package org.infinispan.commons.marshall;
import java.util.ArrayList;
import java.util.List;
import org.infinispan.commons.logging.Log;
import org.infinispan.commons.logging.LogFactory;
/**
* The {@link BufferSizePredictor} that automatically increases and
* decreases the predicted buffer size on feed back.
* <p>
* It gradually increases the expected number of bytes if the previous buffer
* fully filled the allocated buffer. It gradually decreases the expected
* number of bytes if the read operation was not able to fill a certain amount
* of the allocated buffer two times consecutively. Otherwise, it keeps
* returning the same prediction.
*
* TODO: Object type hints could be useful at giving more type-specific predictions
*
* @author <a href="http://gleamynode.net/">Trustin Lee</a>
* @author Galder ZamarreƱo
* @since 5.0
*/
public class AdaptiveBufferSizePredictor implements BufferSizePredictor {
private static final Log log = LogFactory.getLog(AdaptiveBufferSizePredictor.class);
private static final boolean isTrace = log.isTraceEnabled();
static final int DEFAULT_MINIMUM = 16;
static final int DEFAULT_INITIAL = 512;
static final int DEFAULT_MAXIMUM = 65536;
private static final int INDEX_INCREMENT = 4;
private static final int INDEX_DECREMENT = 1;
private static final int[] SIZE_TABLE;
private final int minIndex;
private final int maxIndex;
private int index;
private int nextBufferSize;
private boolean decreaseNow;
static {
List<Integer> sizeTable = new ArrayList<Integer>();
// First, add the base 1 to 8 bytes sizes
for (int i = 1; i <= 8; i++)
sizeTable.add(i);
for (int i = 4; i < 32; i++) {
long v = 1L << i;
long inc = v >>> 4;
v -= inc << 3;
// From 8 onwards, follow a 2^i progression of increments,
// applying each increment 8 times. For example:
// for incr=2^1 -> 9, 10, 11, 12, 13, 14, 15, 16
// for incr=2^2 -> 18, 20, 22, 24, 26, 28, 30, 32
// for incr=2^3 -> 36, 40, 44, 48 ...
// ...
// for incr=2^31 -> 1073741824, 1207959552...etc
for (int j = 0; j < 8; j++) {
v += inc;
if (v > Integer.MAX_VALUE)
sizeTable.add(Integer.MAX_VALUE);
else
sizeTable.add((int) v);
}
}
SIZE_TABLE = new int[sizeTable.size()];
for (int i = 0; i < SIZE_TABLE.length; i++)
SIZE_TABLE[i] = sizeTable.get(i);
}
private static int getSizeTableIndex(final int size) {
if (size <= 16)
return size - 1;
int bits = 0;
int v = size;
do {
v >>>= 1;
bits ++;
} while (v != 0);
final int baseIdx = bits << 3;
final int startIdx = baseIdx - 18;
final int endIdx = baseIdx - 25;
for (int i = startIdx; i >= endIdx; i --)
if (size >= SIZE_TABLE[i])
return i;
throw new RuntimeException("Shouldn't reach here; please file a bug report.");
}
/**
* Creates a new predictor with the default parameters. With the default
* parameters, the expected buffer size starts from {@code 512}, does not
* go down below {@code 16}, and does not go up above {@code 65536}.
*/
public AdaptiveBufferSizePredictor() {
this(DEFAULT_MINIMUM, DEFAULT_INITIAL, DEFAULT_MAXIMUM);
}
/**
* Creates a new predictor with the specified parameters.
*
* @param minimum the inclusive lower bound of the expected buffer size
* @param initial the initial buffer size when no feed back was received
* @param maximum the inclusive upper bound of the expected buffer size
*/
public AdaptiveBufferSizePredictor(int minimum, int initial, int maximum) {
if (minimum <= 0)
throw new IllegalArgumentException("minimum: " + minimum);
if (initial < minimum)
throw new IllegalArgumentException("initial: " + initial);
if (maximum < initial)
throw new IllegalArgumentException("maximum: " + maximum);
int minIndex = getSizeTableIndex(minimum);
if (SIZE_TABLE[minIndex] < minimum)
this.minIndex = minIndex + 1;
else
this.minIndex = minIndex;
int maxIndex = getSizeTableIndex(maximum);
if (SIZE_TABLE[maxIndex] > maximum)
this.maxIndex = maxIndex - 1;
else
this.maxIndex = maxIndex;
index = getSizeTableIndex(initial);
nextBufferSize = SIZE_TABLE[index];
}
@Override
public int nextSize(Object obj) {
if (isTrace)
log.tracef("Next predicted buffer size for object type '%s' will be %d",
obj == null ? "Null" : obj.getClass().getName(), nextBufferSize);
return nextBufferSize;
}
@Override
public void recordSize(int previousSize) {
if (previousSize <= SIZE_TABLE[Math.max(0, index - INDEX_DECREMENT - 1)]) {
if (decreaseNow) {
index = Math.max(index - INDEX_DECREMENT, minIndex);
nextBufferSize = SIZE_TABLE[index];
decreaseNow = false;
} else {
decreaseNow = true;
}
} else if (previousSize >= nextBufferSize) {
index = Math.min(index + INDEX_INCREMENT, maxIndex);
nextBufferSize = SIZE_TABLE[index];
decreaseNow = false;
}
}
}