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JNI binding generator (Android runtime)
/*
* Copyright 2011 JogAmp Community. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without modification, are
* permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this list of
* conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice, this list
* of conditions and the following disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY JogAmp Community ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
* FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL JogAmp Community OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation are those of the
* authors and should not be interpreted as representing official policies, either expressed
* or implied, of JogAmp Community.
*/
/*
* Created on Sunday, February 13 2011 15:17
*/
package com.jogamp.common.nio;
import java.nio.ByteBuffer;
import java.nio.CharBuffer;
import java.nio.DoubleBuffer;
import java.nio.FloatBuffer;
import java.nio.IntBuffer;
import java.nio.LongBuffer;
import java.nio.ShortBuffer;
/**
* Buffer factory attempting to reduce buffer creation overhead.
* Direct ByteBuffers must be page aligned which increases creation overhead of
* small buffers significantly.
* This factory can be used as fixed size static or or dynamic allocating
* factory. The initial size and allocation size is configurable.
*
* Fixed size factories may be used in systems with hard realtime requirements
* and/or predictable memory usage.
*
*
* concurrency info:
*
* - all create methods are threadsafe
* - factories created with create(...) are not threadsafe
* - factories created with createSynchronized(...) are threadsafe
*
*
*
* @author Michael Bien
*/
public class CachedBufferFactory {
/**
* default size for internal buffer allocation.
*/
public static final int DEFAULT_ALLOCATION_SIZE = 1024 * 1024;
private final int ALLOCATION_SIZE;
private ByteBuffer currentBuffer;
private CachedBufferFactory() {
this(DEFAULT_ALLOCATION_SIZE, DEFAULT_ALLOCATION_SIZE);
}
private CachedBufferFactory(final int initialSize, final int allocationSize) {
currentBuffer = Buffers.newDirectByteBuffer(initialSize);
ALLOCATION_SIZE = allocationSize;
}
/**
* Creates a factory with initial size and allocation size set to
* {@link #DEFAULT_ALLOCATION_SIZE}.
*/
public static CachedBufferFactory create() {
return new CachedBufferFactory();
}
/**
* Creates a factory with the specified initial size. The allocation size is set to
* {@link #DEFAULT_ALLOCATION_SIZE}.
*/
public static CachedBufferFactory create(final int initialSize) {
return new CachedBufferFactory(initialSize, DEFAULT_ALLOCATION_SIZE);
}
/**
* Creates a factory with the specified initial size. The allocation size is set to
* {@link #DEFAULT_ALLOCATION_SIZE}.
* @param fixed Creates a fixed size factory which will handle overflows (initial size)
* with RuntimeExceptions.
*/
public static CachedBufferFactory create(final int initialSize, final boolean fixed) {
return new CachedBufferFactory(initialSize, fixed?-1:DEFAULT_ALLOCATION_SIZE);
}
/**
* Creates a factory with the specified initial size and allocation size.
*/
public static CachedBufferFactory create(final int initialSize, final int allocationSize) {
return new CachedBufferFactory(initialSize, allocationSize);
}
/**
* Synchronized version of {@link #create()}.
*/
public static CachedBufferFactory createSynchronized() {
return new SynchronizedCachedBufferFactory();
}
/**
* Synchronized version of {@link #create(int)}.
*/
public static CachedBufferFactory createSynchronized(final int initialSize) {
return new SynchronizedCachedBufferFactory(initialSize, DEFAULT_ALLOCATION_SIZE);
}
/**
* Synchronized version of {@link #create(int, boolean)}.
*/
public static CachedBufferFactory createSynchronized(final int initialSize, final boolean fixed) {
return new SynchronizedCachedBufferFactory(initialSize, fixed?-1:DEFAULT_ALLOCATION_SIZE);
}
/**
* Synchronized version of {@link #create(int, int)}.
*/
public static CachedBufferFactory createSynchronized(final int initialSize, final int allocationSize) {
return new CachedBufferFactory(initialSize, allocationSize);
}
/**
* Returns true only if this factory does not allow to allocate more buffers
* as limited by the initial size.
*/
public boolean isFixed() {
return ALLOCATION_SIZE == -1;
}
/**
* Returns the allocation size used to create new internal buffers.
* 0 means that the buffer will not grows, see {@link #isFixed()}.
*/
public int getAllocationSize() {
return ALLOCATION_SIZE;
}
/**
* @return true if buffer cannot grow, otherwise false
*/
private void checkIfFixed() {
if(ALLOCATION_SIZE == 0) {
throw new RuntimeException("fixed size buffer factory ran out ouf bounds.");
}
}
public void destroy() {
if(null != currentBuffer) {
currentBuffer.clear();
currentBuffer = null;
}
}
public ByteBuffer newDirectByteBuffer(final int size) {
// if large enough... just create it
if (size > currentBuffer.capacity()) {
checkIfFixed();
return Buffers.newDirectByteBuffer(size);
}
// create new internal buffer if the old is running full
if (size > currentBuffer.remaining()) {
checkIfFixed();
currentBuffer = Buffers.newDirectByteBuffer(ALLOCATION_SIZE);
}
currentBuffer.limit(currentBuffer.position() + size);
final ByteBuffer result = currentBuffer.slice().order(currentBuffer.order());
currentBuffer.position(currentBuffer.limit());
currentBuffer.limit(currentBuffer.capacity());
return result;
}
public ByteBuffer newDirectByteBuffer(final byte[] values, final int offset, final int lenght) {
return (ByteBuffer)newDirectByteBuffer(lenght).put(values, offset, lenght).rewind();
}
public ByteBuffer newDirectByteBuffer(final byte[] values, final int offset) {
return newDirectByteBuffer(values, offset, values.length-offset);
}
public ByteBuffer newDirectByteBuffer(final byte[] values) {
return newDirectByteBuffer(values, 0);
}
public DoubleBuffer newDirectDoubleBuffer(final int numElements) {
return newDirectByteBuffer(numElements * Buffers.SIZEOF_DOUBLE).asDoubleBuffer();
}
public DoubleBuffer newDirectDoubleBuffer(final double[] values, final int offset, final int lenght) {
return (DoubleBuffer)newDirectDoubleBuffer(lenght).put(values, offset, lenght).rewind();
}
public DoubleBuffer newDirectDoubleBuffer(final double[] values, final int offset) {
return newDirectDoubleBuffer(values, offset, values.length - offset);
}
public DoubleBuffer newDirectDoubleBuffer(final double[] values) {
return newDirectDoubleBuffer(values, 0);
}
public FloatBuffer newDirectFloatBuffer(final int numElements) {
return newDirectByteBuffer(numElements * Buffers.SIZEOF_FLOAT).asFloatBuffer();
}
public FloatBuffer newDirectFloatBuffer(final float[] values, final int offset, final int lenght) {
return (FloatBuffer)newDirectFloatBuffer(lenght).put(values, offset, lenght).rewind();
}
public FloatBuffer newDirectFloatBuffer(final float[] values, final int offset) {
return newDirectFloatBuffer(values, offset, values.length - offset);
}
public FloatBuffer newDirectFloatBuffer(final float[] values) {
return newDirectFloatBuffer(values, 0);
}
public IntBuffer newDirectIntBuffer(final int numElements) {
return newDirectByteBuffer(numElements * Buffers.SIZEOF_INT).asIntBuffer();
}
public IntBuffer newDirectIntBuffer(final int[] values, final int offset, final int lenght) {
return (IntBuffer)newDirectIntBuffer(lenght).put(values, offset, lenght).rewind();
}
public IntBuffer newDirectIntBuffer(final int[] values, final int offset) {
return newDirectIntBuffer(values, offset, values.length - offset);
}
public IntBuffer newDirectIntBuffer(final int[] values) {
return newDirectIntBuffer(values, 0);
}
public LongBuffer newDirectLongBuffer(final int numElements) {
return newDirectByteBuffer(numElements * Buffers.SIZEOF_LONG).asLongBuffer();
}
public LongBuffer newDirectLongBuffer(final long[] values, final int offset, final int lenght) {
return (LongBuffer)newDirectLongBuffer(lenght).put(values, offset, lenght).rewind();
}
public LongBuffer newDirectLongBuffer(final long[] values, final int offset) {
return newDirectLongBuffer(values, offset, values.length - offset);
}
public LongBuffer newDirectLongBuffer(final long[] values) {
return newDirectLongBuffer(values, 0);
}
public ShortBuffer newDirectShortBuffer(final int numElements) {
return newDirectByteBuffer(numElements * Buffers.SIZEOF_SHORT).asShortBuffer();
}
public ShortBuffer newDirectShortBuffer(final short[] values, final int offset, final int lenght) {
return (ShortBuffer)newDirectShortBuffer(lenght).put(values, offset, lenght).rewind();
}
public ShortBuffer newDirectShortBuffer(final short[] values, final int offset) {
return newDirectShortBuffer(values, offset, values.length - offset);
}
public ShortBuffer newDirectShortBuffer(final short[] values) {
return newDirectShortBuffer(values, 0);
}
public CharBuffer newDirectCharBuffer(final int numElements) {
return newDirectByteBuffer(numElements * Buffers.SIZEOF_SHORT).asCharBuffer();
}
public CharBuffer newDirectCharBuffer(final char[] values, final int offset, final int lenght) {
return (CharBuffer)newDirectCharBuffer(lenght).put(values, offset, lenght).rewind();
}
public CharBuffer newDirectCharBuffer(final char[] values, final int offset) {
return newDirectCharBuffer(values, offset, values.length - offset);
}
public CharBuffer newDirectCharBuffer(final char[] values) {
return newDirectCharBuffer(values, 0);
}
@Override
public boolean equals(final Object obj) {
if (obj == null) {
return false;
}
if (getClass() != obj.getClass()) {
return false;
}
final CachedBufferFactory other = (CachedBufferFactory) obj;
if (this.ALLOCATION_SIZE != other.ALLOCATION_SIZE) {
return false;
}
if (this.currentBuffer != other.currentBuffer && (this.currentBuffer == null || !this.currentBuffer.equals(other.currentBuffer))) {
return false;
}
return true;
}
@Override
public String toString() {
return getClass().getName()+"[static:"+isFixed()+" alloc size:"+getAllocationSize()+"]";
}
// nothing special, just synchronized
private static class SynchronizedCachedBufferFactory extends CachedBufferFactory {
private SynchronizedCachedBufferFactory() {
super();
}
private SynchronizedCachedBufferFactory(final int size, final int step) {
super(size, step);
}
@Override
public synchronized ByteBuffer newDirectByteBuffer(final int size) {
return super.newDirectByteBuffer(size);
}
}
}