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/*
* Copyright (c) 2003 Sun Microsystems, Inc. All Rights Reserved.
* Copyright (c) 2010 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:
*
* - Redistribution of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* - Redistribution 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.
*
* Neither the name of Sun Microsystems, Inc. or the names of
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* This software is provided "AS IS," without a warranty of any kind. ALL
* EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES,
* INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A
* PARTICULAR PURPOSE OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. SUN
* MICROSYSTEMS, INC. ("SUN") AND ITS LICENSORS SHALL NOT BE LIABLE FOR
* ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING OR
* DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL SUN OR
* ITS LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA, OR FOR
* DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR PUNITIVE
* DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY OF LIABILITY,
* ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, EVEN IF
* SUN HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
*
* You acknowledge that this software is not designed or intended for use
* in the design, construction, operation or maintenance of any nuclear
* facility.
*
* Sun gratefully acknowledges that this software was originally authored
* and developed by Kenneth Bradley Russell and Christopher John Kline.
*/
package com.jogamp.common.nio;
import java.nio.*;
import jogamp.common.os.PlatformPropsImpl;
import com.jogamp.common.util.ValueConv;
/**
* Utility methods allowing easy {@link java.nio.Buffer} manipulations.
*
* @author Kenneth Russel
* @author Sven Gothel
* @author Michael Bien
*/
public class Buffers {
public static final int SIZEOF_BYTE = 1;
public static final int SIZEOF_SHORT = 2;
public static final int SIZEOF_CHAR = 2;
public static final int SIZEOF_INT = 4;
public static final int SIZEOF_FLOAT = 4;
public static final int SIZEOF_LONG = 8;
public static final int SIZEOF_DOUBLE = 8;
protected Buffers() {}
/**
* Allocates a new direct ByteBuffer with the specified number of
* elements. The returned buffer will have its byte order set to
* the host platform's native byte order.
*/
public static ByteBuffer newDirectByteBuffer(final int numElements) {
return nativeOrder(ByteBuffer.allocateDirect(numElements));
}
public static ByteBuffer newDirectByteBuffer(final byte[] values, final int offset, final int length) {
return (ByteBuffer)newDirectByteBuffer(length).put(values, offset, length).rewind();
}
public static ByteBuffer newDirectByteBuffer(final byte[] values, final int offset) {
return newDirectByteBuffer(values, offset, values.length-offset);
}
public static ByteBuffer newDirectByteBuffer(final byte[] values) {
return newDirectByteBuffer(values, 0);
}
/**
* Allocates a new direct DoubleBuffer with the specified number of
* elements. The returned buffer will have its byte order set to
* the host platform's native byte order.
*/
public static DoubleBuffer newDirectDoubleBuffer(final int numElements) {
return newDirectByteBuffer(numElements * SIZEOF_DOUBLE).asDoubleBuffer();
}
public static DoubleBuffer newDirectDoubleBuffer(final double[] values, final int offset, final int length) {
return (DoubleBuffer)newDirectDoubleBuffer(length).put(values, offset, length).rewind();
}
public static DoubleBuffer newDirectDoubleBuffer(final double[] values, final int offset) {
return newDirectDoubleBuffer(values, offset, values.length - offset);
}
public static DoubleBuffer newDirectDoubleBuffer(final double[] values) {
return newDirectDoubleBuffer(values, 0);
}
/**
* Allocates a new direct FloatBuffer with the specified number of
* elements. The returned buffer will have its byte order set to
* the host platform's native byte order.
*/
public static FloatBuffer newDirectFloatBuffer(final int numElements) {
return newDirectByteBuffer(numElements * SIZEOF_FLOAT).asFloatBuffer();
}
public static FloatBuffer newDirectFloatBuffer(final float[] values, final int offset, final int length) {
return (FloatBuffer)newDirectFloatBuffer(length).put(values, offset, length).rewind();
}
public static FloatBuffer newDirectFloatBuffer(final float[] values, final int offset) {
return newDirectFloatBuffer(values, offset, values.length - offset);
}
public static FloatBuffer newDirectFloatBuffer(final float[] values) {
return newDirectFloatBuffer(values, 0);
}
/**
* Allocates a new direct IntBuffer with the specified number of
* elements. The returned buffer will have its byte order set to
* the host platform's native byte order.
*/
public static IntBuffer newDirectIntBuffer(final int numElements) {
return newDirectByteBuffer(numElements * SIZEOF_INT).asIntBuffer();
}
public static IntBuffer newDirectIntBuffer(final int[] values, final int offset, final int length) {
return (IntBuffer)newDirectIntBuffer(length).put(values, offset, length).rewind();
}
public static IntBuffer newDirectIntBuffer(final int[] values, final int offset) {
return newDirectIntBuffer(values, offset, values.length - offset);
}
public static IntBuffer newDirectIntBuffer(final int[] values) {
return newDirectIntBuffer(values, 0);
}
/**
* Allocates a new direct LongBuffer with the specified number of
* elements. The returned buffer will have its byte order set to
* the host platform's native byte order.
*/
public static LongBuffer newDirectLongBuffer(final int numElements) {
return newDirectByteBuffer(numElements * SIZEOF_LONG).asLongBuffer();
}
public static LongBuffer newDirectLongBuffer(final long[] values, final int offset, final int length) {
return (LongBuffer)newDirectLongBuffer(length).put(values, offset, length).rewind();
}
public static LongBuffer newDirectLongBuffer(final long[] values, final int offset) {
return newDirectLongBuffer(values, offset, values.length - offset);
}
public static LongBuffer newDirectLongBuffer(final long[] values) {
return newDirectLongBuffer(values, 0);
}
/**
* Allocates a new direct ShortBuffer with the specified number of
* elements. The returned buffer will have its byte order set to
* the host platform's native byte order.
*/
public static ShortBuffer newDirectShortBuffer(final int numElements) {
return newDirectByteBuffer(numElements * SIZEOF_SHORT).asShortBuffer();
}
public static ShortBuffer newDirectShortBuffer(final short[] values, final int offset, final int length) {
return (ShortBuffer)newDirectShortBuffer(length).put(values, offset, length).rewind();
}
public static ShortBuffer newDirectShortBuffer(final short[] values, final int offset) {
return newDirectShortBuffer(values, offset, values.length - offset);
}
public static ShortBuffer newDirectShortBuffer(final short[] values) {
return newDirectShortBuffer(values, 0);
}
/**
* Allocates a new direct CharBuffer with the specified number of
* elements. The returned buffer will have its byte order set to
* the host platform's native byte order.
*/
public static CharBuffer newDirectCharBuffer(final int numElements) {
return newDirectByteBuffer(numElements * SIZEOF_SHORT).asCharBuffer();
}
public static CharBuffer newDirectCharBuffer(final char[] values, final int offset, final int length) {
return (CharBuffer)newDirectCharBuffer(length).put(values, offset, length).rewind();
}
public static CharBuffer newDirectCharBuffer(final char[] values, final int offset) {
return newDirectCharBuffer(values, offset, values.length - offset);
}
public static CharBuffer newDirectCharBuffer(final char[] values) {
return newDirectCharBuffer(values, 0);
}
/**
* Calls slice on the specified buffer while maintaining the byteorder.
* @see #slice(java.nio.Buffer, int, int)
*/
@SuppressWarnings("unchecked")
public static B slice(final B buffer) {
if (buffer instanceof ByteBuffer) {
final ByteBuffer bb = (ByteBuffer) buffer;
return (B) bb.slice().order(bb.order()); // slice and duplicate may change byte order
} else if (buffer instanceof IntBuffer) {
return (B) ((IntBuffer) buffer).slice();
} else if (buffer instanceof ShortBuffer) {
return (B) ((ShortBuffer) buffer).slice();
} else if (buffer instanceof FloatBuffer) {
return (B) ((FloatBuffer) buffer).slice();
} else if (buffer instanceof DoubleBuffer) {
return (B) ((DoubleBuffer) buffer).slice();
} else if (buffer instanceof LongBuffer) {
return (B) ((LongBuffer) buffer).slice();
} else if (buffer instanceof CharBuffer) {
return (B) ((CharBuffer) buffer).slice();
}
throw new IllegalArgumentException("unexpected buffer type: " + buffer.getClass());
}
/**
* Slices the specified buffer with offset as position and offset+size as limit
* while maintaining the byteorder.
* Concurrency warning: this method changes the buffers position and limit but
* will restore it before return.
*/
public static B slice(final B buffer, final int offset, final int size) {
final int pos = buffer.position();
final int limit = buffer.limit();
B slice = null;
try {
buffer.position(offset).limit(offset+size);
slice = slice(buffer);
} finally {
buffer.position(pos).limit(limit);
}
return slice;
}
/**
* Slices a ByteBuffer or a FloatBuffer to a FloatBuffer
* at the given position with the given size in float-space.
*
* The returned sliced buffer's start position is always zero.
*
*
* The returned sliced buffer is {@link FloatBuffer#mark() marked} at it's {@link FloatBuffer#position() start position}. Hence
* {@link FloatBuffer#reset()} will rewind it to start after applying relative operations like {@link FloatBuffer#get()}.
*
*
* Using a ByteBuffer as the source guarantees
* keeping the source native order programmatically.
* This works around Honeycomb / Android 3.0 Issue 16434.
* This bug is resolved at least in Android 3.2.
*
*
* @param buf source Buffer, maybe ByteBuffer (recommended) or FloatBuffer.
* Buffer's position is ignored and floatPos is being used.
* @param floatStartPos {@link Buffers#SIZEOF_FLOAT} position
* @param floatSize {@link Buffers#SIZEOF_FLOAT} size
* @return FloatBuffer w/ native byte order as given ByteBuffer
*/
public static final FloatBuffer slice2Float(final Buffer buf, final int floatStartPos, final int floatSize) {
final int pos;
final int limit;
if(null != buf) {
pos = buf.position();
limit = buf.limit();
} else {
pos = 0;
limit = 0;
}
final FloatBuffer res;
try {
if(buf instanceof ByteBuffer) {
final ByteBuffer bb = (ByteBuffer) buf;
bb.position( floatStartPos * Buffers.SIZEOF_FLOAT );
bb.limit( (floatStartPos + floatSize) * Buffers.SIZEOF_FLOAT );
res = bb.slice().order(bb.order()).asFloatBuffer(); // slice and duplicate may change byte order
} else if(buf instanceof FloatBuffer) {
final FloatBuffer fb = (FloatBuffer) buf;
fb.position( floatStartPos );
fb.limit( floatStartPos + floatSize );
res = fb.slice(); // slice and duplicate may change byte order
} else {
throw new InternalError("Buffer not ByteBuffer, nor FloarBuffer, nor backing array given");
}
} finally {
if(null != buf) {
buf.position(pos).limit(limit);
}
}
res.mark();
return res;
}
/**
* Slices a primitive float backing array to a FloatBuffer at the given position with the given size
* in float-space by {@link FloatBuffer#wrap(float[], int, int) wrapping} the backing array.
*
* Due to {@link FloatBuffer#wrap(float[], int, int) wrapping} the backing array,
* the returned sliced buffer's {@link FloatBuffer#position() start position} equals
* the given floatStartPos
within the given backing array
* while it's {@link FloatBuffer#arrayOffset() array-offset} is zero.
* This has the advantage of being able to dismiss the {@link FloatBuffer#arrayOffset() array-offset}
* in user code, while only being required to consider it's {@link FloatBuffer#position() position}.
*
*
* The returned sliced buffer is {@link FloatBuffer#mark() marked} at it's {@link FloatBuffer#position() start position}. Hence
* {@link FloatBuffer#reset()} will rewind it to start after applying relative operations like {@link FloatBuffer#get()}.
*
*
* @param backing source float array
* @param floatStartPos {@link Buffers#SIZEOF_FLOAT} position
* @param floatSize {@link Buffers#SIZEOF_FLOAT} size
* @return FloatBuffer w/ native byte order as given ByteBuffer
*/
public static final FloatBuffer slice2Float(final float[] backing, final int floatStartPos, final int floatSize) {
return (FloatBuffer) FloatBuffer.wrap(backing, floatStartPos, floatSize).mark();
}
/**
* Helper routine to set a ByteBuffer to the native byte order, if
* that operation is supported by the underlying NIO
* implementation.
*/
public static ByteBuffer nativeOrder(final ByteBuffer buf) {
return buf.order(ByteOrder.nativeOrder());
}
/**
* Returns the size of a single element of the given buffer in bytes
* or 0
if the given buffer is null
.
*/
public static int sizeOfBufferElem(final Object buffer) {
if (buffer == null) {
return 0;
}
if (buffer instanceof ByteBuffer) {
return SIZEOF_BYTE;
} else if (buffer instanceof IntBuffer) {
return SIZEOF_INT;
} else if (buffer instanceof ShortBuffer) {
return SIZEOF_SHORT;
} else if (buffer instanceof FloatBuffer) {
return SIZEOF_FLOAT;
} else if (buffer instanceof DoubleBuffer) {
return SIZEOF_DOUBLE;
} else if (buffer instanceof LongBuffer) {
return SIZEOF_LONG;
} else if (buffer instanceof CharBuffer) {
return SIZEOF_CHAR;
} else if (buffer instanceof NativeBuffer) {
return ((NativeBuffer>) buffer).elementSize();
}
throw new RuntimeException("Unexpected buffer type " + buffer.getClass().getName());
}
/**
* Returns the number of remaining elements of the given anonymous buffer
.
*
* @param buffer Anonymous Buffer of type {@link NativeBuffer} or a derivation of {@link Buffer}.
* @return If buffer
is null, returns 0, otherwise the remaining size in elements.
* @throws IllegalArgumentException if buffer
is of invalid type.
*/
public static int remainingElem(final Object buffer) throws IllegalArgumentException {
if (buffer == null) {
return 0;
}
if (buffer instanceof Buffer) {
return ((Buffer) buffer).remaining();
} else if (buffer instanceof NativeBuffer) {
return ((NativeBuffer>) buffer).remaining();
} else {
throw new IllegalArgumentException("Unsupported anonymous buffer type: "+buffer.getClass().getCanonicalName());
}
}
/**
* Returns the number of remaining bytes of the given anonymous buffer
.
*
* @param buffer Anonymous Buffer of type {@link NativeBuffer} or a derivation of {@link Buffer}.
* @return If buffer
is null, returns 0, otherwise the remaining size in bytes.
* @throws IllegalArgumentException if buffer
is of invalid type.
*/
public static int remainingBytes(final Object buffer) throws IllegalArgumentException {
if (buffer == null) {
return 0;
}
final int bytesRemaining;
if (buffer instanceof Buffer) {
final int elementsRemaining = ((Buffer) buffer).remaining();
if (buffer instanceof ByteBuffer) {
bytesRemaining = elementsRemaining;
} else if (buffer instanceof FloatBuffer) {
bytesRemaining = elementsRemaining * SIZEOF_FLOAT;
} else if (buffer instanceof IntBuffer) {
bytesRemaining = elementsRemaining * SIZEOF_INT;
} else if (buffer instanceof ShortBuffer) {
bytesRemaining = elementsRemaining * SIZEOF_SHORT;
} else if (buffer instanceof DoubleBuffer) {
bytesRemaining = elementsRemaining * SIZEOF_DOUBLE;
} else if (buffer instanceof LongBuffer) {
bytesRemaining = elementsRemaining * SIZEOF_LONG;
} else if (buffer instanceof CharBuffer) {
bytesRemaining = elementsRemaining * SIZEOF_CHAR;
} else {
throw new InternalError("Unsupported Buffer type: "+buffer.getClass().getCanonicalName());
}
} else if (buffer instanceof NativeBuffer) {
final NativeBuffer> nb = (NativeBuffer>) buffer;
bytesRemaining = nb.remaining() * nb.elementSize();
} else {
throw new IllegalArgumentException("Unsupported anonymous buffer type: "+buffer.getClass().getCanonicalName());
}
return bytesRemaining;
}
/**
* Helper routine to tell whether a buffer is direct or not. Null
* pointers are considered direct.
*/
public static boolean isDirect(final Object buf) {
if (buf == null) {
return true;
}
if ( PlatformPropsImpl.JAVA_6 ) {
if (buf instanceof Buffer) {
return ((Buffer) buf).isDirect();
} else if (buf instanceof PointerBuffer) {
return ((PointerBuffer) buf).isDirect();
}
} else {
if (buf instanceof ByteBuffer) {
return ((ByteBuffer) buf).isDirect();
} else if (buf instanceof IntBuffer) {
return ((IntBuffer) buf).isDirect();
} else if (buf instanceof ShortBuffer) {
return ((ShortBuffer) buf).isDirect();
} else if (buf instanceof FloatBuffer) {
return ((FloatBuffer) buf).isDirect();
} else if (buf instanceof DoubleBuffer) {
return ((DoubleBuffer) buf).isDirect();
} else if (buf instanceof LongBuffer) {
return ((LongBuffer) buf).isDirect();
} else if (buf instanceof CharBuffer) {
return ((CharBuffer) buf).isDirect();
} else if (buf instanceof PointerBuffer) {
return ((PointerBuffer) buf).isDirect();
}
}
throw new IllegalArgumentException("Unexpected buffer type " + buf.getClass().getName());
}
/**
* Helper routine to get the Buffer byte offset by taking into
* account the Buffer position and the underlying type. This is
* the total offset for Direct Buffers.
*/
public static int getDirectBufferByteOffset(final Object buf) {
if (buf == null) {
return 0;
}
if (buf instanceof Buffer) {
final int pos = ((Buffer) buf).position();
if (buf instanceof ByteBuffer) {
return pos;
} else if (buf instanceof FloatBuffer) {
return pos * SIZEOF_FLOAT;
} else if (buf instanceof IntBuffer) {
return pos * SIZEOF_INT;
} else if (buf instanceof ShortBuffer) {
return pos * SIZEOF_SHORT;
} else if (buf instanceof DoubleBuffer) {
return pos * SIZEOF_DOUBLE;
} else if (buf instanceof LongBuffer) {
return pos * SIZEOF_LONG;
} else if (buf instanceof CharBuffer) {
return pos * SIZEOF_CHAR;
}
} else if (buf instanceof NativeBuffer) {
final NativeBuffer> nb = (NativeBuffer>) buf;
return nb.position() * nb.elementSize() ;
}
throw new IllegalArgumentException("Disallowed array backing store type in buffer " + buf.getClass().getName());
}
/**
* Helper routine to return the array backing store reference from
* a Buffer object.
* @throws UnsupportedOperationException if the passed Object does not have an array backing store
* @throws IllegalArgumentException if the passed Object is neither of type {@link java.nio.Buffer} or {@link NativeBuffer}.
*/
public static Object getArray(final Object buf) throws UnsupportedOperationException, IllegalArgumentException {
if (buf == null) {
return null;
}
if (buf instanceof Buffer) {
return ((Buffer) buf).array();
} else if (buf instanceof NativeBuffer) {
return ((NativeBuffer>) buf).array();
}
throw new IllegalArgumentException("Disallowed array backing store type in buffer " + buf.getClass().getName());
}
/**
* Helper routine to get the full byte offset from the beginning of
* the array that is the storage for the indirect Buffer
* object. The array offset also includes the position offset
* within the buffer, in addition to any array offset.
*/
public static int getIndirectBufferByteOffset(final Object buf) {
if (buf == null) {
return 0;
}
if (buf instanceof Buffer) {
final int pos = ((Buffer) buf).position();
if (buf instanceof ByteBuffer) {
return (((ByteBuffer) buf).arrayOffset() + pos);
} else if (buf instanceof FloatBuffer) {
return (SIZEOF_FLOAT * (((FloatBuffer) buf).arrayOffset() + pos));
} else if (buf instanceof IntBuffer) {
return (SIZEOF_INT * (((IntBuffer) buf).arrayOffset() + pos));
} else if (buf instanceof ShortBuffer) {
return (SIZEOF_SHORT * (((ShortBuffer) buf).arrayOffset() + pos));
} else if (buf instanceof DoubleBuffer) {
return (SIZEOF_DOUBLE * (((DoubleBuffer) buf).arrayOffset() + pos));
} else if (buf instanceof LongBuffer) {
return (SIZEOF_LONG * (((LongBuffer) buf).arrayOffset() + pos));
} else if (buf instanceof CharBuffer) {
return (SIZEOF_CHAR * (((CharBuffer) buf).arrayOffset() + pos));
}
} else if (buf instanceof NativeBuffer) {
final NativeBuffer> nb = (NativeBuffer>) buf;
return nb.elementSize() * ( nb.arrayOffset() + nb.position() );
}
throw new IllegalArgumentException("Unknown buffer type " + buf.getClass().getName());
}
//----------------------------------------------------------------------
// Copy routines (type-to-type)
//
/**
* Copies the remaining elements (as defined by
* limit() - position()
) in the passed ByteBuffer into
* a newly-allocated direct ByteBuffer. The returned buffer will
* have its byte order set to the host platform's native byte
* order. The position of the newly-allocated buffer will be zero,
* and the position of the passed buffer is unchanged.
*/
public static ByteBuffer copyByteBuffer(final ByteBuffer orig) {
final int op0 = orig.position();
final ByteBuffer dest = newDirectByteBuffer(orig.remaining());
dest.put(orig);
dest.rewind();
orig.position(op0);
return dest;
}
/**
* Copies the remaining elements (as defined by
* limit() - position()
) in the passed FloatBuffer
* into a newly-allocated direct FloatBuffer. The returned buffer
* will have its byte order set to the host platform's native byte
* order. The position of the newly-allocated buffer will be zero,
* and the position of the passed buffer is unchanged.
*/
public static FloatBuffer copyFloatBuffer(final FloatBuffer orig) {
return copyFloatBufferAsByteBuffer(orig).asFloatBuffer();
}
/**
* Copies the remaining elements (as defined by
* limit() - position()
) in the passed IntBuffer
* into a newly-allocated direct IntBuffer. The returned buffer
* will have its byte order set to the host platform's native byte
* order. The position of the newly-allocated buffer will be zero,
* and the position of the passed buffer is unchanged.
*/
public static IntBuffer copyIntBuffer(final IntBuffer orig) {
return copyIntBufferAsByteBuffer(orig).asIntBuffer();
}
/**
* Copies the remaining elements (as defined by
* limit() - position()
) in the passed ShortBuffer
* into a newly-allocated direct ShortBuffer. The returned buffer
* will have its byte order set to the host platform's native byte
* order. The position of the newly-allocated buffer will be zero,
* and the position of the passed buffer is unchanged.
*/
public static ShortBuffer copyShortBuffer(final ShortBuffer orig) {
return copyShortBufferAsByteBuffer(orig).asShortBuffer();
}
//----------------------------------------------------------------------
// Copy routines (type-to-ByteBuffer)
//
/**
* Copies the remaining elements (as defined by
* limit() - position()
) in the passed FloatBuffer
* into a newly-allocated direct ByteBuffer. The returned buffer
* will have its byte order set to the host platform's native byte
* order. The position of the newly-allocated buffer will be zero,
* and the position of the passed buffer is unchanged.
*/
public static ByteBuffer copyFloatBufferAsByteBuffer(final FloatBuffer orig) {
final int op0 = orig.position();
final ByteBuffer dest = newDirectByteBuffer(orig.remaining() * SIZEOF_FLOAT);
dest.asFloatBuffer().put(orig);
dest.rewind();
orig.position(op0);
return dest;
}
/**
* Copies the remaining elements (as defined by
* limit() - position()
) in the passed IntBuffer into
* a newly-allocated direct ByteBuffer. The returned buffer will
* have its byte order set to the host platform's native byte
* order. The position of the newly-allocated buffer will be zero,
* and the position of the passed buffer is unchanged.
*/
public static ByteBuffer copyIntBufferAsByteBuffer(final IntBuffer orig) {
final int op0 = orig.position();
final ByteBuffer dest = newDirectByteBuffer(orig.remaining() * SIZEOF_INT);
dest.asIntBuffer().put(orig);
dest.rewind();
orig.position(op0);
return dest;
}
/**
* Copies the remaining elements (as defined by
* limit() - position()
) in the passed ShortBuffer
* into a newly-allocated direct ByteBuffer. The returned buffer
* will have its byte order set to the host platform's native byte
* order. The position of the newly-allocated buffer will be zero,
* and the position of the passed buffer is unchanged.
*/
public static ByteBuffer copyShortBufferAsByteBuffer(final ShortBuffer orig) {
final int op0 = orig.position();
final ByteBuffer dest = newDirectByteBuffer(orig.remaining() * SIZEOF_SHORT);
dest.asShortBuffer().put(orig);
dest.rewind();
orig.position(op0);
return dest;
}
//----------------------------------------------------------------------
// Conversion routines
//
/**
* @param source the source array
* @param soffset the offset
* @param dest the target array, if null, a new array is being created with size len.
* @param doffset the offset in the dest array
* @param len the payload of elements to be copied, if len < 0
then len = source.length - soffset
* @return the passed or newly created target array
*/
public static float[] getFloatArray(final double[] source, final int soffset, float[] dest, int doffset, int len) {
if(0>len) {
len = source.length - soffset;
}
if(len > source.length - soffset) {
throw new IllegalArgumentException("payload ("+len+") greater than remaining source bytes [len "+source.length+", offset "+soffset+"]");
}
if(null==dest) {
dest = new float[len];
doffset = 0;
}
if(len > dest.length - doffset) {
throw new IllegalArgumentException("payload ("+len+") greater than remaining dest bytes [len "+dest.length+", offset "+doffset+"]");
}
for(int i=0; isource.remaining()
* @return the passed or newly created target buffer
*/
public static FloatBuffer getFloatBuffer(final DoubleBuffer source, FloatBuffer dest) {
if(null == dest) {
dest = newDirectFloatBuffer(source.remaining());
}
if( dest.remaining() < source.remaining() ) {
throw new IllegalArgumentException("payload ("+source.remaining()+") is greater than remaining dest bytes: "+dest.remaining());
}
while (source.hasRemaining()) {
dest.put((float) source.get());
}
return dest;
}
/**
* @param source the source array
* @param soffset the offset
* @param dest the target array, if null, a new array is being created with size len.
* @param doffset the offset in the dest array
* @param len the payload of elements to be copied, if len < 0
then len = source.length - soffset
* @return the passed or newly created target array
*/
public static double[] getDoubleArray(final float[] source, final int soffset, double[] dest, int doffset, int len) {
if(0>len) {
len = source.length - soffset;
}
if(len > source.length - soffset) {
throw new IllegalArgumentException("payload ("+len+") greater than remaining source bytes [len "+source.length+", offset "+soffset+"]");
}
if(null==dest) {
dest = new double[len];
doffset = 0;
}
if(len > dest.length - doffset) {
throw new IllegalArgumentException("payload ("+len+") greater than remaining dest bytes [len "+dest.length+", offset "+doffset+"]");
}
for(int i=0; isource.remaining()
* @return the passed or newly created target buffer
*/
public static DoubleBuffer getDoubleBuffer(final FloatBuffer source, DoubleBuffer dest) {
if(null == dest) {
dest = newDirectDoubleBuffer(source.remaining());
}
if( dest.remaining() < source.remaining() ) {
throw new IllegalArgumentException("payload ("+source.remaining()+") is greater than remaining dest bytes: "+dest.remaining());
}
while (source.hasRemaining()) {
dest.put(source.get());
}
return dest;
}
//----------------------------------------------------------------------
// Convenient put methods with generic target Buffer w/o value range conversion, i.e. normalization
//
@SuppressWarnings("unchecked")
public static B put(final B dest, final Buffer src) {
if ((dest instanceof ByteBuffer) && (src instanceof ByteBuffer)) {
return (B) ((ByteBuffer) dest).put((ByteBuffer) src);
} else if ((dest instanceof ShortBuffer) && (src instanceof ShortBuffer)) {
return (B) ((ShortBuffer) dest).put((ShortBuffer) src);
} else if ((dest instanceof IntBuffer) && (src instanceof IntBuffer)) {
return (B) ((IntBuffer) dest).put((IntBuffer) src);
} else if ((dest instanceof FloatBuffer) && (src instanceof FloatBuffer)) {
return (B) ((FloatBuffer) dest).put((FloatBuffer) src);
} else if ((dest instanceof LongBuffer) && (src instanceof LongBuffer)) {
return (B) ((LongBuffer) dest).put((LongBuffer) src);
} else if ((dest instanceof DoubleBuffer) && (src instanceof DoubleBuffer)) {
return (B) ((DoubleBuffer) dest).put((DoubleBuffer) src);
} else if ((dest instanceof CharBuffer) && (src instanceof CharBuffer)) {
return (B) ((CharBuffer) dest).put((CharBuffer) src);
}
throw new IllegalArgumentException("Incompatible Buffer classes: dest = " + dest.getClass().getName() + ", src = " + src.getClass().getName());
}
@SuppressWarnings("unchecked")
public static B putb(final B dest, final byte v) {
if (dest instanceof ByteBuffer) {
return (B) ((ByteBuffer) dest).put(v);
} else if (dest instanceof ShortBuffer) {
return (B) ((ShortBuffer) dest).put(v);
} else if (dest instanceof IntBuffer) {
return (B) ((IntBuffer) dest).put(v);
} else if (dest instanceof FloatBuffer) {
return (B) ((FloatBuffer) dest).put(v);
} else if (dest instanceof LongBuffer) {
return (B) ((LongBuffer) dest).put(v);
} else if (dest instanceof DoubleBuffer) {
return (B) ((DoubleBuffer) dest).put(v);
} else if (dest instanceof CharBuffer) {
return (B) ((CharBuffer) dest).put((char) v);
} else {
throw new IllegalArgumentException("Byte doesn't match Buffer Class: " + dest);
}
}
@SuppressWarnings("unchecked")
public static B puts(final B dest, final short v) {
if (dest instanceof ShortBuffer) {
return (B) ((ShortBuffer) dest).put(v);
} else if (dest instanceof IntBuffer) {
return (B) ((IntBuffer) dest).put(v);
} else if (dest instanceof FloatBuffer) {
return (B) ((FloatBuffer) dest).put(v);
} else if (dest instanceof LongBuffer) {
return (B) ((LongBuffer) dest).put(v);
} else if (dest instanceof DoubleBuffer) {
return (B) ((DoubleBuffer) dest).put(v);
} else {
throw new IllegalArgumentException("Short doesn't match Buffer Class: " + dest);
}
}
@SuppressWarnings("unchecked")
public static B puti(final B dest, final int v) {
if (dest instanceof IntBuffer) {
return (B) ((IntBuffer) dest).put(v);
} else if (dest instanceof FloatBuffer) {
return (B) ((FloatBuffer) dest).put(v);
} else if (dest instanceof LongBuffer) {
return (B) ((LongBuffer) dest).put(v);
} else if (dest instanceof DoubleBuffer) {
return (B) ((DoubleBuffer) dest).put(v);
} else {
throw new IllegalArgumentException("Integer doesn't match Buffer Class: " + dest);
}
}
@SuppressWarnings("unchecked")
public static B putf(final B dest, final float v) {
if (dest instanceof FloatBuffer) {
return (B) ((FloatBuffer) dest).put(v);
} else if (dest instanceof DoubleBuffer) {
return (B) ((DoubleBuffer) dest).put(v);
/* TODO FixedPoint required
} else if (dest instanceof IntBuffer) {
return (B) ((IntBuffer) dest).put(FixedPoint.toFixed(v));
*/
} else {
throw new IllegalArgumentException("Float doesn't match Buffer Class: " + dest);
}
}
@SuppressWarnings("unchecked")
public static B putd(final B dest, final double v) {
if (dest instanceof FloatBuffer) {
return (B) ((FloatBuffer) dest).put((float) v);
} else {
throw new IllegalArgumentException("Double doesn't match Buffer Class: " + dest);
}
}
//----------------------------------------------------------------------
// Convenient put methods with generic target Buffer and value range conversion, i.e. normalization
//
/**
* Store byte source value in given buffer after normalizing it to the destination value range
* considering signed and unsigned source and destination representation.
*
* @param dest One of {@link ByteBuffer}, {@link ShortBuffer}, {@link IntBuffer}, {@link FloatBuffer}
* @param dSigned true if destination buffer holds signed values, false if destination buffer holds unsigned values
* @param v source byte value to be put in dest buffer
* @param sSigned true if source represents a signed value, false if source represents an unsigned value
*/
@SuppressWarnings("unchecked")
public static B putNb(final B dest, final boolean dSigned, final byte v, final boolean sSigned) {
if (dest instanceof ByteBuffer) {
return (B) ((ByteBuffer) dest).put( v );
} else if (dest instanceof ShortBuffer) {
return (B) ((ShortBuffer) dest).put( ValueConv.byte_to_short(v, sSigned, dSigned) );
} else if (dest instanceof IntBuffer) {
return (B) ((IntBuffer) dest).put( ValueConv.byte_to_int(v, sSigned, dSigned) );
} else if (dest instanceof FloatBuffer) {
return (B) ((FloatBuffer) dest).put( ValueConv.byte_to_float(v, sSigned) );
} else {
throw new IllegalArgumentException("Byte doesn't match Buffer Class: " + dest);
}
}
/**
* Store short source value in given buffer after normalizing it to the destination value range
* considering signed and unsigned source and destination representation.
*
* @param dest One of {@link ByteBuffer}, {@link ShortBuffer}, {@link IntBuffer}, {@link FloatBuffer}
* @param dSigned true if destination buffer holds signed values, false if destination buffer holds unsigned values
* @param v source short value to be put in dest buffer
* @param sSigned true if source represents a signed value, false if source represents an unsigned value
*/
@SuppressWarnings("unchecked")
public static B putNs(final B dest, final boolean dSigned, final short v, final boolean sSigned) {
if (dest instanceof ByteBuffer) {
return (B) ((ByteBuffer) dest).put( ValueConv.short_to_byte(v, sSigned, dSigned) );
} else if (dest instanceof ShortBuffer) {
return (B) ((ShortBuffer) dest).put( v );
} else if (dest instanceof IntBuffer) {
return (B) ((IntBuffer) dest).put( ValueConv.short_to_int(v, sSigned, dSigned) );
} else if (dest instanceof FloatBuffer) {
return (B) ((FloatBuffer) dest).put( ValueConv.short_to_float(v, sSigned) );
} else {
throw new IllegalArgumentException("Byte doesn't match Buffer Class: " + dest);
}
}
/**
* Store short source value in given buffer after normalizing it to the destination value range
* considering signed and unsigned source and destination representation.
*
* @param dest One of {@link ByteBuffer}, {@link ShortBuffer}, {@link IntBuffer}, {@link FloatBuffer}
* @param dSigned true if destination buffer holds signed values, false if destination buffer holds unsigned values
* @param v source short value to be put in dest buffer
* @param sSigned true if source represents a signed value, false if source represents an unsigned value
*/
@SuppressWarnings("unchecked")
public static B putNi(final B dest, final boolean dSigned, final int v, final boolean sSigned) {
if (dest instanceof ByteBuffer) {
return (B) ((ByteBuffer) dest).put( ValueConv.int_to_byte(v, sSigned, dSigned) );
} else if (dest instanceof ShortBuffer) {
return (B) ((ShortBuffer) dest).put( ValueConv.int_to_short(v, sSigned, dSigned) );
} else if (dest instanceof IntBuffer) {
return (B) ((IntBuffer) dest).put( v );
} else if (dest instanceof FloatBuffer) {
return (B) ((FloatBuffer) dest).put( ValueConv.int_to_float(v, sSigned) );
} else {
throw new IllegalArgumentException("Byte doesn't match Buffer Class: " + dest);
}
}
/**
* Store float source value in given buffer after normalizing it to the destination value range
* considering signed and unsigned destination representation.
*
* @param dest One of {@link ByteBuffer}, {@link ShortBuffer}, {@link IntBuffer}, {@link FloatBuffer}
* @param dSigned true if destination buffer holds signed values, false if destination buffer holds unsigned values
* @param v source float value to be put in dest buffer
*/
@SuppressWarnings("unchecked")
public static B putNf(final B dest, final boolean dSigned, final float v) {
if (dest instanceof ByteBuffer) {
return (B) ((ByteBuffer) dest).put( ValueConv.float_to_byte(v, dSigned) );
} else if (dest instanceof ShortBuffer) {
return (B) ((ShortBuffer) dest).put( ValueConv.float_to_short(v, dSigned) );
} else if (dest instanceof IntBuffer) {
return (B) ((IntBuffer) dest).put( ValueConv.float_to_int(v, dSigned) );
} else if (dest instanceof FloatBuffer) {
return (B) ((FloatBuffer) dest).put( v );
} else {
throw new IllegalArgumentException("Byte doesn't match Buffer Class: " + dest);
}
}
//----------------------------------------------------------------------
// Range check methods
//
public static void rangeCheck(final byte[] array, final int offset, final int minElementsRemaining) {
if (array == null) {
return;
}
if (array.length < offset + minElementsRemaining) {
throw new ArrayIndexOutOfBoundsException("Required " + minElementsRemaining + " elements in array, only had " + (array.length - offset));
}
}
public static void rangeCheck(final char[] array, final int offset, final int minElementsRemaining) {
if (array == null) {
return;
}
if (array.length < offset + minElementsRemaining) {
throw new ArrayIndexOutOfBoundsException("Required " + minElementsRemaining + " elements in array, only had " + (array.length - offset));
}
}
public static void rangeCheck(final short[] array, final int offset, final int minElementsRemaining) {
if (array == null) {
return;
}
if (array.length < offset + minElementsRemaining) {
throw new ArrayIndexOutOfBoundsException("Required " + minElementsRemaining + " elements in array, only had " + (array.length - offset));
}
}
public static void rangeCheck(final int[] array, final int offset, final int minElementsRemaining) {
if (array == null) {
return;
}
if (array.length < offset + minElementsRemaining) {
throw new ArrayIndexOutOfBoundsException("Required " + minElementsRemaining + " elements in array, only had " + (array.length - offset));
}
}
public static void rangeCheck(final long[] array, final int offset, final int minElementsRemaining) {
if (array == null) {
return;
}
if (array.length < offset + minElementsRemaining) {
throw new ArrayIndexOutOfBoundsException("Required " + minElementsRemaining + " elements in array, only had " + (array.length - offset));
}
}
public static void rangeCheck(final float[] array, final int offset, final int minElementsRemaining) {
if (array == null) {
return;
}
if (array.length < offset + minElementsRemaining) {
throw new ArrayIndexOutOfBoundsException("Required " + minElementsRemaining + " elements in array, only had " + (array.length - offset));
}
}
public static void rangeCheck(final double[] array, final int offset, final int minElementsRemaining) {
if (array == null) {
return;
}
if (array.length < offset + minElementsRemaining) {
throw new ArrayIndexOutOfBoundsException("Required " + minElementsRemaining + " elements in array, only had " + (array.length - offset));
}
}
public static void rangeCheck(final Buffer buffer, final int minElementsRemaining) {
if (buffer == null) {
return;
}
if (buffer.remaining() < minElementsRemaining) {
throw new IndexOutOfBoundsException("Required " + minElementsRemaining + " remaining elements in buffer, only had " + buffer.remaining());
}
}
/**
* @param buffer buffer to test for minimum
* @param minBytesRemaining minimum bytes remaining
* @throws IllegalArgumentException if buffer
is of invalid type.
* @throws IndexOutOfBoundsException if {@link #remainingBytes(Object)} is < minBytesRemaining.
*/
public static void rangeCheckBytes(final Object buffer, final int minBytesRemaining) throws IllegalArgumentException, IndexOutOfBoundsException {
if (buffer == null) {
return;
}
final int bytesRemaining = remainingBytes(buffer);
if (bytesRemaining < minBytesRemaining) {
throw new IndexOutOfBoundsException("Required " + minBytesRemaining + " remaining bytes in buffer, only had " + bytesRemaining);
}
}
/**
* Appends Buffer details inclusive data to a StringBuilder instance.
* @param sb optional pass through StringBuilder
* @param f optional format string of one element, i.e. "%10.5f" for {@link FloatBuffer}, see {@link java.util.Formatter},
* or null
for unformatted output.
* Note: Caller is responsible to match the format string w/ the data type as expected in the given buffer.
* @param buffer Any valid Buffer instance
* @return the modified StringBuilder containing the Buffer details
*/
public static StringBuilder toString(StringBuilder sb, final String f, final Buffer buffer) {
if(null == sb) {
sb = new StringBuilder();
}
sb.append(buffer.getClass().getSimpleName());
sb.append("[pos ").append(buffer.position()).append(", lim ").append(buffer.limit()).append(", cap ").append(buffer.capacity());
sb.append(", remaining ").append(buffer.remaining());
sb.append("; array ").append(buffer.hasArray()).append(", direct ").append(buffer.isDirect());
sb.append(", r/w ").append(!buffer.isReadOnly()).append(": ");
if (buffer instanceof ByteBuffer) {
final ByteBuffer b = (ByteBuffer)buffer;
for(int i=0; i