runtime/lib/array.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.


 // TODO(srdjan): Use shared array implementation.
 class _List<E> extends FixedLengthListBase<E> {

   factory _List(length) native "List_allocate";

   E operator [](int index) native "List_getIndexed";

   void operator []=(int index, E value) native "List_setIndexed";

   int get length native "List_getLength";

   List _slice(int start, int count, bool needsTypeArgument) {
     if (count <= 64) {
       final result = needsTypeArgument ? new _List<E>(count)
                                        : new _List(count);
       for (int i = 0; i < result.length; i++) {
         result[i] = this[start + i];
       }
       return result;
     } else {
       return _sliceInternal(start, count, needsTypeArgument);
     }
   }

   List _sliceInternal(int start, int count, bool needsTypeArgument)
       native "List_slice";

   // List interface.
   void setRange(int start, int end, Iterable<E> iterable, [int skipCount = 0]) {
     if (start < 0 || start > this.length) {
       throw new RangeError.range(start, 0, this.length);
     }
     if (end < start || end > this.length) {
       throw new RangeError.range(end, start, this.length);
     }
     int length = end - start;
     if (length == 0) return;
     if (identical(this, iterable)) {
       Lists.copy(iterable, skipCount, this, start, length);
     } else if (ClassID.getID(iterable) == ClassID.cidArray) {
       Lists.copy(iterable, skipCount, this, start, length);
     } else if (iterable is List) {
       Lists.copy(iterable, skipCount, this, start, length);
     } else {
       Iterator it = iterable.iterator;
       while (skipCount > 0) {
         if (!it.moveNext()) return;
         skipCount--;
       }
       for (int i = start; i < end; i++) {
         if (!it.moveNext()) return;
         this[i] = it.current;
       }
     }
   }

   List<E> sublist(int start, [int end]) {
     Lists.indicesCheck(this, start, end);
     if (end == null) end = this.length;
     int length = end - start;
     if (start == end) return <E>[];
     var result = new _GrowableList<E>.withData(_slice(start, length, false));
     result._setLength(length);
     return result;
   }

   // Iterable interface.

   void forEach(f(E element)) {
     final length = this.length;
     for (int i = 0; i < length; i++) {
       f(this[i]);
     }
   }

   Iterator<E> get iterator {
     return new _FixedSizeArrayIterator<E>(this);
   }

   E get first {
     if (length > 0) return this[0];
     throw IterableElementError.noElement();
   }

   E get last {
     if (length > 0) return this[length - 1];
     throw IterableElementError.noElement();
   }

   E get single {
     if (length == 1) return this[0];
     if (length == 0) throw IterableElementError.noElement();
     throw IterableElementError.tooMany();
   }

   List<E> toList({ bool growable: true }) {
     var length = this.length;
     if (length > 0) {
       var result = _slice(0, length, !growable);
       if (growable) {
         result = new _GrowableList<E>.withData(result);
         result._setLength(length);
       }
       return result;
     }
     // _GrowableList.withData must not be called with empty list.
     return growable ? <E>[] : new List<E>(0);
   }
 }


 // This is essentially the same class as _List, but it does not
 // permit any modification of array elements from Dart code. We use
 // this class for arrays constructed from Dart array literals.
 // TODO(hausner): We should consider the trade-offs between two
 // classes (and inline cache misses) versus a field in the native
 // implementation (checks when modifying). We should keep watching
 // the inline cache misses.
 class _ImmutableList<E> extends UnmodifiableListBase<E> {

   factory _ImmutableList._uninstantiable() {
     throw new UnsupportedError(
         "ImmutableArray can only be allocated by the VM");
   }

   factory _ImmutableList._from(List from, int offset, int length)
       native "ImmutableList_from";

   E operator [](int index) native "List_getIndexed";

   int get length native "List_getLength";

   List<E> sublist(int start, [int end]) {
     Lists.indicesCheck(this, start, end);
     if (end == null) end = this.length;
     int length = end - start;
     if (length == 0) return <E>[];
     List list = new _List(length);
     for (int i = 0; i < length; i++) {
       list[i] = this[start + i];
     }
     var result = new _GrowableList<E>.withData(list);
     result._setLength(length);
     return result;
   }

   // Collection interface.

   void forEach(f(E element)) {
     final length = this.length;
     for (int i = 0; i < length; i++) {
       f(this[i]);
     }
   }

   Iterator<E> get iterator {
     return new _FixedSizeArrayIterator<E>(this);
   }

   E get first {
     if (length > 0) return this[0];
     throw IterableElementError.noElement();
   }

   E get last {
     if (length > 0) return this[length - 1];
     throw IterableElementError.noElement();
   }

   E get single {
     if (length == 1) return this[0];
     if (length == 0) throw IterableElementError.noElement();
     throw IterableElementError.tooMany();
   }

   List<E> toList({ bool growable: true }) {
     var length = this.length;
     if (length > 0) {
       List list = growable ? new _List(length) : new _List<E>(length);
       for (int i = 0; i < length; i++) {
         list[i] = this[i];
       }
       if (!growable) return list;
       var result = new _GrowableList<E>.withData(list);
       result._setLength(length);
       return result;
     }
     return growable ? <E>[] : new _List<E>(0);
   }
 }


 // Iterator for arrays with fixed size.
 class _FixedSizeArrayIterator<E> implements Iterator<E> {
   final List<E> _array;
   final int _length;  // Cache array length for faster access.
   int _index;
   E _current;

   _FixedSizeArrayIterator(List array)
       : _array = array, _length = array.length, _index = 0 {
     assert(array is _List || array is _ImmutableList);
   }

   E get current => _current;

   bool moveNext() {
     if (_index >= _length) {
       _current = null;
       return false;
     }
     _current = _array[_index];
     _index++;
     return true;
   }
 }
	// 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.


	// TODO(srdjan): Use shared array implementation.
	class _List<E> extends FixedLengthListBase<E> {

	factory _List(length) native "List_allocate";

	E operator [](int index) native "List_getIndexed";

	void operator []=(int index, E value) native "List_setIndexed";

	int get length native "List_getLength";

	List _slice(int start, int count, bool needsTypeArgument) {
	if (count <= 64) {
	final result = needsTypeArgument ? new _List<E>(count)
	: new _List(count);
	for (int i = 0; i < result.length; i++) {
	result[i] = this[start + i];
	}
	return result;
	} else {
	return _sliceInternal(start, count, needsTypeArgument);
	}
	}

	List _sliceInternal(int start, int count, bool needsTypeArgument)
	native "List_slice";

	// List interface.
	void setRange(int start, int end, Iterable<E> iterable, [int skipCount = 0]) {
	if (start < 0 \|\| start > this.length) {
	throw new RangeError.range(start, 0, this.length);
	}
	if (end < start \|\| end > this.length) {
	throw new RangeError.range(end, start, this.length);
	}
	int length = end - start;
	if (length == 0) return;
	if (identical(this, iterable)) {
	Lists.copy(iterable, skipCount, this, start, length);
	} else if (ClassID.getID(iterable) == ClassID.cidArray) {
	Lists.copy(iterable, skipCount, this, start, length);
	} else if (iterable is List) {
	Lists.copy(iterable, skipCount, this, start, length);
	} else {
	Iterator it = iterable.iterator;
	while (skipCount > 0) {
	if (!it.moveNext()) return;
	skipCount--;
	}
	for (int i = start; i < end; i++) {
	if (!it.moveNext()) return;
	this[i] = it.current;
	}
	}
	}

	List<E> sublist(int start, [int end]) {
	Lists.indicesCheck(this, start, end);
	if (end == null) end = this.length;
	int length = end - start;
	if (start == end) return <E>[];
	var result = new _GrowableList<E>.withData(_slice(start, length, false));
	result._setLength(length);
	return result;
	}

	// Iterable interface.

	void forEach(f(E element)) {
	final length = this.length;
	for (int i = 0; i < length; i++) {
	f(this[i]);
	}
	}

	Iterator<E> get iterator {
	return new _FixedSizeArrayIterator<E>(this);
	}

	E get first {
	if (length > 0) return this[0];
	throw IterableElementError.noElement();
	}

	E get last {
	if (length > 0) return this[length - 1];
	throw IterableElementError.noElement();
	}

	E get single {
	if (length == 1) return this[0];
	if (length == 0) throw IterableElementError.noElement();
	throw IterableElementError.tooMany();
	}

	List<E> toList({ bool growable: true }) {
	var length = this.length;
	if (length > 0) {
	var result = _slice(0, length, !growable);
	if (growable) {
	result = new _GrowableList<E>.withData(result);
	result._setLength(length);
	}
	return result;
	}
	// _GrowableList.withData must not be called with empty list.
	return growable ? <E>[] : new List<E>(0);
	}
	}


	// This is essentially the same class as _List, but it does not
	// permit any modification of array elements from Dart code. We use
	// this class for arrays constructed from Dart array literals.
	// TODO(hausner): We should consider the trade-offs between two
	// classes (and inline cache misses) versus a field in the native
	// implementation (checks when modifying). We should keep watching
	// the inline cache misses.
	class _ImmutableList<E> extends UnmodifiableListBase<E> {

	factory _ImmutableList._uninstantiable() {
	throw new UnsupportedError(
	"ImmutableArray can only be allocated by the VM");
	}

	factory _ImmutableList._from(List from, int offset, int length)
	native "ImmutableList_from";

	E operator [](int index) native "List_getIndexed";

	int get length native "List_getLength";

	List<E> sublist(int start, [int end]) {
	Lists.indicesCheck(this, start, end);
	if (end == null) end = this.length;
	int length = end - start;
	if (length == 0) return <E>[];
	List list = new _List(length);
	for (int i = 0; i < length; i++) {
	list[i] = this[start + i];
	}
	var result = new _GrowableList<E>.withData(list);
	result._setLength(length);
	return result;
	}

	// Collection interface.

	void forEach(f(E element)) {
	final length = this.length;
	for (int i = 0; i < length; i++) {
	f(this[i]);
	}
	}

	Iterator<E> get iterator {
	return new _FixedSizeArrayIterator<E>(this);
	}

	E get first {
	if (length > 0) return this[0];
	throw IterableElementError.noElement();
	}

	E get last {
	if (length > 0) return this[length - 1];
	throw IterableElementError.noElement();
	}

	E get single {
	if (length == 1) return this[0];
	if (length == 0) throw IterableElementError.noElement();
	throw IterableElementError.tooMany();
	}

	List<E> toList({ bool growable: true }) {
	var length = this.length;
	if (length > 0) {
	List list = growable ? new _List(length) : new _List<E>(length);
	for (int i = 0; i < length; i++) {
	list[i] = this[i];
	}
	if (!growable) return list;
	var result = new _GrowableList<E>.withData(list);
	result._setLength(length);
	return result;
	}
	return growable ? <E>[] : new _List<E>(0);
	}
	}


	// Iterator for arrays with fixed size.
	class _FixedSizeArrayIterator<E> implements Iterator<E> {
	final List<E> _array;
	final int _length; // Cache array length for faster access.
	int _index;
	E _current;

	_FixedSizeArrayIterator(List array)
	: _array = array, _length = array.length, _index = 0 {
	assert(array is _List \|\| array is _ImmutableList);
	}

	E get current => _current;

	bool moveNext() {
	if (_index >= _length) {
	_current = null;
	return false;
	}
	_current = _array[_index];
	_index++;
	return true;
	}
	}