这篇文章将为大家详细讲解有关利用Java在将整型数与byte[]数组进行转换,文章内容质量较高,因此小编分享给大家做个参考,希望大家阅读完这篇文章后对相关知识有一定的了解。
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工作项目需要在java和c/c++之间进行socket通信,socket通信是以字节流或者字节包进行的,socket发送方须将数据转换为字节流或者字节包,而接收方则将字节流和字节包再转换回相应的数据类型。如果发送方和接收方都是同种语言,则一般只涉及到字节序的调整。而对于java和c/c++的通信,则情况就要复杂一些,主要是因为java中没有unsigned类型,并且java和c在某些数据类型上的长度不一致。
针对这种情况,本文整理了java数据类型和网络字节流或字节包(相当于java的byte数组)之间转换方法。实际上网上这方面的资料不少,但往往不全,甚至有些有错误,于是就花了点时间对java整型数和网络字节序的byte[]之间转换的各种情况做了一些验证和整理。整理出来的函数如下:
public class ByteConvert { // 以下 是整型数 和 网络字节序的 byte[] 数组之间的转换 public static byte[] longToBytes(long n) { byte[] b = new byte[8]; b[7] = (byte) (n & 0xff); b[6] = (byte) (n >> 8 & 0xff); b[5] = (byte) (n >> 16 & 0xff); b[4] = (byte) (n >> 24 & 0xff); b[3] = (byte) (n >> 32 & 0xff); b[2] = (byte) (n >> 40 & 0xff); b[1] = (byte) (n >> 48 & 0xff); b[0] = (byte) (n >> 56 & 0xff); return b; } public static void longToBytes( long n, byte[] array, int offset ){ array[7+offset] = (byte) (n & 0xff); array[6+offset] = (byte) (n >> 8 & 0xff); array[5+offset] = (byte) (n >> 16 & 0xff); array[4+offset] = (byte) (n >> 24 & 0xff); array[3+offset] = (byte) (n >> 32 & 0xff); array[2+offset] = (byte) (n >> 40 & 0xff); array[1+offset] = (byte) (n >> 48 & 0xff); array[0+offset] = (byte) (n >> 56 & 0xff); } public static long bytesToLong( byte[] array ) { return ((((long) array[ 0] & 0xff) << 56) | (((long) array[ 1] & 0xff) << 48) | (((long) array[ 2] & 0xff) << 40) | (((long) array[ 3] & 0xff) << 32) | (((long) array[ 4] & 0xff) << 24) | (((long) array[ 5] & 0xff) << 16) | (((long) array[ 6] & 0xff) << 8) | (((long) array[ 7] & 0xff) << 0)); } public static long bytesToLong( byte[] array, int offset ) { return ((((long) array[offset + 0] & 0xff) << 56) | (((long) array[offset + 1] & 0xff) << 48) | (((long) array[offset + 2] & 0xff) << 40) | (((long) array[offset + 3] & 0xff) << 32) | (((long) array[offset + 4] & 0xff) << 24) | (((long) array[offset + 5] & 0xff) << 16) | (((long) array[offset + 6] & 0xff) << 8) | (((long) array[offset + 7] & 0xff) << 0)); } public static byte[] intToBytes(int n) { byte[] b = new byte[4]; b[3] = (byte) (n & 0xff); b[2] = (byte) (n >> 8 & 0xff); b[1] = (byte) (n >> 16 & 0xff); b[0] = (byte) (n >> 24 & 0xff); return b; } public static void intToBytes( int n, byte[] array, int offset ){ array[3+offset] = (byte) (n & 0xff); array[2+offset] = (byte) (n >> 8 & 0xff); array[1+offset] = (byte) (n >> 16 & 0xff); array[offset] = (byte) (n >> 24 & 0xff); } public static int bytesToInt(byte b[]) { return b[3] & 0xff | (b[2] & 0xff) << 8 | (b[1] & 0xff) << 16 | (b[0] & 0xff) << 24; } public static int bytesToInt(byte b[], int offset) { return b[offset+3] & 0xff | (b[offset+2] & 0xff) << 8 | (b[offset+1] & 0xff) << 16 | (b[offset] & 0xff) << 24; } public static byte[] uintToBytes( long n ) { byte[] b = new byte[4]; b[3] = (byte) (n & 0xff); b[2] = (byte) (n >> 8 & 0xff); b[1] = (byte) (n >> 16 & 0xff); b[0] = (byte) (n >> 24 & 0xff); return b; } public static void uintToBytes( long n, byte[] array, int offset ){ array[3+offset] = (byte) (n ); array[2+offset] = (byte) (n >> 8 & 0xff); array[1+offset] = (byte) (n >> 16 & 0xff); array[offset] = (byte) (n >> 24 & 0xff); } public static long bytesToUint(byte[] array) { return ((long) (array[3] & 0xff)) | ((long) (array[2] & 0xff)) << 8 | ((long) (array[1] & 0xff)) << 16 | ((long) (array[0] & 0xff)) << 24; } public static long bytesToUint(byte[] array, int offset) { return ((long) (array[offset+3] & 0xff)) | ((long) (array[offset+2] & 0xff)) << 8 | ((long) (array[offset+1] & 0xff)) << 16 | ((long) (array[offset] & 0xff)) << 24; } public static byte[] shortToBytes(short n) { byte[] b = new byte[2]; b[1] = (byte) ( n & 0xff); b[0] = (byte) ((n >> 8) & 0xff); return b; } public static void shortToBytes(short n, byte[] array, int offset ) { array[offset+1] = (byte) ( n & 0xff); array[offset] = (byte) ((n >> 8) & 0xff); } public static short bytesToShort(byte[] b){ return (short)( b[1] & 0xff |(b[0] & 0xff) << 8 ); } public static short bytesToShort(byte[] b, int offset){ return (short)( b[offset+1] & 0xff |(b[offset] & 0xff) << 8 ); } public static byte[] ushortToBytes(int n) { byte[] b = new byte[2]; b[1] = (byte) ( n & 0xff); b[0] = (byte) ((n >> 8) & 0xff); return b; } public static void ushortToBytes(int n, byte[] array, int offset ) { array[offset+1] = (byte) ( n & 0xff); array[offset] = (byte) ((n >> 8) & 0xff); } public static int bytesToUshort(byte b[]) { return b[1] & 0xff | (b[0] & 0xff) << 8; } public static int bytesToUshort(byte b[], int offset) { return b[offset+1] & 0xff | (b[offset] & 0xff) << 8; } public static byte[] ubyteToBytes( int n ){ byte[] b = new byte[1]; b[0] = (byte) (n & 0xff); return b; } public static void ubyteToBytes( int n, byte[] array, int offset ){ array[0] = (byte) (n & 0xff); } public static int bytesToUbyte( byte[] array ){ return array[0] & 0xff; } public static int bytesToUbyte( byte[] array, int offset ){ return array[offset] & 0xff; } // char 类型、 float、double 类型和 byte[] 数组之间的转换关系还需继续研究实现。 }