Java字节序,java整型数与网络字节序 byte[] 数组转换关系(ByteArrayOutputStream用法)
Java字节序
http://origin100.iteye.com/blog/267165
/**
* 通信格式转换
*
* Java和一些windows编程语言如c、c++、delphi所写的网络程序进行通讯时,需要进行相应的转换
* 高、低字节之间的转换
* windows的字节序为低字节开头
* linux,unix的字节序为高字节开头
* java则无论平台变化,都是高字节开头
*/
public class FormatTransfer {
/**
* 将int转为低字节在前,高字节在后的byte数组
* @param n int
* @return byte[]
*/
public static byte[] toLH(int n) {
byte[] b = new byte[4];
b[0] = (byte) (n & 0xff);
b[1] = (byte) (n >> 8 & 0xff);
b[2] = (byte) (n >> 16 & 0xff);
b[3] = (byte) (n >> 24 & 0xff);
return b;
}
/**
* 将int转为高字节在前,低字节在后的byte数组
* @param n int
* @return byte[]
*/
public static byte[] toHH(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;
}
/**
* 将short转为低字节在前,高字节在后的byte数组
* @param n short
* @return byte[]
*/
public static byte[] toLH(short n) {
byte[] b = new byte[2];
b[0] = (byte) (n & 0xff);
b[1] = (byte) (n >> 8 & 0xff);
return b;
}
/**
* 将short转为高字节在前,低字节在后的byte数组
* @param n short
* @return byte[]
*/
public static byte[] toHH(short n) {
byte[] b = new byte[2];
b[1] = (byte) (n & 0xff);
b[0] = (byte) (n >> 8 & 0xff);
return b;
}
/**
* 将将int转为高字节在前,低字节在后的byte数组
public static byte[] toHH(int number) {
int temp = number;
byte[] b = new byte[4];
for (int i = b.length - 1; i > -1; i--) {
b = new Integer(temp & 0xff).byteValue();
temp = temp >> 8;
}
return b;
}
public static byte[] IntToByteArray(int i) {
byte[] abyte0 = new byte[4];
abyte0[3] = (byte) (0xff & i);
abyte0[2] = (byte) ((0xff00 & i) >> 8);
abyte0[1] = (byte) ((0xff0000 & i) >> 16);
abyte0[0] = (byte) ((0xff000000 & i) >> 24);
return abyte0;
}
*/
/**
* 将float转为低字节在前,高字节在后的byte数组
*/
public static byte[] toLH(float f) {
return toLH(Float.floatToRawIntBits(f));
}
/**
* 将float转为高字节在前,低字节在后的byte数组
*/
public static byte[] toHH(float f) {
return toHH(Float.floatToRawIntBits(f));
}
/**
* 将String转为byte数组
*/
public static byte[] stringToBytes(String s, int length) {
while (s.getBytes().length < length) {
s += " ";
}
return s.getBytes();
}
/**
* 将字节数组转换为String
* @param b byte[]
* @return String
*/
public static String bytesToString(byte[] b) {
StringBuffer result = new StringBuffer("");
int length = b.length;
for (int i=0; i<length; i++) {
result.append((char)(b & 0xff));
}
return result.toString();
}
/**
* 将字符串转换为byte数组
* @param s String
* @return byte[]
*/
public static byte[] stringToBytes(String s) {
return s.getBytes();
}
/**
* 将高字节数组转换为int
* @param b byte[]
* @return int
*/
public static int hBytesToInt(byte[] b) {
int s = 0;
for (int i = 0; i < 3; i++) {
if (b >= 0) {
s = s + b;
} else {
s = s + 256 + b;
}
s = s * 256;
}
if (b[3] >= 0) {
s = s + b[3];
} else {
s = s + 256 + b[3];
}
return s;
}
/**
* 将低字节数组转换为int
* @param b byte[]
* @return int
*/
public static int lBytesToInt(byte[] b) {
int s = 0;
for (int i = 0; i < 3; i++) {
if (b[3-i] >= 0) {
s = s + b[3-i];
} else {
s = s + 256 + b[3-i];
}
s = s * 256;
}
if (b[0] >= 0) {
s = s + b[0];
} else {
s = s + 256 + b[0];
}
return s;
}
/**
* 高字节数组到short的转换
* @param b byte[]
* @return short
*/
public static short hBytesToShort(byte[] b) {
int s = 0;
if (b[0] >= 0) {
s = s + b[0];
} else {
s = s + 256 + b[0];
}
s = s * 256;
if (b[1] >= 0) {
s = s + b[1];
} else {
s = s + 256 + b[1];
}
short result = (short)s;
return result;
}
/**
* 低字节数组到short的转换
* @param b byte[]
* @return short
*/
public static short lBytesToShort(byte[] b) {
int s = 0;
if (b[1] >= 0) {
s = s + b[1];
} else {
s = s + 256 + b[1];
}
s = s * 256;
if (b[0] >= 0) {
s = s + b[0];
} else {
s = s + 256 + b[0];
}
short result = (short)s;
return result;
}
/**
* 高字节数组转换为float
* @param b byte[]
* @return float
*/
public static float hBytesToFloat(byte[] b) {
int i = 0;
Float F = new Float(0.0);
i = ((((b[0]&0xff)<<8 | (b[1]&0xff))<<8) | (b[2]&0xff))<<8 | (b[3]&0xff);
return F.intBitsToFloat(i);
}
/**
* 低字节数组转换为float
* @param b byte[]
* @return float
*/
public static float lBytesToFloat(byte[] b) {
int i = 0;
Float F = new Float(0.0);
i = ((((b[3]&0xff)<<8 | (b[2]&0xff))<<8) | (b[1]&0xff))<<8 | (b[0]&0xff);
return F.intBitsToFloat(i);
}
/**
* 将byte数组中的元素倒序排列
*/
public static byte[] bytesReverseOrder(byte[] b) {
int length = b.length;
byte[] result = new byte[length];
for(int i=0; i<length; i++) {
result[length-i-1] = b;
}
return result;
}
/**
* 打印byte数组
*/
public static void printBytes(byte[] bb) {
int length = bb.length;
for (int i=0; i<length; i++) {
System.out.print(bb + " ");
}
System.out.println("");
}
public static void logBytes(byte[] bb) {
int length = bb.length;
String out = "";
for (int i=0; i<length; i++) {
out = out + bb + " ";
}
}
/**
* 将int类型的值转换为字节序颠倒过来对应的int值
* @param i int
* @return int
*/
public static int reverseInt(int i) {
int result = FormatTransfer.hBytesToInt(FormatTransfer.toLH(i));
return result;
}
/**
* 将short类型的值转换为字节序颠倒过来对应的short值
* @param s short
* @return short
*/
public static short reverseShort(short s) {
short result = FormatTransfer.hBytesToShort(FormatTransfer.toLH(s));
return result;
}
/**
* 将float类型的值转换为字节序颠倒过来对应的float值
* @param f float
* @return float
*/
public static float reverseFloat(float f) {
float result = FormatTransfer.hBytesToFloat(FormatTransfer.toLH(f));
return result;
}
}java整型数与网络字节序的 byte[] 数组转换关系
http://www.cnblogs.com/devinzhang/archive/2012/09/28/2707605.html
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。
本文就是针对这种情况,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。
}
测试程序如下:
public class ByteConvertTest {
public static String byte2Hex(byte[] buf)
{
StringBuffer strbuf = new StringBuffer();
strbuf.append("{");
for (byte b : buf)
{
if (b == 0)
{
strbuf.append("00");
}
else if (b == -1)
{
strbuf.append("FF");
}
else
{
String str = Integer.toHexString(b).toUpperCase();
// sb.append(a);
if (str.length() == 8)
{
str = str.substring(6, 8);
}
else if (str.length() < 2)
{
str = "0" + str;
}
strbuf.append(str);
}
strbuf.append(" ");
}
strbuf.append("}");
return strbuf.toString();
}
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 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) ));
}
public static int bytesToInt(byte b[]) {
return b[3] & 0xff
| (b[2] & 0xff) << 8
| (b[1] & 0xff) << 16
| (b[0] & 0xff) << 24;
}
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 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 byte[] shortToBytes(short n) {
byte[] b = new byte[2];
b[1] = (byte) ( n & 0xff);
b[0] = (byte) ((n >> 8) & 0xff);
return b;
}
public static short bytesToShort(byte[] b){
return (short)( b[1] & 0xff
|(b[0] & 0xff) << 8 );
}
static void testShortConvert(){
System.out.println("=================== short convert =============");
System.out.println("byte2Hex(shortToBytes((short)0x11f2))"+byte2Hex(shortToBytes((short)0x11f2)));
System.out.print("println 0x11f2:");
System.out.println((short)0x11f2);
System.out.println("byte2Hex(shortToBytes((short)0xf1f2))"+byte2Hex(shortToBytes((short)0xf1f2)));
System.out.print("println 0xf1f2:");
System.out.println((short)0xf1f2);
System.out.print("println bytesToShort(shortToBytes((short)0x11f2)):");
System.out.println((short)bytesToShort(shortToBytes((short)0x11f2)));
System.out.print("println bytesToShort(shortToBytes((short)0xf1f2)):");
System.out.println((short)bytesToShort(shortToBytes((short)0xf1f2)));
}
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 int bytesToUshort(byte b[]) {
return b[1] & 0xff
| (b[0] & 0xff) << 8;
}
static void testUshortConvert(){
System.out.println("=================== Ushort convert =============");
System.out.println("byte2Hex(ushortToBytes(0x11f2))"+byte2Hex(ushortToBytes(0x11f2)));
System.out.print("println 0x11f2:");
System.out.println(0x11f2);
System.out.println("byte2Hex(ushortToBytes(0xf1f2))"+byte2Hex(ushortToBytes(0xf1f2)));
System.out.print("println 0xf1f2:");
System.out.println(0xf1f2);
System.out.print("println bytesToUshort(ushortToBytes(0x11f2)):");
System.out.println(bytesToUshort(ushortToBytes(0x11f2)));
System.out.print("println bytesToUshort(ushortToBytes(0xf1f2)):");
System.out.println(bytesToUshort(ushortToBytes(0xf1f2)));
}
public static byte[] ubyteToBytes( int n ){
byte[] b = new byte[1];
b[0] = (byte) (n & 0xff);
return b;
}
public static int bytesToUbyte( byte[] array ){
return array[0] & 0xff;
}
static void testUbyteConvert(){
System.out.println("=================== Ubyte convert =============");
System.out.println("byte2Hex(ubyteToBytes(0x1112))"+byte2Hex(ubyteToBytes(0x1112)));
System.out.print("println 0x1112:");
System.out.println(0x1112);
System.out.println("byte2Hex(ubyteToBytes(0xf2))"+byte2Hex(ubyteToBytes(0xf2)));
System.out.print("println 0xf2:");
System.out.println(0xf2);
System.out.print("println bytesToUbyte(ubyteToBytes(0x1112)):");
System.out.println(bytesToUbyte(ubyteToBytes(0x1112)));
System.out.print("println bytesToUbyte(ubyteToBytes(0xf1f2)):");
System.out.println(bytesToUbyte(ubyteToBytes(0xf1f2)));
}
/**
* @param args
*/
public static void main(String[] args) {
// TODO Auto-generated method stub
byte[] array = new byte[4];
array[3] = (byte) 0xF4;
array[2] = 0x13;
array[1] = 0x12;
array[0] = 0x11;
System.out.println("=================== Integer bytes =============");
System.out.println("the bytes is:"+byte2Hex(array) );
System.out.print("println bytesToInt :");
System.out.println( bytesToInt(array));
System.out.printf("printf bytesToInt :%X\n", bytesToInt(array));
System.out.println("=================== long bytes =============");
byte[] longBytes = new byte[8];
longBytes[7] = (byte) 0xf7;
longBytes[6] = (byte) 0x16;
longBytes[5] = (byte) 0xf5;
longBytes[4] = (byte) 0x14;
longBytes[3] = (byte) 0xf3;
longBytes[2] = (byte) 0x12;
longBytes[1] = (byte) 0xf1;
longBytes[0] = (byte) 0x10;
System.out.println( "the bytes is:"+byte2Hex(longBytes) );
System.out.printf("printf bytesToLong:%X\n",bytesToLong(longBytes));
System.out.println("=================byte to long ================");
byte b = (byte)0xf1;
System.out.print("Println the byte:");
System.out.println(b);
System.out.printf("Printf the byte:%X\n",b);
long l = b;
System.out.print("Println byte to long:");
System.out.println(l);
System.out.printf("printf byte to long:%X\n",l);
System.out.println("================= uint Bytes ================");
byte[] uint = new byte[4];
uint[3] = (byte) 0xf3;
uint[2] = (byte) 0x12;
uint[1] = (byte) 0xf1;
uint[0] = (byte) 0xFF;
System.out.println( "the bytes is:"+byte2Hex(uint) );
System.out.printf("printf bytesToUint:%X\n",bytesToUint(uint));
System.out.print("Println bytesToUint:");
System.out.println(bytesToUint(uint));
System.out.println("byte2Hex(uintToBytes(0x11f2f3f4f5f6f7f8l)):"+byte2Hex(uintToBytes(0x11f2f3f4f5f6f7f8l)));
System.out.println("===============Long Integer==============");
System.out.print("println 0x11f2f3f4f5f6f7f8l:");
System.out.println(0x11f2f3f4f5f6f7f8l);
System.out.printf("Printf 0x11f2f3f4f5f6f7f8l:%X\n",0x11f2f3f4f5f6f7f8l);
System.out.println("println byte2Hex(longToBytes(0x11f2f3f4f5f6f7f8l))"+byte2Hex(longToBytes(0x11f2f3f4f5f6f7f8l)));
// 注意,下面的这行,并不能获得正确的uint。
System.out.printf("printf bytesToUint(longToBytes(0x11f2f3f4f5f6f7f8l):%X\n",bytesToUint(longToBytes(0x11f2f3f4f5f6f7f8l)));
System.out.println("===============bytesToLong(longToBytes())==============");
System.out.println(bytesToLong(longToBytes(0x11f2f3f4f5f6f7f8l)));
System.out.printf("%X\n",bytesToLong(longToBytes(0x11f2f3f4f5f6f7f8l)));
testShortConvert();
testUshortConvert();
testUbyteConvert();
}
}java中int与byte〔4〕的相互转换
http://www.cnblogs.com/mayola/archive/2011/11/17/2253101.html
我们都知道,JAVA中的基本数据类型有int,byte,char,long,float,double...,它们与引用数据类型很不一样,之所有在如此面向对象的JAVA语言中依然支持这些值类型,就是考虑到性能的原因。现在,同样是因为考虑到性能,我们需要一种高效的方法使int与byte[]能够自由的相互转换,理由就是,我们需要在网络上传送数据,而网络上的数据都是byte数据流,这就需要一个int-> byte[]与byte[] -> int的方法。
简单的方法,我们可以用DataOutputStream与ByteArrayOutputStream来将int转换成byte[],方法就是:
int i = 0;
ByteArrayOutputStream boutput = newByteArrayOutputStream();
DataOutputStream doutput = newDataOutputStream(boutput);
doutput.writeInt(i);
byte[] buf = boutput.toByteArray();
执行相反的过程我们就可以将byte[]->int,我们要用到DataInputStream与ByteArrayInputStream。
byte[] buf = new byte[4];
ByteArrayInputStream bintput = newByteArrayInputStream(buf);
DataInputStream dintput = new DataInputStream();
int i = dintput.readInt();
上面的方法可以达到int<->byte[]的转化,下面还有更加高效的方法,虽然看起来会比较费劲一些,但是性能的提升是显而易见的。
int -> byte[]
privatebyte[] intToByteArray(final int integer) {
int byteNum = (40 -Integer.numberOfLeadingZeros (integer < 0 ? ~integer : integer))/ 8;
byte[] byteArray = new byte[4];
for (int n = 0; n < byteNum; n++)
byteArray[3 - n] = (byte) (integer>>> (n * 8));
return (byteArray);
}
byte[] -> int
public static int byteArrayToInt(byte[] b, int offset) {
int value= 0;
for (int i = 0; i < 4; i++) {
int shift= (4 - 1 - i) * 8;
value +=(b[i + offset] & 0x000000FF) << shift;
}
return value;
}
========================================
import java.io.*;
public class IOTest {
public static void main(String[] args) throws Exception {
int i = 65535;
byte[] b = intToByteArray1(i);
for(byte bb : b) {
System.out.print(bb + " ");
}
}
public static byte[] intToByteArray1(int i) {
byte[] result = new byte[4];
result[0] = (byte)((i >> 24) & 0xFF);
result[1] = (byte)((i >> 16) & 0xFF);
result[2] = (byte)((i >> 8) & 0xFF);
result[3] = (byte)(i & 0xFF);
return result;
}
public static byte[] intToByteArray2(int i) throws Exception {
ByteArrayOutputStream buf = new ByteArrayOutputStream();
DataOutputStream out = new DataOutputStream(buf);
out.writeInt(i);
byte[] b = buf.toByteArray();
out.close();
buf.close();
return b;
}ByteArrayOutputStream用法
字节数组流:
ByteArrayOutputStream: 可以捕获内存缓冲区的数据,转换成字节数组。
ByteArrayoutputStream bout=new ByteArrayOutputStream();
bout.write(int a); bout.write(int b); bout.write(int c);
byte[] buf=bout.toByteArray();//获取内存缓冲中的数据
for(int i=0;i<=buf.length;i++)
{
System.out.println(buf);
}
bout.close();
注:通过调用reset()方法可以重新定位。
ByteArrayInputStream: 可以将字节数组转化为输入流
ByteArrayInputStream bin=new ByteArrayInputStream(byte[] buf);
int data=0;
while( (b=bin.read())!=-1)
{
System.out.println(b);
}
bin.close();
与DataOutputStream&DataInputStream联合使用:
ByteArrayOutputStream bout=new ByteArrayOutputStream();
DataOutputStream dos=new DataOutputStream(bout);
String name="suntao";
int age=19;
dos.writeUTF(name);
dos.writeInt(age);
byte[] buf=bout.toByteArray();//获取内存缓冲区中的数据
dos.close();
bout.close();
ByteArrayInputStream bin=new ByteArrayInputStream(byte[] buf);
DataInputStream dis=new DataInputStream(bin);
String name=dis.readUTF();//从字节数组中读取
int age=dis.readInt();
dis.close();
bin.close();
注: DataInputStream&DataOutputStream还可以与FileInputStream&FileOutputStream
联合使用。
其中:
DataInputStream&DataOutputStream关心如何将数据从高层次的形式转化成低层次的形式.
FileInputStream&FileOutputStream关心如何操作存储单元以接受和产生数据。
JAVA里面关于byte数组和String之间的转换问题
JAVA里面关于byte数组和String之间的转换问题
引自:http://soniccyj.bokee.com/6175850.html
JAVA里面关于byte数组和String之间的转换问题
把byte转化成string,必须经过编码。
例如下面一个例子:
import java.io.UnsupportedEncodingException;
public class test{
public static void main(String g[]) {
String s = "12345abcd";
byte b[] = s.getBytes();
String t = b.toString();
System.out.println(t);
}
}
输出字符串的结果和字符串s不一样了.
经过以下方式转码就可以正确转换了:
public class test{
public static void main(String g[]) {
String s = "12345abcd";
byte b[] = s.getBytes();
try {
String t = new String(b);
System.out.print(t);
} catch (Exception e) {
e.printStackTrace();
}
}
}
引自:http://topic.csdn.net/t/20050404/10/3906398.html
String str = "String";
byte[] byte1 = str.getBytes();
String str1 = new String(byte1);
byte[] byte2 = str1.getBytes();
String str2 = new String(byte2);
System.out.println("str<<<" + str);
System.out.println("byte1<<<" + byte1);
System.out.println("str1<<<" + str1);
System.out.println("byte2<<<" + byte2);
System.out.println("str2<<<" + str2);
-------------------------------------
输出结果
str<<<String
byte1<<<[B@192d342
str1<<<String
byte2<<<[B@6b97fd
str2<<<String
想请教为什么两个byte输出的不一样呢?
String str = "String";
byte[] byte1 = str.getBytes();
String str1 = new String(byte1);
byte[] byte2 = str1.getBytes();
----------
注意byte1是str得到的byte数组,而byte2是另一个字符串str1得到的数组
他们本身也是两个对象
直接打印实际上调用的是toString()方法,而toString()的默认实现是打印对象类型+hashCode()
[B表示byte数组
@表示之后的是地址
后面跟着的是hashCode,其实就是其虚拟机地址
所以这个结果也就是顺理成章了.
最近的项目中要使用到把byte[]类型转换成String字符串然后通过网络发送,但发现发现出去的字符串和获取的字符串虽然是一样的,但当用String的getBytes()的方法得到的byte[]跟原来的byte[]是不一样的。
看如下代码:
bytebytes[] = new byte[] { 50, 0, -1, 28, -24 };
String string = new String(bytes);
byte[] ret = string.getBytes();
查看ret的数据发现是50, 0, -17, -65, -67, 28, -17, -65, -67,发现数据并不是原来的数据。
而使用如下代码就可以得到原来的数据:
bytebytes[] = new byte[] { 50, 0, -1, 28, -24 };
StringisoString = new String(bytes, "ISO-8859-1");
byte[] isoret = isoString.getBytes("ISO-8859-1");
这是为什么呢?原因是第一种方法默认是用UTF-8编码来生成String的,用System.getProperty("sun.jnu.encoding")可以得到Android默认编码是UTF-8。UTF-8是可变长度的编码,原来的字节数组就被改变了。而ISO8859-1通常叫做Latin-1,Latin-1包括了书写所有西方欧洲语言不可缺少的附加字符,其中 0~127的字符与ASCII码相同,它是单字节的编码方式,这样第二种方式生成的String里的字节数组就跟原来的字节数组一样。在new String使用其他编码如GBK,GB2312的话一样也会导致字节数组发生变化,因此要想获取String里单字节数组,就应该使用iso8859-1编码。
Java字节序,java整型数与网络字节序 byte[] 数组转换关系(ByteArrayOutputStream用法)相关推荐
- Java字节序,java整型数与网络字节序 byte[] 数组转换关系
Java字节序 http://origin100.iteye.com/blog/267165 /** * 通信格式转换 * * Java和一些windows编程语言如c.c++.delphi所写的网络 ...
- java byte(字节_Java字节序,java整型数与网络字节序 byte[] 数组转换关系(ByteArrayOutpu......
/** * 通信格式转换 * * Java和一些windows编程语言如c.c++.delphi所写的网络程序进行通讯时,需要进行相应的转换 * 高.低字节之间的转换 * windows的字节序为低字 ...
- java String、Json对象与byte数组转换
用途 测试String对象与byte数组转换方式 测试Json对象与byte数组转换方式 源代码 import java.io.UnsupportedEncodingException; import ...
- 【java json基础】字符串转json json转字符串 json数组转换 【java基础知识】【实用】【一看就会】
原文:[java json基础]字符串转json json转字符串 json数组转换 [java基础知识][实用][一看就会] 读书就是:从薄读厚,再从厚读薄的过程. 文比较长,各讲述如下: 若是新手 ...
- android 字节转wav,android开发:把一个byte数组转换成wav音频文件,并且播放
============问题描述============ 如题,byte数组转换成wav音频文件,并且播放,下面代码能生成data/data/com.example.playwav/cache/tem ...
- java转网络字节序_【转】网络字节序与主机字节序
最近在项目开发过程中,需要在采用JAVA作为语言的服务器与采用C++作为语言的服务器间进行通信,这就涉及到这两种语言间数据类型的转换以及网络字节序与主机字节序的区别.该文主要说说网络字节序和主机字节序 ...
- java int byte数组_Java 中int与byte数组转换详解
1.与运算符的理解(&): 参加运算的两个数据,按二进位进行"与"运算.如果两个相应的二进位都为1,则该位的结果值为1,否则为0.即 0&0=0:0&1=0 ...
- c语言中整型数组如何初始化,C语言数组空间的初始化详解
数组空间的初始化就是为每一个标签地址赋值.按照标签逐一处理.如果我们需要为每一个内存赋值,假如有一个int a[100];我们就需要用下标为100个int类型的空间赋值.这样的工作量是非常大的,我们就 ...
- java:RSA加解密字符串与byte[]数组转换 不用String方法的原因
RSA加密参考https://blog.csdn.net/qq_18870023/article/details/52596808 byte负数转换参考https://bbs.csdn.net/top ...
最新文章
- 合肥天鹅湖万达广场机器人_王健林再考察合肥!瞄准政务、高新,年末合肥楼市出现区域分化...
- 基于空间相关的图像模板匹配及MATLAB实现
- winform绑定多张图片
- Java 9中什么是私有的?
- 事故频发,自动驾驶技术该何去何从?
- 【译】ASP.NET MVC 5 教程 - 4:添加模型
- [Python]一步步安装numpy,matplotlib
- java aciss_C语言ACISS表.doc
- 算法笔记_面试题_10.所有可能的满二叉树
- 我们写APP和小程序或者H5用的前端UI--ColorUI
- 金蝶K3工业单据中间层插件开发教程
- 【Oracle 11g学习路线】
- vostro3470装win7_dell latitude3470怎么安装win7系统
- 零基础入门学习Python(21):魔法方法(1)构造和析构
- 在线服务器密码爆破,服务器3389被爆破,我想知道他用哪些密码尝试过 - winServer论坛 - 51CTO技术论坛_中国领先的IT技术社区...
- 系统分析师上午题-第 8 章 企业信息化战略与实施
- 十年阿里资深架构师教你如何做到年薪50万的程序员(文末附送学习资料)
- 利用pyqt5写个界面
- aggregate和aggregateBy的区别
- 怎么弄Windows 7 Aero特效主题真实含义