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package com.pdd.pop.ext.glassfish.grizzly;

import java.nio.BufferOverflowException;
import java.nio.BufferUnderflowException;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
import java.nio.InvalidMarkException;
import java.nio.ReadOnlyBufferException;
import java.nio.charset.Charset;

import com.pdd.pop.ext.glassfish.grizzly.asyncqueue.WritableMessage;
import com.pdd.pop.ext.glassfish.grizzly.memory.BufferArray;
import com.pdd.pop.ext.glassfish.grizzly.memory.ByteBufferArray;
import com.pdd.pop.ext.glassfish.grizzly.memory.CompositeBuffer;

/**
 * JDK {@link ByteBuffer} was taken as base for Grizzly
 * Buffer interface, but Buffer has several extensions:
 * it's possible to prepend some data to a Buffer and release Buffer, when
 * it's not required any more.
 *
 * @author Alexey Stashok
 */
public interface Buffer extends Comparable, WritableMessage {

    /**
     * @return {@code true} if this {@link Buffer} represents a composite
     *  of individual {@link Buffer} instances.
     */
    boolean isComposite();

    /**
     * Prepend data from header.position() to header.limit() to the
     * current buffer.  This will change the value returned by buffer()!
     * @throws IllegalArgumentException if header.limit() - header.position()
     * is greater than headerSize.
     */
    Buffer prepend(Buffer header);

    /**
     * Trim the buffer by reducing capacity to position, if possible.
     * May return without changing capacity. Also resets the position to 0,
     * like {@link #flip()}.
     */
    void trim();
    
    /**
     * Disposes the buffer part, outside [position, limit] interval if possible.
     * May return without changing capacity.
     * After shrink is called, position/limit/capacity values may have
     * different values, than before, but still point to the same Buffer
     * elements.
     */
    void shrink();

    /**
     * Split up the buffer into two parts: [0..splitPosition) and [splitPosition, capacity).
     * This Buffer will represent the first part: [0..splitPosition) and
     * returned Buffer will represent the second part: [splitPosition, capacity).
     * 
     * @param splitPosition position of split.
     *
     * @return the Buffer, which represents split part [splitPosition, capacity)
     */
    Buffer split(int splitPosition);

    boolean allowBufferDispose();

    void allowBufferDispose(boolean allowBufferDispose);

    /**
     * Tells whether or not this buffer is
     * direct. 

* * @return true if, and only if, this buffer is direct */ boolean isDirect(); /** * Try to dispose Buffer if it's allowed. */ boolean tryDispose(); /** * Notify the allocator that the space for this Buffer is no * longer needed. All calls to methods on a Buffer * will fail after a call to dispose(). */ void dispose(); /** * Return the underlying buffer * * @return the underlying buffer */ Object underlying(); /** * Returns this buffer's capacity.

* * @return The capacity of this buffer */ int capacity(); /** * Returns this buffer's position.

* * @return The position of this buffer */ int position(); /** * Sets this buffer's position. If the mark is defined and larger than the * new position then it is discarded.

* * @param newPosition * The new position value; must be non-negative * and no larger than the current limit * * @return This buffer * * @throws IllegalArgumentException * If the preconditions on newPosition do not hold */ Buffer position(int newPosition); /** * Returns this buffer's limit.

* * @return The limit of this buffer */ int limit(); /** * Sets this buffer's limit. If the position is larger than the new limit * then it is set to the new limit. If the mark is defined and larger than * the new limit then it is discarded.

* * @param newLimit * The new limit value; must be non-negative * and no larger than this buffer's capacity * * @return This buffer * * @throws IllegalArgumentException * If the preconditions on newLimit do not hold */ Buffer limit(int newLimit); /** * Sets this buffer's mark at its position.

* * @return This buffer */ Buffer mark(); /** * Resets this buffer's position to the previously-marked position. * *

Invoking this method neither changes nor discards the mark's * value.

* * @return This buffer * * @throws InvalidMarkException If the mark has not been set */ Buffer reset(); /** * Clears this buffer. The position is set to zero, the limit is set to * the capacity, and the mark is discarded. * *

Invoke this method before using a sequence of channel-read or * put operations to fill this buffer. For example: * *

     * buf.clear();     // Prepare buffer for reading
     * in.read(buf);    // Read data
* *

This method does not actually erase the data in the buffer, but it * is named as if it did because it will most often be used in situations * in which that might as well be the case.

* * @return This buffer */ Buffer clear(); /** * Flips this buffer. The limit is set to the current position and then * the position is set to zero. If the mark is defined then it is * discarded. * *

After a sequence of channel-read or put operations, invoke * this method to prepare for a sequence of channel-write or relative * get operations. For example: * *

     * buf.put(magic);    // Prepend header
     * in.read(buf);      // Read data into rest of buffer
     * buf.flip();        // Flip buffer
     * out.write(buf);    // Write header + data to channel
* *

This method is often used in conjunction with the * {@link Buffer#compact compact} method when transferring data from * one place to another.

* * @return This buffer */ Buffer flip(); /** * Rewinds this buffer. The position is set to zero and the mark is * discarded. * *

Invoke this method before a sequence of channel-write or get * operations, assuming that the limit has already been set * appropriately. For example: * *

     * out.write(buf);    // Write remaining data
     * buf.rewind();      // Rewind buffer
     * buf.get(array);    // Copy data into array
* * @return This buffer */ Buffer rewind(); /** * Returns the number of elements between the current position and the * limit.

* * @return The number of elements remaining in this buffer */ int remaining(); /** * Tells whether there are any elements between the current position and * the limit.

* * @return true if, and only if, there is at least one element * remaining in this buffer */ boolean hasRemaining(); /** * Tells whether or not this buffer is read-only.

* * @return true if, and only if, this buffer is read-only */ @SuppressWarnings("UnusedDeclaration") boolean isReadOnly(); /** * Creates a new Buffer whose content is a shared subsequence * of this buffer's content. * *

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. * *

The new buffer's position will be zero, its capacity and its limit * will be the number of bytes 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.

* * @return The new Buffer */ Buffer slice(); /** * Creates a new Buffer whose content is a shared subsequence of * this buffer's content. * *

The content of the new buffer will start at passed position and end * at passed limit. * Changes to this buffer's content will be visible in the new * buffer, and vice versa; the two buffer's position, limit, and mark * values will be independent. * *

The new buffer's position will be zero, its capacity and its limit * will be the number of bytes 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.

* * @return The new Buffer */ Buffer slice(int position, int limit); /** * Creates a new Buffer that shares this buffer's content. * *

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 buffer's position, limit, and mark values will be * independent. * *

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.

* * @return The new Buffer */ Buffer duplicate(); /** * Creates a new, read-only Buffer that shares this buffer's * content. * *

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 buffer's position, limit, and mark * values will be independent. * *

The new buffer's capacity, limit, position, and mark values will be * identical to those of this buffer. * *

If this buffer is itself read-only then this method behaves in * exactly the same way as the {@link #duplicate duplicate} method.

* * @return The new, read-only Buffer */ @SuppressWarnings("UnusedDeclaration") Buffer asReadOnlyBuffer(); // -- Singleton get/put methods -- /** * Relative get method. Reads the byte at this buffer's * current position, and then increments the position.

* * @return The byte at the buffer's current position * * @throws BufferUnderflowException * If the buffer's current position is not smaller than its limit */ byte get(); /** * Relative put method  (optional operation). * *

Writes the given byte into this buffer at the current * position, and then increments the position.

* * @param b * The byte 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 */ Buffer put(byte b); /** * Absolute get method. Reads the byte at the given * index.

* * @param index * The index from which the byte will be read * * @return The byte at the given index * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit */ byte get(int index); /** * Absolute put method  (optional operation). * *

Writes the given byte into this buffer at the given * index.

* * @param index * The index at which the byte will be written * * @param b * The byte value to be written * * @return This buffer * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer put(int index, byte b); // -- Bulk get operations -- /** * Relative bulk get method. * *

This method transfers bytes from this buffer into the given * destination array. An invocation of this method of the form * src.get(a) behaves in exactly the same way as the invocation * *

     *     src.get(a, 0, a.length) 
* * @return This buffer * * @throws BufferUnderflowException * If there are fewer than length bytes * remaining in this buffer */ Buffer get(byte[] dst); /** * Relative bulk get method. * *

This method transfers bytes from this buffer into the given * destination array. If there are fewer bytes remaining in the * buffer than are required to satisfy the request, that is, if * length > remaining(), then no * bytes are transferred and a {@link BufferUnderflowException} is * thrown. * *

Otherwise, this method copies length bytes 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 length. * *

In other words, an invocation of this method of the form * src.get(dst, off, len) has exactly the same effect as * the loop * *

     *     for (int i = off; i < off + len; i++)
     *         dst[i] = src.get(); 
* * except that it first checks that there are sufficient bytes in * this buffer and it is potentially much more efficient.

* * @param dst * The array into which bytes are to be written * * @param offset * The offset within the array of the first byte to be * written; must be non-negative and no larger than * dst.length * * @param length * The maximum number of bytes to be written to the given * array; must be non-negative and no larger than * dst.length - offset * * @return This buffer * * @throws BufferUnderflowException * If there are fewer than length bytes * remaining in this buffer * * @throws IndexOutOfBoundsException * If the preconditions on the offset and length * parameters do not hold */ Buffer get(byte[] dst, int offset, int length); /** * Relative bulk get method. * *

This method transfers bytes from this buffer into the given * destination {@link ByteBuffer}. An invocation of this method of the form * src.get(a) behaves in exactly the same way as the invocation * *

     *     src.get(a, 0, a.remaining()) 
* * @return This buffer * * @throws BufferUnderflowException * If there are fewer than length bytes * remaining in this buffer */ Buffer get(ByteBuffer dst); /** * Relative bulk get method. * *

This method transfers bytes from this buffer into the given * destination {@link ByteBuffer}. If there are fewer bytes remaining in the * buffer than are required to satisfy the request, that is, if * length > remaining(), then no * bytes are transferred and a {@link BufferUnderflowException} is * thrown. * *

Otherwise, this method copies length bytes from this * buffer into the given {@link ByteBuffer}, starting at the current position of this * buffer and at the given offset in the {@link ByteBuffer}. The position of this * buffer is then incremented by length. * *

In other words, an invocation of this method of the form * src.get(dst, off, len) has exactly the same effect as * the loop * *

     *     for (int i = off; i < off + len; i++)
     *         dst.put(i) = src.get(); 
* * except that it first checks that there are sufficient bytes in * this buffer and it is potentially much more efficient.

* * @param dst * The {@link ByteBuffer} into which bytes are to be written * * @param offset * The offset within the {@link ByteBuffer} of the first byte to be * written; must be non-negative and no larger than * dst.remaining() * * @param length * The maximum number of bytes to be written to the given * array; must be non-negative and no larger than * dst.remaining() - offset * * @return This buffer * * @throws BufferUnderflowException * If there are fewer than length bytes * remaining in this buffer * * @throws IndexOutOfBoundsException * If the preconditions on the offset and length * parameters do not hold */ Buffer get(ByteBuffer dst, int offset, int length); // -- Bulk put operations -- /** * Relative bulk put method  (optional operation). * *

This method transfers the bytes remaining in the given source * buffer into this buffer. If there are more bytes remaining in the * source buffer than in this buffer, that is, if * src.remaining() > remaining(), * then no bytes are transferred and a {@link * BufferOverflowException} is thrown. * *

Otherwise, this method copies * n = src.remaining() bytes from the given * buffer into this buffer, starting at each buffer's current position. * The positions of both buffers are then incremented by n. * *

In other words, an invocation of this method of the form * dst.put(src) has exactly the same effect as the loop * *

     *     while (src.hasRemaining())
     *         dst.put(src.get()); 
* * 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 bytes 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 bytes in the source buffer * * @throws IllegalArgumentException * If the source buffer is this buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer put(Buffer src); // -- Bulk put operations -- /** * Relative bulk put method  (optional operation). * *

This method transfers the "length" bytes from the given source * buffer into this buffer. If this buffer has less bytes remaining than * length, that is, if * length > remaining(), * then no bytes are transferred and a {@link * BufferOverflowException} is thrown. * *

Otherwise, this method copies * n = length bytes from the given * postion in the source buffer into this buffer, starting from * the current buffer position. * The positions of this buffer is then incremented by length. * *

In other words, an invocation of this method of the form * dst.put(src, position, length) has exactly the same effect * as the loop * *

     *     for (int i = 0; i < length; i++)
     *         dst.put(src.get(i + position)); 
* * 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 bytes are to be read; * must not be this buffer * * @param position starting position in the source buffer * * @param length number of bytes to be copied * * @return This buffer * * @throws BufferOverflowException * If there is insufficient space in this buffer * for the remaining bytes in the source buffer * * @throws IllegalArgumentException * If the source buffer is this buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer put(Buffer src, int position, int length); // -- Bulk put operations -- /** * Relative bulk put method  (optional operation). * *

This method transfers the bytes remaining in the given source * buffer into this buffer. If there are more bytes remaining in the * source buffer than in this buffer, that is, if * src.remaining() > remaining(), * then no bytes are transferred and a {@link * BufferOverflowException} is thrown. * *

Otherwise, this method copies * n = src.remaining() bytes from the given * buffer into this buffer, starting at each buffer's current position. * The positions of both buffers are then incremented by n. * *

In other words, an invocation of this method of the form * dst.put(src) has exactly the same effect as the loop * *

     *     while (src.hasRemaining())
     *         dst.put(src.get()); 
* * 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 bytes 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 bytes in the source buffer * * @throws IllegalArgumentException * If the source buffer is this buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer put(ByteBuffer src); // -- Bulk put operations -- /** * Relative bulk put method  (optional operation). * *

This method transfers the "length" bytes from the given source * buffer into this buffer. If this buffer has less bytes remaining than * length, that is, if * length > remaining(), * then no bytes are transferred and a {@link * BufferOverflowException} is thrown. * *

Otherwise, this method copies * n = length bytes from the given * postion in the source buffer into this buffer, starting from * the current buffer position. * The positions of this buffer is then incremented by length. * *

In other words, an invocation of this method of the form * dst.put(src, position, length) has exactly the same effect * as the loop * *

     *     for (int i = 0; i < length; i++)
     *         dst.put(src.get(i + position)); 
* * 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 bytes are to be read; * must not be this buffer * * @param position starting position in the source buffer * * @param length number of bytes to be copied * * @return This buffer * * @throws BufferOverflowException * If there is insufficient space in this buffer * for the remaining bytes in the source buffer * * @throws IllegalArgumentException * If the source buffer is this buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer put(ByteBuffer src, int position, int length); /** * Relative bulk put method  (optional operation). * *

This method transfers the entire content of the given source * byte array into this buffer. An invocation of this method of the * form dst.put(a) behaves in exactly the same way as the * invocation * *

     *     dst.put(a, 0, a.length) 
* * @return This buffer * * @throws BufferOverflowException * If there is insufficient space in this buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer put(byte[] src); /** * Relative bulk put method  (optional operation). * *

This method transfers bytes into this buffer from the given * source array. If there are more bytes to be copied from the array * than remain in this buffer, that is, if * length > remaining(), then no * bytes are transferred and a {@link BufferOverflowException} is * thrown. * *

Otherwise, this method copies length bytes 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 length. * *

In other words, an invocation of this method of the form * dst.put(src, off, len) has exactly the same effect as * the loop * *

     *     for (int i = off; i < off + len; i++)
     *         dst.put(a[i]); 
* * 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 bytes are to be read * * @param offset * The offset within the array of the first byte to be read; * must be non-negative and no larger than array.length * * @param length * The number of bytes to be read from the given array; * must be non-negative and no larger than * array.length - offset * * @return This buffer * * @throws BufferOverflowException * If there is insufficient space in this buffer * * @throws IndexOutOfBoundsException * If the preconditions on the offset and length * parameters do not hold * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer put(byte[] src, int offset, int length); /** * Relative bulk put method  (optional operation). * *

This method transfers bytes into this buffer from the given * 8-bit source {@link String}. If the source {@link String#length()} is * bigger than this buffer's remaining, that is, if * length() > remaining(), then no * bytes are transferred and a {@link BufferOverflowException} is * thrown. * *

Otherwise, this method copies length bytes from the * given {@link String} into this buffer. * *

In other words, an invocation of this method of the form * dst.put8BitString(src) has exactly the same effect as * the loop * *

     *     for (int i = 0; i < src.length(); i++)
     *         dst.put((byte) src.charAt(i)); 
* * except that it first checks that there is sufficient space in this * buffer and it is potentially much more efficient.

* * @param s * The {@link String} from which bytes are to be read * * @return This buffer * * @throws BufferOverflowException * If there is insufficient space in this buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ @SuppressWarnings("UnusedDeclaration") Buffer put8BitString(String s); /** * Compacts this buffer  (optional operation). * *

The bytes between the buffer's current position and its limit, * if any, are copied to the beginning of the buffer. That is, the * byte at index p = position() is copied * to index zero, the byte at index p + 1 is copied * to index one, and so forth until the byte at index * limit() - 1 is copied to index * n = limit() - 1 - p. * The buffer's position is then set to n+1 and its limit is set to * its capacity. The mark, if defined, is discarded. * *

The buffer's position is set to the number of bytes copied, * rather than to zero, so that an invocation of this method can be * followed immediately by an invocation of another relative put * method.

* * *

Invoke this method after writing data from a buffer in case the * write was incomplete. The following loop, for example, copies bytes * from one channel to another via the buffer buf: * *

     * buf.clear();          // Prepare buffer for use
     * for (;;) {
     *     if (in.read(buf) < 0 && !buf.hasRemaining())
     *         break;        // No more bytes to transfer
     *     buf.flip();
     *     out.write(buf);
     *     buf.compact();    // In case of partial write
     * }
* * * @return This buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer compact(); /** * Retrieves this buffer's byte order. * *

The byte order is used when reading or writing multibyte values, and * when creating buffers that are views of this Buffer. The order of * a newly-created Buffer is always {@link ByteOrder#BIG_ENDIAN * BIG_ENDIAN}.

* * @return This buffer's byte order */ ByteOrder order(); /** * Modifies this buffer's byte order.

* * @param bo * The new byte order, * either {@link ByteOrder#BIG_ENDIAN BIG_ENDIAN} * or {@link ByteOrder#LITTLE_ENDIAN LITTLE_ENDIAN} * * @return This buffer */ Buffer order(ByteOrder bo); /** * Relative get method for reading a char value. * *

Reads the next two bytes at this buffer's current position, * composing them into a char value according to the current byte order, * and then increments the position by two.

* * @return The char value at the buffer's current position * * @throws BufferUnderflowException * If there are fewer than two bytes * remaining in this buffer */ char getChar(); /** * Relative put method for writing a char * value  (optional operation). * *

Writes two bytes containing the given char value, in the * current byte order, into this buffer at the current position, and then * increments the position by two.

* * @param value * The char value to be written * * @return This buffer * * @throws BufferOverflowException * If there are fewer than two bytes * remaining in this buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer putChar(char value); /** * Absolute get method for reading a char value. * *

Reads two bytes at the given index, composing them into a * char value according to the current byte order.

* * @param index * The index from which the bytes will be read * * @return The char value at the given index * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit, * minus one */ char getChar(int index); /** * Absolute put method for writing a char * value  (optional operation). * *

Writes two bytes containing the given char value, in the * current byte order, into this buffer at the given index.

* * @param index * The index at which the bytes will be written * * @param value * The char value to be written * * @return This buffer * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit, * minus one * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer putChar(int index, char value); /** * Relative get method for reading a short value. * *

Reads the next two bytes at this buffer's current position, * composing them into a short value according to the current byte order, * and then increments the position by two.

* * @return The short value at the buffer's current position * * @throws BufferUnderflowException * If there are fewer than two bytes * remaining in this buffer */ short getShort(); /** * Relative put method for writing a short * value  (optional operation). * *

Writes two bytes containing the given short value, in the * current byte order, into this buffer at the current position, and then * increments the position by two.

* * @param value * The short value to be written * * @return This buffer * * @throws BufferOverflowException * If there are fewer than two bytes * remaining in this buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer putShort(short value); /** * Absolute get method for reading a short value. * *

Reads two bytes at the given index, composing them into a * short value according to the current byte order.

* * @param index * The index from which the bytes will be read * * @return The short value at the given index * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit, * minus one */ short getShort(int index); /** * Absolute put method for writing a short * value  (optional operation). * *

Writes two bytes containing the given short value, in the * current byte order, into this buffer at the given index.

* * @param index * The index at which the bytes will be written * * @param value * The short value to be written * * @return This buffer * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit, * minus one * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer putShort(int index, short value); /** * Relative get method for reading an int value. * *

Reads the next four bytes at this buffer's current position, * composing them into an int value according to the current byte order, * and then increments the position by four.

* * @return The int value at the buffer's current position * * @throws BufferUnderflowException * If there are fewer than four bytes * remaining in this buffer */ int getInt(); /** * Relative put method for writing an int * value  (optional operation). * *

Writes four bytes containing the given int value, in the * current byte order, into this buffer at the current position, and then * increments the position by four.

* * @param value * The int value to be written * * @return This buffer * * @throws BufferOverflowException * If there are fewer than four bytes * remaining in this buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer putInt(int value); /** * Absolute get method for reading an int value. * *

Reads four bytes at the given index, composing them into a * int value according to the current byte order.

* * @param index * The index from which the bytes will be read * * @return The int value at the given index * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit, * minus three */ int getInt(int index); /** * Absolute put method for writing an int * value  (optional operation). * *

Writes four bytes containing the given int value, in the * current byte order, into this buffer at the given index.

* * @param index * The index at which the bytes will be written * * @param value * The int value to be written * * @return This buffer * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit, * minus three * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer putInt(int index, int value); /** * Relative get method for reading a long value. * *

Reads the next eight bytes at this buffer's current position, * composing them into a long value according to the current byte order, * and then increments the position by eight.

* * @return The long value at the buffer's current position * * @throws BufferUnderflowException * If there are fewer than eight bytes * remaining in this buffer */ long getLong(); /** * Relative put method for writing a long * value  (optional operation). * *

Writes eight bytes containing the given long value, in the * current byte order, into this buffer at the current position, and then * increments the position by eight.

* * @param value * The long value to be written * * @return This buffer * * @throws BufferOverflowException * If there are fewer than eight bytes * remaining in this buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer putLong(long value); /** * Absolute get method for reading a long value. * *

Reads eight bytes at the given index, composing them into a * long value according to the current byte order.

* * @param index * The index from which the bytes will be read * * @return The long value at the given index * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit, * minus seven */ long getLong(int index); /** * Absolute put method for writing a long * value  (optional operation). * *

Writes eight bytes containing the given long value, in the * current byte order, into this buffer at the given index.

* * @param index * The index at which the bytes will be written * * @param value * The long value to be written * * @return This buffer * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit, * minus seven * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer putLong(int index, long value); /** * Relative get method for reading a float value. * *

Reads the next four bytes at this buffer's current position, * composing them into a float value according to the current byte order, * and then increments the position by four.

* * @return The float value at the buffer's current position * * @throws BufferUnderflowException * If there are fewer than four bytes * remaining in this buffer */ float getFloat(); /** * Relative put method for writing a float * value  (optional operation). * *

Writes four bytes containing the given float value, in the * current byte order, into this buffer at the current position, and then * increments the position by four.

* * @param value * The float value to be written * * @return This buffer * * @throws BufferOverflowException * If there are fewer than four bytes * remaining in this buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer putFloat(float value); /** * Absolute get method for reading a float value. * *

Reads four bytes at the given index, composing them into a * float value according to the current byte order.

* * @param index * The index from which the bytes will be read * * @return The float value at the given index * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit, * minus three */ float getFloat(int index); /** * Absolute put method for writing a float * value  (optional operation). * *

Writes four bytes containing the given float value, in the * current byte order, into this buffer at the given index.

* * @param index * The index at which the bytes will be written * * @param value * The float value to be written * * @return This buffer * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit, * minus three * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer putFloat(int index, float value); /** * Relative get method for reading a double value. * *

Reads the next eight bytes at this buffer's current position, * composing them into a double value according to the current byte order, * and then increments the position by eight.

* * @return The double value at the buffer's current position * * @throws BufferUnderflowException * If there are fewer than eight bytes * remaining in this buffer */ double getDouble(); /** * Relative put method for writing a double * value  (optional operation). * *

Writes eight bytes containing the given double value, in the * current byte order, into this buffer at the current position, and then * increments the position by eight.

* * @param value * The double value to be written * * @return This buffer * * @throws BufferOverflowException * If there are fewer than eight bytes * remaining in this buffer * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer putDouble(double value); /** * Absolute get method for reading a double value. * *

Reads eight bytes at the given index, composing them into a * double value according to the current byte order.

* * @param index * The index from which the bytes will be read * * @return The double value at the given index * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit, * minus seven */ double getDouble(int index); /** * Absolute put method for writing a double * value  (optional operation). * *

Writes eight bytes containing the given double value, in the * current byte order, into this buffer at the given index.

* * @param index * The index at which the bytes will be written * * @param value * The double value to be written * * @return This buffer * * @throws IndexOutOfBoundsException * If index is negative * or not smaller than the buffer's limit, * minus seven * * @throws ReadOnlyBufferException * If this buffer is read-only */ Buffer putDouble(int index, double value); /** * Returns {@link Buffer} content as {@link String}, using default {@link Charset} * * @return {@link String} representation of this {@link Buffer} content. */ String toStringContent(); /** * Returns {@link Buffer} content as {@link String} * @param charset the {@link Charset}, which will be use * for byte[] -> {@link String} transformation. * * @return {@link String} representation of this {@link Buffer} content. */ String toStringContent(Charset charset); /** * Returns {@link Buffer}'s chunk content as {@link String} * @param charset the {@link Charset}, which will be use * for byte[] -> {@link String} transformation. * @param position the first byte offset in the Buffer (inclusive) * @param limit the last byte offset in the Buffer (exclusive) * * @return {@link String} representation of part of this {@link Buffer}. */ String toStringContent(Charset charset, int position, int limit); /** * Generate a hex dump of this {@link Buffer}'s content. * * @param appendable the {@link Appendable} to dump this {@link Buffer}'s * content to. * @since 2.3.23 */ @SuppressWarnings("unused") void dumpHex(final java.lang.Appendable appendable); /** *

* Converts this Buffer to a {@link ByteBuffer}. * If this Buffer is not composite - then returned * {@link ByteBuffer}'s content is a shared subsequence of this buffer's * content, with {@link CompositeBuffer} this is not guaranteed. * The position of the returned {@link ByteBuffer} is not guaranteed to be 0, * the capacity of the returned {@link ByteBuffer} is not guaranteed to be * equal to the capacity of this Buffer. * It is guaranteed that the result of the returned ByteBuffer's * {@link ByteBuffer#remaining()} call will be equal to this Buffer's * {@link #remaining()} call. * The Buffer's and ByteBuffer's position, limit, and mark values are not * guaranteed to be independent, so it's recommended to save and restore * position, limit values if it is planned to change them or * {@link ByteBuffer#slice()} the returned {@link ByteBuffer}. *

* * @return this Buffer as a {@link ByteBuffer}. */ ByteBuffer toByteBuffer(); /** *

* Converts this Buffer to a {@link ByteBuffer}. * If this Buffer is not composite - then returned * {@link ByteBuffer}'s content is a shared subsequence of this buffer's * content, with {@link CompositeBuffer} this is not guaranteed. * The position of the returned {@link ByteBuffer} is not guaranteed to be 0, * the capacity of the returned {@link ByteBuffer} is not guaranteed to be * equal to the capacity of this Buffer. * It is guaranteed that the result of the returned ByteBuffer's * {@link ByteBuffer#remaining()} call will be equal (limit - position). * The Buffer's and ByteBuffer's position, limit, and mark values are not * guaranteed to be independent, so it's recommended to save and restore * position, limit values if it is planned to change them or * {@link ByteBuffer#slice()} the returned {@link ByteBuffer}. *

* * @param position the position for the starting subsequence for the * returned {@link ByteBuffer}. * @param limit the limit for the ending of the subsequence of the * returned {@link ByteBuffer}. * * @return this Buffer as a {@link ByteBuffer}. */ ByteBuffer toByteBuffer(int position, int limit); /** *

* Converts this Buffer to a {@link ByteBuffer} per {@link #toByteBuffer()} * and returns a {@link ByteBufferArray} containing the converted {@link ByteBuffer}. * It is guaranteed that returned array's ByteBuffer elements' content is * a shared subsequence of this buffer's content no matter if it's a * {@link CompositeBuffer} or not. *

* * @return Converts this Buffer to a {@link ByteBuffer} per {@link #toByteBuffer()} * and returns a {@link ByteBufferArray} containing the converted {@link ByteBuffer}. * * @see {@link #toByteBuffer()} */ @SuppressWarnings("UnusedDeclaration") ByteBufferArray toByteBufferArray(); /** *

* Converts this Buffer to a {@link ByteBuffer} per {@link #toByteBuffer()} * and adds the result to the provided {@link ByteBufferArray}. * It is guaranteed that returned array's ByteBuffer elements' content is * a shared subsequence of this buffer's content no matter if it's a * {@link CompositeBuffer} or not. *

* * @return returns the provided {@link ByteBufferArray} with the converted * {@link ByteBuffer} added to provided array. * * @see {@link #toByteBuffer()} */ ByteBufferArray toByteBufferArray(ByteBufferArray array); /** *

* Converts this Buffer to a {@link ByteBuffer} per {@link #toByteBuffer(int, int)} * and returns a {@link ByteBufferArray} containing the converted {@link ByteBuffer}. * It is guaranteed that returned array's ByteBuffer elements' content is * a shared subsequence of this buffer's content no matter if it's a * {@link CompositeBuffer} or not. *

* * @param position the start position within the source buffer * @param limit the limit, or number, of bytes to include in the resulting * {@link ByteBuffer} * * @return Converts this Buffer to a {@link ByteBuffer} per {@link #toByteBuffer(int, int)} * and returns a {@link ByteBufferArray} containing the converted {@link ByteBuffer}. * * @see {@link #toByteBuffer(int, int)} */ ByteBufferArray toByteBufferArray(int position, int limit); /** *

* Converts this Buffer to a {@link ByteBuffer} per {@link #toByteBuffer(int, int)} * and adds the result to the provided {@link ByteBufferArray}. * It is guaranteed that returned array's ByteBuffer elements' content is * a shared subsequence of this buffer's content no matter if it's a * {@link CompositeBuffer} or not. *

* * @return returns the provided {@link ByteBufferArray} with the converted * {@link ByteBuffer} added to provided array. * * @see {@link #toByteBuffer(int, int)} */ ByteBufferArray toByteBufferArray(ByteBufferArray array, int position, int limit); /** *

* Returns a new {@link BufferArray} instance with this Buffer * added as an element to the {@link BufferArray}. * It is guaranteed that returned array's Buffer elements' content is * a shared subsequence of this buffer's content no matter if it's a * {@link CompositeBuffer} or not. *

* * @return Returns a new {@link BufferArray} instance with this Buffer * added as an element to the {@link BufferArray}. */ BufferArray toBufferArray(); /** *

* Returns the specified {@link BufferArray} after adding this Buffer. * It is guaranteed that returned array's Buffer elements' content is * a shared subsequence of this buffer's content no matter if it's a * {@link CompositeBuffer} or not. *

* * @return Returns the specified {@link BufferArray} after adding this Buffer. */ BufferArray toBufferArray(BufferArray array); /** *

* Updates this Buffer's position and limit * and adds it to a new {@link BufferArray} instance. * It is guaranteed that returned array's Buffer elements' content is * a shared subsequence of this buffer's content no matter if it's a * {@link CompositeBuffer} or not. *

* * @param position the new position for this Buffer * @param limit the new limit for this Buffer * * @return adds this Buffer and returns the specified * {@link BufferArray}. */ BufferArray toBufferArray(int position, int limit); /** *

* Updates this Buffer's position and limit * and adds it to the specified {@link BufferArray}. * It is guaranteed that returned array's Buffer elements' content is * a shared subsequence of this buffer's content no matter if it's a * {@link CompositeBuffer} or not. *

* * @param position the new position for this Buffer * @param limit the new limit for this Buffer * * @return adds this Buffer and returns the specified * {@link BufferArray}. */ BufferArray toBufferArray(BufferArray array, int position, int limit); /** * Tells whether or not this buffer is backed by an accessible byte array. * * If this method returns true then the array and arrayOffset methods may * safely be invoked. * * @return true if, and only if, this buffer is backed by an array * and is not read-only * * @since 2.1.12 */ boolean hasArray(); /** * Returns the byte array that backs this buffer (optional operation). * * Modifications to this buffer's content will cause the returned array's * content to be modified, and vice versa. * * Invoke the hasArray method before invoking this method in order to ensure * that this buffer has an accessible backing array. * * @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 * * @since 2.1.12 */ byte[] array(); /** * Returns the offset within this buffer's backing array of the first * element of the buffer (optional operation). * * If this buffer is backed by an array then buffer position p corresponds * to array index p + arrayOffset(). * * Invoke the hasArray method before invoking this method in order to ensure * that this buffer has an accessible backing array. * * @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 * * @since 2.1.12 */ int arrayOffset(); }




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