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(c) 2005-2007 Sun Microsystems, Inc. All Rights Reserved.

Neither this file nor any files generated from it describe a complete specification, and they may only be used as described below. For example, no permission is given for you to incorporate this file, in whole or in part, in an implementation of a Java specification.

Sun Microsystems Inc. owns the copyright in this file and it is provided to you for informative, as opposed to normative, use. The file and any files generated from it may be used to generate other informative documentation, such as a unified set of documents of API signatures for a platform that includes technologies expressed as Java APIs. The file may also be used to produce "compilation stubs," which allow applications to be compiled and validated for such platforms.

Any work generated from this file, such as unified javadocs or compiled stub files, must be accompanied by this notice in its entirety.

This work corresponds to the API signatures of JSR 219: Foundation Profile 1.1. In the event of a discrepency between this work and the JSR 219 specification, which is available at http://www.jcp.org/en/jsr/detail?id=219, the latter takes precedence. */ package java.util; /** * This class provides a skeletal implementation of the List * interface to minimize the effort required to implement this interface * backed by a "random access" data store (such as an array). For sequential * access data (such as a linked list), AbstractSequentialList should * be used in preference to this class.

* * To implement an unmodifiable list, the programmer needs only to extend this * class and provide implementations for the get(int index) and * size() methods.

* * To implement a modifiable list, the programmer must additionally override * the set(int index, Object element) method (which otherwise throws * an UnsupportedOperationException. If the list is variable-size * the programmer must additionally override the add(int index, Object * element) and remove(int index) methods.

* * The programmer should generally provide a void (no argument) and collection * constructor, as per the recommendation in the Collection interface * specification.

* * Unlike the other abstract collection implementations, the programmer does * not have to provide an iterator implementation; the iterator and * list iterator are implemented by this class, on top the "random access" * methods: get(int index), set(int index, Object element), * set(int index, Object element), add(int index, Object * element) and remove(int index).

* * The documentation for each non-abstract methods in this class describes its * implementation in detail. Each of these methods may be overridden if the * collection being implemented admits a more efficient implementation.

* * This class is a member of the * * Java Collections Framework. * * @author Josh Bloch * @version 1.31, 02/02/00 * @see Collection * @see List * @see AbstractSequentialList * @see AbstractCollection * @since 1.2 */ public abstract class AbstractList extends AbstractCollection implements List { /** * The number of times this list has been structurally modified. * Structural modifications are those that change the size of the * list, or otherwise perturb it in such a fashion that iterations in * progress may yield incorrect results.

* * This field is used by the iterator and list iterator implementation * returned by the iterator and listIterator methods. * If the value of this field changes unexpectedly, the iterator (or list * iterator) will throw a ConcurrentModificationException in * response to the next, remove, previous, * set or add operations. This provides * fail-fast behavior, rather than non-deterministic behavior in * the face of concurrent modification during iteration.

* * Use of this field by subclasses is optional. If a subclass * wishes to provide fail-fast iterators (and list iterators), then it * merely has to increment this field in its add(int, Object) and * remove(int) methods (and any other methods that it overrides * that result in structural modifications to the list). A single call to * add(int, Object) or remove(int) must add no more than * one to this field, or the iterators (and list iterators) will throw * bogus ConcurrentModificationExceptions. If an implementation * does not wish to provide fail-fast iterators, this field may be * ignored. */ protected transient int modCount; /** * Sole constructor. (For invocation by subclass constructors, typically * implicit.) */ protected AbstractList() { } /** * Appends the specified element to the end of this List (optional * operation).

* * This implementation calls add(size(), o).

* * Note that this implementation throws an * UnsupportedOperationException unless add(int, Object) * is overridden. * * @param o element to be appended to this list. * * @return true (as per the general contract of * Collection.add). * * @throws UnsupportedOperationException if the add method is not * supported by this Set. * * @throws ClassCastException if the class of the specified element * prevents it from being added to this set. * * @throws IllegalArgumentException some aspect of this element prevents * it from being added to this collection. */ public boolean add(Object o) { return false; } /** * Returns the element at the specified position in this list. * * @param index index of element to return. * * @return the element at the specified position in this list. * @throws IndexOutOfBoundsException if the given index is out of range * (index < 0 || index >= size()). */ public abstract Object get(int index); /** * Replaces the element at the specified position in this list with the * specified element (optional operation).

* * This implementation always throws an * UnsupportedOperationException. * * @param index index of element to replace. * @param element element to be stored at the specified position. * @return the element previously at the specified position. * * @throws UnsupportedOperationException if the set method is not * supported by this List. * @throws ClassCastException if the class of the specified element * prevents it from being added to this list. * @throws IllegalArgumentException if some aspect of the specified * element prevents it from being added to this list. * * @throws IndexOutOfBoundsException if the specified index is out of * range (index < 0 || index >= size()). */ public Object set(int index, Object element) { return null; } /** * Inserts the specified element at the specified position in this list * (optional operation). Shifts the element currently at that position * (if any) and any subsequent elements to the right (adds one to their * indices).

* * This implementation always throws an UnsupportedOperationException. * * @param index index at which the specified element is to be inserted. * @param element element to be inserted. * * @throws UnsupportedOperationException if the add method is not * supported by this list. * @throws ClassCastException if the class of the specified element * prevents it from being added to this list. * @throws IllegalArgumentException if some aspect of the specified * element prevents it from being added to this list. * @throws IndexOutOfBoundsException index is out of range (index < * 0 || index > size()). */ public void add(int index, Object element) { } /** * Removes the element at the specified position in this list (optional * operation). Shifts any subsequent elements to the left (subtracts one * from their indices). Returns the element that was removed from the * list.

* * This implementation always throws an * UnsupportedOperationException. * * @param index the index of the element to remove. * @return the element previously at the specified position. * * @throws UnsupportedOperationException if the remove method is * not supported by this list. * @throws IndexOutOfBoundsException if the specified index is out of * range (index < 0 || index >= size()). */ public Object remove(int index) { return null; } /** * Returns the index in this list of the first occurence of the specified * element, or -1 if the list does not contain this element. More * formally, returns the lowest index i such that (o==null ? * get(i)==null : o.equals(get(i))), or -1 if there is no such * index.

* * This implementation first gets a list iterator (with * listIterator()). Then, it iterates over the list until the * specified element is found or the end of the list is reached. * * @param o element to search for. * * @return the index in this List of the first occurence of the specified * element, or -1 if the List does not contain this element. */ public int indexOf(Object o) { return 0; } /** * Returns the index in this list of the last occurence of the specified * element, or -1 if the list does not contain this element. More * formally, returns the highest index i such that (o==null ? * get(i)==null : o.equals(get(i))), or -1 if there is no such * index.

* * This implementation first gets a list iterator that points to the end * of the list (with listIterator(size())). Then, it iterates backwards * over the list until the specified element is found, or the beginning of * the list is reached. * * @param o element to search for. * * @return the index in this list of the last occurence of the specified * element, or -1 if the list does not contain this element. */ public int lastIndexOf(Object o) { return 0; } /** * Removes all of the elements from this collection (optional operation). * The collection will be empty after this call returns (unless it throws * an exception).

* * This implementation calls removeRange(0, size()).

* * Note that this implementation throws an * UnsupportedOperationException unless remove(int * index) or removeRange(int fromIndex, int toIndex) is * overridden. * * @throws UnsupportedOperationException if the clear method is * not supported by this Collection. */ public void clear() { } /** * Inserts all of the elements in the specified collection into this list * at the specified position (optional operation). Shifts the element * currently at that position (if any) and any subsequent elements to the * right (increases their indices). The new elements will appear in the * list in the order that they are returned by the specified collection's * iterator. The behavior of this operation is unspecified if the * specified collection is modified while the operation is in progress. * (Note that this will occur if the specified collection is this list, * and it's nonempty.)

* * This implementation gets an iterator over the specified collection and * iterates over it, inserting the elements obtained from the iterator * into this list at the appropriate position, one at a time, using * add(int, Object). Many implementations will override this * method for efficiency.

* * Note that this implementation throws an * UnsupportedOperationException unless add(int, Object) * is overridden. * * @return true if this list changed as a result of the call. * @param index index at which to insert the first element from the * specified collection. * @param c elements to be inserted into this List. * * @throws UnsupportedOperationException if the addAll method is * not supported by this list. * * @throws ClassCastException if the class of an element of the specified * collection prevents it from being added to this List. * * @throws IllegalArgumentException some aspect an element of the * specified collection prevents it from being added to this * List. * * @throws IndexOutOfBoundsException index out of range (index < 0 * || index > size()). * * @throws NullPointerException if the specified collection is null. */ public boolean addAll(int index, Collection c) { return false; } /** * Returns an iterator over the elements in this list in proper * sequence.

* * This implementation returns a straightforward implementation of the * iterator interface, relying on the backing list's size(), * get(int), and remove(int) methods.

* * Note that the iterator returned by this method will throw an * UnsupportedOperationException in response to its * remove method unless the list's remove(int) method is * overridden.

* * This implementation can be made to throw runtime exceptions in the face * of concurrent modification, as described in the specification for the * (protected) modCount field. * * @return an iterator over the elements in this list in proper sequence. * * @see #modCount */ public Iterator iterator() { return null; } /** * Returns an iterator of the elements in this list (in proper sequence). * This implementation returns listIterator(0). * * @return an iterator of the elements in this list (in proper sequence). * * @see #listIterator(int) */ public ListIterator listIterator() { return null; } /** * Returns a list iterator of the elements in this list (in proper * sequence), starting at the specified position in the list. The * specified index indicates the first element that would be returned by * an initial call to the next method. An initial call to * the previous method would return the element with the * specified index minus one.

* * This implementation returns a straightforward implementation of the * ListIterator interface that extends the implementation of the * Iterator interface returned by the iterator() method. * The ListIterator implementation relies on the backing list's * get(int), set(int, Object), add(int, Object) * and remove(int) methods.

* * Note that the list iterator returned by this implementation will throw * an UnsupportedOperationException in response to its * remove, set and add methods unless the * list's remove(int), set(int, Object), and * add(int, Object) methods are overridden.

* * This implementation can be made to throw runtime exceptions in the * face of concurrent modification, as described in the specification for * the (protected) modCount field. * * @param index index of the first element to be returned from the list * iterator (by a call to the next method). * * @return a list iterator of the elements in this list (in proper * sequence), starting at the specified position in the list. * * @throws IndexOutOfBoundsException if the specified index is out of * range (index < 0 || index > size()). * * @see #modCount */ public ListIterator listIterator(int index) { return null; } /** * Returns a view of the portion of this list between fromIndex, * inclusive, and toIndex, exclusive. (If fromIndex and * toIndex are equal, the returned list is empty.) The returned * list is backed by this list, so changes in the returned list are * reflected in this list, and vice-versa. The returned list supports all * of the optional list operations supported by this list.

* * This method eliminates the need for explicit range operations (of the * sort that commonly exist for arrays). Any operation that expects a * list can be used as a range operation by operating on a subList view * instead of a whole list. For example, the following idiom removes a * range of elements from a list: *

     *     list.subList(from, to).clear();
     * 
* Similar idioms may be constructed for indexOf and * lastIndexOf, and all of the algorithms in the * Collections class can be applied to a subList.

* * The semantics of the list returned by this method become undefined if * the backing list (i.e., this list) is structurally modified in * any way other than via the returned list. (Structural modifications are * those that change the size of the list, or otherwise perturb it in such * a fashion that iterations in progress may yield incorrect results.)

* * This implementation returns a list that subclasses * AbstractList. The subclass stores, in private fields, the * offset of the subList within the backing list, the size of the subList * (which can change over its lifetime), and the expected * modCount value of the backing list. There are two variants * of the subclass, one of which implements RandomAccess. * If this list implements RandomAccess the returned list will * be an instance of the subclass that implements RandomAccess.

* * The subclass's set(int, Object), get(int), * add(int, Object), remove(int), addAll(int, * Collection) and removeRange(int, int) methods all * delegate to the corresponding methods on the backing abstract list, * after bounds-checking the index and adjusting for the offset. The * addAll(Collection c) method merely returns addAll(size, * c).

* * The listIterator(int) method returns a "wrapper object" over a * list iterator on the backing list, which is created with the * corresponding method on the backing list. The iterator method * merely returns listIterator(), and the size method * merely returns the subclass's size field.

* * All methods first check to see if the actual modCount of the * backing list is equal to its expected value, and throw a * ConcurrentModificationException if it is not. * * @param fromIndex low endpoint (inclusive) of the subList. * @param toIndex high endpoint (exclusive) of the subList. * @return a view of the specified range within this list. * @throws IndexOutOfBoundsException endpoint index value out of range * (fromIndex < 0 || toIndex > size) * @throws IllegalArgumentException endpoint indices out of order * (fromIndex > toIndex) */ public List subList(int fromIndex, int toIndex) { return null; } /** * Compares the specified object with this list for equality. Returns * true if and only if the specified object is also a list, both * lists have the same size, and all corresponding pairs of elements in * the two lists are equal. (Two elements e1 and * e2 are equal if (e1==null ? e2==null : * e1.equals(e2)).) In other words, two lists are defined to be * equal if they contain the same elements in the same order.

* * This implementation first checks if the specified object is this * list. If so, it returns true; if not, it checks if the * specified object is a list. If not, it returns false; if so, * it iterates over both lists, comparing corresponding pairs of elements. * If any comparison returns false, this method returns * false. If either iterator runs out of elements before the * other it returns false (as the lists are of unequal length); * otherwise it returns true when the iterations complete. * * @param o the object to be compared for equality with this list. * * @return true if the specified object is equal to this list. */ public boolean equals(Object o) { return false; } /** * Returns the hash code value for this list.

* * This implementation uses exactly the code that is used to define the * list hash function in the documentation for the List.hashCode * method. * * @return the hash code value for this list. */ public int hashCode() { return 0; } /** * Removes from this list all of the elements whose index is between * fromIndex, inclusive, and toIndex, exclusive. * Shifts any succeeding elements to the left (reduces their index). This * call shortens the ArrayList by (toIndex - fromIndex) * elements. (If toIndex==fromIndex, this operation has no * effect.)

* * This method is called by the clear operation on this list * and its subLists. Overriding this method to take advantage of * the internals of the list implementation can substantially * improve the performance of the clear operation on this list * and its subLists.

* * This implementation gets a list iterator positioned before * fromIndex, and repeatedly calls ListIterator.next * followed by ListIterator.remove until the entire range has * been removed. Note: if ListIterator.remove requires linear * time, this implementation requires quadratic time. * * @param fromIndex index of first element to be removed. * @param toIndex index after last element to be removed. */ protected void removeRange(int fromIndex, int toIndex) { } }





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