本文实例讲述了JAVA中IP和整数相互转化的方法。分享给大家供大家参考。具体分析如下:
一、基本知识点
IP ——> 整数:
把IP地址转化为字节数组
通过左移位(<<)、与(&)、或(|)这些操作转为int
整数 ——> IP:
将整数值进行右移位操作(>>>),右移24位,再进行与操作符(&)0xFF,得到的数字即为第一段IP。
将整数值进行右移位操作(>>>),右移16位,再进行与操作符(&)0xFF,得到的数字即为第二段IP。
将整数值进行右移位操作(>>>),右移8位,再进行与操作符(&)0xFF,得到的数字即为第三段IP。
将整数值进行与操作符(&)0xFF,得到的数字即为第四段IP。
二、java代码示例(IPv4Util.java)
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package michael.utils;
import java.net.InetAddress;
public class IPv4Util {
private final static int INADDRSZ = 4 ;
public static byte [] ipToBytesByInet(String ipAddr) {
try {
return InetAddress.getByName(ipAddr).getAddress();
} catch (Exception e) {
throw new IllegalArgumentException(ipAddr + " is invalid IP" );
}
}JTA实践:Spring+ATOMIKOS
public static byte [] ipToBytesByReg(String ipAddr) {
byte [] ret = new byte [ 4 ];
try {
String[] ipArr = ipAddr.split( "\\." );
ret[ 0 ] = ( byte ) (Integer.parseInt(ipArr[ 0 ]) & 0xFF );
ret[ 1 ] = ( byte ) (Integer.parseInt(ipArr[ 1 ]) & 0xFF );
ret[ 2 ] = ( byte ) (Integer.parseInt(ipArr[ 2 ]) & 0xFF );
ret[ 3 ] = ( byte ) (Integer.parseInt(ipArr[ 3 ]) & 0xFF );
return ret;
} catch (Exception e) {
throw new IllegalArgumentException(ipAddr + " is invalid IP" );
}
}
public static String bytesToIp( byte [] bytes) {
return new StringBuffer().append(bytes[ 0 ] & 0xFF ).append( '.' ).append(
bytes[ 1 ] & 0xFF ).append( '.' ).append(bytes[ 2 ] & 0xFF )
.append( '.' ).append(bytes[ 3 ] & 0xFF ).toString();
}
public static int bytesToInt( byte [] bytes) {
int addr = bytes[ 3 ] & 0xFF ;
addr |= ((bytes[ 2 ] << 8 ) & 0xFF00 );
addr |= ((bytes[ 1 ] << 16 ) & 0xFF0000 );
addr |= ((bytes[ 0 ] << 24 ) & 0xFF000000 );
return addr;
}
public static int ipToInt(String ipAddr) {
try {
return bytesToInt(ipToBytesByInet(ipAddr));
} catch (Exception e) {
throw new IllegalArgumentException(ipAddr + " is invalid IP" );
}
}
public static byte [] intToBytes( int ipInt) {
byte [] ipAddr = new byte [INADDRSZ];
ipAddr[ 0 ] = ( byte ) ((ipInt >>> 24 ) & 0xFF );
ipAddr[ 1 ] = ( byte ) ((ipInt >>> 16 ) & 0xFF );
ipAddr[ 2 ] = ( byte ) ((ipInt >>> 8 ) & 0xFF );
ipAddr[ 3 ] = ( byte ) (ipInt & 0xFF );
return ipAddr;
}
public static String intToIp( int ipInt) {
return new StringBuilder().append(((ipInt >> 24 ) & 0xff )).append( '.' )
.append((ipInt >> 16 ) & 0xff ).append( '.' ).append(
(ipInt >> 8 ) & 0xff ).append( '.' ).append((ipInt & 0xff ))
.toString();
}
public static int [] getIPIntScope(String ipAndMask) {
String[] ipArr = ipAndMask.split( "/" );
if (ipArr.length != 2 ) {
throw new IllegalArgumentException( "invalid ipAndMask with: "
+ ipAndMask);
}
int netMask = Integer.valueOf(ipArr[ 1 ].trim());
if (netMask < 0 || netMask > 31 ) {
throw new IllegalArgumentException( "invalid ipAndMask with: "
+ ipAndMask);
}
int ipInt = IPv4Util.ipToInt(ipArr[ 0 ]);
int netIP = ipInt & ( 0xFFFFFFFF << ( 32 - netMask));
int hostScope = ( 0xFFFFFFFF >>> netMask);
return new int [] { netIP, netIP + hostScope };
}
public static String[] getIPAddrScope(String ipAndMask) {
int [] ipIntArr = IPv4Util.getIPIntScope(ipAndMask);
return new String[] { IPv4Util.intToIp(ipIntArr[ 0 ]),
IPv4Util.intToIp(ipIntArr[ 0 ]) };
}
public static int [] getIPIntScope(String ipAddr, String mask) {
int ipInt;
int netMaskInt = 0 , ipcount = 0 ;
try {
ipInt = IPv4Util.ipToInt(ipAddr);
if ( null == mask || "" .equals(mask)) {
return new int [] { ipInt, ipInt };
}
netMaskInt = IPv4Util.ipToInt(mask);
ipcount = IPv4Util.ipToInt( "255.255.255.255" ) - netMaskInt;
int netIP = ipInt & netMaskInt;
int hostScope = netIP + ipcount;
return new int [] { netIP, hostScope };
} catch (Exception e) {
throw new IllegalArgumentException( "invalid ip scope express ip:"
+ ipAddr + " mask:" + mask);
}
}
public static String[] getIPStrScope(String ipAddr, String mask) {
int [] ipIntArr = IPv4Util.getIPIntScope(ipAddr, mask);
return new String[] { IPv4Util.intToIp(ipIntArr[ 0 ]),
IPv4Util.intToIp(ipIntArr[ 0 ]) };
}
public static void main(String[] args) throws Exception {
String ipAddr = "192.168.8.1" ;
byte [] bytearr = IPv4Util.ipToBytesByInet(ipAddr);
StringBuffer byteStr = new StringBuffer();
for ( byte b : bytearr) {
if (byteStr.length() == 0 ) {
byteStr.append(b);
} else {
byteStr.append( "," + b);
}
}
System.out.println( "IP: " + ipAddr + " ByInet --> byte[]: [ " + byteStr
+ " ]" );
bytearr = IPv4Util.ipToBytesByReg(ipAddr);
byteStr = new StringBuffer();
for ( byte b : bytearr) {
if (byteStr.length() == 0 ) {
byteStr.append(b);
} else {
byteStr.append( "," + b);
}
}
System.out.println( "IP: " + ipAddr + " ByReg --> byte[]: [ " + byteStr
+ " ]" );
System.out.println( "byte[]: " + byteStr + " --> IP: "
+ IPv4Util.bytesToIp(bytearr));
int ipInt = IPv4Util.ipToInt(ipAddr);
System.out.println( "IP: " + ipAddr + " --> int: " + ipInt);
System.out.println( "int: " + ipInt + " --> IP: "
+ IPv4Util.intToIp(ipInt));
String ipAndMask = "192.168.1.1/24" ;
int [] ipscope = IPv4Util.getIPIntScope(ipAndMask);
System.out.println(ipAndMask + " --> int地址段:[ " + ipscope[ 0 ] + ","
+ ipscope[ 1 ] + " ]" );
System.out.println(ipAndMask + " --> IP 地址段:[ "
+ IPv4Util.intToIp(ipscope[ 0 ]) + ","
+ IPv4Util.intToIp(ipscope[ 1 ]) + " ]" );
String ipAddr1 = "192.168.1.1" , ipMask1 = "255.255.255.0" ;
int [] ipscope1 = IPv4Util.getIPIntScope(ipAddr1, ipMask1);
System.out.println(ipAddr1 + " , " + ipMask1 + " --> int地址段 :[ "
+ ipscope1[ 0 ] + "," + ipscope1[ 1 ] + " ]" );
System.out.println(ipAddr1 + " , " + ipMask1 + " --> IP地址段 :[ "
+ IPv4Util.intToIp(ipscope1[ 0 ]) + ","
+ IPv4Util.intToIp(ipscope1[ 1 ]) + " ]" );
}
}
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希望本文所述对大家的java程序设计有所帮助。