/* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
* <p/>
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*/
package com.sun.jna;
import java.io.UnsupportedEncodingException;
import java.lang.reflect.Array;
import java.nio.Buffer;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
import java.util.ArrayList;
import java.util.List;
/**
* An abstraction for a native pointer data type. A Pointer instance
* represents, on the Java side, a native pointer. The native pointer could
* be any <em>type</em> of native pointer. Methods such as <code>write</code>,
* <code>read</code>, <code>getXXX</code>, and <code>setXXX</code>, provide
* means to access memory underlying the native pointer.<p>
* The constructors are intentionally package-private, since it's not generally
* a good idea to be creating C pointers de novo.
*
* @author Sheng Liang, originator
* @author Todd Fast, suitability modifications
* @author Timothy Wall, robust library loading
* @see Function
*/
public class Pointer {
/** Size of a native pointer, in bytes. */
public static final int SIZE;
static {
// Force load of native library
if ((SIZE = Native.POINTER_SIZE) == 0) {
throw new Error("Native library not initialized");
}
}
/** Convenience constant, same as <code>null</code>. */
public static final Pointer NULL = null;
/** Convenience constant, equivalent to <code>(void*)-1</code>. */
public static final Pointer createConstant(long peer) {
return new Opaque(peer);
}
/** Pointer value of the real native pointer. Use long to be 64-bit safe.
*/
protected long peer;
/** Derived class must assign peer pointer value. */
Pointer() { }
/** Create from native pointer. Don't use this unless you know what
* you're doing.
*/
public Pointer(long peer) {
this.peer = peer;
}
public Pointer share(long offset) {
return share(offset, 0);
}
/** Provide a view of this pointer with a different peer base. */
public Pointer share(long offset, long sz) {
if (offset == 0) return this;
return new Pointer(peer + offset);
}
/** Zero memory for the given number of bytes. */
public void clear(long size) {
setMemory(0, size, (byte)0);
}
/**
* Compares this <code>Pointer</code> to the specified object.
*
* @param o
* A <code>Pointer</code> instance
* @return True if the other object is a <code>Pointer</code>,
* and the C pointers being pointed to by these objects are also
* equal. Returns false otherwise.
*/
public boolean equals(Object o) {
if (o == this) return true;
if (o == null) return false;
return o instanceof Pointer && ((Pointer)o).peer == peer;
}
/**
* Returns a hashcode for the native pointer represented by this
* <code>Pointer</code> object
*
* @return A hash code value for the represented native pointer
*/
public int hashCode() {
return (int)((peer >>> 32) + (peer & 0xFFFFFFFF));
}
//////////////////////////////////////////////////////////////////////////
// Raw read methods
//////////////////////////////////////////////////////////////////////////
/** Returns the offset of the given value in memory from the given offset,
* or -1 if the value is not found.
*/
public long indexOf(long offset, byte value) {
return _indexOf(peer + offset, value);
}
private static native long _indexOf(long addr, byte value);
/**
* Indirect the native pointer, copying <em>from</em> memory pointed to by
* native pointer, into the specified array.
*
* @param offset byte offset from pointer into which data is copied
* @param buf <code>byte</code> array into which data is copied
* @param index array index from which to start copying
* @param length number of elements from native pointer that must be copied
*/
public void read(long offset, byte[] buf, int index, int length) {
_read(peer + offset, buf, index, length);
}
private static native void _read(long addr, byte[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>from</em> memory pointed to by
* native pointer, into the specified array.
*
* @param offset byte offset from pointer from which data is copied
* @param buf <code>short</code> array into which data is copied
* @param index array index to which data is copied
* @param length number of elements from native pointer that must be copied
*/
public void read(long offset, short[] buf, int index, int length) {
_read(peer + offset, buf, index, length);
}
private static native void _read(long addr, short[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>from</em> memory pointed to by
* native pointer, into the specified array.
*
* @param offset byte offset from pointer from which data is copied
* @param buf <code>char</code> array into which data is copied
* @param index array index to which data is copied
* @param length number of elements from native pointer that must be copied
*/
public void read(long offset, char[] buf, int index, int length) {
_read(peer + offset, buf, index, length);
}
private static native void _read(long addr, char[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>from</em> memory pointed to by
* native pointer, into the specified array.
*
* @param offset byte offset from pointer from which data is copied
* @param buf <code>int</code> array into which data is copied
* @param index array index to which data is copied
* @param length number of elements from native pointer that must be copied
*/
public void read(long offset, int[] buf, int index, int length) {
_read(peer + offset, buf, index, length);
}
private static native void _read(long addr, int[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>from</em> memory pointed to by
* native pointer, into the specified array.
*
* @param offset byte offset from pointer from which data is copied
* @param buf <code>long</code> array into which data is copied
* @param index array index to which data is copied
* @param length number of elements from native pointer that must be copied
*/
public void read(long offset, long[] buf, int index, int length) {
_read(peer + offset, buf, index, length);
}
private static native void _read(long addr, long[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>from</em> memory pointed to by
* native pointer, into the specified array.
*
* @param offset byte offset from pointer from which data is copied
* @param buf <code>float</code> array into which data is copied
* @param index array index to which data is copied
* @param length number of elements from native pointer that must be copied
*/
public void read(long offset, float[] buf, int index, int length) {
_read(peer + offset, buf, index, length);
}
private static native void _read(long addr, float[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>from</em> memory pointed to by
* native pointer, into the specified array.
*
* @param offset byte offset from pointer from which data is copied
* @param buf <code>double</code> array into which data is copied
* @param index array index to which data is copied
* @param length number of elements from native pointer that must be copied
*/
public void read(long offset, double[] buf, int index, int length) {
_read(peer + offset, buf, index, length);
}
private static native void _read(long addr, double[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>from</em> memory pointed to by
* native pointer, into the specified array.
*
* @param offset byte offset from pointer from which data is copied
* @param buf {@link Pointer} array into which data is copied
* @param index array index to which data is copied
* @param length number of elements from native pointer that must be copied
*/
public void read(long offset, Pointer[] buf, int index, int length) {
for (int i=0;i < length;i++) {
Pointer p = getPointer(offset + i*Pointer.SIZE);
Pointer oldp = buf[i+index];
// Avoid replacing the original pointer if it hasn't changed
if (oldp == null || p == null || p.peer != oldp.peer) {
buf[i+index] = p;
}
}
}
//////////////////////////////////////////////////////////////////////////
// Raw write methods
//////////////////////////////////////////////////////////////////////////
/**
* Indirect the native pointer, copying <em>into</em> memory pointed to by
* native pointer, from the specified array.
*
* @param offset byte offset from pointer into which data is copied
* @param buf <code>byte</code> array from which to copy
* @param index array index from which to start copying
* @param length number of elements from <code>buf</code> that must be
* copied
*/
public void write(long offset, byte[] buf, int index, int length) {
_write(peer + offset, buf, index, length);
}
private static native void _write(long addr, byte[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>into</em> memory pointed to by
* native pointer, from the specified array.
*
* @param offset byte offset from pointer into which data is copied
* @param buf <code>short</code> array from which to copy
* @param index array index from which to start copying
* @param length number of elements from <code>buf</code> that must be
* copied
*/
public void write(long offset, short[] buf, int index, int length) {
_write(peer + offset, buf, index, length);
}
private static native void _write(long addr, short[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>into</em> memory pointed to by
* native pointer, from the specified array.
*
* @param offset byte offset from pointer into which data is copied
* @param buf <code>char</code> array from which to copy
* @param index array index from which to start copying
* @param length number of elements from <code>buf</code> that must be
* copied
*/
public void write(long offset, char[] buf, int index, int length) {
_write(peer + offset, buf, index, length);
}
private static native void _write(long addr, char[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>into</em> memory pointed to by
* native pointer, from the specified array.
*
* @param offset byte offset from pointer into which data is copied
* @param buf <code>int</code> array from which to copy
* @param index array index from which to start copying
* @param length number of elements from <code>buf</code> that must be
* copied
*/
public void write(long offset, int[] buf, int index, int length) {
_write(peer + offset, buf, index, length);
}
private static native void _write(long addr, int[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>into</em> memory pointed to by
* native pointer, from the specified array.
*
* @param offset byte offset from pointer into which data is copied
* @param buf <code>long</code> array from which to copy
* @param index array index from which to start copying
* @param length number of elements from <code>buf</code> that must be
* copied
*/
public void write(long offset, long[] buf, int index, int length) {
_write(peer + offset, buf, index, length);
}
private static native void _write(long addr, long[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>into</em> memory pointed to by
* native pointer, from the specified array.
*
* @param offset byte offset from pointer into which data is copied
* @param buf <code>float</code> array from which to copy
* @param index array index from which to start copying
* @param length number of elements from <code>buf</code> that must be
* copied
*/
public void write(long offset, float[] buf, int index, int length) {
_write(peer + offset, buf, index, length);
}
private static native void _write(long addr, float[] buf, int index, int length);
/**
* Indirect the native pointer, copying <em>into</em> memory pointed to by
* native pointer, from the specified array.
*
* @param offset byte offset from pointer into which data is copied
* @param buf <code>double</code> array from which to copy
* @param index array index from which to start copying
* @param length number of elements from <code>buf</code> that must be
* copied
*/
public void write(long offset, double[] buf, int index, int length) {
_write(peer + offset, buf, index, length);
}
private static native void _write(long addr, double[] buf, int index, int length);
/** Write the given array of Pointer to native memory.
* @param bOff byte offset from pointer into which data is copied
* @param buf <code>Pointer</code> array from which to copy
* @param index array index from which to start copying
* @param length number of elements from <code>buf</code> that must be
* copied
*/
public void write(long bOff, Pointer[] buf, int index, int length) {
for (int i=0;i < length;i++) {
setPointer(bOff + i * Pointer.SIZE, buf[index + i]);
}
}
//////////////////////////////////////////////////////////////////////////
// Java type read methods
//////////////////////////////////////////////////////////////////////////
Object getValue(long offset, Class type, Object currentValue) {
Object result = null;
if (Structure.class.isAssignableFrom(type)) {
Structure s = (Structure)currentValue;
if (Structure.ByReference.class.isAssignableFrom(type)) {
s = Structure.updateStructureByReference(type, s, getPointer(offset));
}
else {
s.useMemory(this, (int)offset);
s.read();
}
result = s;
}
else if (type == boolean.class || type == Boolean.class) {
result = Function.valueOf(getInt(offset) != 0);
}
else if (type == byte.class || type == Byte.class) {
result = new Byte(getByte(offset));
}
else if (type == short.class || type == Short.class) {
result = new Short(getShort(offset));
}
else if (type == char.class || type == Character.class) {
result = new Character(getChar(offset));
}
else if (type == int.class || type == Integer.class) {
result = new Integer(getInt(offset));
}
else if (type == long.class || type == Long.class) {
result = new Long(getLong(offset));
}
else if (type == float.class || type == Float.class) {
result=new Float(getFloat(offset));
}
else if (type == double.class || type == Double.class) {
result = new Double(getDouble(offset));
}
else if (Pointer.class.isAssignableFrom(type)) {
Pointer p = getPointer(offset);
if (p != null) {
Pointer oldp = currentValue instanceof Pointer
? (Pointer)currentValue : null;
if (oldp == null || p.peer != oldp.peer)
result = p;
else
result = oldp;
}
}
else if (type == String.class) {
Pointer p = getPointer(offset);
result = p != null ? p.getString(0) : null;
}
else if (type == WString.class) {
Pointer p = getPointer(offset);
result = p != null ? new WString(p.getString(0, true)) : null;
}
else if (Callback.class.isAssignableFrom(type)) {
// Overwrite the Java memory if the native pointer is a different
// function pointer.
Pointer fp = getPointer(offset);
if (fp == null) {
result = null;
}
else {
Callback cb = (Callback)currentValue;
Pointer oldfp = CallbackReference.getFunctionPointer(cb);
if (!fp.equals(oldfp)) {
cb = CallbackReference.getCallback(type, fp);
}
result = cb;
}
}
else if (Buffer.class.isAssignableFrom(type)) {
Pointer bp = getPointer(offset);
if (bp == null) {
result = null;
}
else {
Pointer oldbp = currentValue == null ? null
: Native.getDirectBufferPointer((Buffer)currentValue);
if (oldbp == null || !oldbp.equals(bp)) {
throw new IllegalStateException("Can't autogenerate a direct buffer on memory read");
}
result = currentValue;
}
}
else if (NativeMapped.class.isAssignableFrom(type)) {
NativeMapped nm = (NativeMapped)currentValue;
if (nm != null) {
Object value = getValue(offset, nm.nativeType(), null);
result = nm.fromNative(value, new FromNativeContext(type));
}
else {
NativeMappedConverter tc = NativeMappedConverter.getInstance(type);
Object value = getValue(offset, tc.nativeType(), null);
result = tc.fromNative(value, new FromNativeContext(type));
}
}
else if (type.isArray()) {
result = currentValue;
if (result == null) {
throw new IllegalStateException("Need an initialized array");
}
getArrayValue(offset, result, type.getComponentType());
}
else {
throw new IllegalArgumentException("Reading \""
+ type + "\" from memory is not supported");
}
return result;
}
private void getArrayValue(long offset, Object o, Class cls) {
int length = 0;
length = Array.getLength(o);
Object result = o;
if (cls == byte.class) {
read(offset, (byte[])result, 0, length);
}
else if (cls == short.class) {
read(offset, (short[])result, 0, length);
}
else if (cls == char.class) {
read(offset, (char[])result, 0, length);
}
else if (cls == int.class) {
read(offset, (int[])result, 0, length);
}
else if (cls == long.class) {
read(offset, (long[])result, 0, length);
}
else if (cls == float.class) {
read(offset, (float[])result, 0, length);
}
else if (cls == double.class) {
read(offset, (double[])result, 0, length);
}
else if (Pointer.class.isAssignableFrom(cls)) {
read(offset, (Pointer[])result, 0, length);
}
else if (Structure.class.isAssignableFrom(cls)) {
Structure[] sarray = (Structure[])result;
if (Structure.ByReference.class.isAssignableFrom(cls)) {
Pointer[] parray = getPointerArray(offset, sarray.length);
for (int i=0;i < sarray.length;i++) {
sarray[i] = Structure.updateStructureByReference(cls, sarray[i], parray[i]);
}
}
else {
for (int i=0;i < sarray.length;i++) {
if (sarray[i] == null) {
sarray[i] = Structure.newInstance(cls);
}
sarray[i].useMemory(this, (int)(offset + i * sarray[i].size()));
sarray[i].read();
}
}
}
else if (NativeMapped.class.isAssignableFrom(cls)) {
NativeMapped[] array = (NativeMapped[])result;
NativeMappedConverter tc = NativeMappedConverter.getInstance(cls);
int size = Native.getNativeSize(result.getClass(), result) / array.length;
for (int i=0;i < array.length;i++) {
Object value = getValue(offset + size*i, tc.nativeType(), array[i]);
array[i] = (NativeMapped)tc.fromNative(value, new FromNativeContext(cls));
}
}
else {
throw new IllegalArgumentException("Reading array of "
+ cls
+ " from memory not supported");
}
}
/**
* Indirect the native pointer as a pointer to <code>byte</code>. This is
* equivalent to the expression
* <code>*((jbyte *)((char *)Pointer + offset))</code>.
*
* @param offset offset from pointer to perform the indirection
* @return the <code>byte</code> value being pointed to
*/
public byte getByte(long offset) {
return _getByte(peer + offset);
}
private static native byte _getByte(long addr);
/**
* Indirect the native pointer as a pointer to <code>wchar_t</code>. This
* is equivalent to the expression
* <code>*((wchar_t*)((char *)Pointer + offset))</code>.
*
* @param offset offset from pointer to perform the indirection
* @return the <code>wchar_t</code> value being pointed to
*/
public char getChar(long offset) {
return _getChar(peer + offset);
}
private static native char _getChar(long addr);
/**
* Indirect the native pointer as a pointer to <code>short</code>. This is
* equivalent to the expression
* <code>*((jshort *)((char *)Pointer + offset))</code>.
*
* @param offset byte offset from pointer to perform the indirection
* @return the <code>short</code> value being pointed to
*/
public short getShort(long offset) {
return _getShort(peer + offset);
}
private static native short _getShort(long addr);
/**
* Indirect the native pointer as a pointer to <code>int</code>. This is
* equivalent to the expression
* <code>*((jint *)((char *)Pointer + offset))</code>.
*
* @param offset byte offset from pointer to perform the indirection
* @return the <code>int</code> value being pointed to
*/
public int getInt(long offset) {
return _getInt(peer + offset);
}
private static native int _getInt(long addr);
/**
* Indirect the native pointer as a pointer to <code>long</code>. This is
* equivalent to the expression
* <code>*((jlong *)((char *)Pointer + offset))</code>.
*
* @param offset byte offset from pointer to perform the indirection
* @return the <code>long</code> value being pointed to
*/
public long getLong(long offset) {
return _getLong(peer + offset);
}
private static native long _getLong(long addr);
/**
* Indirect the native pointer as a pointer to <code>long</code>. This is
* equivalent to the expression
* <code>*((long *)((char *)Pointer + offset))</code>.
*
* @param offset byte offset from pointer to perform the indirection
* @return the <code>long</code> value being pointed to
*/
public NativeLong getNativeLong(long offset) {
return new NativeLong(NativeLong.SIZE == 8 ? getLong(offset) : getInt(offset));
}
/**
* Indirect the native pointer as a pointer to <code>float</code>. This is
* equivalent to the expression
* <code>*((jfloat *)((char *)Pointer + offset))</code>.
*
* @param offset byte offset from pointer to perform the indirection
* @return the <code>float</code> value being pointed to
*/
public float getFloat(long offset) {
return _getFloat(peer + offset);
}
private native float _getFloat(long addr);
/**
* Indirect the native pointer as a pointer to <code>double</code>. This
* is equivalent to the expression
* <code>*((jdouble *)((char *)Pointer + offset))</code>.
*
* @param offset byte offset from pointer to perform the indirection
* @return the <code>double</code> value being pointed to
*/
public double getDouble(long offset) {
return _getDouble(peer + offset);
}
private static native double _getDouble(long addr);
/**
* Indirect the native pointer as a pointer to pointer. This is equivalent
* to the expression
* <code>*((void **)((char *)Pointer + offset))</code>.
*
* @param offset byte offset from pointer to perform the indirection
* @return a {@link Pointer} equivalent of the pointer value
* being pointed to, or <code>null</code> if the pointer value is
* <code>NULL</code>;
*/
public Pointer getPointer(long offset) {
return _getPointer(peer + offset);
}
private static native Pointer _getPointer(long addr);
/**
* Get a ByteBuffer mapped to the memory pointed to by the pointer,
* ensuring the buffer uses native byte order.
*
* @param offset byte offset from pointer to start the buffer
* @param length Length of ByteBuffer
* @return a direct ByteBuffer that accesses the memory being pointed to,
*/
public ByteBuffer getByteBuffer(long offset, long length) {
return _getDirectByteBuffer(peer + offset, length).order(ByteOrder.nativeOrder());
}
/**
* Get a direct ByteBuffer mapped to the memory pointed to by the pointer.
*
* @param addr byte offset from pointer to start the buffer
* @param length Length of ByteBuffer
* @return a direct ByteBuffer that accesses the memory being pointed to,
*/
private native ByteBuffer _getDirectByteBuffer(long addr, long length);
/**
* Copy native memory to a Java String. If <code>wide</code> is true,
* access the memory as an array of <code>wchar_t</code>, otherwise
* as an array of <code>char</code>, using the default platform encoding.
*
* @param offset byte offset from pointer to obtain the native string
v * @param wide whether to convert from a wide or standard C string
* @return the <code>String</code> value being pointed to
*/
public String getString(long offset, boolean wide) {
return _getString(peer + offset, wide);
}
private static native String _getString(long addr, boolean wide);
/**
* Copy native memory to a Java String. If the system property
* <code>jna.encoding</code> is set, uses it as the native charset
* when decoding the value, otherwise falls back to the default platform
* encoding.
*
* @param offset byte offset from pointer to obtain the native string
* @return the <code>String</code> value being pointed to
*/
public String getString(long offset) {
String encoding = System.getProperty("jna.encoding");
if (encoding != null) {
long len = indexOf(offset, (byte)0);
if (len != -1) {
if (len > Integer.MAX_VALUE) {
throw new OutOfMemoryError("String exceeds maximum length: " + len);
}
byte[] data = getByteArray(offset, (int)len);
try {
return new String(data, encoding);
}
catch(UnsupportedEncodingException e) {
}
}
}
return getString(offset, false);
}
public byte[] getByteArray(long offset, int arraySize) {
byte[] buf = new byte[arraySize];
read(offset, buf, 0, arraySize);
return buf;
}
public char[] getCharArray(long offset, int arraySize) {
char[] buf = new char[arraySize];
read(offset, buf, 0, arraySize);
return buf;
}
public short[] getShortArray(long offset, int arraySize) {
short[] buf = new short[arraySize];
read(offset, buf, 0, arraySize);
return buf;
}
public int[] getIntArray(long offset, int arraySize) {
int[] buf = new int[arraySize];
read(offset, buf, 0, arraySize);
return buf;
}
public long[] getLongArray(long offset, int arraySize) {
long[] buf = new long[arraySize];
read(offset, buf, 0, arraySize);
return buf;
}
public float[] getFloatArray(long offset, int arraySize) {
float[] buf = new float[arraySize];
read(offset, buf, 0, arraySize);
return buf;
}
public double[] getDoubleArray(long offset, int arraySize) {
double[] buf = new double[arraySize];
read(offset, buf, 0, arraySize);
return buf;
}
/** Returns an array of {@link Pointer}. The array length is
* determined by a NULL-valued terminating element.
*/
public Pointer[] getPointerArray(long base) {
List array = new ArrayList();
int offset = 0;
Pointer p = getPointer(base);
while (p != null) {
array.add(p);
offset += Pointer.SIZE;
p = getPointer(base + offset);
}
return (Pointer[])array.toArray(new Pointer[array.size()]);
}
/** Returns an array of {@link Pointer} of the requested size. */
public Pointer[] getPointerArray(long offset, int arraySize) {
Pointer[] buf = new Pointer[arraySize];
read(offset, buf, 0, arraySize);
return buf;
}
/** Returns an array of <code>String</code> based on a native array
* of <code>char *</code>. The array length is determined by a
* NULL-valued terminating element.
*/
public String[] getStringArray(long base) {
return getStringArray(base, -1, false);
}
/** Returns an array of <code>String</code> based on a native array
* of <code>char *</code>, using the given array length.
*/
public String[] getStringArray(long base, int length) {
return getStringArray(base, length, false);
}
/** Returns an array of <code>String</code> based on a native array
* of <code>char*</code> or <code>wchar_t*</code> based on the
* <code>wide</code> parameter. The array length is determined by a
* NULL-valued terminating element.
*/
public String[] getStringArray(long base, boolean wide) {
return getStringArray(base, -1, wide);
}
/** Returns an array of <code>String</code> based on a native array
* of <code>char*</code> or <code>wchar_t*</code> based on the
* <code>wide</code> parameter, using the given array length.
*/
public String[] getStringArray(long base, int length, boolean wide) {
List strings = new ArrayList();
int offset = 0;
Pointer p = getPointer(base);
if (length != -1) {
int count = 0;
while (count++ < length) {
strings.add(p.getString(0, wide));
offset += SIZE;
p = getPointer(base + offset);
}
}
else {
while (p != null) {
strings.add(p.getString(0, wide));
offset += SIZE;
p = getPointer(base + offset);
}
}
return (String[])strings.toArray(new String[strings.size()]);
}
//////////////////////////////////////////////////////////////////////////
// Java type write methods
//////////////////////////////////////////////////////////////////////////
void setValue(long offset, Object value, Class type) {
// Set the value at the offset according to its type
if (type == boolean.class || type == Boolean.class) {
setInt(offset, Boolean.TRUE.equals(value) ? -1 : 0);
}
else if (type == byte.class || type == Byte.class) {
setByte(offset, value == null ? 0 : ((Byte)value).byteValue());
}
else if (type == short.class || type == Short.class) {
setShort(offset, value == null ? 0 : ((Short)value).shortValue());
}
else if (type == char.class || type == Character.class) {
setChar(offset, value == null ? 0 : ((Character)value).charValue());
}
else if (type == int.class || type == Integer.class) {
setInt(offset, value == null ? 0 : ((Integer)value).intValue());
}
else if (type == long.class || type == Long.class) {
setLong(offset, value == null ? 0 : ((Long)value).longValue());
}
else if (type == float.class || type == Float.class) {
setFloat(offset, value == null ? 0f : ((Float)value).floatValue());
}
else if (type == double.class || type == Double.class) {
setDouble(offset, value == null ? 0.0 : ((Double)value).doubleValue());
}
else if (type == Pointer.class) {
setPointer(offset, (Pointer)value);
}
else if (type == String.class) {
setPointer(offset, (Pointer)value);
}
else if (type == WString.class) {
setPointer(offset, (Pointer)value);
}
else if (Structure.class.isAssignableFrom(type)) {
Structure s = (Structure)value;
if (Structure.ByReference.class.isAssignableFrom(type)) {
setPointer(offset, s == null ? null : s.getPointer());
if (s != null) {
s.autoWrite();
}
}
else {
s.useMemory(this, (int)offset);
s.write();
}
}
else if (Callback.class.isAssignableFrom(type)) {
setPointer(offset, CallbackReference.getFunctionPointer((Callback)value));
}
else if (Buffer.class.isAssignableFrom(type)) {
Pointer p = value == null ? null
: Native.getDirectBufferPointer((Buffer)value);
setPointer(offset, p);
}
else if (NativeMapped.class.isAssignableFrom(type)) {
NativeMappedConverter tc = NativeMappedConverter.getInstance(type);
Class nativeType = tc.nativeType();
setValue(offset, tc.toNative(value, new ToNativeContext()), nativeType);
}
else if (type.isArray()) {
setArrayValue(offset, value, type.getComponentType());
}
else {
throw new IllegalArgumentException("Writing " + type + " to memory is not supported");
}
}
private void setArrayValue(long offset, Object value, Class cls) {
if (cls == byte.class) {
byte[] buf = (byte[])value;
write(offset, buf, 0, buf.length);
}
else if (cls == short.class) {
short[] buf = (short[])value;
write(offset, buf, 0, buf.length);
}
else if (cls == char.class) {
char[] buf = (char[])value;
write(offset, buf, 0, buf.length);
}
else if (cls == int.class) {
int[] buf = (int[])value;
write(offset, buf, 0, buf.length);
}
else if (cls == long.class) {
long[] buf = (long[])value;
write(offset, buf, 0, buf.length);
}
else if (cls == float.class) {
float[] buf = (float[])value;
write(offset, buf, 0, buf.length);
}
else if (cls == double.class) {
double[] buf = (double[])value;
write(offset, buf, 0, buf.length);
}
else if (Pointer.class.isAssignableFrom(cls)) {
Pointer[] buf = (Pointer[])value;
write(offset, buf, 0, buf.length);
}
else if (Structure.class.isAssignableFrom(cls)) {
Structure[] sbuf = (Structure[])value;
if (Structure.ByReference.class.isAssignableFrom(cls)) {
Pointer[] buf = new Pointer[sbuf.length];
for (int i=0;i < sbuf.length;i++) {
buf[i] = sbuf[i] == null ? null : sbuf[i].getPointer();
sbuf[i].write();
}
write(offset, buf, 0, buf.length);
}
else {
for (int i=0;i < sbuf.length;i++) {
if (sbuf[i] == null) {
sbuf[i] = Structure.newInstance(cls);
}
sbuf[i].useMemory(this, (int)(offset + i * sbuf[i].size()));
sbuf[i].write();
}
}
}
else if (NativeMapped.class.isAssignableFrom(cls)) {
NativeMapped[] buf = (NativeMapped[])value;
NativeMappedConverter tc = NativeMappedConverter.getInstance(cls);
Class nativeType = tc.nativeType();
int size = Native.getNativeSize(value.getClass(), value) / buf.length;
for (int i=0;i < buf.length;i++) {
Object element = tc.toNative(buf[i], new ToNativeContext());
setValue(offset + i*size, element, nativeType);
}
}
else {
throw new IllegalArgumentException("Writing array of "
+ cls + " to memory not supported");
}
}
/** Write <code>value</code> to the requested bank of memory.
* @param offset byte offset from pointer to start
* @param length number of bytes to write
* @param value value to be written
*/
public void setMemory(long offset, long length, byte value) {
_setMemory(peer + offset, length, value);
}
static native void _setMemory(long addr, long length, byte value);
/**
* Set <code>value</code> at location being pointed to. This is equivalent
* to the expression
* <code>*((jbyte *)((char *)Pointer + offset)) = value</code>.
*
* @param offset byte offset from pointer at which <code>value</code>
* must be set
* @param value <code>byte</code> value to set
*/
public void setByte(long offset, byte value) {
_setByte(peer + offset, value);
}
private static native void _setByte(long addr, byte value);
/**
* Set <code>value</code> at location being pointed to. This is equivalent
* to the expression
* <code>*((jshort *)((char *)Pointer + offset)) = value</code>.
*
* @param offset byte offset from pointer at which <code>value</code>
* must be set
* @param value <code>short</code> value to set
*/
public void setShort(long offset, short value) {
_setShort(peer + offset, value);
}
private static native void _setShort(long addr, short value);
/**
* Set <code>value</code> at location being pointed to. This is equivalent
* to the expression
* <code>*((wchar_t *)((char *)Pointer + offset)) = value</code>.
*
* @param offset byte offset from pointer at which <code>value</code>
* must be set
* @param value <code>char</code> value to set
*/
public void setChar(long offset, char value) {
_setChar(peer + offset, value);
}
private static native void _setChar(long addr, char value);
/**
* Set <code>value</code> at location being pointed to. This is equivalent
* to the expression
* <code>*((jint *)((char *)Pointer + offset)) = value</code>.
*
* @param offset byte offset from pointer at which <code>value</code>
* must be set
* @param value <code>int</code> value to set
*/
public void setInt(long offset, int value) {
_setInt(peer + offset, value);
}
private static native void _setInt(long addr, int value);
/**
* Set <code>value</code> at location being pointed to. This is equivalent
* to the expression
* <code>*((jlong *)((char *)Pointer + offset)) = value</code>.
*
* @param offset byte offset from pointer at which <code>value</code>
* must be set
* @param value <code>long</code> value to set
*/
public void setLong(long offset, long value) {
_setLong(peer + offset, value);
}
private static native void _setLong(long addr, long value);
/**
* Set <code>value</code> at location being pointed to. This is equivalent
* to the expression
* <code>*((long *)((char *)Pointer + offset)) = value</code>.
*
* @param offset byte offset from pointer at which <code>value</code>
* must be set
* @param value <code>long</code> value to set
*/
public void setNativeLong(long offset, NativeLong value) {
if (NativeLong.SIZE == 8) {
setLong(offset, value.longValue());
} else {
setInt(offset, value.intValue());
}
}
/**
* Set <code>value</code> at location being pointed to. This is equivalent
* to the expression
* <code>*((jfloat *)((char *)Pointer + offset)) = value</code>.
*
* @param offset byte offset from pointer at which <code>value</code>
* must be set
* @param value <code>float</code> value to set
*/
public void setFloat(long offset, float value) {
_setFloat(peer + offset, value);
}
private static native void _setFloat(long addr, float value);
/**
* Set <code>value</code> at location being pointed to. This is equivalent
* to the expression
* <code>*((jdouble *)((char *)Pointer + offset)) = value</code>.
*
* @param offset byte offset from pointer at which <code>value</code>
* must be set
* @param value <code>double</code> value to set
*/
public void setDouble(long offset, double value) {
_setDouble(peer + offset, value);
}
private static native void _setDouble(long addr, double value);
/**
* Set <code>value</code> at location being pointed to. This is equivalent
* to the expression
* <code>*((void **)((char *)Pointer + offset)) = value</code>.
*
* @param offset byte offset from pointer at which <code>value</code>
* must be set
* @param value <code>Pointer</code> holding the actual pointer value to
* set, which may be <code>null</code> to indicate a <code>NULL</code>
* pointer.
*/
public void setPointer(long offset, Pointer value) {
_setPointer(peer + offset, value != null ? value.peer : 0);
}
private static native void _setPointer(long addr, long value);
/**
* Copy string <code>value</code> to the location being pointed to. Copy
* each element in <code>value</code>, converted to native encoding, at an
* <code>offset</code>from the location pointed to by this pointer.
*
* @param offset byte offset from pointer at which characters in
* <code>value</code> must be set
* @param value <code>java.lang.String</code> value to set
* @param wide whether to write the native string as an array of
* <code>wchar_t</code>. If false, writes as a NUL-terminated array of
* <code>char</code> using the default platform encoding.
*/
public void setString(long offset, String value, boolean wide) {
_setString(peer + offset, value, wide);
}
private static native void _setString(long addr, String value, boolean wide);
/**
* Copy string <code>value</code> to the location being pointed to. Copy
* each element in <code>value</code>, converted to native encoding, at an
* <code>offset</code>from the location pointed to by this pointer.
* Uses the value of the system property <code>jna.encoding</code>, if set,
* to determine the appropriate native charset in which to encode the value.
* If the property is not set, uses the default platform encoding.
*
* @param offset byte offset from pointer at which characters in
* <code>value</code> must be set
* @param value <code>java.lang.String</code> value to set
*/
public void setString(long offset, String value) {
byte[] data = Native.getBytes(value);
write(offset, data, 0, data.length);
setByte(offset + data.length, (byte)0);
}
public String toString() {
return "native@0x" + Long.toHexString(peer);
}
/** Pointer which disallows all read/write access. */
private static class Opaque extends Pointer {
private Opaque(long peer) { super(peer); }
private final String MSG = "This pointer is opaque: " + this;
public long indexOf(long offset, byte value) {
throw new UnsupportedOperationException(MSG);
}
public void read(long bOff, byte[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void read(long bOff, char[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void read(long bOff, short[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void read(long bOff, int[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void read(long bOff, long[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void read(long bOff, float[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void read(long bOff, double[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void write(long bOff, byte[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void write(long bOff, char[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void write(long bOff, short[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void write(long bOff, int[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void write(long bOff, long[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void write(long bOff, float[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public void write(long bOff, double[] buf, int index, int length) {
throw new UnsupportedOperationException(MSG);
}
public byte getByte(long bOff) {
throw new UnsupportedOperationException(MSG);
}
public char getChar(long bOff) {
throw new UnsupportedOperationException(MSG);
}
public short getShort(long bOff) {
throw new UnsupportedOperationException(MSG);
}
public int getInt(long bOff) {
throw new UnsupportedOperationException(MSG);
}
public long getLong(long bOff) {
throw new UnsupportedOperationException(MSG);
}
public float getFloat(long bOff) {
throw new UnsupportedOperationException(MSG);
}
public double getDouble(long bOff) {
throw new UnsupportedOperationException(MSG);
}
public Pointer getPointer(long bOff) {
throw new UnsupportedOperationException(MSG);
}
public String getString(long bOff, boolean wide) {
throw new UnsupportedOperationException(MSG);
}
public void setByte(long bOff, byte value) {
throw new UnsupportedOperationException(MSG);
}
public void setChar(long bOff, char value) {
throw new UnsupportedOperationException(MSG);
}
public void setShort(long bOff, short value) {
throw new UnsupportedOperationException(MSG);
}
public void setInt(long bOff, int value) {
throw new UnsupportedOperationException(MSG);
}
public void setLong(long bOff, long value) {
throw new UnsupportedOperationException(MSG);
}
public void setFloat(long bOff, float value) {
throw new UnsupportedOperationException(MSG);
}
public void setDouble(long bOff, double value) {
throw new UnsupportedOperationException(MSG);
}
public void setPointer(long offset, Pointer value) {
throw new UnsupportedOperationException(MSG);
}
public void setString(long offset, String value, boolean wide) {
throw new UnsupportedOperationException(MSG);
}
public String toString() {
return "opaque@0x" + Long.toHexString(peer);
}
}
}