// Copyright (c) 2012, 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 'description.dart'; import 'equals_matcher.dart'; import 'feature_matcher.dart'; import 'interfaces.dart'; import 'util.dart'; /// Returns a matcher which matches [Iterable]s in which all elements /// match the given [valueOrMatcher]. Matcher everyElement(Object? valueOrMatcher) => _EveryElement(wrapMatcher(valueOrMatcher)); class _EveryElement extends _IterableMatcher { final Matcher _matcher; _EveryElement(this._matcher); @override bool typedMatches(Iterable item, Map matchState) { var i = 0; for (var element in item) { if (!_matcher.matches(element, matchState)) { addStateInfo(matchState, {'index': i, 'element': element}); return false; } ++i; } return true; } @override Description describe(Description description) => description.add('every element(').addDescriptionOf(_matcher).add(')'); @override Description describeTypedMismatch( dynamic item, Description mismatchDescription, Map matchState, bool verbose, ) { if (matchState['index'] != null) { var index = matchState['index']; var element = matchState['element']; mismatchDescription .add('has value ') .addDescriptionOf(element) .add(' which '); var subDescription = StringDescription(); _matcher.describeMismatch( element, subDescription, matchState['state'] as Map, verbose, ); if (subDescription.length > 0) { mismatchDescription.add(subDescription.toString()); } else { mismatchDescription.add("doesn't match "); _matcher.describe(mismatchDescription); } mismatchDescription.add(' at index $index'); return mismatchDescription; } return super.describeMismatch( item, mismatchDescription, matchState, verbose, ); } } /// Returns a matcher which matches [Iterable]s in which at least one /// element matches the given [valueOrMatcher]. Matcher anyElement(Object? valueOrMatcher) => _AnyElement(wrapMatcher(valueOrMatcher)); class _AnyElement extends _IterableMatcher { final Matcher _matcher; _AnyElement(this._matcher); @override bool typedMatches(Iterable item, Map matchState) => item.any((e) => _matcher.matches(e, matchState)); @override Description describe(Description description) => description.add('some element ').addDescriptionOf(_matcher); } /// Returns a matcher which matches [Iterable]s that have the same /// length and the same elements as [expected], in the same order. /// /// This is equivalent to [equals] but does not recurse. Matcher orderedEquals(Iterable expected) => _OrderedEquals(expected); class _OrderedEquals extends _IterableMatcher { final Iterable _expected; final Matcher _matcher; _OrderedEquals(this._expected) : _matcher = equals(_expected, 1); @override bool typedMatches(Iterable item, Map matchState) => _matcher.matches(item, matchState); @override Description describe(Description description) => description.add('equals ').addDescriptionOf(_expected).add(' ordered'); @override Description describeTypedMismatch( Iterable item, Description mismatchDescription, Map matchState, bool verbose, ) { return _matcher.describeMismatch( item, mismatchDescription, matchState, verbose, ); } } /// Returns a matcher which matches [Iterable]s that have the same length and /// the same elements as [expected], but not necessarily in the same order. /// /// Note that this is worst case O(n^2) runtime and memory usage so it should /// only be used on small iterables. Matcher unorderedEquals(Iterable expected) => _UnorderedEquals(expected); class _UnorderedEquals extends _UnorderedMatches { final List _expectedValues; _UnorderedEquals(Iterable expected) : _expectedValues = expected.toList(), super(expected.map(equals)); @override Description describe(Description description) => description .add('equals ') .addDescriptionOf(_expectedValues) .add(' unordered'); } /// Iterable matchers match against [Iterable]s. We add this intermediate /// class to give better mismatch error messages than the base Matcher class. abstract class _IterableMatcher extends FeatureMatcher> { const _IterableMatcher(); } /// Returns a matcher which matches [Iterable]s whose elements match the /// matchers in [expected], but not necessarily in the same order. /// /// Note that this is worst case O(n^2) runtime and memory usage so it should /// only be used on small iterables. Matcher unorderedMatches(Iterable expected) => _UnorderedMatches(expected); class _UnorderedMatches extends _IterableMatcher { final List _expected; final bool _allowUnmatchedValues; _UnorderedMatches(Iterable expected, {bool allowUnmatchedValues = false}) : _expected = expected.map(wrapMatcher).toList(), _allowUnmatchedValues = allowUnmatchedValues; String? _test(List values) { // Check the lengths are the same. if (_expected.length > values.length) { return 'has too few elements (${values.length} < ${_expected.length})'; } else if (!_allowUnmatchedValues && _expected.length < values.length) { return 'has too many elements (${values.length} > ${_expected.length})'; } var edges = List.generate(values.length, (_) => [], growable: false); for (var v = 0; v < values.length; v++) { for (var m = 0; m < _expected.length; m++) { if (_expected[m].matches(values[v], {})) { edges[v].add(m); } } } // The index into `values` matched with each matcher or `null` if no value // has been matched yet. var matched = List.filled(_expected.length, null); for (var valueIndex = 0; valueIndex < values.length; valueIndex++) { _findPairing(edges, valueIndex, matched); } for ( var matcherIndex = 0; matcherIndex < _expected.length; matcherIndex++ ) { if (matched[matcherIndex] == null) { final description = StringDescription() .add('has no match for ') .addDescriptionOf(_expected[matcherIndex]) .add(' at index $matcherIndex'); final remainingUnmatched = matched.sublist(matcherIndex + 1).where((m) => m == null).length; return remainingUnmatched == 0 ? description.toString() : description .add(' along with $remainingUnmatched other unmatched') .toString(); } } return null; } @override bool typedMatches(Iterable item, Map mismatchState) => _test(item.toList()) == null; @override Description describe(Description description) => description .add('matches ') .addAll('[', ', ', ']', _expected) .add(' unordered'); @override Description describeTypedMismatch( Iterable item, Description mismatchDescription, Map matchState, bool verbose, ) => mismatchDescription.add(_test(item.toList())!); /// Returns `true` if the value at [valueIndex] can be paired with some /// unmatched matcher and updates the state of [matched]. /// /// If there is a conflict where multiple values may match the same matcher /// recursively looks for a new place to match the old value. bool _findPairing( List> edges, int valueIndex, List matched, ) => _findPairingInner(edges, valueIndex, matched, {}); /// Implementation of [_findPairing], tracks [reserved] which are the /// matchers that have been used _during_ this search. bool _findPairingInner( List> edges, int valueIndex, List matched, Set reserved, ) { final possiblePairings = edges[valueIndex].where( (m) => !reserved.contains(m), ); for (final matcherIndex in possiblePairings) { reserved.add(matcherIndex); final previouslyMatched = matched[matcherIndex]; if (previouslyMatched == null || // If the matcher isn't already free, check whether the existing value // occupying the matcher can be bumped to another one. _findPairingInner(edges, matched[matcherIndex]!, matched, reserved)) { matched[matcherIndex] = valueIndex; return true; } } return false; } } /// A pairwise matcher for [Iterable]s. /// /// The [comparator] function, taking an expected and an actual argument, and /// returning whether they match, will be applied to each pair in order. /// [description] should be a meaningful name for the comparator. Matcher pairwiseCompare( Iterable expected, bool Function(S, T) comparator, String description, ) => _PairwiseCompare(expected, comparator, description); typedef _Comparator = bool Function(S a, T b); class _PairwiseCompare extends _IterableMatcher { final Iterable _expected; final _Comparator _comparator; final String _description; _PairwiseCompare(this._expected, this._comparator, this._description); @override bool typedMatches(Iterable item, Map matchState) { if (item.length != _expected.length) return false; var iterator = item.iterator; var i = 0; for (var e in _expected) { iterator.moveNext(); var current = iterator.current; if (current is! T || !_comparator(e, current)) { addStateInfo(matchState, { 'index': i, 'expected': e, 'actual': iterator.current, }); return false; } i++; } return true; } @override Description describe(Description description) => description.add('pairwise $_description ').addDescriptionOf(_expected); @override Description describeTypedMismatch( Iterable item, Description mismatchDescription, Map matchState, bool verbose, ) { if (item.length != _expected.length) { return mismatchDescription.add( 'has length ${item.length} instead of ${_expected.length}', ); } else { return mismatchDescription .add('has ') .addDescriptionOf(matchState['actual']) .add(' which is not $_description ') .addDescriptionOf(matchState['expected']) .add(' at index ${matchState["index"]}'); } } } /// Matches [Iterable]s which contain an element matching every value in /// [expected] in any order, and may contain additional values. /// /// For example: `[0, 1, 0, 2, 0]` matches `containsAll([1, 2])` and /// `containsAll([2, 1])` but not `containsAll([1, 2, 3])`. /// /// Will only match values which implement [Iterable]. /// /// Each element in the value will only be considered a match for a single /// matcher in [expected] even if it could satisfy more than one. For instance /// `containsAll([greaterThan(1), greaterThan(2)])` will not be satisfied by /// `[3]`. To check that all matchers are satisfied within an iterable and allow /// the same element to satisfy multiple matchers use /// `allOf(matchers.map(contains))`. /// /// Note that this is worst case O(n^2) runtime and memory usage so it should /// only be used on small iterables. Matcher containsAll(Iterable expected) => _ContainsAll(expected); class _ContainsAll extends _UnorderedMatches { final Iterable _unwrappedExpected; _ContainsAll(Iterable expected) : _unwrappedExpected = expected, super(expected.map(wrapMatcher), allowUnmatchedValues: true); @override Description describe(Description description) => description.add('contains all of ').addDescriptionOf(_unwrappedExpected); } /// Matches [Iterable]s which contain an element matching every value in /// [expected] in the same order, but may contain additional values interleaved /// throughout. /// /// For example: `[0, 1, 0, 2, 0]` matches `containsAllInOrder([1, 2])` but not /// `containsAllInOrder([2, 1])` or `containsAllInOrder([1, 2, 3])`. /// /// Will only match values which implement [Iterable]. Matcher containsAllInOrder(Iterable expected) => _ContainsAllInOrder(expected); class _ContainsAllInOrder extends _IterableMatcher { final Iterable _expected; _ContainsAllInOrder(this._expected); String? _test(Iterable item, Map matchState) { var matchers = _expected.map(wrapMatcher).toList(); var matcherIndex = 0; for (var value in item) { if (matchers[matcherIndex].matches(value, matchState)) matcherIndex++; if (matcherIndex == matchers.length) return null; } return StringDescription() .add('did not find a value matching ') .addDescriptionOf(matchers[matcherIndex]) .add(' following expected prior values') .toString(); } @override bool typedMatches(Iterable item, Map matchState) => _test(item, matchState) == null; @override Description describe(Description description) => description .add('contains in order(') .addDescriptionOf(_expected) .add(')'); @override Description describeTypedMismatch( Iterable item, Description mismatchDescription, Map matchState, bool verbose, ) => mismatchDescription.add(_test(item, matchState)!); } /// Matches [Iterable]s where exactly one element matches the expected /// value, and all other elements don't match. Matcher containsOnce(Object? expected) => _ContainsOnce(expected); class _ContainsOnce extends _IterableMatcher { final Object? _expected; _ContainsOnce(this._expected); String? _test(Iterable item, Map matchState) { var matcher = wrapMatcher(_expected); var matches = [ for (var value in item) if (matcher.matches(value, matchState)) value, ]; if (matches.length == 1) { return null; } if (matches.isEmpty) { return StringDescription() .add('did not find a value matching ') .addDescriptionOf(matcher) .toString(); } return StringDescription() .add('expected only one value matching ') .addDescriptionOf(matcher) .add(' but found multiple: ') .addAll('', ', ', '', matches) .toString(); } @override bool typedMatches(Iterable item, Map matchState) => _test(item, matchState) == null; @override Description describe(Description description) => description.add('contains once(').addDescriptionOf(_expected).add(')'); @override Description describeTypedMismatch( Iterable item, Description mismatchDescription, Map matchState, bool verbose, ) => mismatchDescription.add(_test(item, matchState)!); } /// Matches [Iterable]s which are sorted. Matcher isSorted>() => _IsSorted((t) => t, (a, b) => a.compareTo(b)); /// Matches [Iterable]s which are [compare]-sorted. Matcher isSortedUsing(Comparator compare) => _IsSorted((t) => t, compare); /// Matches [Iterable]s which are sorted by the [keyOf] property. Matcher isSortedBy>(K Function(T) keyOf) => _IsSorted(keyOf, (a, b) => a.compareTo(b)); /// Matches [Iterable]s which are [compare]-sorted by their [keyOf] property. Matcher isSortedByCompare(K Function(T) keyOf, Comparator compare) => _IsSorted(keyOf, compare); class _IsSorted extends _IterableMatcher { final K Function(T) _keyOf; final Comparator _compare; _IsSorted(K Function(T) keyOf, Comparator compare) : _keyOf = keyOf, _compare = compare; @override bool typedMatches(Iterable item, Map matchState) { var iterator = item.iterator; if (!iterator.moveNext()) return true; var previousElement = iterator.current; K previousKey; try { previousKey = _keyOf(previousElement); } catch (e) { addStateInfo(matchState, { 'index': 0, 'element': previousElement, 'error': e, 'keyError': true, }); return false; } var index = 0; while (iterator.moveNext()) { final element = iterator.current; final K key; try { key = _keyOf(element); } catch (e) { addStateInfo(matchState, { 'index': index, 'element': element, 'error': e, 'keyError': true, }); return false; } final int comparison; try { comparison = _compare(previousKey, key); } catch (e) { addStateInfo(matchState, { 'index': index, 'first': previousElement, 'second': element, 'error': e, 'compareError': true, }); return false; } if (comparison > 0) { addStateInfo(matchState, { 'index': index, 'first': previousElement, 'second': element, }); return false; } previousElement = element; previousKey = key; index++; } return true; } @override Description describe(Description description) => description.add('is sorted'); @override Description describeTypedMismatch( Iterable item, Description mismatchDescription, Map matchState, bool verbose, ) { if (matchState.containsKey('error')) { mismatchDescription .add('got error ') .addDescriptionOf(matchState['error']) .add(' at ') .addDescriptionOf(matchState['index']); if (matchState.containsKey('compareError')) { return mismatchDescription .add(' when comparing ') .addDescriptionOf(matchState['first']) .add(' and ') .addDescriptionOf(matchState['second']); } else { return mismatchDescription .add(' when getting key of ') .addDescriptionOf(matchState['element']); } } return mismatchDescription .add('found elements out of order at ') .addDescriptionOf(matchState['index']) .add(': ') .addDescriptionOf(matchState['first']) .add(' and ') .addDescriptionOf(matchState['second']); } }