sdk/lib/internal/cast.dart - sdk.git - Git at Google

 // 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.

 part of dart._internal;

 // Casting wrappers for collection classes.

 abstract class _CastIterableBase<S, T> extends Iterable<T> {
   Iterable<S> get _source;

   Iterator<T> get iterator => new CastIterator<S, T>(_source.iterator);

   // The following members use the default implementation on the
   // throwing iterator. These are all operations that have no more efficient
   // implementation than visiting every element in order,
   // or that has no more efficient way to get the correct type (toList, toSet).
   //
   // * map
   // * where
   // * expand
   // * forEach
   // * reduce
   // * fold
   // * every
   // * any
   // * join
   // * toList
   // * toSet
   // * skipWhile
   // * takeWhile
   // * firstWhere
   // * singleWhere

   int get length => _source.length;
   bool get isEmpty => _source.isEmpty;
   bool get isNotEmpty => _source.isNotEmpty;

   Iterable<T> skip(int count) => new CastIterable<S, T>(_source.skip(count));
   Iterable<T> take(int count) => new CastIterable<S, T>(_source.take(count));

   T elementAt(int index) => _source.elementAt(index) as T;
   T get first => _source.first as T;
   T get last => _source.last as T;
   T get single => _source.single as T;

   bool contains(Object? other) => _source.contains(other);

   // Might be implemented by testing backwards from the end,
   // so use the _source's implementation.
   T lastWhere(bool test(T element), {T Function()? orElse}) =>
       _source.lastWhere((S element) => test(element as T),
           orElse: (orElse == null) ? null : () => orElse() as S) as T;

   String toString() => _source.toString();
 }

 class CastIterator<S, T> implements Iterator<T> {
   Iterator<S> _source;
   CastIterator(this._source);
   bool moveNext() => _source.moveNext();
   T get current => _source.current as T;
 }

 class CastIterable<S, T> extends _CastIterableBase<S, T> {
   final Iterable<S> _source;

   CastIterable._(this._source);

   factory CastIterable(Iterable<S> source) {
     if (source is EfficientLengthIterable<S>) {
       return new _EfficientLengthCastIterable<S, T>(source);
     }
     return new CastIterable<S, T>._(source);
   }

   Iterable<R> cast<R>() => new CastIterable<S, R>(_source);
 }

 class _EfficientLengthCastIterable<S, T> extends CastIterable<S, T>
     implements EfficientLengthIterable<T> {
   _EfficientLengthCastIterable(EfficientLengthIterable<S> source)
       : super._(source);
 }

 abstract class _CastListBase<S, T> extends _CastIterableBase<S, T>
     with ListMixin<T> {
   List<S> get _source;

   // Using the default implementation from ListMixin:
   // * reversed
   // * shuffle
   // * indexOf
   // * lastIndexOf
   // * clear
   // * sublist
   // * asMap

   T operator [](int index) => _source[index] as T;

   void operator []=(int index, T value) {
     _source[index] = value as S;
   }

   void set length(int length) {
     _source.length = length;
   }

   void add(T value) {
     _source.add(value as S);
   }

   void addAll(Iterable<T> values) {
     _source.addAll(new CastIterable<T, S>(values));
   }

   void sort([int Function(T v1, T v2)? compare]) {
     _source.sort(
         compare == null ? null : (S v1, S v2) => compare(v1 as T, v2 as T));
   }

   void shuffle([Random? random]) {
     _source.shuffle(random);
   }

   void insert(int index, T element) {
     _source.insert(index, element as S);
   }

   void insertAll(int index, Iterable<T> elements) {
     _source.insertAll(index, new CastIterable<T, S>(elements));
   }

   void setAll(int index, Iterable<T> elements) {
     _source.setAll(index, new CastIterable<T, S>(elements));
   }

   bool remove(Object? value) => _source.remove(value);

   T removeAt(int index) => _source.removeAt(index) as T;

   T removeLast() => _source.removeLast() as T;

   void removeWhere(bool test(T element)) {
     _source.removeWhere((S element) => test(element as T));
   }

   void retainWhere(bool test(T element)) {
     _source.retainWhere((S element) => test(element as T));
   }

   Iterable<T> getRange(int start, int end) =>
       new CastIterable<S, T>(_source.getRange(start, end));

   void setRange(int start, int end, Iterable<T> iterable, [int skipCount = 0]) {
     _source.setRange(start, end, new CastIterable<T, S>(iterable), skipCount);
   }

   void removeRange(int start, int end) {
     _source.removeRange(start, end);
   }

   void fillRange(int start, int end, [T? fillValue]) {
     _source.fillRange(start, end, fillValue as S);
   }

   void replaceRange(int start, int end, Iterable<T> replacement) {
     _source.replaceRange(start, end, new CastIterable<T, S>(replacement));
   }
 }

 class CastList<S, T> extends _CastListBase<S, T> {
   final List<S> _source;
   CastList(this._source);

   List<R> cast<R>() => new CastList<S, R>(_source);
 }

 class CastSet<S, T> extends _CastIterableBase<S, T> implements Set<T> {
   final Set<S> _source;

   /// Creates a new empty set of the same *kind* as [_source],
   /// but with `<R>` as type argument.
   /// Used by [toSet] and [union].
   final Set<R> Function<R>()? _emptySet;

   CastSet(this._source, this._emptySet);

   static Set<R> _defaultEmptySet<R>() => new Set<R>();

   Set<R> cast<R>() => new CastSet<S, R>(_source, _emptySet);
   bool add(T value) => _source.add(value as S);

   void addAll(Iterable<T> elements) {
     _source.addAll(new CastIterable<T, S>(elements));
   }

   bool remove(Object? object) => _source.remove(object);

   void removeAll(Iterable<Object?> objects) {
     _source.removeAll(objects);
   }

   void retainAll(Iterable<Object?> objects) {
     _source.retainAll(objects);
   }

   void removeWhere(bool test(T element)) {
     _source.removeWhere((S element) => test(element as T));
   }

   void retainWhere(bool test(T element)) {
     _source.retainWhere((S element) => test(element as T));
   }

   bool containsAll(Iterable<Object?> objects) => _source.containsAll(objects);

   Set<T> intersection(Set<Object?> other) {
     if (_emptySet != null) return _conditionalAdd(other, true);
     return new CastSet<S, T>(_source.intersection(other), null);
   }

   Set<T> difference(Set<Object?> other) {
     if (_emptySet != null) return _conditionalAdd(other, false);
     return new CastSet<S, T>(_source.difference(other), null);
   }

   Set<T> _conditionalAdd(Set<Object?> other, bool otherContains) {
     var emptySet = _emptySet;
     Set<T> result = (emptySet == null) ? new Set<T>() : emptySet<T>();
     for (var element in _source) {
       T castElement = element as T;
       if (otherContains == other.contains(castElement)) result.add(castElement);
     }
     return result;
   }

   Set<T> union(Set<T> other) => _clone()..addAll(other);

   void clear() {
     _source.clear();
   }

   Set<T> _clone() {
     var emptySet = _emptySet;
     Set<T> result = (emptySet == null) ? new Set<T>() : emptySet<T>();
     result.addAll(this);
     return result;
   }

   Set<T> toSet() => _clone();

   T lookup(Object? key) => _source.lookup(key) as T;
 }

 class CastMap<SK, SV, K, V> extends MapBase<K, V> {
   final Map<SK, SV> _source;

   CastMap(this._source);

   Map<RK, RV> cast<RK, RV>() => new CastMap<SK, SV, RK, RV>(_source);

   bool containsValue(Object? value) => _source.containsValue(value);

   bool containsKey(Object? key) => _source.containsKey(key);

   V? operator [](Object? key) => _source[key] as V?;

   void operator []=(K key, V value) {
     _source[key as SK] = value as SV;
   }

   V putIfAbsent(K key, V Function() ifAbsent) =>
       _source.putIfAbsent(key as SK, () => ifAbsent() as SV) as V;

   void addAll(Map<K, V> other) {
     _source.addAll(new CastMap<K, V, SK, SV>(other));
   }

   V? remove(Object? key) => _source.remove(key) as V?;

   void clear() {
     _source.clear();
   }

   void forEach(void f(K key, V value)) {
     _source.forEach((SK key, SV value) {
       f(key as K, value as V);
     });
   }

   Iterable<K> get keys => new CastIterable<SK, K>(_source.keys);

   Iterable<V> get values => new CastIterable<SV, V>(_source.values);

   int get length => _source.length;

   bool get isEmpty => _source.isEmpty;

   bool get isNotEmpty => _source.isNotEmpty;

   V update(K key, V update(V value), {V Function()? ifAbsent}) {
     return _source.update(key as SK, (SV value) => update(value as V) as SV,
         ifAbsent: (ifAbsent == null) ? null : () => ifAbsent() as SV) as V;
   }

   void updateAll(V update(K key, V value)) {
     _source.updateAll((SK key, SV value) => update(key as K, value as V) as SV);
   }

   Iterable<MapEntry<K, V>> get entries {
     return _source.entries.map<MapEntry<K, V>>(
         (MapEntry<SK, SV> e) => new MapEntry<K, V>(e.key as K, e.value as V));
   }

   void addEntries(Iterable<MapEntry<K, V>> entries) {
     for (var entry in entries) {
       _source[entry.key as SK] = entry.value as SV;
     }
   }

   void removeWhere(bool test(K key, V value)) {
     _source.removeWhere((SK key, SV value) => test(key as K, value as V));
   }
 }

 class CastQueue<S, T> extends _CastIterableBase<S, T> implements Queue<T> {
   final Queue<S> _source;
   CastQueue(this._source);
   Queue<R> cast<R>() => new CastQueue<S, R>(_source);

   T removeFirst() => _source.removeFirst() as T;
   T removeLast() => _source.removeLast() as T;

   void add(T value) {
     _source.add(value as S);
   }

   void addFirst(T value) {
     _source.addFirst(value as S);
   }

   void addLast(T value) {
     _source.addLast(value as S);
   }

   bool remove(Object? other) => _source.remove(other);
   void addAll(Iterable<T> elements) {
     _source.addAll(new CastIterable<T, S>(elements));
   }

   void removeWhere(bool test(T element)) {
     _source.removeWhere((S element) => test(element as T));
   }

   void retainWhere(bool test(T element)) {
     _source.retainWhere((S element) => test(element as T));
   }

   void clear() {
     _source.clear();
   }
 }
	// 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.

	part of dart._internal;

	// Casting wrappers for collection classes.

	abstract class _CastIterableBase<S, T> extends Iterable<T> {
	Iterable<S> get _source;

	Iterator<T> get iterator => new CastIterator<S, T>(_source.iterator);

	// The following members use the default implementation on the
	// throwing iterator. These are all operations that have no more efficient
	// implementation than visiting every element in order,
	// or that has no more efficient way to get the correct type (toList, toSet).
	//
	// * map
	// * where
	// * expand
	// * forEach
	// * reduce
	// * fold
	// * every
	// * any
	// * join
	// * toList
	// * toSet
	// * skipWhile
	// * takeWhile
	// * firstWhere
	// * singleWhere

	int get length => _source.length;
	bool get isEmpty => _source.isEmpty;
	bool get isNotEmpty => _source.isNotEmpty;

	Iterable<T> skip(int count) => new CastIterable<S, T>(_source.skip(count));
	Iterable<T> take(int count) => new CastIterable<S, T>(_source.take(count));

	T elementAt(int index) => _source.elementAt(index) as T;
	T get first => _source.first as T;
	T get last => _source.last as T;
	T get single => _source.single as T;

	bool contains(Object? other) => _source.contains(other);

	// Might be implemented by testing backwards from the end,
	// so use the _source's implementation.
	T lastWhere(bool test(T element), {T Function()? orElse}) =>
	_source.lastWhere((S element) => test(element as T),
	orElse: (orElse == null) ? null : () => orElse() as S) as T;

	String toString() => _source.toString();
	}

	class CastIterator<S, T> implements Iterator<T> {
	Iterator<S> _source;
	CastIterator(this._source);
	bool moveNext() => _source.moveNext();
	T get current => _source.current as T;
	}

	class CastIterable<S, T> extends _CastIterableBase<S, T> {
	final Iterable<S> _source;

	CastIterable._(this._source);

	factory CastIterable(Iterable<S> source) {
	if (source is EfficientLengthIterable<S>) {
	return new _EfficientLengthCastIterable<S, T>(source);
	}
	return new CastIterable<S, T>._(source);
	}

	Iterable<R> cast<R>() => new CastIterable<S, R>(_source);
	}

	class _EfficientLengthCastIterable<S, T> extends CastIterable<S, T>
	implements EfficientLengthIterable<T> {
	_EfficientLengthCastIterable(EfficientLengthIterable<S> source)
	: super._(source);
	}

	abstract class _CastListBase<S, T> extends _CastIterableBase<S, T>
	with ListMixin<T> {
	List<S> get _source;

	// Using the default implementation from ListMixin:
	// * reversed
	// * shuffle
	// * indexOf
	// * lastIndexOf
	// * clear
	// * sublist
	// * asMap

	T operator [](int index) => _source[index] as T;

	void operator []=(int index, T value) {
	_source[index] = value as S;
	}

	void set length(int length) {
	_source.length = length;
	}

	void add(T value) {
	_source.add(value as S);
	}

	void addAll(Iterable<T> values) {
	_source.addAll(new CastIterable<T, S>(values));
	}

	void sort([int Function(T v1, T v2)? compare]) {
	_source.sort(
	compare == null ? null : (S v1, S v2) => compare(v1 as T, v2 as T));
	}

	void shuffle([Random? random]) {
	_source.shuffle(random);
	}

	void insert(int index, T element) {
	_source.insert(index, element as S);
	}

	void insertAll(int index, Iterable<T> elements) {
	_source.insertAll(index, new CastIterable<T, S>(elements));
	}

	void setAll(int index, Iterable<T> elements) {
	_source.setAll(index, new CastIterable<T, S>(elements));
	}

	bool remove(Object? value) => _source.remove(value);

	T removeAt(int index) => _source.removeAt(index) as T;

	T removeLast() => _source.removeLast() as T;

	void removeWhere(bool test(T element)) {
	_source.removeWhere((S element) => test(element as T));
	}

	void retainWhere(bool test(T element)) {
	_source.retainWhere((S element) => test(element as T));
	}

	Iterable<T> getRange(int start, int end) =>
	new CastIterable<S, T>(_source.getRange(start, end));

	void setRange(int start, int end, Iterable<T> iterable, [int skipCount = 0]) {
	_source.setRange(start, end, new CastIterable<T, S>(iterable), skipCount);
	}

	void removeRange(int start, int end) {
	_source.removeRange(start, end);
	}

	void fillRange(int start, int end, [T? fillValue]) {
	_source.fillRange(start, end, fillValue as S);
	}

	void replaceRange(int start, int end, Iterable<T> replacement) {
	_source.replaceRange(start, end, new CastIterable<T, S>(replacement));
	}
	}

	class CastList<S, T> extends _CastListBase<S, T> {
	final List<S> _source;
	CastList(this._source);

	List<R> cast<R>() => new CastList<S, R>(_source);
	}

	class CastSet<S, T> extends _CastIterableBase<S, T> implements Set<T> {
	final Set<S> _source;

	/// Creates a new empty set of the same kind as [_source],
	/// but with `<R>` as type argument.
	/// Used by [toSet] and [union].
	final Set<R> Function<R>()? _emptySet;

	CastSet(this._source, this._emptySet);

	static Set<R> _defaultEmptySet<R>() => new Set<R>();

	Set<R> cast<R>() => new CastSet<S, R>(_source, _emptySet);
	bool add(T value) => _source.add(value as S);

	void addAll(Iterable<T> elements) {
	_source.addAll(new CastIterable<T, S>(elements));
	}

	bool remove(Object? object) => _source.remove(object);

	void removeAll(Iterable<Object?> objects) {
	_source.removeAll(objects);
	}

	void retainAll(Iterable<Object?> objects) {
	_source.retainAll(objects);
	}

	void removeWhere(bool test(T element)) {
	_source.removeWhere((S element) => test(element as T));
	}

	void retainWhere(bool test(T element)) {
	_source.retainWhere((S element) => test(element as T));
	}

	bool containsAll(Iterable<Object?> objects) => _source.containsAll(objects);

	Set<T> intersection(Set<Object?> other) {
	if (_emptySet != null) return _conditionalAdd(other, true);
	return new CastSet<S, T>(_source.intersection(other), null);
	}

	Set<T> difference(Set<Object?> other) {
	if (_emptySet != null) return _conditionalAdd(other, false);
	return new CastSet<S, T>(_source.difference(other), null);
	}

	Set<T> _conditionalAdd(Set<Object?> other, bool otherContains) {
	var emptySet = _emptySet;
	Set<T> result = (emptySet == null) ? new Set<T>() : emptySet<T>();
	for (var element in _source) {
	T castElement = element as T;
	if (otherContains == other.contains(castElement)) result.add(castElement);
	}
	return result;
	}

	Set<T> union(Set<T> other) => _clone()..addAll(other);

	void clear() {
	_source.clear();
	}

	Set<T> _clone() {
	var emptySet = _emptySet;
	Set<T> result = (emptySet == null) ? new Set<T>() : emptySet<T>();
	result.addAll(this);
	return result;
	}

	Set<T> toSet() => _clone();

	T lookup(Object? key) => _source.lookup(key) as T;
	}

	class CastMap<SK, SV, K, V> extends MapBase<K, V> {
	final Map<SK, SV> _source;

	CastMap(this._source);

	Map<RK, RV> cast<RK, RV>() => new CastMap<SK, SV, RK, RV>(_source);

	bool containsValue(Object? value) => _source.containsValue(value);

	bool containsKey(Object? key) => _source.containsKey(key);

	V? operator [](Object? key) => _source[key] as V?;

	void operator []=(K key, V value) {
	_source[key as SK] = value as SV;
	}

	V putIfAbsent(K key, V Function() ifAbsent) =>
	_source.putIfAbsent(key as SK, () => ifAbsent() as SV) as V;

	void addAll(Map<K, V> other) {
	_source.addAll(new CastMap<K, V, SK, SV>(other));
	}

	V? remove(Object? key) => _source.remove(key) as V?;

	void clear() {
	_source.clear();
	}

	void forEach(void f(K key, V value)) {
	_source.forEach((SK key, SV value) {
	f(key as K, value as V);
	});
	}

	Iterable<K> get keys => new CastIterable<SK, K>(_source.keys);

	Iterable<V> get values => new CastIterable<SV, V>(_source.values);

	int get length => _source.length;

	bool get isEmpty => _source.isEmpty;

	bool get isNotEmpty => _source.isNotEmpty;

	V update(K key, V update(V value), {V Function()? ifAbsent}) {
	return _source.update(key as SK, (SV value) => update(value as V) as SV,
	ifAbsent: (ifAbsent == null) ? null : () => ifAbsent() as SV) as V;
	}

	void updateAll(V update(K key, V value)) {
	_source.updateAll((SK key, SV value) => update(key as K, value as V) as SV);
	}

	Iterable<MapEntry<K, V>> get entries {
	return _source.entries.map<MapEntry<K, V>>(
	(MapEntry<SK, SV> e) => new MapEntry<K, V>(e.key as K, e.value as V));
	}

	void addEntries(Iterable<MapEntry<K, V>> entries) {
	for (var entry in entries) {
	_source[entry.key as SK] = entry.value as SV;
	}
	}

	void removeWhere(bool test(K key, V value)) {
	_source.removeWhere((SK key, SV value) => test(key as K, value as V));
	}
	}

	class CastQueue<S, T> extends _CastIterableBase<S, T> implements Queue<T> {
	final Queue<S> _source;
	CastQueue(this._source);
	Queue<R> cast<R>() => new CastQueue<S, R>(_source);

	T removeFirst() => _source.removeFirst() as T;
	T removeLast() => _source.removeLast() as T;

	void add(T value) {
	_source.add(value as S);
	}

	void addFirst(T value) {
	_source.addFirst(value as S);
	}

	void addLast(T value) {
	_source.addLast(value as S);
	}

	bool remove(Object? other) => _source.remove(other);
	void addAll(Iterable<T> elements) {
	_source.addAll(new CastIterable<T, S>(elements));
	}

	void removeWhere(bool test(T element)) {
	_source.removeWhere((S element) => test(element as T));
	}

	void retainWhere(bool test(T element)) {
	_source.retainWhere((S element) => test(element as T));
	}

	void clear() {
	_source.clear();
	}
	}