runtime/lib/growable_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.

 class _GrowableObjectArray<T> implements List<T> {
   factory _GrowableObjectArray._uninstantiable() {
     throw const UnsupportedOperationException(
         "GrowableObjectArray can only be allocated by the VM");
   }

   T removeAt(int index) {
     if (index is! int) throw new ArgumentError(index);
     T result = this[index];
     int newLength = this.length - 1;
     Arrays.copy(this,
                 index + 1,
                 this,
                 index,
                 newLength - index);
     this.length = newLength;
     return result;
   }

   void setRange(int start, int length, List<T> from, [int startFrom = 0]) {
     if (length < 0) {
       throw new ArgumentError("negative length $length");
     }
     Arrays.copy(from, startFrom, this, start, length);
   }

   void removeRange(int start, int length) {
     if (length == 0) {
       return;
     }
     Arrays.rangeCheck(this, start, length);
     Arrays.copy(this,
                 start + length,
                 this,
                 start,
                 this.length - length - start);
     this.length = this.length - length;
   }

   void insertRange(int start, int length, [T initialValue = null]) {
     if (length == 0) {
       return;
     }
     if ((length < 0) || (length is! int)) {
       throw new ArgumentError("invalid length specified $length");
     }
     if (start < 0 || start > this.length) {
       throw new IndexOutOfRangeException(start);
     }
     var old_length = this.length;
     this.length = old_length + length;  // Will expand if needed.
     Arrays.copy(this,
                 start,
                 this,
                 start + length,
                 old_length - start);
     for (int i = start; i < start + length; i++) {
       this[i] = initialValue;
     }
   }

   List<T> getRange(int start, int length) {
     if (length == 0) return [];
     Arrays.rangeCheck(this, start, length);
     List list = new _GrowableObjectArray<T>.withCapacity(length);
     list.length = length;
     Arrays.copy(this, start, list, 0, length);
     return list;
   }

   factory _GrowableObjectArray() {
     var data = new _ObjectArray<T>(4);
     return new _GrowableObjectArray<T>.fromObjectArray(data);
   }

   factory _GrowableObjectArray.withCapacity(int capacity) {
     var data = new _ObjectArray<T>((capacity == 0)? 4 : capacity);
     return new _GrowableObjectArray<T>.fromObjectArray(data);
   }

   factory _GrowableObjectArray.from(Collection<T> other) {
     List<T> result = new _GrowableObjectArray<T>();
     result.addAll(other);
     return result;
   }

   factory _GrowableObjectArray.fromObjectArray(_ObjectArray<T> data)
     native "GrowableObjectArray_allocate";

   int get length native "GrowableObjectArray_getLength";

   int get capacity native "GrowableObjectArray_getCapacity";

   void set length(int new_length) {
     if (new_length > capacity) {
       _grow(new_length);
     } else {
       for (int i = new_length; i < length; i++) {
         this[i] = null;
       }
     }
     _setLength(new_length);
   }

   void _setLength(int new_length) native "GrowableObjectArray_setLength";

   void _setData(_ObjectArray<T> array) native "GrowableObjectArray_setData";

   T operator [](int index) native "GrowableObjectArray_getIndexed";

   void operator []=(int index, T value) native "GrowableObjectArray_setIndexed";

   // The length of this growable array. It is always less than or equal to the
   // length of the object array, which itself is always greater than 0, so that
   // grow() does not have to check for a zero length object array before
   // doubling its size.
   void add(T value) {
     var len = length;
     if (len == capacity) {
       _grow(len * 2);
     }
     _setLength(len + 1);
     this[len] = value;
   }

   void addLast(T element) {
     add(element);
   }

   void addAll(Collection<T> collection) {
     for (T elem in collection) {
       add(elem);
     }
   }

   T removeLast() {
     var len = length - 1;
     var elem = this[len];
     this[len] = null;
     _setLength(len);
     return elem;
   }

   T last() {
     return this[length - 1];
   }

   int indexOf(T element, [int start = 0]) {
     return Arrays.indexOf(this, element, start, length);
   }

   int lastIndexOf(T element, [int start = null]) {
     if (start === null) start = length - 1;
     return Arrays.lastIndexOf(this, element, start);
   }

   void _grow(int new_length) {
     var new_data = new _ObjectArray<T>(new_length);
     for (int i = 0; i < length; i++) {
       new_data[i] = this[i];
     }
     _setData(new_data);
   }

   /**
    * Collection interface.
    */

   void forEach(f(T element)) {
     // TODO(srdjan): Use Collections.forEach(this, f);
     // Accessing the list directly improves DeltaBlue performance by 25%.
     for (int i = 0; i < length; i++) {
       f(this[i]);
     }
   }

   Collection map(f(T element)) {
     return Collections.map(this,
                            new _GrowableObjectArray.withCapacity(length), f);
   }

   reduce(initialValue, combine(previousValue, T element)) {
     return Collections.reduce(this, initialValue, combine);
   }

   Collection<T> filter(bool f(T element)) {
     return Collections.filter(this, new _GrowableObjectArray<T>(), f);
   }

   bool every(bool f(T element)) {
     return Collections.every(this, f);
   }

   bool some(bool f(T element)) {
     return Collections.some(this, f);
   }

   bool isEmpty() {
     return this.length === 0;
   }

   void clear() {
     this.length = 0;
   }

   void sort(int compare(T a, T b)) {
     DualPivotQuicksort.sort(this, compare);
   }

   String toString() {
     return Collections.collectionToString(this);
   }

   Iterator<T> iterator() {
     return new VariableSizeArrayIterator<T>(this);
   }
 }


 // Iterator for arrays with variable size.
 class VariableSizeArrayIterator<T> implements Iterator<T> {
   VariableSizeArrayIterator(_GrowableObjectArray<T> array)
       : _array = array,  _pos = 0 {
   }

   bool hasNext() {
     return _array.length > _pos;
   }

   T next() {
     if (!hasNext()) {
       throw const NoMoreElementsException();
     }
     return _array[_pos++];
   }

   final _GrowableObjectArray<T> _array;
   int _pos;
 }
	// 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.

	class _GrowableObjectArray<T> implements List<T> {
	factory _GrowableObjectArray._uninstantiable() {
	throw const UnsupportedOperationException(
	"GrowableObjectArray can only be allocated by the VM");
	}

	T removeAt(int index) {
	if (index is! int) throw new ArgumentError(index);
	T result = this[index];
	int newLength = this.length - 1;
	Arrays.copy(this,
	index + 1,
	this,
	index,
	newLength - index);
	this.length = newLength;
	return result;
	}

	void setRange(int start, int length, List<T> from, [int startFrom = 0]) {
	if (length < 0) {
	throw new ArgumentError("negative length $length");
	}
	Arrays.copy(from, startFrom, this, start, length);
	}

	void removeRange(int start, int length) {
	if (length == 0) {
	return;
	}
	Arrays.rangeCheck(this, start, length);
	Arrays.copy(this,
	start + length,
	this,
	start,
	this.length - length - start);
	this.length = this.length - length;
	}

	void insertRange(int start, int length, [T initialValue = null]) {
	if (length == 0) {
	return;
	}
	if ((length < 0) \|\| (length is! int)) {
	throw new ArgumentError("invalid length specified $length");
	}
	if (start < 0 \|\| start > this.length) {
	throw new IndexOutOfRangeException(start);
	}
	var old_length = this.length;
	this.length = old_length + length; // Will expand if needed.
	Arrays.copy(this,
	start,
	this,
	start + length,
	old_length - start);
	for (int i = start; i < start + length; i++) {
	this[i] = initialValue;
	}
	}

	List<T> getRange(int start, int length) {
	if (length == 0) return [];
	Arrays.rangeCheck(this, start, length);
	List list = new _GrowableObjectArray<T>.withCapacity(length);
	list.length = length;
	Arrays.copy(this, start, list, 0, length);
	return list;
	}

	factory _GrowableObjectArray() {
	var data = new _ObjectArray<T>(4);
	return new _GrowableObjectArray<T>.fromObjectArray(data);
	}

	factory _GrowableObjectArray.withCapacity(int capacity) {
	var data = new _ObjectArray<T>((capacity == 0)? 4 : capacity);
	return new _GrowableObjectArray<T>.fromObjectArray(data);
	}

	factory _GrowableObjectArray.from(Collection<T> other) {
	List<T> result = new _GrowableObjectArray<T>();
	result.addAll(other);
	return result;
	}

	factory _GrowableObjectArray.fromObjectArray(_ObjectArray<T> data)
	native "GrowableObjectArray_allocate";

	int get length native "GrowableObjectArray_getLength";

	int get capacity native "GrowableObjectArray_getCapacity";

	void set length(int new_length) {
	if (new_length > capacity) {
	_grow(new_length);
	} else {
	for (int i = new_length; i < length; i++) {
	this[i] = null;
	}
	}
	_setLength(new_length);
	}

	void _setLength(int new_length) native "GrowableObjectArray_setLength";

	void _setData(_ObjectArray<T> array) native "GrowableObjectArray_setData";

	T operator [](int index) native "GrowableObjectArray_getIndexed";

	void operator []=(int index, T value) native "GrowableObjectArray_setIndexed";

	// The length of this growable array. It is always less than or equal to the
	// length of the object array, which itself is always greater than 0, so that
	// grow() does not have to check for a zero length object array before
	// doubling its size.
	void add(T value) {
	var len = length;
	if (len == capacity) {
	_grow(len * 2);
	}
	_setLength(len + 1);
	this[len] = value;
	}

	void addLast(T element) {
	add(element);
	}

	void addAll(Collection<T> collection) {
	for (T elem in collection) {
	add(elem);
	}
	}

	T removeLast() {
	var len = length - 1;
	var elem = this[len];
	this[len] = null;
	_setLength(len);
	return elem;
	}

	T last() {
	return this[length - 1];
	}

	int indexOf(T element, [int start = 0]) {
	return Arrays.indexOf(this, element, start, length);
	}

	int lastIndexOf(T element, [int start = null]) {
	if (start === null) start = length - 1;
	return Arrays.lastIndexOf(this, element, start);
	}

	void _grow(int new_length) {
	var new_data = new _ObjectArray<T>(new_length);
	for (int i = 0; i < length; i++) {
	new_data[i] = this[i];
	}
	_setData(new_data);
	}

	/**
	* Collection interface.
	*/

	void forEach(f(T element)) {
	// TODO(srdjan): Use Collections.forEach(this, f);
	// Accessing the list directly improves DeltaBlue performance by 25%.
	for (int i = 0; i < length; i++) {
	f(this[i]);
	}
	}

	Collection map(f(T element)) {
	return Collections.map(this,
	new _GrowableObjectArray.withCapacity(length), f);
	}

	reduce(initialValue, combine(previousValue, T element)) {
	return Collections.reduce(this, initialValue, combine);
	}

	Collection<T> filter(bool f(T element)) {
	return Collections.filter(this, new _GrowableObjectArray<T>(), f);
	}

	bool every(bool f(T element)) {
	return Collections.every(this, f);
	}

	bool some(bool f(T element)) {
	return Collections.some(this, f);
	}

	bool isEmpty() {
	return this.length === 0;
	}

	void clear() {
	this.length = 0;
	}

	void sort(int compare(T a, T b)) {
	DualPivotQuicksort.sort(this, compare);
	}

	String toString() {
	return Collections.collectionToString(this);
	}

	Iterator<T> iterator() {
	return new VariableSizeArrayIterator<T>(this);
	}
	}


	// Iterator for arrays with variable size.
	class VariableSizeArrayIterator<T> implements Iterator<T> {
	VariableSizeArrayIterator(_GrowableObjectArray<T> array)
	: _array = array, _pos = 0 {
	}

	bool hasNext() {
	return _array.length > _pos;
	}

	T next() {
	if (!hasNext()) {
	throw const NoMoreElementsException();
	}
	return _array[_pos++];
	}

	final _GrowableObjectArray<T> _array;
	int _pos;
	}