Comparable<ByteBuffer>
MappedByteBuffer
public abstract sealed class ByteBuffer extends Buffer implements Comparable<ByteBuffer> permits MappedByteBuffer (not exhaustive)
This class defines six categories of operations upon byte buffers:
Absolute and relative get
and put
methods that read and write single bytes;
Absolute and relative bulk get
methods that transfer contiguous sequences of bytes from this buffer into an array;
Absolute and relative bulk put
methods that transfer contiguous sequences of bytes from a byte array or some other byte buffer into this buffer;
Absolute and relative get
and put
methods that read and write values of other primitive types, translating them to and from sequences of bytes in a particular byte order;
Methods for creating view buffers, which allow a byte buffer to be viewed as a buffer containing values of some other primitive type; and
A method for compacting
a byte buffer.
Byte buffers can be created either by allocation
, which allocates space for the buffer's content, or by wrapping
an existing byte array into a buffer.
A byte buffer is either direct or non-direct. Given a direct byte buffer, the Java virtual machine will make a best effort to perform native I/O operations directly upon it. That is, it will attempt to avoid copying the buffer's content to (or from) an intermediate buffer before (or after) each invocation of one of the underlying operating system's native I/O operations.
A direct byte buffer may be created by invoking the allocateDirect
factory method of this class. The buffers returned by this method typically have somewhat higher allocation and deallocation costs than non-direct buffers. The contents of direct buffers may reside outside of the normal garbage-collected heap, and so their impact upon the memory footprint of an application might not be obvious. It is therefore recommended that direct buffers be allocated primarily for large, long-lived buffers that are subject to the underlying system's native I/O operations. In general it is best to allocate direct buffers only when they yield a measurable gain in program performance.
A direct byte buffer may also be created by mapping
a region of a file directly into memory. An implementation of the Java platform may optionally support the creation of direct byte buffers from native code via JNI. If an instance of one of these kinds of buffers refers to an inaccessible region of memory then an attempt to access that region will not change the buffer's content and will cause an unspecified exception to be thrown either at the time of the access or at some later time.
Whether a byte buffer is direct or non-direct may be determined by invoking its isDirect
method. This method is provided so that explicit buffer management can be done in performance-critical code.
This class defines methods for reading and writing values of all other primitive types, except boolean
. Primitive values are translated to (or from) sequences of bytes according to the buffer's current byte order, which may be retrieved and modified via the order
methods. Specific byte orders are represented by instances of the ByteOrder
class. The initial order of a byte buffer is always BIG_ENDIAN
.
For access to heterogeneous binary data, that is, sequences of values of different types, this class defines a family of absolute and relative get and put methods for each type. For 32-bit floating-point values, for example, this class defines:
float getFloat()
float getFloat(int index)
ByteBuffer putFloat(float f)
ByteBuffer putFloat(int index, float f)
Corresponding methods are defined for the types char,
short, int, long
, and double
. The index parameters of the absolute get and put methods are in terms of bytes rather than of the type being read or written.
For access to homogeneous binary data, that is, sequences of values of the same type, this class defines methods that can create views of a given byte buffer. A view buffer is simply another buffer whose content is backed by the byte buffer. Changes to the byte buffer's content will be visible in the view buffer, and vice versa; the two buffers' position, limit, and mark values are independent. The asFloatBuffer
method, for example, creates an instance of the FloatBuffer
class that is backed by the byte buffer upon which the method is invoked. Corresponding view-creation methods are defined for the types char, short, int, long
, and double
.
View buffers have three important advantages over the families of type-specific get and put methods described above:
A view buffer is indexed not in terms of bytes but rather in terms of the type-specific size of its values;
A view buffer provides relative bulk get and put methods that can transfer contiguous sequences of values between a buffer and an array or some other buffer of the same type; and
A view buffer is potentially much more efficient because it will be direct if, and only if, its backing byte buffer is direct.
The byte order of a view buffer is fixed to be that of its byte buffer at the time that the view is created.
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. The sequence of statements
bb.putInt(0xCAFEBABE);
bb.putShort(3);
bb.putShort(45);
bb.putInt(0xCAFEBABE).putShort(3).putShort(45);
Modifier and Type | Method | Description |
---|---|---|
final ByteBuffer |
alignedSlice |
Creates a new byte buffer whose content is a shared and aligned subsequence of this buffer's content. |
final int |
alignmentOffset |
Returns the memory address, pointing to the byte at the given index, modulo the given unit size. |
static ByteBuffer |
allocate |
Allocates a new byte buffer. |
static ByteBuffer |
allocateDirect |
Allocates a new direct byte buffer. |
final byte[] |
array() |
Returns the byte array that backs this buffer (optional operation). |
final int |
arrayOffset() |
Returns the offset within this buffer's backing array of the first element of the buffer (optional operation). |
abstract CharBuffer |
asCharBuffer() |
Creates a view of this byte buffer as a char buffer. |
abstract DoubleBuffer |
asDoubleBuffer() |
Creates a view of this byte buffer as a double buffer. |
abstract FloatBuffer |
asFloatBuffer() |
Creates a view of this byte buffer as a float buffer. |
abstract IntBuffer |
asIntBuffer() |
Creates a view of this byte buffer as an int buffer. |
abstract LongBuffer |
asLongBuffer() |
Creates a view of this byte buffer as a long buffer. |
abstract ByteBuffer |
asReadOnlyBuffer() |
Creates a new, read-only byte buffer that shares this buffer's content. |
abstract ShortBuffer |
asShortBuffer() |
Creates a view of this byte buffer as a short buffer. |
ByteBuffer |
clear() |
Clears this buffer. |
abstract ByteBuffer |
compact() |
Compacts this buffer (optional operation). |
int |
compareTo |
Compares this buffer to another. |
abstract ByteBuffer |
duplicate() |
Creates a new byte buffer that shares this buffer's content. |
boolean |
equals |
Tells whether or not this buffer is equal to another object. |
ByteBuffer |
flip() |
Flips this buffer. |
abstract byte |
get() |
Relative get method. |
ByteBuffer |
get |
Relative bulk get method. |
ByteBuffer |
get |
Relative bulk get method. |
abstract byte |
get |
Absolute get method. |
ByteBuffer |
get |
Absolute bulk get method. |
ByteBuffer |
get |
Absolute bulk get method. |
abstract char |
getChar() |
Relative get method for reading a char value. |
abstract char |
getChar |
Absolute get method for reading a char value. |
abstract double |
getDouble() |
Relative get method for reading a double value. |
abstract double |
getDouble |
Absolute get method for reading a double value. |
abstract float |
getFloat() |
Relative get method for reading a float value. |
abstract float |
getFloat |
Absolute get method for reading a float value. |
abstract int |
getInt() |
Relative get method for reading an int value. |
abstract int |
getInt |
Absolute get method for reading an int value. |
abstract long |
getLong() |
Relative get method for reading a long value. |
abstract long |
getLong |
Absolute get method for reading a long value. |
abstract short |
getShort() |
Relative get method for reading a short value. |
abstract short |
getShort |
Absolute get method for reading a short value. |
final boolean |
hasArray() |
Tells whether or not this buffer is backed by an accessible byte array. |
int |
hashCode() |
Returns the current hash code of this buffer. |
abstract boolean |
isDirect() |
Tells whether or not this byte buffer is direct. |
ByteBuffer |
limit |
Sets this buffer's limit. |
ByteBuffer |
mark() |
Sets this buffer's mark at its position. |
int |
mismatch |
Finds and returns the relative index of the first mismatch between this buffer and a given buffer. |
final ByteOrder |
order() |
Retrieves this buffer's byte order. |
final ByteBuffer |
order |
Modifies this buffer's byte order. |
ByteBuffer |
position |
Sets this buffer's position. |
abstract ByteBuffer |
put |
Relative put method (optional operation). |
final ByteBuffer |
put |
Relative bulk put method (optional operation). |
ByteBuffer |
put |
Relative bulk put method (optional operation). |
abstract ByteBuffer |
put |
Absolute put method (optional operation). |
ByteBuffer |
put |
Absolute bulk put method (optional operation). |
ByteBuffer |
put |
Absolute bulk put method (optional operation). |
ByteBuffer |
put |
Absolute bulk put method (optional operation). |
ByteBuffer |
put |
Relative bulk put method (optional operation). |
abstract ByteBuffer |
putChar |
Relative put method for writing a char value (optional operation). |
abstract ByteBuffer |
putChar |
Absolute put method for writing a char value (optional operation). |
abstract ByteBuffer |
putDouble |
Relative put method for writing a double value (optional operation). |
abstract ByteBuffer |
putDouble |
Absolute put method for writing a double value (optional operation). |
abstract ByteBuffer |
putFloat |
Relative put method for writing a float value (optional operation). |
abstract ByteBuffer |
putFloat |
Absolute put method for writing a float value (optional operation). |
abstract ByteBuffer |
putInt |
Relative put method for writing an int value (optional operation). |
abstract ByteBuffer |
putInt |
Absolute put method for writing an int value (optional operation). |
abstract ByteBuffer |
putLong |
Absolute put method for writing a long value (optional operation). |
abstract ByteBuffer |
putLong |
Relative put method for writing a long value (optional operation). |
abstract ByteBuffer |
putShort |
Absolute put method for writing a short value (optional operation). |
abstract ByteBuffer |
putShort |
Relative put method for writing a short value (optional operation). |
ByteBuffer |
reset() |
Resets this buffer's position to the previously-marked position. |
ByteBuffer |
rewind() |
Rewinds this buffer. |
abstract ByteBuffer |
slice() |
Creates a new byte buffer whose content is a shared subsequence of this buffer's content. |
abstract ByteBuffer |
slice |
Creates a new byte buffer whose content is a shared subsequence of this buffer's content. |
String |
toString() |
Returns a string summarizing the state of this buffer. |
static ByteBuffer |
wrap |
Wraps a byte array into a buffer. |
static ByteBuffer |
wrap |
Wraps a byte array into a buffer. |
capacity, hasRemaining, isReadOnly, limit, position, remaining
public static ByteBuffer allocateDirect(int capacity)
The new buffer's position will be zero, its limit will be its capacity, its mark will be undefined, each of its elements will be initialized to zero, and its byte order will be BIG_ENDIAN
. Whether or not it has a backing array
is unspecified.
capacity
- The new buffer's capacity, in bytesIllegalArgumentException
- If the capacity
is a negative integerpublic static ByteBuffer allocate(int capacity)
The new buffer's position will be zero, its limit will be its capacity, its mark will be undefined, each of its elements will be initialized to zero, and its byte order will be BIG_ENDIAN
. It will have a backing array
, and its array offset
will be zero.
capacity
- The new buffer's capacity, in bytesIllegalArgumentException
- If the capacity
is a negative integerpublic static ByteBuffer wrap(byte[] array, int offset, int length)
The new buffer will be backed by the given byte array; that is, modifications to the buffer will cause the array to be modified and vice versa. The new buffer's capacity will be array.length
, its position will be offset
, its limit will be offset + length
, its mark will be undefined, and its byte order will be BIG_ENDIAN
. Its backing array
will be the given array, and its array offset
will be zero.
array
- The array that will back the new bufferoffset
- The offset of the subarray to be used; must be non-negative and no larger than array.length
. The new buffer's position will be set to this value.length
- The length of the subarray to be used; must be non-negative and no larger than array.length - offset
. The new buffer's limit will be set to offset + length
.IndexOutOfBoundsException
- If the preconditions on the offset
and length
parameters do not holdpublic static ByteBuffer wrap(byte[] array)
The new buffer will be backed by the given byte 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 array.length
, its position will be zero, its mark will be undefined, and its byte order will be BIG_ENDIAN
. Its backing array
will be the given array, and its array offset
will be zero.
array
- The array that will back this bufferpublic abstract ByteBuffer slice()
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, its mark will be undefined, and its byte order will be BIG_ENDIAN
. 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.
public abstract ByteBuffer slice(int index, int length)
The content of the new buffer will start at position index
in this buffer, and will contain length
elements. 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 length
, its mark will be undefined, and its byte order will be BIG_ENDIAN
. 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.
slice
in class Buffer
index
- The position in this buffer at which the content of the new buffer will start; must be non-negative and no larger than limit()
length
- The number of elements the new buffer will contain; must be non-negative and no larger than limit() - index
IndexOutOfBoundsException
- If index
is negative or greater than limit()
, length
is negative, or length > limit() - index
public abstract ByteBuffer duplicate()
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.
The new buffer's capacity, limit, position, and mark values will be identical to those of this buffer, and its byte order will be BIG_ENDIAN
. 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.
public abstract ByteBuffer asReadOnlyBuffer()
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.
The new buffer's capacity, limit, position, and mark values will be identical to those of this buffer, and its byte order will be BIG_ENDIAN
.
If this buffer is itself read-only then this method behaves in exactly the same way as the duplicate
method.
public abstract byte get()
BufferUnderflowException
- If the buffer's current position is not smaller than its limitpublic abstract ByteBuffer put(byte b)
Writes the given byte into this buffer at the current position, and then increments the position.
b
- The byte to be writtenBufferOverflowException
- If this buffer's current position is not smaller than its limitReadOnlyBufferException
- If this buffer is read-onlypublic abstract byte get(int index)
index
- The index from which the byte will be readIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limitpublic abstract ByteBuffer put(int index, byte b)
Writes the given byte into this buffer at the given index.
index
- The index at which the byte will be writtenb
- The byte value to be writtenIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limitReadOnlyBufferException
- If this buffer is read-onlypublic ByteBuffer get(byte[] dst, int offset, int length)
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 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();
dst
- The array into which bytes are to be writtenoffset
- The offset within the array of the first byte to be written; must be non-negative and no larger than dst.length
length
- The maximum number of bytes to be written to the given array; must be non-negative and no larger than dst.length - offset
BufferUnderflowException
- If there are fewer than length
bytes remaining in this bufferIndexOutOfBoundsException
- If the preconditions on the offset
and length
parameters do not holdpublic ByteBuffer get(byte[] dst)
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)
dst
- The destination arrayBufferUnderflowException
- If there are fewer than length
bytes remaining in this bufferpublic ByteBuffer get(int index, byte[] dst, int offset, int length)
This method transfers length
bytes from this buffer into the given array, starting at the given index in this buffer and at the given offset in the array. The position of this buffer is unchanged.
An invocation of this method of the form src.get(index, dst, offset, length)
has exactly the same effect as the following loop except that it first checks the consistency of the supplied parameters and it is potentially much more efficient:
for (int i = offset, j = index; i < offset + length; i++, j++)
dst[i] = src.get(j);
index
- The index in this buffer from which the first byte will be read; must be non-negative and less than limit()
dst
- The destination arrayoffset
- The offset within the array of the first byte to be written; must be non-negative and less than dst.length
length
- The number of bytes to be written to the given array; must be non-negative and no larger than the smaller of limit() - index
and dst.length - offset
IndexOutOfBoundsException
- If the preconditions on the index
, offset
, and length
parameters do not holdpublic ByteBuffer get(int index, byte[] dst)
This method transfers bytes from this buffer into the given destination array. The position of this buffer is unchanged. An invocation of this method of the form src.get(index, dst)
behaves in exactly the same way as the invocation:
src.get(index, dst, 0, dst.length)
index
- The index in this buffer from which the first byte will be read; must be non-negative and less than limit()
dst
- The destination arrayIndexOutOfBoundsException
- If index
is negative, not smaller than limit()
, or limit() - index < dst.length
public ByteBuffer put(ByteBuffer src)
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 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());
src
- The source buffer from which bytes are to be read; must not be this bufferBufferOverflowException
- If there is insufficient space in this buffer for the remaining bytes in the source bufferIllegalArgumentException
- If the source buffer is this bufferReadOnlyBufferException
- If this buffer is read-onlypublic ByteBuffer put(int index, ByteBuffer src, int offset, int length)
This method transfers length
bytes into this buffer from the given source buffer, starting at the given offset
in the source buffer and the given index
in this buffer. The positions of both buffers are unchanged.
In other words, an invocation of this method of the form dst.put(index, src, offset, length)
has exactly the same effect as the loop
for (int i = offset, j = index; i < offset + length; i++, j++)
dst.put(j, src.get(i));
index
- The index in this buffer at which the first byte will be written; must be non-negative and less than limit()
src
- The buffer from which bytes are to be readoffset
- The index within the source buffer of the first byte to be read; must be non-negative and less than src.limit()
length
- The number of bytes to be read from the given buffer; must be non-negative and no larger than the smaller of limit() - index
and src.limit() - offset
IndexOutOfBoundsException
- If the preconditions on the index
, offset
, and length
parameters do not holdReadOnlyBufferException
- If this buffer is read-onlypublic ByteBuffer put(byte[] src, int offset, int length)
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 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(src[i]);
src
- The array from which bytes are to be readoffset
- The offset within the array of the first byte to be read; must be non-negative and no larger than src.length
length
- The number of bytes to be read from the given array; must be non-negative and no larger than src.length - offset
BufferOverflowException
- If there is insufficient space in this bufferIndexOutOfBoundsException
- If the preconditions on the offset
and length
parameters do not holdReadOnlyBufferException
- If this buffer is read-onlypublic final ByteBuffer put(byte[] src)
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)
src
- The source arrayBufferOverflowException
- If there is insufficient space in this bufferReadOnlyBufferException
- If this buffer is read-onlypublic ByteBuffer put(int index, byte[] src, int offset, int length)
This method transfers length
bytes from the given array, starting at the given offset in the array and at the given index in this buffer. The position of this buffer is unchanged.
An invocation of this method of the form dst.put(index, src, offset, length)
has exactly the same effect as the following loop except that it first checks the consistency of the supplied parameters and it is potentially much more efficient:
for (int i = offset, j = index; i < offset + length; i++, j++)
dst.put(j, src[i]);
index
- The index in this buffer at which the first byte will be written; must be non-negative and less than limit()
src
- The array from which bytes are to be readoffset
- The offset within the array of the first byte to be read; must be non-negative and less than src.length
length
- The number of bytes to be read from the given array; must be non-negative and no larger than the smaller of limit() - index
and src.length - offset
IndexOutOfBoundsException
- If the preconditions on the index
, offset
, and length
parameters do not holdReadOnlyBufferException
- If this buffer is read-onlypublic ByteBuffer put(int index, byte[] src)
This method copies bytes into this buffer from the given source array. The position of this buffer is unchanged. An invocation of this method of the form dst.put(index, src)
behaves in exactly the same way as the invocation:
dst.put(index, src, 0, src.length);
index
- The index in this buffer at which the first byte will be written; must be non-negative and less than limit()
src
- The array from which bytes are to be readIndexOutOfBoundsException
- If index
is negative, not smaller than limit()
, or limit() - index < src.length
ReadOnlyBufferException
- If this buffer is read-onlypublic final boolean hasArray()
If this method returns true
then the array
and arrayOffset
methods may safely be invoked.
public final byte[] array()
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.
array
in class Buffer
ReadOnlyBufferException
- If this buffer is backed by an array but is read-onlyUnsupportedOperationException
- If this buffer is not backed by an accessible arraypublic final int arrayOffset()
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.
arrayOffset
in class Buffer
ReadOnlyBufferException
- If this buffer is backed by an array but is read-onlyUnsupportedOperationException
- If this buffer is not backed by an accessible arraypublic ByteBuffer position(int newPosition)
public ByteBuffer limit(int newLimit)
public ByteBuffer mark()
public ByteBuffer reset()
Invoking this method neither changes nor discards the mark's value.
public ByteBuffer clear()
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.
public ByteBuffer flip()
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 compact
method when transferring data from one place to another.
public ByteBuffer rewind()
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
public abstract ByteBuffer compact()
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
while (in.read(buf) >= 0 || buf.position != 0) {
buf.flip();
out.write(buf);
buf.compact(); // In case of partial write
}
ReadOnlyBufferException
- If this buffer is read-onlypublic abstract boolean isDirect()
public String toString()
public int hashCode()
The hash code of a byte buffer depends only upon its remaining elements; that is, upon the elements from position()
up to, and including, the element at limit()
- 1
.
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.
public boolean equals(Object ob)
Two byte buffers are equal if, and only if,
They have the same element type,
They have the same number of remaining elements, and
The two sequences of remaining elements, considered independently of their starting positions, are pointwise equal.
A byte buffer is not equal to any other type of object.
public int compareTo(ByteBuffer that)
Two byte 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 byte
elements are compared as if by invoking Byte.compare(byte,byte)
.
A byte buffer is not comparable to any other type of object.
compareTo
in interface Comparable<ByteBuffer>
that
- the object to be compared.public int mismatch(ByteBuffer that)
position
of each buffer and will be in the range of 0 (inclusive) up to the smaller of the remaining
elements in each buffer (exclusive). If the two buffers share a common prefix then the returned index is the length of the common prefix and it follows that there is a mismatch between the two buffers at that index within the respective buffers. If one buffer is a proper prefix of the other then the returned index is the smaller of the remaining elements in each buffer, and it follows that the index is only valid for the buffer with the larger number of remaining elements. Otherwise, there is no mismatch.
that
- The byte buffer to be tested for a mismatch with this bufferpublic final ByteOrder order()
The byte order is used when reading or writing multibyte values, and when creating buffers that are views of this byte buffer. The order of a newly-created byte buffer is always BIG_ENDIAN
.
public final ByteBuffer order(ByteOrder bo)
bo
- The new byte order, either BIG_ENDIAN
or LITTLE_ENDIAN
public final int alignmentOffset(int index, int unitSize)
The return value is non-negative in the range of 0
(inclusive) up to unitSize
(exclusive), with zero indicating that the address of the byte at the index is aligned for the unit size, and a positive value that the address is misaligned for the unit size. If the address of the byte at the index is misaligned, the return value represents how much the index should be adjusted to locate a byte at an aligned address. Specifically, the index should either be decremented by the return value if the latter is not greater than index
, or be incremented by the unit size minus the return value. Therefore given
int value = alignmentOffset(index, unitSize)
alignmentOffset(index - value, unitSize) == 0, value <= index
alignmentOffset(index + (unitSize - value), unitSize) == 0
UnsupportedOperationException
for non-direct buffers when the given unit size is greater then 8
.index
- The index to query for alignment offset, must be non-negative, no upper bounds check is performedunitSize
- The unit size in bytes, must be a power of 2
IllegalArgumentException
- If the index is negative or the unit size is not a power of 2
UnsupportedOperationException
- If the native platform does not guarantee stable alignment offset values for the given unit size when managing the memory regions of buffers of the same kind as this buffer (direct or non-direct). For example, if garbage collection would result in the moving of a memory region covered by a non-direct buffer from one location to another and both locations have different alignment characteristics.public final ByteBuffer alignedSlice(int unitSize)
The content of the new buffer will start at this buffer's current position rounded up to the index of the nearest aligned byte for the given unit size, and end at this buffer's limit rounded down to the index of the nearest aligned byte for the given unit size. If rounding results in out-of-bound values then the new buffer's capacity and limit will be zero. If rounding is within bounds the following expressions will be true for a new buffer nb
and unit size unitSize
:
nb.alignmentOffset(0, unitSize) == 0
nb.alignmentOffset(nb.limit(), unitSize) == 0
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 or fewer subject to alignment, its mark will be undefined, and its byte order will be BIG_ENDIAN
. 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.
UnsupportedOperationException
for non-direct buffers when the given unit size is greater then 8
.unitSize
- The unit size in bytes, must be a power of 2
IllegalArgumentException
- If the unit size not a power of 2
UnsupportedOperationException
- If the native platform does not guarantee stable aligned slices for the given unit size when managing the memory regions of buffers of the same kind as this buffer (direct or non-direct). For example, if garbage collection would result in the moving of a memory region covered by a non-direct buffer from one location to another and both locations have different alignment characteristics.public abstract char getChar()
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.
BufferUnderflowException
- If there are fewer than two bytes remaining in this bufferpublic abstract ByteBuffer putChar(char value)
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.
value
- The char value to be writtenBufferOverflowException
- If there are fewer than two bytes remaining in this bufferReadOnlyBufferException
- If this buffer is read-onlypublic abstract char getChar(int index)
Reads two bytes at the given index, composing them into a char value according to the current byte order.
index
- The index from which the bytes will be readIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limit, minus onepublic abstract ByteBuffer putChar(int index, char value)
Writes two bytes containing the given char value, in the current byte order, into this buffer at the given index.
index
- The index at which the bytes will be writtenvalue
- The char value to be writtenIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limit, minus oneReadOnlyBufferException
- If this buffer is read-onlypublic abstract CharBuffer asCharBuffer()
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 divided by two, its mark will be undefined, and its byte order will be that of the byte buffer at the moment the view is created. 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.
public abstract short getShort()
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.
BufferUnderflowException
- If there are fewer than two bytes remaining in this bufferpublic abstract ByteBuffer putShort(short value)
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.
value
- The short value to be writtenBufferOverflowException
- If there are fewer than two bytes remaining in this bufferReadOnlyBufferException
- If this buffer is read-onlypublic abstract short getShort(int index)
Reads two bytes at the given index, composing them into a short value according to the current byte order.
index
- The index from which the bytes will be readIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limit, minus onepublic abstract ByteBuffer putShort(int index, short value)
Writes two bytes containing the given short value, in the current byte order, into this buffer at the given index.
index
- The index at which the bytes will be writtenvalue
- The short value to be writtenIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limit, minus oneReadOnlyBufferException
- If this buffer is read-onlypublic abstract ShortBuffer asShortBuffer()
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 divided by two, its mark will be undefined, and its byte order will be that of the byte buffer at the moment the view is created. 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.
public abstract int getInt()
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.
BufferUnderflowException
- If there are fewer than four bytes remaining in this bufferpublic abstract ByteBuffer putInt(int value)
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.
value
- The int value to be writtenBufferOverflowException
- If there are fewer than four bytes remaining in this bufferReadOnlyBufferException
- If this buffer is read-onlypublic abstract int getInt(int index)
Reads four bytes at the given index, composing them into a int value according to the current byte order.
index
- The index from which the bytes will be readIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limit, minus threepublic abstract ByteBuffer putInt(int index, int value)
Writes four bytes containing the given int value, in the current byte order, into this buffer at the given index.
index
- The index at which the bytes will be writtenvalue
- The int value to be writtenIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limit, minus threeReadOnlyBufferException
- If this buffer is read-onlypublic abstract IntBuffer asIntBuffer()
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 divided by four, its mark will be undefined, and its byte order will be that of the byte buffer at the moment the view is created. 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.
public abstract long getLong()
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.
BufferUnderflowException
- If there are fewer than eight bytes remaining in this bufferpublic abstract ByteBuffer putLong(long value)
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.
value
- The long value to be writtenBufferOverflowException
- If there are fewer than eight bytes remaining in this bufferReadOnlyBufferException
- If this buffer is read-onlypublic abstract long getLong(int index)
Reads eight bytes at the given index, composing them into a long value according to the current byte order.
index
- The index from which the bytes will be readIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limit, minus sevenpublic abstract ByteBuffer putLong(int index, long value)
Writes eight bytes containing the given long value, in the current byte order, into this buffer at the given index.
index
- The index at which the bytes will be writtenvalue
- The long value to be writtenIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limit, minus sevenReadOnlyBufferException
- If this buffer is read-onlypublic abstract LongBuffer asLongBuffer()
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 divided by eight, its mark will be undefined, and its byte order will be that of the byte buffer at the moment the view is created. 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.
public abstract float getFloat()
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.
BufferUnderflowException
- If there are fewer than four bytes remaining in this bufferpublic abstract ByteBuffer putFloat(float value)
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.
value
- The float value to be writtenBufferOverflowException
- If there are fewer than four bytes remaining in this bufferReadOnlyBufferException
- If this buffer is read-onlypublic abstract float getFloat(int index)
Reads four bytes at the given index, composing them into a float value according to the current byte order.
index
- The index from which the bytes will be readIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limit, minus threepublic abstract ByteBuffer putFloat(int index, float value)
Writes four bytes containing the given float value, in the current byte order, into this buffer at the given index.
index
- The index at which the bytes will be writtenvalue
- The float value to be writtenIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limit, minus threeReadOnlyBufferException
- If this buffer is read-onlypublic abstract FloatBuffer asFloatBuffer()
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 divided by four, its mark will be undefined, and its byte order will be that of the byte buffer at the moment the view is created. 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.
public abstract double getDouble()
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.
BufferUnderflowException
- If there are fewer than eight bytes remaining in this bufferpublic abstract ByteBuffer putDouble(double value)
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.
value
- The double value to be writtenBufferOverflowException
- If there are fewer than eight bytes remaining in this bufferReadOnlyBufferException
- If this buffer is read-onlypublic abstract double getDouble(int index)
Reads eight bytes at the given index, composing them into a double value according to the current byte order.
index
- The index from which the bytes will be readIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limit, minus sevenpublic abstract ByteBuffer putDouble(int index, double value)
Writes eight bytes containing the given double value, in the current byte order, into this buffer at the given index.
index
- The index at which the bytes will be writtenvalue
- The double value to be writtenIndexOutOfBoundsException
- If index
is negative or not smaller than the buffer's limit, minus sevenReadOnlyBufferException
- If this buffer is read-onlypublic abstract DoubleBuffer asDoubleBuffer()
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 divided by eight, its mark will be undefined, and its byte order will be that of the byte buffer at the moment the view is created. 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.
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Documentation extracted from Debian's OpenJDK Development Kit package.
Licensed under the GNU General Public License, version 2, with the Classpath Exception.
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https://docs.oracle.com/en/java/javase/21/docs/api/java.base/java/nio/ByteBuffer.html