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/* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package java.nio;
import java.nio.internal.BufferInternalUtils;
import java.nio.internal.MemoryBlock;
/**
* A buffer is a list of elements of a specific primitive type.
*
* A buffer can be described by the following properties:
*
* - Capacity: the number of elements a buffer can hold. Capacity may not be
* negative and never changes.
* - Position: a cursor of this buffer. Elements are read or written at the
* position if you do not specify an index explicitly. Position may not be
* negative and not greater than the limit.
* - Limit: controls the scope of accessible elements. You can only read or
* write elements from index zero to
limit - 1
. Accessing
* elements out of the scope will cause an exception. Limit may not be negative
* and not greater than capacity.
* - Mark: used to remember the current position, so that you can reset the
* position later. Mark may not be negative and no greater than position.
* - A buffer can be read-only or read-write. Trying to modify the elements
* of a read-only buffer will cause a
ReadOnlyBufferException
,
* while changing the position, limit and mark of a read-only buffer is OK.
* - A buffer can be direct or indirect. A direct buffer will try its best to
* take advantage of native memory APIs and it may not stay in the Java heap,
* thus it is not affected by garbage collection.
*
*
* Buffers are not thread-safe. If concurrent access to a buffer instance is
* required, then the callers are responsible to take care of the
* synchronization issues.
*/
public abstract class Buffer {
static {
BufferInternalUtils.reference();
}
/**
* UNSET_MARK
means the mark has not been set.
*/
static final int UNSET_MARK = -1;
/**
* The capacity of this buffer, which never changes.
*/
final int capacity;
/**
* limit - 1
is the last element that can be read or written.
* Limit must be no less than zero and no greater than capacity
.
*/
int limit;
/**
* Mark is where position will be set when reset()
is called.
* Mark is not set by default. Mark is always no less than zero and no
* greater than position
.
*/
int mark = UNSET_MARK;
/**
* The current position of this buffer. Position is always no less than zero
* and no greater than limit
.
*/
int position = 0;
/**
* The log base 2 of the element size of this buffer. Each typed subclass
* (ByteBuffer, CharBuffer, etc.) is responsible for initializing this
* value. The value is used by JNI code in frameworks/base/ to avoid the
* need for costly 'instanceof' tests.
*/
final int _elementSizeShift;
/**
* For direct buffers, the effective address of the data; zero otherwise.
* This is set in the constructor.
* TODO: make this final at the cost of loads of extra constructors? [how many?]
*/
long effectiveDirectAddress;
/**
* For direct buffers, the underlying MemoryBlock; null otherwise.
*/
final MemoryBlock block;
Buffer(int elementSizeShift, int capacity, MemoryBlock block) {
this._elementSizeShift = elementSizeShift;
if (capacity < 0) {
throw new IllegalArgumentException("capacity < 0: " + capacity);
}
this.capacity = this.limit = capacity;
this.block = block;
}
/**
* Returns the array that backs this buffer (optional operation).
* The returned value is the actual array, not a copy, so modifications
* to the array write through to the buffer.
*
*
Subclasses should override this method with a covariant return type
* to provide the exact type of the array.
*
*
Use {@code hasArray} to ensure this method won't throw.
* (A separate call to {@code isReadOnly} is not necessary.)
*
* @return the array
* @throws ReadOnlyBufferException if the buffer is read-only
* UnsupportedOperationException if the buffer does not expose an array
* @since 1.6
*/
public abstract Object array();
/**
* Returns the offset into the array returned by {@code array} of the first
* element of the buffer (optional operation). The backing array (if there is one)
* is not necessarily the same size as the buffer, and position 0 in the buffer is
* not necessarily the 0th element in the array. Use
* {@code buffer.array()[offset + buffer.arrayOffset()} to access element {@code offset}
* in {@code buffer}.
*
*
Use {@code hasArray} to ensure this method won't throw.
* (A separate call to {@code isReadOnly} is not necessary.)
*
* @return the offset
* @throws ReadOnlyBufferException if the buffer is read-only
* UnsupportedOperationException if the buffer does not expose an array
* @since 1.6
*/
public abstract int arrayOffset();
/**
* Returns the capacity of this buffer.
*
* @return the number of elements that are contained in this buffer.
*/
public final int capacity() {
return capacity;
}
/**
* Used for the scalar get/put operations.
*/
void checkIndex(int index) {
if (index < 0 || index >= limit) {
throw new IndexOutOfBoundsException("index=" + index + ", limit=" + limit);
}
}
/**
* Used for the ByteBuffer operations that get types larger than a byte.
*/
void checkIndex(int index, int sizeOfType) {
if (index < 0 || index > limit - sizeOfType) {
throw new IndexOutOfBoundsException("index=" + index + ", limit=" + limit +
", size of type=" + sizeOfType);
}
}
int checkGetBounds(int bytesPerElement, int length, int offset, int count) {
int byteCount = bytesPerElement * count;
if ((offset | count) < 0 || offset > length || length - offset < count) {
throw new IndexOutOfBoundsException("offset=" + offset +
", count=" + count + ", length=" + length);
}
if (byteCount > remaining()) {
throw new BufferUnderflowException();
}
return byteCount;
}
int checkPutBounds(int bytesPerElement, int length, int offset, int count) {
int byteCount = bytesPerElement * count;
if ((offset | count) < 0 || offset > length || length - offset < count) {
throw new IndexOutOfBoundsException("offset=" + offset +
", count=" + count + ", length=" + length);
}
if (byteCount > remaining()) {
throw new BufferOverflowException();
}
if (isReadOnly()) {
throw new ReadOnlyBufferException();
}
return byteCount;
}
void checkStartEndRemaining(int start, int end) {
if (end < start || start < 0 || end > remaining()) {
throw new IndexOutOfBoundsException("start=" + start + ", end=" + end +
", remaining()=" + remaining());
}
}
/**
* Clears this buffer.
*
* While the content of this buffer is not changed, the following internal
* changes take place: the current position is reset back to the start of
* the buffer, the value of the buffer limit is made equal to the capacity
* and mark is cleared.
*
* @return this buffer.
*/
public final Buffer clear() {
position = 0;
mark = UNSET_MARK;
limit = capacity;
return this;
}
/**
* Flips this buffer.
*
* The limit is set to the current position, then the position is set to
* zero, and the mark is cleared.
*
* The content of this buffer is not changed.
*
* @return this buffer.
*/
public final Buffer flip() {
limit = position;
position = 0;
mark = UNSET_MARK;
return this;
}
/**
* Returns true if {@code array} and {@code arrayOffset} won't throw. This method does not
* return true for buffers not backed by arrays because the other methods would throw
* {@code UnsupportedOperationException}, nor does it return true for buffers backed by
* read-only arrays, because the other methods would throw {@code ReadOnlyBufferException}.
* @since 1.6
*/
public abstract boolean hasArray();
/**
* Indicates if there are elements remaining in this buffer, that is if
* {@code position < limit}.
*
* @return {@code true} if there are elements remaining in this buffer,
* {@code false} otherwise.
*/
public final boolean hasRemaining() {
return position < limit;
}
/**
* Returns true if this is a direct buffer.
* @since 1.6
*/
public abstract boolean isDirect();
/**
* Indicates whether this buffer is read-only.
*
* @return {@code true} if this buffer is read-only, {@code false}
* otherwise.
*/
public abstract boolean isReadOnly();
final void checkWritable() {
if (isReadOnly()) {
throw new IllegalArgumentException("Read-only buffer");
}
}
/**
* Returns the limit of this buffer.
*
* @return the limit of this buffer.
*/
public final int limit() {
return limit;
}
/**
* Sets the limit of this buffer.
*
* If the current position in the buffer is in excess of
* newLimit
then, on returning from this call, it will have
* been adjusted to be equivalent to newLimit
. If the mark
* is set and is greater than the new limit, then it is cleared.
*
* @param newLimit
* the new limit, must not be negative and not greater than
* capacity.
* @return this buffer.
* @exception IllegalArgumentException
* if newLimit
is invalid.
*/
public final Buffer limit(int newLimit) {
if (newLimit < 0 || newLimit > capacity) {
throw new IllegalArgumentException("Bad limit (capacity " + capacity + "): " + newLimit);
}
limit = newLimit;
if (position > newLimit) {
position = newLimit;
}
if ((mark != UNSET_MARK) && (mark > newLimit)) {
mark = UNSET_MARK;
}
return this;
}
/**
* Marks the current position, so that the position may return to this point
* later by calling reset()
.
*
* @return this buffer.
*/
public final Buffer mark() {
mark = position;
return this;
}
/**
* Returns the position of this buffer.
*
* @return the value of this buffer's current position.
*/
public final int position() {
return position;
}
/**
* Sets the position of this buffer.
*
* If the mark is set and it is greater than the new position, then it is
* cleared.
*
* @param newPosition
* the new position, must be not negative and not greater than
* limit.
* @return this buffer.
* @exception IllegalArgumentException
* if newPosition
is invalid.
*/
public final Buffer position(int newPosition) {
positionImpl(newPosition);
return this;
}
void positionImpl(int newPosition) {
if (newPosition < 0 || newPosition > limit) {
throw new IllegalArgumentException("Bad position (limit " + limit + "): " + newPosition);
}
position = newPosition;
if ((mark != UNSET_MARK) && (mark > position)) {
mark = UNSET_MARK;
}
}
/**
* Returns the number of remaining elements in this buffer, that is
* {@code limit - position}.
*
* @return the number of remaining elements in this buffer.
*/
public final int remaining() {
return limit - position;
}
/**
* Resets the position of this buffer to the mark
.
*
* @return this buffer.
* @exception InvalidMarkException
* if the mark is not set.
*/
public final Buffer reset() {
if (mark == UNSET_MARK) {
throw new InvalidMarkException();
}
position = mark;
return this;
}
/**
* Rewinds this buffer.
*
* The position is set to zero, and the mark is cleared. The content of this
* buffer is not changed.
*
* @return this buffer.
*/
public final Buffer rewind() {
position = 0;
mark = UNSET_MARK;
return this;
}
/**
* Returns a string describing this buffer.
*/
@Override public String toString() {
return getClass().getName() +
"[position=" + position + ",limit=" + limit + ",capacity=" + capacity + "]";
}
}