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/** Copyright (c) 2000, 2013, Oracle and/or its affiliates. All rights reserved.* ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.*********************/// -- This file was mechanically generated: Do not edit! -- //package java.nio;/*** A short buffer.** <p> This class defines four categories of operations upon* short buffers:** <ul>** <li><p> Absolute and relative {@link #get() <i>get</i>} and* {@link #put(short) <i>put</i>} methods that read and write* single shorts; </p></li>** <li><p> Relative {@link #get(short[]) <i>bulk get</i>}* methods that transfer contiguous sequences of shorts from this buffer* into an array; and</p></li>** <li><p> Relative {@link #put(short[]) <i>bulk put</i>}* methods that transfer contiguous sequences of shorts from a* short array or some other short* buffer into this buffer; and </p></li>*** <li><p> Methods for {@link #compact compacting}, {@link* #duplicate duplicating}, and {@link #slice slicing}* a short buffer. </p></li>** </ul>** <p> Short buffers can be created either by {@link #allocate* <i>allocation</i>}, which allocates space for the buffer's*** content, by {@link #wrap(short[]) <i>wrapping</i>} an existing* short array into a buffer, or by creating a* <a href="ByteBuffer.html#views"><i>view</i></a> of an existing byte buffer.***** <p> Like a byte buffer, a short buffer is either <a* href="ByteBuffer.html#direct"><i>direct</i> or <i>non-direct</i></a>. A* short buffer created via the <tt>wrap</tt> methods of this class will* be non-direct. A short buffer created as a view of a byte buffer will* be direct if, and only if, the byte buffer itself is direct. Whether or not* a short buffer is direct may be determined by invoking the {@link* #isDirect isDirect} method. </p>***** <p> Methods in this class that do not otherwise have a value to return are* specified to return the buffer upon which they are invoked. This allows* method invocations to be chained.**** @author Mark Reinhold* @author JSR-51 Expert Group* @since 1.4*/public abstract class ShortBufferextends Bufferimplements Comparable<ShortBuffer>{// These fields are declared here rather than in Heap-X-Buffer in order to// reduce the number of virtual method invocations needed to access these// values, which is especially costly when coding small buffers.//final short[] hb; // Non-null only for heap buffersfinal int offset;boolean isReadOnly; // Valid only for heap buffers// Creates a new buffer with the given mark, position, limit, capacity,// backing array, and array offset//ShortBuffer(int mark, int pos, int lim, int cap, // package-privateshort[] hb, int offset){super(mark, pos, lim, cap);this.hb = hb;this.offset = offset;}// Creates a new buffer with the given mark, position, limit, and capacity//ShortBuffer(int mark, int pos, int lim, int cap) { // package-privatethis(mark, pos, lim, cap, null, 0);}/*** Allocates a new short buffer.** <p> The new buffer's position will be zero, its limit will be its* capacity, its mark will be undefined, and each of its elements will be* initialized to zero. It will have a {@link #array backing array},* and its {@link #arrayOffset array offset} will be zero.** @param capacity* The new buffer's capacity, in shorts** @return The new short buffer** @throws IllegalArgumentException* If the <tt>capacity</tt> is a negative integer*/public static ShortBuffer allocate(int capacity) {if (capacity < 0)throw new IllegalArgumentException();return new HeapShortBuffer(capacity, capacity);}/*** Wraps a short array into a buffer.** <p> The new buffer will be backed by the given short array;* that is, modifications to the buffer will cause the array to be modified* and vice versa. The new buffer's capacity will be* <tt>array.length</tt>, its position will be <tt>offset</tt>, its limit* will be <tt>offset + length</tt>, and its mark will be undefined. Its* {@link #array backing array} will be the given array, and* its {@link #arrayOffset array offset} will be zero. </p>** @param array* The array that will back the new buffer** @param offset* The offset of the subarray to be used; must be non-negative and* no larger than <tt>array.length</tt>. The new buffer's position* will be set to this value.** @param length* The length of the subarray to be used;* must be non-negative and no larger than* <tt>array.length - offset</tt>.* The new buffer's limit will be set to <tt>offset + length</tt>.** @return The new short buffer** @throws IndexOutOfBoundsException* If the preconditions on the <tt>offset</tt> and <tt>length</tt>* parameters do not hold*/public static ShortBuffer wrap(short[] array,int offset, int length){try {return new HeapShortBuffer(array, offset, length);} catch (IllegalArgumentException x) {throw new IndexOutOfBoundsException();}}/*** Wraps a short array into a buffer.** <p> The new buffer will be backed by the given short array;* that is, modifications to the buffer will cause the array to be modified* and vice versa. The new buffer's capacity and limit will be* <tt>array.length</tt>, its position will be zero, and its mark will be* undefined. Its {@link #array backing array} will be the* given array, and its {@link #arrayOffset array offset>} will* be zero. </p>** @param array* The array that will back this buffer** @return The new short buffer*/public static ShortBuffer wrap(short[] array) {return wrap(array, 0, array.length);}/*** Creates a new short buffer whose content is a shared subsequence of* this buffer's content.** <p> The content of the new buffer will start at this buffer's current* position. Changes to this buffer's content will be visible in the new* buffer, and vice versa; the two buffers' position, limit, and mark* values will be independent.** <p> The new buffer's position will be zero, its capacity and its limit* will be the number of shorts remaining in this buffer, and its mark* will be undefined. The new buffer will be direct if, and only if, this* buffer is direct, and it will be read-only if, and only if, this buffer* is read-only. </p>** @return The new short buffer*/public abstract ShortBuffer slice();/*** Creates a new short buffer that shares this buffer's content.** <p> The content of the new buffer will be that of this buffer. Changes* to this buffer's content will be visible in the new buffer, and vice* versa; the two buffers' position, limit, and mark values will be* independent.** <p> The new buffer's capacity, limit, position, and mark values will be* identical to those of this buffer. The new buffer will be direct if,* and only if, this buffer is direct, and it will be read-only if, and* only if, this buffer is read-only. </p>** @return The new short buffer*/public abstract ShortBuffer duplicate();/*** Creates a new, read-only short buffer that shares this buffer's* content.** <p> The content of the new buffer will be that of this buffer. Changes* to this buffer's content will be visible in the new buffer; the new* buffer itself, however, will be read-only and will not allow the shared* content to be modified. The two buffers' position, limit, and mark* values will be independent.** <p> The new buffer's capacity, limit, position, and mark values will be* identical to those of this buffer.** <p> If this buffer is itself read-only then this method behaves in* exactly the same way as the {@link #duplicate duplicate} method. </p>** @return The new, read-only short buffer*/public abstract ShortBuffer asReadOnlyBuffer();// -- Singleton get/put methods --/*** Relative <i>get</i> method. Reads the short at this buffer's* current position, and then increments the position.** @return The short at the buffer's current position** @throws BufferUnderflowException* If the buffer's current position is not smaller than its limit*/public abstract short get();/*** Relative <i>put</i> method <i>(optional operation)</i>.** <p> Writes the given short into this buffer at the current* position, and then increments the position. </p>** @param s* The short to be written** @return This buffer** @throws BufferOverflowException* If this buffer's current position is not smaller than its limit** @throws ReadOnlyBufferException* If this buffer is read-only*/public abstract ShortBuffer put(short s);/*** Absolute <i>get</i> method. Reads the short at the given* index.** @param index* The index from which the short will be read** @return The short at the given index** @throws IndexOutOfBoundsException* If <tt>index</tt> is negative* or not smaller than the buffer's limit*/public abstract short get(int index);/*** Absolute <i>put</i> method <i>(optional operation)</i>.** <p> Writes the given short into this buffer at the given* index. </p>** @param index* The index at which the short will be written** @param s* The short value to be written** @return This buffer** @throws IndexOutOfBoundsException* If <tt>index</tt> is negative* or not smaller than the buffer's limit** @throws ReadOnlyBufferException* If this buffer is read-only*/public abstract ShortBuffer put(int index, short s);// -- Bulk get operations --/*** Relative bulk <i>get</i> method.** <p> This method transfers shorts from this buffer into the given* destination array. If there are fewer shorts remaining in the* buffer than are required to satisfy the request, that is, if* <tt>length</tt> <tt>></tt> <tt>remaining()</tt>, then no* shorts are transferred and a {@link BufferUnderflowException} is* thrown.** <p> Otherwise, this method copies <tt>length</tt> shorts from this* buffer into the given array, starting at the current position of this* buffer and at the given offset in the array. The position of this* buffer is then incremented by <tt>length</tt>.** <p> In other words, an invocation of this method of the form* <tt>src.get(dst, off, len)</tt> has exactly the same effect as* the loop** <pre>{@code* for (int i = off; i < off + len; i++)* dst[i] = src.get():* }</pre>** except that it first checks that there are sufficient shorts in* this buffer and it is potentially much more efficient.** @param dst* The array into which shorts are to be written** @param offset* The offset within the array of the first short to be* written; must be non-negative and no larger than* <tt>dst.length</tt>** @param length* The maximum number of shorts to be written to the given* array; must be non-negative and no larger than* <tt>dst.length - offset</tt>** @return This buffer** @throws BufferUnderflowException* If there are fewer than <tt>length</tt> shorts* remaining in this buffer** @throws IndexOutOfBoundsException* If the preconditions on the <tt>offset</tt> and <tt>length</tt>* parameters do not hold*/public ShortBuffer get(short[] dst, int offset, int length) {checkBounds(offset, length, dst.length);if (length > remaining())throw new BufferUnderflowException();int end = offset + length;for (int i = offset; i < end; i++)dst[i] = get();return this;}/*** Relative bulk <i>get</i> method.** <p> This method transfers shorts from this buffer into the given* destination array. An invocation of this method of the form* <tt>src.get(a)</tt> behaves in exactly the same way as the invocation** <pre>* src.get(a, 0, a.length) </pre>** @param dst* The destination array** @return This buffer** @throws BufferUnderflowException* If there are fewer than <tt>length</tt> shorts* remaining in this buffer*/public ShortBuffer get(short[] dst) {return get(dst, 0, dst.length);}// -- Bulk put operations --/*** Relative bulk <i>put</i> method <i>(optional operation)</i>.** <p> This method transfers the shorts remaining in the given source* buffer into this buffer. If there are more shorts remaining in the* source buffer than in this buffer, that is, if* <tt>src.remaining()</tt> <tt>></tt> <tt>remaining()</tt>,* then no shorts are transferred and a {@link* BufferOverflowException} is thrown.** <p> Otherwise, this method copies* <i>n</i> = <tt>src.remaining()</tt> shorts from the given* buffer into this buffer, starting at each buffer's current position.* The positions of both buffers are then incremented by <i>n</i>.** <p> In other words, an invocation of this method of the form* <tt>dst.put(src)</tt> has exactly the same effect as the loop** <pre>* while (src.hasRemaining())* dst.put(src.get()); </pre>** except that it first checks that there is sufficient space in this* buffer and it is potentially much more efficient.** @param src* The source buffer from which shorts are to be read;* must not be this buffer** @return This buffer** @throws BufferOverflowException* If there is insufficient space in this buffer* for the remaining shorts in the source buffer** @throws IllegalArgumentException* If the source buffer is this buffer** @throws ReadOnlyBufferException* If this buffer is read-only*/public ShortBuffer put(ShortBuffer src) {if (src == this)throw new IllegalArgumentException();if (isReadOnly())throw new ReadOnlyBufferException();int n = src.remaining();if (n > remaining())throw new BufferOverflowException();for (int i = 0; i < n; i++)put(src.get());return this;}/*** Relative bulk <i>put</i> method <i>(optional operation)</i>.** <p> This method transfers shorts into this buffer from the given* source array. If there are more shorts to be copied from the array* than remain in this buffer, that is, if* <tt>length</tt> <tt>></tt> <tt>remaining()</tt>, then no* shorts are transferred and a {@link BufferOverflowException} is* thrown.** <p> Otherwise, this method copies <tt>length</tt> shorts from the* given array into this buffer, starting at the given offset in the array* and at the current position of this buffer. The position of this buffer* is then incremented by <tt>length</tt>.** <p> In other words, an invocation of this method of the form* <tt>dst.put(src, off, len)</tt> has exactly the same effect as* the loop** <pre>{@code* for (int i = off; i < off + len; i++)* dst.put(a[i]);* }</pre>** except that it first checks that there is sufficient space in this* buffer and it is potentially much more efficient.** @param src* The array from which shorts are to be read** @param offset* The offset within the array of the first short to be read;* must be non-negative and no larger than <tt>array.length</tt>** @param length* The number of shorts to be read from the given array;* must be non-negative and no larger than* <tt>array.length - offset</tt>** @return This buffer** @throws BufferOverflowException* If there is insufficient space in this buffer** @throws IndexOutOfBoundsException* If the preconditions on the <tt>offset</tt> and <tt>length</tt>* parameters do not hold** @throws ReadOnlyBufferException* If this buffer is read-only*/public ShortBuffer put(short[] src, int offset, int length) {checkBounds(offset, length, src.length);if (length > remaining())throw new BufferOverflowException();int end = offset + length;for (int i = offset; i < end; i++)this.put(src[i]);return this;}/*** Relative bulk <i>put</i> method <i>(optional operation)</i>.** <p> This method transfers the entire content of the given source* short array into this buffer. An invocation of this method of the* form <tt>dst.put(a)</tt> behaves in exactly the same way as the* invocation** <pre>* dst.put(a, 0, a.length) </pre>** @param src* The source array** @return This buffer** @throws BufferOverflowException* If there is insufficient space in this buffer** @throws ReadOnlyBufferException* If this buffer is read-only*/public final ShortBuffer put(short[] src) {return put(src, 0, src.length);}// -- Other stuff --/*** Tells whether or not this buffer is backed by an accessible short* array.** <p> If this method returns <tt>true</tt> then the {@link #array() array}* and {@link #arrayOffset() arrayOffset} methods may safely be invoked.* </p>** @return <tt>true</tt> if, and only if, this buffer* is backed by an array and is not read-only*/public final boolean hasArray() {return (hb != null) && !isReadOnly;}/*** Returns the short array that backs this* buffer <i>(optional operation)</i>.** <p> Modifications to this buffer's content will cause the returned* array's content to be modified, and vice versa.** <p> Invoke the {@link #hasArray hasArray} method before invoking this* method in order to ensure that this buffer has an accessible backing* array. </p>** @return The array that backs this buffer** @throws ReadOnlyBufferException* If this buffer is backed by an array but is read-only** @throws UnsupportedOperationException* If this buffer is not backed by an accessible array*/public final short[] array() {if (hb == null)throw new UnsupportedOperationException();if (isReadOnly)throw new ReadOnlyBufferException();return hb;}/*** Returns the offset within this buffer's backing array of the first* element of the buffer <i>(optional operation)</i>.** <p> If this buffer is backed by an array then buffer position <i>p</i>* corresponds to array index <i>p</i> + <tt>arrayOffset()</tt>.** <p> Invoke the {@link #hasArray hasArray} method before invoking this* method in order to ensure that this buffer has an accessible backing* array. </p>** @return The offset within this buffer's array* of the first element of the buffer** @throws ReadOnlyBufferException* If this buffer is backed by an array but is read-only** @throws UnsupportedOperationException* If this buffer is not backed by an accessible array*/public final int arrayOffset() {if (hb == null)throw new UnsupportedOperationException();if (isReadOnly)throw new ReadOnlyBufferException();return offset;}/*** Compacts this buffer <i>(optional operation)</i>.** <p> The shorts between the buffer's current position and its limit,* if any, are copied to the beginning of the buffer. That is, the* short at index <i>p</i> = <tt>position()</tt> is copied* to index zero, the short at index <i>p</i> + 1 is copied* to index one, and so forth until the short at index* <tt>limit()</tt> - 1 is copied to index* <i>n</i> = <tt>limit()</tt> - <tt>1</tt> - <i>p</i>.* The buffer's position is then set to <i>n+1</i> and its limit is set to* its capacity. The mark, if defined, is discarded.** <p> The buffer's position is set to the number of shorts copied,* rather than to zero, so that an invocation of this method can be* followed immediately by an invocation of another relative <i>put</i>* method. </p>*** @return This buffer** @throws ReadOnlyBufferException* If this buffer is read-only*/public abstract ShortBuffer compact();/*** Tells whether or not this short buffer is direct.** @return <tt>true</tt> if, and only if, this buffer is direct*/public abstract boolean isDirect();/*** Returns a string summarizing the state of this buffer.** @return A summary string*/public String toString() {StringBuffer sb = new StringBuffer();sb.append(getClass().getName());sb.append("[pos=");sb.append(position());sb.append(" lim=");sb.append(limit());sb.append(" cap=");sb.append(capacity());sb.append("]");return sb.toString();}/*** Returns the current hash code of this buffer.** <p> The hash code of a short buffer depends only upon its remaining* elements; that is, upon the elements from <tt>position()</tt> up to, and* including, the element at <tt>limit()</tt> - <tt>1</tt>.** <p> Because buffer hash codes are content-dependent, it is inadvisable* to use buffers as keys in hash maps or similar data structures unless it* is known that their contents will not change. </p>** @return The current hash code of this buffer*/public int hashCode() {int h = 1;int p = position();for (int i = limit() - 1; i >= p; i--)h = 31 * h + (int)get(i);return h;}/*** Tells whether or not this buffer is equal to another object.** <p> Two short buffers are equal if, and only if,** <ol>** <li><p> They have the same element type, </p></li>** <li><p> They have the same number of remaining elements, and* </p></li>** <li><p> The two sequences of remaining elements, considered* independently of their starting positions, are pointwise equal.* </p></li>** </ol>** <p> A short buffer is not equal to any other type of object. </p>** @param ob The object to which this buffer is to be compared** @return <tt>true</tt> if, and only if, this buffer is equal to the* given object*/public boolean equals(Object ob) {if (this == ob)return true;if (!(ob instanceof ShortBuffer))return false;ShortBuffer that = (ShortBuffer)ob;if (this.remaining() != that.remaining())return false;int p = this.position();for (int i = this.limit() - 1, j = that.limit() - 1; i >= p; i--, j--)if (!equals(this.get(i), that.get(j)))return false;return true;}private static boolean equals(short x, short y) {return x == y;}/*** Compares this buffer to another.** <p> Two short buffers are compared by comparing their sequences of* remaining elements lexicographically, without regard to the starting* position of each sequence within its corresponding buffer.* Pairs of {@code short} elements are compared as if by invoking* {@link Short#compare(short,short)}.** <p> A short buffer is not comparable to any other type of object.** @return A negative integer, zero, or a positive integer as this buffer* is less than, equal to, or greater than the given buffer*/public int compareTo(ShortBuffer that) {int n = this.position() + Math.min(this.remaining(), that.remaining());for (int i = this.position(), j = that.position(); i < n; i++, j++) {int cmp = compare(this.get(i), that.get(j));if (cmp != 0)return cmp;}return this.remaining() - that.remaining();}private static int compare(short x, short y) {return Short.compare(x, y);}// -- Other char stuff --// -- Other byte stuff: Access to binary data --/*** Retrieves this buffer's byte order.** <p> The byte order of a short buffer created by allocation or by* wrapping an existing <tt>short</tt> array is the {@link* ByteOrder#nativeOrder native order} of the underlying* hardware. The byte order of a short buffer created as a <a* href="ByteBuffer.html#views">view</a> of a byte buffer is that of the* byte buffer at the moment that the view is created. </p>** @return This buffer's byte order*/public abstract ByteOrder order();}
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