sdk/lib/collection/set.dart - sdk.git - Git at Google

 // Copyright (c) 2014, 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.

 /**
  * Base implementations of [Set].
  */
 part of dart.collection;

 /**
  * Mixin implementation of [Set].
  *
  * This class provides a base implementation of a `Set` that depends only
  * on the abstract members: [add], [contains], [lookup], [remove],
  * [iterator], [length] and [toSet].
  *
  * Some of the methods assume that `toSet` creates a modifiable set.
  * If using this mixin for an unmodifiable set,
  * where `toSet` should return an unmodifiable set,
  * it's necessary to reimplement
  * [retainAll], [union], [intersection] and [difference].
  *
  * Implementations of `Set` using this mixin should consider also implementing
  * `clear` in constant time. The default implementation works by removing every
  * element.
  */
 abstract class SetMixin<E> implements Set<E> {
   // This class reimplements all of [IterableMixin].
   // If/when Dart mixins get more powerful, we should just create a single
   // Mixin class from IterableMixin and the new methods of thisclass.

   bool add(E element);

   bool contains(Object element);

   E lookup(Object element);

   bool remove(Object element);

   Iterator<E> get iterator;

   Set<E> toSet();

   int get length;

   bool get isEmpty => length == 0;

   bool get isNotEmpty => length != 0;

   void clear() {
     removeAll(toList());
   }

   void addAll(Iterable<E> elements) {
     for (E element in elements) add(element);
   }

   void removeAll(Iterable<Object> elements) {
     for (Object element in elements) remove(element);
   }

   void retainAll(Iterable<Object> elements) {
     // Create a copy of the set, remove all of elements from the copy,
     // then remove all remaining elements in copy from this.
     Set<E> toRemove = toSet();
     for (Object o in elements) {
       toRemove.remove(o);
     }
     removeAll(toRemove);
   }

   void removeWhere(bool test(E element)) {
     List toRemove = [];
     for (E element in this) {
       if (test(element)) toRemove.add(element);
     }
     removeAll(toRemove);
   }

   void retainWhere(bool test(E element)) {
     List toRemove = [];
     for (E element in this) {
       if (!test(element)) toRemove.add(element);
     }
     removeAll(toRemove);
   }

   bool containsAll(Iterable<Object> other) {
     for (Object o in other) {
       if (!contains(o)) return false;
     }
     return true;
   }

   Set<E> union(Set<E> other) {
     return toSet()..addAll(other);
   }

   Set<E> intersection(Set<Object> other) {
     Set<E> result = toSet();
     for (E element in this) {
       if (!other.contains(element)) result.remove(element);
     }
     return result;
   }

   Set<E> difference(Set<Object> other) {
     Set<E> result = toSet();
     for (E element in this) {
       if (other.contains(element)) result.remove(element);
     }
     return result;
   }

   List<E> toList({bool growable: true}) {
     List<E> result = growable ? (new List<E>()..length = length)
                               : new List<E>(length);
     int i = 0;
     for (E element in this) result[i++] = element;
     return result;
   }

   Iterable/*<T>*/ map/*<T>*/(/*=T*/f(E element)) =>
       new EfficientLengthMappedIterable<E, dynamic/*=T*/>(this, f);

   E get single {
     if (length > 1) throw IterableElementError.tooMany();
     Iterator<E> it = iterator;
     if (!it.moveNext()) throw IterableElementError.noElement();
     E result = it.current;
     return result;
   }

   String toString() => IterableBase.iterableToFullString(this, '{', '}');

   // Copied from IterableMixin.
   // Should be inherited if we had multi-level mixins.

   Iterable<E> where(bool f(E element)) => new WhereIterable<E>(this, f);

   Iterable/*<T>*/ expand/*<T>*/(Iterable/*<T>*/ f(E element)) =>
       new ExpandIterable<E, dynamic/*=T*/>(this, f);

   void forEach(void f(E element)) {
     for (E element in this) f(element);
   }

   E reduce(E combine(E value, E element)) {
     Iterator<E> iterator = this.iterator;
     if (!iterator.moveNext()) {
       throw IterableElementError.noElement();
     }
     E value = iterator.current;
     while (iterator.moveNext()) {
       value = combine(value, iterator.current);
     }
     return value;
   }

   dynamic/*=T*/ fold/*<T>*/(var/*=T*/ initialValue,
       dynamic/*=T*/ combine(var/*=T*/ previousValue, E element)) {
     var value = initialValue;
     for (E element in this) value = combine(value, element);
     return value;
   }

   bool every(bool f(E element)) {
     for (E element in this) {
       if (!f(element)) return false;
     }
     return true;
   }

   String join([String separator = ""]) {
     Iterator<E> iterator = this.iterator;
     if (!iterator.moveNext()) return "";
     StringBuffer buffer = new StringBuffer();
     if (separator == null || separator == "") {
       do {
         buffer.write("${iterator.current}");
       } while (iterator.moveNext());
     } else {
       buffer.write("${iterator.current}");
       while (iterator.moveNext()) {
         buffer.write(separator);
         buffer.write("${iterator.current}");
       }
     }
     return buffer.toString();
   }

   bool any(bool test(E element)) {
     for (E element in this) {
       if (test(element)) return true;
     }
     return false;
   }

   Iterable<E> take(int n) {
     return new TakeIterable<E>(this, n);
   }

   Iterable<E> takeWhile(bool test(E value)) {
     return new TakeWhileIterable<E>(this, test);
   }

   Iterable<E> skip(int n) {
     return new SkipIterable<E>(this, n);
   }

   Iterable<E> skipWhile(bool test(E value)) {
     return new SkipWhileIterable<E>(this, test);
   }

   E get first {
     Iterator<E> it = iterator;
     if (!it.moveNext()) {
       throw IterableElementError.noElement();
     }
     return it.current;
   }

   E get last {
     Iterator<E> it = iterator;
     if (!it.moveNext()) {
       throw IterableElementError.noElement();
     }
     E result;
     do {
       result = it.current;
     } while(it.moveNext());
     return result;
   }

   E firstWhere(bool test(E value), { E orElse() }) {
     for (E element in this) {
       if (test(element)) return element;
     }
     if (orElse != null) return orElse();
     throw IterableElementError.noElement();
   }

   E lastWhere(bool test(E value), { E orElse() }) {
     E result = null;
     bool foundMatching = false;
     for (E element in this) {
       if (test(element)) {
         result = element;
         foundMatching = true;
       }
     }
     if (foundMatching) return result;
     if (orElse != null) return orElse();
     throw IterableElementError.noElement();
   }

   E singleWhere(bool test(E value)) {
     E result = null;
     bool foundMatching = false;
     for (E element in this) {
       if (test(element)) {
         if (foundMatching) {
           throw IterableElementError.tooMany();
         }
         result = element;
         foundMatching = true;
       }
     }
     if (foundMatching) return result;
     throw IterableElementError.noElement();
   }

   E elementAt(int index) {
     if (index is! int) throw new ArgumentError.notNull("index");
     RangeError.checkNotNegative(index, "index");
     int elementIndex = 0;
     for (E element in this) {
       if (index == elementIndex) return element;
       elementIndex++;
     }
     throw new RangeError.index(index, this, "index", null, elementIndex);
   }
 }

 /**
  * Base implementation of [Set].
  *
  * This class provides a base implementation of a `Set` that depends only
  * on the abstract members: [add], [contains], [lookup], [remove],
  * [iterator], [length] and [toSet].
  *
  * Some of the methods assume that `toSet` creates a modifiable set.
  * If using this base class for an unmodifiable set,
  * where `toSet` should return an unmodifiable set,
  * it's necessary to reimplement
  * [retainAll], [union], [intersection] and [difference].
  *
  * Implementations of `Set` using this base should consider also implementing
  * `clear` in constant time. The default implementation works by removing every
  * element.
  */
 abstract class SetBase<E> extends SetMixin<E> {
   /**
    * Convert a `Set` to a string as `{each, element, as, string}`.
    *
    * Handles circular references where converting one of the elements
    * to a string ends up converting [set] to a string again.
    */
   static String setToString(Set set) =>
       IterableBase.iterableToFullString(set, '{', '}');
 }
	// Copyright (c) 2014, 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.

	/**
	* Base implementations of [Set].
	*/
	part of dart.collection;

	/**
	* Mixin implementation of [Set].
	*
	* This class provides a base implementation of a `Set` that depends only
	* on the abstract members: [add], [contains], [lookup], [remove],
	* [iterator], [length] and [toSet].
	*
	* Some of the methods assume that `toSet` creates a modifiable set.
	* If using this mixin for an unmodifiable set,
	* where `toSet` should return an unmodifiable set,
	* it's necessary to reimplement
	* [retainAll], [union], [intersection] and [difference].
	*
	* Implementations of `Set` using this mixin should consider also implementing
	* `clear` in constant time. The default implementation works by removing every
	* element.
	*/
	abstract class SetMixin<E> implements Set<E> {
	// This class reimplements all of [IterableMixin].
	// If/when Dart mixins get more powerful, we should just create a single
	// Mixin class from IterableMixin and the new methods of thisclass.

	bool add(E element);

	bool contains(Object element);

	E lookup(Object element);

	bool remove(Object element);

	Iterator<E> get iterator;

	Set<E> toSet();

	int get length;

	bool get isEmpty => length == 0;

	bool get isNotEmpty => length != 0;

	void clear() {
	removeAll(toList());
	}

	void addAll(Iterable<E> elements) {
	for (E element in elements) add(element);
	}

	void removeAll(Iterable<Object> elements) {
	for (Object element in elements) remove(element);
	}

	void retainAll(Iterable<Object> elements) {
	// Create a copy of the set, remove all of elements from the copy,
	// then remove all remaining elements in copy from this.
	Set<E> toRemove = toSet();
	for (Object o in elements) {
	toRemove.remove(o);
	}
	removeAll(toRemove);
	}

	void removeWhere(bool test(E element)) {
	List toRemove = [];
	for (E element in this) {
	if (test(element)) toRemove.add(element);
	}
	removeAll(toRemove);
	}

	void retainWhere(bool test(E element)) {
	List toRemove = [];
	for (E element in this) {
	if (!test(element)) toRemove.add(element);
	}
	removeAll(toRemove);
	}

	bool containsAll(Iterable<Object> other) {
	for (Object o in other) {
	if (!contains(o)) return false;
	}
	return true;
	}

	Set<E> union(Set<E> other) {
	return toSet()..addAll(other);
	}

	Set<E> intersection(Set<Object> other) {
	Set<E> result = toSet();
	for (E element in this) {
	if (!other.contains(element)) result.remove(element);
	}
	return result;
	}

	Set<E> difference(Set<Object> other) {
	Set<E> result = toSet();
	for (E element in this) {
	if (other.contains(element)) result.remove(element);
	}
	return result;
	}

	List<E> toList({bool growable: true}) {
	List<E> result = growable ? (new List<E>()..length = length)
	: new List<E>(length);
	int i = 0;
	for (E element in this) result[i++] = element;
	return result;
	}

	Iterable/<T>/ map/<T>/(/=T/f(E element)) =>
	new EfficientLengthMappedIterable<E, dynamic/=T/>(this, f);

	E get single {
	if (length > 1) throw IterableElementError.tooMany();
	Iterator<E> it = iterator;
	if (!it.moveNext()) throw IterableElementError.noElement();
	E result = it.current;
	return result;
	}

	String toString() => IterableBase.iterableToFullString(this, '{', '}');

	// Copied from IterableMixin.
	// Should be inherited if we had multi-level mixins.

	Iterable<E> where(bool f(E element)) => new WhereIterable<E>(this, f);

	Iterable/<T>/ expand/<T>/(Iterable/<T>/ f(E element)) =>
	new ExpandIterable<E, dynamic/=T/>(this, f);

	void forEach(void f(E element)) {
	for (E element in this) f(element);
	}

	E reduce(E combine(E value, E element)) {
	Iterator<E> iterator = this.iterator;
	if (!iterator.moveNext()) {
	throw IterableElementError.noElement();
	}
	E value = iterator.current;
	while (iterator.moveNext()) {
	value = combine(value, iterator.current);
	}
	return value;
	}

	dynamic/=T/ fold/<T>/(var/=T/ initialValue,
	dynamic/=T/ combine(var/=T/ previousValue, E element)) {
	var value = initialValue;
	for (E element in this) value = combine(value, element);
	return value;
	}

	bool every(bool f(E element)) {
	for (E element in this) {
	if (!f(element)) return false;
	}
	return true;
	}

	String join([String separator = ""]) {
	Iterator<E> iterator = this.iterator;
	if (!iterator.moveNext()) return "";
	StringBuffer buffer = new StringBuffer();
	if (separator == null \|\| separator == "") {
	do {
	buffer.write("${iterator.current}");
	} while (iterator.moveNext());
	} else {
	buffer.write("${iterator.current}");
	while (iterator.moveNext()) {
	buffer.write(separator);
	buffer.write("${iterator.current}");
	}
	}
	return buffer.toString();
	}

	bool any(bool test(E element)) {
	for (E element in this) {
	if (test(element)) return true;
	}
	return false;
	}

	Iterable<E> take(int n) {
	return new TakeIterable<E>(this, n);
	}

	Iterable<E> takeWhile(bool test(E value)) {
	return new TakeWhileIterable<E>(this, test);
	}

	Iterable<E> skip(int n) {
	return new SkipIterable<E>(this, n);
	}

	Iterable<E> skipWhile(bool test(E value)) {
	return new SkipWhileIterable<E>(this, test);
	}

	E get first {
	Iterator<E> it = iterator;
	if (!it.moveNext()) {
	throw IterableElementError.noElement();
	}
	return it.current;
	}

	E get last {
	Iterator<E> it = iterator;
	if (!it.moveNext()) {
	throw IterableElementError.noElement();
	}
	E result;
	do {
	result = it.current;
	} while(it.moveNext());
	return result;
	}

	E firstWhere(bool test(E value), { E orElse() }) {
	for (E element in this) {
	if (test(element)) return element;
	}
	if (orElse != null) return orElse();
	throw IterableElementError.noElement();
	}

	E lastWhere(bool test(E value), { E orElse() }) {
	E result = null;
	bool foundMatching = false;
	for (E element in this) {
	if (test(element)) {
	result = element;
	foundMatching = true;
	}
	}
	if (foundMatching) return result;
	if (orElse != null) return orElse();
	throw IterableElementError.noElement();
	}

	E singleWhere(bool test(E value)) {
	E result = null;
	bool foundMatching = false;
	for (E element in this) {
	if (test(element)) {
	if (foundMatching) {
	throw IterableElementError.tooMany();
	}
	result = element;
	foundMatching = true;
	}
	}
	if (foundMatching) return result;
	throw IterableElementError.noElement();
	}

	E elementAt(int index) {
	if (index is! int) throw new ArgumentError.notNull("index");
	RangeError.checkNotNegative(index, "index");
	int elementIndex = 0;
	for (E element in this) {
	if (index == elementIndex) return element;
	elementIndex++;
	}
	throw new RangeError.index(index, this, "index", null, elementIndex);
	}
	}

	/**
	* Base implementation of [Set].
	*
	* This class provides a base implementation of a `Set` that depends only
	* on the abstract members: [add], [contains], [lookup], [remove],
	* [iterator], [length] and [toSet].
	*
	* Some of the methods assume that `toSet` creates a modifiable set.
	* If using this base class for an unmodifiable set,
	* where `toSet` should return an unmodifiable set,
	* it's necessary to reimplement
	* [retainAll], [union], [intersection] and [difference].
	*
	* Implementations of `Set` using this base should consider also implementing
	* `clear` in constant time. The default implementation works by removing every
	* element.
	*/
	abstract class SetBase<E> extends SetMixin<E> {
	/**
	* Convert a `Set` to a string as `{each, element, as, string}`.
	*
	* Handles circular references where converting one of the elements
	* to a string ends up converting [set] to a string again.
	*/
	static String setToString(Set set) =>
	IterableBase.iterableToFullString(set, '{', '}');
	}