errors) {
	// Match the aggregate error itself.
	var matchers = [
	new isInstanceOf<AggregateException>(),
	transform((error) => error.errors, hasLength(errors.length),
	'errors.length == ${errors.length}')
	];

	// Make sure its contained errors match the matchers.
	for (var error in errors) {
	matchers.add(transform((error) => error.errors, contains(error),
	error.toString()));
	}

	return allOf(matchers);
	}

	/// Returns a matcher for an [AssetNotFoundException] with the given [id].
	Matcher isAssetNotFoundException(String name) {
	var id = new AssetId.parse(name);
	return allOf(
	new isInstanceOf<AssetNotFoundException>(),
	predicate((error) => error.id == id, 'id == $name'));
	}

	/// Returns a matcher for an [AssetCollisionException] with the given [id].
	Matcher isAssetCollisionException(String name) {
	var id = new AssetId.parse(name);
	return allOf(
	new isInstanceOf<AssetCollisionException>(),
	predicate((error) => error.id == id, 'id == $name'));
	}

	/// Returns a matcher for a [MissingInputException] with the given [id].
	Matcher isMissingInputException(String name) {
	var id = new AssetId.parse(name);
	return allOf(
	new isInstanceOf<MissingInputException>(),
	predicate((error) => error.id == id, 'id == $name'));
	}

	/// Returns a matcher for an [InvalidOutputException] with the given id.
	Matcher isInvalidOutputException(String name) {
	var id = new AssetId.parse(name);
	return allOf(
	new isInstanceOf<InvalidOutputException>(),
	predicate((error) => error.id == id, 'id == $name'));
	}

	/// Returns a matcher for an [AssetLoadException] with the given id and a
	/// wrapped error that matches [error].
	Matcher isAssetLoadException(String name, error) {
	var id = new AssetId.parse(name);
	return allOf(
	new isInstanceOf<AssetLoadException>(),
	transform((error) => error.id, equals(id), 'id'),
	transform((error) => error.error, wrapMatcher(error), 'error'));
	}

	/// Returns a matcher for a [TransformerException] with a wrapped error that
	/// matches [error].
	Matcher isTransformerException(error) {
	return allOf(
	new isInstanceOf<TransformerException>(),
	transform((error) => error.error, wrapMatcher(error), 'error'));
	}

	/// Returns a matcher for a [MockLoadException] with the given [id].
	Matcher isMockLoadException(String name) {
	var id = new AssetId.parse(name);
	return allOf(
	new isInstanceOf<MockLoadException>(),
	predicate((error) => error.id == id, 'id == $name'));
	}

	/// Returns a matcher that runs [transformation] on its input, then matches
	/// the output against [matcher].
	///
	/// [description] should be a noun phrase that describes the relation of the
	/// output of [transformation] to its input.
	Matcher transform(transformation(value), matcher, String description) =>
	new _TransformMatcher(transformation, wrapMatcher(matcher), description);

	class _TransformMatcher extends Matcher {
	final Function _transformation;
	final Matcher _matcher;
	final String _description;

	_TransformMatcher(this._transformation, this._matcher, this._description);

	bool matches(item, Map matchState) =>
	_matcher.matches(_transformation(item), matchState);

	Description describe(Description description) =>
	description.add(_description).add(' ').addDescriptionOf(_matcher);
	}

	/// Asserts that [future] shouldn't complete until after [delay] completes.
	///
	/// Once [delay] completes, the output of [future] is ignored, even if it's an
	/// error.
	///
	/// [description] should describe [future].
	Future _futureShouldNotCompleteUntil(Future future, Future delay,
	String description) {
	var trace = new Trace.current();
	var cancelable = new CancelableFuture(future);
	cancelable.then((result) {
	currentSchedule.signalError(
	new Exception("Expected $description not to complete here, but it "
	"completed with result: $result"),
	trace);
	}).catchError((error) {
	currentSchedule.signalError(error);
	});

	return delay.then((_) => cancelable.cancel());
	}

	/// An [AssetProvider] that provides the given set of assets.
	class MockProvider implements PackageProvider {
	Iterable<String> get packages => _assets.keys;

	Map<String, AssetSet> _assets;

	/// The set of assets for which [MockLoadException]s should be emitted if
	/// they're loaded.
	final _errors = new Set<AssetId>();

	/// The completer that [getAsset()] is waiting on to complete when paused.
	///
	/// If `null` it will return the asset immediately.
	Completer _pauseCompleter;

	/// Tells the provider to wait during [getAsset] until [complete()]
	/// is called.
	///
	/// Lets you test the asynchronous behavior of loading.
	void _pause() {
	_pauseCompleter = new Completer();
	}

	void _resume() {
	_pauseCompleter.complete();
	_pauseCompleter = null;
	}

	MockProvider(this._assets) {
	// If there are no assets or transformers, add a dummy package. This better
	// simulates the real world, where there'll always be at least the
	// entrypoint package.
	if (_assets.isEmpty) {
	_assets = {"app": new AssetSet()};
	}
	}

	void _modifyAsset(String name, String contents) {
	var id = new AssetId.parse(name);
	_errors.remove(id);
	(_assets[id.package][id] as _MockAsset).contents = contents;
	}

	void _setAssetError(String name) {
	_errors.add(new AssetId.parse(name));
	}

	List<AssetId> listAssets(String package, {String within}) {
	if (within != null) {
	throw new UnimplementedError("Doesn't handle 'within' yet.");
	}

	return _assets[package].map((asset) => asset.id);
	}

	Future<Asset> getAsset(AssetId id) {
	// Eagerly load the asset so we can test an asset's value changing between
	// when a load starts and when it finishes.
	var assets = _assets[id.package];
	var asset;
	if (assets != null) asset = assets[id];

	var hasError = _errors.contains(id);

	var future;
	if (_pauseCompleter != null) {
	future = _pauseCompleter.future;
	} else {
	future = new Future.value();
	}

	return future.then((_) {
	if (hasError) throw new MockLoadException(id);
	if (asset == null) throw new AssetNotFoundException(id);
	return asset;
	});
	}
	}

	/// Error thrown for assets with [setAssetError] set.
	class MockLoadException implements Exception {
	final AssetId id;

	MockLoadException(this.id);

	String toString() => "Error loading $id.";
	}

	/// An implementation of [Asset] that never hits the file system.
	class _MockAsset implements Asset {
	final AssetId id;
	String contents;

	_MockAsset(this.id, this.contents);

	Future<String> readAsString({Encoding encoding}) =>
	new Future.value(contents);

	Stream<List<int>> read() => throw new UnimplementedError();

	String toString() => "MockAsset $id $contents";
	}