/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Copyright by The HDF Group. * * Copyright by the Board of Trustees of the University of Illinois. * * All rights reserved. * * * * This file is part of HDF5. The full HDF5 copyright notice, including * * terms governing use, modification, and redistribution, is contained in * * the files COPYING and Copyright.html. COPYING can be found at the root * * of the source code distribution tree; Copyright.html can be found at the * * root level of an installed copy of the electronic HDF5 document set and * * is linked from the top-level documents page. It can also be found at * * http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have * * access to either file, you may request a copy from help@hdfgroup.org. * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ package hdf.hdf5lib; import hdf.hdf5lib.exceptions.HDF5Exception; import hdf.hdf5lib.exceptions.HDF5JavaException; /** * This class encapsulates native methods to deal with arrays of numbers, * converting from numbers to bytes and bytes to numbers. *

* These routines are used by class HDFArray to pass data to and from the * HDF-5 library. *

* Methods xxxToByte() convert a Java array of primitive numbers (int, short, * ...) to a Java array of bytes. Methods byteToXxx() convert from a Java array * of bytes into a Java array of primitive numbers (int, short, ...) *

* Variant interfaces convert a section of an array, and also can convert to * sub-classes of Java Number. *

* See also: hdf.hdf5lib.HDFArray. */ public class HDFNativeData { /** * Convert an array of bytes into an array of ints * * @param data * The input array of bytes * @return an array of int */ public synchronized static native int[] byteToInt(byte[] data); /** * Convert an array of bytes into an array of floats * * @param data * The input array of bytes * @return an array of float */ public synchronized static native float[] byteToFloat(byte[] data); /** * Convert an array of bytes into an array of shorts * * @param data * The input array of bytes * @return an array of short */ public synchronized static native short[] byteToShort(byte[] data); /** * Convert an array of bytes into an array of long * * @param data * The input array of bytes * @return an array of long */ /* * does this really work? C 'long' is 32 bits, Java 'long' is 64-bits. What * does this routine actually do? */ public synchronized static native long[] byteToLong(byte[] data); /** * Convert an array of bytes into an array of double * * @param data * The input array of bytes * @return an array of double */ public synchronized static native double[] byteToDouble(byte[] data); /** * Convert a range from an array of bytes into an array of int * * @param start * The position in the input array of bytes to start * @param len * The number of 'int' to convert * @param data * The input array of bytes * @return an array of 'len' int */ public synchronized static native int[] byteToInt(int start, int len, byte[] data); /** * Convert 4 bytes from an array of bytes into a single int * * @param start * The position in the input array of bytes to start * @param data * The input array of bytes * @return The integer value of the bytes. */ public synchronized static int byteToInt(byte[] data, int start) { int[] ival = new int[1]; ival = byteToInt(start, 1, data); return (ival[0]); } /** * Convert a range from an array of bytes into an array of short * * @param start * The position in the input array of bytes to start * @param len * The number of 'short' to convert * @param data * The input array of bytes * @return an array of 'len' short */ public synchronized static native short[] byteToShort(int start, int len, byte[] data); /** * Convert 2 bytes from an array of bytes into a single short * * @param start * The position in the input array of bytes to start * @param data * The input array of bytes * @return The short value of the bytes. */ public synchronized static short byteToShort(byte[] data, int start) { short[] sval = new short[1]; sval = byteToShort(start, 1, data); return (sval[0]); } /** * Convert a range from an array of bytes into an array of float * * @param start * The position in the input array of bytes to start * @param len * The number of 'float' to convert * @param data * The input array of bytes * @return an array of 'len' float */ public synchronized static native float[] byteToFloat(int start, int len, byte[] data); /** * Convert 4 bytes from an array of bytes into a single float * * @param start * The position in the input array of bytes to start * @param data * The input array of bytes * @return The float value of the bytes. */ public synchronized static float byteToFloat(byte[] data, int start) { float[] fval = new float[1]; fval = byteToFloat(start, 1, data); return (fval[0]); } /** * Convert a range from an array of bytes into an array of long * * @param start * The position in the input array of bytes to start * @param len * The number of 'long' to convert * @param data * The input array of bytes * @return an array of 'len' long */ public synchronized static native long[] byteToLong(int start, int len, byte[] data); /** * Convert 8 bytes from an array of bytes into a single long * * @param start * The position in the input array of bytes to start * @param data * The input array of bytes * @return The long value of the bytes. */ public synchronized static long byteToLong(byte[] data, int start) { long[] lval = new long[1]; lval = byteToLong(start, 1, data); return (lval[0]); } /** * Convert a range from an array of bytes into an array of double * * @param start * The position in the input array of bytes to start * @param len * The number of 'double' to convert * @param data * The input array of bytes * @return an array of 'len' double */ public synchronized static native double[] byteToDouble(int start, int len, byte[] data); /** * Convert 8 bytes from an array of bytes into a single double * * @param start * The position in the input array of bytes to start * @param data * The input array of bytes * @return The double value of the bytes. */ public synchronized static double byteToDouble(byte[] data, int start) { double[] dval = new double[1]; dval = byteToDouble(start, 1, data); return (dval[0]); } /** * Convert a range from an array of int into an array of bytes. * * @param start * The position in the input array of int to start * @param len * The number of 'int' to convert * @param data * The input array of int * @return an array of bytes */ public synchronized static native byte[] intToByte(int start, int len, int[] data); /** * Convert a range from an array of short into an array of bytes. * * @param start * The position in the input array of int to start * @param len * The number of 'short' to convert * @param data * The input array of short * @return an array of bytes */ public synchronized static native byte[] shortToByte(int start, int len, short[] data); /** * Convert a range from an array of float into an array of bytes. * * @param start * The position in the input array of int to start * @param len * The number of 'float' to convert * @param data * The input array of float * @return an array of bytes */ public synchronized static native byte[] floatToByte(int start, int len, float[] data); /** * Convert a range from an array of long into an array of bytes. * * @param start * The position in the input array of int to start * @param len * The number of 'long' to convert * @param data * The input array of long * @return an array of bytes */ public synchronized static native byte[] longToByte(int start, int len, long[] data); /** * Convert a range from an array of double into an array of bytes. * * @param start * The position in the input array of double to start * @param len * The number of 'double' to convert * @param data * The input array of double * @return an array of bytes */ public synchronized static native byte[] doubleToByte(int start, int len, double[] data); /** * Convert a single byte into an array of one byte. *

* (This is a trivial method.) * * @param data * The input byte * @return an array of bytes */ public synchronized static native byte[] byteToByte(byte data); /** * Convert a single Byte object into an array of one byte. *

* (This is an almost trivial method.) * * @param data * The input Byte * @return an array of bytes */ public synchronized static byte[] byteToByte(Byte data) { return byteToByte(data.byteValue()); } /** * Convert a single int into an array of 4 bytes. * * @param data * The input int * @return an array of bytes */ public synchronized static native byte[] intToByte(int data); /** * Convert a single Integer object into an array of 4 bytes. * * @param data * The input Integer * @return an array of bytes */ public synchronized static byte[] intToByte(Integer data) { return intToByte(data.intValue()); } /** * Convert a single short into an array of 2 bytes. * * @param data * The input short * @return an array of bytes */ public synchronized static native byte[] shortToByte(short data); /** * Convert a single Short object into an array of 2 bytes. * * @param data * The input Short * @return an array of bytes */ public synchronized static byte[] shortToByte(Short data) { return shortToByte(data.shortValue()); } /** * Convert a single float into an array of 4 bytes. * * @param data * The input float * @return an array of bytes */ public synchronized static native byte[] floatToByte(float data); /** * Convert a single Float object into an array of 4 bytes. * * @param data * The input Float * @return an array of bytes */ public synchronized static byte[] floatToByte(Float data) { return floatToByte(data.floatValue()); }; /** * Convert a single long into an array of 8 bytes. * * @param data * The input long * @return an array of bytes */ public synchronized static native byte[] longToByte(long data); /** * Convert a single Long object into an array of 8 bytes. * * @param data * The input Long * @return an array of bytes */ public synchronized static byte[] longToByte(Long data) { return longToByte(data.longValue()); } /** * Convert a single double into an array of 8 bytes. * * @param data * The input double * @return an array of bytes */ public synchronized static native byte[] doubleToByte(double data); /** * Convert a single Double object into an array of 8 bytes. * * @param data * The input Double * @return an array of bytes */ public synchronized static byte[] doubleToByte(Double data) { return doubleToByte(data.doubleValue()); } /** * Create a Number object from an array of bytes. * * @param barray * The bytes to be converted * @param obj * Input object of the desired output class. Must be a sub-class * of Number. * @return A Object of the type of obj. * * @exception HDF5Exception * - Error unsupported type. */ public synchronized static Object byteToNumber(byte[] barray, Object obj) throws HDF5Exception { Class theClass = obj.getClass(); String type = theClass.getName(); Object retobj = null; if (type.equals("java.lang.Integer")) { int[] i = hdf.hdf5lib.HDFNativeData.byteToInt(0, 1, barray); retobj = new Integer(i[0]); } else if (type.equals("java.lang.Byte")) { retobj = new Byte(barray[0]); } else if (type.equals("java.lang.Short")) { short[] f = hdf.hdf5lib.HDFNativeData .byteToShort(0, 1, barray); retobj = new Short(f[0]); } else if (type.equals("java.lang.Float")) { float[] f = hdf.hdf5lib.HDFNativeData .byteToFloat(0, 1, barray); retobj = new Float(f[0]); } else if (type.equals("java.lang.Long")) { long[] f = hdf.hdf5lib.HDFNativeData.byteToLong(0, 1, barray); retobj = new Long(f[0]); } else if (type.equals("java.lang.Double")) { double[] f = hdf.hdf5lib.HDFNativeData.byteToDouble(0, 1, barray); retobj = new Double(f[0]); } else { /* exception: unsupported type */ HDF5Exception ex = new HDF5JavaException( "byteToNumber: setfield bad type: " + obj + " " + type); throw (ex); } return (retobj); } }