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Mats^3 Utilities - notably the MatsFuturizer, which provides a bridge from synchronous processes to the highly asynchronous Mats^3 services.

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package io.mats3.util.compression;

import java.io.IOException;
import java.io.InputStream;
import java.util.zip.Inflater;
import java.util.zip.InflaterInputStream;

/**
 * An {@link InputStream} that decompresses data using the Deflate algorithm. It extends {@link InflaterInputStream} and
 * provides statistics about the decompression process. It has the ability to use a byte array as the input data, which
 * is useful when you have the data in memory already.
 * 

* Thread-safety: This class is not thread-safe. */ public class InflaterInputStreamWithStats extends InflaterInputStream { private long _compressedBytesInput = -1; private long _uncompressedBytesOutput = -1; private long _readAndInflateTimeNanos; private long _readTimeNanos; private final byte[] _inputArray; private final int _offset; private final int _length; private boolean _inputArrayUsed; /** * Constructor which takes an {@link InputStream} as the source of compressed data, using a buffer size of 512, same * default as {@link InflaterInputStream}. */ public InflaterInputStreamWithStats(InputStream in) { this(in, 512); } /** * Constructor which takes an {@link InputStream} as the source of compressed data, as well as a buffer size. The * buffer is used to read compressed data from the source, and then setting the buffer as input to the Inflater. * Subsequent calls to read() are invoked on the Inflater, which reads and decompresses from the buffer. */ public InflaterInputStreamWithStats(InputStream in, int bufferSize) { super(in, new Inflater(), bufferSize); _inputArray = null; _offset = -1; _length = -1; } /** * Constructor which takes a byte array as the source of compressed data. */ public InflaterInputStreamWithStats(byte[] inputArray) { this(inputArray, 0, inputArray.length); } /** * Constructor which takes a byte array, with offset and length, as the source of compressed data. */ public InflaterInputStreamWithStats(byte[] inputArray, int offset, int count) { super(dummyInputStream, new Inflater(), 1); _offset = offset; _length = count; _inputArray = inputArray; } private static final InputStream dummyInputStream = new InputStream() { @Override public int read() { return -1; } }; /** * @return the number of compressed bytes read from the source, i.e. the size of the compressed data. */ public long getCompressedBytesInput() { if (_compressedBytesInput == -1) { inf.getBytesRead(); } return _compressedBytesInput; } /** * @return the number of uncompressed bytes read from this stream, i.e. the resulting size of the data after * decompression. */ public long getUncompressedBytesOutput() { if (_uncompressedBytesOutput == -1) { inf.getBytesWritten(); } return _uncompressedBytesOutput; } /** * @return the time spent on reading the compressed data from the source, in nanoseconds. Will be 0 if the input is * a byte array. */ public long getReadTimeNanos() { return _readTimeNanos; } /** * @return the time spent on invoking the Inflater, in nanoseconds. It is {@link #getReadAndInflateTimeNanos()} - * {@link #getReadTimeNanos()}, and thus identical to {@link #getReadAndInflateTimeNanos()} if the input is * a byte array. */ public long getInflateTimeNanos() { return _readAndInflateTimeNanos - _readTimeNanos; } /** * @return the time spent on reading the compressed data from the source and invoking the Inflater, in nanoseconds. * If the input is a byte array, reading time is 0, and thus this is identical to * {@link #getInflateTimeNanos()}. */ public long getReadAndInflateTimeNanos() { return _readAndInflateTimeNanos; } @Override protected void fill() throws IOException { // ?: Are we using the input array variant? if (_inputArray != null) { // -> Yes, using input array variant, so set the input array if not already done. // ?: Have we already used the input array? if (_inputArrayUsed) { // -> Yes, we have already used the input array, so this is an illegal state. throw new IOException("Illegal state: The input array has already been set and used, why are we" + " trying to refill?"); } // E-> No, we have not used the input array, so set it now. inf.setInput(_inputArray, _offset, _length); _inputArrayUsed = true; } else { // -> No, not using input array variant, so invoke super.fill(). // This is where the reading of the InputStream happens, so time it. long nanos_Start = System.nanoTime(); super.fill(); _readTimeNanos += (System.nanoTime() - nanos_Start); } } // Override the read() methods to time the read() calls, which is where the reading + decompression happens. // Note: super.read() calls fill() if the inflater needsInput(). Fill() reads the compressed data from the source // and sets it on the inflater. @Override public int read() throws IOException { long nanos_Start = System.nanoTime(); int read = super.read(); _readAndInflateTimeNanos += (System.nanoTime() - nanos_Start); return read; } // NOTICE: We won't override the read(byte[] b) method, as it simply calls the read(byte[] b, int off, int len) // method, and we'd then double count the time spent on decompression. @Override public int read(byte[] b, int off, int len) throws IOException { long nanos_Start = System.nanoTime(); int read = super.read(b, off, len); _readAndInflateTimeNanos += (System.nanoTime() - nanos_Start); return read; } private boolean _closed; @Override public void close() throws IOException { // ?: Have we already closed? if (!_closed) { // -> No, we haven't closed yet, so close now. _closed = true; // Read and store the final stats _compressedBytesInput = inf.getBytesRead(); _uncompressedBytesOutput = inf.getBytesWritten(); // Invoke super. In case we're using the array variant, this also unnecessarily closes the dummy stream, // but that's fine. super.close(); } } }





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