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/* ====================================================================
 * The Apache Software License, Version 1.1
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 * Copyright (c) 2002 The Apache Software Foundation.  All rights
 * reserved.
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 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * 1. Redistributions of source code must retain the above copyright
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 *    any, must include the following acknowledgement:
 *       "This product includes software developed by the
 *        Apache Software Foundation (http://www.codehaus.org/)."
 *    Alternately, this acknowledgement may appear in the software itself,
 *    if and wherever such third-party acknowledgements normally appear.
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package org.codehaus.plexus.util;

import java.util.Arrays;
import java.util.Iterator;
import java.util.Locale;
import java.util.Map;
import java.util.Objects;
import java.util.StringTokenizer;

/**
 * 

* Common String manipulation routines. *

*

* Originally from Turbine and the GenerationJavaCore library. *

* * @author Jon S. Stevens * @author Daniel Rall * @author Greg Coladonato * @author Henri Yandell * @author Ed Korthof * @author Rand McNeely * @author Stephen Colebourne * @author Fredrik Westermarck * @author Holger Krauth * @author Alexander Day Chaffee * @author Vincent Siveton * @since 1.0 * */ public class StringUtils { /** *

* StringUtils instances should NOT be constructed in standard programming. Instead, the class should * be used as StringUtils.trim(" foo ");. *

*

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

*/ public StringUtils() { } // Empty // -------------------------------------------------------------------------- /** *

* Removes control characters, including whitespace, from both ends of this String, handling null by * returning an empty String. *

* * @see java.lang.String#trim() * @param str the String to check * @return the trimmed text (never null) */ public static String clean( String str ) { return ( str == null ? "" : str.trim() ); } /** *

* Removes control characters, including whitespace, from both ends of this String, handling null by * returning null. *

* * @see java.lang.String#trim() * @param str the String to check * @return the trimmed text (or null) */ public static String trim( String str ) { return ( str == null ? null : str.trim() ); } /** *

* Deletes all whitespaces from a String. *

*

* Whitespace is defined by {@link Character#isWhitespace(char)}. *

* * @param str String target to delete whitespace from * @return the String without whitespaces */ public static String deleteWhitespace( String str ) { StringBuilder buffer = new StringBuilder(); int sz = str.length(); for ( int i = 0; i < sz; i++ ) { if ( !Character.isWhitespace( str.charAt( i ) ) ) { buffer.append( str.charAt( i ) ); } } return buffer.toString(); } /** * Checks if a String is non null and is not empty (length > 0). * * @param str the String to check * @return true if the String is non-null, and not length zero */ public static boolean isNotEmpty( String str ) { return ( ( str != null ) && ( !str.isEmpty() ) ); } /** * Checks if a String is null or empty. *

* Note: In releases prior 3.5.0, this method trimmed the input string such that it worked * the same as {@link #isBlank(String)}. Since release 3.5.0 it no longer returns {@code true} for strings * containing only whitespace characters. * * @param str the String to check * @return true if the String is null, or length zero */ public static boolean isEmpty( String str ) { return ( ( str == null ) || ( str.isEmpty() ) ); } /** *

* Checks if a String is whitespace, empty ("") or null. *

* *
     * StringUtils.isBlank(null)      = true
     * StringUtils.isBlank("")        = true
     * StringUtils.isBlank(" ")       = true
     * StringUtils.isBlank("bob")     = false
     * StringUtils.isBlank("  bob  ") = false
     * 
* * @param str the String to check, may be null * @return true if the String is null, empty or whitespace * @since 1.5.2 */ 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 ) ) ) { return false; } } return true; } /** *

* Checks if a String is not empty (""), not null and not whitespace only. *

* *
     * StringUtils.isNotBlank(null)      = false
     * StringUtils.isNotBlank("")        = false
     * StringUtils.isNotBlank(" ")       = false
     * StringUtils.isNotBlank("bob")     = true
     * StringUtils.isNotBlank("  bob  ") = true
     * 
* * @param str the String to check, may be null * @return true if the String is not empty and not null and not whitespace * @since 1.5.2 */ public static boolean isNotBlank( String str ) { return !StringUtils.isBlank( str ); } // Equals and IndexOf // -------------------------------------------------------------------------- /** *

* Compares two Strings, returning true if they are equal. *

*

* nulls are handled without exceptions. Two null references are considered to be equal. * The comparison is case sensitive. *

* * @see java.lang.String#equals(Object) * @param str1 the first string * @param str2 the second string * @return true if the Strings are equal, case sensitive, or both null * @see Objects#equals(Object, Object) */ @Deprecated public static boolean equals( String str1, String str2 ) { return Objects.equals( str1, str2 ); } /** *

* Compares two Strings, returning true if they are equal ignoring the case. *

*

* Nulls are handled without exceptions. Two null references are considered equal. * Comparison is case insensitive. *

* * @see java.lang.String#equalsIgnoreCase(String) * @param str1 the first string * @param str2 the second string * @return true if the Strings are equal, case insensitive, or both null */ public static boolean equalsIgnoreCase( String str1, String str2 ) { return ( str1 == null ? str2 == null : str1.equalsIgnoreCase( str2 ) ); } /** *

* Find the first index of any of a set of potential substrings. *

*

* null String will return -1. *

* * @param str the String to check * @param searchStrs the Strings to search for * @return the first index of any of the searchStrs in str * @throws NullPointerException if any of searchStrs[i] is null */ 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; for ( String searchStr : searchStrs ) { tmp = str.indexOf( searchStr ); if ( tmp == -1 ) { continue; } if ( tmp < ret ) { ret = tmp; } } return ( ret == Integer.MAX_VALUE ) ? -1 : ret; } /** *

* Find the latest index of any of a set of potential substrings. *

*

* null string will return -1. *

* * @param str the String to check * @param searchStrs the Strings to search for * @return the last index of any of the Strings * @throws NullPointerException if any of searchStrs[i] is null */ public static int lastIndexOfAny( String str, String[] searchStrs ) { if ( ( str == null ) || ( searchStrs == null ) ) { return -1; } int ret = -1; int tmp; for ( String searchStr : searchStrs ) { tmp = str.lastIndexOf( searchStr ); if ( tmp > ret ) { ret = tmp; } } return ret; } // Substring // -------------------------------------------------------------------------- /** *

* Gets a substring from the specified string avoiding exceptions. *

*

* A negative start position can be used to start n characters from the end of the String. *

* * @param str the String to get the substring from * @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 */ 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 ""; } return str.substring( start ); } /** *

* Gets a substring from the specified String avoiding exceptions. *

*

* A negative start position can be used to start/end n characters from the end of the String. *

* * @param str the String to get the substring from * @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 position */ 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() ) { // check this works. end = str.length(); } // if start is greater than end, return "" if ( start > end ) { return ""; } if ( start < 0 ) { start = 0; } if ( end < 0 ) { end = 0; } return str.substring( start, end ); } /** *

* Gets the leftmost n characters of a String. *

*

* If n characters are not available, or the String is null, the String will be returned * without an exception. *

* * @param str the String to get the leftmost characters from * @param len the length of the required String * @return the leftmost characters * @throws IllegalArgumentException if len is less than zero */ public static String left( String str, int len ) { if ( len < 0 ) { throw new IllegalArgumentException( "Requested String length " + len + " is less than zero" ); } if ( ( str == null ) || ( str.length() <= len ) ) { return str; } else { return str.substring( 0, len ); } } /** *

* Gets the rightmost n characters of a String. *

*

* If n characters are not available, or the String is null, the String will be returned * without an exception. *

* * @param str the String to get the rightmost characters from * @param len the length of the required String * @return the leftmost characters * @throws IllegalArgumentException if len is less than zero */ public static String right( String str, int len ) { if ( len < 0 ) { throw new IllegalArgumentException( "Requested String length " + len + " is less than zero" ); } if ( ( str == null ) || ( str.length() <= len ) ) { return str; } else { return str.substring( str.length() - len ); } } /** *

* Gets n characters from the middle of a String. *

*

* If n characters are not available, the remainder of the String will be returned without an * exception. If the String is null, null will be returned. *

* * @param str the String to get the characters from * @param pos the position to start from * @param len the length of the required String * @return the leftmost characters * @throws IndexOutOfBoundsException if pos is out of bounds * @throws IllegalArgumentException if len is less than zero */ public static String mid( String str, int pos, int len ) { if ( ( pos < 0 ) || ( ( str != null ) && ( pos > str.length() ) ) ) { throw new StringIndexOutOfBoundsException( "String index " + pos + " is out of bounds" ); } if ( len < 0 ) { throw new IllegalArgumentException( "Requested String length " + len + " is less than zero" ); } if ( str == null ) { return null; } if ( str.length() <= ( pos + len ) ) { return str.substring( pos ); } else { return str.substring( pos, pos + len ); } } // Splitting // -------------------------------------------------------------------------- /** *

* Splits the provided text into a array, using whitespace as the separator. *

*

* The separator is not included in the returned String array. *

* * @param str the String to parse * @return an array of parsed Strings */ public static String[] split( String str ) { return split( str, null, -1 ); } /** * @param text The string to parse. * @param separator Characters used as the delimiters. If null, splits on whitespace. * @return an array of parsed Strings */ public static String[] split( String text, String separator ) { return split( text, separator, -1 ); } /** *

* Splits the provided text into a array, based on a given separator. *

*

* The separator is not included in the returned String array. The maximum number of splits to perform can be * controlled. A null separator will cause parsing to be on whitespace. *

*

* This is useful for quickly splitting a String directly into an array of tokens, instead of an enumeration of * tokens (as StringTokenizer does). *

* * @param str The string to parse. * @param separator Characters used as the delimiters. If null, splits on whitespace. * @param max The maximum number of elements to include in the array. A zero or negative value implies no limit. * @return an array of parsed Strings */ public static String[] split( String str, String separator, int max ) { StringTokenizer tok; if ( separator == null ) { // Null separator means we're using StringTokenizer's default // delimiter, which comprises all whitespace characters. tok = new StringTokenizer( str ); } else { tok = new StringTokenizer( str, separator ); } int listSize = tok.countTokens(); if ( ( max > 0 ) && ( listSize > max ) ) { listSize = max; } String[] list = new String[listSize]; int i = 0; int lastTokenBegin; int lastTokenEnd = 0; while ( tok.hasMoreTokens() ) { if ( ( max > 0 ) && ( i == listSize - 1 ) ) { // In the situation where we hit the max yet have // tokens left over in our input, the last list // element gets all remaining text. String endToken = tok.nextToken(); lastTokenBegin = str.indexOf( endToken, lastTokenEnd ); list[i] = str.substring( lastTokenBegin ); break; } else { list[i] = tok.nextToken(); lastTokenBegin = str.indexOf( list[i], lastTokenEnd ); lastTokenEnd = lastTokenBegin + list[i].length(); } i++; } return list; } // Joining // -------------------------------------------------------------------------- /** *

* Concatenates elements of an array into a single String. *

*

* The difference from join is that concatenate has no delimiter. *

* * @param array the array of values to concatenate. * @return the concatenated string. */ public static String concatenate( Object[] array ) { return join( array, "" ); } /** *

* Joins the elements of the provided array into a single String containing the provided list of elements. *

*

* No delimiter is added before or after the list. A null separator is the same as a blank String. *

* * @param array the array of values to join together * @param separator the separator character to use * @return the joined String */ public static String join( Object[] array, String separator ) { if ( separator == null ) { separator = ""; } int arraySize = array.length; int bufSize = ( arraySize == 0 ? 0 : ( array[0].toString().length() + separator.length() ) * arraySize ); StringBuilder buf = new StringBuilder( bufSize ); for ( int i = 0; i < arraySize; i++ ) { if ( i > 0 ) { buf.append( separator ); } buf.append( array[i] ); } return buf.toString(); } /** *

* Joins the elements of the provided Iterator into a single String containing the provided elements. *

*

* No delimiter is added before or after the list. A null separator is the same as a blank String. *

* * @param iterator the Iterator of values to join together * @param separator the separator character to use * @return the joined String */ public static String join( Iterator iterator, String separator ) { if ( separator == null ) { separator = ""; } StringBuilder buf = new StringBuilder( 256 ); // Java default is 16, probably too small while ( iterator.hasNext() ) { buf.append( iterator.next() ); if ( iterator.hasNext() ) { buf.append( separator ); } } return buf.toString(); } // Replacing // -------------------------------------------------------------------------- /** *

* Replace a char with another char inside a larger String, once. *

*

* A null reference passed to this method is a no-op. *

* * @see #replace(String text, char repl, char with, int max) * @param text text to search and replace in * @param repl char to search for * @param with char to replace with * @return the text with any replacements processed */ public static String replaceOnce( String text, char repl, char with ) { return replace( text, repl, with, 1 ); } /** *

* Replace all occurrences of a char within another char. *

*

* A null reference passed to this method is a no-op. *

* * @see #replace(String text, char repl, char with, int max) * @param text text to search and replace in * @param repl char to search for * @param with char to replace with * @return the text with any replacements processed */ public static String replace( String text, char repl, char with ) { return replace( text, repl, with, -1 ); } /** *

* Replace a char with another char inside a larger String, for the first max values of the search * char. *

*

* A null reference passed to this method is a no-op. *

* * @param text text to search and replace in * @param repl char to search for * @param with char to replace with * @param max maximum number of values to replace, or -1 if no maximum * @return the text with any replacements processed */ public static String replace( String text, char repl, char with, int max ) { return replace( text, String.valueOf( repl ), String.valueOf( with ), max ); } /** *

* Replace a String with another String inside a larger String, once. *

*

* A null reference passed to this method is a no-op. *

* * @see #replace(String text, String repl, String with, int max) * @param text text to search and replace in * @param repl String to search for * @param with String to replace with * @return the text with any replacements processed */ public static String replaceOnce( String text, String repl, String with ) { return replace( text, repl, with, 1 ); } /** *

* Replace all occurrences of a String within another String. *

*

* A null reference passed to this method is a no-op. *

* * @see #replace(String text, String repl, String with, int max) * @param text text to search and replace in * @param repl String to search for * @param with String to replace with * @return the text with any replacements processed */ public static String replace( String text, String repl, String with ) { return replace( text, repl, with, -1 ); } /** *

* Replace a String with another String inside a larger String, for the first max values of the search * String. *

*

* A null reference passed to this method is a no-op. *

* * @param text text to search and replace in * @param repl String to search for * @param with String to replace with * @param max maximum number of values to replace, or -1 if no maximum * @return the text with any replacements processed */ public static String replace( String text, String repl, String with, int max ) { if ( ( text == null ) || ( repl == null ) || ( with == null ) || ( repl.length() == 0 ) ) { return text; } StringBuilder buf = new StringBuilder( text.length() ); int start = 0, end; while ( ( end = text.indexOf( repl, start ) ) != -1 ) { buf.append( text, start, end ).append( with ); start = end + repl.length(); if ( --max == 0 ) { break; } } buf.append( text, start, text.length() ); return buf.toString(); } /** *

* Overlay a part of a String with another String. *

* * @param text String to do overlaying in * @param overlay String to overlay * @param start int to start overlaying at * @param end int to stop overlaying before * @return String with overlayed text * @throws NullPointerException if text or overlay is null */ public static String overlayString( String text, String overlay, int start, int end ) { return new StringBuilder( start + overlay.length() + text.length() - end + 1 ).append( text, 0, start ).append( overlay ).append( text, end, text.length() ).toString(); } // Centering // -------------------------------------------------------------------------- /** *

* Center a String in a larger String of size n. *

*

* Uses spaces as the value to buffer the String with. Equivalent to center(str, size, " "). *

* * @param str String to center * @param size int size of new String * @return String containing centered String * @throws NullPointerException if str is null */ public static String center( String str, int size ) { return center( str, size, " " ); } /** *

* Center a String in a larger String of size n. *

*

* Uses a supplied String as the value to buffer the String with. *

* * @param str String to center * @param size int size of new String * @param delim String to buffer the new String with * @return String containing centered String * @throws NullPointerException if str or delim is null * @throws ArithmeticException if delim is the empty String */ public static String center( String str, int size, String delim ) { int sz = str.length(); int p = size - sz; if ( p < 1 ) { return str; } str = leftPad( str, sz + p / 2, delim ); str = rightPad( str, size, delim ); return str; } // Chomping // -------------------------------------------------------------------------- /** *

* Remove the last newline, and everything after it from a String. *

* * @param str String to chomp the newline from * @return String without chomped newline * @throws NullPointerException if str is null */ public static String chomp( String str ) { return chomp( str, "\n" ); } /** *

* Remove the last value of a supplied String, and everything after it from a String. *

* * @param str String to chomp from * @param sep String to chomp * @return String without chomped ending * @throws NullPointerException if str or sep is null */ public static String chomp( String str, String sep ) { int idx = str.lastIndexOf( sep ); if ( idx != -1 ) { return str.substring( 0, idx ); } else { return str; } } /** *

* Remove a newline if and only if it is at the end of the supplied String. *

* * @param str String to chomp from * @return String without chomped ending * @throws NullPointerException if str is null */ public static String chompLast( String str ) { return chompLast( str, "\n" ); } /** *

* Remove a value if and only if the String ends with that value. *

* * @param str String to chomp from * @param sep String to chomp * @return String without chomped ending * @throws NullPointerException if str or sep is null */ 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() ); } else { return str; } } /** *

* Remove everything and return the last value of a supplied String, and everything after it from a String. *

* * @param str String to chomp from * @param sep String to chomp * @return String chomped * @throws NullPointerException if str or sep is null */ 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 ""; } } /** *

* Remove the first value of a supplied String, and everything before it from a String. *

* * @param str String to chomp from * @param sep String to chomp * @return String without chomped beginning * @throws NullPointerException if str or sep is null */ public static String prechomp( String str, String sep ) { int idx = str.indexOf( sep ); if ( idx != -1 ) { return str.substring( idx + sep.length() ); } else { return str; } } /** *

* Remove and return everything before the first value of a supplied String from another String. *

* * @param str String to chomp from * @param sep String to chomp * @return String prechomped * @throws NullPointerException if str or sep is null */ public static String getPrechomp( String str, String sep ) { int idx = str.indexOf( sep ); if ( idx != -1 ) { return str.substring( 0, idx + sep.length() ); } else { return ""; } } // Chopping // -------------------------------------------------------------------------- /** *

* Remove the last character from a String. *

*

* If the String ends in \r\n, then remove both of them. *

* * @param str String to chop last character from * @return String without last character * @throws NullPointerException if str is null */ public static String chop( String str ) { if ( "".equals( str ) ) { return ""; } if ( str.length() == 1 ) { return ""; } int lastIdx = str.length() - 1; String ret = str.substring( 0, lastIdx ); char last = str.charAt( lastIdx ); if ( last == '\n' ) { if ( ret.charAt( lastIdx - 1 ) == '\r' ) { return ret.substring( 0, lastIdx - 1 ); } } return ret; } /** *

* Remove \n from end of a String if it's there. If a \r precedes it, then remove that * too. *

* * @param str String to chop a newline from * @return String without newline * @throws NullPointerException if str is null */ public static String chopNewline( String str ) { int lastIdx = str.length() - 1; char last = str.charAt( lastIdx ); if ( last == '\n' ) { if ( str.charAt( lastIdx - 1 ) == '\r' ) { lastIdx--; } } else { lastIdx++; } return str.substring( 0, lastIdx ); } // Conversion // -------------------------------------------------------------------------- // spec 3.10.6 /** *

* Escapes any values it finds into their String form. *

*

* So a tab becomes the characters '\\' and 't'. *

* * @param str String to escape values in * @return String with escaped values * @throws NullPointerException if str is null */ public static String escape( String str ) { // improved with code from [email protected] // unicode from him, and default for < 32's. int sz = str.length(); StringBuilder buffer = new StringBuilder( 2 * sz ); for ( int i = 0; i < sz; i++ ) { char ch = str.charAt( i ); // handle unicode if ( ch > 0xfff ) { buffer.append( "\\u" + Integer.toHexString( ch ) ); } else if ( ch > 0xff ) { buffer.append( "\\u0" + Integer.toHexString( ch ) ); } else if ( ch > 0x7f ) { buffer.append( "\\u00" + Integer.toHexString( ch ) ); } else if ( ch < 32 ) { switch ( ch ) { case '\b': buffer.append( '\\' ); buffer.append( 'b' ); break; case '\n': buffer.append( '\\' ); buffer.append( 'n' ); break; case '\t': buffer.append( '\\' ); buffer.append( 't' ); break; case '\f': buffer.append( '\\' ); buffer.append( 'f' ); break; case '\r': buffer.append( '\\' ); buffer.append( 'r' ); break; default: if ( ch > 0xf ) { buffer.append( "\\u00" + Integer.toHexString( ch ) ); } else { buffer.append( "\\u000" + Integer.toHexString( ch ) ); } break; } } else { switch ( ch ) { case '\'': buffer.append( '\\' ); buffer.append( '\'' ); break; case '"': buffer.append( '\\' ); buffer.append( '"' ); break; case '\\': buffer.append( '\\' ); buffer.append( '\\' ); break; default: buffer.append( ch ); break; } } } return buffer.toString(); } // Padding // -------------------------------------------------------------------------- /** *

* Repeat a String n times to form a new string. *

* * @param str String to repeat * @param repeat number of times to repeat str * @return String with repeated String * @throws NegativeArraySizeException if repeat < 0 * @throws NullPointerException if str is null */ public static String repeat( String str, int repeat ) { StringBuilder buffer = new StringBuilder( repeat * str.length() ); for ( int i = 0; i < repeat; i++ ) { buffer.append( str ); } return buffer.toString(); } /** *

* Right pad a String with spaces. *

*

* The String is padded to the size of n. *

* * @param str String to repeat * @param size number of times to repeat str * @return right padded String * @throws NullPointerException if str is null */ public static String rightPad( String str, int size ) { return rightPad( str, size, " " ); } /** *

* Right pad a String with a specified string. *

*

* The String is padded to the size of n. *

* * @param str String to pad out * @param size size to pad to * @param delim String to pad with * @return right padded String * @throws NullPointerException if str or delim is null * @throws ArithmeticException if delim is the empty String */ public static String rightPad( String str, int size, String delim ) { size = ( size - str.length() ) / delim.length(); if ( size > 0 ) { str += repeat( delim, size ); } return str; } /** *

* Left pad a String with spaces. *

*

* The String is padded to the size of n. *

* * @param str String to pad out * @param size size to pad to * @return left padded String * @throws NullPointerException if str or delim is null */ public static String leftPad( String str, int size ) { return leftPad( str, size, " " ); } /** * Left pad a String with a specified string. Pad to a size of n. * * @param str String to pad out * @param size size to pad to * @param delim String to pad with * @return left padded String * @throws NullPointerException if str or delim is null * @throws ArithmeticException if delim is the empty string */ public static String leftPad( String str, int size, String delim ) { size = ( size - str.length() ) / delim.length(); if ( size > 0 ) { str = repeat( delim, size ) + str; } return str; } // Stripping // -------------------------------------------------------------------------- /** *

* Remove whitespace from the front and back of a String. *

* * @param str the String to remove whitespace from * @return the stripped String */ public static String strip( String str ) { return strip( str, null ); } /** *

* Remove a specified String from the front and back of a String. *

*

* If whitespace is wanted to be removed, used the {@link #strip(java.lang.String)} method. *

* * @param str the String to remove a string from * @param delim the String to remove at start and end * @return the stripped String */ public static String strip( String str, String delim ) { str = stripStart( str, delim ); return stripEnd( str, delim ); } /** *

* Strip whitespace from the front and back of every String in the array. *

* * @param strs the Strings to remove whitespace from * @return the stripped Strings */ public static String[] stripAll( String[] strs ) { return stripAll( strs, null ); } /** *

* Strip the specified delimiter from the front and back of every String in the array. *

* * @param strs the Strings to remove a String from * @param delimiter the String to remove at start and end * @return the stripped Strings */ public static String[] stripAll( String[] strs, String delimiter ) { if ( ( strs == null ) || ( strs.length == 0 ) ) { return strs; } int sz = strs.length; String[] newArr = new String[sz]; for ( int i = 0; i < sz; i++ ) { newArr[i] = strip( strs[i], delimiter ); } return newArr; } /** *

* Strip any of a supplied String from the end of a String. *

*

* If the strip String is null, whitespace is stripped. *

* * @param str the String to remove characters from * @param strip the String to remove * @return the stripped String */ public static String stripEnd( String str, String strip ) { if ( str == null ) { return null; } int end = str.length(); if ( strip == null ) { while ( ( end != 0 ) && Character.isWhitespace( str.charAt( end - 1 ) ) ) { end--; } } else { while ( ( end != 0 ) && ( strip.indexOf( str.charAt( end - 1 ) ) != -1 ) ) { end--; } } return str.substring( 0, end ); } /** *

* Strip any of a supplied String from the start of a String. *

*

* If the strip String is null, whitespace is stripped. *

* * @param str the String to remove characters from * @param strip the String to remove * @return the stripped String */ public static String stripStart( String str, String strip ) { if ( str == null ) { return null; } int start = 0; int sz = str.length(); if ( strip == null ) { while ( ( start != sz ) && Character.isWhitespace( str.charAt( start ) ) ) { start++; } } else { while ( ( start != sz ) && ( strip.indexOf( str.charAt( start ) ) != -1 ) ) { start++; } } return str.substring( start ); } // Case conversion // -------------------------------------------------------------------------- /** *

* Convert a String to upper case, null String returns null. *

* * @param str the String to uppercase * @return the upper cased String */ public static String upperCase( String str ) { if ( str == null ) { return null; } return str.toUpperCase(); } /** *

* Convert a String to lower case, null String returns null. *

* * @param str the string to lowercase * @return the lower cased String */ public static String lowerCase( String str ) { if ( str == null ) { return null; } return str.toLowerCase(); } /** *

* Uncapitalise a String. *

*

* That is, convert the first character into lower-case. null is returned as null. *

* * @param str the String to uncapitalise * @return uncapitalised String */ public static String uncapitalise( String str ) { if ( str == null ) { return null; } else if ( str.length() == 0 ) { return ""; } else { return new StringBuilder( str.length() ).append( Character.toLowerCase( str.charAt( 0 ) ) ).append( str, 1, str.length() ).toString(); } } /** *

* Capitalise a String. *

*

* That is, convert the first character into title-case. null is returned as null. *

* * @param str the String to capitalise * @return capitalised String */ public static String capitalise( String str ) { if ( str == null ) { return null; } else if ( str.length() == 0 ) { return ""; } else { return new StringBuilder( str.length() ).append( Character.toTitleCase( str.charAt( 0 ) ) ).append( str, 1, str.length() ).toString(); } } /** *

* Swaps the case of String. *

*

* Properly looks after making sure the start of words are Titlecase and not Uppercase. *

*

* null is returned as null. *

* * @param str the String to swap the case of * @return the modified String */ public static String swapCase( String str ) { if ( str == null ) { return null; } int sz = str.length(); StringBuilder buffer = new StringBuilder( sz ); boolean whitespace = false; char ch; char tmp; for ( int i = 0; i < sz; i++ ) { ch = str.charAt( i ); if ( Character.isUpperCase( ch ) ) { tmp = Character.toLowerCase( ch ); } else if ( Character.isTitleCase( ch ) ) { tmp = Character.toLowerCase( ch ); } else if ( Character.isLowerCase( ch ) ) { if ( whitespace ) { tmp = Character.toTitleCase( ch ); } else { tmp = Character.toUpperCase( ch ); } } else { tmp = ch; } buffer.append( tmp ); whitespace = Character.isWhitespace( ch ); } return buffer.toString(); } /** *

* Capitalise all the words in a String. *

*

* Uses {@link Character#isWhitespace(char)} as a separator between words. *

*

* null will return null. *

* * @param str the String to capitalise * @return capitalised String */ public static String capitaliseAllWords( String str ) { if ( str == null ) { return null; } int sz = str.length(); StringBuilder buffer = new StringBuilder( sz ); boolean space = true; for ( int i = 0; i < sz; i++ ) { char ch = str.charAt( i ); if ( Character.isWhitespace( ch ) ) { buffer.append( ch ); space = true; } else if ( space ) { buffer.append( Character.toTitleCase( ch ) ); space = false; } else { buffer.append( ch ); } } return buffer.toString(); } /** *

* Uncapitalise all the words in a string. *

*

* Uses {@link Character#isWhitespace(char)} as a separator between words. *

*

* null will return null. *

* * @param str the string to uncapitalise * @return uncapitalised string */ public static String uncapitaliseAllWords( String str ) { if ( str == null ) { return null; } int sz = str.length(); StringBuilder buffer = new StringBuilder( sz ); boolean space = true; for ( int i = 0; i < sz; i++ ) { char ch = str.charAt( i ); if ( Character.isWhitespace( ch ) ) { buffer.append( ch ); space = true; } else if ( space ) { buffer.append( Character.toLowerCase( ch ) ); space = false; } else { buffer.append( ch ); } } return buffer.toString(); } // Nested extraction // -------------------------------------------------------------------------- /** *

* Get the String that is nested in between two instances of the same String. *

*

* If str is null, will return null. *

* * @param str the String containing nested-string * @param tag the String before and after nested-string * @return the String that was nested, or null * @throws NullPointerException if tag is null */ public static String getNestedString( String str, String tag ) { return getNestedString( str, tag, tag ); } /** *

* Get the String that is nested in between two Strings. *

* * @param str the String containing nested-string * @param open the String before nested-string * @param close the String after nested-string * @return the String that was nested, or null * @throws NullPointerException if open or close is null */ public static String getNestedString( String str, String open, String close ) { if ( str == 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; } /** *

* How many times is the substring in the larger String. *

*

* null returns 0. *

* * @param str the String to check * @param sub the substring to count * @return the number of occurrences, 0 if the String is null * @throws NullPointerException if sub is null */ public static int countMatches( String str, String sub ) { if ( sub.equals( "" ) ) { return 0; } if ( str == null ) { return 0; } int count = 0; int idx = 0; while ( ( idx = str.indexOf( sub, idx ) ) != -1 ) { count++; idx += sub.length(); } return count; } // Character Tests // -------------------------------------------------------------------------- /** *

* Checks if the String contains only unicode letters. *

*

* null will return false. An empty String will return true. *

* * @param str the String to check * @return true 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; } /** *

* Checks if the String contains only whitespace. *

*

* null will return false. An empty String will return true. *

* * @param str the String to check * @return true if only contains whitespace, and is non-null */ 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; } /** *

* Checks if the String contains only unicode letters and space (' '). *

*

* null will return false. An empty String will return true. *

* * @param str the String to check * @return true 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; } /** *

* Checks if the String contains only unicode letters or digits. *

*

* null will return false. An empty String will return true. *

* * @param str the String to check * @return true 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; } /** *

* Checks if the String contains only unicode letters, digits or space (' '). *

*

* null will return false. An empty String will return true. *

* * @param str the String to check * @return true 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; } /** *

* Checks if the String contains only unicode digits. *

*

* null will return false. An empty String will return true. *

* * @param str the String to check * @return true 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; } /** *

* Checks if the String contains only unicode digits or space (' '). *

*

* null will return false. An empty String will return true. *

* * @param str the String to check * @return true 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; } // Defaults // -------------------------------------------------------------------------- /** *

* Returns either the passed in Object as a String, or, if the Object is * null, an empty String. *

* * @param obj the Object to check * @return the passed in Object's toString, or blank if it was null * @see Objects#toString(Object, String) */ @Deprecated public static String defaultString( Object obj ) { return defaultString( obj, "" ); } /** *

* Returns either the passed in Object as a String, or, if the Object is * null, a passed in default String. *

* * @param obj the Object to check * @param defaultString the default String to return if str is null * @return the passed in string, or the default if it was null * @see Objects#toString(Object, String) */ @Deprecated public static String defaultString( Object obj, String defaultString ) { return Objects.toString( obj, defaultString ); } // Reversing // -------------------------------------------------------------------------- /** *

* Reverse a String. *

*

* null String returns null. *

* * @param str the String to reverse * @return the reversed String */ public static String reverse( String str ) { if ( str == null ) { return null; } return new StringBuilder( str ).reverse().toString(); } /** *

* Reverses a String that is delimited by a specific character. *

*

* The Strings between the delimiters are not reversed. Thus java.lang.String becomes String.lang.java (if the * delimiter is '.'). *

* * @param str the String to reverse * @param delimiter the delimiter to use * @return the reversed String */ public static String reverseDelimitedString( String str, String delimiter ) { // could implement manually, but simple way is to reuse other, // probably slower, methods. String[] strs = split( str, delimiter ); reverseArray( strs ); return join( strs, delimiter ); } /** *

* Reverses an array. *

*

* TAKEN FROM CollectionsUtils. *

* * @param array the array to reverse */ private static void reverseArray( Object[] array ) { int i = 0; int j = array.length - 1; Object tmp; while ( j > i ) { tmp = array[j]; array[j] = array[i]; array[i] = tmp; j--; i++; } } // Abbreviating // -------------------------------------------------------------------------- /** * @return Turn "Now is the time for all good men" into "Now is the time for..." *

* Specifically: *

* If str is less than max characters long, return it. Else abbreviate it to (substring(str, 0, max-3) + "..."). If * maxWidth is less than 3, throw an IllegalArgumentException. In no case will it return a string of length greater * than maxWidth. * @param s string * @param maxWidth maximum length of result string **/ public static String abbreviate( String s, int maxWidth ) { return abbreviate( s, 0, maxWidth ); } /** * @return Turn "Now is the time for all good men" into "...is the time for..." * * Works like abbreviate(String, int), 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. In no case will it return a string of length greater than maxWidth. * @param s string * @param offset left edge of source string * @param maxWidth maximum length of result string **/ public static String abbreviate( String s, int offset, int maxWidth ) { if ( maxWidth < 4 ) { throw new IllegalArgumentException( "Minimum abbreviation width is 4" ); } if ( s.length() <= maxWidth ) { return s; } if ( offset > s.length() ) { offset = s.length(); } if ( ( s.length() - offset ) < ( maxWidth - 3 ) ) { offset = s.length() - ( maxWidth - 3 ); } if ( offset <= 4 ) { return s.substring( 0, maxWidth - 3 ) + "..."; } if ( maxWidth < 7 ) { throw new IllegalArgumentException( "Minimum abbreviation width with offset is 7" ); } if ( ( offset + ( maxWidth - 3 ) ) < s.length() ) { return "..." + abbreviate( s.substring( offset ), maxWidth - 3 ); } return "..." + s.substring( s.length() - ( maxWidth - 3 ) ); } // Difference // -------------------------------------------------------------------------- /** * Compare two strings, and return the portion where they differ. (More precisely, return the remainder of the * second string, starting from where it's different from the first.) *

* E.g. strdiff("i am a machine", "i am a robot") -> "robot" * @param s1 string * @param s2 string * @return the portion of s2 where it differs from s1; returns the empty string ("") if they are equal **/ public static String difference( String s1, String s2 ) { int at = differenceAt( s1, s2 ); if ( at == -1 ) { return ""; } return s2.substring( at ); } /** * Compare two strings, and return the index at which the strings begin to differ. *

* E.g. strdiff("i am a machine", "i am a robot") -> 7 *

* @param s1 string * @param s2 string * @return the index where s2 and s1 begin to differ; -1 if they are equal **/ public static int differenceAt( String s1, String s2 ) { int i; for ( i = 0; ( i < s1.length() ) && ( i < s2.length() ); ++i ) { if ( s1.charAt( i ) != s2.charAt( i ) ) { break; } } if ( ( i < s2.length() ) || ( i < s1.length() ) ) { return i; } return -1; } public static String interpolate( String text, Map namespace ) { Iterator keys = namespace.keySet().iterator(); while ( keys.hasNext() ) { String key = keys.next().toString(); Object obj = namespace.get( key ); if ( obj == null ) { throw new NullPointerException( "The value of the key '" + key + "' is null." ); } String value = obj.toString(); text = replace( text, "${" + key + "}", value ); if ( !key.contains( " " ) ) { text = replace( text, "$" + key, value ); } } return text; } public static String removeAndHump( String data, String replaceThis ) { String temp; StringBuilder out = new StringBuilder(); temp = data; StringTokenizer st = new StringTokenizer( temp, replaceThis ); while ( st.hasMoreTokens() ) { String element = (String) st.nextElement(); out.append( capitalizeFirstLetter( element ) ); } return out.toString(); } public static String capitalizeFirstLetter( String data ) { char firstLetter = Character.toTitleCase( data.substring( 0, 1 ).charAt( 0 ) ); String restLetters = data.substring( 1 ); return firstLetter + restLetters; } public static String lowercaseFirstLetter( String data ) { char firstLetter = Character.toLowerCase( data.substring( 0, 1 ).charAt( 0 ) ); String restLetters = data.substring( 1 ); return firstLetter + restLetters; } public static String addAndDeHump( String view ) { StringBuilder sb = new StringBuilder(); for ( int i = 0; i < view.length(); i++ ) { if ( ( i != 0 ) && Character.isUpperCase( view.charAt( i ) ) ) { sb.append( '-' ); } sb.append( view.charAt( i ) ); } return sb.toString().trim().toLowerCase( Locale.ENGLISH ); } /** *

* Quote and escape a String with the given character, handling null. *

* *
     * StringUtils.quoteAndEscape(null, *)    = null
     * StringUtils.quoteAndEscape("", *)      = ""
     * StringUtils.quoteAndEscape("abc", '"') = abc
     * StringUtils.quoteAndEscape("a\"bc", '"') = "a\"bc"
     * StringUtils.quoteAndEscape("a\"bc", '\'') = 'a\"bc'
     * 
* * @param source the source String * @param quoteChar the char used to quote * @return the String quoted and escaped * @since 1.5.1 * @see #quoteAndEscape(String, char, char[], char[], char, boolean) */ public static String quoteAndEscape( String source, char quoteChar ) { return quoteAndEscape( source, quoteChar, new char[] { quoteChar }, new char[] { ' ' }, '\\', false ); } /** *

* Quote and escape a String with the given character, handling null. *

* * @param source the source String * @param quoteChar the char used to quote * @param quotingTriggers chars generating a quote * @return the String quoted and escaped * @since 1.5.1 * @see #quoteAndEscape(String, char, char[], char[], char, boolean) */ public static String quoteAndEscape( String source, char quoteChar, char[] quotingTriggers ) { return quoteAndEscape( source, quoteChar, new char[] { quoteChar }, quotingTriggers, '\\', false ); } /** * @param source the source String * @param quoteChar the char used to quote * @param escapedChars chars to escape * @param escapeChar char used for escaping * @param force force the quoting * @return the String quoted and escaped * @since 1.5.1 * @see #quoteAndEscape(String, char, char[], char[], char, boolean) */ public static String quoteAndEscape( String source, char quoteChar, final char[] escapedChars, char escapeChar, boolean force ) { return quoteAndEscape( source, quoteChar, escapedChars, new char[] { ' ' }, escapeChar, force ); } /** * @param source the source String * @param quoteChar the char used to quote * @param escapedChars chars to escape * @param quotingTriggers chars generating a quote * @param escapeChar char used for escaping * @param force force the quoting * @return the String quoted and escaped * @since 1.5.1 */ public static String quoteAndEscape( String source, char quoteChar, final char[] escapedChars, final char[] quotingTriggers, char escapeChar, boolean force ) { return quoteAndEscape( source, quoteChar, escapedChars, quotingTriggers, escapeChar + "%s", force ); } /** * @param source the source String * @param quoteChar the char used to quote * @param escapedChars chars to escape * @param quotingTriggers chars generating a quote * @param escapePattern pattern used for escaping * @param force force the quoting * @return the String quoted and escaped * @since 3.0.4 */ public static String quoteAndEscape( String source, char quoteChar, final char[] escapedChars, final char[] quotingTriggers, String escapePattern, boolean force ) { if ( source == null ) { return null; } if ( !force && source.startsWith( Character.toString( quoteChar ) ) && source.endsWith( Character.toString( quoteChar ) ) ) { return source; } String escaped = escape( source, escapedChars, escapePattern ); boolean quote = false; if ( force ) { quote = true; } else if ( !escaped.equals( source ) ) { quote = true; } else { for ( char quotingTrigger : quotingTriggers ) { if ( escaped.indexOf( quotingTrigger ) > -1 ) { quote = true; break; } } } if ( quote ) { return quoteChar + escaped + quoteChar; } return escaped; } /** * @param source the source String * @param escapedChars chars to escape * @param escapeChar char used for escaping * @return the String escaped * @since 1.5.1 */ public static String escape( String source, final char[] escapedChars, char escapeChar ) { return escape( source, escapedChars, escapeChar + "%s" ); } /** * @param source the source String * @param escapedChars chars to escape * @param escapePattern pattern used for escaping * @return the String escaped * @since 3.0.4 */ public static String escape( String source, final char[] escapedChars, String escapePattern ) { if ( source == null ) { return null; } char[] eqc = new char[escapedChars.length]; System.arraycopy( escapedChars, 0, eqc, 0, escapedChars.length ); Arrays.sort( eqc ); StringBuilder buffer = new StringBuilder( source.length() ); for ( int i = 0; i < source.length(); i++ ) { final char c = source.charAt( i ); int result = Arrays.binarySearch( eqc, c ); if ( result > -1 ) { buffer.append( String.format( escapePattern, c ) ); } else { buffer.append( c ); } } return buffer.toString(); } /** * Remove all duplicate whitespace characters and line terminators are replaced with a single space. * * @param s a not null String * @return a string with unique whitespace. * @since 1.5.7 */ public static String removeDuplicateWhitespace( String s ) { StringBuilder result = new StringBuilder(); int length = s.length(); boolean isPreviousWhiteSpace = false; for ( int i = 0; i < length; i++ ) { char c = s.charAt( i ); boolean thisCharWhiteSpace = Character.isWhitespace( c ); if ( !( isPreviousWhiteSpace && thisCharWhiteSpace ) ) { result.append( c ); } isPreviousWhiteSpace = thisCharWhiteSpace; } return result.toString(); } /** * Parses the given String and replaces all occurrences of '\n', '\r' and '\r\n' with the system line separator. * * @param s a not null String * @return a String that contains only System line separators. * @see #unifyLineSeparators(String, String) * @since 1.5.7 */ public static String unifyLineSeparators( String s ) { return unifyLineSeparators( s, System.getProperty( "line.separator" ) ); } /** * Parses the given String and replaces all occurrences of '\n', '\r' and '\r\n' with the system line separator. * * @param s a not null String * @param ls the wanted line separator ("\n" on UNIX), if null using the System line separator. * @return a String that contains only System line separators. * @throws IllegalArgumentException if ls is not '\n', '\r' and '\r\n' characters. * @since 1.5.7 */ public static String unifyLineSeparators( String s, String ls ) { if ( s == null ) { return null; } if ( ls == null ) { ls = System.getProperty( "line.separator" ); } if ( !( ls.equals( "\n" ) || ls.equals( "\r" ) || ls.equals( "\r\n" ) ) ) { throw new IllegalArgumentException( "Requested line separator is invalid." ); } int length = s.length(); StringBuilder buffer = new StringBuilder( length ); for ( int i = 0; i < length; i++ ) { if ( s.charAt( i ) == '\r' ) { if ( ( i + 1 ) < length && s.charAt( i + 1 ) == '\n' ) { i++; } buffer.append( ls ); } else if ( s.charAt( i ) == '\n' ) { buffer.append( ls ); } else { buffer.append( s.charAt( i ) ); } } return buffer.toString(); } /** *

* Checks if String contains a search character, handling null. This method uses * {@link String#indexOf(int)}. *

*

* A null or empty ("") String will return false. *

* *
     * StringUtils.contains(null, *)    = false
     * StringUtils.contains("", *)      = false
     * StringUtils.contains("abc", 'a') = true
     * StringUtils.contains("abc", 'z') = false
     * 
* * @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 null string input * @since 1.5.7 */ public static boolean contains( String str, char searchChar ) { if ( isEmpty( str ) ) { return false; } return str.indexOf( searchChar ) >= 0; } /** *

* Checks if String contains a search String, handling null. This method uses * {@link String#indexOf(int)}. *

*

* A null String will return false. *

* *
     * 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
     * 
* * @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 null string input * @since 1.5.7 */ public static boolean contains( String str, String searchStr ) { if ( str == null || searchStr == null ) { return false; } return str.contains( searchStr ); } }




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