Index: pkg/compiler/lib/src/util/setlet.dart |
diff --git a/pkg/compiler/lib/src/util/setlet.dart b/pkg/compiler/lib/src/util/setlet.dart |
deleted file mode 100644 |
index 10c0224487c73b80b0b6ca0b14cccf7e18323bec..0000000000000000000000000000000000000000 |
--- a/pkg/compiler/lib/src/util/setlet.dart |
+++ /dev/null |
@@ -1,312 +0,0 @@ |
-// 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 dart2js.util.setlet; |
- |
-import 'dart:collection' show IterableBase; |
- |
-class Setlet<E> extends IterableBase<E> implements Set<E> { |
- static const _MARKER = const _SetletMarker(); |
- static const CAPACITY = 8; |
- |
- // The setlet can be in one of four states: |
- // |
- // * Empty (extra: null, contents: marker) |
- // * Single element (extra: null, contents: element) |
- // * List-backed (extra: length, contents: list) |
- // * Set-backed (extra: marker, contents: set) |
- // |
- // When the setlet is list-backed, the list in the contents field |
- // may have empty slots filled with the marker value. |
- var _contents = _MARKER; |
- var _extra; |
- |
- Setlet(); |
- Setlet.from(Iterable<E> elements) { |
- addAll(elements); |
- } |
- |
- Iterator<E> get iterator { |
- if (_extra == null) { |
- return new _SetletSingleIterator<E>(_contents); |
- } else if (_MARKER == _extra) { |
- return _contents.iterator; |
- } else { |
- return new _SetletListIterator<E>(_contents, _extra); |
- } |
- } |
- |
- int get length { |
- if (_extra == null) { |
- return (_MARKER == _contents) ? 0 : 1; |
- } else if (_MARKER == _extra) { |
- return _contents.length; |
- } else { |
- return _extra; |
- } |
- } |
- |
- bool get isEmpty { |
- if (_extra == null) { |
- return _MARKER == _contents; |
- } else if (_MARKER == _extra) { |
- return _contents.isEmpty; |
- } else { |
- return _extra == 0; |
- } |
- } |
- |
- bool contains(E element) { |
- if (_extra == null) { |
- return _contents == element; |
- } else if (_MARKER == _extra) { |
- return _contents.contains(element); |
- } else { |
- for (int remaining = _extra, i = 0; remaining > 0 && i < CAPACITY; i++) { |
- var candidate = _contents[i]; |
- if (_MARKER == candidate) continue; |
- if (candidate == element) return true; |
- remaining--; |
- } |
- return false; |
- } |
- } |
- |
- bool add(E element) { |
- if (_extra == null) { |
- if (_MARKER == _contents) { |
- _contents = element; |
- return true; |
- } else if (_contents == element) { |
- // Do nothing. |
- return false; |
- } else { |
- List list = new List(CAPACITY); |
- list[0] = _contents; |
- list[1] = element; |
- _contents = list; |
- _extra = 2; // Two elements. |
- return true; |
- } |
- } else if (_MARKER == _extra) { |
- return _contents.add(element); |
- } else { |
- int remaining = _extra; |
- int index = 0; |
- int copyTo, copyFrom; |
- while (remaining > 0 && index < CAPACITY) { |
- var candidate = _contents[index++]; |
- if (_MARKER == candidate) { |
- // Keep track of the last range of empty slots in the |
- // list. When we're done we'll move all the elements |
- // after those empty slots down, so that adding an element |
- // after that will preserve the insertion order. |
- if (copyFrom == index - 1) { |
- copyFrom++; |
- } else { |
- copyTo = index - 1; |
- copyFrom = index; |
- } |
- continue; |
- } else if (candidate == element) { |
- return false; |
- } |
- remaining--; |
- } |
- if (index < CAPACITY) { |
- _contents[index] = element; |
- _extra++; |
- } else if (_extra < CAPACITY) { |
- // Move the last elements down into the last empty slots |
- // so that we have empty slots after the last element. |
- while (copyFrom < CAPACITY) { |
- _contents[copyTo++] = _contents[copyFrom++]; |
- } |
- // Insert the new element as the last element. |
- _contents[copyTo++] = element; |
- _extra++; |
- // Clear all elements after the new last elements to |
- // make sure we don't keep extra stuff alive. |
- while (copyTo < CAPACITY) _contents[copyTo++] = null; |
- } else { |
- _contents = new Set<E>()..addAll(_contents)..add(element); |
- _extra = _MARKER; |
- } |
- return true; |
- } |
- } |
- |
- void addAll(Iterable<E> elements) { |
- elements.forEach((each) => add(each)); |
- } |
- |
- E lookup(Object element) { |
- if (_extra == null) { |
- return _contents == element ? _contents : null; |
- } else if (_MARKER == _extra) { |
- return _contents.lookup(element); |
- } else { |
- for (int remaining = _extra, i = 0; remaining > 0 && i < CAPACITY; i++) { |
- var candidate = _contents[i]; |
- if (_MARKER == candidate) continue; |
- if (candidate == element) return candidate; |
- remaining--; |
- } |
- return null; |
- } |
- } |
- |
- bool remove(E element) { |
- if (_extra == null) { |
- if (_contents == element) { |
- _contents = _MARKER; |
- return true; |
- } else { |
- return false; |
- } |
- } else if (_MARKER == _extra) { |
- return _contents.remove(element); |
- } else { |
- for (int remaining = _extra, i = 0; remaining > 0 && i < CAPACITY; i++) { |
- var candidate = _contents[i]; |
- if (_MARKER == candidate) continue; |
- if (candidate == element) { |
- _contents[i] = _MARKER; |
- _extra--; |
- return true; |
- } |
- remaining--; |
- } |
- return false; |
- } |
- } |
- |
- void removeAll(Iterable<Object> other) { |
- other.forEach(remove); |
- } |
- |
- void removeWhere(bool test(E element)) { |
- if (_extra == null) { |
- if (test(_contents)) { |
- _contents = _MARKER; |
- } |
- } else if (_MARKER == _extra) { |
- _contents.removeWhere(test); |
- } else { |
- for (int remaining = _extra, i = 0; remaining > 0 && i < CAPACITY; i++) { |
- var candidate = _contents[i]; |
- if (_MARKER == candidate) continue; |
- if (test(candidate)) { |
- _contents[i] = _MARKER; |
- _extra--; |
- } |
- remaining--; |
- } |
- } |
- } |
- |
- void retainWhere(bool test(E element)) { |
- removeWhere((E element) => !test(element)); |
- } |
- |
- void retainAll(Iterable<Object> elements) { |
- Set set = elements is Set ? elements : elements.toSet(); |
- removeWhere((E element) => !set.contains(element)); |
- } |
- |
- void forEach(void action(E element)) { |
- if (_extra == null) { |
- if (_MARKER != _contents) action(_contents); |
- } else if (_MARKER == _extra) { |
- _contents.forEach(action); |
- } else { |
- for (int remaining = _extra, i = 0; remaining > 0 && i < CAPACITY; i++) { |
- var element = _contents[i]; |
- if (_MARKER == element) continue; |
- action(element); |
- remaining--; |
- } |
- } |
- } |
- |
- bool containsAll(Iterable<E> other) { |
- for (E e in other) { |
- if (!this.contains(e)) return false; |
- }; |
- return true; |
- } |
- |
- clear() { |
- _contents = _MARKER; |
- _extra = null; |
- } |
- |
- Set<E> union(Set<E> other) => new Set<E>.from(this)..addAll(other); |
- |
- Setlet<E> intersection(Set<E> other) => |
- new Setlet<E>.from(this.where((e) => other.contains(e))); |
- |
- Setlet<E> difference(Set<E> other) => |
- new Setlet<E>.from(this.where((e) => !other.contains(e))); |
- |
- Setlet<E> toSet() { |
- Setlet<E> result = new Setlet<E>(); |
- if (_extra == null) { |
- result._contents = _contents; |
- } else if (_extra == _MARKER) { |
- result._extra = _MARKER; |
- result._contents = _contents.toSet(); |
- } else { |
- result._extra = _extra; |
- result._contents = _contents.toList(); |
- } |
- return result; |
- } |
-} |
- |
-class _SetletMarker { |
- const _SetletMarker(); |
- toString() => "-"; |
-} |
- |
-class _SetletSingleIterator<E> implements Iterator<E> { |
- var _element; |
- E _current; |
- _SetletSingleIterator(this._element); |
- |
- E get current => _current; |
- |
- bool moveNext() { |
- if (Setlet._MARKER == _element) { |
- _current = null; |
- return false; |
- } |
- _current = _element; |
- _element = Setlet._MARKER; |
- return true; |
- } |
-} |
- |
-class _SetletListIterator<E> implements Iterator<E> { |
- final List _list; |
- int _remaining; |
- int _index = 0; |
- E _current; |
- _SetletListIterator(this._list, this._remaining); |
- |
- E get current => _current; |
- |
- bool moveNext() { |
- while (_remaining > 0) { |
- var candidate = _list[_index++]; |
- if (Setlet._MARKER != candidate) { |
- _current = candidate; |
- _remaining--; |
- return true; |
- } |
- } |
- _current = null; |
- return false; |
- } |
-} |