2 * Copyright (C) 2001, 2002 The Mir-coders group
4 * This file is part of Mir.
6 * Mir is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
11 * Mir is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
16 * You should have received a copy of the GNU General Public License
17 * along with Mir; if not, write to the Free Software
18 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
20 * In addition, as a special exception, The Mir-coders gives permission to link
21 * the code of this program with any library licensed under the Apache Software License,
22 * The Sun (tm) Java Advanced Imaging library (JAI), The Sun JIMI library
23 * (or with modified versions of the above that use the same license as the above),
24 * and distribute linked combinations including the two. You must obey the
25 * GNU General Public License in all respects for all of the code used other than
26 * the above mentioned libraries. If you modify this file, you may extend this
27 * exception to your version of the file, but you are not obligated to do so.
28 * If you do not wish to do so, delete this exception statement from your version.
34 import java.util.ArrayList;
35 import java.util.List;
37 public class StringRoutines {
39 private StringRoutines() {
42 public static int indexOfCharacters(String aString, char[] aCharacters, int aFrom) {
47 for (i=0; i<aCharacters.length ; i++) {
48 position = aString.indexOf(aCharacters[i], aFrom);
50 if (position != -1 && ( result == -1 || position < result )) {
58 public static String replaceStringCharacters(String aText, char[] aCharactersToReplace, String[] aStringsToSubstitute) {
62 int position, nextPosition;
64 StringBuffer result = new StringBuffer();
68 nextPosition = StringRoutines.indexOfCharacters(aText, aCharactersToReplace, position);
71 nextPosition = aText.length();
73 result.append(aText.substring(position, nextPosition));
75 if (nextPosition<aText.length())
76 for (i=0; i<aCharactersToReplace.length; i++) {
77 if (aCharactersToReplace[i] == aText.charAt(nextPosition)) {
78 result.append(aStringsToSubstitute[i]);
82 position=nextPosition+1;
84 while (nextPosition<aText.length()) ;
86 return result.toString();
91 public static String replaceEscapedStringCharacters(String aText, char anEscapeCharacter, char[] aCharactersToReplace, String[] aStringsToSubstitute) {
95 int position, nextPosition;
97 StringBuffer result = new StringBuffer();
101 nextPosition = aText.indexOf(anEscapeCharacter, position);
104 nextPosition = aText.length();
106 result.append(aText.substring(position, nextPosition));
108 if (nextPosition+1<aText.length()) {
109 nextPosition = nextPosition+1;
111 boolean found = false;
112 for (i = 0; i < aCharactersToReplace.length; i++) {
113 if (aCharactersToReplace[i] == aText.charAt(nextPosition)) {
114 result.append(aStringsToSubstitute[i]);
121 result.append(aText.charAt(nextPosition));
124 position=nextPosition+1;
126 while (nextPosition<aText.length()) ;
128 return result.toString();
131 public static String interpretAsString(Object aValue) throws Exception {
132 if (aValue instanceof String)
133 return (String) aValue;
135 if (aValue instanceof Integer)
136 return aValue.toString();
141 throw new Exception("String expected, "+aValue+" found");
144 public static int interpretAsInteger(Object aValue) throws Exception {
145 if (aValue instanceof Integer)
146 return ((Integer) aValue).intValue();
148 if (aValue instanceof String)
150 return Integer.parseInt((String) aValue);
152 catch (Throwable t) {
153 throw new Exception("Integer expected, "+aValue+" found");
156 throw new Exception("Integer expected, "+aValue+" found");
159 public static String performRegularExpressionReplacement(String aSource, String aSearchExpression, String aReplacement) {
161 RE regularExpression;
163 regularExpression = new RE(aSearchExpression);
165 return regularExpression.substituteAll(aSource, aReplacement);
167 catch (Throwable t) {
168 throw new UtilFailure("StringRoutines.performRegularExpressionReplacement: " + t.toString(), t);
172 public static String performCaseInsensitiveRegularExpressionReplacement(String aSource, String aSearchExpression, String aReplacement) {
174 RE regularExpression;
176 regularExpression = new RE(aSearchExpression, RE.REG_ICASE);
178 return regularExpression.substituteAll(aSource, aReplacement);
180 catch (Throwable t) {
181 throw new UtilFailure("StringRoutines.performRegularExpressionReplacement: " + t.toString(), t);
185 public static boolean performRegularExpressionSearch(String aSource, String aSearchExpression) {
187 RE regularExpression;
189 regularExpression = new RE(aSearchExpression);
191 return regularExpression.isMatch(aSource);
193 catch (Throwable t) {
194 throw new UtilFailure("StringRoutines.performRegularExpressionSearch: " + t.toString(), t);
199 * Separates a string based on a separator:
200 * <code>seperateString("a:b:c", ":");</code> will lead to
201 * a List with 3 Strings: <code>"a"</code>, <code>"b"</code> and <code>"c"</code>
203 * @param aString The string to split
208 public static List splitString(String aString, String aSeparator) {
209 List result= new ArrayList();
210 int previousPosition = 0;
214 while ( (position = aString.indexOf(aSeparator, previousPosition)) >= 0) {
215 result.add(aString.substring(previousPosition, position));
216 previousPosition = position + aSeparator.length();
218 result.add(aString.substring(previousPosition, aString.length()));
225 * Separates a String into at most 2 parts based on a separator:
228 * <code>seperateString("a:b:c", ":");</code> will lead to
229 * a List with 2 Strings: <code>"a"</code> and <code>"b:c"</code>
231 * <code>seperateString("abc", ":");</code> will lead to
232 * a List with a single String: <code>"abc"</code>
240 public static List separateString(String aString, String aSeparator) {
241 List result= new ArrayList();
242 int previousPosition = 0;
245 if((position = aString.indexOf(aSeparator, previousPosition))>=0) {
246 result.add(aString.substring(previousPosition, position));
247 previousPosition = position + aSeparator.length();
250 result.add(aString.substring(previousPosition, aString.length()));
256 * Separates a string based on a separator, taking into account an escape character:
257 * <code>seperateString("a:/::b", ":", "/");</code> will lead to
258 * a List with 3 Strings: <code>"a"</code>, <code>":"</code> and <code>"b"</code>
260 * @param aString The string to split
265 public static List splitStringWithEscape(String aString, char aSeparator, char anEscape) {
266 List result= new ArrayList();
267 int previousPosition = 0;
270 StringBuffer currentItem = new StringBuffer();
272 if (aString!=null && aString.length()>0) {
273 while ((position = indexOfCharacters(aString, new char[] {aSeparator, anEscape}, previousPosition))>=0) {
274 currentItem.append(aString.substring(previousPosition, position));
276 if (aString.charAt(position)==aSeparator) {
277 result.add(currentItem.toString());
278 currentItem.delete(0, currentItem.length());
281 if (aString.length()>position+1) {
283 currentItem.append(aString.charAt(position));
286 currentItem.append(aString.charAt(position));
289 previousPosition = position + 1;
291 currentItem.append(aString.substring(previousPosition, aString.length()));
292 result.add(currentItem.toString());
298 public static String replicateString(String aString, int aCount) {
299 StringBuffer result = new StringBuffer();
301 for (int i=0; i<aCount; i++)
302 result.append(aString);
304 return result.toString();
307 public static String replicateChar(char aCharacter, int aCount) {
308 char result[] = new char[aCount];
310 for (int i=0; i<aCount; i++)
311 result[i]= aCharacter;
313 return new String(result);
316 public static String padStringLeft(String aString, int aLength, char aPadCharacter) {
317 if (aString.length()<aLength)
318 return replicateChar(aPadCharacter, aLength-aString.length()) + aString;
322 private static final char HEX_CHARACTERS[] = {
323 '0', '1', '2', '3', '4', '5', '6', '7',
324 '8', '9', 'a', 'b', 'c', 'd', 'e', 'f'
327 public static String convertToHex(long aData, int aNumberOfDigits) {
328 StringBuffer result = new StringBuffer();
330 for (int digit = aNumberOfDigits-1; digit>=0; digit--) {
331 int value = (int) (aData >> (digit*4)) & 0xf;
332 result.append(HEX_CHARACTERS[value]);
335 return result.toString();
338 public static String convertToHex(byte[] aData) {
339 StringBuffer result = new StringBuffer();
341 for (int i = 0; i<aData.length; i++) {
342 result.append(convertToHex(aData[i], 2));
346 return result.toString();