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Unified Diff: libadblockplus-android/src/org/apache/commons/lang/StringUtils.java

Issue 29415555: Issue 5148 - Remove Apache String Utils code (Closed)
Patch Set: Created April 17, 2017, 7:11 a.m.
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Index: libadblockplus-android/src/org/apache/commons/lang/StringUtils.java
diff --git a/libadblockplus-android/src/org/apache/commons/lang/StringUtils.java b/libadblockplus-android/src/org/apache/commons/lang/StringUtils.java
deleted file mode 100644
index 9f750253b76aad39b35b5cddc3919e89409f250c..0000000000000000000000000000000000000000
--- a/libadblockplus-android/src/org/apache/commons/lang/StringUtils.java
+++ /dev/null
@@ -1,5170 +0,0 @@
-/*
- * Simplified by Andrey Novikov for AdBlock Plus
- */
-
-/*
- * 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.
- */
-package org.apache.commons.lang;
-
-
-/**
- * <p>Operations on {@link java.lang.String} that are
- * <code>null</code> safe.</p>
- * <p/>
- * <ul>
- * <li><b>IsEmpty/IsBlank</b>
- * - checks if a String contains text</li>
- * <li><b>Trim/Strip</b>
- * - removes leading and trailing whitespace</li>
- * <li><b>Equals</b>
- * - compares two strings null-safe</li>
- * <li><b>startsWith</b>
- * - check if a String starts with a prefix null-safe</li>
- * <li><b>endsWith</b>
- * - check if a String ends with a suffix null-safe</li>
- * <li><b>IndexOf/LastIndexOf/Contains</b>
- * - null-safe index-of checks
- * <li><b>IndexOfAny/LastIndexOfAny/IndexOfAnyBut/LastIndexOfAnyBut</b>
- * - index-of any of a set of Strings</li>
- * <li><b>ContainsOnly/ContainsNone/ContainsAny</b>
- * - does String contains only/none/any of these characters</li>
- * <li><b>Substring/Left/Right/Mid</b>
- * - null-safe substring extractions</li>
- * <li><b>SubstringBefore/SubstringAfter/SubstringBetween</b>
- * - substring extraction relative to other strings</li>
- * <li><b>Split/Join</b>
- * - splits a String into an array of substrings and vice versa</li>
- * <li><b>Remove/Delete</b>
- * - removes part of a String</li>
- * <li><b>Replace/Overlay</b>
- * - Searches a String and replaces one String with another</li>
- * <li><b>Chomp/Chop</b>
- * - removes the last part of a String</li>
- * <li><b>LeftPad/RightPad/Center/Repeat</b>
- * - pads a String</li>
- * <li><b>UpperCase/LowerCase/SwapCase/Capitalize/Uncapitalize</b>
- * - changes the case of a String</li>
- * <li><b>CountMatches</b>
- * - counts the number of occurrences of one String in another</li>
- * <li><b>IsAlpha/IsNumeric/IsWhitespace/IsAsciiPrintable</b>
- * - checks the characters in a String</li>
- * <li><b>DefaultString</b>
- * - protects against a null input String</li>
- * <li><b>Reverse/ReverseDelimited</b>
- * - reverses a String</li>
- * <li><b>Abbreviate</b>
- * - abbreviates a string using ellipsis</li>
- * <li><b>Difference</b>
- * - compares Strings and reports on their differences</li>
- * <li><b>LevensteinDistance</b>
- * - the number of changes needed to change one String into another</li>
- * </ul>
- * <p/>
- * <p>The <code>StringUtils</code> class defines certain words related to
- * String handling.</p>
- * <p/>
- * <ul>
- * <li>null - <code>null</code></li>
- * <li>empty - a zero-length string (<code>""</code>)</li>
- * <li>space - the space character (<code>' '</code>, char 32)</li>
- * <li>whitespace - the characters defined by {@link Character#isWhitespace(char)}</li>
- * <li>trim - the characters &lt;= 32 as in {@link String#trim()}</li>
- * </ul>
- * <p/>
- * <p><code>StringUtils</code> handles <code>null</code> input Strings quietly.
- * That is to say that a <code>null</code> input will return <code>null</code>.
- * Where a <code>boolean</code> or <code>int</code> is being returned
- * details vary by method.</p>
- * <p/>
- * <p>A side effect of the <code>null</code> handling is that a
- * <code>NullPointerException</code> should be considered a bug in
- * <code>StringUtils</code> (except for deprecated methods).</p>
- * <p/>
- * <p>Methods in this class give sample code to explain their operation.
- * The symbol <code>*</code> is used to indicate any input including <code>null</code>.</p>
- *
- * @author <a href="http://jakarta.apache.org/turbine/">Apache Jakarta Turbine</a>
- * @author <a href="mailto:jon@latchkey.com">Jon S. Stevens</a>
- * @author Daniel L. Rall
- * @author <a href="mailto:gcoladonato@yahoo.com">Greg Coladonato</a>
- * @author <a href="mailto:ed@apache.org">Ed Korthof</a>
- * @author <a href="mailto:rand_mcneely@yahoo.com">Rand McNeely</a>
- * @author Stephen Colebourne
- * @author <a href="mailto:fredrik@westermarck.com">Fredrik Westermarck</a>
- * @author Holger Krauth
- * @author <a href="mailto:alex@purpletech.com">Alexander Day Chaffee</a>
- * @author <a href="mailto:hps@intermeta.de">Henning P. Schmiedehausen</a>
- * @author Arun Mammen Thomas
- * @author Gary Gregory
- * @author Phil Steitz
- * @author Al Chou
- * @author Michael Davey
- * @author Reuben Sivan
- * @author Chris Hyzer
- * @author Scott Johnson
- * @version $Id: StringUtils.java 635447 2008-03-10 06:27:09Z bayard $
- * @see java.lang.String
- * @since 1.0
- */
-public class StringUtils
-{
- // Performance testing notes (JDK 1.4, Jul03, scolebourne)
- // Whitespace:
- // Character.isWhitespace() is faster than WHITESPACE.indexOf()
- // where WHITESPACE is a string of all whitespace characters
- //
- // Character access:
- // String.charAt(n) versus toCharArray(), then array[n]
- // String.charAt(n) is about 15% worse for a 10K string
- // They are about equal for a length 50 string
- // String.charAt(n) is about 4 times better for a length 3 string
- // String.charAt(n) is best bet overall
- //
- // Append:
- // String.concat about twice as fast as StringBuffer.append
- // (not sure who tested this)
-
- /**
- * The empty String <code>""</code>.
- *
- * @since 2.0
- */
- public static final String EMPTY = "";
-
- /**
- * Represents a failed index search.
- *
- * @since 2.1
- */
- public static final int INDEX_NOT_FOUND = -1;
-
- /**
- * <p>The maximum size to which the padding constant(s) can expand.</p>
- */
- private static final int PAD_LIMIT = 8192;
-
- /**
- * <p><code>StringUtils</code> instances should NOT be constructed in
- * standard programming. Instead, the class should be used as
- * <code>StringUtils.trim(" foo ");</code>.</p>
- * <p/>
- * <p>This constructor is public to permit tools that require a JavaBean
- * instance to operate.</p>
- */
- public StringUtils()
- {
- super();
- }
-
- // Empty checks
- //-----------------------------------------------------------------------
-
- /**
- * <p>Checks if a String is empty ("") or null.</p>
- * <p/>
- * <pre>
- * StringUtils.isEmpty(null) = true
- * StringUtils.isEmpty("") = true
- * StringUtils.isEmpty(" ") = false
- * StringUtils.isEmpty("bob") = false
- * StringUtils.isEmpty(" bob ") = false
- * </pre>
- * <p/>
- * <p>NOTE: This method changed in Lang version 2.0.
- * It no longer trims the String.
- * That functionality is available in isBlank().</p>
- *
- * @param str the String to check, may be null
- * @return <code>true</code> if the String is empty or null
- */
- public static boolean isEmpty(String str)
- {
- return str == null || str.length() == 0;
- }
-
- /**
- * <p>Checks if a String is not empty ("") and not null.</p>
- * <p/>
- * <pre>
- * StringUtils.isNotEmpty(null) = false
- * StringUtils.isNotEmpty("") = false
- * StringUtils.isNotEmpty(" ") = true
- * StringUtils.isNotEmpty("bob") = true
- * StringUtils.isNotEmpty(" bob ") = true
- * </pre>
- *
- * @param str the String to check, may be null
- * @return <code>true</code> if the String is not empty and not null
- */
- public static boolean isNotEmpty(String str)
- {
- return !StringUtils.isEmpty(str);
- }
-
- /**
- * <p>Checks if a String is whitespace, empty ("") or null.</p>
- * <p/>
- * <pre>
- * StringUtils.isBlank(null) = true
- * StringUtils.isBlank("") = true
- * StringUtils.isBlank(" ") = true
- * StringUtils.isBlank("bob") = false
- * StringUtils.isBlank(" bob ") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @return <code>true</code> if the String is null, empty or whitespace
- * @since 2.0
- */
- public static boolean isBlank(String str)
- {
- int strLen;
- if (str == null || (strLen = str.length()) == 0)
- {
- return true;
- }
- for (int i = 0; i < strLen; i++)
- {
- if ((Character.isWhitespace(str.charAt(i)) == false))
- {
- return false;
- }
- }
- return true;
- }
-
- /**
- * <p>Checks if a String is not empty (""), not null and not whitespace only.</p>
- * <p/>
- * <pre>
- * StringUtils.isNotBlank(null) = false
- * StringUtils.isNotBlank("") = false
- * StringUtils.isNotBlank(" ") = false
- * StringUtils.isNotBlank("bob") = true
- * StringUtils.isNotBlank(" bob ") = true
- * </pre>
- *
- * @param str the String to check, may be null
- * @return <code>true</code> if the String is
- * not empty and not null and not whitespace
- * @since 2.0
- */
- public static boolean isNotBlank(String str)
- {
- return !StringUtils.isBlank(str);
- }
-
- // Trim
- //-----------------------------------------------------------------------
-
- /**
- * <p>Removes control characters (char &lt;= 32) from both
- * ends of this String, handling <code>null</code> by returning
- * an empty String ("").</p>
- * <p/>
- * <pre>
- * StringUtils.clean(null) = ""
- * StringUtils.clean("") = ""
- * StringUtils.clean("abc") = "abc"
- * StringUtils.clean(" abc ") = "abc"
- * StringUtils.clean(" ") = ""
- * </pre>
- *
- * @param str the String to clean, may be null
- * @return the trimmed text, never <code>null</code>
- * @see java.lang.String#trim()
- * @deprecated Use the clearer named {@link #trimToEmpty(String)}.
- * Method will be removed in Commons Lang 3.0.
- */
- public static String clean(String str)
- {
- return str == null ? EMPTY : str.trim();
- }
-
- /**
- * <p>Removes control characters (char &lt;= 32) from both
- * ends of this String, handling <code>null</code> by returning
- * <code>null</code>.</p>
- * <p/>
- * <p>The String is trimmed using {@link String#trim()}.
- * Trim removes start and end characters &lt;= 32.
- * To strip whitespace use {@link #strip(String)}.</p>
- * <p/>
- * <p>To trim your choice of characters, use the
- * {@link #strip(String, String)} methods.</p>
- * <p/>
- * <pre>
- * StringUtils.trim(null) = null
- * StringUtils.trim("") = ""
- * StringUtils.trim(" ") = ""
- * StringUtils.trim("abc") = "abc"
- * StringUtils.trim(" abc ") = "abc"
- * </pre>
- *
- * @param str the String to be trimmed, may be null
- * @return the trimmed string, <code>null</code> if null String input
- */
- public static String trim(String str)
- {
- return str == null ? null : str.trim();
- }
-
- /**
- * <p>Removes control characters (char &lt;= 32) from both
- * ends of this String returning <code>null</code> if the String is
- * empty ("") after the trim or if it is <code>null</code>.
- * <p/>
- * <p>The String is trimmed using {@link String#trim()}.
- * Trim removes start and end characters &lt;= 32.
- * To strip whitespace use {@link #stripToNull(String)}.</p>
- * <p/>
- * <pre>
- * StringUtils.trimToNull(null) = null
- * StringUtils.trimToNull("") = null
- * StringUtils.trimToNull(" ") = null
- * StringUtils.trimToNull("abc") = "abc"
- * StringUtils.trimToNull(" abc ") = "abc"
- * </pre>
- *
- * @param str the String to be trimmed, may be null
- * @return the trimmed String,
- * <code>null</code> if only chars &lt;= 32, empty or null String input
- * @since 2.0
- */
- public static String trimToNull(String str)
- {
- String ts = trim(str);
- return isEmpty(ts) ? null : ts;
- }
-
- /**
- * <p>Removes control characters (char &lt;= 32) from both
- * ends of this String returning an empty String ("") if the String
- * is empty ("") after the trim or if it is <code>null</code>.
- * <p/>
- * <p>The String is trimmed using {@link String#trim()}.
- * Trim removes start and end characters &lt;= 32.
- * To strip whitespace use {@link #stripToEmpty(String)}.</p>
- * <p/>
- * <pre>
- * StringUtils.trimToEmpty(null) = ""
- * StringUtils.trimToEmpty("") = ""
- * StringUtils.trimToEmpty(" ") = ""
- * StringUtils.trimToEmpty("abc") = "abc"
- * StringUtils.trimToEmpty(" abc ") = "abc"
- * </pre>
- *
- * @param str the String to be trimmed, may be null
- * @return the trimmed String, or an empty String if <code>null</code> input
- * @since 2.0
- */
- public static String trimToEmpty(String str)
- {
- return str == null ? EMPTY : str.trim();
- }
-
- // Stripping
- //-----------------------------------------------------------------------
-
- /**
- * <p>Strips whitespace from the start and end of a String.</p>
- * <p/>
- * <p>This is similar to {@link #trim(String)} but removes whitespace.
- * Whitespace is defined by {@link Character#isWhitespace(char)}.</p>
- * <p/>
- * <p>A <code>null</code> input String returns <code>null</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.strip(null) = null
- * StringUtils.strip("") = ""
- * StringUtils.strip(" ") = ""
- * StringUtils.strip("abc") = "abc"
- * StringUtils.strip(" abc") = "abc"
- * StringUtils.strip("abc ") = "abc"
- * StringUtils.strip(" abc ") = "abc"
- * StringUtils.strip(" ab c ") = "ab c"
- * </pre>
- *
- * @param str the String to remove whitespace from, may be null
- * @return the stripped String, <code>null</code> if null String input
- */
- public static String strip(String str)
- {
- return strip(str, null);
- }
-
- /**
- * <p>Strips whitespace from the start and end of a String returning
- * <code>null</code> if the String is empty ("") after the strip.</p>
- * <p/>
- * <p>This is similar to {@link #trimToNull(String)} but removes whitespace.
- * Whitespace is defined by {@link Character#isWhitespace(char)}.</p>
- * <p/>
- * <pre>
- * StringUtils.stripToNull(null) = null
- * StringUtils.stripToNull("") = null
- * StringUtils.stripToNull(" ") = null
- * StringUtils.stripToNull("abc") = "abc"
- * StringUtils.stripToNull(" abc") = "abc"
- * StringUtils.stripToNull("abc ") = "abc"
- * StringUtils.stripToNull(" abc ") = "abc"
- * StringUtils.stripToNull(" ab c ") = "ab c"
- * </pre>
- *
- * @param str the String to be stripped, may be null
- * @return the stripped String,
- * <code>null</code> if whitespace, empty or null String input
- * @since 2.0
- */
- public static String stripToNull(String str)
- {
- if (str == null)
- {
- return null;
- }
- str = strip(str, null);
- return str.length() == 0 ? null : str;
- }
-
- /**
- * <p>Strips whitespace from the start and end of a String returning
- * an empty String if <code>null</code> input.</p>
- * <p/>
- * <p>This is similar to {@link #trimToEmpty(String)} but removes whitespace.
- * Whitespace is defined by {@link Character#isWhitespace(char)}.</p>
- * <p/>
- * <pre>
- * StringUtils.stripToEmpty(null) = ""
- * StringUtils.stripToEmpty("") = ""
- * StringUtils.stripToEmpty(" ") = ""
- * StringUtils.stripToEmpty("abc") = "abc"
- * StringUtils.stripToEmpty(" abc") = "abc"
- * StringUtils.stripToEmpty("abc ") = "abc"
- * StringUtils.stripToEmpty(" abc ") = "abc"
- * StringUtils.stripToEmpty(" ab c ") = "ab c"
- * </pre>
- *
- * @param str the String to be stripped, may be null
- * @return the trimmed String, or an empty String if <code>null</code> input
- * @since 2.0
- */
- public static String stripToEmpty(String str)
- {
- return str == null ? EMPTY : strip(str, null);
- }
-
- /**
- * <p>Strips any of a set of characters from the start and end of a String.
- * This is similar to {@link String#trim()} but allows the characters
- * to be stripped to be controlled.</p>
- * <p/>
- * <p>A <code>null</code> input String returns <code>null</code>.
- * An empty string ("") input returns the empty string.</p>
- * <p/>
- * <p>If the stripChars String is <code>null</code>, whitespace is
- * stripped as defined by {@link Character#isWhitespace(char)}.
- * Alternatively use {@link #strip(String)}.</p>
- * <p/>
- * <pre>
- * StringUtils.strip(null, *) = null
- * StringUtils.strip("", *) = ""
- * StringUtils.strip("abc", null) = "abc"
- * StringUtils.strip(" abc", null) = "abc"
- * StringUtils.strip("abc ", null) = "abc"
- * StringUtils.strip(" abc ", null) = "abc"
- * StringUtils.strip(" abcyx", "xyz") = " abc"
- * </pre>
- *
- * @param str the String to remove characters from, may be null
- * @param stripChars the characters to remove, null treated as whitespace
- * @return the stripped String, <code>null</code> if null String input
- */
- public static String strip(String str, String stripChars)
- {
- if (isEmpty(str))
- {
- return str;
- }
- str = stripStart(str, stripChars);
- return stripEnd(str, stripChars);
- }
-
- /**
- * <p>Strips any of a set of characters from the start of a String.</p>
- * <p/>
- * <p>A <code>null</code> input String returns <code>null</code>.
- * An empty string ("") input returns the empty string.</p>
- * <p/>
- * <p>If the stripChars String is <code>null</code>, whitespace is
- * stripped as defined by {@link Character#isWhitespace(char)}.</p>
- * <p/>
- * <pre>
- * StringUtils.stripStart(null, *) = null
- * StringUtils.stripStart("", *) = ""
- * StringUtils.stripStart("abc", "") = "abc"
- * StringUtils.stripStart("abc", null) = "abc"
- * StringUtils.stripStart(" abc", null) = "abc"
- * StringUtils.stripStart("abc ", null) = "abc "
- * StringUtils.stripStart(" abc ", null) = "abc "
- * StringUtils.stripStart("yxabc ", "xyz") = "abc "
- * </pre>
- *
- * @param str the String to remove characters from, may be null
- * @param stripChars the characters to remove, null treated as whitespace
- * @return the stripped String, <code>null</code> if null String input
- */
- public static String stripStart(String str, String stripChars)
- {
- int strLen;
- if (str == null || (strLen = str.length()) == 0)
- {
- return str;
- }
- int start = 0;
- if (stripChars == null)
- {
- while ((start != strLen) && Character.isWhitespace(str.charAt(start)))
- {
- start++;
- }
- } else if (stripChars.length() == 0)
- {
- return str;
- } else
- {
- while ((start != strLen) && (stripChars.indexOf(str.charAt(start)) != -1))
- {
- start++;
- }
- }
- return str.substring(start);
- }
-
- /**
- * <p>Strips any of a set of characters from the end of a String.</p>
- * <p/>
- * <p>A <code>null</code> input String returns <code>null</code>.
- * An empty string ("") input returns the empty string.</p>
- * <p/>
- * <p>If the stripChars String is <code>null</code>, whitespace is
- * stripped as defined by {@link Character#isWhitespace(char)}.</p>
- * <p/>
- * <pre>
- * StringUtils.stripEnd(null, *) = null
- * StringUtils.stripEnd("", *) = ""
- * StringUtils.stripEnd("abc", "") = "abc"
- * StringUtils.stripEnd("abc", null) = "abc"
- * StringUtils.stripEnd(" abc", null) = " abc"
- * StringUtils.stripEnd("abc ", null) = "abc"
- * StringUtils.stripEnd(" abc ", null) = " abc"
- * StringUtils.stripEnd(" abcyx", "xyz") = " abc"
- * </pre>
- *
- * @param str the String to remove characters from, may be null
- * @param stripChars the characters to remove, null treated as whitespace
- * @return the stripped String, <code>null</code> if null String input
- */
- public static String stripEnd(String str, String stripChars)
- {
- int end;
- if (str == null || (end = str.length()) == 0)
- {
- return str;
- }
-
- if (stripChars == null)
- {
- while ((end != 0) && Character.isWhitespace(str.charAt(end - 1)))
- {
- end--;
- }
- } else if (stripChars.length() == 0)
- {
- return str;
- } else
- {
- while ((end != 0) && (stripChars.indexOf(str.charAt(end - 1)) != -1))
- {
- end--;
- }
- }
- return str.substring(0, end);
- }
-
- // StripAll
- //-----------------------------------------------------------------------
-
- /**
- * <p>Strips whitespace from the start and end of every String in an array.
- * Whitespace is defined by {@link Character#isWhitespace(char)}.</p>
- * <p/>
- * <p>A new array is returned each time, except for length zero.
- * A <code>null</code> array will return <code>null</code>.
- * An empty array will return itself.
- * A <code>null</code> array entry will be ignored.</p>
- * <p/>
- * <pre>
- * StringUtils.stripAll(null) = null
- * StringUtils.stripAll([]) = []
- * StringUtils.stripAll(["abc", " abc"]) = ["abc", "abc"]
- * StringUtils.stripAll(["abc ", null]) = ["abc", null]
- * </pre>
- *
- * @param strs the array to remove whitespace from, may be null
- * @return the stripped Strings, <code>null</code> if null array input
- */
- public static String[] stripAll(String[] strs)
- {
- return stripAll(strs, null);
- }
-
- /**
- * <p>Strips any of a set of characters from the start and end of every
- * String in an array.</p>
- * Whitespace is defined by {@link Character#isWhitespace(char)}.</p>
- * <p/>
- * <p>A new array is returned each time, except for length zero.
- * A <code>null</code> array will return <code>null</code>.
- * An empty array will return itself.
- * A <code>null</code> array entry will be ignored.
- * A <code>null</code> stripChars will strip whitespace as defined by
- * {@link Character#isWhitespace(char)}.</p>
- * <p/>
- * <pre>
- * StringUtils.stripAll(null, *) = null
- * StringUtils.stripAll([], *) = []
- * StringUtils.stripAll(["abc", " abc"], null) = ["abc", "abc"]
- * StringUtils.stripAll(["abc ", null], null) = ["abc", null]
- * StringUtils.stripAll(["abc ", null], "yz") = ["abc ", null]
- * StringUtils.stripAll(["yabcz", null], "yz") = ["abc", null]
- * </pre>
- *
- * @param strs the array to remove characters from, may be null
- * @param stripChars the characters to remove, null treated as whitespace
- * @return the stripped Strings, <code>null</code> if null array input
- */
- public static String[] stripAll(String[] strs, String stripChars)
- {
- int strsLen;
- if (strs == null || (strsLen = strs.length) == 0)
- {
- return strs;
- }
- String[] newArr = new String[strsLen];
- for (int i = 0; i < strsLen; i++)
- {
- newArr[i] = strip(strs[i], stripChars);
- }
- return newArr;
- }
-
- // Equals
- //-----------------------------------------------------------------------
-
- /**
- * <p>Compares two Strings, returning <code>true</code> if they are equal.</p>
- * <p/>
- * <p><code>null</code>s are handled without exceptions. Two <code>null</code>
- * references are considered to be equal. The comparison is case sensitive.</p>
- * <p/>
- * <pre>
- * StringUtils.equals(null, null) = true
- * StringUtils.equals(null, "abc") = false
- * StringUtils.equals("abc", null) = false
- * StringUtils.equals("abc", "abc") = true
- * StringUtils.equals("abc", "ABC") = false
- * </pre>
- *
- * @param str1 the first String, may be null
- * @param str2 the second String, may be null
- * @return <code>true</code> if the Strings are equal, case sensitive, or
- * both <code>null</code>
- * @see java.lang.String#equals(Object)
- */
- public static boolean equals(String str1, String str2)
- {
- return str1 == null ? str2 == null : str1.equals(str2);
- }
-
- /**
- * <p>Compares two Strings, returning <code>true</code> if they are equal ignoring
- * the case.</p>
- * <p/>
- * <p><code>null</code>s are handled without exceptions. Two <code>null</code>
- * references are considered equal. Comparison is case insensitive.</p>
- * <p/>
- * <pre>
- * StringUtils.equalsIgnoreCase(null, null) = true
- * StringUtils.equalsIgnoreCase(null, "abc") = false
- * StringUtils.equalsIgnoreCase("abc", null) = false
- * StringUtils.equalsIgnoreCase("abc", "abc") = true
- * StringUtils.equalsIgnoreCase("abc", "ABC") = true
- * </pre>
- *
- * @param str1 the first String, may be null
- * @param str2 the second String, may be null
- * @return <code>true</code> if the Strings are equal, case insensitive, or
- * both <code>null</code>
- * @see java.lang.String#equalsIgnoreCase(String)
- */
- public static boolean equalsIgnoreCase(String str1, String str2)
- {
- return str1 == null ? str2 == null : str1.equalsIgnoreCase(str2);
- }
-
- // IndexOf
- //-----------------------------------------------------------------------
-
- /**
- * <p>Finds the first index within a String, handling <code>null</code>.
- * This method uses {@link String#indexOf(int)}.</p>
- * <p/>
- * <p>A <code>null</code> or empty ("") String will return <code>-1</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.indexOf(null, *) = -1
- * StringUtils.indexOf("", *) = -1
- * StringUtils.indexOf("aabaabaa", 'a') = 0
- * StringUtils.indexOf("aabaabaa", 'b') = 2
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchChar the character to find
- * @return the first index of the search character,
- * -1 if no match or <code>null</code> string input
- * @since 2.0
- */
- public static int indexOf(String str, char searchChar)
- {
- if (isEmpty(str))
- {
- return -1;
- }
- return str.indexOf(searchChar);
- }
-
- /**
- * <p>Finds the first index within a String from a start position,
- * handling <code>null</code>.
- * This method uses {@link String#indexOf(int, int)}.</p>
- * <p/>
- * <p>A <code>null</code> or empty ("") String will return <code>-1</code>.
- * A negative start position is treated as zero.
- * A start position greater than the string length returns <code>-1</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.indexOf(null, *, *) = -1
- * StringUtils.indexOf("", *, *) = -1
- * StringUtils.indexOf("aabaabaa", 'b', 0) = 2
- * StringUtils.indexOf("aabaabaa", 'b', 3) = 5
- * StringUtils.indexOf("aabaabaa", 'b', 9) = -1
- * StringUtils.indexOf("aabaabaa", 'b', -1) = 2
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchChar the character to find
- * @param startPos the start position, negative treated as zero
- * @return the first index of the search character,
- * -1 if no match or <code>null</code> string input
- * @since 2.0
- */
- public static int indexOf(String str, char searchChar, int startPos)
- {
- if (isEmpty(str))
- {
- return -1;
- }
- return str.indexOf(searchChar, startPos);
- }
-
- /**
- * <p>Finds the first index within a String, handling <code>null</code>.
- * This method uses {@link String#indexOf(String)}.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>-1</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.indexOf(null, *) = -1
- * StringUtils.indexOf(*, null) = -1
- * StringUtils.indexOf("", "") = 0
- * StringUtils.indexOf("aabaabaa", "a") = 0
- * StringUtils.indexOf("aabaabaa", "b") = 2
- * StringUtils.indexOf("aabaabaa", "ab") = 1
- * StringUtils.indexOf("aabaabaa", "") = 0
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchStr the String to find, may be null
- * @return the first index of the search String,
- * -1 if no match or <code>null</code> string input
- * @since 2.0
- */
- public static int indexOf(String str, String searchStr)
- {
- if (str == null || searchStr == null)
- {
- return -1;
- }
- return str.indexOf(searchStr);
- }
-
- /**
- * <p>Finds the n-th index within a String, handling <code>null</code>.
- * This method uses {@link String#indexOf(String)}.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>-1</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.ordinalIndexOf(null, *, *) = -1
- * StringUtils.ordinalIndexOf(*, null, *) = -1
- * StringUtils.ordinalIndexOf("", "", *) = 0
- * StringUtils.ordinalIndexOf("aabaabaa", "a", 1) = 0
- * StringUtils.ordinalIndexOf("aabaabaa", "a", 2) = 1
- * StringUtils.ordinalIndexOf("aabaabaa", "b", 1) = 2
- * StringUtils.ordinalIndexOf("aabaabaa", "b", 2) = 5
- * StringUtils.ordinalIndexOf("aabaabaa", "ab", 1) = 1
- * StringUtils.ordinalIndexOf("aabaabaa", "ab", 2) = 4
- * StringUtils.ordinalIndexOf("aabaabaa", "", 1) = 0
- * StringUtils.ordinalIndexOf("aabaabaa", "", 2) = 0
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchStr the String to find, may be null
- * @param ordinal the n-th <code>searchStr</code> to find
- * @return the n-th index of the search String,
- * <code>-1</code> (<code>INDEX_NOT_FOUND</code>) if no match or <code>null</code> string input
- * @since 2.1
- */
- public static int ordinalIndexOf(String str, String searchStr, int ordinal)
- {
- if (str == null || searchStr == null || ordinal <= 0)
- {
- return INDEX_NOT_FOUND;
- }
- if (searchStr.length() == 0)
- {
- return 0;
- }
- int found = 0;
- int index = INDEX_NOT_FOUND;
- do
- {
- index = str.indexOf(searchStr, index + 1);
- if (index < 0)
- {
- return index;
- }
- found++;
- } while (found < ordinal);
- return index;
- }
-
- /**
- * <p>Finds the first index within a String, handling <code>null</code>.
- * This method uses {@link String#indexOf(String, int)}.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>-1</code>.
- * A negative start position is treated as zero.
- * An empty ("") search String always matches.
- * A start position greater than the string length only matches
- * an empty search String.</p>
- * <p/>
- * <pre>
- * StringUtils.indexOf(null, *, *) = -1
- * StringUtils.indexOf(*, null, *) = -1
- * StringUtils.indexOf("", "", 0) = 0
- * StringUtils.indexOf("aabaabaa", "a", 0) = 0
- * StringUtils.indexOf("aabaabaa", "b", 0) = 2
- * StringUtils.indexOf("aabaabaa", "ab", 0) = 1
- * StringUtils.indexOf("aabaabaa", "b", 3) = 5
- * StringUtils.indexOf("aabaabaa", "b", 9) = -1
- * StringUtils.indexOf("aabaabaa", "b", -1) = 2
- * StringUtils.indexOf("aabaabaa", "", 2) = 2
- * StringUtils.indexOf("abc", "", 9) = 3
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchStr the String to find, may be null
- * @param startPos the start position, negative treated as zero
- * @return the first index of the search String,
- * -1 if no match or <code>null</code> string input
- * @since 2.0
- */
- public static int indexOf(String str, String searchStr, int startPos)
- {
- if (str == null || searchStr == null)
- {
- return -1;
- }
- // JDK1.2/JDK1.3 have a bug, when startPos > str.length for "", hence
- if (searchStr.length() == 0 && startPos >= str.length())
- {
- return str.length();
- }
- return str.indexOf(searchStr, startPos);
- }
-
- // LastIndexOf
- //-----------------------------------------------------------------------
-
- /**
- * <p>Finds the last index within a String, handling <code>null</code>.
- * This method uses {@link String#lastIndexOf(int)}.</p>
- * <p/>
- * <p>A <code>null</code> or empty ("") String will return <code>-1</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.lastIndexOf(null, *) = -1
- * StringUtils.lastIndexOf("", *) = -1
- * StringUtils.lastIndexOf("aabaabaa", 'a') = 7
- * StringUtils.lastIndexOf("aabaabaa", 'b') = 5
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchChar the character to find
- * @return the last index of the search character,
- * -1 if no match or <code>null</code> string input
- * @since 2.0
- */
- public static int lastIndexOf(String str, char searchChar)
- {
- if (isEmpty(str))
- {
- return -1;
- }
- return str.lastIndexOf(searchChar);
- }
-
- /**
- * <p>Finds the last index within a String from a start position,
- * handling <code>null</code>.
- * This method uses {@link String#lastIndexOf(int, int)}.</p>
- * <p/>
- * <p>A <code>null</code> or empty ("") String will return <code>-1</code>.
- * A negative start position returns <code>-1</code>.
- * A start position greater than the string length searches the whole string.</p>
- * <p/>
- * <pre>
- * StringUtils.lastIndexOf(null, *, *) = -1
- * StringUtils.lastIndexOf("", *, *) = -1
- * StringUtils.lastIndexOf("aabaabaa", 'b', 8) = 5
- * StringUtils.lastIndexOf("aabaabaa", 'b', 4) = 2
- * StringUtils.lastIndexOf("aabaabaa", 'b', 0) = -1
- * StringUtils.lastIndexOf("aabaabaa", 'b', 9) = 5
- * StringUtils.lastIndexOf("aabaabaa", 'b', -1) = -1
- * StringUtils.lastIndexOf("aabaabaa", 'a', 0) = 0
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchChar the character to find
- * @param startPos the start position
- * @return the last index of the search character,
- * -1 if no match or <code>null</code> string input
- * @since 2.0
- */
- public static int lastIndexOf(String str, char searchChar, int startPos)
- {
- if (isEmpty(str))
- {
- return -1;
- }
- return str.lastIndexOf(searchChar, startPos);
- }
-
- /**
- * <p>Finds the last index within a String, handling <code>null</code>.
- * This method uses {@link String#lastIndexOf(String)}.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>-1</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.lastIndexOf(null, *) = -1
- * StringUtils.lastIndexOf(*, null) = -1
- * StringUtils.lastIndexOf("", "") = 0
- * StringUtils.lastIndexOf("aabaabaa", "a") = 0
- * StringUtils.lastIndexOf("aabaabaa", "b") = 2
- * StringUtils.lastIndexOf("aabaabaa", "ab") = 1
- * StringUtils.lastIndexOf("aabaabaa", "") = 8
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchStr the String to find, may be null
- * @return the last index of the search String,
- * -1 if no match or <code>null</code> string input
- * @since 2.0
- */
- public static int lastIndexOf(String str, String searchStr)
- {
- if (str == null || searchStr == null)
- {
- return -1;
- }
- return str.lastIndexOf(searchStr);
- }
-
- /**
- * <p>Finds the first index within a String, handling <code>null</code>.
- * This method uses {@link String#lastIndexOf(String, int)}.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>-1</code>.
- * A negative start position returns <code>-1</code>.
- * An empty ("") search String always matches unless the start position is negative.
- * A start position greater than the string length searches the whole string.</p>
- * <p/>
- * <pre>
- * StringUtils.lastIndexOf(null, *, *) = -1
- * StringUtils.lastIndexOf(*, null, *) = -1
- * StringUtils.lastIndexOf("aabaabaa", "a", 8) = 7
- * StringUtils.lastIndexOf("aabaabaa", "b", 8) = 5
- * StringUtils.lastIndexOf("aabaabaa", "ab", 8) = 4
- * StringUtils.lastIndexOf("aabaabaa", "b", 9) = 5
- * StringUtils.lastIndexOf("aabaabaa", "b", -1) = -1
- * StringUtils.lastIndexOf("aabaabaa", "a", 0) = 0
- * StringUtils.lastIndexOf("aabaabaa", "b", 0) = -1
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchStr the String to find, may be null
- * @param startPos the start position, negative treated as zero
- * @return the first index of the search String,
- * -1 if no match or <code>null</code> string input
- * @since 2.0
- */
- public static int lastIndexOf(String str, String searchStr, int startPos)
- {
- if (str == null || searchStr == null)
- {
- return -1;
- }
- return str.lastIndexOf(searchStr, startPos);
- }
-
- // Contains
- //-----------------------------------------------------------------------
-
- /**
- * <p>Checks if String contains a search character, handling <code>null</code>.
- * This method uses {@link String#indexOf(int)}.</p>
- * <p/>
- * <p>A <code>null</code> or empty ("") String will return <code>false</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.contains(null, *) = false
- * StringUtils.contains("", *) = false
- * StringUtils.contains("abc", 'a') = true
- * StringUtils.contains("abc", 'z') = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchChar the character to find
- * @return true if the String contains the search character,
- * false if not or <code>null</code> string input
- * @since 2.0
- */
- public static boolean contains(String str, char searchChar)
- {
- if (isEmpty(str))
- {
- return false;
- }
- return str.indexOf(searchChar) >= 0;
- }
-
- /**
- * <p>Checks if String contains a search String, handling <code>null</code>.
- * This method uses {@link String#indexOf(String)}.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>false</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.contains(null, *) = false
- * StringUtils.contains(*, null) = false
- * StringUtils.contains("", "") = true
- * StringUtils.contains("abc", "") = true
- * StringUtils.contains("abc", "a") = true
- * StringUtils.contains("abc", "z") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchStr the String to find, may be null
- * @return true if the String contains the search String,
- * false if not or <code>null</code> string input
- * @since 2.0
- */
- public static boolean contains(String str, String searchStr)
- {
- if (str == null || searchStr == null)
- {
- return false;
- }
- return str.indexOf(searchStr) >= 0;
- }
-
- /**
- * <p>Checks if String contains a search String irrespective of case,
- * handling <code>null</code>. This method uses
- * {@link #contains(String, String)}.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>false</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.contains(null, *) = false
- * StringUtils.contains(*, null) = false
- * StringUtils.contains("", "") = true
- * StringUtils.contains("abc", "") = true
- * StringUtils.contains("abc", "a") = true
- * StringUtils.contains("abc", "z") = false
- * StringUtils.contains("abc", "A") = true
- * StringUtils.contains("abc", "Z") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchStr the String to find, may be null
- * @return true if the String contains the search String irrespective of
- * case or false if not or <code>null</code> string input
- */
- public static boolean containsIgnoreCase(String str, String searchStr)
- {
- if (str == null || searchStr == null)
- {
- return false;
- }
- return contains(str.toUpperCase(), searchStr.toUpperCase());
- }
-
- // ContainsAny
- //-----------------------------------------------------------------------
-
- /**
- * <p>Checks if the String contains any character in the given
- * set of characters.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>false</code>.
- * A <code>null</code> or zero length search array will return <code>false</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.containsAny(null, *) = false
- * StringUtils.containsAny("", *) = false
- * StringUtils.containsAny(*, null) = false
- * StringUtils.containsAny(*, []) = false
- * StringUtils.containsAny("zzabyycdxx",['z','a']) = true
- * StringUtils.containsAny("zzabyycdxx",['b','y']) = true
- * StringUtils.containsAny("aba", ['z']) = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchChars the chars to search for, may be null
- * @return the <code>true</code> if any of the chars are found,
- * <code>false</code> if no match or null input
- * @since 2.4
- */
- public static boolean containsAny(String str, char[] searchChars)
- {
- if (str == null || str.length() == 0 || searchChars == null || searchChars.length == 0)
- {
- return false;
- }
- for (int i = 0; i < str.length(); i++)
- {
- char ch = str.charAt(i);
- for (int j = 0; j < searchChars.length; j++)
- {
- if (searchChars[j] == ch)
- {
- return true;
- }
- }
- }
- return false;
- }
-
- /**
- * <p>
- * Checks if the String contains any character in the given set of characters.
- * </p>
- * <p/>
- * <p>
- * A <code>null</code> String will return <code>false</code>. A <code>null</code> search string will return
- * <code>false</code>.
- * </p>
- * <p/>
- * <pre>
- * StringUtils.containsAny(null, *) = false
- * StringUtils.containsAny("", *) = false
- * StringUtils.containsAny(*, null) = false
- * StringUtils.containsAny(*, "") = false
- * StringUtils.containsAny("zzabyycdxx", "za") = true
- * StringUtils.containsAny("zzabyycdxx", "by") = true
- * StringUtils.containsAny("aba","z") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchChars the chars to search for, may be null
- * @return the <code>true</code> if any of the chars are found, <code>false</code> if no match or null input
- * @since 2.4
- */
- public static boolean containsAny(String str, String searchChars)
- {
- if (searchChars == null)
- {
- return false;
- }
- return containsAny(str, searchChars.toCharArray());
- }
-
- /**
- * <p>Search a String to find the first index of any
- * character not in the given set of characters.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>-1</code>.
- * A <code>null</code> search string will return <code>-1</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.indexOfAnyBut(null, *) = -1
- * StringUtils.indexOfAnyBut("", *) = -1
- * StringUtils.indexOfAnyBut(*, null) = -1
- * StringUtils.indexOfAnyBut(*, "") = -1
- * StringUtils.indexOfAnyBut("zzabyycdxx", "za") = 3
- * StringUtils.indexOfAnyBut("zzabyycdxx", "") = 0
- * StringUtils.indexOfAnyBut("aba","ab") = -1
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchChars the chars to search for, may be null
- * @return the index of any of the chars, -1 if no match or null input
- * @since 2.0
- */
- public static int indexOfAnyBut(String str, String searchChars)
- {
- if (isEmpty(str) || isEmpty(searchChars))
- {
- return -1;
- }
- for (int i = 0; i < str.length(); i++)
- {
- if (searchChars.indexOf(str.charAt(i)) < 0)
- {
- return i;
- }
- }
- return -1;
- }
-
- // ContainsNone
- //-----------------------------------------------------------------------
-
- /**
- * <p>Checks that the String does not contain certain characters.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>true</code>.
- * A <code>null</code> invalid character array will return <code>true</code>.
- * An empty String ("") always returns true.</p>
- * <p/>
- * <pre>
- * StringUtils.containsNone(null, *) = true
- * StringUtils.containsNone(*, null) = true
- * StringUtils.containsNone("", *) = true
- * StringUtils.containsNone("ab", '') = true
- * StringUtils.containsNone("abab", 'xyz') = true
- * StringUtils.containsNone("ab1", 'xyz') = true
- * StringUtils.containsNone("abz", 'xyz') = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @param invalidChars an array of invalid chars, may be null
- * @return true if it contains none of the invalid chars, or is null
- * @since 2.0
- */
- public static boolean containsNone(String str, char[] invalidChars)
- {
- if (str == null || invalidChars == null)
- {
- return true;
- }
- int strSize = str.length();
- int validSize = invalidChars.length;
- for (int i = 0; i < strSize; i++)
- {
- char ch = str.charAt(i);
- for (int j = 0; j < validSize; j++)
- {
- if (invalidChars[j] == ch)
- {
- return false;
- }
- }
- }
- return true;
- }
-
- /**
- * <p>Checks that the String does not contain certain characters.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>true</code>.
- * A <code>null</code> invalid character array will return <code>true</code>.
- * An empty String ("") always returns true.</p>
- * <p/>
- * <pre>
- * StringUtils.containsNone(null, *) = true
- * StringUtils.containsNone(*, null) = true
- * StringUtils.containsNone("", *) = true
- * StringUtils.containsNone("ab", "") = true
- * StringUtils.containsNone("abab", "xyz") = true
- * StringUtils.containsNone("ab1", "xyz") = true
- * StringUtils.containsNone("abz", "xyz") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @param invalidChars a String of invalid chars, may be null
- * @return true if it contains none of the invalid chars, or is null
- * @since 2.0
- */
- public static boolean containsNone(String str, String invalidChars)
- {
- if (str == null || invalidChars == null)
- {
- return true;
- }
- return containsNone(str, invalidChars.toCharArray());
- }
-
- // IndexOfAny strings
- //-----------------------------------------------------------------------
-
- /**
- * <p>Find the first index of any of a set of potential substrings.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>-1</code>.
- * A <code>null</code> or zero length search array will return <code>-1</code>.
- * A <code>null</code> search array entry will be ignored, but a search
- * array containing "" will return <code>0</code> if <code>str</code> is not
- * null. This method uses {@link String#indexOf(String)}.</p>
- * <p/>
- * <pre>
- * StringUtils.indexOfAny(null, *) = -1
- * StringUtils.indexOfAny(*, null) = -1
- * StringUtils.indexOfAny(*, []) = -1
- * StringUtils.indexOfAny("zzabyycdxx", ["ab","cd"]) = 2
- * StringUtils.indexOfAny("zzabyycdxx", ["cd","ab"]) = 2
- * StringUtils.indexOfAny("zzabyycdxx", ["mn","op"]) = -1
- * StringUtils.indexOfAny("zzabyycdxx", ["zab","aby"]) = 1
- * StringUtils.indexOfAny("zzabyycdxx", [""]) = 0
- * StringUtils.indexOfAny("", [""]) = 0
- * StringUtils.indexOfAny("", ["a"]) = -1
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchStrs the Strings to search for, may be null
- * @return the first index of any of the searchStrs in str, -1 if no match
- */
- public static int indexOfAny(String str, String[] searchStrs)
- {
- if ((str == null) || (searchStrs == null))
- {
- return -1;
- }
- int sz = searchStrs.length;
-
- // String's can't have a MAX_VALUEth index.
- int ret = Integer.MAX_VALUE;
-
- int tmp = 0;
- for (int i = 0; i < sz; i++)
- {
- String search = searchStrs[i];
- if (search == null)
- {
- continue;
- }
- tmp = str.indexOf(search);
- if (tmp == -1)
- {
- continue;
- }
-
- if (tmp < ret)
- {
- ret = tmp;
- }
- }
-
- return (ret == Integer.MAX_VALUE) ? -1 : ret;
- }
-
- /**
- * <p>Find the latest index of any of a set of potential substrings.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>-1</code>.
- * A <code>null</code> search array will return <code>-1</code>.
- * A <code>null</code> or zero length search array entry will be ignored,
- * but a search array containing "" will return the length of <code>str</code>
- * if <code>str</code> is not null. This method uses {@link String#indexOf(String)}</p>
- * <p/>
- * <pre>
- * StringUtils.lastIndexOfAny(null, *) = -1
- * StringUtils.lastIndexOfAny(*, null) = -1
- * StringUtils.lastIndexOfAny(*, []) = -1
- * StringUtils.lastIndexOfAny(*, [null]) = -1
- * StringUtils.lastIndexOfAny("zzabyycdxx", ["ab","cd"]) = 6
- * StringUtils.lastIndexOfAny("zzabyycdxx", ["cd","ab"]) = 6
- * StringUtils.lastIndexOfAny("zzabyycdxx", ["mn","op"]) = -1
- * StringUtils.lastIndexOfAny("zzabyycdxx", ["mn","op"]) = -1
- * StringUtils.lastIndexOfAny("zzabyycdxx", ["mn",""]) = 10
- * </pre>
- *
- * @param str the String to check, may be null
- * @param searchStrs the Strings to search for, may be null
- * @return the last index of any of the Strings, -1 if no match
- */
- public static int lastIndexOfAny(String str, String[] searchStrs)
- {
- if ((str == null) || (searchStrs == null))
- {
- return -1;
- }
- int sz = searchStrs.length;
- int ret = -1;
- int tmp = 0;
- for (int i = 0; i < sz; i++)
- {
- String search = searchStrs[i];
- if (search == null)
- {
- continue;
- }
- tmp = str.lastIndexOf(search);
- if (tmp > ret)
- {
- ret = tmp;
- }
- }
- return ret;
- }
-
- // Substring
- //-----------------------------------------------------------------------
-
- /**
- * <p>Gets a substring from the specified String avoiding exceptions.</p>
- * <p/>
- * <p>A negative start position can be used to start <code>n</code>
- * characters from the end of the String.</p>
- * <p/>
- * <p>A <code>null</code> String will return <code>null</code>.
- * An empty ("") String will return "".</p>
- * <p/>
- * <pre>
- * StringUtils.substring(null, *) = null
- * StringUtils.substring("", *) = ""
- * StringUtils.substring("abc", 0) = "abc"
- * StringUtils.substring("abc", 2) = "c"
- * StringUtils.substring("abc", 4) = ""
- * StringUtils.substring("abc", -2) = "bc"
- * StringUtils.substring("abc", -4) = "abc"
- * </pre>
- *
- * @param str the String to get the substring from, may be null
- * @param start the position to start from, negative means
- * count back from the end of the String by this many characters
- * @return substring from start position, <code>null</code> if null String input
- */
- public static String substring(String str, int start)
- {
- if (str == null)
- {
- return null;
- }
-
- // handle negatives, which means last n characters
- if (start < 0)
- {
- start = str.length() + start; // remember start is negative
- }
-
- if (start < 0)
- {
- start = 0;
- }
- if (start > str.length())
- {
- return EMPTY;
- }
-
- return str.substring(start);
- }
-
- /**
- * <p>Gets a substring from the specified String avoiding exceptions.</p>
- * <p/>
- * <p>A negative start position can be used to start/end <code>n</code>
- * characters from the end of the String.</p>
- * <p/>
- * <p>The returned substring starts with the character in the <code>start</code>
- * position and ends before the <code>end</code> position. All position counting is
- * zero-based -- i.e., to start at the beginning of the string use
- * <code>start = 0</code>. Negative start and end positions can be used to
- * specify offsets relative to the end of the String.</p>
- * <p/>
- * <p>If <code>start</code> is not strictly to the left of <code>end</code>, ""
- * is returned.</p>
- * <p/>
- * <pre>
- * StringUtils.substring(null, *, *) = null
- * StringUtils.substring("", * , *) = "";
- * StringUtils.substring("abc", 0, 2) = "ab"
- * StringUtils.substring("abc", 2, 0) = ""
- * StringUtils.substring("abc", 2, 4) = "c"
- * StringUtils.substring("abc", 4, 6) = ""
- * StringUtils.substring("abc", 2, 2) = ""
- * StringUtils.substring("abc", -2, -1) = "b"
- * StringUtils.substring("abc", -4, 2) = "ab"
- * </pre>
- *
- * @param str the String to get the substring from, may be null
- * @param start the position to start from, negative means
- * count back from the end of the String by this many characters
- * @param end the position to end at (exclusive), negative means
- * count back from the end of the String by this many characters
- * @return substring from start position to end positon,
- * <code>null</code> if null String input
- */
- public static String substring(String str, int start, int end)
- {
- if (str == null)
- {
- return null;
- }
-
- // handle negatives
- if (end < 0)
- {
- end = str.length() + end; // remember end is negative
- }
- if (start < 0)
- {
- start = str.length() + start; // remember start is negative
- }
-
- // check length next
- if (end > str.length())
- {
- end = str.length();
- }
-
- // if start is greater than end, return ""
- if (start > end)
- {
- return EMPTY;
- }
-
- if (start < 0)
- {
- start = 0;
- }
- if (end < 0)
- {
- end = 0;
- }
-
- return str.substring(start, end);
- }
-
- // Left/Right/Mid
- //-----------------------------------------------------------------------
-
- /**
- * <p>Gets the leftmost <code>len</code> characters of a String.</p>
- * <p/>
- * <p>If <code>len</code> characters are not available, or the
- * String is <code>null</code>, the String will be returned without
- * an exception. An exception is thrown if len is negative.</p>
- * <p/>
- * <pre>
- * StringUtils.left(null, *) = null
- * StringUtils.left(*, -ve) = ""
- * StringUtils.left("", *) = ""
- * StringUtils.left("abc", 0) = ""
- * StringUtils.left("abc", 2) = "ab"
- * StringUtils.left("abc", 4) = "abc"
- * </pre>
- *
- * @param str the String to get the leftmost characters from, may be null
- * @param len the length of the required String, must be zero or positive
- * @return the leftmost characters, <code>null</code> if null String input
- */
- public static String left(String str, int len)
- {
- if (str == null)
- {
- return null;
- }
- if (len < 0)
- {
- return EMPTY;
- }
- if (str.length() <= len)
- {
- return str;
- }
- return str.substring(0, len);
- }
-
- /**
- * <p>Gets the rightmost <code>len</code> characters of a String.</p>
- * <p/>
- * <p>If <code>len</code> characters are not available, or the String
- * is <code>null</code>, the String will be returned without an
- * an exception. An exception is thrown if len is negative.</p>
- * <p/>
- * <pre>
- * StringUtils.right(null, *) = null
- * StringUtils.right(*, -ve) = ""
- * StringUtils.right("", *) = ""
- * StringUtils.right("abc", 0) = ""
- * StringUtils.right("abc", 2) = "bc"
- * StringUtils.right("abc", 4) = "abc"
- * </pre>
- *
- * @param str the String to get the rightmost characters from, may be null
- * @param len the length of the required String, must be zero or positive
- * @return the rightmost characters, <code>null</code> if null String input
- */
- public static String right(String str, int len)
- {
- if (str == null)
- {
- return null;
- }
- if (len < 0)
- {
- return EMPTY;
- }
- if (str.length() <= len)
- {
- return str;
- }
- return str.substring(str.length() - len);
- }
-
- /**
- * <p>Gets <code>len</code> characters from the middle of a String.</p>
- * <p/>
- * <p>If <code>len</code> characters are not available, the remainder
- * of the String will be returned without an exception. If the
- * String is <code>null</code>, <code>null</code> will be returned.
- * An exception is thrown if len is negative.</p>
- * <p/>
- * <pre>
- * StringUtils.mid(null, *, *) = null
- * StringUtils.mid(*, *, -ve) = ""
- * StringUtils.mid("", 0, *) = ""
- * StringUtils.mid("abc", 0, 2) = "ab"
- * StringUtils.mid("abc", 0, 4) = "abc"
- * StringUtils.mid("abc", 2, 4) = "c"
- * StringUtils.mid("abc", 4, 2) = ""
- * StringUtils.mid("abc", -2, 2) = "ab"
- * </pre>
- *
- * @param str the String to get the characters from, may be null
- * @param pos the position to start from, negative treated as zero
- * @param len the length of the required String, must be zero or positive
- * @return the middle characters, <code>null</code> if null String input
- */
- public static String mid(String str, int pos, int len)
- {
- if (str == null)
- {
- return null;
- }
- if (len < 0 || pos > str.length())
- {
- return EMPTY;
- }
- if (pos < 0)
- {
- pos = 0;
- }
- if (str.length() <= (pos + len))
- {
- return str.substring(pos);
- }
- return str.substring(pos, pos + len);
- }
-
- // SubStringAfter/SubStringBefore
- //-----------------------------------------------------------------------
-
- /**
- * <p>Gets the substring before the first occurrence of a separator.
- * The separator is not returned.</p>
- * <p/>
- * <p>A <code>null</code> string input will return <code>null</code>.
- * An empty ("") string input will return the empty string.
- * A <code>null</code> separator will return the input string.</p>
- * <p/>
- * <pre>
- * StringUtils.substringBefore(null, *) = null
- * StringUtils.substringBefore("", *) = ""
- * StringUtils.substringBefore("abc", "a") = ""
- * StringUtils.substringBefore("abcba", "b") = "a"
- * StringUtils.substringBefore("abc", "c") = "ab"
- * StringUtils.substringBefore("abc", "d") = "abc"
- * StringUtils.substringBefore("abc", "") = ""
- * StringUtils.substringBefore("abc", null) = "abc"
- * </pre>
- *
- * @param str the String to get a substring from, may be null
- * @param separator the String to search for, may be null
- * @return the substring before the first occurrence of the separator,
- * <code>null</code> if null String input
- * @since 2.0
- */
- public static String substringBefore(String str, String separator)
- {
- if (isEmpty(str) || separator == null)
- {
- return str;
- }
- if (separator.length() == 0)
- {
- return EMPTY;
- }
- int pos = str.indexOf(separator);
- if (pos == -1)
- {
- return str;
- }
- return str.substring(0, pos);
- }
-
- /**
- * <p>Gets the substring after the first occurrence of a separator.
- * The separator is not returned.</p>
- * <p/>
- * <p>A <code>null</code> string input will return <code>null</code>.
- * An empty ("") string input will return the empty string.
- * A <code>null</code> separator will return the empty string if the
- * input string is not <code>null</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.substringAfter(null, *) = null
- * StringUtils.substringAfter("", *) = ""
- * StringUtils.substringAfter(*, null) = ""
- * StringUtils.substringAfter("abc", "a") = "bc"
- * StringUtils.substringAfter("abcba", "b") = "cba"
- * StringUtils.substringAfter("abc", "c") = ""
- * StringUtils.substringAfter("abc", "d") = ""
- * StringUtils.substringAfter("abc", "") = "abc"
- * </pre>
- *
- * @param str the String to get a substring from, may be null
- * @param separator the String to search for, may be null
- * @return the substring after the first occurrence of the separator,
- * <code>null</code> if null String input
- * @since 2.0
- */
- public static String substringAfter(String str, String separator)
- {
- if (isEmpty(str))
- {
- return str;
- }
- if (separator == null)
- {
- return EMPTY;
- }
- int pos = str.indexOf(separator);
- if (pos == -1)
- {
- return EMPTY;
- }
- return str.substring(pos + separator.length());
- }
-
- /**
- * <p>Gets the substring before the last occurrence of a separator.
- * The separator is not returned.</p>
- * <p/>
- * <p>A <code>null</code> string input will return <code>null</code>.
- * An empty ("") string input will return the empty string.
- * An empty or <code>null</code> separator will return the input string.</p>
- * <p/>
- * <pre>
- * StringUtils.substringBeforeLast(null, *) = null
- * StringUtils.substringBeforeLast("", *) = ""
- * StringUtils.substringBeforeLast("abcba", "b") = "abc"
- * StringUtils.substringBeforeLast("abc", "c") = "ab"
- * StringUtils.substringBeforeLast("a", "a") = ""
- * StringUtils.substringBeforeLast("a", "z") = "a"
- * StringUtils.substringBeforeLast("a", null) = "a"
- * StringUtils.substringBeforeLast("a", "") = "a"
- * </pre>
- *
- * @param str the String to get a substring from, may be null
- * @param separator the String to search for, may be null
- * @return the substring before the last occurrence of the separator,
- * <code>null</code> if null String input
- * @since 2.0
- */
- public static String substringBeforeLast(String str, String separator)
- {
- if (isEmpty(str) || isEmpty(separator))
- {
- return str;
- }
- int pos = str.lastIndexOf(separator);
- if (pos == -1)
- {
- return str;
- }
- return str.substring(0, pos);
- }
-
- /**
- * <p>Gets the substring after the last occurrence of a separator.
- * The separator is not returned.</p>
- * <p/>
- * <p>A <code>null</code> string input will return <code>null</code>.
- * An empty ("") string input will return the empty string.
- * An empty or <code>null</code> separator will return the empty string if
- * the input string is not <code>null</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.substringAfterLast(null, *) = null
- * StringUtils.substringAfterLast("", *) = ""
- * StringUtils.substringAfterLast(*, "") = ""
- * StringUtils.substringAfterLast(*, null) = ""
- * StringUtils.substringAfterLast("abc", "a") = "bc"
- * StringUtils.substringAfterLast("abcba", "b") = "a"
- * StringUtils.substringAfterLast("abc", "c") = ""
- * StringUtils.substringAfterLast("a", "a") = ""
- * StringUtils.substringAfterLast("a", "z") = ""
- * </pre>
- *
- * @param str the String to get a substring from, may be null
- * @param separator the String to search for, may be null
- * @return the substring after the last occurrence of the separator,
- * <code>null</code> if null String input
- * @since 2.0
- */
- public static String substringAfterLast(String str, String separator)
- {
- if (isEmpty(str))
- {
- return str;
- }
- if (isEmpty(separator))
- {
- return EMPTY;
- }
- int pos = str.lastIndexOf(separator);
- if (pos == -1 || pos == (str.length() - separator.length()))
- {
- return EMPTY;
- }
- return str.substring(pos + separator.length());
- }
-
- // Substring between
- //-----------------------------------------------------------------------
-
- /**
- * <p>Gets the String that is nested in between two instances of the
- * same String.</p>
- * <p/>
- * <p>A <code>null</code> input String returns <code>null</code>.
- * A <code>null</code> tag returns <code>null</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.substringBetween(null, *) = null
- * StringUtils.substringBetween("", "") = ""
- * StringUtils.substringBetween("", "tag") = null
- * StringUtils.substringBetween("tagabctag", null) = null
- * StringUtils.substringBetween("tagabctag", "") = ""
- * StringUtils.substringBetween("tagabctag", "tag") = "abc"
- * </pre>
- *
- * @param str the String containing the substring, may be null
- * @param tag the String before and after the substring, may be null
- * @return the substring, <code>null</code> if no match
- * @since 2.0
- */
- public static String substringBetween(String str, String tag)
- {
- return substringBetween(str, tag, tag);
- }
-
- /**
- * <p>Gets the String that is nested in between two Strings.
- * Only the first match is returned.</p>
- * <p/>
- * <p>A <code>null</code> input String returns <code>null</code>.
- * A <code>null</code> open/close returns <code>null</code> (no match).
- * An empty ("") open and close returns an empty string.</p>
- * <p/>
- * <pre>
- * StringUtils.substringBetween("wx[b]yz", "[", "]") = "b"
- * StringUtils.substringBetween(null, *, *) = null
- * StringUtils.substringBetween(*, null, *) = null
- * StringUtils.substringBetween(*, *, null) = null
- * StringUtils.substringBetween("", "", "") = ""
- * StringUtils.substringBetween("", "", "]") = null
- * StringUtils.substringBetween("", "[", "]") = null
- * StringUtils.substringBetween("yabcz", "", "") = ""
- * StringUtils.substringBetween("yabcz", "y", "z") = "abc"
- * StringUtils.substringBetween("yabczyabcz", "y", "z") = "abc"
- * </pre>
- *
- * @param str the String containing the substring, may be null
- * @param open the String before the substring, may be null
- * @param close the String after the substring, may be null
- * @return the substring, <code>null</code> if no match
- * @since 2.0
- */
- public static String substringBetween(String str, String open, String close)
- {
- if (str == null || open == null || close == null)
- {
- return null;
- }
- int start = str.indexOf(open);
- if (start != -1)
- {
- int end = str.indexOf(close, start + open.length());
- if (end != -1)
- {
- return str.substring(start + open.length(), end);
- }
- }
- return null;
- }
-
- // Joining
- //-----------------------------------------------------------------------
-
- /**
- * <p>Concatenates elements of an array into a single String.
- * Null objects or empty strings within the array are represented by
- * empty strings.</p>
- * <p/>
- * <pre>
- * StringUtils.concatenate(null) = null
- * StringUtils.concatenate([]) = ""
- * StringUtils.concatenate([null]) = ""
- * StringUtils.concatenate(["a", "b", "c"]) = "abc"
- * StringUtils.concatenate([null, "", "a"]) = "a"
- * </pre>
- *
- * @param array the array of values to concatenate, may be null
- * @return the concatenated String, <code>null</code> if null array input
- * @deprecated Use the better named {@link #join(Object[])} instead.
- * Method will be removed in Commons Lang 3.0.
- */
- public static String concatenate(Object[] array)
- {
- return join(array, null);
- }
-
- /**
- * <p>Joins the elements of the provided array into a single String
- * containing the provided list of elements.</p>
- * <p/>
- * <p>No separator is added to the joined String.
- * Null objects or empty strings within the array are represented by
- * empty strings.</p>
- * <p/>
- * <pre>
- * StringUtils.join(null) = null
- * StringUtils.join([]) = ""
- * StringUtils.join([null]) = ""
- * StringUtils.join(["a", "b", "c"]) = "abc"
- * StringUtils.join([null, "", "a"]) = "a"
- * </pre>
- *
- * @param array the array of values to join together, may be null
- * @return the joined String, <code>null</code> if null array input
- * @since 2.0
- */
- public static String join(Object[] array)
- {
- return join(array, null);
- }
-
- /**
- * <p>Joins the elements of the provided array into a single String
- * containing the provided list of elements.</p>
- * <p/>
- * <p>No delimiter is added before or after the list.
- * Null objects or empty strings within the array are represented by
- * empty strings.</p>
- * <p/>
- * <pre>
- * StringUtils.join(null, *) = null
- * StringUtils.join([], *) = ""
- * StringUtils.join([null], *) = ""
- * StringUtils.join(["a", "b", "c"], ';') = "a;b;c"
- * StringUtils.join(["a", "b", "c"], null) = "abc"
- * StringUtils.join([null, "", "a"], ';') = ";;a"
- * </pre>
- *
- * @param array the array of values to join together, may be null
- * @param separator the separator character to use
- * @return the joined String, <code>null</code> if null array input
- * @since 2.0
- */
- public static String join(Object[] array, char separator)
- {
- if (array == null)
- {
- return null;
- }
-
- return join(array, separator, 0, array.length);
- }
-
- /**
- * <p>Joins the elements of the provided array into a single String
- * containing the provided list of elements.</p>
- * <p/>
- * <p>No delimiter is added before or after the list.
- * Null objects or empty strings within the array are represented by
- * empty strings.</p>
- * <p/>
- * <pre>
- * StringUtils.join(null, *) = null
- * StringUtils.join([], *) = ""
- * StringUtils.join([null], *) = ""
- * StringUtils.join(["a", "b", "c"], ';') = "a;b;c"
- * StringUtils.join(["a", "b", "c"], null) = "abc"
- * StringUtils.join([null, "", "a"], ';') = ";;a"
- * </pre>
- *
- * @param array the array of values to join together, may be null
- * @param separator the separator character to use
- * @param startIndex the first index to start joining from. It is
- * an error to pass in an end index past the end of the array
- * @param endIndex the index to stop joining from (exclusive). It is
- * an error to pass in an end index past the end of the array
- * @return the joined String, <code>null</code> if null array input
- * @since 2.0
- */
- public static String join(Object[] array, char separator, int startIndex, int endIndex)
- {
- if (array == null)
- {
- return null;
- }
- int bufSize = (endIndex - startIndex);
- if (bufSize <= 0)
- {
- return EMPTY;
- }
-
- bufSize *= ((array[startIndex] == null ? 16 : array[startIndex].toString().length()) + 1);
- StringBuffer buf = new StringBuffer(bufSize);
-
- for (int i = startIndex; i < endIndex; i++)
- {
- if (i > startIndex)
- {
- buf.append(separator);
- }
- if (array[i] != null)
- {
- buf.append(array[i]);
- }
- }
- return buf.toString();
- }
-
-
- /**
- * <p>Joins the elements of the provided array into a single String
- * containing the provided list of elements.</p>
- * <p/>
- * <p>No delimiter is added before or after the list.
- * A <code>null</code> separator is the same as an empty String ("").
- * Null objects or empty strings within the array are represented by
- * empty strings.</p>
- * <p/>
- * <pre>
- * StringUtils.join(null, *) = null
- * StringUtils.join([], *) = ""
- * StringUtils.join([null], *) = ""
- * StringUtils.join(["a", "b", "c"], "--") = "a--b--c"
- * StringUtils.join(["a", "b", "c"], null) = "abc"
- * StringUtils.join(["a", "b", "c"], "") = "abc"
- * StringUtils.join([null, "", "a"], ',') = ",,a"
- * </pre>
- *
- * @param array the array of values to join together, may be null
- * @param separator the separator character to use, null treated as ""
- * @return the joined String, <code>null</code> if null array input
- */
- public static String join(Object[] array, String separator)
- {
- if (array == null)
- {
- return null;
- }
- return join(array, separator, 0, array.length);
- }
-
- /**
- * <p>Joins the elements of the provided array into a single String
- * containing the provided list of elements.</p>
- * <p/>
- * <p>No delimiter is added before or after the list.
- * A <code>null</code> separator is the same as an empty String ("").
- * Null objects or empty strings within the array are represented by
- * empty strings.</p>
- * <p/>
- * <pre>
- * StringUtils.join(null, *) = null
- * StringUtils.join([], *) = ""
- * StringUtils.join([null], *) = ""
- * StringUtils.join(["a", "b", "c"], "--") = "a--b--c"
- * StringUtils.join(["a", "b", "c"], null) = "abc"
- * StringUtils.join(["a", "b", "c"], "") = "abc"
- * StringUtils.join([null, "", "a"], ',') = ",,a"
- * </pre>
- *
- * @param array the array of values to join together, may be null
- * @param separator the separator character to use, null treated as ""
- * @param startIndex the first index to start joining from. It is
- * an error to pass in an end index past the end of the array
- * @param endIndex the index to stop joining from (exclusive). It is
- * an error to pass in an end index past the end of the array
- * @return the joined String, <code>null</code> if null array input
- */
- public static String join(Object[] array, String separator, int startIndex, int endIndex)
- {
- if (array == null)
- {
- return null;
- }
- if (separator == null)
- {
- separator = EMPTY;
- }
-
- // endIndex - startIndex > 0: Len = NofStrings *(len(firstString) + len(separator))
- // (Assuming that all Strings are roughly equally long)
- int bufSize = (endIndex - startIndex);
- if (bufSize <= 0)
- {
- return EMPTY;
- }
-
- bufSize *= ((array[startIndex] == null ? 16 : array[startIndex].toString().length())
- + separator.length());
-
- StringBuffer buf = new StringBuffer(bufSize);
-
- for (int i = startIndex; i < endIndex; i++)
- {
- if (i > startIndex)
- {
- buf.append(separator);
- }
- if (array[i] != null)
- {
- buf.append(array[i]);
- }
- }
- return buf.toString();
- }
-
- // Delete
- //-----------------------------------------------------------------------
-
- /**
- * <p>Deletes all whitespaces from a String as defined by
- * {@link Character#isWhitespace(char)}.</p>
- * <p/>
- * <pre>
- * StringUtils.deleteWhitespace(null) = null
- * StringUtils.deleteWhitespace("") = ""
- * StringUtils.deleteWhitespace("abc") = "abc"
- * StringUtils.deleteWhitespace(" ab c ") = "abc"
- * </pre>
- *
- * @param str the String to delete whitespace from, may be null
- * @return the String without whitespaces, <code>null</code> if null String input
- */
- public static String deleteWhitespace(String str)
- {
- if (isEmpty(str))
- {
- return str;
- }
- int sz = str.length();
- char[] chs = new char[sz];
- int count = 0;
- for (int i = 0; i < sz; i++)
- {
- if (!Character.isWhitespace(str.charAt(i)))
- {
- chs[count++] = str.charAt(i);
- }
- }
- if (count == sz)
- {
- return str;
- }
- return new String(chs, 0, count);
- }
-
- // Remove
- //-----------------------------------------------------------------------
-
- /**
- * <p>Removes a substring only if it is at the begining of a source string,
- * otherwise returns the source string.</p>
- * <p/>
- * <p>A <code>null</code> source string will return <code>null</code>.
- * An empty ("") source string will return the empty string.
- * A <code>null</code> search string will return the source string.</p>
- * <p/>
- * <pre>
- * StringUtils.removeStart(null, *) = null
- * StringUtils.removeStart("", *) = ""
- * StringUtils.removeStart(*, null) = *
- * StringUtils.removeStart("www.domain.com", "www.") = "domain.com"
- * StringUtils.removeStart("domain.com", "www.") = "domain.com"
- * StringUtils.removeStart("www.domain.com", "domain") = "www.domain.com"
- * StringUtils.removeStart("abc", "") = "abc"
- * </pre>
- *
- * @param str the source String to search, may be null
- * @param remove the String to search for and remove, may be null
- * @return the substring with the string removed if found,
- * <code>null</code> if null String input
- * @since 2.1
- */
- public static String removeStart(String str, String remove)
- {
- if (isEmpty(str) || isEmpty(remove))
- {
- return str;
- }
- if (str.startsWith(remove))
- {
- return str.substring(remove.length());
- }
- return str;
- }
-
- /**
- * <p>Case insensitive removal of a substring if it is at the begining of a source string,
- * otherwise returns the source string.</p>
- * <p/>
- * <p>A <code>null</code> source string will return <code>null</code>.
- * An empty ("") source string will return the empty string.
- * A <code>null</code> search string will return the source string.</p>
- * <p/>
- * <pre>
- * StringUtils.removeStartIgnoreCase(null, *) = null
- * StringUtils.removeStartIgnoreCase("", *) = ""
- * StringUtils.removeStartIgnoreCase(*, null) = *
- * StringUtils.removeStartIgnoreCase("www.domain.com", "www.") = "domain.com"
- * StringUtils.removeStartIgnoreCase("www.domain.com", "WWW.") = "domain.com"
- * StringUtils.removeStartIgnoreCase("domain.com", "www.") = "domain.com"
- * StringUtils.removeStartIgnoreCase("www.domain.com", "domain") = "www.domain.com"
- * StringUtils.removeStartIgnoreCase("abc", "") = "abc"
- * </pre>
- *
- * @param str the source String to search, may be null
- * @param remove the String to search for (case insensitive) and remove, may be null
- * @return the substring with the string removed if found,
- * <code>null</code> if null String input
- * @since 2.4
- */
- public static String removeStartIgnoreCase(String str, String remove)
- {
- if (isEmpty(str) || isEmpty(remove))
- {
- return str;
- }
- if (startsWithIgnoreCase(str, remove))
- {
- return str.substring(remove.length());
- }
- return str;
- }
-
- /**
- * <p>Removes a substring only if it is at the end of a source string,
- * otherwise returns the source string.</p>
- * <p/>
- * <p>A <code>null</code> source string will return <code>null</code>.
- * An empty ("") source string will return the empty string.
- * A <code>null</code> search string will return the source string.</p>
- * <p/>
- * <pre>
- * StringUtils.removeEnd(null, *) = null
- * StringUtils.removeEnd("", *) = ""
- * StringUtils.removeEnd(*, null) = *
- * StringUtils.removeEnd("www.domain.com", ".com.") = "www.domain.com"
- * StringUtils.removeEnd("www.domain.com", ".com") = "www.domain"
- * StringUtils.removeEnd("www.domain.com", "domain") = "www.domain.com"
- * StringUtils.removeEnd("abc", "") = "abc"
- * </pre>
- *
- * @param str the source String to search, may be null
- * @param remove the String to search for and remove, may be null
- * @return the substring with the string removed if found,
- * <code>null</code> if null String input
- * @since 2.1
- */
- public static String removeEnd(String str, String remove)
- {
- if (isEmpty(str) || isEmpty(remove))
- {
- return str;
- }
- if (str.endsWith(remove))
- {
- return str.substring(0, str.length() - remove.length());
- }
- return str;
- }
-
- /**
- * <p>Case insensitive removal of a substring if it is at the end of a source string,
- * otherwise returns the source string.</p>
- * <p/>
- * <p>A <code>null</code> source string will return <code>null</code>.
- * An empty ("") source string will return the empty string.
- * A <code>null</code> search string will return the source string.</p>
- * <p/>
- * <pre>
- * StringUtils.removeEnd(null, *) = null
- * StringUtils.removeEnd("", *) = ""
- * StringUtils.removeEnd(*, null) = *
- * StringUtils.removeEnd("www.domain.com", ".com.") = "www.domain.com."
- * StringUtils.removeEnd("www.domain.com", ".com") = "www.domain"
- * StringUtils.removeEnd("www.domain.com", "domain") = "www.domain.com"
- * StringUtils.removeEnd("abc", "") = "abc"
- * </pre>
- *
- * @param str the source String to search, may be null
- * @param remove the String to search for (case insensitive) and remove, may be null
- * @return the substring with the string removed if found,
- * <code>null</code> if null String input
- * @since 2.4
- */
- public static String removeEndIgnoreCase(String str, String remove)
- {
- if (isEmpty(str) || isEmpty(remove))
- {
- return str;
- }
- if (endsWithIgnoreCase(str, remove))
- {
- return str.substring(0, str.length() - remove.length());
- }
- return str;
- }
-
- /**
- * <p>Removes all occurrences of a substring from within the source string.</p>
- * <p/>
- * <p>A <code>null</code> source string will return <code>null</code>.
- * An empty ("") source string will return the empty string.
- * A <code>null</code> remove string will return the source string.
- * An empty ("") remove string will return the source string.</p>
- * <p/>
- * <pre>
- * StringUtils.remove(null, *) = null
- * StringUtils.remove("", *) = ""
- * StringUtils.remove(*, null) = *
- * StringUtils.remove(*, "") = *
- * StringUtils.remove("queued", "ue") = "qd"
- * StringUtils.remove("queued", "zz") = "queued"
- * </pre>
- *
- * @param str the source String to search, may be null
- * @param remove the String to search for and remove, may be null
- * @return the substring with the string removed if found,
- * <code>null</code> if null String input
- * @since 2.1
- */
- public static String remove(String str, String remove)
- {
- if (isEmpty(str) || isEmpty(remove))
- {
- return str;
- }
- return replace(str, remove, EMPTY, -1);
- }
-
- /**
- * <p>Removes all occurrences of a character from within the source string.</p>
- * <p/>
- * <p>A <code>null</code> source string will return <code>null</code>.
- * An empty ("") source string will return the empty string.</p>
- * <p/>
- * <pre>
- * StringUtils.remove(null, *) = null
- * StringUtils.remove("", *) = ""
- * StringUtils.remove("queued", 'u') = "qeed"
- * StringUtils.remove("queued", 'z') = "queued"
- * </pre>
- *
- * @param str the source String to search, may be null
- * @param remove the char to search for and remove, may be null
- * @return the substring with the char removed if found,
- * <code>null</code> if null String input
- * @since 2.1
- */
- public static String remove(String str, char remove)
- {
- if (isEmpty(str) || str.indexOf(remove) == -1)
- {
- return str;
- }
- char[] chars = str.toCharArray();
- int pos = 0;
- for (int i = 0; i < chars.length; i++)
- {
- if (chars[i] != remove)
- {
- chars[pos++] = chars[i];
- }
- }
- return new String(chars, 0, pos);
- }
-
- // Replacing
- //-----------------------------------------------------------------------
-
- /**
- * <p>Replaces a String with another String inside a larger String, once.</p>
- * <p/>
- * <p>A <code>null</code> reference passed to this method is a no-op.</p>
- * <p/>
- * <pre>
- * StringUtils.replaceOnce(null, *, *) = null
- * StringUtils.replaceOnce("", *, *) = ""
- * StringUtils.replaceOnce("any", null, *) = "any"
- * StringUtils.replaceOnce("any", *, null) = "any"
- * StringUtils.replaceOnce("any", "", *) = "any"
- * StringUtils.replaceOnce("aba", "a", null) = "aba"
- * StringUtils.replaceOnce("aba", "a", "") = "ba"
- * StringUtils.replaceOnce("aba", "a", "z") = "zba"
- * </pre>
- *
- * @param text text to search and replace in, may be null
- * @param searchString the String to search for, may be null
- * @param replacement the String to replace with, may be null
- * @return the text with any replacements processed,
- * <code>null</code> if null String input
- * @see #replace(String text, String searchString, String replacement, int max)
- */
- public static String replaceOnce(String text, String searchString, String replacement)
- {
- return replace(text, searchString, replacement, 1);
- }
-
- /**
- * <p>Replaces all occurrences of a String within another String.</p>
- * <p/>
- * <p>A <code>null</code> reference passed to this method is a no-op.</p>
- * <p/>
- * <pre>
- * StringUtils.replace(null, *, *) = null
- * StringUtils.replace("", *, *) = ""
- * StringUtils.replace("any", null, *) = "any"
- * StringUtils.replace("any", *, null) = "any"
- * StringUtils.replace("any", "", *) = "any"
- * StringUtils.replace("aba", "a", null) = "aba"
- * StringUtils.replace("aba", "a", "") = "b"
- * StringUtils.replace("aba", "a", "z") = "zbz"
- * </pre>
- *
- * @param text text to search and replace in, may be null
- * @param searchString the String to search for, may be null
- * @param replacement the String to replace it with, may be null
- * @return the text with any replacements processed,
- * <code>null</code> if null String input
- * @see #replace(String text, String searchString, String replacement, int max)
- */
- public static String replace(String text, String searchString, String replacement)
- {
- return replace(text, searchString, replacement, -1);
- }
-
- /**
- * <p>Replaces a String with another String inside a larger String,
- * for the first <code>max</code> values of the search String.</p>
- * <p/>
- * <p>A <code>null</code> reference passed to this method is a no-op.</p>
- * <p/>
- * <pre>
- * StringUtils.replace(null, *, *, *) = null
- * StringUtils.replace("", *, *, *) = ""
- * StringUtils.replace("any", null, *, *) = "any"
- * StringUtils.replace("any", *, null, *) = "any"
- * StringUtils.replace("any", "", *, *) = "any"
- * StringUtils.replace("any", *, *, 0) = "any"
- * StringUtils.replace("abaa", "a", null, -1) = "abaa"
- * StringUtils.replace("abaa", "a", "", -1) = "b"
- * StringUtils.replace("abaa", "a", "z", 0) = "abaa"
- * StringUtils.replace("abaa", "a", "z", 1) = "zbaa"
- * StringUtils.replace("abaa", "a", "z", 2) = "zbza"
- * StringUtils.replace("abaa", "a", "z", -1) = "zbzz"
- * </pre>
- *
- * @param text text to search and replace in, may be null
- * @param searchString the String to search for, may be null
- * @param replacement the String to replace it with, may be null
- * @param max maximum number of values to replace, or <code>-1</code> if no maximum
- * @return the text with any replacements processed,
- * <code>null</code> if null String input
- */
- public static String replace(String text, String searchString, String replacement, int max)
- {
- if (isEmpty(text) || isEmpty(searchString) || replacement == null || max == 0)
- {
- return text;
- }
- int start = 0;
- int end = text.indexOf(searchString, start);
- if (end == -1)
- {
- return text;
- }
- int replLength = searchString.length();
- int increase = replacement.length() - replLength;
- increase = (increase < 0 ? 0 : increase);
- increase *= (max < 0 ? 16 : (max > 64 ? 64 : max));
- StringBuffer buf = new StringBuffer(text.length() + increase);
- while (end != -1)
- {
- buf.append(text.substring(start, end)).append(replacement);
- start = end + replLength;
- if (--max == 0)
- {
- break;
- }
- end = text.indexOf(searchString, start);
- }
- buf.append(text.substring(start));
- return buf.toString();
- }
-
- /**
- * <p>
- * Replaces all occurrences of Strings within another String.
- * </p>
- * <p/>
- * <p>
- * A <code>null</code> reference passed to this method is a no-op, or if
- * any "search string" or "string to replace" is null, that replace will be
- * ignored. This will not repeat. For repeating replaces, call the
- * overloaded method.
- * </p>
- * <p/>
- * <pre>
- * StringUtils.replaceEach(null, *, *) = null
- * StringUtils.replaceEach("", *, *) = ""
- * StringUtils.replaceEach("aba", null, null) = "aba"
- * StringUtils.replaceEach("aba", new String[0], null) = "aba"
- * StringUtils.replaceEach("aba", null, new String[0]) = "aba"
- * StringUtils.replaceEach("aba", new String[]{"a"}, null) = "aba"
- * StringUtils.replaceEach("aba", new String[]{"a"}, new String[]{""}) = "b"
- * StringUtils.replaceEach("aba", new String[]{null}, new String[]{"a"}) = "aba"
- * StringUtils.replaceEach("abcde", new String[]{"ab", "d"}, new String[]{"w", "t"}) = "wcte"
- * (example of how it does not repeat)
- * StringUtils.replaceEach("abcde", new String[]{"ab", "d"}, new String[]{"d", "t"}) = "dcte"
- * </pre>
- *
- * @param text text to search and replace in, no-op if null
- * @param searchList the Strings to search for, no-op if null
- * @param replacementList the Strings to replace them with, no-op if null
- * @return the text with any replacements processed, <code>null</code> if
- * null String input
- * @throws IndexOutOfBoundsException if the lengths of the arrays are not the same (null is ok,
- * and/or size 0)
- * @since 2.4
- */
- public static String replaceEach(String text, String[] searchList, String[] replacementList)
- {
- return replaceEach(text, searchList, replacementList, false, 0);
- }
-
- /**
- * <p>
- * Replaces all occurrences of Strings within another String.
- * </p>
- * <p/>
- * <p>
- * A <code>null</code> reference passed to this method is a no-op, or if
- * any "search string" or "string to replace" is null, that replace will be
- * ignored. This will not repeat. For repeating replaces, call the
- * overloaded method.
- * </p>
- * <p/>
- * <pre>
- * StringUtils.replaceEach(null, *, *, *) = null
- * StringUtils.replaceEach("", *, *, *) = ""
- * StringUtils.replaceEach("aba", null, null, *) = "aba"
- * StringUtils.replaceEach("aba", new String[0], null, *) = "aba"
- * StringUtils.replaceEach("aba", null, new String[0], *) = "aba"
- * StringUtils.replaceEach("aba", new String[]{"a"}, null, *) = "aba"
- * StringUtils.replaceEach("aba", new String[]{"a"}, new String[]{""}, *) = "b"
- * StringUtils.replaceEach("aba", new String[]{null}, new String[]{"a"}, *) = "aba"
- * StringUtils.replaceEach("abcde", new String[]{"ab", "d"}, new String[]{"w", "t"}, *) = "wcte"
- * (example of how it repeats)
- * StringUtils.replaceEach("abcde", new String[]{"ab", "d"}, new String[]{"d", "t"}, false) = "dcte"
- * StringUtils.replaceEach("abcde", new String[]{"ab", "d"}, new String[]{"d", "t"}, true) = "tcte"
- * StringUtils.replaceEach("abcde", new String[]{"ab", "d"}, new String[]{"d", "ab"}, true) = IllegalArgumentException
- * StringUtils.replaceEach("abcde", new String[]{"ab", "d"}, new String[]{"d", "ab"}, false) = "dcabe"
- * </pre>
- *
- * @param text text to search and replace in, no-op if null
- * @param searchList the Strings to search for, no-op if null
- * @param replacementList the Strings to replace them with, no-op if null
- * @return the text with any replacements processed, <code>null</code> if
- * null String input
- * @throws IllegalArgumentException if the search is repeating and there is an endless loop due
- * to outputs of one being inputs to another
- * @throws IndexOutOfBoundsException if the lengths of the arrays are not the same (null is ok,
- * and/or size 0)
- * @since 2.4
- */
- public static String replaceEachRepeatedly(String text, String[] searchList, String[] replacementList)
- {
- // timeToLive should be 0 if not used or nothing to replace, else it's
- // the length of the replace array
- int timeToLive = searchList == null ? 0 : searchList.length;
- return replaceEach(text, searchList, replacementList, true, timeToLive);
- }
-
- /**
- * <p>
- * Replaces all occurrences of Strings within another String.
- * </p>
- * <p/>
- * <p>
- * A <code>null</code> reference passed to this method is a no-op, or if
- * any "search string" or "string to replace" is null, that replace will be
- * ignored.
- * </p>
- * <p/>
- * <pre>
- * StringUtils.replaceEach(null, *, *, *) = null
- * StringUtils.replaceEach("", *, *, *) = ""
- * StringUtils.replaceEach("aba", null, null, *) = "aba"
- * StringUtils.replaceEach("aba", new String[0], null, *) = "aba"
- * StringUtils.replaceEach("aba", null, new String[0], *) = "aba"
- * StringUtils.replaceEach("aba", new String[]{"a"}, null, *) = "aba"
- * StringUtils.replaceEach("aba", new String[]{"a"}, new String[]{""}, *) = "b"
- * StringUtils.replaceEach("aba", new String[]{null}, new String[]{"a"}, *) = "aba"
- * StringUtils.replaceEach("abcde", new String[]{"ab", "d"}, new String[]{"w", "t"}, *) = "wcte"
- * (example of how it repeats)
- * StringUtils.replaceEach("abcde", new String[]{"ab", "d"}, new String[]{"d", "t"}, false) = "dcte"
- * StringUtils.replaceEach("abcde", new String[]{"ab", "d"}, new String[]{"d", "t"}, true) = "tcte"
- * StringUtils.replaceEach("abcde", new String[]{"ab", "d"}, new String[]{"d", "ab"}, *) = IllegalArgumentException
- * </pre>
- *
- * @param text text to search and replace in, no-op if null
- * @param searchList the Strings to search for, no-op if null
- * @param replacementList the Strings to replace them with, no-op if null
- * @param repeat if true, then replace repeatedly
- * until there are no more possible replacements or timeToLive < 0
- * @param timeToLive if less than 0 then there is a circular reference and endless
- * loop
- * @return the text with any replacements processed, <code>null</code> if
- * null String input
- * @throws IllegalArgumentException if the search is repeating and there is an endless loop due
- * to outputs of one being inputs to another
- * @throws IndexOutOfBoundsException if the lengths of the arrays are not the same (null is ok,
- * and/or size 0)
- * @since 2.4
- */
- private static String replaceEach(String text, String[] searchList, String[] replacementList,
- boolean repeat, int timeToLive)
- {
-
- // mchyzer Performance note: This creates very few new objects (one major goal)
- // let me know if there are performance requests, we can create a harness to measure
-
- if (text == null || text.length() == 0 || searchList == null ||
- searchList.length == 0 || replacementList == null || replacementList.length == 0)
- {
- return text;
- }
-
- // if recursing, this shouldnt be less than 0
- if (timeToLive < 0)
- {
- throw new IllegalStateException("TimeToLive of " + timeToLive + " is less than 0: " + text);
- }
-
- int searchLength = searchList.length;
- int replacementLength = replacementList.length;
-
- // make sure lengths are ok, these need to be equal
- if (searchLength != replacementLength)
- {
- throw new IllegalArgumentException("Search and Replace array lengths don't match: "
- + searchLength
- + " vs "
- + replacementLength);
- }
-
- // keep track of which still have matches
- boolean[] noMoreMatchesForReplIndex = new boolean[searchLength];
-
- // index on index that the match was found
- int textIndex = -1;
- int replaceIndex = -1;
- int tempIndex = -1;
-
- // index of replace array that will replace the search string found
- // NOTE: logic duplicated below START
- for (int i = 0; i < searchLength; i++)
- {
- if (noMoreMatchesForReplIndex[i] || searchList[i] == null ||
- searchList[i].length() == 0 || replacementList[i] == null)
- {
- continue;
- }
- tempIndex = text.indexOf(searchList[i]);
-
- // see if we need to keep searching for this
- if (tempIndex == -1)
- {
- noMoreMatchesForReplIndex[i] = true;
- } else
- {
- if (textIndex == -1 || tempIndex < textIndex)
- {
- textIndex = tempIndex;
- replaceIndex = i;
- }
- }
- }
- // NOTE: logic mostly below END
-
- // no search strings found, we are done
- if (textIndex == -1)
- {
- return text;
- }
-
- int start = 0;
-
- // get a good guess on the size of the result buffer so it doesnt have to double if it goes over a bit
- int increase = 0;
-
- // count the replacement text elements that are larger than their corresponding text being replaced
- for (int i = 0; i < searchList.length; i++)
- {
- int greater = replacementList[i].length() - searchList[i].length();
- if (greater > 0)
- {
- increase += 3 * greater; // assume 3 matches
- }
- }
- // have upper-bound at 20% increase, then let Java take over
- increase = Math.min(increase, text.length() / 5);
-
- StringBuffer buf = new StringBuffer(text.length() + increase);
-
- while (textIndex != -1)
- {
-
- for (int i = start; i < textIndex; i++)
- {
- buf.append(text.charAt(i));
- }
- buf.append(replacementList[replaceIndex]);
-
- start = textIndex + searchList[replaceIndex].length();
-
- textIndex = -1;
- replaceIndex = -1;
- tempIndex = -1;
- // find the next earliest match
- // NOTE: logic mostly duplicated above START
- for (int i = 0; i < searchLength; i++)
- {
- if (noMoreMatchesForReplIndex[i] || searchList[i] == null ||
- searchList[i].length() == 0 || replacementList[i] == null)
- {
- continue;
- }
- tempIndex = text.indexOf(searchList[i], start);
-
- // see if we need to keep searching for this
- if (tempIndex == -1)
- {
- noMoreMatchesForReplIndex[i] = true;
- } else
- {
- if (textIndex == -1 || tempIndex < textIndex)
- {
- textIndex = tempIndex;
- replaceIndex = i;
- }
- }
- }
- // NOTE: logic duplicated above END
-
- }
- int textLength = text.length();
- for (int i = start; i < textLength; i++)
- {
- buf.append(text.charAt(i));
- }
- String result = buf.toString();
- if (!repeat)
- {
- return result;
- }
-
- return replaceEach(result, searchList, replacementList, repeat, timeToLive - 1);
- }
-
- // Replace, character based
- //-----------------------------------------------------------------------
-
- /**
- * <p>Replaces all occurrences of a character in a String with another.
- * This is a null-safe version of {@link String#replace(char, char)}.</p>
- * <p/>
- * <p>A <code>null</code> string input returns <code>null</code>.
- * An empty ("") string input returns an empty string.</p>
- * <p/>
- * <pre>
- * StringUtils.replaceChars(null, *, *) = null
- * StringUtils.replaceChars("", *, *) = ""
- * StringUtils.replaceChars("abcba", 'b', 'y') = "aycya"
- * StringUtils.replaceChars("abcba", 'z', 'y') = "abcba"
- * </pre>
- *
- * @param str String to replace characters in, may be null
- * @param searchChar the character to search for, may be null
- * @param replaceChar the character to replace, may be null
- * @return modified String, <code>null</code> if null string input
- * @since 2.0
- */
- public static String replaceChars(String str, char searchChar, char replaceChar)
- {
- if (str == null)
- {
- return null;
- }
- return str.replace(searchChar, replaceChar);
- }
-
- /**
- * <p>Replaces multiple characters in a String in one go.
- * This method can also be used to delete characters.</p>
- * <p/>
- * <p>For example:<br />
- * <code>replaceChars(&quot;hello&quot;, &quot;ho&quot;, &quot;jy&quot;) = jelly</code>.</p>
- * <p/>
- * <p>A <code>null</code> string input returns <code>null</code>.
- * An empty ("") string input returns an empty string.
- * A null or empty set of search characters returns the input string.</p>
- * <p/>
- * <p>The length of the search characters should normally equal the length
- * of the replace characters.
- * If the search characters is longer, then the extra search characters
- * are deleted.
- * If the search characters is shorter, then the extra replace characters
- * are ignored.</p>
- * <p/>
- * <pre>
- * StringUtils.replaceChars(null, *, *) = null
- * StringUtils.replaceChars("", *, *) = ""
- * StringUtils.replaceChars("abc", null, *) = "abc"
- * StringUtils.replaceChars("abc", "", *) = "abc"
- * StringUtils.replaceChars("abc", "b", null) = "ac"
- * StringUtils.replaceChars("abc", "b", "") = "ac"
- * StringUtils.replaceChars("abcba", "bc", "yz") = "ayzya"
- * StringUtils.replaceChars("abcba", "bc", "y") = "ayya"
- * StringUtils.replaceChars("abcba", "bc", "yzx") = "ayzya"
- * </pre>
- *
- * @param str String to replace characters in, may be null
- * @param searchChars a set of characters to search for, may be null
- * @param replaceChars a set of characters to replace, may be null
- * @return modified String, <code>null</code> if null string input
- * @since 2.0
- */
- public static String replaceChars(String str, String searchChars, String replaceChars)
- {
- if (isEmpty(str) || isEmpty(searchChars))
- {
- return str;
- }
- if (replaceChars == null)
- {
- replaceChars = EMPTY;
- }
- boolean modified = false;
- int replaceCharsLength = replaceChars.length();
- int strLength = str.length();
- StringBuffer buf = new StringBuffer(strLength);
- for (int i = 0; i < strLength; i++)
- {
- char ch = str.charAt(i);
- int index = searchChars.indexOf(ch);
- if (index >= 0)
- {
- modified = true;
- if (index < replaceCharsLength)
- {
- buf.append(replaceChars.charAt(index));
- }
- } else
- {
- buf.append(ch);
- }
- }
- if (modified)
- {
- return buf.toString();
- }
- return str;
- }
-
- // Overlay
- //-----------------------------------------------------------------------
-
- /**
- * <p>Overlays part of a String with another String.</p>
- * <p/>
- * <pre>
- * StringUtils.overlayString(null, *, *, *) = NullPointerException
- * StringUtils.overlayString(*, null, *, *) = NullPointerException
- * StringUtils.overlayString("", "abc", 0, 0) = "abc"
- * StringUtils.overlayString("abcdef", null, 2, 4) = "abef"
- * StringUtils.overlayString("abcdef", "", 2, 4) = "abef"
- * StringUtils.overlayString("abcdef", "zzzz", 2, 4) = "abzzzzef"
- * StringUtils.overlayString("abcdef", "zzzz", 4, 2) = "abcdzzzzcdef"
- * StringUtils.overlayString("abcdef", "zzzz", -1, 4) = IndexOutOfBoundsException
- * StringUtils.overlayString("abcdef", "zzzz", 2, 8) = IndexOutOfBoundsException
- * </pre>
- *
- * @param text the String to do overlaying in, may be null
- * @param overlay the String to overlay, may be null
- * @param start the position to start overlaying at, must be valid
- * @param end the position to stop overlaying before, must be valid
- * @return overlayed String, <code>null</code> if null String input
- * @throws NullPointerException if text or overlay is null
- * @throws IndexOutOfBoundsException if either position is invalid
- * @deprecated Use better named {@link #overlay(String, String, int, int)} instead.
- * Method will be removed in Commons Lang 3.0.
- */
- public static String overlayString(String text, String overlay, int start, int end)
- {
- return new StringBuffer(start + overlay.length() + text.length() - end + 1)
- .append(text.substring(0, start))
- .append(overlay)
- .append(text.substring(end))
- .toString();
- }
-
- /**
- * <p>Overlays part of a String with another String.</p>
- * <p/>
- * <p>A <code>null</code> string input returns <code>null</code>.
- * A negative index is treated as zero.
- * An index greater than the string length is treated as the string length.
- * The start index is always the smaller of the two indices.</p>
- * <p/>
- * <pre>
- * StringUtils.overlay(null, *, *, *) = null
- * StringUtils.overlay("", "abc", 0, 0) = "abc"
- * StringUtils.overlay("abcdef", null, 2, 4) = "abef"
- * StringUtils.overlay("abcdef", "", 2, 4) = "abef"
- * StringUtils.overlay("abcdef", "", 4, 2) = "abef"
- * StringUtils.overlay("abcdef", "zzzz", 2, 4) = "abzzzzef"
- * StringUtils.overlay("abcdef", "zzzz", 4, 2) = "abzzzzef"
- * StringUtils.overlay("abcdef", "zzzz", -1, 4) = "zzzzef"
- * StringUtils.overlay("abcdef", "zzzz", 2, 8) = "abzzzz"
- * StringUtils.overlay("abcdef", "zzzz", -2, -3) = "zzzzabcdef"
- * StringUtils.overlay("abcdef", "zzzz", 8, 10) = "abcdefzzzz"
- * </pre>
- *
- * @param str the String to do overlaying in, may be null
- * @param overlay the String to overlay, may be null
- * @param start the position to start overlaying at
- * @param end the position to stop overlaying before
- * @return overlayed String, <code>null</code> if null String input
- * @since 2.0
- */
- public static String overlay(String str, String overlay, int start, int end)
- {
- if (str == null)
- {
- return null;
- }
- if (overlay == null)
- {
- overlay = EMPTY;
- }
- int len = str.length();
- if (start < 0)
- {
- start = 0;
- }
- if (start > len)
- {
- start = len;
- }
- if (end < 0)
- {
- end = 0;
- }
- if (end > len)
- {
- end = len;
- }
- if (start > end)
- {
- int temp = start;
- start = end;
- end = temp;
- }
- return new StringBuffer(len + start - end + overlay.length() + 1)
- .append(str.substring(0, start))
- .append(overlay)
- .append(str.substring(end))
- .toString();
- }
-
- // Chomping
- //-----------------------------------------------------------------------
-
- /**
- * <p>Removes one newline from end of a String if it's there,
- * otherwise leave it alone. A newline is &quot;<code>\n</code>&quot;,
- * &quot;<code>\r</code>&quot;, or &quot;<code>\r\n</code>&quot;.</p>
- * <p/>
- * <p>NOTE: This method changed in 2.0.
- * It now more closely matches Perl chomp.</p>
- * <p/>
- * <pre>
- * StringUtils.chomp(null) = null
- * StringUtils.chomp("") = ""
- * StringUtils.chomp("abc \r") = "abc "
- * StringUtils.chomp("abc\n") = "abc"
- * StringUtils.chomp("abc\r\n") = "abc"
- * StringUtils.chomp("abc\r\n\r\n") = "abc\r\n"
- * StringUtils.chomp("abc\n\r") = "abc\n"
- * StringUtils.chomp("abc\n\rabc") = "abc\n\rabc"
- * StringUtils.chomp("\r") = ""
- * StringUtils.chomp("\n") = ""
- * StringUtils.chomp("\r\n") = ""
- * </pre>
- *
- * @param str the String to chomp a newline from, may be null
- * @return String without newline, <code>null</code> if null String input
- */
- public static String chomp(String str)
- {
- if (isEmpty(str))
- {
- return str;
- }
-
- if (str.length() == 1)
- {
- char ch = str.charAt(0);
- if (ch == CharUtils.CR || ch == CharUtils.LF)
- {
- return EMPTY;
- }
- return str;
- }
-
- int lastIdx = str.length() - 1;
- char last = str.charAt(lastIdx);
-
- if (last == CharUtils.LF)
- {
- if (str.charAt(lastIdx - 1) == CharUtils.CR)
- {
- lastIdx--;
- }
- } else if (last != CharUtils.CR)
- {
- lastIdx++;
- }
- return str.substring(0, lastIdx);
- }
-
- /**
- * <p>Removes <code>separator</code> from the end of
- * <code>str</code> if it's there, otherwise leave it alone.</p>
- * <p/>
- * <p>NOTE: This method changed in version 2.0.
- * It now more closely matches Perl chomp.
- * For the previous behavior, use {@link #substringBeforeLast(String, String)}.
- * This method uses {@link String#endsWith(String)}.</p>
- * <p/>
- * <pre>
- * StringUtils.chomp(null, *) = null
- * StringUtils.chomp("", *) = ""
- * StringUtils.chomp("foobar", "bar") = "foo"
- * StringUtils.chomp("foobar", "baz") = "foobar"
- * StringUtils.chomp("foo", "foo") = ""
- * StringUtils.chomp("foo ", "foo") = "foo "
- * StringUtils.chomp(" foo", "foo") = " "
- * StringUtils.chomp("foo", "foooo") = "foo"
- * StringUtils.chomp("foo", "") = "foo"
- * StringUtils.chomp("foo", null) = "foo"
- * </pre>
- *
- * @param str the String to chomp from, may be null
- * @param separator separator String, may be null
- * @return String without trailing separator, <code>null</code> if null String input
- */
- public static String chomp(String str, String separator)
- {
- if (isEmpty(str) || separator == null)
- {
- return str;
- }
- if (str.endsWith(separator))
- {
- return str.substring(0, str.length() - separator.length());
- }
- return str;
- }
-
- /**
- * <p>Remove any &quot;\n&quot; if and only if it is at the end
- * of the supplied String.</p>
- *
- * @param str the String to chomp from, must not be null
- * @return String without chomped ending
- * @throws NullPointerException if str is <code>null</code>
- * @deprecated Use {@link #chomp(String)} instead.
- * Method will be removed in Commons Lang 3.0.
- */
- public static String chompLast(String str)
- {
- return chompLast(str, "\n");
- }
-
- /**
- * <p>Remove a value if and only if the String ends with that value.</p>
- *
- * @param str the String to chomp from, must not be null
- * @param sep the String to chomp, must not be null
- * @return String without chomped ending
- * @throws NullPointerException if str or sep is <code>null</code>
- * @deprecated Use {@link #chomp(String, String)} instead.
- * Method will be removed in Commons Lang 3.0.
- */
- public static String chompLast(String str, String sep)
- {
- if (str.length() == 0)
- {
- return str;
- }
- String sub = str.substring(str.length() - sep.length());
- if (sep.equals(sub))
- {
- return str.substring(0, str.length() - sep.length());
- }
- return str;
- }
-
- /**
- * <p>Remove everything and return the last value of a supplied String, and
- * everything after it from a String.</p>
- *
- * @param str the String to chomp from, must not be null
- * @param sep the String to chomp, must not be null
- * @return String chomped
- * @throws NullPointerException if str or sep is <code>null</code>
- * @deprecated Use {@link #substringAfterLast(String, String)} instead
- * (although this doesn't include the separator)
- * Method will be removed in Commons Lang 3.0.
- */
- public static String getChomp(String str, String sep)
- {
- int idx = str.lastIndexOf(sep);
- if (idx == str.length() - sep.length())
- {
- return sep;
- } else if (idx != -1)
- {
- return str.substring(idx);
- } else
- {
- return EMPTY;
- }
- }
-
- /**
- * <p>Remove the first value of a supplied String, and everything before it
- * from a String.</p>
- *
- * @param str the String to chomp from, must not be null
- * @param sep the String to chomp, must not be null
- * @return String without chomped beginning
- * @throws NullPointerException if str or sep is <code>null</code>
- * @deprecated Use {@link #substringAfter(String, String)} instead.
- * Method will be removed in Commons Lang 3.0.
- */
- public static String prechomp(String str, String sep)
- {
- int idx = str.indexOf(sep);
- if (idx == -1)
- {
- return str;
- }
- return str.substring(idx + sep.length());
- }
-
- /**
- * <p>Remove and return everything before the first value of a
- * supplied String from another String.</p>
- *
- * @param str the String to chomp from, must not be null
- * @param sep the String to chomp, must not be null
- * @return String prechomped
- * @throws NullPointerException if str or sep is <code>null</code>
- * @deprecated Use {@link #substringBefore(String, String)} instead
- * (although this doesn't include the separator).
- * Method will be removed in Commons Lang 3.0.
- */
- public static String getPrechomp(String str, String sep)
- {
- int idx = str.indexOf(sep);
- if (idx == -1)
- {
- return EMPTY;
- }
- return str.substring(0, idx + sep.length());
- }
-
- // Chopping
- //-----------------------------------------------------------------------
-
- /**
- * <p>Remove the last character from a String.</p>
- * <p/>
- * <p>If the String ends in <code>\r\n</code>, then remove both
- * of them.</p>
- * <p/>
- * <pre>
- * StringUtils.chop(null) = null
- * StringUtils.chop("") = ""
- * StringUtils.chop("abc \r") = "abc "
- * StringUtils.chop("abc\n") = "abc"
- * StringUtils.chop("abc\r\n") = "abc"
- * StringUtils.chop("abc") = "ab"
- * StringUtils.chop("abc\nabc") = "abc\nab"
- * StringUtils.chop("a") = ""
- * StringUtils.chop("\r") = ""
- * StringUtils.chop("\n") = ""
- * StringUtils.chop("\r\n") = ""
- * </pre>
- *
- * @param str the String to chop last character from, may be null
- * @return String without last character, <code>null</code> if null String input
- */
- public static String chop(String str)
- {
- if (str == null)
- {
- return null;
- }
- int strLen = str.length();
- if (strLen < 2)
- {
- return EMPTY;
- }
- int lastIdx = strLen - 1;
- String ret = str.substring(0, lastIdx);
- char last = str.charAt(lastIdx);
- if (last == CharUtils.LF)
- {
- if (ret.charAt(lastIdx - 1) == CharUtils.CR)
- {
- return ret.substring(0, lastIdx - 1);
- }
- }
- return ret;
- }
-
- /**
- * <p>Removes <code>\n</code> from end of a String if it's there.
- * If a <code>\r</code> precedes it, then remove that too.</p>
- *
- * @param str the String to chop a newline from, must not be null
- * @return String without newline
- * @throws NullPointerException if str is <code>null</code>
- * @deprecated Use {@link #chomp(String)} instead.
- * Method will be removed in Commons Lang 3.0.
- */
- public static String chopNewline(String str)
- {
- int lastIdx = str.length() - 1;
- if (lastIdx <= 0)
- {
- return EMPTY;
- }
- char last = str.charAt(lastIdx);
- if (last == CharUtils.LF)
- {
- if (str.charAt(lastIdx - 1) == CharUtils.CR)
- {
- lastIdx--;
- }
- } else
- {
- lastIdx++;
- }
- return str.substring(0, lastIdx);
- }
-
- // Conversion
- //-----------------------------------------------------------------------
-
- /**
- * <p>Escapes any values it finds into their String form.</p>
- * <p/>
- * <p>So a tab becomes the characters <code>'\\'</code> and
- * <code>'t'</code>.</p>
- * <p/>
- * <p>As of Lang 2.0, this calls {@link StringEscapeUtils#escapeJava(String)}
- * behind the scenes.
- * </p>
- *
- * @param str String to escape values in
- * @return String with escaped values
- * @throws NullPointerException if str is <code>null</code>
- * @see StringEscapeUtils#escapeJava(java.lang.String)
- * @deprecated Use {@link StringEscapeUtils#escapeJava(String)}
- * This method will be removed in Commons Lang 3.0
- */
- public static String escape(String str)
- {
- return StringEscapeUtils.escapeJava(str);
- }
-
- // Padding
- //-----------------------------------------------------------------------
-
- /**
- * <p>Repeat a String <code>repeat</code> times to form a
- * new String.</p>
- * <p/>
- * <pre>
- * StringUtils.repeat(null, 2) = null
- * StringUtils.repeat("", 0) = ""
- * StringUtils.repeat("", 2) = ""
- * StringUtils.repeat("a", 3) = "aaa"
- * StringUtils.repeat("ab", 2) = "abab"
- * StringUtils.repeat("a", -2) = ""
- * </pre>
- *
- * @param str the String to repeat, may be null
- * @param repeat number of times to repeat str, negative treated as zero
- * @return a new String consisting of the original String repeated,
- * <code>null</code> if null String input
- */
- public static String repeat(String str, int repeat)
- {
- // Performance tuned for 2.0 (JDK1.4)
-
- if (str == null)
- {
- return null;
- }
- if (repeat <= 0)
- {
- return EMPTY;
- }
- int inputLength = str.length();
- if (repeat == 1 || inputLength == 0)
- {
- return str;
- }
- if (inputLength == 1 && repeat <= PAD_LIMIT)
- {
- return padding(repeat, str.charAt(0));
- }
-
- int outputLength = inputLength * repeat;
- switch (inputLength)
- {
- case 1:
- char ch = str.charAt(0);
- char[] output1 = new char[outputLength];
- for (int i = repeat - 1; i >= 0; i--)
- {
- output1[i] = ch;
- }
- return new String(output1);
- case 2:
- char ch0 = str.charAt(0);
- char ch1 = str.charAt(1);
- char[] output2 = new char[outputLength];
- for (int i = repeat * 2 - 2; i >= 0; i--, i--)
- {
- output2[i] = ch0;
- output2[i + 1] = ch1;
- }
- return new String(output2);
- default:
- StringBuffer buf = new StringBuffer(outputLength);
- for (int i = 0; i < repeat; i++)
- {
- buf.append(str);
- }
- return buf.toString();
- }
- }
-
- /**
- * <p>Returns padding using the specified delimiter repeated
- * to a given length.</p>
- * <p/>
- * <pre>
- * StringUtils.padding(0, 'e') = ""
- * StringUtils.padding(3, 'e') = "eee"
- * StringUtils.padding(-2, 'e') = IndexOutOfBoundsException
- * </pre>
- * <p/>
- * <p>Note: this method doesn't not support padding with
- * <a href="http://www.unicode.org/glossary/#supplementary_character">Unicode Supplementary Characters</a>
- * as they require a pair of <code>char</code>s to be represented.
- * If you are needing to support full I18N of your applications
- * consider using {@link #repeat(String, int)} instead.
- * </p>
- *
- * @param repeat number of times to repeat delim
- * @param padChar character to repeat
- * @return String with repeated character
- * @throws IndexOutOfBoundsException if <code>repeat &lt; 0</code>
- * @see #repeat(String, int)
- */
- private static String padding(int repeat, char padChar) throws IndexOutOfBoundsException
- {
- if (repeat < 0)
- {
- throw new IndexOutOfBoundsException("Cannot pad a negative amount: " + repeat);
- }
- final char[] buf = new char[repeat];
- for (int i = 0; i < buf.length; i++)
- {
- buf[i] = padChar;
- }
- return new String(buf);
- }
-
- /**
- * <p>Right pad a String with spaces (' ').</p>
- * <p/>
- * <p>The String is padded to the size of <code>size</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.rightPad(null, *) = null
- * StringUtils.rightPad("", 3) = " "
- * StringUtils.rightPad("bat", 3) = "bat"
- * StringUtils.rightPad("bat", 5) = "bat "
- * StringUtils.rightPad("bat", 1) = "bat"
- * StringUtils.rightPad("bat", -1) = "bat"
- * </pre>
- *
- * @param str the String to pad out, may be null
- * @param size the size to pad to
- * @return right padded String or original String if no padding is necessary,
- * <code>null</code> if null String input
- */
- public static String rightPad(String str, int size)
- {
- return rightPad(str, size, ' ');
- }
-
- /**
- * <p>Right pad a String with a specified character.</p>
- * <p/>
- * <p>The String is padded to the size of <code>size</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.rightPad(null, *, *) = null
- * StringUtils.rightPad("", 3, 'z') = "zzz"
- * StringUtils.rightPad("bat", 3, 'z') = "bat"
- * StringUtils.rightPad("bat", 5, 'z') = "batzz"
- * StringUtils.rightPad("bat", 1, 'z') = "bat"
- * StringUtils.rightPad("bat", -1, 'z') = "bat"
- * </pre>
- *
- * @param str the String to pad out, may be null
- * @param size the size to pad to
- * @param padChar the character to pad with
- * @return right padded String or original String if no padding is necessary,
- * <code>null</code> if null String input
- * @since 2.0
- */
- public static String rightPad(String str, int size, char padChar)
- {
- if (str == null)
- {
- return null;
- }
- int pads = size - str.length();
- if (pads <= 0)
- {
- return str; // returns original String when possible
- }
- if (pads > PAD_LIMIT)
- {
- return rightPad(str, size, String.valueOf(padChar));
- }
- return str.concat(padding(pads, padChar));
- }
-
- /**
- * <p>Right pad a String with a specified String.</p>
- * <p/>
- * <p>The String is padded to the size of <code>size</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.rightPad(null, *, *) = null
- * StringUtils.rightPad("", 3, "z") = "zzz"
- * StringUtils.rightPad("bat", 3, "yz") = "bat"
- * StringUtils.rightPad("bat", 5, "yz") = "batyz"
- * StringUtils.rightPad("bat", 8, "yz") = "batyzyzy"
- * StringUtils.rightPad("bat", 1, "yz") = "bat"
- * StringUtils.rightPad("bat", -1, "yz") = "bat"
- * StringUtils.rightPad("bat", 5, null) = "bat "
- * StringUtils.rightPad("bat", 5, "") = "bat "
- * </pre>
- *
- * @param str the String to pad out, may be null
- * @param size the size to pad to
- * @param padStr the String to pad with, null or empty treated as single space
- * @return right padded String or original String if no padding is necessary,
- * <code>null</code> if null String input
- */
- public static String rightPad(String str, int size, String padStr)
- {
- if (str == null)
- {
- return null;
- }
- if (isEmpty(padStr))
- {
- padStr = " ";
- }
- int padLen = padStr.length();
- int strLen = str.length();
- int pads = size - strLen;
- if (pads <= 0)
- {
- return str; // returns original String when possible
- }
- if (padLen == 1 && pads <= PAD_LIMIT)
- {
- return rightPad(str, size, padStr.charAt(0));
- }
-
- if (pads == padLen)
- {
- return str.concat(padStr);
- } else if (pads < padLen)
- {
- return str.concat(padStr.substring(0, pads));
- } else
- {
- char[] padding = new char[pads];
- char[] padChars = padStr.toCharArray();
- for (int i = 0; i < pads; i++)
- {
- padding[i] = padChars[i % padLen];
- }
- return str.concat(new String(padding));
- }
- }
-
- /**
- * <p>Left pad a String with spaces (' ').</p>
- * <p/>
- * <p>The String is padded to the size of <code>size<code>.</p>
- * <p/>
- * <pre>
- * StringUtils.leftPad(null, *) = null
- * StringUtils.leftPad("", 3) = " "
- * StringUtils.leftPad("bat", 3) = "bat"
- * StringUtils.leftPad("bat", 5) = " bat"
- * StringUtils.leftPad("bat", 1) = "bat"
- * StringUtils.leftPad("bat", -1) = "bat"
- * </pre>
- *
- * @param str the String to pad out, may be null
- * @param size the size to pad to
- * @return left padded String or original String if no padding is necessary,
- * <code>null</code> if null String input
- */
- public static String leftPad(String str, int size)
- {
- return leftPad(str, size, ' ');
- }
-
- /**
- * <p>Left pad a String with a specified character.</p>
- * <p/>
- * <p>Pad to a size of <code>size</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.leftPad(null, *, *) = null
- * StringUtils.leftPad("", 3, 'z') = "zzz"
- * StringUtils.leftPad("bat", 3, 'z') = "bat"
- * StringUtils.leftPad("bat", 5, 'z') = "zzbat"
- * StringUtils.leftPad("bat", 1, 'z') = "bat"
- * StringUtils.leftPad("bat", -1, 'z') = "bat"
- * </pre>
- *
- * @param str the String to pad out, may be null
- * @param size the size to pad to
- * @param padChar the character to pad with
- * @return left padded String or original String if no padding is necessary,
- * <code>null</code> if null String input
- * @since 2.0
- */
- public static String leftPad(String str, int size, char padChar)
- {
- if (str == null)
- {
- return null;
- }
- int pads = size - str.length();
- if (pads <= 0)
- {
- return str; // returns original String when possible
- }
- if (pads > PAD_LIMIT)
- {
- return leftPad(str, size, String.valueOf(padChar));
- }
- return padding(pads, padChar).concat(str);
- }
-
- /**
- * <p>Left pad a String with a specified String.</p>
- * <p/>
- * <p>Pad to a size of <code>size</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.leftPad(null, *, *) = null
- * StringUtils.leftPad("", 3, "z") = "zzz"
- * StringUtils.leftPad("bat", 3, "yz") = "bat"
- * StringUtils.leftPad("bat", 5, "yz") = "yzbat"
- * StringUtils.leftPad("bat", 8, "yz") = "yzyzybat"
- * StringUtils.leftPad("bat", 1, "yz") = "bat"
- * StringUtils.leftPad("bat", -1, "yz") = "bat"
- * StringUtils.leftPad("bat", 5, null) = " bat"
- * StringUtils.leftPad("bat", 5, "") = " bat"
- * </pre>
- *
- * @param str the String to pad out, may be null
- * @param size the size to pad to
- * @param padStr the String to pad with, null or empty treated as single space
- * @return left padded String or original String if no padding is necessary,
- * <code>null</code> if null String input
- */
- public static String leftPad(String str, int size, String padStr)
- {
- if (str == null)
- {
- return null;
- }
- if (isEmpty(padStr))
- {
- padStr = " ";
- }
- int padLen = padStr.length();
- int strLen = str.length();
- int pads = size - strLen;
- if (pads <= 0)
- {
- return str; // returns original String when possible
- }
- if (padLen == 1 && pads <= PAD_LIMIT)
- {
- return leftPad(str, size, padStr.charAt(0));
- }
-
- if (pads == padLen)
- {
- return padStr.concat(str);
- } else if (pads < padLen)
- {
- return padStr.substring(0, pads).concat(str);
- } else
- {
- char[] padding = new char[pads];
- char[] padChars = padStr.toCharArray();
- for (int i = 0; i < pads; i++)
- {
- padding[i] = padChars[i % padLen];
- }
- return new String(padding).concat(str);
- }
- }
-
- /**
- * Gets a String's length or <code>0</code> if the String is <code>null</code>.
- *
- * @param str a String or <code>null</code>
- * @return String length or <code>0</code> if the String is <code>null</code>.
- * @since 2.4
- */
- public static int length(String str)
- {
- return str == null ? 0 : str.length();
- }
-
- // Centering
- //-----------------------------------------------------------------------
-
- /**
- * <p>Centers a String in a larger String of size <code>size</code>
- * using the space character (' ').<p>
- * <p/>
- * <p>If the size is less than the String length, the String is returned.
- * A <code>null</code> String returns <code>null</code>.
- * A negative size is treated as zero.</p>
- * <p/>
- * <p>Equivalent to <code>center(str, size, " ")</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.center(null, *) = null
- * StringUtils.center("", 4) = " "
- * StringUtils.center("ab", -1) = "ab"
- * StringUtils.center("ab", 4) = " ab "
- * StringUtils.center("abcd", 2) = "abcd"
- * StringUtils.center("a", 4) = " a "
- * </pre>
- *
- * @param str the String to center, may be null
- * @param size the int size of new String, negative treated as zero
- * @return centered String, <code>null</code> if null String input
- */
- public static String center(String str, int size)
- {
- return center(str, size, ' ');
- }
-
- /**
- * <p>Centers a String in a larger String of size <code>size</code>.
- * Uses a supplied character as the value to pad the String with.</p>
- * <p/>
- * <p>If the size is less than the String length, the String is returned.
- * A <code>null</code> String returns <code>null</code>.
- * A negative size is treated as zero.</p>
- * <p/>
- * <pre>
- * StringUtils.center(null, *, *) = null
- * StringUtils.center("", 4, ' ') = " "
- * StringUtils.center("ab", -1, ' ') = "ab"
- * StringUtils.center("ab", 4, ' ') = " ab"
- * StringUtils.center("abcd", 2, ' ') = "abcd"
- * StringUtils.center("a", 4, ' ') = " a "
- * StringUtils.center("a", 4, 'y') = "yayy"
- * </pre>
- *
- * @param str the String to center, may be null
- * @param size the int size of new String, negative treated as zero
- * @param padChar the character to pad the new String with
- * @return centered String, <code>null</code> if null String input
- * @since 2.0
- */
- public static String center(String str, int size, char padChar)
- {
- if (str == null || size <= 0)
- {
- return str;
- }
- int strLen = str.length();
- int pads = size - strLen;
- if (pads <= 0)
- {
- return str;
- }
- str = leftPad(str, strLen + pads / 2, padChar);
- str = rightPad(str, size, padChar);
- return str;
- }
-
- /**
- * <p>Centers a String in a larger String of size <code>size</code>.
- * Uses a supplied String as the value to pad the String with.</p>
- * <p/>
- * <p>If the size is less than the String length, the String is returned.
- * A <code>null</code> String returns <code>null</code>.
- * A negative size is treated as zero.</p>
- * <p/>
- * <pre>
- * StringUtils.center(null, *, *) = null
- * StringUtils.center("", 4, " ") = " "
- * StringUtils.center("ab", -1, " ") = "ab"
- * StringUtils.center("ab", 4, " ") = " ab"
- * StringUtils.center("abcd", 2, " ") = "abcd"
- * StringUtils.center("a", 4, " ") = " a "
- * StringUtils.center("a", 4, "yz") = "yayz"
- * StringUtils.center("abc", 7, null) = " abc "
- * StringUtils.center("abc", 7, "") = " abc "
- * </pre>
- *
- * @param str the String to center, may be null
- * @param size the int size of new String, negative treated as zero
- * @param padStr the String to pad the new String with, must not be null or empty
- * @return centered String, <code>null</code> if null String input
- * @throws IllegalArgumentException if padStr is <code>null</code> or empty
- */
- public static String center(String str, int size, String padStr)
- {
- if (str == null || size <= 0)
- {
- return str;
- }
- if (isEmpty(padStr))
- {
- padStr = " ";
- }
- int strLen = str.length();
- int pads = size - strLen;
- if (pads <= 0)
- {
- return str;
- }
- str = leftPad(str, strLen + pads / 2, padStr);
- str = rightPad(str, size, padStr);
- return str;
- }
-
- // Case conversion
- //-----------------------------------------------------------------------
-
- /**
- * <p>Converts a String to upper case as per {@link String#toUpperCase()}.</p>
- * <p/>
- * <p>A <code>null</code> input String returns <code>null</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.upperCase(null) = null
- * StringUtils.upperCase("") = ""
- * StringUtils.upperCase("aBc") = "ABC"
- * </pre>
- *
- * @param str the String to upper case, may be null
- * @return the upper cased String, <code>null</code> if null String input
- */
- public static String upperCase(String str)
- {
- if (str == null)
- {
- return null;
- }
- return str.toUpperCase();
- }
-
- /**
- * <p>Converts a String to lower case as per {@link String#toLowerCase()}.</p>
- * <p/>
- * <p>A <code>null</code> input String returns <code>null</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.lowerCase(null) = null
- * StringUtils.lowerCase("") = ""
- * StringUtils.lowerCase("aBc") = "abc"
- * </pre>
- *
- * @param str the String to lower case, may be null
- * @return the lower cased String, <code>null</code> if null String input
- */
- public static String lowerCase(String str)
- {
- if (str == null)
- {
- return null;
- }
- return str.toLowerCase();
- }
-
- /**
- * <p>Capitalizes a String changing the first letter to title case as
- * per {@link Character#toTitleCase(char)}. No other letters are changed.</p>
- * <p/>
- * <p>For a word based algorithm, see {@link WordUtils#capitalize(String)}.
- * A <code>null</code> input String returns <code>null</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.capitalize(null) = null
- * StringUtils.capitalize("") = ""
- * StringUtils.capitalize("cat") = "Cat"
- * StringUtils.capitalize("cAt") = "CAt"
- * </pre>
- *
- * @param str the String to capitalize, may be null
- * @return the capitalized String, <code>null</code> if null String input
- * @see WordUtils#capitalize(String)
- * @see #uncapitalize(String)
- * @since 2.0
- */
- public static String capitalize(String str)
- {
- int strLen;
- if (str == null || (strLen = str.length()) == 0)
- {
- return str;
- }
- return new StringBuffer(strLen)
- .append(Character.toTitleCase(str.charAt(0)))
- .append(str.substring(1))
- .toString();
- }
-
- /**
- * <p>Capitalizes a String changing the first letter to title case as
- * per {@link Character#toTitleCase(char)}. No other letters are changed.</p>
- *
- * @param str the String to capitalize, may be null
- * @return the capitalized String, <code>null</code> if null String input
- * @deprecated Use the standardly named {@link #capitalize(String)}.
- * Method will be removed in Commons Lang 3.0.
- */
- public static String capitalise(String str)
- {
- return capitalize(str);
- }
-
- /**
- * <p>Uncapitalizes a String changing the first letter to title case as
- * per {@link Character#toLowerCase(char)}. No other letters are changed.</p>
- * <p/>
- * <p>For a word based algorithm, see {@link WordUtils#uncapitalize(String)}.
- * A <code>null</code> input String returns <code>null</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.uncapitalize(null) = null
- * StringUtils.uncapitalize("") = ""
- * StringUtils.uncapitalize("Cat") = "cat"
- * StringUtils.uncapitalize("CAT") = "cAT"
- * </pre>
- *
- * @param str the String to uncapitalize, may be null
- * @return the uncapitalized String, <code>null</code> if null String input
- * @see WordUtils#uncapitalize(String)
- * @see #capitalize(String)
- * @since 2.0
- */
- public static String uncapitalize(String str)
- {
- int strLen;
- if (str == null || (strLen = str.length()) == 0)
- {
- return str;
- }
- return new StringBuffer(strLen)
- .append(Character.toLowerCase(str.charAt(0)))
- .append(str.substring(1))
- .toString();
- }
-
- /**
- * <p>Uncapitalizes a String changing the first letter to title case as
- * per {@link Character#toLowerCase(char)}. No other letters are changed.</p>
- *
- * @param str the String to uncapitalize, may be null
- * @return the uncapitalized String, <code>null</code> if null String input
- * @deprecated Use the standardly named {@link #uncapitalize(String)}.
- * Method will be removed in Commons Lang 3.0.
- */
- public static String uncapitalise(String str)
- {
- return uncapitalize(str);
- }
-
- /**
- * <p>Swaps the case of a String changing upper and title case to
- * lower case, and lower case to upper case.</p>
- * <p/>
- * <ul>
- * <li>Upper case character converts to Lower case</li>
- * <li>Title case character converts to Lower case</li>
- * <li>Lower case character converts to Upper case</li>
- * </ul>
- * <p/>
- * <p>For a word based algorithm, see {@link WordUtils#swapCase(String)}.
- * A <code>null</code> input String returns <code>null</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.swapCase(null) = null
- * StringUtils.swapCase("") = ""
- * StringUtils.swapCase("The dog has a BONE") = "tHE DOG HAS A bone"
- * </pre>
- * <p/>
- * <p>NOTE: This method changed in Lang version 2.0.
- * It no longer performs a word based algorithm.
- * If you only use ASCII, you will notice no change.
- * That functionality is available in WordUtils.</p>
- *
- * @param str the String to swap case, may be null
- * @return the changed String, <code>null</code> 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);
-
- char ch = 0;
- for (int i = 0; i < strLen; i++)
- {
- ch = str.charAt(i);
- if (Character.isUpperCase(ch))
- {
- ch = Character.toLowerCase(ch);
- } else if (Character.isTitleCase(ch))
- {
- ch = Character.toLowerCase(ch);
- } else if (Character.isLowerCase(ch))
- {
- ch = Character.toUpperCase(ch);
- }
- buffer.append(ch);
- }
- return buffer.toString();
- }
-
- // Count matches
- //-----------------------------------------------------------------------
-
- /**
- * <p>Counts how many times the substring appears in the larger String.</p>
- * <p/>
- * <p>A <code>null</code> or empty ("") String input returns <code>0</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.countMatches(null, *) = 0
- * StringUtils.countMatches("", *) = 0
- * StringUtils.countMatches("abba", null) = 0
- * StringUtils.countMatches("abba", "") = 0
- * StringUtils.countMatches("abba", "a") = 2
- * StringUtils.countMatches("abba", "ab") = 1
- * StringUtils.countMatches("abba", "xxx") = 0
- * </pre>
- *
- * @param str the String to check, may be null
- * @param sub the substring to count, may be null
- * @return the number of occurrences, 0 if either String is <code>null</code>
- */
- public static int countMatches(String str, String sub)
- {
- if (isEmpty(str) || isEmpty(sub))
- {
- return 0;
- }
- int count = 0;
- int idx = 0;
- while ((idx = str.indexOf(sub, idx)) != -1)
- {
- count++;
- idx += sub.length();
- }
- return count;
- }
-
- // Character Tests
- //-----------------------------------------------------------------------
-
- /**
- * <p>Checks if the String contains only unicode letters.</p>
- * <p/>
- * <p><code>null</code> will return <code>false</code>.
- * An empty String ("") will return <code>true</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.isAlpha(null) = false
- * StringUtils.isAlpha("") = true
- * StringUtils.isAlpha(" ") = false
- * StringUtils.isAlpha("abc") = true
- * StringUtils.isAlpha("ab2c") = false
- * StringUtils.isAlpha("ab-c") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @return <code>true</code> if only contains letters, and is non-null
- */
- public static boolean isAlpha(String str)
- {
- if (str == null)
- {
- return false;
- }
- int sz = str.length();
- for (int i = 0; i < sz; i++)
- {
- if (Character.isLetter(str.charAt(i)) == false)
- {
- return false;
- }
- }
- return true;
- }
-
- /**
- * <p>Checks if the String contains only unicode letters and
- * space (' ').</p>
- * <p/>
- * <p><code>null</code> will return <code>false</code>
- * An empty String ("") will return <code>true</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.isAlphaSpace(null) = false
- * StringUtils.isAlphaSpace("") = true
- * StringUtils.isAlphaSpace(" ") = true
- * StringUtils.isAlphaSpace("abc") = true
- * StringUtils.isAlphaSpace("ab c") = true
- * StringUtils.isAlphaSpace("ab2c") = false
- * StringUtils.isAlphaSpace("ab-c") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @return <code>true</code> if only contains letters and space,
- * and is non-null
- */
- public static boolean isAlphaSpace(String str)
- {
- if (str == null)
- {
- return false;
- }
- int sz = str.length();
- for (int i = 0; i < sz; i++)
- {
- if ((Character.isLetter(str.charAt(i)) == false) && (str.charAt(i) != ' '))
- {
- return false;
- }
- }
- return true;
- }
-
- /**
- * <p>Checks if the String contains only unicode letters or digits.</p>
- * <p/>
- * <p><code>null</code> will return <code>false</code>.
- * An empty String ("") will return <code>true</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.isAlphanumeric(null) = false
- * StringUtils.isAlphanumeric("") = true
- * StringUtils.isAlphanumeric(" ") = false
- * StringUtils.isAlphanumeric("abc") = true
- * StringUtils.isAlphanumeric("ab c") = false
- * StringUtils.isAlphanumeric("ab2c") = true
- * StringUtils.isAlphanumeric("ab-c") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @return <code>true</code> if only contains letters or digits,
- * and is non-null
- */
- public static boolean isAlphanumeric(String str)
- {
- if (str == null)
- {
- return false;
- }
- int sz = str.length();
- for (int i = 0; i < sz; i++)
- {
- if (Character.isLetterOrDigit(str.charAt(i)) == false)
- {
- return false;
- }
- }
- return true;
- }
-
- /**
- * <p>Checks if the String contains only unicode letters, digits
- * or space (<code>' '</code>).</p>
- * <p/>
- * <p><code>null</code> will return <code>false</code>.
- * An empty String ("") will return <code>true</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.isAlphanumeric(null) = false
- * StringUtils.isAlphanumeric("") = true
- * StringUtils.isAlphanumeric(" ") = true
- * StringUtils.isAlphanumeric("abc") = true
- * StringUtils.isAlphanumeric("ab c") = true
- * StringUtils.isAlphanumeric("ab2c") = true
- * StringUtils.isAlphanumeric("ab-c") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @return <code>true</code> if only contains letters, digits or space,
- * and is non-null
- */
- public static boolean isAlphanumericSpace(String str)
- {
- if (str == null)
- {
- return false;
- }
- int sz = str.length();
- for (int i = 0; i < sz; i++)
- {
- if ((Character.isLetterOrDigit(str.charAt(i)) == false) && (str.charAt(i) != ' '))
- {
- return false;
- }
- }
- return true;
- }
-
- /**
- * <p>Checks if the string contains only ASCII printable characters.</p>
- * <p/>
- * <p><code>null</code> will return <code>false</code>.
- * An empty String ("") will return <code>true</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.isAsciiPrintable(null) = false
- * StringUtils.isAsciiPrintable("") = true
- * StringUtils.isAsciiPrintable(" ") = true
- * StringUtils.isAsciiPrintable("Ceki") = true
- * StringUtils.isAsciiPrintable("ab2c") = true
- * StringUtils.isAsciiPrintable("!ab-c~") = true
- * StringUtils.isAsciiPrintable("\u0020") = true
- * StringUtils.isAsciiPrintable("\u0021") = true
- * StringUtils.isAsciiPrintable("\u007e") = true
- * StringUtils.isAsciiPrintable("\u007f") = false
- * StringUtils.isAsciiPrintable("Ceki G\u00fclc\u00fc") = false
- * </pre>
- *
- * @param str the string to check, may be null
- * @return <code>true</code> if every character is in the range
- * 32 thru 126
- * @since 2.1
- */
- public static boolean isAsciiPrintable(String str)
- {
- if (str == null)
- {
- return false;
- }
- int sz = str.length();
- for (int i = 0; i < sz; i++)
- {
- if (CharUtils.isAsciiPrintable(str.charAt(i)) == false)
- {
- return false;
- }
- }
- return true;
- }
-
- /**
- * <p>Checks if the String contains only unicode digits.
- * A decimal point is not a unicode digit and returns false.</p>
- * <p/>
- * <p><code>null</code> will return <code>false</code>.
- * An empty String ("") will return <code>true</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.isNumeric(null) = false
- * StringUtils.isNumeric("") = true
- * StringUtils.isNumeric(" ") = false
- * StringUtils.isNumeric("123") = true
- * StringUtils.isNumeric("12 3") = false
- * StringUtils.isNumeric("ab2c") = false
- * StringUtils.isNumeric("12-3") = false
- * StringUtils.isNumeric("12.3") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @return <code>true</code> if only contains digits, and is non-null
- */
- public static boolean isNumeric(String str)
- {
- if (str == null)
- {
- return false;
- }
- int sz = str.length();
- for (int i = 0; i < sz; i++)
- {
- if (Character.isDigit(str.charAt(i)) == false)
- {
- return false;
- }
- }
- return true;
- }
-
- /**
- * <p>Checks if the String contains only unicode digits or space
- * (<code>' '</code>).
- * A decimal point is not a unicode digit and returns false.</p>
- * <p/>
- * <p><code>null</code> will return <code>false</code>.
- * An empty String ("") will return <code>true</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.isNumeric(null) = false
- * StringUtils.isNumeric("") = true
- * StringUtils.isNumeric(" ") = true
- * StringUtils.isNumeric("123") = true
- * StringUtils.isNumeric("12 3") = true
- * StringUtils.isNumeric("ab2c") = false
- * StringUtils.isNumeric("12-3") = false
- * StringUtils.isNumeric("12.3") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @return <code>true</code> if only contains digits or space,
- * and is non-null
- */
- public static boolean isNumericSpace(String str)
- {
- if (str == null)
- {
- return false;
- }
- int sz = str.length();
- for (int i = 0; i < sz; i++)
- {
- if ((Character.isDigit(str.charAt(i)) == false) && (str.charAt(i) != ' '))
- {
- return false;
- }
- }
- return true;
- }
-
- /**
- * <p>Checks if the String contains only whitespace.</p>
- * <p/>
- * <p><code>null</code> will return <code>false</code>.
- * An empty String ("") will return <code>true</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.isWhitespace(null) = false
- * StringUtils.isWhitespace("") = true
- * StringUtils.isWhitespace(" ") = true
- * StringUtils.isWhitespace("abc") = false
- * StringUtils.isWhitespace("ab2c") = false
- * StringUtils.isWhitespace("ab-c") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @return <code>true</code> if only contains whitespace, and is non-null
- * @since 2.0
- */
- public static boolean isWhitespace(String str)
- {
- if (str == null)
- {
- return false;
- }
- int sz = str.length();
- for (int i = 0; i < sz; i++)
- {
- if ((Character.isWhitespace(str.charAt(i)) == false))
- {
- return false;
- }
- }
- return true;
- }
-
- // Defaults
- //-----------------------------------------------------------------------
-
- /**
- * <p>Returns either the passed in String,
- * or if the String is <code>null</code>, an empty String ("").</p>
- * <p/>
- * <pre>
- * StringUtils.defaultString(null) = ""
- * StringUtils.defaultString("") = ""
- * StringUtils.defaultString("bat") = "bat"
- * </pre>
- *
- * @param str the String to check, may be null
- * @return the passed in String, or the empty String if it
- * was <code>null</code>
- * @see ObjectUtils#toString(Object)
- * @see String#valueOf(Object)
- */
- public static String defaultString(String str)
- {
- return str == null ? EMPTY : str;
- }
-
- /**
- * <p>Returns either the passed in String, or if the String is
- * <code>null</code>, the value of <code>defaultStr</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.defaultString(null, "NULL") = "NULL"
- * StringUtils.defaultString("", "NULL") = ""
- * StringUtils.defaultString("bat", "NULL") = "bat"
- * </pre>
- *
- * @param str the String to check, may be null
- * @param defaultStr the default String to return
- * if the input is <code>null</code>, may be null
- * @return the passed in String, or the default if it was <code>null</code>
- * @see ObjectUtils#toString(Object, String)
- * @see String#valueOf(Object)
- */
- public static String defaultString(String str, String defaultStr)
- {
- return str == null ? defaultStr : str;
- }
-
- /**
- * <p>Returns either the passed in String, or if the String is
- * empty or <code>null</code>, the value of <code>defaultStr</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.defaultIfEmpty(null, "NULL") = "NULL"
- * StringUtils.defaultIfEmpty("", "NULL") = "NULL"
- * StringUtils.defaultIfEmpty("bat", "NULL") = "bat"
- * </pre>
- *
- * @param str the String to check, may be null
- * @param defaultStr the default String to return
- * if the input is empty ("") or <code>null</code>, may be null
- * @return the passed in String, or the default
- * @see StringUtils#defaultString(String, String)
- */
- public static String defaultIfEmpty(String str, String defaultStr)
- {
- return StringUtils.isEmpty(str) ? defaultStr : str;
- }
-
- // Reversing
- //-----------------------------------------------------------------------
-
- /**
- * <p>Reverses a String as per {@link StringBuffer#reverse()}.</p>
- * <p/>
- * <p>A <code>null</code> String returns <code>null</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.reverse(null) = null
- * StringUtils.reverse("") = ""
- * StringUtils.reverse("bat") = "tab"
- * </pre>
- *
- * @param str the String to reverse, may be null
- * @return the reversed String, <code>null</code> if null String input
- */
- public static String reverse(String str)
- {
- if (str == null)
- {
- return null;
- }
- return new StringBuffer(str).reverse().toString();
- }
-
- // Abbreviating
- //-----------------------------------------------------------------------
-
- /**
- * <p>Abbreviates a String using ellipses. This will turn
- * "Now is the time for all good men" into "Now is the time for..."</p>
- * <p/>
- * <p>Specifically:
- * <ul>
- * <li>If <code>str</code> is less than <code>maxWidth</code> characters
- * long, return it.</li>
- * <li>Else abbreviate it to <code>(substring(str, 0, max-3) + "...")</code>.</li>
- * <li>If <code>maxWidth</code> is less than <code>4</code>, throw an
- * <code>IllegalArgumentException</code>.</li>
- * <li>In no case will it return a String of length greater than
- * <code>maxWidth</code>.</li>
- * </ul>
- * </p>
- * <p/>
- * <pre>
- * StringUtils.abbreviate(null, *) = null
- * StringUtils.abbreviate("", 4) = ""
- * StringUtils.abbreviate("abcdefg", 6) = "abc..."
- * StringUtils.abbreviate("abcdefg", 7) = "abcdefg"
- * StringUtils.abbreviate("abcdefg", 8) = "abcdefg"
- * StringUtils.abbreviate("abcdefg", 4) = "a..."
- * StringUtils.abbreviate("abcdefg", 3) = IllegalArgumentException
- * </pre>
- *
- * @param str the String to check, may be null
- * @param maxWidth maximum length of result String, must be at least 4
- * @return abbreviated String, <code>null</code> if null String input
- * @throws IllegalArgumentException if the width is too small
- * @since 2.0
- */
- public static String abbreviate(String str, int maxWidth)
- {
- return abbreviate(str, 0, maxWidth);
- }
-
- /**
- * <p>Abbreviates a String using ellipses. This will turn
- * "Now is the time for all good men" into "...is the time for..."</p>
- * <p/>
- * <p>Works like <code>abbreviate(String, int)</code>, but allows you to specify
- * a "left edge" offset. Note that this left edge is not necessarily going to
- * be the leftmost character in the result, or the first character following the
- * ellipses, but it will appear somewhere in the result.
- * <p/>
- * <p>In no case will it return a String of length greater than
- * <code>maxWidth</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.abbreviate(null, *, *) = null
- * StringUtils.abbreviate("", 0, 4) = ""
- * StringUtils.abbreviate("abcdefghijklmno", -1, 10) = "abcdefg..."
- * StringUtils.abbreviate("abcdefghijklmno", 0, 10) = "abcdefg..."
- * StringUtils.abbreviate("abcdefghijklmno", 1, 10) = "abcdefg..."
- * StringUtils.abbreviate("abcdefghijklmno", 4, 10) = "abcdefg..."
- * StringUtils.abbreviate("abcdefghijklmno", 5, 10) = "...fghi..."
- * StringUtils.abbreviate("abcdefghijklmno", 6, 10) = "...ghij..."
- * StringUtils.abbreviate("abcdefghijklmno", 8, 10) = "...ijklmno"
- * StringUtils.abbreviate("abcdefghijklmno", 10, 10) = "...ijklmno"
- * StringUtils.abbreviate("abcdefghijklmno", 12, 10) = "...ijklmno"
- * StringUtils.abbreviate("abcdefghij", 0, 3) = IllegalArgumentException
- * StringUtils.abbreviate("abcdefghij", 5, 6) = IllegalArgumentException
- * </pre>
- *
- * @param str the String to check, may be null
- * @param offset left edge of source String
- * @param maxWidth maximum length of result String, must be at least 4
- * @return abbreviated String, <code>null</code> if null String input
- * @throws IllegalArgumentException if the width is too small
- * @since 2.0
- */
- public static String abbreviate(String str, int offset, int maxWidth)
- {
- if (str == null)
- {
- return null;
- }
- if (maxWidth < 4)
- {
- throw new IllegalArgumentException("Minimum abbreviation width is 4");
- }
- if (str.length() <= maxWidth)
- {
- return str;
- }
- if (offset > str.length())
- {
- offset = str.length();
- }
- if ((str.length() - offset) < (maxWidth - 3))
- {
- offset = str.length() - (maxWidth - 3);
- }
- if (offset <= 4)
- {
- return str.substring(0, maxWidth - 3) + "...";
- }
- if (maxWidth < 7)
- {
- throw new IllegalArgumentException("Minimum abbreviation width with offset is 7");
- }
- if ((offset + (maxWidth - 3)) < str.length())
- {
- return "..." + abbreviate(str.substring(offset), maxWidth - 3);
- }
- return "..." + str.substring(str.length() - (maxWidth - 3));
- }
-
- // Difference
- //-----------------------------------------------------------------------
-
- /**
- * <p>Compares two Strings, and returns the portion where they differ.
- * (More precisely, return the remainder of the second String,
- * starting from where it's different from the first.)</p>
- * <p/>
- * <p>For example,
- * <code>difference("i am a machine", "i am a robot") -> "robot"</code>.</p>
- * <p/>
- * <pre>
- * StringUtils.difference(null, null) = null
- * StringUtils.difference("", "") = ""
- * StringUtils.difference("", "abc") = "abc"
- * StringUtils.difference("abc", "") = ""
- * StringUtils.difference("abc", "abc") = ""
- * StringUtils.difference("ab", "abxyz") = "xyz"
- * StringUtils.difference("abcde", "abxyz") = "xyz"
- * StringUtils.difference("abcde", "xyz") = "xyz"
- * </pre>
- *
- * @param str1 the first String, may be null
- * @param str2 the second String, may be null
- * @return the portion of str2 where it differs from str1; returns the
- * empty String if they are equal
- * @since 2.0
- */
- public static String difference(String str1, String str2)
- {
- if (str1 == null)
- {
- return str2;
- }
- if (str2 == null)
- {
- return str1;
- }
- int at = indexOfDifference(str1, str2);
- if (at == -1)
- {
- return EMPTY;
- }
- return str2.substring(at);
- }
-
- /**
- * <p>Compares two Strings, and returns the index at which the
- * Strings begin to differ.</p>
- * <p/>
- * <p>For example,
- * <code>indexOfDifference("i am a machine", "i am a robot") -> 7</code></p>
- * <p/>
- * <pre>
- * StringUtils.indexOfDifference(null, null) = -1
- * StringUtils.indexOfDifference("", "") = -1
- * StringUtils.indexOfDifference("", "abc") = 0
- * StringUtils.indexOfDifference("abc", "") = 0
- * StringUtils.indexOfDifference("abc", "abc") = -1
- * StringUtils.indexOfDifference("ab", "abxyz") = 2
- * StringUtils.indexOfDifference("abcde", "abxyz") = 2
- * StringUtils.indexOfDifference("abcde", "xyz") = 0
- * </pre>
- *
- * @param str1 the first String, may be null
- * @param str2 the second String, may be null
- * @return the index where str2 and str1 begin to differ; -1 if they are equal
- * @since 2.0
- */
- public static int indexOfDifference(String str1, String str2)
- {
- if (str1 == str2)
- {
- return -1;
- }
- if (str1 == null || str2 == null)
- {
- return 0;
- }
- int i;
- for (i = 0; i < str1.length() && i < str2.length(); ++i)
- {
- if (str1.charAt(i) != str2.charAt(i))
- {
- break;
- }
- }
- if (i < str2.length() || i < str1.length())
- {
- return i;
- }
- return -1;
- }
-
- /**
- * <p>Compares all Strings in an array and returns the index at which the
- * Strings begin to differ.</p>
- * <p/>
- * <p>For example,
- * <code>indexOfDifference(new String[] {"i am a machine", "i am a robot"}) -> 7</code></p>
- * <p/>
- * <pre>
- * StringUtils.indexOfDifference(null) = -1
- * StringUtils.indexOfDifference(new String[] {}) = -1
- * StringUtils.indexOfDifference(new String[] {"abc"}) = -1
- * StringUtils.indexOfDifference(new String[] {null, null}) = -1
- * StringUtils.indexOfDifference(new String[] {"", ""}) = -1
- * StringUtils.indexOfDifference(new String[] {"", null}) = 0
- * StringUtils.indexOfDifference(new String[] {"abc", null, null}) = 0
- * StringUtils.indexOfDifference(new String[] {null, null, "abc"}) = 0
- * StringUtils.indexOfDifference(new String[] {"", "abc"}) = 0
- * StringUtils.indexOfDifference(new String[] {"abc", ""}) = 0
- * StringUtils.indexOfDifference(new String[] {"abc", "abc"}) = -1
- * StringUtils.indexOfDifference(new String[] {"abc", "a"}) = 1
- * StringUtils.indexOfDifference(new String[] {"ab", "abxyz"}) = 2
- * StringUtils.indexOfDifference(new String[] {"abcde", "abxyz"}) = 2
- * StringUtils.indexOfDifference(new String[] {"abcde", "xyz"}) = 0
- * StringUtils.indexOfDifference(new String[] {"xyz", "abcde"}) = 0
- * StringUtils.indexOfDifference(new String[] {"i am a machine", "i am a robot"}) = 7
- * </pre>
- *
- * @param strs array of strings, entries may be null
- * @return the index where the strings begin to differ; -1 if they are all equal
- * @since 2.4
- */
- public static int indexOfDifference(String[] strs)
- {
- if (strs == null || strs.length <= 1)
- {
- return -1;
- }
- boolean anyStringNull = false;
- boolean allStringsNull = true;
- int arrayLen = strs.length;
- int shortestStrLen = Integer.MAX_VALUE;
- int longestStrLen = 0;
-
- // find the min and max string lengths; this avoids checking to make
- // sure we are not exceeding the length of the string each time through
- // the bottom loop.
- for (int i = 0; i < arrayLen; i++)
- {
- if (strs[i] == null)
- {
- anyStringNull = true;
- shortestStrLen = 0;
- } else
- {
- allStringsNull = false;
- shortestStrLen = Math.min(strs[i].length(), shortestStrLen);
- longestStrLen = Math.max(strs[i].length(), longestStrLen);
- }
- }
-
- // handle lists containing all nulls or all empty strings
- if (allStringsNull || (longestStrLen == 0 && !anyStringNull))
- {
- return -1;
- }
-
- // handle lists containing some nulls or some empty strings
- if (shortestStrLen == 0)
- {
- return 0;
- }
-
- // find the position with the first difference across all strings
- int firstDiff = -1;
- for (int stringPos = 0; stringPos < shortestStrLen; stringPos++)
- {
- char comparisonChar = strs[0].charAt(stringPos);
- for (int arrayPos = 1; arrayPos < arrayLen; arrayPos++)
- {
- if (strs[arrayPos].charAt(stringPos) != comparisonChar)
- {
- firstDiff = stringPos;
- break;
- }
- }
- if (firstDiff != -1)
- {
- break;
- }
- }
-
- if (firstDiff == -1 && shortestStrLen != longestStrLen)
- {
- // we compared all of the characters up to the length of the
- // shortest string and didn't find a match, but the string lengths
- // vary, so return the length of the shortest string.
- return shortestStrLen;
- }
- return firstDiff;
- }
-
- /**
- * <p>Compares all Strings in an array and returns the initial sequence of
- * characters that is common to all of them.</p>
- * <p/>
- * <p>For example,
- * <code>getCommonPrefix(new String[] {"i am a machine", "i am a robot"}) -> "i am a "</code></p>
- * <p/>
- * <pre>
- * StringUtils.getCommonPrefix(null) = ""
- * StringUtils.getCommonPrefix(new String[] {}) = ""
- * StringUtils.getCommonPrefix(new String[] {"abc"}) = "abc"
- * StringUtils.getCommonPrefix(new String[] {null, null}) = ""
- * StringUtils.getCommonPrefix(new String[] {"", ""}) = ""
- * StringUtils.getCommonPrefix(new String[] {"", null}) = ""
- * StringUtils.getCommonPrefix(new String[] {"abc", null, null}) = ""
- * StringUtils.getCommonPrefix(new String[] {null, null, "abc"}) = ""
- * StringUtils.getCommonPrefix(new String[] {"", "abc"}) = ""
- * StringUtils.getCommonPrefix(new String[] {"abc", ""}) = ""
- * StringUtils.getCommonPrefix(new String[] {"abc", "abc"}) = "abc"
- * StringUtils.getCommonPrefix(new String[] {"abc", "a"}) = "a"
- * StringUtils.getCommonPrefix(new String[] {"ab", "abxyz"}) = "ab"
- * StringUtils.getCommonPrefix(new String[] {"abcde", "abxyz"}) = "ab"
- * StringUtils.getCommonPrefix(new String[] {"abcde", "xyz"}) = ""
- * StringUtils.getCommonPrefix(new String[] {"xyz", "abcde"}) = ""
- * StringUtils.getCommonPrefix(new String[] {"i am a machine", "i am a robot"}) = "i am a "
- * </pre>
- *
- * @param strs array of String objects, entries may be null
- * @return the initial sequence of characters that are common to all Strings
- * in the array; empty String if the array is null, the elements are all null
- * or if there is no common prefix.
- * @since 2.4
- */
- public static String getCommonPrefix(String[] strs)
- {
- if (strs == null || strs.length == 0)
- {
- return EMPTY;
- }
- int smallestIndexOfDiff = indexOfDifference(strs);
- if (smallestIndexOfDiff == -1)
- {
- // all strings were identical
- if (strs[0] == null)
- {
- return EMPTY;
- }
- return strs[0];
- } else if (smallestIndexOfDiff == 0)
- {
- // there were no common initial characters
- return EMPTY;
- } else
- {
- // we found a common initial character sequence
- return strs[0].substring(0, smallestIndexOfDiff);
- }
- }
-
- // Misc
- //-----------------------------------------------------------------------
-
- /**
- * <p>Find the Levenshtein distance between two Strings.</p>
- * <p/>
- * <p>This is the number of changes needed to change one String into
- * another, where each change is a single character modification (deletion,
- * insertion or substitution).</p>
- * <p/>
- * <p>The previous implementation of the Levenshtein distance algorithm
- * was from <a href="http://www.merriampark.com/ld.htm">http://www.merriampark.com/ld.htm</a></p>
- * <p/>
- * <p>Chas Emerick has written an implementation in Java, which avoids an OutOfMemoryError
- * which can occur when my Java implementation is used with very large strings.<br>
- * This implementation of the Levenshtein distance algorithm
- * is from <a href="http://www.merriampark.com/ldjava.htm">http://www.merriampark.com/ldjava.htm</a></p>
- * <p/>
- * <pre>
- * StringUtils.getLevenshteinDistance(null, *) = IllegalArgumentException
- * StringUtils.getLevenshteinDistance(*, null) = IllegalArgumentException
- * StringUtils.getLevenshteinDistance("","") = 0
- * StringUtils.getLevenshteinDistance("","a") = 1
- * StringUtils.getLevenshteinDistance("aaapppp", "") = 7
- * StringUtils.getLevenshteinDistance("frog", "fog") = 1
- * StringUtils.getLevenshteinDistance("fly", "ant") = 3
- * StringUtils.getLevenshteinDistance("elephant", "hippo") = 7
- * StringUtils.getLevenshteinDistance("hippo", "elephant") = 7
- * StringUtils.getLevenshteinDistance("hippo", "zzzzzzzz") = 8
- * StringUtils.getLevenshteinDistance("hello", "hallo") = 1
- * </pre>
- *
- * @param s the first String, must not be null
- * @param t the second String, must not be null
- * @return result distance
- * @throws IllegalArgumentException if either String input <code>null</code>
- */
- public static int getLevenshteinDistance(String s, String t)
- {
- if (s == null || t == null)
- {
- throw new IllegalArgumentException("Strings must not be null");
- }
-
- /*
- The difference between this impl. and the previous is that, rather
- than creating and retaining a matrix of size s.length()+1 by t.length()+1,
- we maintain two single-dimensional arrays of length s.length()+1. The first, d,
- is the 'current working' distance array that maintains the newest distance cost
- counts as we iterate through the characters of String s. Each time we increment
- the index of String t we are comparing, d is copied to p, the second int[]. Doing so
- allows us to retain the previous cost counts as required by the algorithm (taking
- the minimum of the cost count to the left, up one, and diagonally up and to the left
- of the current cost count being calculated). (Note that the arrays aren't really
- copied anymore, just switched...this is clearly much better than cloning an array
- or doing a System.arraycopy() each time through the outer loop.)
-
- Effectively, the difference between the two implementations is this one does not
- cause an out of memory condition when calculating the LD over two very large strings.
- */
-
- int n = s.length(); // length of s
- int m = t.length(); // length of t
-
- if (n == 0)
- {
- return m;
- } else if (m == 0)
- {
- return n;
- }
-
- if (n > m)
- {
- // swap the input strings to consume less memory
- String tmp = s;
- s = t;
- t = tmp;
- n = m;
- m = t.length();
- }
-
- int p[] = new int[n + 1]; //'previous' cost array, horizontally
- int d[] = new int[n + 1]; // cost array, horizontally
- int _d[]; //placeholder to assist in swapping p and d
-
- // indexes into strings s and t
- int i; // iterates through s
- int j; // iterates through t
-
- char t_j; // jth character of t
-
- int cost; // cost
-
- for (i = 0; i <= n; i++)
- {
- p[i] = i;
- }
-
- for (j = 1; j <= m; j++)
- {
- t_j = t.charAt(j - 1);
- d[0] = j;
-
- for (i = 1; i <= n; i++)
- {
- cost = s.charAt(i - 1) == t_j ? 0 : 1;
- // minimum of cell to the left+1, to the top+1, diagonally left and up +cost
- d[i] = Math.min(Math.min(d[i - 1] + 1, p[i] + 1), p[i - 1] + cost);
- }
-
- // copy current distance counts to 'previous row' distance counts
- _d = p;
- p = d;
- d = _d;
- }
-
- // our last action in the above loop was to switch d and p, so p now
- // actually has the most recent cost counts
- return p[n];
- }
-
- /**
- * <p>Gets the minimum of three <code>int</code> values.</p>
- *
- * @param a value 1
- * @param b value 2
- * @param c value 3
- * @return the smallest of the values
- */
-/*
- private static int min(int a, int b, int c) {
- // Method copied from NumberUtils to avoid dependency on subpackage
- if (b < a) {
- a = b;
- }
- if (c < a) {
- a = c;
- }
- return a;
- }
-*/
-
- // startsWith
- //-----------------------------------------------------------------------
-
- /**
- * <p>Check if a String starts with a specified prefix.</p>
- * <p/>
- * <p><code>null</code>s are handled without exceptions. Two <code>null</code>
- * references are considered to be equal. The comparison is case sensitive.</p>
- * <p/>
- * <pre>
- * StringUtils.startsWith(null, null) = true
- * StringUtils.startsWith(null, "abcdef") = false
- * StringUtils.startsWith("abc", null) = false
- * StringUtils.startsWith("abc", "abcdef") = true
- * StringUtils.startsWith("abc", "ABCDEF") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @param prefix the prefix to find, may be null
- * @return <code>true</code> if the String starts with the prefix, case sensitive, or
- * both <code>null</code>
- * @see java.lang.String#startsWith(String)
- * @since 2.4
- */
- public static boolean startsWith(String str, String prefix)
- {
- return startsWith(str, prefix, false);
- }
-
- /**
- * <p>Case insensitive check if a String starts with a specified prefix.</p>
- * <p/>
- * <p><code>null</code>s are handled without exceptions. Two <code>null</code>
- * references are considered to be equal. The comparison is case insensitive.</p>
- * <p/>
- * <pre>
- * StringUtils.startsWithIgnoreCase(null, null) = true
- * StringUtils.startsWithIgnoreCase(null, "abcdef") = false
- * StringUtils.startsWithIgnoreCase("abc", null) = false
- * StringUtils.startsWithIgnoreCase("abc", "abcdef") = true
- * StringUtils.startsWithIgnoreCase("abc", "ABCDEF") = true
- * </pre>
- *
- * @param str the String to check, may be null
- * @param prefix the prefix to find, may be null
- * @return <code>true</code> if the String starts with the prefix, case insensitive, or
- * both <code>null</code>
- * @see java.lang.String#startsWith(String)
- * @since 2.4
- */
- public static boolean startsWithIgnoreCase(String str, String prefix)
- {
- return startsWith(str, prefix, true);
- }
-
- /**
- * <p>Check if a String starts with a specified prefix (optionally case insensitive).</p>
- *
- * @param str the String to check, may be null
- * @param prefix the prefix to find, may be null
- * @param ignoreCase inidicates whether the compare should ignore case
- * (case insensitive) or not.
- * @return <code>true</code> if the String starts with the prefix or
- * both <code>null</code>
- * @see java.lang.String#startsWith(String)
- */
- private static boolean startsWith(String str, String prefix, boolean ignoreCase)
- {
- if (str == null || prefix == null)
- {
- return (str == null && prefix == null);
- }
- if (prefix.length() > str.length())
- {
- return false;
- }
- return str.regionMatches(ignoreCase, 0, prefix, 0, prefix.length());
- }
-
- // endsWith
- //-----------------------------------------------------------------------
-
- /**
- * <p>Check if a String ends with a specified suffix.</p>
- * <p/>
- * <p><code>null</code>s are handled without exceptions. Two <code>null</code>
- * references are considered to be equal. The comparison is case sensitive.</p>
- * <p/>
- * <pre>
- * StringUtils.endsWith(null, null) = true
- * StringUtils.endsWith(null, "abcdef") = false
- * StringUtils.endsWith("def", null) = false
- * StringUtils.endsWith("def", "abcdef") = true
- * StringUtils.endsWith("def", "ABCDEF") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @param suffix the suffix to find, may be null
- * @return <code>true</code> if the String ends with the suffix, case sensitive, or
- * both <code>null</code>
- * @see java.lang.String#endsWith(String)
- * @since 2.4
- */
- public static boolean endsWith(String str, String suffix)
- {
- return endsWith(str, suffix, false);
- }
-
- /**
- * <p>Case insensitive check if a String ends with a specified suffix.</p>
- * <p/>
- * <p><code>null</code>s are handled without exceptions. Two <code>null</code>
- * references are considered to be equal. The comparison is case insensitive.</p>
- * <p/>
- * <pre>
- * StringUtils.endsWithIgnoreCase(null, null) = true
- * StringUtils.endsWithIgnoreCase(null, "abcdef") = false
- * StringUtils.endsWithIgnoreCase("def", null) = false
- * StringUtils.endsWithIgnoreCase("def", "abcdef") = true
- * StringUtils.endsWithIgnoreCase("def", "ABCDEF") = false
- * </pre>
- *
- * @param str the String to check, may be null
- * @param suffix the suffix to find, may be null
- * @return <code>true</code> if the String ends with the suffix, case insensitive, or
- * both <code>null</code>
- * @see java.lang.String#endsWith(String)
- * @since 2.4
- */
- public static boolean endsWithIgnoreCase(String str, String suffix)
- {
- return endsWith(str, suffix, true);
- }
-
- /**
- * <p>Check if a String ends with a specified suffix (optionally case insensitive).</p>
- *
- * @param str the String to check, may be null
- * @param suffix the suffix to find, may be null
- * @param ignoreCase inidicates whether the compare should ignore case
- * (case insensitive) or not.
- * @return <code>true</code> if the String starts with the prefix or
- * both <code>null</code>
- * @see java.lang.String#endsWith(String)
- */
- private static boolean endsWith(String str, String suffix, boolean ignoreCase)
- {
- if (str == null || suffix == null)
- {
- return (str == null && suffix == null);
- }
- if (suffix.length() > str.length())
- {
- return false;
- }
- int strOffset = str.length() - suffix.length();
- return str.regionMatches(ignoreCase, strOffset, suffix, 0, suffix.length());
- }
-
-}

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