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package org.infinispan.commons.io;

import java.io.ByteArrayOutputStream;

import net.jcip.annotations.NotThreadSafe;

/**
 * Extends ByteArrayOutputStream, but exposes the internal buffer. Using this, callers don't need to call toByteArray()
 * which copies the internal buffer. 

Also overrides the superclass' behavior of always doubling the size of the * internal buffer any time more capacity is needed. This class doubles the size until the internal buffer reaches a * configurable max size (default is 4MB), after which it begins growing the buffer in 25% increments. This is intended * to help prevent an OutOfMemoryError during a resize of a large buffer.

A version of this class was * originally created by Bela Ban as part of the JGroups library.

This class is not threadsafe as it will not * support concurrent readers and writers. *

* * @author Brian Stansberry * @since 4.0 * @deprecated Since 13.0, please use {@link LazyByteArrayOutputStream} instead. */ @NotThreadSafe @Deprecated(forRemoval = true) public final class ExposedByteArrayOutputStream extends ByteArrayOutputStream { /** * Default buffer size after which if more buffer capacity is needed the buffer will grow by 25% rather than 100% */ public static final int DEFAULT_DOUBLING_SIZE = 4 * 1024 * 1024; // 4MB private int maxDoublingSize = DEFAULT_DOUBLING_SIZE; public ExposedByteArrayOutputStream() { super(); } public ExposedByteArrayOutputStream(int size) { super(size); } /** * Creates a new byte array output stream, with a buffer capacity of the specified size, in bytes. * * @param size the initial size. * @param maxDoublingSize the buffer size, after which if more capacity is needed the buffer will grow by 25% rather * than 100% * @throws IllegalArgumentException if size is negative. */ public ExposedByteArrayOutputStream(int size, int maxDoublingSize) { super(size); this.maxDoublingSize = maxDoublingSize; } /** * Gets the internal buffer array. Note that the length of this array will almost certainly be longer than the data * written to it; call size() to get the number of bytes of actual data. */ public byte[] getRawBuffer() { return buf; } @Override public void write(byte[] b, int off, int len) { if ((off < 0) || (off > b.length) || (len < 0) || ((off + len) > b.length) || ((off + len) < 0)) { throw new IndexOutOfBoundsException(); } else if (len == 0) { return; } int newcount = count + len; if (newcount > buf.length) { byte newbuf[] = new byte[getNewBufferSize(buf.length, newcount)]; System.arraycopy(buf, 0, newbuf, 0, count); buf = newbuf; } System.arraycopy(b, off, buf, count, len); count = newcount; } @Override public void write(int b) { int newcount = count + 1; if (newcount > buf.length) { byte newbuf[] = new byte[getNewBufferSize(buf.length, newcount)]; System.arraycopy(buf, 0, newbuf, 0, count); buf = newbuf; } buf[count] = (byte) b; count = newcount; } /** * Gets the highest internal buffer size after which if more capacity is needed the buffer will grow in 25% * increments rather than 100%. */ public final int getMaxDoublingSize() { return maxDoublingSize; } /** * Gets the number of bytes to which the internal buffer should be resized. * * @param curSize the current number of bytes * @param minNewSize the minimum number of bytes required * @return the size to which the internal buffer should be resized */ public int getNewBufferSize(int curSize, int minNewSize) { if (curSize <= maxDoublingSize) return Math.max(curSize << 1, minNewSize); else return Math.max(curSize + (curSize >> 2), minNewSize); } /** * Overriden only to avoid unneeded synchronization */ @Override public int size() { return count; } }





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