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/* Jackson JSON-processor.
 *
 * Copyright (c) 2007- Tatu Saloranta, [email protected]
 */

package com.fasterxml.jackson.core.util;

import java.io.OutputStream;
import java.util.*;

/**
 * Helper class that is similar to {@link java.io.ByteArrayOutputStream}
 * in usage, but more geared to Jackson use cases internally.
 * Specific changes include segment storage (no need to have linear
 * backing buffer, can avoid reallocs, copying), as well API
 * not based on {@link java.io.OutputStream}. In short, a very much
 * specialized builder object.
 *

* Since version 1.5, also implements {@link OutputStream} to allow * efficient aggregation of output content as a byte array, similar * to how {@link java.io.ByteArrayOutputStream} works, but somewhat more * efficiently for many use cases. */ public final class ByteArrayBuilder extends OutputStream { private final static byte[] NO_BYTES = new byte[0]; /** * Size of the first block we will allocate. */ private final static int INITIAL_BLOCK_SIZE = 500; /** * Maximum block size we will use for individual non-aggregated * blocks. Let's limit to using 256k chunks. */ private final static int MAX_BLOCK_SIZE = (1 << 18); final static int DEFAULT_BLOCK_ARRAY_SIZE = 40; /** * Optional buffer recycler instance that we can use for allocating * the first block. */ private final BufferRecycler _bufferRecycler; private final LinkedList _pastBlocks = new LinkedList(); /** * Number of bytes within byte arrays in {@link _pastBlocks}. */ private int _pastLen; private byte[] _currBlock; private int _currBlockPtr; public ByteArrayBuilder() { this(null); } public ByteArrayBuilder(BufferRecycler br) { this(br, INITIAL_BLOCK_SIZE); } public ByteArrayBuilder(int firstBlockSize) { this(null, firstBlockSize); } public ByteArrayBuilder(BufferRecycler br, int firstBlockSize) { _bufferRecycler = br; if (br == null) { _currBlock = new byte[firstBlockSize]; } else { _currBlock = br.allocByteBuffer(BufferRecycler.ByteBufferType.WRITE_CONCAT_BUFFER); } } public void reset() { _pastLen = 0; _currBlockPtr = 0; if (!_pastBlocks.isEmpty()) { _pastBlocks.clear(); } } /** * Clean up method to call to release all buffers this object may be * using. After calling the method, no other accessors can be used (and * attempt to do so may result in an exception) */ public void release() { reset(); if (_bufferRecycler != null && _currBlock != null) { _bufferRecycler.releaseByteBuffer(BufferRecycler.ByteBufferType.WRITE_CONCAT_BUFFER, _currBlock); _currBlock = null; } } public void append(int i) { if (_currBlockPtr >= _currBlock.length) { _allocMore(); } _currBlock[_currBlockPtr++] = (byte) i; } public void appendTwoBytes(int b16) { if ((_currBlockPtr + 1) < _currBlock.length) { _currBlock[_currBlockPtr++] = (byte) (b16 >> 8); _currBlock[_currBlockPtr++] = (byte) b16; } else { append(b16 >> 8); append(b16); } } public void appendThreeBytes(int b24) { if ((_currBlockPtr + 2) < _currBlock.length) { _currBlock[_currBlockPtr++] = (byte) (b24 >> 16); _currBlock[_currBlockPtr++] = (byte) (b24 >> 8); _currBlock[_currBlockPtr++] = (byte) b24; } else { append(b24 >> 16); append(b24 >> 8); append(b24); } } /** * Method called when results are finalized and we can get the * full aggregated result buffer to return to the caller */ public byte[] toByteArray() { int totalLen = _pastLen + _currBlockPtr; if (totalLen == 0) { // quick check: nothing aggregated? return NO_BYTES; } byte[] result = new byte[totalLen]; int offset = 0; for (byte[] block : _pastBlocks) { int len = block.length; System.arraycopy(block, 0, result, offset, len); offset += len; } System.arraycopy(_currBlock, 0, result, offset, _currBlockPtr); offset += _currBlockPtr; if (offset != totalLen) { // just a sanity check throw new RuntimeException("Internal error: total len assumed to be "+totalLen+", copied "+offset+" bytes"); } // Let's only reset if there's sizable use, otherwise will get reset later on if (!_pastBlocks.isEmpty()) { reset(); } return result; } /* /********************************************************** /* Non-stream API (similar to TextBuffer), since 1.6 /********************************************************** */ /** * Method called when starting "manual" output: will clear out * current state and return the first segment buffer to fill */ public byte[] resetAndGetFirstSegment() { reset(); return _currBlock; } /** * Method called when the current segment buffer is full; will * append to current contents, allocate a new segment buffer * and return it */ public byte[] finishCurrentSegment() { _allocMore(); return _currBlock; } /** * Method that will complete "manual" output process, coalesce * content (if necessary) and return results as a contiguous buffer. * * @param lastBlockLength Amount of content in the current segment * buffer. * * @return Coalesced contents */ public byte[] completeAndCoalesce(int lastBlockLength) { _currBlockPtr = lastBlockLength; return toByteArray(); } public byte[] getCurrentSegment() { return _currBlock; } public void setCurrentSegmentLength(int len) { _currBlockPtr = len; } public int getCurrentSegmentLength() { return _currBlockPtr; } /* /********************************************************** /* OutputStream implementation /********************************************************** */ @Override public void write(byte[] b) { write(b, 0, b.length); } @Override public void write(byte[] b, int off, int len) { while (true) { int max = _currBlock.length - _currBlockPtr; int toCopy = Math.min(max, len); if (toCopy > 0) { System.arraycopy(b, off, _currBlock, _currBlockPtr, toCopy); off += toCopy; _currBlockPtr += toCopy; len -= toCopy; } if (len <= 0) break; _allocMore(); } } @Override public void write(int b) { append(b); } @Override public void close() { /* NOP */ } @Override public void flush() { /* NOP */ } /* /********************************************************** /* Internal methods /********************************************************** */ private void _allocMore() { _pastLen += _currBlock.length; /* Let's allocate block that's half the total size, except * never smaller than twice the initial block size. * The idea is just to grow with reasonable rate, to optimize * between minimal number of chunks and minimal amount of * wasted space. */ int newSize = Math.max((_pastLen >> 1), (INITIAL_BLOCK_SIZE + INITIAL_BLOCK_SIZE)); // plus not to exceed max we define... if (newSize > MAX_BLOCK_SIZE) { newSize = MAX_BLOCK_SIZE; } _pastBlocks.add(_currBlock); _currBlock = new byte[newSize]; _currBlockPtr = 0; } }





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