Many resources are needed to download a project. Please understand that we have to compensate our server costs. Thank you in advance. Project price only 1 $
You can buy this project and download/modify it how often you want.
/*
* JCuda - Java bindings for NVIDIA CUDA driver and runtime API
*
* Copyright (c) 2009-2015 Marco Hutter - http://www.jcuda.org
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use,
* copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following
* conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*/
package jcuda;
import java.nio.*;
import java.util.Arrays;
/**
* A Java representation of a void pointer.
*/
public class Pointer extends NativePointerObject
{
/**
* The offset from the nativePointer, in bytes
*/
private long byteOffset;
/**
* The buffer the pointer points to
*/
private Buffer buffer;
/**
* The array of NativePointerObjects this pointer points to
*/
private NativePointerObject pointers[];
/**
* Creates a new Pointer to the given values.
*
* @param values The values the pointer should point to
* @return The pointer
*/
public static Pointer to(byte values[])
{
return new Pointer(ByteBuffer.wrap(values));
}
/**
* Creates a new Pointer to the given values.
* The values may not be null.
*
* @param values The values the pointer should point to
* @return The pointer
*/
public static Pointer to(char values[])
{
return new Pointer(CharBuffer.wrap(values));
}
/**
* Creates a new Pointer to the given values.
* The values may not be null.
*
* @param values The values the pointer should point to
* @return The pointer
*/
public static Pointer to(short values[])
{
return new Pointer(ShortBuffer.wrap(values));
}
/**
* Creates a new Pointer to the given values.
* The values may not be null.
*
* @param values The values the pointer should point to
* @return The pointer
*/
public static Pointer to(int values[])
{
return new Pointer(IntBuffer.wrap(values));
}
/**
* Creates a new Pointer to the given values.
* The values may not be null.
*
* @param values The values the pointer should point to
* @return The pointer
*/
public static Pointer to(float values[])
{
return new Pointer(FloatBuffer.wrap(values));
}
/**
* Creates a new Pointer to the given values.
* The values may not be null.
*
* @param values The values the pointer should point to
* @return The pointer
*/
public static Pointer to(long values[])
{
return new Pointer(LongBuffer.wrap(values));
}
/**
* Creates a new Pointer to the given values.
* The values may not be null.
*
* @param values The values the pointer should point to
* @return The pointer
*/
public static Pointer to(double values[])
{
return new Pointer(DoubleBuffer.wrap(values));
}
/**
* NOTE: This method does not take into account the position
* and array offset of the given buffer. In order to create a
* pointer that takes the position and array offset into account,
* use the {@link #toBuffer(Buffer)} method.
*
*
* If the given buffer has a backing array, then the returned
* pointer will in any case point to the start of the array,
* even if the buffer has been created using the slice
* method (like {@link ByteBuffer#slice()}). If the buffer is
* direct, then this method will return a Pointer to the address
* of the direct buffer. If the buffer has been created using the
* slice method, then this will be the actual start
* of the slice. Although this implies a different treatment of
* direct- and non direct buffers, the method is kept for
* backward compatibility.
*
* In both cases, for direct and array-based buffers, this method
* does not take into account the position of the given buffer.
*
* The buffer must not be null, and either be a direct buffer, or
* have a backing array
*
* @param buffer The buffer the pointer should point to
* @return The pointer
* @throws IllegalArgumentException If the given buffer
* is null or is neither direct nor has a backing array
*/
public static Pointer to(Buffer buffer)
{
if (buffer == null || (!buffer.isDirect() && !buffer.hasArray()))
{
throw new IllegalArgumentException(
"Buffer may not be null and must have an array or be direct");
}
return new Pointer(buffer);
}
/**
* Creates a new Pointer to the given buffer.
*
* Note that this method takes into account the array offset and position
* of the given buffer, in contrast to the {@link #to(Buffer)} method.
*
* @param buffer The buffer
* @return The new pointer
* @throws IllegalArgumentException If the given buffer
* is null or is neither direct nor has a backing array
*/
public static Pointer toBuffer(Buffer buffer)
{
if (buffer == null || (!buffer.isDirect() && !buffer.hasArray()))
{
throw new IllegalArgumentException(
"Buffer may not be null and must have an array or be direct");
}
if (buffer instanceof ByteBuffer)
{
return computePointer((ByteBuffer)buffer);
}
if (buffer instanceof ShortBuffer)
{
return computePointer((ShortBuffer)buffer);
}
if (buffer instanceof IntBuffer)
{
return computePointer((IntBuffer)buffer);
}
if (buffer instanceof LongBuffer)
{
return computePointer((LongBuffer)buffer);
}
if (buffer instanceof FloatBuffer)
{
return computePointer((FloatBuffer)buffer);
}
if (buffer instanceof DoubleBuffer)
{
return computePointer((DoubleBuffer)buffer);
}
throw new IllegalArgumentException(
"Unknown buffer type: "+buffer);
}
/**
* Creates a new Pointer to the given buffer, taking into
* account the position and array offset of the given buffer.
* The buffer is assumed to be non-null, and
* be either direct or have a backing array.
*
* @param buffer The buffer
* @return The pointer
*/
private static Pointer computePointer(ByteBuffer buffer)
{
Pointer result = null;
if (buffer.isDirect())
{
int oldPosition = buffer.position();
buffer.position(0);
result = Pointer.to(buffer.slice()).withByteOffset(
oldPosition * Sizeof.BYTE);
buffer.position(oldPosition);
}
else if (buffer.hasArray())
{
ByteBuffer t = ByteBuffer.wrap(buffer.array());
int elementOffset = buffer.position() + buffer.arrayOffset();
result = Pointer.to(t).withByteOffset(
elementOffset * Sizeof.BYTE);
}
return result;
}
/**
* Creates a new Pointer to the given buffer, taking into
* account the position and array offset of the given buffer.
* The buffer is assumed to be non-null, and
* be either direct or have a backing array.
*
* @param buffer The buffer
* @return The pointer
*/
private static Pointer computePointer(ShortBuffer buffer)
{
Pointer result = null;
if (buffer.isDirect())
{
int oldPosition = buffer.position();
buffer.position(0);
result = Pointer.to(buffer.slice()).withByteOffset(
oldPosition * Sizeof.SHORT);
buffer.position(oldPosition);
}
else if (buffer.hasArray())
{
ShortBuffer t = ShortBuffer.wrap(buffer.array());
int elementOffset = buffer.position() + buffer.arrayOffset();
result = Pointer.to(t).withByteOffset(
elementOffset * Sizeof.SHORT);
}
return result;
}
/**
* Creates a new Pointer to the given buffer, taking into
* account the position and array offset of the given buffer.
* The buffer is assumed to be non-null, and
* be either direct or have a backing array.
*
* @param buffer The buffer
* @return The pointer
*/
private static Pointer computePointer(IntBuffer buffer)
{
Pointer result = null;
if (buffer.isDirect())
{
int oldPosition = buffer.position();
buffer.position(0);
result = Pointer.to(buffer.slice()).withByteOffset(
oldPosition * Sizeof.INT);
buffer.position(oldPosition);
}
else if (buffer.hasArray())
{
IntBuffer t = IntBuffer.wrap(buffer.array());
int elementOffset = buffer.position() + buffer.arrayOffset();
result = Pointer.to(t).withByteOffset(
elementOffset * Sizeof.INT);
}
return result;
}
/**
* Creates a new Pointer to the given buffer, taking into
* account the position and array offset of the given buffer.
* The buffer is assumed to be non-null, and
* be either direct or have a backing array.
*
* @param buffer The buffer
* @return The pointer
*/
private static Pointer computePointer(LongBuffer buffer)
{
Pointer result = null;
if (buffer.isDirect())
{
int oldPosition = buffer.position();
buffer.position(0);
result = Pointer.to(buffer.slice()).withByteOffset(
oldPosition * Sizeof.LONG);
buffer.position(oldPosition);
}
else if (buffer.hasArray())
{
LongBuffer t = LongBuffer.wrap(buffer.array());
int elementOffset = buffer.position() + buffer.arrayOffset();
result = Pointer.to(t).withByteOffset(
elementOffset * Sizeof.LONG);
}
return result;
}
/**
* Creates a new Pointer to the given buffer, taking into
* account the position and array offset of the given buffer.
* The buffer is assumed to be non-null, and
* be either direct or have a backing array.
*
* @param buffer The buffer
* @return The pointer
*/
private static Pointer computePointer(FloatBuffer buffer)
{
Pointer result = null;
if (buffer.isDirect())
{
int oldPosition = buffer.position();
buffer.position(0);
result = Pointer.to(buffer.slice()).withByteOffset(
oldPosition * Sizeof.FLOAT);
buffer.position(oldPosition);
}
else if (buffer.hasArray())
{
FloatBuffer t = FloatBuffer.wrap(buffer.array());
int elementOffset = buffer.position() + buffer.arrayOffset();
result = Pointer.to(t).withByteOffset(
elementOffset * Sizeof.FLOAT);
}
return result;
}
/**
* Creates a new Pointer to the given buffer, taking into
* account the position and array offset of the given buffer.
* The buffer is assumed to be non-null, and
* be either direct or have a backing array.
*
* @param buffer The buffer
* @return The pointer
*/
private static Pointer computePointer(DoubleBuffer buffer)
{
Pointer result = null;
if (buffer.isDirect())
{
int oldPosition = buffer.position();
buffer.position(0);
result = Pointer.to(buffer.slice()).withByteOffset(
oldPosition * Sizeof.DOUBLE);
buffer.position(oldPosition);
}
else if (buffer.hasArray())
{
DoubleBuffer t = DoubleBuffer.wrap(buffer.array());
int elementOffset = buffer.position() + buffer.arrayOffset();
result = Pointer.to(t).withByteOffset(
elementOffset * Sizeof.DOUBLE);
}
return result;
}
/**
* Creates a new Pointer to the given Pointers. The array
* of pointers may not be null, and may not
* contain null elements.
*
* @param pointers The pointers the pointer should point to
* @return The new pointer
* @throws IllegalArgumentException If the given array
* is null
*/
public static Pointer to(NativePointerObject ... pointers)
{
if (pointers == null)
{
throw new IllegalArgumentException(
"Pointer may not point to null objects");
}
return new Pointer(pointers);
}
/**
* Creates a new (null) Pointer
*/
public Pointer()
{
buffer = null;
pointers = null;
byteOffset = 0;
}
/**
* Constructor which accepts a constant value as the pointer value.
* Solely for the constant pointer instances in the JCudaDriver
* class, to create the CU_LAUNCH_PARAM_END,
* CU_LAUNCH_PARAM_BUFFER_POINTER, and CU_LAUNCH_PARAM_BUFFER_SIZE
* pointer constants.
*
* @param nativePointerValue The native pointer value
*/
protected Pointer(long nativePointerValue)
{
super(nativePointerValue);
buffer = null;
pointers = null;
byteOffset = 0;
}
/**
* Creates a Pointer to the given Buffer
*
* @param buffer The buffer to point to
*/
private Pointer(Buffer buffer)
{
this.buffer = buffer;
pointers = null;
byteOffset = 0;
}
/**
* Creates a Pointer to the given array of pointers
*
* @param pointers The array the pointer points to
*/
private Pointer(NativePointerObject pointers[])
{
buffer = null;
this.pointers = pointers;
byteOffset = 0;
}
/**
* Copy constructor
*
* @param other The other Pointer
*/
protected Pointer(Pointer other)
{
super(other.getNativePointer());
this.buffer = other.buffer;
this.pointers = other.pointers;
this.byteOffset = other.byteOffset;
}
/**
* Creates a copy of the given pointer, with an
* additional byte offset
*
* @param other The other pointer
* @param byteOffset The additional byte offset
*/
protected Pointer(Pointer other, long byteOffset)
{
this(other);
this.byteOffset += byteOffset;
}
/**
* Returns a new pointer with an offset of the given number
* of bytes
*
* @param byteOffset The byte offset for the pointer
* @return The new pointer with the given byte offset
*/
public Pointer withByteOffset(long byteOffset)
{
return new Pointer(this, byteOffset);
}
/**
* Returns a ByteBuffer that corresponds to the specified
* segment of the memory that this pointer points to.
*
* The returned byte buffer will have the byte order that is implied
* by ByteOrder#nativeOrder(). It will be a slice of the
* buffer that is stored internally. So it will share the same memory,
* but its position and limit will be independent of the internal buffer.
*
* This function may only be applied to pointers that have been set to
* point to a region of host- or unified memory using one of these
* methods:
*
*
* For other pointer types, null is returned.
*
* @param byteOffset The offset in bytes
* @param byteSize The size of the byte buffer, in bytes
* @return The byte buffer
* @throws IllegalArgumentException If the byteOffset and
* byteSize describe an invalid memory range (for example,
* when the byteOffset is negative)
* @throws ArithmeticException If the byteOffset or
* byteOffset + byteSize overflows an int.
*/
public ByteBuffer getByteBuffer(long byteOffset, long byteSize)
{
if (buffer == null)
{
return null;
}
if (!(buffer instanceof ByteBuffer))
{
return null;
}
ByteBuffer internalByteBuffer = (ByteBuffer)buffer;
ByteBuffer byteBuffer = internalByteBuffer.slice();
byteBuffer.limit(Math.toIntExact(byteOffset + byteSize));
byteBuffer.position(Math.toIntExact(byteOffset));
return byteBuffer.slice().order(ByteOrder.nativeOrder());
}
/**
* Returns a ByteBuffer that corresponds to the memory that this
* pointer points to.
*
* The returned byte buffer will have the byte order that is implied
* by ByteOrder#nativeOrder(). It will be a slice of the
* buffer that is stored internally. So it will share the same memory,
* but its position and limit will be independent of the internal buffer.
*
* This function may only be applied to pointers that have been set to
* point to a region of host- or unified memory using one of these
* methods:
*