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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 * 
 *      http://www.apache.org/licenses/LICENSE-2.0
 * 
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
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package org.apache.commons.lang;

/**
 * 

Operations on Strings that contain words.

* *

This class tries to handle null input gracefully. * An exception will not be thrown for a null input. * Each method documents its behaviour in more detail.

* * @author Apache Jakarta Velocity * @author Stephen Colebourne * @author Henning P. Schmiedehausen * @author Gary Gregory * @since 2.0 * @version $Id$ */ public class WordUtils { /** *

WordUtils instances should NOT be constructed in * standard programming. Instead, the class should be used as * WordUtils.wrap("foo bar", 20);.

* *

This constructor is public to permit tools that require a JavaBean * instance to operate.

*/ public WordUtils() { super(); } // Wrapping //-------------------------------------------------------------------------- // /** // *

Wraps a block of text to a specified line length using '\n' as // * a newline.

// * // *

This method takes a block of text, which might have long lines in it // * and wraps the long lines based on the supplied lineLength parameter.

// * // *

If a single word is longer than the line length (eg. a URL), it will // * not be broken, and will display beyond the expected width.

// * // *

If there are tabs in inString, you are going to get results that are // * a bit strange. Tabs are a single character but are displayed as 4 or 8 // * spaces. Remove the tabs.

// * // * @param str text which is in need of word-wrapping, may be null // * @param lineLength the column to wrap the words at // * @return the text with all the long lines word-wrapped // * null if null string input // */ // public static String wrapText(String str, int lineLength) { // return wrap(str, null, lineLength); // } // /** // *

Wraps a block of text to a specified line length.

// * // *

This method takes a block of text, which might have long lines in it // * and wraps the long lines based on the supplied lineLength parameter.

// * // *

If a single word is longer than the wrapColumn (eg. a URL), it will // * not be broken, and will display beyond the expected width.

// * // *

If there are tabs in inString, you are going to get results that are // * a bit strange. Tabs are a single character but are displayed as 4 or 8 // * spaces. Remove the tabs.

// * // * @param str text which is in need of word-wrapping, may be null // * @param newLineChars the characters that define a newline, null treated as \n // * @param lineLength the column to wrap the words at // * @return the text with all the long lines word-wrapped // * null if null string input // */ // public static String wrapText(String str, String newLineChars, int lineLength) { // if (str == null) { // return null; // } // if (newLineChars == null) { // newLineChars = "\n"; // } // StringTokenizer lineTokenizer = new StringTokenizer(str, newLineChars, true); // StringBuffer stringBuffer = new StringBuffer(); // // while (lineTokenizer.hasMoreTokens()) { // try { // String nextLine = lineTokenizer.nextToken(); // // if (nextLine.length() > lineLength) { // // This line is long enough to be wrapped. // nextLine = wrapLine(nextLine, null, lineLength, false); // } // // stringBuffer.append(nextLine); // // } catch (NoSuchElementException nsee) { // // thrown by nextToken(), but I don't know why it would // break; // } // } // // return stringBuffer.toString(); // } // Wrapping //----------------------------------------------------------------------- /** *

Wraps a single line of text, identifying words by ' '.

* *

New lines will be separated by the system property line separator. * Very long words, such as URLs will not be wrapped.

* *

Leading spaces on a new line are stripped. * Trailing spaces are not stripped.

* *
     * WordUtils.wrap(null, *) = null
     * WordUtils.wrap("", *) = ""
     * 
* * @param str the String to be word wrapped, may be null * @param wrapLength the column to wrap the words at, less than 1 is treated as 1 * @return a line with newlines inserted, null if null input */ public static String wrap(String str, int wrapLength) { return wrap(str, wrapLength, null, false); } /** *

Wraps a single line of text, identifying words by ' '.

* *

Leading spaces on a new line are stripped. * Trailing spaces are not stripped.

* *
     * WordUtils.wrap(null, *, *, *) = null
     * WordUtils.wrap("", *, *, *) = ""
     * 
* * @param str the String to be word wrapped, may be null * @param wrapLength the column to wrap the words at, less than 1 is treated as 1 * @param newLineStr the string to insert for a new line, * null uses the system property line separator * @param wrapLongWords true if long words (such as URLs) should be wrapped * @return a line with newlines inserted, null if null input */ public static String wrap(String str, int wrapLength, String newLineStr, boolean wrapLongWords) { if (str == null) { return null; } if (newLineStr == null) { newLineStr = SystemUtils.LINE_SEPARATOR; } if (wrapLength < 1) { wrapLength = 1; } int inputLineLength = str.length(); int offset = 0; StringBuffer wrappedLine = new StringBuffer(inputLineLength + 32); while ((inputLineLength - offset) > wrapLength) { if (str.charAt(offset) == ' ') { offset++; continue; } int spaceToWrapAt = str.lastIndexOf(' ', wrapLength + offset); if (spaceToWrapAt >= offset) { // normal case wrappedLine.append(str.substring(offset, spaceToWrapAt)); wrappedLine.append(newLineStr); offset = spaceToWrapAt + 1; } else { // really long word or URL if (wrapLongWords) { // wrap really long word one line at a time wrappedLine.append(str.substring(offset, wrapLength + offset)); wrappedLine.append(newLineStr); offset += wrapLength; } else { // do not wrap really long word, just extend beyond limit spaceToWrapAt = str.indexOf(' ', wrapLength + offset); if (spaceToWrapAt >= 0) { wrappedLine.append(str.substring(offset, spaceToWrapAt)); wrappedLine.append(newLineStr); offset = spaceToWrapAt + 1; } else { wrappedLine.append(str.substring(offset)); offset = inputLineLength; } } } } // Whatever is left in line is short enough to just pass through wrappedLine.append(str.substring(offset)); return wrappedLine.toString(); } // Capitalizing //----------------------------------------------------------------------- /** *

Capitalizes all the whitespace separated words in a String. * Only the first letter of each word is changed. To convert the * rest of each word to lowercase at the same time, * use {@link #capitalizeFully(String)}.

* *

Whitespace is defined by {@link Character#isWhitespace(char)}. * A null input String returns null. * Capitalization uses the unicode title case, normally equivalent to * upper case.

* *
     * WordUtils.capitalize(null)        = null
     * WordUtils.capitalize("")          = ""
     * WordUtils.capitalize("i am FINE") = "I Am FINE"
     * 
* * @param str the String to capitalize, may be null * @return capitalized String, null if null String input * @see #uncapitalize(String) * @see #capitalizeFully(String) */ public static String capitalize(String str) { return capitalize(str, null); } /** *

Capitalizes all the delimiter separated words in a String. * Only the first letter of each word is changed. To convert the * rest of each word to lowercase at the same time, * use {@link #capitalizeFully(String, char[])}.

* *

The delimiters represent a set of characters understood to separate words. * The first string character and the first non-delimiter character after a * delimiter will be capitalized.

* *

A null input String returns null. * Capitalization uses the unicode title case, normally equivalent to * upper case.

* *
     * WordUtils.capitalize(null, *)            = null
     * WordUtils.capitalize("", *)              = ""
     * WordUtils.capitalize(*, new char[0])     = *
     * WordUtils.capitalize("i am fine", null)  = "I Am Fine"
     * WordUtils.capitalize("i aM.fine", {'.'}) = "I aM.Fine"
     * 
* * @param str the String to capitalize, may be null * @param delimiters set of characters to determine capitalization, null means whitespace * @return capitalized String, null if null String input * @see #uncapitalize(String) * @see #capitalizeFully(String) * @since 2.1 */ public static String capitalize(String str, char[] delimiters) { int delimLen = (delimiters == null ? -1 : delimiters.length); if (str == null || str.length() == 0 || delimLen == 0) { return str; } int strLen = str.length(); StringBuffer buffer = new StringBuffer(strLen); boolean capitalizeNext = true; for (int i = 0; i < strLen; i++) { char ch = str.charAt(i); if (isDelimiter(ch, delimiters)) { buffer.append(ch); capitalizeNext = true; } else if (capitalizeNext) { buffer.append(Character.toTitleCase(ch)); capitalizeNext = false; } else { buffer.append(ch); } } return buffer.toString(); } //----------------------------------------------------------------------- /** *

Converts all the whitespace separated words in a String into capitalized words, * that is each word is made up of a titlecase character and then a series of * lowercase characters.

* *

Whitespace is defined by {@link Character#isWhitespace(char)}. * A null input String returns null. * Capitalization uses the unicode title case, normally equivalent to * upper case.

* *
     * WordUtils.capitalizeFully(null)        = null
     * WordUtils.capitalizeFully("")          = ""
     * WordUtils.capitalizeFully("i am FINE") = "I Am Fine"
     * 
* * @param str the String to capitalize, may be null * @return capitalized String, null if null String input */ public static String capitalizeFully(String str) { return capitalizeFully(str, null); } /** *

Converts all the delimiter separated words in a String into capitalized words, * that is each word is made up of a titlecase character and then a series of * lowercase characters.

* *

The delimiters represent a set of characters understood to separate words. * The first string character and the first non-delimiter character after a * delimiter will be capitalized.

* *

A null input String returns null. * Capitalization uses the unicode title case, normally equivalent to * upper case.

* *
     * WordUtils.capitalizeFully(null, *)            = null
     * WordUtils.capitalizeFully("", *)              = ""
     * WordUtils.capitalizeFully(*, null)            = *
     * WordUtils.capitalizeFully(*, new char[0])     = *
     * WordUtils.capitalizeFully("i aM.fine", {'.'}) = "I am.Fine"
     * 
* * @param str the String to capitalize, may be null * @param delimiters set of characters to determine capitalization, null means whitespace * @return capitalized String, null if null String input * @since 2.1 */ public static String capitalizeFully(String str, char[] delimiters) { int delimLen = (delimiters == null ? -1 : delimiters.length); if (str == null || str.length() == 0 || delimLen == 0) { return str; } str = str.toLowerCase(); return capitalize(str, delimiters); } //----------------------------------------------------------------------- /** *

Uncapitalizes all the whitespace separated words in a String. * Only the first letter of each word is changed.

* *

Whitespace is defined by {@link Character#isWhitespace(char)}. * A null input String returns null.

* *
     * WordUtils.uncapitalize(null)        = null
     * WordUtils.uncapitalize("")          = ""
     * WordUtils.uncapitalize("I Am FINE") = "i am fINE"
     * 
* * @param str the String to uncapitalize, may be null * @return uncapitalized String, null if null String input * @see #capitalize(String) */ public static String uncapitalize(String str) { return uncapitalize(str, null); } /** *

Uncapitalizes all the whitespace separated words in a String. * Only the first letter of each word is changed.

* *

The delimiters represent a set of characters understood to separate words. * The first string character and the first non-delimiter character after a * delimiter will be uncapitalized.

* *

Whitespace is defined by {@link Character#isWhitespace(char)}. * A null input String returns null.

* *
     * WordUtils.uncapitalize(null, *)            = null
     * WordUtils.uncapitalize("", *)              = ""
     * WordUtils.uncapitalize(*, null)            = *
     * WordUtils.uncapitalize(*, new char[0])     = *
     * WordUtils.uncapitalize("I AM.FINE", {'.'}) = "i AM.fINE"
     * 
* * @param str the String to uncapitalize, may be null * @param delimiters set of characters to determine uncapitalization, null means whitespace * @return uncapitalized String, null if null String input * @see #capitalize(String) * @since 2.1 */ public static String uncapitalize(String str, char[] delimiters) { int delimLen = (delimiters == null ? -1 : delimiters.length); if (str == null || str.length() == 0 || delimLen == 0) { return str; } int strLen = str.length(); StringBuffer buffer = new StringBuffer(strLen); boolean uncapitalizeNext = true; for (int i = 0; i < strLen; i++) { char ch = str.charAt(i); if (isDelimiter(ch, delimiters)) { buffer.append(ch); uncapitalizeNext = true; } else if (uncapitalizeNext) { buffer.append(Character.toLowerCase(ch)); uncapitalizeNext = false; } else { buffer.append(ch); } } return buffer.toString(); } //----------------------------------------------------------------------- /** *

Swaps the case of a String using a word based algorithm.

* *
    *
  • Upper case character converts to Lower case
  • *
  • Title case character converts to Lower case
  • *
  • Lower case character after Whitespace or at start converts to Title case
  • *
  • Other Lower case character converts to Upper case
  • *
* *

Whitespace is defined by {@link Character#isWhitespace(char)}. * A null input String returns null.

* *
     * StringUtils.swapCase(null)                 = null
     * StringUtils.swapCase("")                   = ""
     * StringUtils.swapCase("The dog has a BONE") = "tHE DOG HAS A bone"
     * 
* * @param str the String to swap case, may be null * @return the changed String, null if null String input */ public static String swapCase(String str) { int strLen; if (str == null || (strLen = str.length()) == 0) { return str; } StringBuffer buffer = new StringBuffer(strLen); boolean whitespace = true; char ch = 0; char tmp = 0; for (int i = 0; i < strLen; i++) { ch = str.charAt(i); if (Character.isUpperCase(ch)) { tmp = Character.toLowerCase(ch); } else if (Character.isTitleCase(ch)) { tmp = Character.toLowerCase(ch); } else if (Character.isLowerCase(ch)) { if (whitespace) { tmp = Character.toTitleCase(ch); } else { tmp = Character.toUpperCase(ch); } } else { tmp = ch; } buffer.append(tmp); whitespace = Character.isWhitespace(ch); } return buffer.toString(); } //----------------------------------------------------------------------- /** *

Extracts the initial letters from each word in the String.

* *

The first letter of the string and all first letters after * whitespace are returned as a new string. * Their case is not changed.

* *

Whitespace is defined by {@link Character#isWhitespace(char)}. * A null input String returns null.

* *
     * WordUtils.initials(null)             = null
     * WordUtils.initials("")               = ""
     * WordUtils.initials("Ben John Lee")   = "BJL"
     * WordUtils.initials("Ben J.Lee")      = "BJ"
     * 
* * @param str the String to get initials from, may be null * @return String of initial letters, null if null String input * @see #initials(String,char[]) * @since 2.2 */ public static String initials(String str) { return initials(str, null); } /** *

Extracts the initial letters from each word in the String.

* *

The first letter of the string and all first letters after the * defined delimiters are returned as a new string. * Their case is not changed.

* *

If the delimiters array is null, then Whitespace is used. * Whitespace is defined by {@link Character#isWhitespace(char)}. * A null input String returns null. * An empty delimiter array returns an empty String.

* *
     * WordUtils.initials(null, *)                = null
     * WordUtils.initials("", *)                  = ""
     * WordUtils.initials("Ben John Lee", null)   = "BJL"
     * WordUtils.initials("Ben J.Lee", null)      = "BJ"
     * WordUtils.initials("Ben J.Lee", [' ','.']) = "BJL"
     * WordUtils.initials(*, new char[0])         = ""
     * 
* * @param str the String to get initials from, may be null * @param delimiters set of characters to determine words, null means whitespace * @return String of initial letters, null if null String input * @see #initials(String) * @since 2.2 */ public static String initials(String str, char[] delimiters) { if (str == null || str.length() == 0) { return str; } if (delimiters != null && delimiters.length == 0) { return ""; } int strLen = str.length(); char[] buf = new char[strLen / 2 + 1]; int count = 0; boolean lastWasGap = true; for (int i = 0; i < strLen; i++) { char ch = str.charAt(i); if (isDelimiter(ch, delimiters)) { lastWasGap = true; } else if (lastWasGap) { buf[count++] = ch; lastWasGap = false; } else { // ignore ch } } return new String(buf, 0, count); } //----------------------------------------------------------------------- /** * Is the character a delimiter. * * @param ch the character to check * @param delimiters the delimiters * @return true if it is a delimiter */ private static boolean isDelimiter(char ch, char[] delimiters) { if (delimiters == null) { return Character.isWhitespace(ch); } for (int i = 0, isize = delimiters.length; i < isize; i++) { if (ch == delimiters[i]) { return true; } } return false; } //----------------------------------------------------------------------- /** * Abbreviates a string nicely. * * This method searches for the first space after the lower limit and abbreviates * the String there. It will also append any String passed as a parameter * to the end of the String. The upper limit can be specified to forcibly * abbreviate a String. * * @param str the string to be abbreviated. If null is passed, null is returned. * If the empty String is passed, the empty string is returned. * @param lower the lower limit. * @param upper the upper limit; specify -1 if no limit is desired. * If the upper limit is lower than the lower limit, it will be * adjusted to be the same as the lower limit. * @param appendToEnd String to be appended to the end of the abbreviated string. * This is appended ONLY if the string was indeed abbreviated. * The append does not count towards the lower or upper limits. * @return the abbreviated String. * @since 2.4 */ public static String abbreviate(String str, int lower, int upper, String appendToEnd) { // initial parameter checks if (str == null) { return null; } if (str.length() == 0) { return StringUtils.EMPTY; } // if the lower value is greater than the length of the string, // set to the length of the string // if the upper value is -1 (i.e. no limit) or is greater // than the length of the string, set to the length of the string if (upper == -1 || upper > str.length()) { upper = str.length(); } // if upper is less than lower, raise it to lower if (upper < lower) { upper = lower; } StringBuffer result = new StringBuffer(); int index = StringUtils.indexOf(str, " ", lower); if (index == -1) { result.append(str.substring(0, upper)); // only if abbreviation has occured do we append the appendToEnd value if (upper != str.length()) { result.append(StringUtils.defaultString(appendToEnd)); } } else if (index > upper) { result.append(str.substring(0, upper)); result.append(StringUtils.defaultString(appendToEnd)); } else { result.append(str.substring(0, index)); result.append(StringUtils.defaultString(appendToEnd)); } return result.toString(); } }




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