本文实例讲述了Java实现的文本字符串操作工具类。分享给大家供大家参考,具体如下:
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package com.gcloud.common;
import org.apache.commons.lang.StringUtils;
import java.security.MessageDigest;
import java.security.NoSuchAlgorithmException;
import java.text.BreakIterator;
import java.util.ArrayList;
import java.util.Date;
import java.util.Random;
/**
* 文本字符串工具类
* Created by charlin on 2017/9/10.
*/
public class TextUtil {
private static final char [] QUOTE_ENCODE = """ .toCharArray();
private static final char [] AMP_ENCODE = "&" .toCharArray();
private static final char [] LT_ENCODE = "<" .toCharArray();
private static final char [] GT_ENCODE = ">" .toCharArray();
private final static String[] hex = { "00" , "01" , "02" , "03" , "04" , "05" ,
"06" , "07" , "08" , "09" , "0A" , "0B" , "0C" , "0D" , "0E" , "0F" , "10" ,
"11" , "12" , "13" , "14" , "15" , "16" , "17" , "18" , "19" , "1A" , "1B" ,
"1C" , "1D" , "1E" , "1F" , "20" , "21" , "22" , "23" , "24" , "25" , "26" ,
"27" , "28" , "29" , "2A" , "2B" , "2C" , "2D" , "2E" , "2F" , "30" , "31" ,
"32" , "33" , "34" , "35" , "36" , "37" , "38" , "39" , "3A" , "3B" , "3C" ,
"3D" , "3E" , "3F" , "40" , "41" , "42" , "43" , "44" , "45" , "46" , "47" ,
"48" , "49" , "4A" , "4B" , "4C" , "4D" , "4E" , "4F" , "50" , "51" , "52" ,
"53" , "54" , "55" , "56" , "57" , "58" , "59" , "5A" , "5B" , "5C" , "5D" ,
"5E" , "5F" , "60" , "61" , "62" , "63" , "64" , "65" , "66" , "67" , "68" ,
"69" , "6A" , "6B" , "6C" , "6D" , "6E" , "6F" , "70" , "71" , "72" , "73" ,
"74" , "75" , "76" , "77" , "78" , "79" , "7A" , "7B" , "7C" , "7D" , "7E" ,
"7F" , "80" , "81" , "82" , "83" , "84" , "85" , "86" , "87" , "88" , "89" ,
"8A" , "8B" , "8C" , "8D" , "8E" , "8F" , "90" , "91" , "92" , "93" , "94" ,
"95" , "96" , "97" , "98" , "99" , "9A" , "9B" , "9C" , "9D" , "9E" , "9F" ,
"A0" , "A1" , "A2" , "A3" , "A4" , "A5" , "A6" , "A7" , "A8" , "A9" , "AA" ,
"AB" , "AC" , "AD" , "AE" , "AF" , "B0" , "B1" , "B2" , "B3" , "B4" , "B5" ,
"B6" , "B7" , "B8" , "B9" , "BA" , "BB" , "BC" , "BD" , "BE" , "BF" , "C0" ,
"C1" , "C2" , "C3" , "C4" , "C5" , "C6" , "C7" , "C8" , "C9" , "CA" , "CB" ,
"CC" , "CD" , "CE" , "CF" , "D0" , "D1" , "D2" , "D3" , "D4" , "D5" , "D6" ,
"D7" , "D8" , "D9" , "DA" , "DB" , "DC" , "DD" , "DE" , "DF" , "E0" , "E1" ,
"E2" , "E3" , "E4" , "E5" , "E6" , "E7" , "E8" , "E9" , "EA" , "EB" , "EC" ,
"ED" , "EE" , "EF" , "F0" , "F1" , "F2" , "F3" , "F4" , "F5" , "F6" , "F7" ,
"F8" , "F9" , "FA" , "FB" , "FC" , "FD" , "FE" , "FF" };
private final static byte [] val = { 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x00 , 0x01 ,
0x02 , 0x03 , 0x04 , 0x05 , 0x06 , 0x07 , 0x08 , 0x09 , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x0A , 0x0B , 0x0C , 0x0D , 0x0E , 0x0F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x0A , 0x0B , 0x0C , 0x0D , 0x0E , 0x0F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F ,
0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F , 0x3F };
private static MessageDigest digest = null ;
/**
* 替换字符串
* @param line
* @param oldStr
* @param newStr
* @return
*/
public static String replace(String line , String oldStr, String newStr){
if (StringUtils.isEmpty(line)) return null ;
int index = 0 ;
if ((index = line.indexOf(oldStr, index)) >= 0 ){
char [] charArray = line.toCharArray();
char [] newStrArray = newStr.toCharArray();
int oldLen = oldStr.length();
StringBuffer buf = new StringBuffer(charArray.length);
buf.append(charArray, 0 , index).append(newStrArray);
index += oldLen;
int i = index;
while ((index = line.indexOf(oldStr, index)) > 0 ){
buf.append(charArray, i, index - i).append(newStrArray);
index += oldLen;
i = index;
}
buf.append(charArray, i, charArray.length - i);
return buf.toString();
}
return line;
}
/**
* 替换字符串,并存入替换次数
* @param line
* @param oldStr
* @param newStr
* @return
*/
public static String replace(String line , String oldStr, String newStr, int [] countArr){
if (StringUtils.isEmpty(line)) return null ;
int index = 0 ;
if ((index = line.indexOf(oldStr, index)) >= 0 ){
int count = 0 ;
count++;
char [] charArray = line.toCharArray();
char [] newStrArray = newStr.toCharArray();
int oldLen = oldStr.length();
StringBuffer buf = new StringBuffer(charArray.length);
buf.append(charArray, 0 , index).append(newStrArray);
index += oldLen;
int i = index;
while ((index = line.indexOf(oldStr, index)) > 0 ){
buf.append(charArray, i, index - i).append(newStrArray);
index += oldLen;
i = index;
count++;
}
buf.append(charArray, i, charArray.length - i);
countArr[ 0 ] = count;
return buf.toString();
}
return line;
}
/**
* 替换字符串,不区分大小写
* @param line
* @param oldStr
* @param newStr
* @return
*/
public static String replaceIgnoreCase(String line , String oldStr, String newStr){
if (StringUtils.isEmpty(line)) return null ;
int index = 0 ;
line = line.toLowerCase();
oldStr = oldStr.toLowerCase();
if ((index = line.indexOf(oldStr, index)) >= 0 ){
char [] charArray = line.toCharArray();
char [] newStrArray = newStr.toCharArray();
int oldLen = oldStr.length();
StringBuffer buf = new StringBuffer(charArray.length);
buf.append(charArray, 0 , index).append(newStrArray);
index += oldLen;
int i = index;
while ((index = line.indexOf(oldStr, index)) > 0 ){
buf.append(charArray, i, index - i).append(newStrArray);
index += oldLen;
i = index;
}
buf.append(charArray, i, charArray.length - i);
return buf.toString();
}
return line;
}
/**
* 替换字符串,不区分大小写, 并存入替换次数
* @param line
* @param oldStr
* @param newStr
* @return
*/
public static String replaceIgnoreCase(String line , String oldStr, String newStr, int [] countArr){
if (StringUtils.isEmpty(line)) return null ;
int index = 0 ;
line = line.toLowerCase();
oldStr = oldStr.toLowerCase();
if ((index = line.indexOf(oldStr, index)) >= 0 ){
char [] charArray = line.toCharArray();
char [] newStrArray = newStr.toCharArray();
int oldLen = oldStr.length();
StringBuffer buf = new StringBuffer(charArray.length);
buf.append(charArray, 0 , index).append(newStrArray);
index += oldLen;
int i = index;
int count = 0 ;
while ((index = line.indexOf(oldStr, index)) > 0 ){
count ++;
buf.append(charArray, i, index - i).append(newStrArray);
index += oldLen;
i = index;
}
buf.append(charArray, i, charArray.length - i);
countArr[ 0 ] = count;
return buf.toString();
}
return line;
}
/**
* 替换页面html标签
* @param htmlStr
* @return
*/
public static String escapeHTMLTags(String htmlStr) {
if (StringUtils.isEmpty(htmlStr)) return null ;
char ch;
int last = 0 ;
char [] htmlStrArr = htmlStr.toCharArray();
int len = htmlStrArr.length;
StringBuffer outBuf = new StringBuffer(( int ) (len * 1.3 ));
int i = 0 ;
for (; i < len; i++) {
ch = htmlStrArr[i];
if (ch > '>' ) {
continue ;
} else if (ch == '<' ) {
if (i > last) {
outBuf.append(htmlStrArr, last, i - last);
}
last = i + 1 ;
outBuf.append(LT_ENCODE);
} else if (ch == '>' ) {
if (i > last) {
outBuf.append(htmlStrArr, last, i - last);
}
last = i + 1 ;
outBuf.append(GT_ENCODE);
}
}
if (last == 0 ) {
return htmlStr;
}
if (i > last) {
outBuf.append(htmlStrArr, last, i - last);
}
return outBuf.toString();
}
/**
* Hashes a String using the Md5 algorithm and returns the result as a
* String of hexadecimal numbers. This method is synchronized to avoid
* excessive MessageDigest object creation. If calling this method becomes a
* bottleneck in your code, you may wish to maintain a pool of MessageDigest
* objects instead of using this method.
* @param data
* @return
*/
public synchronized static String hash(String data) {
if (digest == null ) {
try {
digest = MessageDigest.getInstance( "MD5" );
} catch (NoSuchAlgorithmException e) {
System.err.println( "Failed to load the MD5 MessageDigest.Jive will be unable to function normally." );
e.printStackTrace();
}
}
digest.update(data.getBytes());
return encodeHex(digest.digest());
}
/**
* Turns an array of bytes into a String representing each byte as an
* unsigned hex number.
* @param bytes
* @return
*/
public static final String encodeHex( byte [] bytes) {
StringBuffer buf = new StringBuffer(bytes.length * 2 );
int i;
for (i = 0 ; i < bytes.length; i++) {
if ((( int ) bytes[i] & 0xff ) < 0x10 ) {
buf.append( "0" );
}
buf.append(Long.toString(( int ) bytes[i] & 0xff , 16 ));
}
return buf.toString();
}
/**
* Turns a hex encoded string into a byte array. It is specifically meant to
* "reverse" the toHex(byte[]) method.
* @param hex
* @return
*/
public static byte [] decodeHex(String hex) {
char [] chars = hex.toCharArray();
byte [] bytes = new byte [chars.length / 2 ];
int byteCount = 0 ;
for ( int i = 0 ; i < chars.length; i += 2 ) {
byte newByte = 0x00 ;
newByte |= hexCharToByte(chars[i]);
newByte <<= 4 ;
newByte |= hexCharToByte(chars[i + 1 ]);
bytes[byteCount] = newByte;
byteCount++;
}
return bytes;
}
/**
* Returns the the byte value of a hexadecmical char (0-f). It's assumed
* that the hexidecimal chars are lower case as appropriate.
* @param ch a hexedicmal character (0-f)
* @return the byte value of the character (0x00-0x0F)
*/
private static final byte hexCharToByte( char ch) {
switch (ch) {
case '0' :
return 0x00 ;
case '1' :
return 0x01 ;
case '2' :
return 0x02 ;
case '3' :
return 0x03 ;
case '4' :
return 0x04 ;
case '5' :
return 0x05 ;
case '6' :
return 0x06 ;
case '7' :
return 0x07 ;
case '8' :
return 0x08 ;
case '9' :
return 0x09 ;
case 'a' :
return 0x0A ;
case 'b' :
return 0x0B ;
case 'c' :
return 0x0C ;
case 'd' :
return 0x0D ;
case 'e' :
return 0x0E ;
case 'f' :
return 0x0F ;
}
return 0x00 ;
}
// *********************************************************************
// * Base64 - a simple base64 encoder and decoder.
// *********************************************************************
/**
* Encodes a String as a base64 String.
* @param data a String to encode.
* @return a base64 encoded String.
*/
public static String encodeBase64(String data) {
return encodeBase64(data.getBytes());
}
/**
* Encodes a byte array into a base64 String.
* @param data a byte array to encode.
* @return a base64 encode String.
*/
public static String encodeBase64( byte [] data) {
int c;
int len = data.length;
StringBuffer ret = new StringBuffer(((len / 3 ) + 1 ) * 4 );
for ( int i = 0 ; i < len; ++i) {
c = (data[i] >> 2 ) & 0x3f ;
ret.append(cvt.charAt(c));
c = (data[i] << 4 ) & 0x3f ;
if (++i < len)
c |= (data[i] >> 4 ) & 0x0f ;
ret.append(cvt.charAt(c));
if (i < len) {
c = (data[i] << 2 ) & 0x3f ;
if (++i < len)
c |= (data[i] >> 6 ) & 0x03 ;
ret.append(cvt.charAt(c));
} else {
++i;
ret.append(( char ) fillchar);
}
if (i < len) {
c = data[i] & 0x3f ;
ret.append(cvt.charAt(c));
} else {
ret.append(( char ) fillchar);
}
}
return ret.toString();
}
/**
* Decodes a base64 String.
* @param data a base64 encoded String to decode.
* @return the decoded String.
*/
public static String decodeBase64(String data) {
return decodeBase64(data.getBytes());
}
/**
* Decodes a base64 aray of bytes.
* @param data a base64 encode byte array to decode.
* @return the decoded String.
*/
public static String decodeBase64( byte [] data) {
int c, c1;
int len = data.length;
StringBuffer ret = new StringBuffer((len * 3 ) / 4 );
for ( int i = 0 ; i < len; ++i) {
c = cvt.indexOf(data[i]);
++i;
c1 = cvt.indexOf(data[i]);
c = ((c << 2 ) | ((c1 >> 4 ) & 0x3 ));
ret.append(( char ) c);
if (++i < len) {
c = data[i];
if (fillchar == c)
break ;
c = cvt.indexOf(( char ) c);
c1 = ((c1 << 4 ) & 0xf0 ) | ((c >> 2 ) & 0xf );
ret.append(( char ) c1);
}
if (++i < len) {
c1 = data[i];
if (fillchar == c1)
break ;
c1 = cvt.indexOf(( char ) c1);
c = ((c << 6 ) & 0xc0 ) | c1;
ret.append(( char ) c);
}
}
return ret.toString();
}
private static final int fillchar = '=' ;
private static final String cvt = "ABCDEFGHIJKLMNOPQRSTUVWXYZ" + "abcdefghijklmnopqrstuvwxyz" + "0123456789+/" ;
/**
* Converts a line of text into an array of lower case words using a
* BreakIterator.wordInstance().
* This method is under the Jive Open Source Software License and was
* written by Mark Imbriaco.
* @param text a String of text to convert into an array of words
* @return text broken up into an array of words.
*/
public static final String[] toLowerCaseWordArray(String text) {
if (text == null || text.length() == 0 ) {
return new String[ 0 ];
}
ArrayList wordList = new ArrayList();
BreakIterator boundary = BreakIterator.getWordInstance();
boundary.setText(text);
int start = 0 ;
for ( int end = boundary.next(); end != BreakIterator.DONE; start = end, end = boundary.next()) {
String tmp = text.substring(start, end).trim();
tmp = replace(tmp, "+" , "" );
tmp = replace(tmp, "/" , "" );
tmp = replace(tmp, "\\" , "" );
tmp = replace(tmp, "#" , "" );
tmp = replace(tmp, "*" , "" );
tmp = replace(tmp, ")" , "" );
tmp = replace(tmp, "(" , "" );
tmp = replace(tmp, "&" , "" );
if (tmp.length() > 0 ) {
wordList.add(tmp);
}
}
return (String[]) wordList.toArray( new String[wordList.size()]);
}
/**
* Pseudo-random number generator object for use with randomString(). The
* Random class is not considered to be cryptographically secure, so only
* use these random Strings for low to medium security applications.
*/
private static Random randGen = new Random();
/**
* Array of numbers and letters of mixed case. Numbers appear in the list
* twice so that there is a more equal chance that a number will be picked.
* We can use the array to get a random number or letter by picking a random
* array index.
*/
private static char [] numbersAndLetters = ( "0123456789abcdefghijklmnopqrstuvwxyz" + "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ" ).toCharArray();
/**
* Returns a random String of numbers and letters (lower and upper case) of
* the specified length. The method uses the Random class that is built-in
* to Java which is suitable for low to medium grade security uses. This
* means that the output is only pseudo random, i.e., each number is
* mathematically generated so is not truly random.
* @param length the desired length of the random String to return.
* @return a random String of numbers and letters of the specified length.
*/
public static final String randomString( int length) {
if (length < 1 ) {
return null ;
}
char [] randBuffer = new char [length];
for ( int i = 0 ; i < randBuffer.length; i++) {
randBuffer[i] = numbersAndLetters[randGen.nextInt( 71 )];
}
return new String(randBuffer);
}
/**
* Intelligently chops a String at a word boundary (whitespace) that occurs
* at the specified index in the argument or before. However, if there is a
* newline character before <code>length</code>, the String will be
* chopped there. If no newline or whitespace is found in
* <code>string</code> up to the index <code>length</code>, the String
* will chopped at <code>length</code>.
* <p>
* For example, chopAtWord("This is a nice String", 10) will return "This is
* a" which is the first word boundary less than or equal to 10 characters
* into the original String.
* @param string the String to chop.
* @param length
* @return a substring of <code>string</code> whose length is less than or
* equal to <code>length</code>, and that is chopped at
* whitespace.
*/
public static final String chopAtWord(String string, int length) {
if (string == null ) {
return string;
}
char [] charArray = string.toCharArray();
int sLength = string.length();
if (length < sLength) {
sLength = length;
}
// First check if there is a newline character before length; if so,
// chop word there.
for ( int i = 0 ; i < sLength - 1 ; i++) {
// Windows
if (charArray[i] == '\r' && charArray[i + 1 ] == '\n' ) {
return string.substring( 0 , i + 1 );
}
// Unix
else if (charArray[i] == '\n' ) {
return string.substring( 0 , i);
}
}
// Also check boundary case of Unix newline
if (charArray[sLength - 1 ] == '\n' ) {
return string.substring( 0 , sLength - 1 );
}
// Done checking for newline, now see if the total string is less than
// the specified chop point.
if (string.length() < length) {
return string;
}
// No newline, so chop at the first whitespace.
for ( int i = length - 1 ; i > 0 ; i--) {
if (charArray[i] == ' ' ) {
return string.substring( 0 , i).trim();
}
}
// Did not find word boundary so return original String chopped at
// specified length.
return string.substring( 0 , length);
}
/**
* Escapes all necessary characters in the String so that it can be used in
* an XML doc.
* @param string the string to escape.
* @return the string with appropriate characters escaped.
*/
public static final String escapeForXML(String string) {
if (string == null ) {
return null ;
}
char ch;
int i = 0 ;
int last = 0 ;
char [] input = string.toCharArray();
int len = input.length;
StringBuffer out = new StringBuffer(( int ) (len * 1.3 ));
for (; i < len; i++) {
ch = input[i];
if (ch > '>' ) {
continue ;
} else if (ch == '<' ) {
if (i > last) {
out.append(input, last, i - last);
}
last = i + 1 ;
out.append(LT_ENCODE);
} else if (ch == '&' ) {
if (i > last) {
out.append(input, last, i - last);
}
last = i + 1 ;
out.append(AMP_ENCODE);
} else if (ch == '"' ) {
if (i > last) {
out.append(input, last, i - last);
}
last = i + 1 ;
out.append(QUOTE_ENCODE);
}
}
if (last == 0 ) {
return string;
}
if (i > last) {
out.append(input, last, i - last);
}
return out.toString();
}
/**
* Unescapes the String by converting XML escape sequences back into normal
* characters.
* @param string the string to unescape.
* @return the string with appropriate characters unescaped.
*/
public static final String unescapeFromXML(String string) {
string = replace(string, "<" , "<" );
string = replace(string, ">" , ">" );
string = replace(string, """ , "\"" );
return replace(string, "&" , "&" );
}
public static String escape(String s) {
StringBuffer sbuf = new StringBuffer();
int len = s.length();
for ( int i = 0 ; i < len; i++) {
int ch = s.charAt(i);
if (ch == ' ' ) { // space : map to '+'
sbuf.append( '+' );
} else if ( 'A' <= ch && ch <= 'Z' ) { // 'A'..'Z' : as it was
sbuf.append(( char ) ch);
} else if ( 'a' <= ch && ch <= 'z' ) { // 'a'..'z' : as it was
sbuf.append(( char ) ch);
} else if ( '0' <= ch && ch <= '9' ) { // '0'..'9' : as it was
sbuf.append(( char ) ch);
} else if (ch == '-'
|| ch == '_' // unreserved : as it was
|| ch == '.' || ch == '!' || ch == '~' || ch == '*'
|| ch == '\'' || ch == '(' || ch == ')' ) {
sbuf.append(( char ) ch);
} else if (ch <= 0x007F ) { // other ASCII : map to %XX
sbuf.append( '%' );
sbuf.append(hex[ch]);
} else { // unicode : map to %uXXXX
sbuf.append( '%' );
sbuf.append( 'u' );
sbuf.append(hex[(ch >>> 8 )]);
sbuf.append(hex[( 0x00FF & ch)]);
}
}
return sbuf.toString();
}
public static String unescape(String s) {
StringBuffer sbuf = new StringBuffer();
int i = 0 ;
int len = s.length();
while (i < len) {
int ch = s.charAt(i);
if (ch == '+' ) { // + : map to ' '
sbuf.append( ' ' );
} else if ( 'A' <= ch && ch <= 'Z' ) { // 'A'..'Z' : as it was
sbuf.append(( char ) ch);
} else if ( 'a' <= ch && ch <= 'z' ) { // 'a'..'z' : as it was
sbuf.append(( char ) ch);
} else if ( '0' <= ch && ch <= '9' ) { // '0'..'9' : as it was
sbuf.append(( char ) ch);
} else if (ch == '-'
|| ch == '_' // unreserved : as it was
|| ch == '.' || ch == '!' || ch == '~' || ch == '*'
|| ch == '\'' || ch == '(' || ch == ')' ) {
sbuf.append(( char ) ch);
} else if (ch == '%' ) {
int cint = 0 ;
if ( 'u' != s.charAt(i + 1 )) { // %XX : map to ascii(XX)
cint = (cint << 4 ) | val[s.charAt(i + 1 )];
cint = (cint << 4 ) | val[s.charAt(i + 2 )];
i += 2 ;
} else { // %uXXXX : map to unicode(XXXX)
cint = (cint << 4 ) | val[s.charAt(i + 2 )];
cint = (cint << 4 ) | val[s.charAt(i + 3 )];
cint = (cint << 4 ) | val[s.charAt(i + 4 )];
cint = (cint << 4 ) | val[s.charAt(i + 5 )];
i += 5 ;
}
sbuf.append(( char ) cint);
}
i++;
}
return sbuf.toString();
}
private static final char [] zeroArray = "0000000000000000" .toCharArray();
/**
* Pads the supplied String with 0's to the specified length and returns the
* result as a new String. For example, if the initial String is "9999" and
* the desired length is 8, the result would be "00009999". This type of
* padding is useful for creating numerical values that need to be stored
* and sorted as character data. Note: the current implementation of this
* method allows for a maximum <tt>length</tt> of 16.
*
* @param string
* the original String to pad.
* @param length
* the desired length of the new padded String.
* @return a new String padded with the required number of 0's.
*/
public static final String zeroPadString(String string, int length) {
if (string == null || string.length() > length) {
return string;
}
StringBuffer buf = new StringBuffer(length);
buf.append(zeroArray, 0 , length - string.length()).append(string);
return buf.toString();
}
/**
* Formats a Date as a fifteen character long String made up of the Date's
* padded millisecond value.
* @return a Date encoded as a String.
*/
public static final String dateToMillis(Date date) {
return zeroPadString(Long.toString(date.getTime()), 15 );
}
public static void main(String[] args) {
System.out.println(replace( "aaaaabbbcccc" , "aa" , "gg" ));
System.out.println(replaceIgnoreCase( "AAAAbbbcccc" , "aa" , "gg" ));
System.out.println(escapeHTMLTags( "AAAAbb<bcccc>" ));
}
}
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希望本文所述对大家java程序设计有所帮助。
原文链接:http://blog.csdn.net/lovoo/article/details/77920901