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RecyclingByteBlockAllocator
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freeByteBlocks: byte[][]
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maxBufferedBlocks: int
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freeBlocks: int
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bytesUsed: Counter
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DEFAULT_BUFFERED_BLOCKS: int
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RecyclingByteBlockAllocator(int, int, Counter): void
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RecyclingByteBlockAllocator(int, int): void
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RecyclingByteBlockAllocator(): void
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getByteBlock(): byte[]
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recycleByteBlocks(byte[][], int, int): void
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numBufferedBlocks(): int
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bytesUsed(): long
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maxBufferedBlocks(): int
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freeBlocks(int): int
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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 org.apache.lucene.util;
import org.apache.lucene.util.ByteBlockPool.Allocator;
A Allocator implementation that recycles unused byte blocks in a buffer and reuses them in subsequent calls to getByteBlock().
Note: This class is not thread-safe
@lucene.internal
/**
* A {@link ByteBlockPool.Allocator} implementation that recycles unused byte
* blocks in a buffer and reuses them in subsequent calls to
* {@link #getByteBlock()}.
* <p>
* Note: This class is not thread-safe
* </p>
* @lucene.internal
*/
public final class RecyclingByteBlockAllocator extends ByteBlockPool.Allocator {
private byte[][] freeByteBlocks;
private final int maxBufferedBlocks;
private int freeBlocks = 0;
private final Counter bytesUsed;
public static final int DEFAULT_BUFFERED_BLOCKS = 64;
Creates a new RecyclingByteBlockAllocator Params: - blockSize –
the block size in bytes
- maxBufferedBlocks –
maximum number of buffered byte block
- bytesUsed –
Counter reference counting internally allocated bytes
/**
* Creates a new {@link RecyclingByteBlockAllocator}
*
* @param blockSize
* the block size in bytes
* @param maxBufferedBlocks
* maximum number of buffered byte block
* @param bytesUsed
* {@link Counter} reference counting internally allocated bytes
*/
public RecyclingByteBlockAllocator(int blockSize, int maxBufferedBlocks,
Counter bytesUsed) {
super(blockSize);
freeByteBlocks = new byte[maxBufferedBlocks][];
this.maxBufferedBlocks = maxBufferedBlocks;
this.bytesUsed = bytesUsed;
}
Creates a new RecyclingByteBlockAllocator. Params: - blockSize –
the block size in bytes
- maxBufferedBlocks –
maximum number of buffered byte block
/**
* Creates a new {@link RecyclingByteBlockAllocator}.
*
* @param blockSize
* the block size in bytes
* @param maxBufferedBlocks
* maximum number of buffered byte block
*/
public RecyclingByteBlockAllocator(int blockSize, int maxBufferedBlocks) {
this(blockSize, maxBufferedBlocks, Counter.newCounter(false));
}
Creates a new RecyclingByteBlockAllocator with a block size of ByteBlockPool.BYTE_BLOCK_SIZE, upper buffered docs limit of DEFAULT_BUFFERED_BLOCKS (64). /**
* Creates a new {@link RecyclingByteBlockAllocator} with a block size of
* {@link ByteBlockPool#BYTE_BLOCK_SIZE}, upper buffered docs limit of
* {@link #DEFAULT_BUFFERED_BLOCKS} ({@value #DEFAULT_BUFFERED_BLOCKS}).
*
*/
public RecyclingByteBlockAllocator() {
this(ByteBlockPool.BYTE_BLOCK_SIZE, 64, Counter.newCounter(false));
}
@Override
public byte[] getByteBlock() {
if (freeBlocks == 0) {
bytesUsed.addAndGet(blockSize);
return new byte[blockSize];
}
final byte[] b = freeByteBlocks[--freeBlocks];
freeByteBlocks[freeBlocks] = null;
return b;
}
@Override
public void recycleByteBlocks(byte[][] blocks, int start, int end) {
final int numBlocks = Math.min(maxBufferedBlocks - freeBlocks, end - start);
final int size = freeBlocks + numBlocks;
if (size >= freeByteBlocks.length) {
final byte[][] newBlocks = new byte[ArrayUtil.oversize(size,
RamUsageEstimator.NUM_BYTES_OBJECT_REF)][];
System.arraycopy(freeByteBlocks, 0, newBlocks, 0, freeBlocks);
freeByteBlocks = newBlocks;
}
final int stop = start + numBlocks;
for (int i = start; i < stop; i++) {
freeByteBlocks[freeBlocks++] = blocks[i];
blocks[i] = null;
}
for (int i = stop; i < end; i++) {
blocks[i] = null;
}
bytesUsed.addAndGet(-(end - stop) * blockSize);
assert bytesUsed.get() >= 0;
}
Returns: the number of currently buffered blocks
/**
* @return the number of currently buffered blocks
*/
public int numBufferedBlocks() {
return freeBlocks;
}
Returns: the number of bytes currently allocated by this Allocator
/**
* @return the number of bytes currently allocated by this {@link Allocator}
*/
public long bytesUsed() {
return bytesUsed.get();
}
Returns: the maximum number of buffered byte blocks
/**
* @return the maximum number of buffered byte blocks
*/
public int maxBufferedBlocks() {
return maxBufferedBlocks;
}
Removes the given number of byte blocks from the buffer if possible.
Params: - num –
the number of byte blocks to remove
Returns: the number of actually removed buffers
/**
* Removes the given number of byte blocks from the buffer if possible.
*
* @param num
* the number of byte blocks to remove
* @return the number of actually removed buffers
*/
public int freeBlocks(int num) {
assert num >= 0 : "free blocks must be >= 0 but was: "+ num;
final int stop;
final int count;
if (num > freeBlocks) {
stop = 0;
count = freeBlocks;
} else {
stop = freeBlocks - num;
count = num;
}
while (freeBlocks > stop) {
freeByteBlocks[--freeBlocks] = null;
}
bytesUsed.addAndGet(-count*blockSize);
assert bytesUsed.get() >= 0;
return count;
}
}