com.aliyun.openservices.ons.shaded.commons.lang3.StringUtils Maven / Gradle / Ivy
/*
* 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 com.aliyun.openservices.ons.shaded.commons.lang3;
import java.io.UnsupportedEncodingException;
import java.nio.charset.Charset;
import java.text.Normalizer;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Iterator;
import java.util.List;
import java.util.Locale;
import java.util.regex.Pattern;
/**
* Operations on {@link java.lang.String} that are
* {@code null} safe.
*
*
* - IsEmpty/IsBlank
* - checks if a String contains text
* - Trim/Strip
* - removes leading and trailing whitespace
* - Equals/Compare
* - compares two strings null-safe
* - startsWith
* - check if a String starts with a prefix null-safe
* - endsWith
* - check if a String ends with a suffix null-safe
* - IndexOf/LastIndexOf/Contains
* - null-safe index-of checks
*
- IndexOfAny/LastIndexOfAny/IndexOfAnyBut/LastIndexOfAnyBut
* - index-of any of a set of Strings
* - ContainsOnly/ContainsNone/ContainsAny
* - does String contains only/none/any of these characters
* - Substring/Left/Right/Mid
* - null-safe substring extractions
* - SubstringBefore/SubstringAfter/SubstringBetween
* - substring extraction relative to other strings
* - Split/Join
* - splits a String into an array of substrings and vice versa
* - Remove/Delete
* - removes part of a String
* - Replace/Overlay
* - Searches a String and replaces one String with another
* - Chomp/Chop
* - removes the last part of a String
* - AppendIfMissing
* - appends a suffix to the end of the String if not present
* - PrependIfMissing
* - prepends a prefix to the start of the String if not present
* - LeftPad/RightPad/Center/Repeat
* - pads a String
* - UpperCase/LowerCase/SwapCase/Capitalize/Uncapitalize
* - changes the case of a String
* - CountMatches
* - counts the number of occurrences of one String in another
* - IsAlpha/IsNumeric/IsWhitespace/IsAsciiPrintable
* - checks the characters in a String
* - DefaultString
* - protects against a null input String
* - Rotate
* - rotate (circular shift) a String
* - Reverse/ReverseDelimited
* - reverses a String
* - Abbreviate
* - abbreviates a string using ellipsis
* - Difference
* - compares Strings and reports on their differences
* - LevenshteinDistance
* - the number of changes needed to change one String into another
*
*
* The {@code StringUtils} class defines certain words related to
* String handling.
*
*
* - null - {@code null}
* - empty - a zero-length string ({@code ""})
* - space - the space character ({@code ' '}, char 32)
* - whitespace - the characters defined by {@link Character#isWhitespace(char)}
* - trim - the characters <= 32 as in {@link String#trim()}
*
*
* {@code StringUtils} handles {@code null} input Strings quietly.
* That is to say that a {@code null} input will return {@code null}.
* Where a {@code boolean} or {@code int} is being returned
* details vary by method.
*
* A side effect of the {@code null} handling is that a
* {@code NullPointerException} should be considered a bug in
* {@code StringUtils}.
*
* Methods in this class give sample code to explain their operation.
* The symbol {@code *} is used to indicate any input including {@code null}.
*
* #ThreadSafe#
* @see java.lang.String
* @since 1.0
*/
//@Immutable
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)
/**
* A String for a space character.
*
* @since 3.2
*/
public static final String SPACE = " ";
/**
* The empty String {@code ""}.
* @since 2.0
*/
public static final String EMPTY = "";
/**
* A String for linefeed LF ("\n").
*
* @see JLF: Escape Sequences
* for Character and String Literals
* @since 3.2
*/
public static final String LF = "\n";
/**
* A String for carriage return CR ("\r").
*
* @see JLF: Escape Sequences
* for Character and String Literals
* @since 3.2
*/
public static final String CR = "\r";
/**
* Represents a failed index search.
* @since 2.1
*/
public static final int INDEX_NOT_FOUND = -1;
/**
* The maximum size to which the padding constant(s) can expand.
*/
private static final int PAD_LIMIT = 8192;
/**
* {@code StringUtils} instances should NOT be constructed in
* standard programming. Instead, the class should be used as
* {@code StringUtils.trim(" foo ");}.
*
* This constructor is public to permit tools that require a JavaBean
* instance to operate.
*/
public StringUtils() {
super();
}
// Empty checks
//-----------------------------------------------------------------------
/**
* Checks if a CharSequence is empty ("") or null.
*
*
* StringUtils.isEmpty(null) = true
* StringUtils.isEmpty("") = true
* StringUtils.isEmpty(" ") = false
* StringUtils.isEmpty("bob") = false
* StringUtils.isEmpty(" bob ") = false
*
*
* NOTE: This method changed in Lang version 2.0.
* It no longer trims the CharSequence.
* That functionality is available in isBlank().
*
* @param cs the CharSequence to check, may be null
* @return {@code true} if the CharSequence is empty or null
* @since 3.0 Changed signature from isEmpty(String) to isEmpty(CharSequence)
*/
public static boolean isEmpty(final CharSequence cs) {
return cs == null || cs.length() == 0;
}
/**
* Checks if a CharSequence is not empty ("") and not null.
*
*
* StringUtils.isNotEmpty(null) = false
* StringUtils.isNotEmpty("") = false
* StringUtils.isNotEmpty(" ") = true
* StringUtils.isNotEmpty("bob") = true
* StringUtils.isNotEmpty(" bob ") = true
*
*
* @param cs the CharSequence to check, may be null
* @return {@code true} if the CharSequence is not empty and not null
* @since 3.0 Changed signature from isNotEmpty(String) to isNotEmpty(CharSequence)
*/
public static boolean isNotEmpty(final CharSequence cs) {
return !isEmpty(cs);
}
/**
* Checks if any one of the CharSequences are empty ("") or null.
*
*
* StringUtils.isAnyEmpty(null) = true
* StringUtils.isAnyEmpty(null, "foo") = true
* StringUtils.isAnyEmpty("", "bar") = true
* StringUtils.isAnyEmpty("bob", "") = true
* StringUtils.isAnyEmpty(" bob ", null) = true
* StringUtils.isAnyEmpty(" ", "bar") = false
* StringUtils.isAnyEmpty("foo", "bar") = false
*
*
* @param css the CharSequences to check, may be null or empty
* @return {@code true} if any of the CharSequences are empty or null
* @since 3.2
*/
public static boolean isAnyEmpty(final CharSequence... css) {
if (ArrayUtils.isEmpty(css)) {
return true;
}
for (final CharSequence cs : css){
if (isEmpty(cs)) {
return true;
}
}
return false;
}
/**
* Checks if none of the CharSequences are empty ("") or null.
*
*
* StringUtils.isNoneEmpty(null) = false
* StringUtils.isNoneEmpty(null, "foo") = false
* StringUtils.isNoneEmpty("", "bar") = false
* StringUtils.isNoneEmpty("bob", "") = false
* StringUtils.isNoneEmpty(" bob ", null) = false
* StringUtils.isNoneEmpty(" ", "bar") = true
* StringUtils.isNoneEmpty("foo", "bar") = true
*
*
* @param css the CharSequences to check, may be null or empty
* @return {@code true} if none of the CharSequences are empty or null
* @since 3.2
*/
public static boolean isNoneEmpty(final CharSequence... css) {
return !isAnyEmpty(css);
}
/**
* Checks if a CharSequence is whitespace, empty ("") or null.
*
*
* StringUtils.isBlank(null) = true
* StringUtils.isBlank("") = true
* StringUtils.isBlank(" ") = true
* StringUtils.isBlank("bob") = false
* StringUtils.isBlank(" bob ") = false
*
*
* @param cs the CharSequence to check, may be null
* @return {@code true} if the CharSequence is null, empty or whitespace
* @since 2.0
* @since 3.0 Changed signature from isBlank(String) to isBlank(CharSequence)
*/
public static boolean isBlank(final CharSequence cs) {
int strLen;
if (cs == null || (strLen = cs.length()) == 0) {
return true;
}
for (int i = 0; i < strLen; i++) {
if (Character.isWhitespace(cs.charAt(i)) == false) {
return false;
}
}
return true;
}
/**
* Checks if a CharSequence 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 cs the CharSequence to check, may be null
* @return {@code true} if the CharSequence is
* not empty and not null and not whitespace
* @since 2.0
* @since 3.0 Changed signature from isNotBlank(String) to isNotBlank(CharSequence)
*/
public static boolean isNotBlank(final CharSequence cs) {
return !isBlank(cs);
}
/**
* Checks if any one of the CharSequences are blank ("") or null and not whitespace only..
*
*
* StringUtils.isAnyBlank(null) = true
* StringUtils.isAnyBlank(null, "foo") = true
* StringUtils.isAnyBlank(null, null) = true
* StringUtils.isAnyBlank("", "bar") = true
* StringUtils.isAnyBlank("bob", "") = true
* StringUtils.isAnyBlank(" bob ", null) = true
* StringUtils.isAnyBlank(" ", "bar") = true
* StringUtils.isAnyBlank("foo", "bar") = false
*
*
* @param css the CharSequences to check, may be null or empty
* @return {@code true} if any of the CharSequences are blank or null or whitespace only
* @since 3.2
*/
public static boolean isAnyBlank(final CharSequence... css) {
if (ArrayUtils.isEmpty(css)) {
return true;
}
for (final CharSequence cs : css){
if (isBlank(cs)) {
return true;
}
}
return false;
}
/**
* Checks if none of the CharSequences are blank ("") or null and whitespace only..
*
*
* StringUtils.isNoneBlank(null) = false
* StringUtils.isNoneBlank(null, "foo") = false
* StringUtils.isNoneBlank(null, null) = false
* StringUtils.isNoneBlank("", "bar") = false
* StringUtils.isNoneBlank("bob", "") = false
* StringUtils.isNoneBlank(" bob ", null) = false
* StringUtils.isNoneBlank(" ", "bar") = false
* StringUtils.isNoneBlank("foo", "bar") = true
*
*
* @param css the CharSequences to check, may be null or empty
* @return {@code true} if none of the CharSequences are blank or null or whitespace only
* @since 3.2
*/
public static boolean isNoneBlank(final CharSequence... css) {
return !isAnyBlank(css);
}
// Trim
//-----------------------------------------------------------------------
/**
* Removes control characters (char <= 32) from both
* ends of this String, handling {@code null} by returning
* {@code null}.
*
* The String is trimmed using {@link String#trim()}.
* Trim removes start and end characters <= 32.
* To strip whitespace use {@link #strip(String)}.
*
* To trim your choice of characters, use the
* {@link #strip(String, String)} methods.
*
*
* StringUtils.trim(null) = null
* StringUtils.trim("") = ""
* StringUtils.trim(" ") = ""
* StringUtils.trim("abc") = "abc"
* StringUtils.trim(" abc ") = "abc"
*
*
* @param str the String to be trimmed, may be null
* @return the trimmed string, {@code null} if null String input
*/
public static String trim(final String str) {
return str == null ? null : str.trim();
}
/**
* Removes control characters (char <= 32) from both
* ends of this String returning {@code null} if the String is
* empty ("") after the trim or if it is {@code null}.
*
*
The String is trimmed using {@link String#trim()}.
* Trim removes start and end characters <= 32.
* To strip whitespace use {@link #stripToNull(String)}.
*
*
* StringUtils.trimToNull(null) = null
* StringUtils.trimToNull("") = null
* StringUtils.trimToNull(" ") = null
* StringUtils.trimToNull("abc") = "abc"
* StringUtils.trimToNull(" abc ") = "abc"
*
*
* @param str the String to be trimmed, may be null
* @return the trimmed String,
* {@code null} if only chars <= 32, empty or null String input
* @since 2.0
*/
public static String trimToNull(final String str) {
final String ts = trim(str);
return isEmpty(ts) ? null : ts;
}
/**
* Removes control characters (char <= 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}.
*
*
The String is trimmed using {@link String#trim()}.
* Trim removes start and end characters <= 32.
* To strip whitespace use {@link #stripToEmpty(String)}.
*
*
* StringUtils.trimToEmpty(null) = ""
* StringUtils.trimToEmpty("") = ""
* StringUtils.trimToEmpty(" ") = ""
* StringUtils.trimToEmpty("abc") = "abc"
* StringUtils.trimToEmpty(" abc ") = "abc"
*
*
* @param str the String to be trimmed, may be null
* @return the trimmed String, or an empty String if {@code null} input
* @since 2.0
*/
public static String trimToEmpty(final String str) {
return str == null ? EMPTY : str.trim();
}
/**
* Truncates a String. This will turn
* "Now is the time for all good men" into "Now is the time for".
*
* Specifically:
*
* - If {@code str} is less than {@code maxWidth} characters
* long, return it.
* - Else truncate it to {@code substring(str, 0, maxWidth)}.
* - If {@code maxWidth} is less than {@code 0}, throw an
* {@code IllegalArgumentException}.
* - In no case will it return a String of length greater than
* {@code maxWidth}.
*
*
*
* StringUtils.truncate(null, 0) = null
* StringUtils.truncate(null, 2) = null
* StringUtils.truncate("", 4) = ""
* StringUtils.truncate("abcdefg", 4) = "abcd"
* StringUtils.truncate("abcdefg", 6) = "abcdef"
* StringUtils.truncate("abcdefg", 7) = "abcdefg"
* StringUtils.truncate("abcdefg", 8) = "abcdefg"
* StringUtils.truncate("abcdefg", -1) = throws an IllegalArgumentException
*
*
* @param str the String to truncate, may be null
* @param maxWidth maximum length of result String, must be positive
* @return truncated String, {@code null} if null String input
* @since 3.5
*/
public static String truncate(final String str, int maxWidth) {
return truncate(str, 0, maxWidth);
}
/**
* Truncates a String. This will turn
* "Now is the time for all good men" into "is the time for all".
*
* Works like {@code truncate(String, int)}, but allows you to specify
* a "left edge" offset.
*
*
Specifically:
*
* - If {@code str} is less than {@code maxWidth} characters
* long, return it.
* - Else truncate it to {@code substring(str, offset, maxWidth)}.
* - If {@code maxWidth} is less than {@code 0}, throw an
* {@code IllegalArgumentException}.
* - If {@code offset} is less than {@code 0}, throw an
* {@code IllegalArgumentException}.
* - In no case will it return a String of length greater than
* {@code maxWidth}.
*
*
*
* StringUtils.truncate(null, 0, 0) = null
* StringUtils.truncate(null, 2, 4) = null
* StringUtils.truncate("", 0, 10) = ""
* StringUtils.truncate("", 2, 10) = ""
* StringUtils.truncate("abcdefghij", 0, 3) = "abc"
* StringUtils.truncate("abcdefghij", 5, 6) = "fghij"
* StringUtils.truncate("raspberry peach", 10, 15) = "peach"
* StringUtils.truncate("abcdefghijklmno", 0, 10) = "abcdefghij"
* StringUtils.truncate("abcdefghijklmno", -1, 10) = throws an IllegalArgumentException
* StringUtils.truncate("abcdefghijklmno", Integer.MIN_VALUE, 10) = "abcdefghij"
* StringUtils.truncate("abcdefghijklmno", Integer.MIN_VALUE, Integer.MAX_VALUE) = "abcdefghijklmno"
* StringUtils.truncate("abcdefghijklmno", 0, Integer.MAX_VALUE) = "abcdefghijklmno"
* StringUtils.truncate("abcdefghijklmno", 1, 10) = "bcdefghijk"
* StringUtils.truncate("abcdefghijklmno", 2, 10) = "cdefghijkl"
* StringUtils.truncate("abcdefghijklmno", 3, 10) = "defghijklm"
* StringUtils.truncate("abcdefghijklmno", 4, 10) = "efghijklmn"
* StringUtils.truncate("abcdefghijklmno", 5, 10) = "fghijklmno"
* StringUtils.truncate("abcdefghijklmno", 5, 5) = "fghij"
* StringUtils.truncate("abcdefghijklmno", 5, 3) = "fgh"
* StringUtils.truncate("abcdefghijklmno", 10, 3) = "klm"
* StringUtils.truncate("abcdefghijklmno", 10, Integer.MAX_VALUE) = "klmno"
* StringUtils.truncate("abcdefghijklmno", 13, 1) = "n"
* StringUtils.truncate("abcdefghijklmno", 13, Integer.MAX_VALUE) = "no"
* StringUtils.truncate("abcdefghijklmno", 14, 1) = "o"
* StringUtils.truncate("abcdefghijklmno", 14, Integer.MAX_VALUE) = "o"
* StringUtils.truncate("abcdefghijklmno", 15, 1) = ""
* StringUtils.truncate("abcdefghijklmno", 15, Integer.MAX_VALUE) = ""
* StringUtils.truncate("abcdefghijklmno", Integer.MAX_VALUE, Integer.MAX_VALUE) = ""
* StringUtils.truncate("abcdefghij", 3, -1) = throws an IllegalArgumentException
* StringUtils.truncate("abcdefghij", -2, 4) = throws an IllegalArgumentException
*
*
* @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 positive
* @return truncated String, {@code null} if null String input
* @since 3.5
*/
public static String truncate(final String str, int offset, int maxWidth) {
if (offset < 0) {
throw new IllegalArgumentException("offset cannot be negative");
}
if (maxWidth < 0) {
throw new IllegalArgumentException("maxWith cannot be negative");
}
if (str == null) {
return null;
}
if (offset > str.length()) {
return EMPTY;
}
if (str.length() > maxWidth) {
int ix = offset + maxWidth > str.length() ? str.length() : offset + maxWidth;
return str.substring(offset, ix);
}
return str.substring(offset);
}
// Stripping
//-----------------------------------------------------------------------
/**
* Strips whitespace from the start and end of a String.
*
* This is similar to {@link #trim(String)} but removes whitespace.
* Whitespace is defined by {@link Character#isWhitespace(char)}.
*
* A {@code null} input String returns {@code null}.
*
*
* 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"
*
*
* @param str the String to remove whitespace from, may be null
* @return the stripped String, {@code null} if null String input
*/
public static String strip(final String str) {
return strip(str, null);
}
/**
* Strips whitespace from the start and end of a String returning
* {@code null} if the String is empty ("") after the strip.
*
* This is similar to {@link #trimToNull(String)} but removes whitespace.
* Whitespace is defined by {@link Character#isWhitespace(char)}.
*
*
* 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"
*
*
* @param str the String to be stripped, may be null
* @return the stripped String,
* {@code null} 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.isEmpty() ? null : str;
}
/**
* Strips whitespace from the start and end of a String returning
* an empty String if {@code null} input.
*
* This is similar to {@link #trimToEmpty(String)} but removes whitespace.
* Whitespace is defined by {@link Character#isWhitespace(char)}.
*
*
* 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"
*
*
* @param str the String to be stripped, may be null
* @return the trimmed String, or an empty String if {@code null} input
* @since 2.0
*/
public static String stripToEmpty(final String str) {
return str == null ? EMPTY : strip(str, null);
}
/**
* 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.
*
* A {@code null} input String returns {@code null}.
* An empty string ("") input returns the empty string.
*
* If the stripChars String is {@code null}, whitespace is
* stripped as defined by {@link Character#isWhitespace(char)}.
* Alternatively use {@link #strip(String)}.
*
*
* 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"
*
*
* @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} if null String input
*/
public static String strip(String str, final String stripChars) {
if (isEmpty(str)) {
return str;
}
str = stripStart(str, stripChars);
return stripEnd(str, stripChars);
}
/**
* Strips any of a set of characters from the start of a String.
*
* A {@code null} input String returns {@code null}.
* An empty string ("") input returns the empty string.
*
* If the stripChars String is {@code null}, whitespace is
* stripped as defined by {@link Character#isWhitespace(char)}.
*
*
* 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 "
*
*
* @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} if null String input
*/
public static String stripStart(final String str, final 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.isEmpty()) {
return str;
} else {
while (start != strLen && stripChars.indexOf(str.charAt(start)) != INDEX_NOT_FOUND) {
start++;
}
}
return str.substring(start);
}
/**
* Strips any of a set of characters from the end of a String.
*
* A {@code null} input String returns {@code null}.
* An empty string ("") input returns the empty string.
*
* If the stripChars String is {@code null}, whitespace is
* stripped as defined by {@link Character#isWhitespace(char)}.
*
*
* 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"
* StringUtils.stripEnd("120.00", ".0") = "12"
*
*
* @param str the String to remove characters from, may be null
* @param stripChars the set of characters to remove, null treated as whitespace
* @return the stripped String, {@code null} if null String input
*/
public static String stripEnd(final String str, final 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.isEmpty()) {
return str;
} else {
while (end != 0 && stripChars.indexOf(str.charAt(end - 1)) != INDEX_NOT_FOUND) {
end--;
}
}
return str.substring(0, end);
}
// StripAll
//-----------------------------------------------------------------------
/**
* Strips whitespace from the start and end of every String in an array.
* Whitespace is defined by {@link Character#isWhitespace(char)}.
*
* A new array is returned each time, except for length zero.
* A {@code null} array will return {@code null}.
* An empty array will return itself.
* A {@code null} array entry will be ignored.
*
*
* StringUtils.stripAll(null) = null
* StringUtils.stripAll([]) = []
* StringUtils.stripAll(["abc", " abc"]) = ["abc", "abc"]
* StringUtils.stripAll(["abc ", null]) = ["abc", null]
*
*
* @param strs the array to remove whitespace from, may be null
* @return the stripped Strings, {@code null} if null array input
*/
public static String[] stripAll(final String... strs) {
return stripAll(strs, null);
}
/**
* Strips any of a set of characters from the start and end of every
* String in an array.
* Whitespace is defined by {@link Character#isWhitespace(char)}.
*
* A new array is returned each time, except for length zero.
* A {@code null} array will return {@code null}.
* An empty array will return itself.
* A {@code null} array entry will be ignored.
* A {@code null} stripChars will strip whitespace as defined by
* {@link Character#isWhitespace(char)}.
*
*
* 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]
*
*
* @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} if null array input
*/
public static String[] stripAll(final String[] strs, final String stripChars) {
int strsLen;
if (strs == null || (strsLen = strs.length) == 0) {
return strs;
}
final String[] newArr = new String[strsLen];
for (int i = 0; i < strsLen; i++) {
newArr[i] = strip(strs[i], stripChars);
}
return newArr;
}
/**
* Removes diacritics (~= accents) from a string. The case will not be altered.
* For instance, 'à' will be replaced by 'a'.
* Note that ligatures will be left as is.
*
*
* StringUtils.stripAccents(null) = null
* StringUtils.stripAccents("") = ""
* StringUtils.stripAccents("control") = "control"
* StringUtils.stripAccents("éclair") = "eclair"
*
*
* @param input String to be stripped
* @return input text with diacritics removed
*
* @since 3.0
*/
// See also Lucene's ASCIIFoldingFilter (Lucene 2.9) that replaces accented characters by their unaccented equivalent (and uncommitted bug fix: https://issues.apache.org/jira/browse/LUCENE-1343?focusedCommentId=12858907&page=com.atlassian.jira.plugin.system.issuetabpanels%3Acomment-tabpanel#action_12858907).
public static String stripAccents(final String input) {
if(input == null) {
return null;
}
final Pattern pattern = Pattern.compile("\\p{InCombiningDiacriticalMarks}+");//$NON-NLS-1$
final StringBuilder decomposed = new StringBuilder(Normalizer.normalize(input, Normalizer.Form.NFD));
convertRemainingAccentCharacters(decomposed);
// Note that this doesn't correctly remove ligatures...
return pattern.matcher(decomposed).replaceAll(StringUtils.EMPTY);
}
private static void convertRemainingAccentCharacters(StringBuilder decomposed) {
for (int i = 0; i < decomposed.length(); i++) {
if (decomposed.charAt(i) == '\u0141') {
decomposed.deleteCharAt(i);
decomposed.insert(i, 'L');
} else if (decomposed.charAt(i) == '\u0142') {
decomposed.deleteCharAt(i);
decomposed.insert(i, 'l');
}
}
}
// Equals
//-----------------------------------------------------------------------
/**
* Compares two CharSequences, returning {@code true} if they represent
* equal sequences of characters.
*
* {@code null}s are handled without exceptions. Two {@code null}
* references are considered to be equal. The comparison is case sensitive.
*
*
* 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
*
*
* @see Object#equals(Object)
* @param cs1 the first CharSequence, may be {@code null}
* @param cs2 the second CharSequence, may be {@code null}
* @return {@code true} if the CharSequences are equal (case-sensitive), or both {@code null}
* @since 3.0 Changed signature from equals(String, String) to equals(CharSequence, CharSequence)
*/
public static boolean equals(final CharSequence cs1, final CharSequence cs2) {
if (cs1 == cs2) {
return true;
}
if (cs1 == null || cs2 == null) {
return false;
}
if (cs1.length() != cs2.length()) {
return false;
}
if (cs1 instanceof String && cs2 instanceof String) {
return cs1.equals(cs2);
}
return CharSequenceUtils.regionMatches(cs1, false, 0, cs2, 0, cs1.length());
}
/**
* Compares two CharSequences, returning {@code true} if they represent
* equal sequences of characters, ignoring case.
*
* {@code null}s are handled without exceptions. Two {@code null}
* references are considered equal. Comparison is case insensitive.
*
*
* 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
*
*
* @param str1 the first CharSequence, may be null
* @param str2 the second CharSequence, may be null
* @return {@code true} if the CharSequence are equal, case insensitive, or
* both {@code null}
* @since 3.0 Changed signature from equalsIgnoreCase(String, String) to equalsIgnoreCase(CharSequence, CharSequence)
*/
public static boolean equalsIgnoreCase(final CharSequence str1, final CharSequence str2) {
if (str1 == null || str2 == null) {
return str1 == str2;
} else if (str1 == str2) {
return true;
} else if (str1.length() != str2.length()) {
return false;
} else {
return CharSequenceUtils.regionMatches(str1, true, 0, str2, 0, str1.length());
}
}
// Compare
//-----------------------------------------------------------------------
/**
* Compare two Strings lexicographically, as per {@link String#compareTo(String)}, returning :
*
* - {@code int = 0}, if {@code str1} is equal to {@code str2} (or both {@code null})
* - {@code int < 0}, if {@code str1} is less than {@code str2}
* - {@code int > 0}, if {@code str1} is greater than {@code str2}
*
*
* This is a {@code null} safe version of :
* str1.compareTo(str2)
*
* {@code null} value is considered less than non-{@code null} value.
* Two {@code null} references are considered equal.
*
*
* StringUtils.compare(null, null) = 0
* StringUtils.compare(null , "a") < 0
* StringUtils.compare("a", null) > 0
* StringUtils.compare("abc", "abc") = 0
* StringUtils.compare("a", "b") < 0
* StringUtils.compare("b", "a") > 0
* StringUtils.compare("a", "B") > 0
* StringUtils.compare("ab", "abc") < 0
*
*
* @see #compare(String, String, boolean)
* @see String#compareTo(String)
* @param str1 the String to compare from
* @param str2 the String to compare to
* @return < 0, 0, > 0, if {@code str1} is respectively less, equal ou greater than {@code str2}
* @since 3.5
*/
public static int compare(final String str1, final String str2) {
return compare(str1, str2, true);
}
/**
* Compare two Strings lexicographically, as per {@link String#compareTo(String)}, returning :
*
* - {@code int = 0}, if {@code str1} is equal to {@code str2} (or both {@code null})
* - {@code int < 0}, if {@code str1} is less than {@code str2}
* - {@code int > 0}, if {@code str1} is greater than {@code str2}
*
*
* This is a {@code null} safe version of :
* str1.compareTo(str2)
*
* {@code null} inputs are handled according to the {@code nullIsLess} parameter.
* Two {@code null} references are considered equal.
*
*
* StringUtils.compare(null, null, *) = 0
* StringUtils.compare(null , "a", true) < 0
* StringUtils.compare(null , "a", false) > 0
* StringUtils.compare("a", null, true) > 0
* StringUtils.compare("a", null, false) < 0
* StringUtils.compare("abc", "abc", *) = 0
* StringUtils.compare("a", "b", *) < 0
* StringUtils.compare("b", "a", *) > 0
* StringUtils.compare("a", "B", *) > 0
* StringUtils.compare("ab", "abc", *) < 0
*
*
* @see String#compareTo(String)
* @param str1 the String to compare from
* @param str2 the String to compare to
* @param nullIsLess whether consider {@code null} value less than non-{@code null} value
* @return < 0, 0, > 0, if {@code str1} is respectively less, equal ou greater than {@code str2}
* @since 3.5
*/
public static int compare(final String str1, final String str2, final boolean nullIsLess) {
if (str1 == str2) {
return 0;
}
if (str1 == null) {
return nullIsLess ? -1 : 1;
}
if (str2 == null) {
return nullIsLess ? 1 : - 1;
}
return str1.compareTo(str2);
}
/**
* Compare two Strings lexicographically, ignoring case differences,
* as per {@link String#compareToIgnoreCase(String)}, returning :
*
* - {@code int = 0}, if {@code str1} is equal to {@code str2} (or both {@code null})
* - {@code int < 0}, if {@code str1} is less than {@code str2}
* - {@code int > 0}, if {@code str1} is greater than {@code str2}
*
*
* This is a {@code null} safe version of :
* str1.compareToIgnoreCase(str2)
*
* {@code null} value is considered less than non-{@code null} value.
* Two {@code null} references are considered equal.
* Comparison is case insensitive.
*
*
* StringUtils.compareIgnoreCase(null, null) = 0
* StringUtils.compareIgnoreCase(null , "a") < 0
* StringUtils.compareIgnoreCase("a", null) > 0
* StringUtils.compareIgnoreCase("abc", "abc") = 0
* StringUtils.compareIgnoreCase("abc", "ABC") = 0
* StringUtils.compareIgnoreCase("a", "b") < 0
* StringUtils.compareIgnoreCase("b", "a") > 0
* StringUtils.compareIgnoreCase("a", "B") < 0
* StringUtils.compareIgnoreCase("A", "b") < 0
* StringUtils.compareIgnoreCase("ab", "ABC") < 0
*
*
* @see #compareIgnoreCase(String, String, boolean)
* @see String#compareToIgnoreCase(String)
* @param str1 the String to compare from
* @param str2 the String to compare to
* @return < 0, 0, > 0, if {@code str1} is respectively less, equal ou greater than {@code str2},
* ignoring case differences.
* @since 3.5
*/
public static int compareIgnoreCase(final String str1, final String str2) {
return compareIgnoreCase(str1, str2, true);
}
/**
* Compare two Strings lexicographically, ignoring case differences,
* as per {@link String#compareToIgnoreCase(String)}, returning :
*
* - {@code int = 0}, if {@code str1} is equal to {@code str2} (or both {@code null})
* - {@code int < 0}, if {@code str1} is less than {@code str2}
* - {@code int > 0}, if {@code str1} is greater than {@code str2}
*
*
* This is a {@code null} safe version of :
* str1.compareToIgnoreCase(str2)
*
* {@code null} inputs are handled according to the {@code nullIsLess} parameter.
* Two {@code null} references are considered equal.
* Comparison is case insensitive.
*
*
* StringUtils.compareIgnoreCase(null, null, *) = 0
* StringUtils.compareIgnoreCase(null , "a", true) < 0
* StringUtils.compareIgnoreCase(null , "a", false) > 0
* StringUtils.compareIgnoreCase("a", null, true) > 0
* StringUtils.compareIgnoreCase("a", null, false) < 0
* StringUtils.compareIgnoreCase("abc", "abc", *) = 0
* StringUtils.compareIgnoreCase("abc", "ABC", *) = 0
* StringUtils.compareIgnoreCase("a", "b", *) < 0
* StringUtils.compareIgnoreCase("b", "a", *) > 0
* StringUtils.compareIgnoreCase("a", "B", *) < 0
* StringUtils.compareIgnoreCase("A", "b", *) < 0
* StringUtils.compareIgnoreCase("ab", "abc", *) < 0
*
*
* @see String#compareToIgnoreCase(String)
* @param str1 the String to compare from
* @param str2 the String to compare to
* @param nullIsLess whether consider {@code null} value less than non-{@code null} value
* @return < 0, 0, > 0, if {@code str1} is respectively less, equal ou greater than {@code str2},
* ignoring case differences.
* @since 3.5
*/
public static int compareIgnoreCase(final String str1, final String str2, final boolean nullIsLess) {
if (str1 == str2) {
return 0;
}
if (str1 == null) {
return nullIsLess ? -1 : 1;
}
if (str2 == null) {
return nullIsLess ? 1 : - 1;
}
return str1.compareToIgnoreCase(str2);
}
/**
* Compares given string
to a CharSequences vararg of searchStrings
,
* returning {@code true} if the string
is equal to any of the searchStrings
.
*
*
* StringUtils.equalsAny(null, (CharSequence[]) null) = false
* StringUtils.equalsAny(null, null, null) = true
* StringUtils.equalsAny(null, "abc", "def") = false
* StringUtils.equalsAny("abc", null, "def") = false
* StringUtils.equalsAny("abc", "abc", "def") = true
* StringUtils.equalsAny("abc", "ABC", "DEF") = false
*
*
* @param string to compare, may be {@code null}.
* @param searchStrings a vararg of strings, may be {@code null}.
* @return {@code true} if the string is equal (case-sensitive) to any other element of searchStrings
;
* {@code false} if searchStrings
is null or contains no matches.
* @since 3.5
*/
public static boolean equalsAny(final CharSequence string, final CharSequence... searchStrings) {
if (ArrayUtils.isNotEmpty(searchStrings)) {
for (CharSequence next : searchStrings) {
if (equals(string, next)) {
return true;
}
}
}
return false;
}
/**
* Compares given string
to a CharSequences vararg of searchStrings
,
* returning {@code true} if the string
is equal to any of the searchStrings
, ignoring case.
*
*
* StringUtils.equalsAnyIgnoreCase(null, (CharSequence[]) null) = false
* StringUtils.equalsAnyIgnoreCase(null, null, null) = true
* StringUtils.equalsAnyIgnoreCase(null, "abc", "def") = false
* StringUtils.equalsAnyIgnoreCase("abc", null, "def") = false
* StringUtils.equalsAnyIgnoreCase("abc", "abc", "def") = true
* StringUtils.equalsAnyIgnoreCase("abc", "ABC", "DEF") = true
*
*
* @param string to compare, may be {@code null}.
* @param searchStrings a vararg of strings, may be {@code null}.
* @return {@code true} if the string is equal (case-insensitive) to any other element of searchStrings
;
* {@code false} if searchStrings
is null or contains no matches.
* @since 3.5
*/
public static boolean equalsAnyIgnoreCase(final CharSequence string, final CharSequence...searchStrings) {
if (ArrayUtils.isNotEmpty(searchStrings)) {
for (CharSequence next : searchStrings) {
if (equalsIgnoreCase(string, next)) {
return true;
}
}
}
return false;
}
// IndexOf
//-----------------------------------------------------------------------
/**
* Finds the first index within a CharSequence, handling {@code null}.
* This method uses {@link String#indexOf(int, int)} if possible.
*
* A {@code null} or empty ("") CharSequence will return {@code INDEX_NOT_FOUND (-1)}.
*
*
* StringUtils.indexOf(null, *) = -1
* StringUtils.indexOf("", *) = -1
* StringUtils.indexOf("aabaabaa", 'a') = 0
* StringUtils.indexOf("aabaabaa", 'b') = 2
*
*
* @param seq the CharSequence 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} string input
* @since 2.0
* @since 3.0 Changed signature from indexOf(String, int) to indexOf(CharSequence, int)
*/
public static int indexOf(final CharSequence seq, final int searchChar) {
if (isEmpty(seq)) {
return INDEX_NOT_FOUND;
}
return CharSequenceUtils.indexOf(seq, searchChar, 0);
}
/**
* Finds the first index within a CharSequence from a start position,
* handling {@code null}.
* This method uses {@link String#indexOf(int, int)} if possible.
*
* A {@code null} or empty ("") CharSequence will return {@code (INDEX_NOT_FOUND) -1}.
* A negative start position is treated as zero.
* A start position greater than the string length returns {@code -1}.
*
*
* 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
*
*
* @param seq the CharSequence 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 (always ≥ startPos),
* -1 if no match or {@code null} string input
* @since 2.0
* @since 3.0 Changed signature from indexOf(String, int, int) to indexOf(CharSequence, int, int)
*/
public static int indexOf(final CharSequence seq, final int searchChar, final int startPos) {
if (isEmpty(seq)) {
return INDEX_NOT_FOUND;
}
return CharSequenceUtils.indexOf(seq, searchChar, startPos);
}
/**
* Finds the first index within a CharSequence, handling {@code null}.
* This method uses {@link String#indexOf(String, int)} if possible.
*
* A {@code null} CharSequence will return {@code -1}.
*
*
* StringUtils.indexOf(null, *) = -1
* StringUtils.indexOf(*, null) = -1
* StringUtils.indexOf("", "") = 0
* StringUtils.indexOf("", *) = -1 (except when * = "")
* StringUtils.indexOf("aabaabaa", "a") = 0
* StringUtils.indexOf("aabaabaa", "b") = 2
* StringUtils.indexOf("aabaabaa", "ab") = 1
* StringUtils.indexOf("aabaabaa", "") = 0
*
*
* @param seq the CharSequence to check, may be null
* @param searchSeq the CharSequence to find, may be null
* @return the first index of the search CharSequence,
* -1 if no match or {@code null} string input
* @since 2.0
* @since 3.0 Changed signature from indexOf(String, String) to indexOf(CharSequence, CharSequence)
*/
public static int indexOf(final CharSequence seq, final CharSequence searchSeq) {
if (seq == null || searchSeq == null) {
return INDEX_NOT_FOUND;
}
return CharSequenceUtils.indexOf(seq, searchSeq, 0);
}
/**
* Finds the first index within a CharSequence, handling {@code null}.
* This method uses {@link String#indexOf(String, int)} if possible.
*
* A {@code null} CharSequence will return {@code -1}.
* A negative start position is treated as zero.
* An empty ("") search CharSequence always matches.
* A start position greater than the string length only matches
* an empty search CharSequence.
*
*
* StringUtils.indexOf(null, *, *) = -1
* StringUtils.indexOf(*, null, *) = -1
* StringUtils.indexOf("", "", 0) = 0
* StringUtils.indexOf("", *, 0) = -1 (except when * = "")
* 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
*
*
* @param seq the CharSequence to check, may be null
* @param searchSeq the CharSequence to find, may be null
* @param startPos the start position, negative treated as zero
* @return the first index of the search CharSequence (always ≥ startPos),
* -1 if no match or {@code null} string input
* @since 2.0
* @since 3.0 Changed signature from indexOf(String, String, int) to indexOf(CharSequence, CharSequence, int)
*/
public static int indexOf(final CharSequence seq, final CharSequence searchSeq, final int startPos) {
if (seq == null || searchSeq == null) {
return INDEX_NOT_FOUND;
}
return CharSequenceUtils.indexOf(seq, searchSeq, startPos);
}
/**
* Finds the n-th index within a CharSequence, handling {@code null}.
* This method uses {@link String#indexOf(String)} if possible.
* Note: The code starts looking for a match at the start of the target,
* incrementing the starting index by one after each successful match.
* The code increments the starting index by one,
* rather than by the length of the match string,
* so matches may overlap.
* A {@code null} CharSequence will return {@code -1}.
*
*
* 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
*
*
* Matches may overlap:
*
* StringUtils.ordinalIndexOf("ababab","aba", 1) = 0
* StringUtils.ordinalIndexOf("ababab","aba", 2) = 2
* StringUtils.ordinalIndexOf("ababab","aba", 3) = -1
*
* StringUtils.ordinalIndexOf("abababab", "abab", 1) = 0
* StringUtils.ordinalIndexOf("abababab", "abab", 2) = 2
* StringUtils.ordinalIndexOf("abababab", "abab", 3) = 4
* StringUtils.ordinalIndexOf("abababab", "abab", 4) = -1
*
*
* Note that 'head(CharSequence str, int n)' may be implemented as:
*
*
* str.substring(0, lastOrdinalIndexOf(str, "\n", n))
*
*
* @param str the CharSequence to check, may be null
* @param searchStr the CharSequence to find, may be null
* @param ordinal the n-th {@code searchStr} to find
* @return the n-th index of the search CharSequence,
* {@code -1} ({@code INDEX_NOT_FOUND}) if no match or {@code null} string input
* @since 2.1
* @since 3.0 Changed signature from ordinalIndexOf(String, String, int) to ordinalIndexOf(CharSequence, CharSequence, int)
*/
public static int ordinalIndexOf(final CharSequence str, final CharSequence searchStr, final int ordinal) {
return ordinalIndexOf(str, searchStr, ordinal, false);
}
/**
* Finds the n-th index within a String, handling {@code null}.
* This method uses {@link String#indexOf(String)} if possible.
* Note that matches may overlap
*
*
A {@code null} CharSequence will return {@code -1}.
*
* @param str the CharSequence to check, may be null
* @param searchStr the CharSequence to find, may be null
* @param ordinal the n-th {@code searchStr} to find, overlapping matches are allowed.
* @param lastIndex true if lastOrdinalIndexOf() otherwise false if ordinalIndexOf()
* @return the n-th index of the search CharSequence,
* {@code -1} ({@code INDEX_NOT_FOUND}) if no match or {@code null} string input
*/
// Shared code between ordinalIndexOf(String,String,int) and lastOrdinalIndexOf(String,String,int)
private static int ordinalIndexOf(final CharSequence str, final CharSequence searchStr, final int ordinal, final boolean lastIndex) {
if (str == null || searchStr == null || ordinal <= 0) {
return INDEX_NOT_FOUND;
}
if (searchStr.length() == 0) {
return lastIndex ? str.length() : 0;
}
int found = 0;
// set the initial index beyond the end of the string
// this is to allow for the initial index decrement/increment
int index = lastIndex ? str.length() : INDEX_NOT_FOUND;
do {
if (lastIndex) {
index = CharSequenceUtils.lastIndexOf(str, searchStr, index - 1); // step backwards thru string
} else {
index = CharSequenceUtils.indexOf(str, searchStr, index + 1); // step forwards through string
}
if (index < 0) {
return index;
}
found++;
} while (found < ordinal);
return index;
}
/**
* Case in-sensitive find of the first index within a CharSequence.
*
* A {@code null} CharSequence will return {@code -1}.
* A negative start position is treated as zero.
* An empty ("") search CharSequence always matches.
* A start position greater than the string length only matches
* an empty search CharSequence.
*
*
* StringUtils.indexOfIgnoreCase(null, *) = -1
* StringUtils.indexOfIgnoreCase(*, null) = -1
* StringUtils.indexOfIgnoreCase("", "") = 0
* StringUtils.indexOfIgnoreCase("aabaabaa", "a") = 0
* StringUtils.indexOfIgnoreCase("aabaabaa", "b") = 2
* StringUtils.indexOfIgnoreCase("aabaabaa", "ab") = 1
*
*
* @param str the CharSequence to check, may be null
* @param searchStr the CharSequence to find, may be null
* @return the first index of the search CharSequence,
* -1 if no match or {@code null} string input
* @since 2.5
* @since 3.0 Changed signature from indexOfIgnoreCase(String, String) to indexOfIgnoreCase(CharSequence, CharSequence)
*/
public static int indexOfIgnoreCase(final CharSequence str, final CharSequence searchStr) {
return indexOfIgnoreCase(str, searchStr, 0);
}
/**
* Case in-sensitive find of the first index within a CharSequence
* from the specified position.
*
* A {@code null} CharSequence will return {@code -1}.
* A negative start position is treated as zero.
* An empty ("") search CharSequence always matches.
* A start position greater than the string length only matches
* an empty search CharSequence.
*
*
* StringUtils.indexOfIgnoreCase(null, *, *) = -1
* StringUtils.indexOfIgnoreCase(*, null, *) = -1
* StringUtils.indexOfIgnoreCase("", "", 0) = 0
* StringUtils.indexOfIgnoreCase("aabaabaa", "A", 0) = 0
* StringUtils.indexOfIgnoreCase("aabaabaa", "B", 0) = 2
* StringUtils.indexOfIgnoreCase("aabaabaa", "AB", 0) = 1
* StringUtils.indexOfIgnoreCase("aabaabaa", "B", 3) = 5
* StringUtils.indexOfIgnoreCase("aabaabaa", "B", 9) = -1
* StringUtils.indexOfIgnoreCase("aabaabaa", "B", -1) = 2
* StringUtils.indexOfIgnoreCase("aabaabaa", "", 2) = 2
* StringUtils.indexOfIgnoreCase("abc", "", 9) = -1
*
*
* @param str the CharSequence to check, may be null
* @param searchStr the CharSequence to find, may be null
* @param startPos the start position, negative treated as zero
* @return the first index of the search CharSequence (always ≥ startPos),
* -1 if no match or {@code null} string input
* @since 2.5
* @since 3.0 Changed signature from indexOfIgnoreCase(String, String, int) to indexOfIgnoreCase(CharSequence, CharSequence, int)
*/
public static int indexOfIgnoreCase(final CharSequence str, final CharSequence searchStr, int startPos) {
if (str == null || searchStr == null) {
return INDEX_NOT_FOUND;
}
if (startPos < 0) {
startPos = 0;
}
final int endLimit = str.length() - searchStr.length() + 1;
if (startPos > endLimit) {
return INDEX_NOT_FOUND;
}
if (searchStr.length() == 0) {
return startPos;
}
for (int i = startPos; i < endLimit; i++) {
if (CharSequenceUtils.regionMatches(str, true, i, searchStr, 0, searchStr.length())) {
return i;
}
}
return INDEX_NOT_FOUND;
}
// LastIndexOf
//-----------------------------------------------------------------------
/**
* Finds the last index within a CharSequence, handling {@code null}.
* This method uses {@link String#lastIndexOf(int)} if possible.
*
* A {@code null} or empty ("") CharSequence will return {@code -1}.
*
*
* StringUtils.lastIndexOf(null, *) = -1
* StringUtils.lastIndexOf("", *) = -1
* StringUtils.lastIndexOf("aabaabaa", 'a') = 7
* StringUtils.lastIndexOf("aabaabaa", 'b') = 5
*
*
* @param seq the CharSequence 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} string input
* @since 2.0
* @since 3.0 Changed signature from lastIndexOf(String, int) to lastIndexOf(CharSequence, int)
*/
public static int lastIndexOf(final CharSequence seq, final int searchChar) {
if (isEmpty(seq)) {
return INDEX_NOT_FOUND;
}
return CharSequenceUtils.lastIndexOf(seq, searchChar, seq.length());
}
/**
* Finds the last index within a CharSequence from a start position,
* handling {@code null}.
* This method uses {@link String#lastIndexOf(int, int)} if possible.
*
* A {@code null} or empty ("") CharSequence will return {@code -1}.
* A negative start position returns {@code -1}.
* A start position greater than the string length searches the whole string.
* The search starts at the startPos and works backwards; matches starting after the start
* position are ignored.
*
*
*
* 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
*
*
* @param seq the CharSequence to check, may be null
* @param searchChar the character to find
* @param startPos the start position
* @return the last index of the search character (always ≤ startPos),
* -1 if no match or {@code null} string input
* @since 2.0
* @since 3.0 Changed signature from lastIndexOf(String, int, int) to lastIndexOf(CharSequence, int, int)
*/
public static int lastIndexOf(final CharSequence seq, final int searchChar, final int startPos) {
if (isEmpty(seq)) {
return INDEX_NOT_FOUND;
}
return CharSequenceUtils.lastIndexOf(seq, searchChar, startPos);
}
/**
* Finds the last index within a CharSequence, handling {@code null}.
* This method uses {@link String#lastIndexOf(String)} if possible.
*
* A {@code null} CharSequence will return {@code -1}.
*
*
* StringUtils.lastIndexOf(null, *) = -1
* StringUtils.lastIndexOf(*, null) = -1
* StringUtils.lastIndexOf("", "") = 0
* StringUtils.lastIndexOf("aabaabaa", "a") = 7
* StringUtils.lastIndexOf("aabaabaa", "b") = 5
* StringUtils.lastIndexOf("aabaabaa", "ab") = 4
* StringUtils.lastIndexOf("aabaabaa", "") = 8
*
*
* @param seq the CharSequence to check, may be null
* @param searchSeq the CharSequence to find, may be null
* @return the last index of the search String,
* -1 if no match or {@code null} string input
* @since 2.0
* @since 3.0 Changed signature from lastIndexOf(String, String) to lastIndexOf(CharSequence, CharSequence)
*/
public static int lastIndexOf(final CharSequence seq, final CharSequence searchSeq) {
if (seq == null || searchSeq == null) {
return INDEX_NOT_FOUND;
}
return CharSequenceUtils.lastIndexOf(seq, searchSeq, seq.length());
}
/**
* Finds the n-th last index within a String, handling {@code null}.
* This method uses {@link String#lastIndexOf(String)}.
*
* A {@code null} String will return {@code -1}.
*
*
* StringUtils.lastOrdinalIndexOf(null, *, *) = -1
* StringUtils.lastOrdinalIndexOf(*, null, *) = -1
* StringUtils.lastOrdinalIndexOf("", "", *) = 0
* StringUtils.lastOrdinalIndexOf("aabaabaa", "a", 1) = 7
* StringUtils.lastOrdinalIndexOf("aabaabaa", "a", 2) = 6
* StringUtils.lastOrdinalIndexOf("aabaabaa", "b", 1) = 5
* StringUtils.lastOrdinalIndexOf("aabaabaa", "b", 2) = 2
* StringUtils.lastOrdinalIndexOf("aabaabaa", "ab", 1) = 4
* StringUtils.lastOrdinalIndexOf("aabaabaa", "ab", 2) = 1
* StringUtils.lastOrdinalIndexOf("aabaabaa", "", 1) = 8
* StringUtils.lastOrdinalIndexOf("aabaabaa", "", 2) = 8
*
*
* Note that 'tail(CharSequence str, int n)' may be implemented as:
*
*
* str.substring(lastOrdinalIndexOf(str, "\n", n) + 1)
*
*
* @param str the CharSequence to check, may be null
* @param searchStr the CharSequence to find, may be null
* @param ordinal the n-th last {@code searchStr} to find
* @return the n-th last index of the search CharSequence,
* {@code -1} ({@code INDEX_NOT_FOUND}) if no match or {@code null} string input
* @since 2.5
* @since 3.0 Changed signature from lastOrdinalIndexOf(String, String, int) to lastOrdinalIndexOf(CharSequence, CharSequence, int)
*/
public static int lastOrdinalIndexOf(final CharSequence str, final CharSequence searchStr, final int ordinal) {
return ordinalIndexOf(str, searchStr, ordinal, true);
}
/**
* Finds the last index within a CharSequence, handling {@code null}.
* This method uses {@link String#lastIndexOf(String, int)} if possible.
*
* A {@code null} CharSequence will return {@code -1}.
* A negative start position returns {@code -1}.
* An empty ("") search CharSequence always matches unless the start position is negative.
* A start position greater than the string length searches the whole string.
* The search starts at the startPos and works backwards; matches starting after the start
* position are ignored.
*
*
*
* 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
* StringUtils.lastIndexOf("aabaabaa", "b", 1) = -1
* StringUtils.lastIndexOf("aabaabaa", "b", 2) = 2
* StringUtils.lastIndexOf("aabaabaa", "ba", 2) = -1
* StringUtils.lastIndexOf("aabaabaa", "ba", 2) = 2
*
*
* @param seq the CharSequence to check, may be null
* @param searchSeq the CharSequence to find, may be null
* @param startPos the start position, negative treated as zero
* @return the last index of the search CharSequence (always ≤ startPos),
* -1 if no match or {@code null} string input
* @since 2.0
* @since 3.0 Changed signature from lastIndexOf(String, String, int) to lastIndexOf(CharSequence, CharSequence, int)
*/
public static int lastIndexOf(final CharSequence seq, final CharSequence searchSeq, final int startPos) {
if (seq == null || searchSeq == null) {
return INDEX_NOT_FOUND;
}
return CharSequenceUtils.lastIndexOf(seq, searchSeq, startPos);
}
/**
* Case in-sensitive find of the last index within a CharSequence.
*
* A {@code null} CharSequence will return {@code -1}.
* A negative start position returns {@code -1}.
* An empty ("") search CharSequence always matches unless the start position is negative.
* A start position greater than the string length searches the whole string.
*
*
* StringUtils.lastIndexOfIgnoreCase(null, *) = -1
* StringUtils.lastIndexOfIgnoreCase(*, null) = -1
* StringUtils.lastIndexOfIgnoreCase("aabaabaa", "A") = 7
* StringUtils.lastIndexOfIgnoreCase("aabaabaa", "B") = 5
* StringUtils.lastIndexOfIgnoreCase("aabaabaa", "AB") = 4
*
*
* @param str the CharSequence to check, may be null
* @param searchStr the CharSequence to find, may be null
* @return the first index of the search CharSequence,
* -1 if no match or {@code null} string input
* @since 2.5
* @since 3.0 Changed signature from lastIndexOfIgnoreCase(String, String) to lastIndexOfIgnoreCase(CharSequence, CharSequence)
*/
public static int lastIndexOfIgnoreCase(final CharSequence str, final CharSequence searchStr) {
if (str == null || searchStr == null) {
return INDEX_NOT_FOUND;
}
return lastIndexOfIgnoreCase(str, searchStr, str.length());
}
/**
* Case in-sensitive find of the last index within a CharSequence
* from the specified position.
*
* A {@code null} CharSequence will return {@code -1}.
* A negative start position returns {@code -1}.
* An empty ("") search CharSequence always matches unless the start position is negative.
* A start position greater than the string length searches the whole string.
* The search starts at the startPos and works backwards; matches starting after the start
* position are ignored.
*
*
*
* StringUtils.lastIndexOfIgnoreCase(null, *, *) = -1
* StringUtils.lastIndexOfIgnoreCase(*, null, *) = -1
* StringUtils.lastIndexOfIgnoreCase("aabaabaa", "A", 8) = 7
* StringUtils.lastIndexOfIgnoreCase("aabaabaa", "B", 8) = 5
* StringUtils.lastIndexOfIgnoreCase("aabaabaa", "AB", 8) = 4
* StringUtils.lastIndexOfIgnoreCase("aabaabaa", "B", 9) = 5
* StringUtils.lastIndexOfIgnoreCase("aabaabaa", "B", -1) = -1
* StringUtils.lastIndexOfIgnoreCase("aabaabaa", "A", 0) = 0
* StringUtils.lastIndexOfIgnoreCase("aabaabaa", "B", 0) = -1
*
*
* @param str the CharSequence to check, may be null
* @param searchStr the CharSequence to find, may be null
* @param startPos the start position
* @return the last index of the search CharSequence (always ≤ startPos),
* -1 if no match or {@code null} input
* @since 2.5
* @since 3.0 Changed signature from lastIndexOfIgnoreCase(String, String, int) to lastIndexOfIgnoreCase(CharSequence, CharSequence, int)
*/
public static int lastIndexOfIgnoreCase(final CharSequence str, final CharSequence searchStr, int startPos) {
if (str == null || searchStr == null) {
return INDEX_NOT_FOUND;
}
if (startPos > str.length() - searchStr.length()) {
startPos = str.length() - searchStr.length();
}
if (startPos < 0) {
return INDEX_NOT_FOUND;
}
if (searchStr.length() == 0) {
return startPos;
}
for (int i = startPos; i >= 0; i--) {
if (CharSequenceUtils.regionMatches(str, true, i, searchStr, 0, searchStr.length())) {
return i;
}
}
return INDEX_NOT_FOUND;
}
// Contains
//-----------------------------------------------------------------------
/**
* Checks if CharSequence contains a search character, handling {@code null}.
* This method uses {@link String#indexOf(int)} if possible.
*
* A {@code null} or empty ("") CharSequence will return {@code false}.
*
*
* StringUtils.contains(null, *) = false
* StringUtils.contains("", *) = false
* StringUtils.contains("abc", 'a') = true
* StringUtils.contains("abc", 'z') = false
*
*
* @param seq the CharSequence to check, may be null
* @param searchChar the character to find
* @return true if the CharSequence contains the search character,
* false if not or {@code null} string input
* @since 2.0
* @since 3.0 Changed signature from contains(String, int) to contains(CharSequence, int)
*/
public static boolean contains(final CharSequence seq, final int searchChar) {
if (isEmpty(seq)) {
return false;
}
return CharSequenceUtils.indexOf(seq, searchChar, 0) >= 0;
}
/**
* Checks if CharSequence contains a search CharSequence, handling {@code null}.
* This method uses {@link String#indexOf(String)} if possible.
*
* A {@code null} CharSequence will return {@code 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 seq the CharSequence to check, may be null
* @param searchSeq the CharSequence to find, may be null
* @return true if the CharSequence contains the search CharSequence,
* false if not or {@code null} string input
* @since 2.0
* @since 3.0 Changed signature from contains(String, String) to contains(CharSequence, CharSequence)
*/
public static boolean contains(final CharSequence seq, final CharSequence searchSeq) {
if (seq == null || searchSeq == null) {
return false;
}
return CharSequenceUtils.indexOf(seq, searchSeq, 0) >= 0;
}
/**
* Checks if CharSequence contains a search CharSequence irrespective of case,
* handling {@code null}. Case-insensitivity is defined as by
* {@link String#equalsIgnoreCase(String)}.
*
*
A {@code null} CharSequence will return {@code false}.
*
*
* StringUtils.containsIgnoreCase(null, *) = false
* StringUtils.containsIgnoreCase(*, null) = false
* StringUtils.containsIgnoreCase("", "") = true
* StringUtils.containsIgnoreCase("abc", "") = true
* StringUtils.containsIgnoreCase("abc", "a") = true
* StringUtils.containsIgnoreCase("abc", "z") = false
* StringUtils.containsIgnoreCase("abc", "A") = true
* StringUtils.containsIgnoreCase("abc", "Z") = false
*
*
* @param str the CharSequence to check, may be null
* @param searchStr the CharSequence to find, may be null
* @return true if the CharSequence contains the search CharSequence irrespective of
* case or false if not or {@code null} string input
* @since 3.0 Changed signature from containsIgnoreCase(String, String) to containsIgnoreCase(CharSequence, CharSequence)
*/
public static boolean containsIgnoreCase(final CharSequence str, final CharSequence searchStr) {
if (str == null || searchStr == null) {
return false;
}
final int len = searchStr.length();
final int max = str.length() - len;
for (int i = 0; i <= max; i++) {
if (CharSequenceUtils.regionMatches(str, true, i, searchStr, 0, len)) {
return true;
}
}
return false;
}
/**
* Check whether the given CharSequence contains any whitespace characters.
* @param seq the CharSequence to check (may be {@code null})
* @return {@code true} if the CharSequence is not empty and
* contains at least 1 whitespace character
* @see java.lang.Character#isWhitespace
* @since 3.0
*/
// From org.springframework.util.StringUtils, under Apache License 2.0
public static boolean containsWhitespace(final CharSequence seq) {
if (isEmpty(seq)) {
return false;
}
final int strLen = seq.length();
for (int i = 0; i < strLen; i++) {
if (Character.isWhitespace(seq.charAt(i))) {
return true;
}
}
return false;
}
// IndexOfAny chars
//-----------------------------------------------------------------------
/**
* Search a CharSequence to find the first index of any
* character in the given set of characters.
*
* A {@code null} String will return {@code -1}.
* A {@code null} or zero length search array will return {@code -1}.
*
*
* StringUtils.indexOfAny(null, *) = -1
* StringUtils.indexOfAny("", *) = -1
* StringUtils.indexOfAny(*, null) = -1
* StringUtils.indexOfAny(*, []) = -1
* StringUtils.indexOfAny("zzabyycdxx",['z','a']) = 0
* StringUtils.indexOfAny("zzabyycdxx",['b','y']) = 3
* StringUtils.indexOfAny("aba", ['z']) = -1
*
*
* @param cs the CharSequence 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
* @since 3.0 Changed signature from indexOfAny(String, char[]) to indexOfAny(CharSequence, char...)
*/
public static int indexOfAny(final CharSequence cs, final char... searchChars) {
if (isEmpty(cs) || ArrayUtils.isEmpty(searchChars)) {
return INDEX_NOT_FOUND;
}
final int csLen = cs.length();
final int csLast = csLen - 1;
final int searchLen = searchChars.length;
final int searchLast = searchLen - 1;
for (int i = 0; i < csLen; i++) {
final char ch = cs.charAt(i);
for (int j = 0; j < searchLen; j++) {
if (searchChars[j] == ch) {
if (i < csLast && j < searchLast && Character.isHighSurrogate(ch)) {
// ch is a supplementary character
if (searchChars[j + 1] == cs.charAt(i + 1)) {
return i;
}
} else {
return i;
}
}
}
}
return INDEX_NOT_FOUND;
}
/**
* Search a CharSequence to find the first index of any
* character in the given set of characters.
*
* A {@code null} String will return {@code -1}.
* A {@code null} search string will return {@code -1}.
*
*
* StringUtils.indexOfAny(null, *) = -1
* StringUtils.indexOfAny("", *) = -1
* StringUtils.indexOfAny(*, null) = -1
* StringUtils.indexOfAny(*, "") = -1
* StringUtils.indexOfAny("zzabyycdxx", "za") = 0
* StringUtils.indexOfAny("zzabyycdxx", "by") = 3
* StringUtils.indexOfAny("aba","z") = -1
*
*
* @param cs the CharSequence 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
* @since 3.0 Changed signature from indexOfAny(String, String) to indexOfAny(CharSequence, String)
*/
public static int indexOfAny(final CharSequence cs, final String searchChars) {
if (isEmpty(cs) || isEmpty(searchChars)) {
return INDEX_NOT_FOUND;
}
return indexOfAny(cs, searchChars.toCharArray());
}
// ContainsAny
//-----------------------------------------------------------------------
/**
* Checks if the CharSequence contains any character in the given
* set of characters.
*
* A {@code null} CharSequence will return {@code false}.
* A {@code null} or zero length search array will return {@code false}.
*
*
* 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("zzabyycdxx",['z','y']) = true
* StringUtils.containsAny("aba", ['z']) = false
*
*
* @param cs the CharSequence to check, may be null
* @param searchChars the chars to search for, may be null
* @return the {@code true} if any of the chars are found,
* {@code false} if no match or null input
* @since 2.4
* @since 3.0 Changed signature from containsAny(String, char[]) to containsAny(CharSequence, char...)
*/
public static boolean containsAny(final CharSequence cs, final char... searchChars) {
if (isEmpty(cs) || ArrayUtils.isEmpty(searchChars)) {
return false;
}
final int csLength = cs.length();
final int searchLength = searchChars.length;
final int csLast = csLength - 1;
final int searchLast = searchLength - 1;
for (int i = 0; i < csLength; i++) {
final char ch = cs.charAt(i);
for (int j = 0; j < searchLength; j++) {
if (searchChars[j] == ch) {
if (Character.isHighSurrogate(ch)) {
if (j == searchLast) {
// missing low surrogate, fine, like String.indexOf(String)
return true;
}
if (i < csLast && searchChars[j + 1] == cs.charAt(i + 1)) {
return true;
}
} else {
// ch is in the Basic Multilingual Plane
return true;
}
}
}
}
return false;
}
/**
*
* Checks if the CharSequence contains any character in the given set of characters.
*
*
*
* A {@code null} CharSequence will return {@code false}. A {@code null} search CharSequence will return
* {@code false}.
*
*
*
* 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("zzabyycdxx", "zy") = true
* StringUtils.containsAny("zzabyycdxx", "\tx") = true
* StringUtils.containsAny("zzabyycdxx", "$.#yF") = true
* StringUtils.containsAny("aba","z") = false
*
*
* @param cs
* the CharSequence to check, may be null
* @param searchChars
* the chars to search for, may be null
* @return the {@code true} if any of the chars are found, {@code false} if no match or null input
* @since 2.4
* @since 3.0 Changed signature from containsAny(String, String) to containsAny(CharSequence, CharSequence)
*/
public static boolean containsAny(final CharSequence cs, final CharSequence searchChars) {
if (searchChars == null) {
return false;
}
return containsAny(cs, CharSequenceUtils.toCharArray(searchChars));
}
/**
* Checks if the CharSequence contains any of the CharSequences in the given array.
*
*
* A {@code null} {@code cs} CharSequence will return {@code false}. A {@code null} or zero
* length search array will return {@code false}.
*
*
*
* StringUtils.containsAny(null, *) = false
* StringUtils.containsAny("", *) = false
* StringUtils.containsAny(*, null) = false
* StringUtils.containsAny(*, []) = false
* StringUtils.containsAny("abcd", "ab", null) = true
* StringUtils.containsAny("abcd", "ab", "cd") = true
* StringUtils.containsAny("abc", "d", "abc") = true
*
*
*
* @param cs The CharSequence to check, may be null
* @param searchCharSequences The array of CharSequences to search for, may be null.
* Individual CharSequences may be null as well.
* @return {@code true} if any of the search CharSequences are found, {@code false} otherwise
* @since 3.4
*/
public static boolean containsAny(CharSequence cs, CharSequence... searchCharSequences) {
if (isEmpty(cs) || ArrayUtils.isEmpty(searchCharSequences)) {
return false;
}
for (CharSequence searchCharSequence : searchCharSequences) {
if (contains(cs, searchCharSequence)) {
return true;
}
}
return false;
}
// IndexOfAnyBut chars
//-----------------------------------------------------------------------
/**
* Searches a CharSequence to find the first index of any
* character not in the given set of characters.
*
* A {@code null} CharSequence will return {@code -1}.
* A {@code null} or zero length search array will return {@code -1}.
*
*
* StringUtils.indexOfAnyBut(null, *) = -1
* StringUtils.indexOfAnyBut("", *) = -1
* StringUtils.indexOfAnyBut(*, null) = -1
* StringUtils.indexOfAnyBut(*, []) = -1
* StringUtils.indexOfAnyBut("zzabyycdxx", new char[] {'z', 'a'} ) = 3
* StringUtils.indexOfAnyBut("aba", new char[] {'z'} ) = 0
* StringUtils.indexOfAnyBut("aba", new char[] {'a', 'b'} ) = -1
*
*
* @param cs the CharSequence 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
* @since 3.0 Changed signature from indexOfAnyBut(String, char[]) to indexOfAnyBut(CharSequence, char...)
*/
public static int indexOfAnyBut(final CharSequence cs, final char... searchChars) {
if (isEmpty(cs) || ArrayUtils.isEmpty(searchChars)) {
return INDEX_NOT_FOUND;
}
final int csLen = cs.length();
final int csLast = csLen - 1;
final int searchLen = searchChars.length;
final int searchLast = searchLen - 1;
outer:
for (int i = 0; i < csLen; i++) {
final char ch = cs.charAt(i);
for (int j = 0; j < searchLen; j++) {
if (searchChars[j] == ch) {
if (i < csLast && j < searchLast && Character.isHighSurrogate(ch)) {
if (searchChars[j + 1] == cs.charAt(i + 1)) {
continue outer;
}
} else {
continue outer;
}
}
}
return i;
}
return INDEX_NOT_FOUND;
}
/**
* Search a CharSequence to find the first index of any
* character not in the given set of characters.
*
* A {@code null} CharSequence will return {@code -1}.
* A {@code null} or empty search string will return {@code -1}.
*
*
* StringUtils.indexOfAnyBut(null, *) = -1
* StringUtils.indexOfAnyBut("", *) = -1
* StringUtils.indexOfAnyBut(*, null) = -1
* StringUtils.indexOfAnyBut(*, "") = -1
* StringUtils.indexOfAnyBut("zzabyycdxx", "za") = 3
* StringUtils.indexOfAnyBut("zzabyycdxx", "") = -1
* StringUtils.indexOfAnyBut("aba","ab") = -1
*
*
* @param seq the CharSequence 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
* @since 3.0 Changed signature from indexOfAnyBut(String, String) to indexOfAnyBut(CharSequence, CharSequence)
*/
public static int indexOfAnyBut(final CharSequence seq, final CharSequence searchChars) {
if (isEmpty(seq) || isEmpty(searchChars)) {
return INDEX_NOT_FOUND;
}
final int strLen = seq.length();
for (int i = 0; i < strLen; i++) {
final char ch = seq.charAt(i);
final boolean chFound = CharSequenceUtils.indexOf(searchChars, ch, 0) >= 0;
if (i + 1 < strLen && Character.isHighSurrogate(ch)) {
final char ch2 = seq.charAt(i + 1);
if (chFound && CharSequenceUtils.indexOf(searchChars, ch2, 0) < 0) {
return i;
}
} else {
if (!chFound) {
return i;
}
}
}
return INDEX_NOT_FOUND;
}
// ContainsOnly
//-----------------------------------------------------------------------
/**
* Checks if the CharSequence contains only certain characters.
*
* A {@code null} CharSequence will return {@code false}.
* A {@code null} valid character array will return {@code false}.
* An empty CharSequence (length()=0) always returns {@code true}.
*
*
* StringUtils.containsOnly(null, *) = false
* StringUtils.containsOnly(*, null) = false
* StringUtils.containsOnly("", *) = true
* StringUtils.containsOnly("ab", '') = false
* StringUtils.containsOnly("abab", 'abc') = true
* StringUtils.containsOnly("ab1", 'abc') = false
* StringUtils.containsOnly("abz", 'abc') = false
*
*
* @param cs the String to check, may be null
* @param valid an array of valid chars, may be null
* @return true if it only contains valid chars and is non-null
* @since 3.0 Changed signature from containsOnly(String, char[]) to containsOnly(CharSequence, char...)
*/
public static boolean containsOnly(final CharSequence cs, final char... valid) {
// All these pre-checks are to maintain API with an older version
if (valid == null || cs == null) {
return false;
}
if (cs.length() == 0) {
return true;
}
if (valid.length == 0) {
return false;
}
return indexOfAnyBut(cs, valid) == INDEX_NOT_FOUND;
}
/**
* Checks if the CharSequence contains only certain characters.
*
* A {@code null} CharSequence will return {@code false}.
* A {@code null} valid character String will return {@code false}.
* An empty String (length()=0) always returns {@code true}.
*
*
* StringUtils.containsOnly(null, *) = false
* StringUtils.containsOnly(*, null) = false
* StringUtils.containsOnly("", *) = true
* StringUtils.containsOnly("ab", "") = false
* StringUtils.containsOnly("abab", "abc") = true
* StringUtils.containsOnly("ab1", "abc") = false
* StringUtils.containsOnly("abz", "abc") = false
*
*
* @param cs the CharSequence to check, may be null
* @param validChars a String of valid chars, may be null
* @return true if it only contains valid chars and is non-null
* @since 2.0
* @since 3.0 Changed signature from containsOnly(String, String) to containsOnly(CharSequence, String)
*/
public static boolean containsOnly(final CharSequence cs, final String validChars) {
if (cs == null || validChars == null) {
return false;
}
return containsOnly(cs, validChars.toCharArray());
}
// ContainsNone
//-----------------------------------------------------------------------
/**
* Checks that the CharSequence does not contain certain characters.
*
* A {@code null} CharSequence will return {@code true}.
* A {@code null} invalid character array will return {@code true}.
* An empty CharSequence (length()=0) always returns true.
*
*
* 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
*
*
* @param cs the CharSequence to check, may be null
* @param searchChars an array of invalid chars, may be null
* @return true if it contains none of the invalid chars, or is null
* @since 2.0
* @since 3.0 Changed signature from containsNone(String, char[]) to containsNone(CharSequence, char...)
*/
public static boolean containsNone(final CharSequence cs, final char... searchChars) {
if (cs == null || searchChars == null) {
return true;
}
final int csLen = cs.length();
final int csLast = csLen - 1;
final int searchLen = searchChars.length;
final int searchLast = searchLen - 1;
for (int i = 0; i < csLen; i++) {
final char ch = cs.charAt(i);
for (int j = 0; j < searchLen; j++) {
if (searchChars[j] == ch) {
if (Character.isHighSurrogate(ch)) {
if (j == searchLast) {
// missing low surrogate, fine, like String.indexOf(String)
return false;
}
if (i < csLast && searchChars[j + 1] == cs.charAt(i + 1)) {
return false;
}
} else {
// ch is in the Basic Multilingual Plane
return false;
}
}
}
}
return true;
}
/**
* Checks that the CharSequence does not contain certain characters.
*
* A {@code null} CharSequence will return {@code true}.
* A {@code null} invalid character array will return {@code true}.
* An empty String ("") always returns true.
*
*
* 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
*
*
* @param cs the CharSequence 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
* @since 3.0 Changed signature from containsNone(String, String) to containsNone(CharSequence, String)
*/
public static boolean containsNone(final CharSequence cs, final String invalidChars) {
if (cs == null || invalidChars == null) {
return true;
}
return containsNone(cs, invalidChars.toCharArray());
}
// IndexOfAny strings
//-----------------------------------------------------------------------
/**
* Find the first index of any of a set of potential substrings.
*
* A {@code null} CharSequence will return {@code -1}.
* A {@code null} or zero length search array will return {@code -1}.
* A {@code null} search array entry will be ignored, but a search
* array containing "" will return {@code 0} if {@code str} is not
* null. This method uses {@link String#indexOf(String)} if possible.
*
*
* 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
*
*
* @param str the CharSequence to check, may be null
* @param searchStrs the CharSequences to search for, may be null
* @return the first index of any of the searchStrs in str, -1 if no match
* @since 3.0 Changed signature from indexOfAny(String, String[]) to indexOfAny(CharSequence, CharSequence...)
*/
public static int indexOfAny(final CharSequence str, final CharSequence... searchStrs) {
if (str == null || searchStrs == null) {
return INDEX_NOT_FOUND;
}
final 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++) {
final CharSequence search = searchStrs[i];
if (search == null) {
continue;
}
tmp = CharSequenceUtils.indexOf(str, search, 0);
if (tmp == INDEX_NOT_FOUND) {
continue;
}
if (tmp < ret) {
ret = tmp;
}
}
return ret == Integer.MAX_VALUE ? INDEX_NOT_FOUND : ret;
}
/**
* Find the latest index of any of a set of potential substrings.
*
* A {@code null} CharSequence will return {@code -1}.
* A {@code null} search array will return {@code -1}.
* A {@code null} or zero length search array entry will be ignored,
* but a search array containing "" will return the length of {@code str}
* if {@code str} is not null. This method uses {@link String#indexOf(String)} if possible
*
*
* 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
*
*
* @param str the CharSequence to check, may be null
* @param searchStrs the CharSequences to search for, may be null
* @return the last index of any of the CharSequences, -1 if no match
* @since 3.0 Changed signature from lastIndexOfAny(String, String[]) to lastIndexOfAny(CharSequence, CharSequence)
*/
public static int lastIndexOfAny(final CharSequence str, final CharSequence... searchStrs) {
if (str == null || searchStrs == null) {
return INDEX_NOT_FOUND;
}
final int sz = searchStrs.length;
int ret = INDEX_NOT_FOUND;
int tmp = 0;
for (int i = 0; i < sz; i++) {
final CharSequence search = searchStrs[i];
if (search == null) {
continue;
}
tmp = CharSequenceUtils.lastIndexOf(str, search, str.length());
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 {@code n}
* characters from the end of the String.
*
* A {@code null} String will return {@code null}.
* An empty ("") String will return "".
*
*
* 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"
*
*
* @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} if null String input
*/
public static String substring(final 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);
}
/**
* Gets a substring from the specified String avoiding exceptions.
*
* A negative start position can be used to start/end {@code n}
* characters from the end of the String.
*
* The returned substring starts with the character in the {@code start}
* position and ends before the {@code end} position. All position counting is
* zero-based -- i.e., to start at the beginning of the string use
* {@code start = 0}. Negative start and end positions can be used to
* specify offsets relative to the end of the String.
*
* If {@code start} is not strictly to the left of {@code end}, ""
* is returned.
*
*
* 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"
*
*
* @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 position,
* {@code null} if null String input
*/
public static String substring(final 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
//-----------------------------------------------------------------------
/**
* Gets the leftmost {@code len} characters of a String.
*
* If {@code len} characters are not available, or the
* String is {@code null}, the String will be returned without
* an exception. An empty String is returned if len is negative.
*
*
* StringUtils.left(null, *) = null
* StringUtils.left(*, -ve) = ""
* StringUtils.left("", *) = ""
* StringUtils.left("abc", 0) = ""
* StringUtils.left("abc", 2) = "ab"
* StringUtils.left("abc", 4) = "abc"
*
*
* @param str the String to get the leftmost characters from, may be null
* @param len the length of the required String
* @return the leftmost characters, {@code null} if null String input
*/
public static String left(final String str, final int len) {
if (str == null) {
return null;
}
if (len < 0) {
return EMPTY;
}
if (str.length() <= len) {
return str;
}
return str.substring(0, len);
}
/**
* Gets the rightmost {@code len} characters of a String.
*
* If {@code len} characters are not available, or the String
* is {@code null}, the String will be returned without an
* an exception. An empty String is returned if len is negative.
*
*
* StringUtils.right(null, *) = null
* StringUtils.right(*, -ve) = ""
* StringUtils.right("", *) = ""
* StringUtils.right("abc", 0) = ""
* StringUtils.right("abc", 2) = "bc"
* StringUtils.right("abc", 4) = "abc"
*
*
* @param str the String to get the rightmost characters from, may be null
* @param len the length of the required String
* @return the rightmost characters, {@code null} if null String input
*/
public static String right(final String str, final int len) {
if (str == null) {
return null;
}
if (len < 0) {
return EMPTY;
}
if (str.length() <= len) {
return str;
}
return str.substring(str.length() - len);
}
/**
* Gets {@code len} characters from the middle of a String.
*
* If {@code len} characters are not available, the remainder
* of the String will be returned without an exception. If the
* String is {@code null}, {@code null} will be returned.
* An empty String is returned if len is negative or exceeds the
* length of {@code str}.
*
*
* 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"
*
*
* @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
* @return the middle characters, {@code null} if null String input
*/
public static String mid(final String str, int pos, final 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
//-----------------------------------------------------------------------
/**
* Gets the substring before the first occurrence of a separator.
* The separator is not returned.
*
* A {@code null} string input will return {@code null}.
* An empty ("") string input will return the empty string.
* A {@code null} separator will return the input string.
*
* If nothing is found, the string input is returned.
*
*
* 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"
*
*
* @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} if null String input
* @since 2.0
*/
public static String substringBefore(final String str, final String separator) {
if (isEmpty(str) || separator == null) {
return str;
}
if (separator.isEmpty()) {
return EMPTY;
}
final int pos = str.indexOf(separator);
if (pos == INDEX_NOT_FOUND) {
return str;
}
return str.substring(0, pos);
}
/**
* Gets the substring after the first occurrence of a separator.
* The separator is not returned.
*
* A {@code null} string input will return {@code null}.
* An empty ("") string input will return the empty string.
* A {@code null} separator will return the empty string if the
* input string is not {@code null}.
*
* If nothing is found, the empty string is returned.
*
*
* 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"
*
*
* @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} if null String input
* @since 2.0
*/
public static String substringAfter(final String str, final String separator) {
if (isEmpty(str)) {
return str;
}
if (separator == null) {
return EMPTY;
}
final int pos = str.indexOf(separator);
if (pos == INDEX_NOT_FOUND) {
return EMPTY;
}
return str.substring(pos + separator.length());
}
/**
* Gets the substring before the last occurrence of a separator.
* The separator is not returned.
*
* A {@code null} string input will return {@code null}.
* An empty ("") string input will return the empty string.
* An empty or {@code null} separator will return the input string.
*
* If nothing is found, the string input is returned.
*
*
* 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"
*
*
* @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} if null String input
* @since 2.0
*/
public static String substringBeforeLast(final String str, final String separator) {
if (isEmpty(str) || isEmpty(separator)) {
return str;
}
final int pos = str.lastIndexOf(separator);
if (pos == INDEX_NOT_FOUND) {
return str;
}
return str.substring(0, pos);
}
/**
* Gets the substring after the last occurrence of a separator.
* The separator is not returned.
*
* A {@code null} string input will return {@code null}.
* An empty ("") string input will return the empty string.
* An empty or {@code null} separator will return the empty string if
* the input string is not {@code null}.
*
* If nothing is found, the empty string is returned.
*
*
* 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") = ""
*
*
* @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} if null String input
* @since 2.0
*/
public static String substringAfterLast(final String str, final String separator) {
if (isEmpty(str)) {
return str;
}
if (isEmpty(separator)) {
return EMPTY;
}
final int pos = str.lastIndexOf(separator);
if (pos == INDEX_NOT_FOUND || pos == str.length() - separator.length()) {
return EMPTY;
}
return str.substring(pos + separator.length());
}
// Substring between
//-----------------------------------------------------------------------
/**
* Gets the String that is nested in between two instances of the
* same String.
*
* A {@code null} input String returns {@code null}.
* A {@code null} tag returns {@code null}.
*
*
* StringUtils.substringBetween(null, *) = null
* StringUtils.substringBetween("", "") = ""
* StringUtils.substringBetween("", "tag") = null
* StringUtils.substringBetween("tagabctag", null) = null
* StringUtils.substringBetween("tagabctag", "") = ""
* StringUtils.substringBetween("tagabctag", "tag") = "abc"
*
*
* @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} if no match
* @since 2.0
*/
public static String substringBetween(final String str, final String tag) {
return substringBetween(str, tag, tag);
}
/**
* Gets the String that is nested in between two Strings.
* Only the first match is returned.
*
* A {@code null} input String returns {@code null}.
* A {@code null} open/close returns {@code null} (no match).
* An empty ("") open and close returns an empty string.
*
*
* 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"
*
*
* @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} if no match
* @since 2.0
*/
public static String substringBetween(final String str, final String open, final String close) {
if (str == null || open == null || close == null) {
return null;
}
final int start = str.indexOf(open);
if (start != INDEX_NOT_FOUND) {
final int end = str.indexOf(close, start + open.length());
if (end != INDEX_NOT_FOUND) {
return str.substring(start + open.length(), end);
}
}
return null;
}
/**
* Searches a String for substrings delimited by a start and end tag,
* returning all matching substrings in an array.
*
* A {@code null} input String returns {@code null}.
* A {@code null} open/close returns {@code null} (no match).
* An empty ("") open/close returns {@code null} (no match).
*
*
* StringUtils.substringsBetween("[a][b][c]", "[", "]") = ["a","b","c"]
* StringUtils.substringsBetween(null, *, *) = null
* StringUtils.substringsBetween(*, null, *) = null
* StringUtils.substringsBetween(*, *, null) = null
* StringUtils.substringsBetween("", "[", "]") = []
*
*
* @param str the String containing the substrings, null returns null, empty returns empty
* @param open the String identifying the start of the substring, empty returns null
* @param close the String identifying the end of the substring, empty returns null
* @return a String Array of substrings, or {@code null} if no match
* @since 2.3
*/
public static String[] substringsBetween(final String str, final String open, final String close) {
if (str == null || isEmpty(open) || isEmpty(close)) {
return null;
}
final int strLen = str.length();
if (strLen == 0) {
return ArrayUtils.EMPTY_STRING_ARRAY;
}
final int closeLen = close.length();
final int openLen = open.length();
final List list = new ArrayList();
int pos = 0;
while (pos < strLen - closeLen) {
int start = str.indexOf(open, pos);
if (start < 0) {
break;
}
start += openLen;
final int end = str.indexOf(close, start);
if (end < 0) {
break;
}
list.add(str.substring(start, end));
pos = end + closeLen;
}
if (list.isEmpty()) {
return null;
}
return list.toArray(new String [list.size()]);
}
// Nested extraction
//-----------------------------------------------------------------------
// Splitting
//-----------------------------------------------------------------------
/**
* Splits the provided text into an array, using whitespace as the
* separator.
* Whitespace is defined by {@link Character#isWhitespace(char)}.
*
* The separator is not included in the returned String array.
* Adjacent separators are treated as one separator.
* For more control over the split use the StrTokenizer class.
*
* A {@code null} input String returns {@code null}.
*
*
* StringUtils.split(null) = null
* StringUtils.split("") = []
* StringUtils.split("abc def") = ["abc", "def"]
* StringUtils.split("abc def") = ["abc", "def"]
* StringUtils.split(" abc ") = ["abc"]
*
*
* @param str the String to parse, may be null
* @return an array of parsed Strings, {@code null} if null String input
*/
public static String[] split(final String str) {
return split(str, null, -1);
}
/**
* Splits the provided text into an array, separator specified.
* This is an alternative to using StringTokenizer.
*
* The separator is not included in the returned String array.
* Adjacent separators are treated as one separator.
* For more control over the split use the StrTokenizer class.
*
* A {@code null} input String returns {@code null}.
*
*
* StringUtils.split(null, *) = null
* StringUtils.split("", *) = []
* StringUtils.split("a.b.c", '.') = ["a", "b", "c"]
* StringUtils.split("a..b.c", '.') = ["a", "b", "c"]
* StringUtils.split("a:b:c", '.') = ["a:b:c"]
* StringUtils.split("a b c", ' ') = ["a", "b", "c"]
*
*
* @param str the String to parse, may be null
* @param separatorChar the character used as the delimiter
* @return an array of parsed Strings, {@code null} if null String input
* @since 2.0
*/
public static String[] split(final String str, final char separatorChar) {
return splitWorker(str, separatorChar, false);
}
/**
* Splits the provided text into an array, separators specified.
* This is an alternative to using StringTokenizer.
*
* The separator is not included in the returned String array.
* Adjacent separators are treated as one separator.
* For more control over the split use the StrTokenizer class.
*
* A {@code null} input String returns {@code null}.
* A {@code null} separatorChars splits on whitespace.
*
*
* StringUtils.split(null, *) = null
* StringUtils.split("", *) = []
* StringUtils.split("abc def", null) = ["abc", "def"]
* StringUtils.split("abc def", " ") = ["abc", "def"]
* StringUtils.split("abc def", " ") = ["abc", "def"]
* StringUtils.split("ab:cd:ef", ":") = ["ab", "cd", "ef"]
*
*
* @param str the String to parse, may be null
* @param separatorChars the characters used as the delimiters,
* {@code null} splits on whitespace
* @return an array of parsed Strings, {@code null} if null String input
*/
public static String[] split(final String str, final String separatorChars) {
return splitWorker(str, separatorChars, -1, false);
}
/**
* Splits the provided text into an array with a maximum length,
* separators specified.
*
* The separator is not included in the returned String array.
* Adjacent separators are treated as one separator.
*
* A {@code null} input String returns {@code null}.
* A {@code null} separatorChars splits on whitespace.
*
* If more than {@code max} delimited substrings are found, the last
* returned string includes all characters after the first {@code max - 1}
* returned strings (including separator characters).
*
*
* StringUtils.split(null, *, *) = null
* StringUtils.split("", *, *) = []
* StringUtils.split("ab cd ef", null, 0) = ["ab", "cd", "ef"]
* StringUtils.split("ab cd ef", null, 0) = ["ab", "cd", "ef"]
* StringUtils.split("ab:cd:ef", ":", 0) = ["ab", "cd", "ef"]
* StringUtils.split("ab:cd:ef", ":", 2) = ["ab", "cd:ef"]
*
*
* @param str the String to parse, may be null
* @param separatorChars the characters used as the delimiters,
* {@code 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, {@code null} if null String input
*/
public static String[] split(final String str, final String separatorChars, final int max) {
return splitWorker(str, separatorChars, max, false);
}
/**
* Splits the provided text into an array, separator string specified.
*
* The separator(s) will not be included in the returned String array.
* Adjacent separators are treated as one separator.
*
* A {@code null} input String returns {@code null}.
* A {@code null} separator splits on whitespace.
*
*
* StringUtils.splitByWholeSeparator(null, *) = null
* StringUtils.splitByWholeSeparator("", *) = []
* StringUtils.splitByWholeSeparator("ab de fg", null) = ["ab", "de", "fg"]
* StringUtils.splitByWholeSeparator("ab de fg", null) = ["ab", "de", "fg"]
* StringUtils.splitByWholeSeparator("ab:cd:ef", ":") = ["ab", "cd", "ef"]
* StringUtils.splitByWholeSeparator("ab-!-cd-!-ef", "-!-") = ["ab", "cd", "ef"]
*
*
* @param str the String to parse, may be null
* @param separator String containing the String to be used as a delimiter,
* {@code null} splits on whitespace
* @return an array of parsed Strings, {@code null} if null String was input
*/
public static String[] splitByWholeSeparator(final String str, final String separator) {
return splitByWholeSeparatorWorker( str, separator, -1, false ) ;
}
/**
* Splits the provided text into an array, separator string specified.
* Returns a maximum of {@code max} substrings.
*
* The separator(s) will not be included in the returned String array.
* Adjacent separators are treated as one separator.
*
* A {@code null} input String returns {@code null}.
* A {@code null} separator splits on whitespace.
*
*
* StringUtils.splitByWholeSeparator(null, *, *) = null
* StringUtils.splitByWholeSeparator("", *, *) = []
* StringUtils.splitByWholeSeparator("ab de fg", null, 0) = ["ab", "de", "fg"]
* StringUtils.splitByWholeSeparator("ab de fg", null, 0) = ["ab", "de", "fg"]
* StringUtils.splitByWholeSeparator("ab:cd:ef", ":", 2) = ["ab", "cd:ef"]
* StringUtils.splitByWholeSeparator("ab-!-cd-!-ef", "-!-", 5) = ["ab", "cd", "ef"]
* StringUtils.splitByWholeSeparator("ab-!-cd-!-ef", "-!-", 2) = ["ab", "cd-!-ef"]
*
*
* @param str the String to parse, may be null
* @param separator String containing the String to be used as a delimiter,
* {@code null} splits on whitespace
* @param max the maximum number of elements to include in the returned
* array. A zero or negative value implies no limit.
* @return an array of parsed Strings, {@code null} if null String was input
*/
public static String[] splitByWholeSeparator( final String str, final String separator, final int max) {
return splitByWholeSeparatorWorker(str, separator, max, false);
}
/**
* Splits the provided text into an array, separator string specified.
*
* The separator is not included in the returned String array.
* Adjacent separators are treated as separators for empty tokens.
* For more control over the split use the StrTokenizer class.
*
* A {@code null} input String returns {@code null}.
* A {@code null} separator splits on whitespace.
*
*
* StringUtils.splitByWholeSeparatorPreserveAllTokens(null, *) = null
* StringUtils.splitByWholeSeparatorPreserveAllTokens("", *) = []
* StringUtils.splitByWholeSeparatorPreserveAllTokens("ab de fg", null) = ["ab", "de", "fg"]
* StringUtils.splitByWholeSeparatorPreserveAllTokens("ab de fg", null) = ["ab", "", "", "de", "fg"]
* StringUtils.splitByWholeSeparatorPreserveAllTokens("ab:cd:ef", ":") = ["ab", "cd", "ef"]
* StringUtils.splitByWholeSeparatorPreserveAllTokens("ab-!-cd-!-ef", "-!-") = ["ab", "cd", "ef"]
*
*
* @param str the String to parse, may be null
* @param separator String containing the String to be used as a delimiter,
* {@code null} splits on whitespace
* @return an array of parsed Strings, {@code null} if null String was input
* @since 2.4
*/
public static String[] splitByWholeSeparatorPreserveAllTokens(final String str, final String separator) {
return splitByWholeSeparatorWorker(str, separator, -1, true);
}
/**
* Splits the provided text into an array, separator string specified.
* Returns a maximum of {@code max} substrings.
*
* The separator is not included in the returned String array.
* Adjacent separators are treated as separators for empty tokens.
* For more control over the split use the StrTokenizer class.
*
* A {@code null} input String returns {@code null}.
* A {@code null} separator splits on whitespace.
*
*
* StringUtils.splitByWholeSeparatorPreserveAllTokens(null, *, *) = null
* StringUtils.splitByWholeSeparatorPreserveAllTokens("", *, *) = []
* StringUtils.splitByWholeSeparatorPreserveAllTokens("ab de fg", null, 0) = ["ab", "de", "fg"]
* StringUtils.splitByWholeSeparatorPreserveAllTokens("ab de fg", null, 0) = ["ab", "", "", "de", "fg"]
* StringUtils.splitByWholeSeparatorPreserveAllTokens("ab:cd:ef", ":", 2) = ["ab", "cd:ef"]
* StringUtils.splitByWholeSeparatorPreserveAllTokens("ab-!-cd-!-ef", "-!-", 5) = ["ab", "cd", "ef"]
* StringUtils.splitByWholeSeparatorPreserveAllTokens("ab-!-cd-!-ef", "-!-", 2) = ["ab", "cd-!-ef"]
*
*
* @param str the String to parse, may be null
* @param separator String containing the String to be used as a delimiter,
* {@code null} splits on whitespace
* @param max the maximum number of elements to include in the returned
* array. A zero or negative value implies no limit.
* @return an array of parsed Strings, {@code null} if null String was input
* @since 2.4
*/
public static String[] splitByWholeSeparatorPreserveAllTokens(final String str, final String separator, final int max) {
return splitByWholeSeparatorWorker(str, separator, max, true);
}
/**
* Performs the logic for the {@code splitByWholeSeparatorPreserveAllTokens} methods.
*
* @param str the String to parse, may be {@code null}
* @param separator String containing the String to be used as a delimiter,
* {@code null} splits on whitespace
* @param max the maximum number of elements to include in the returned
* array. A zero or negative value implies no limit.
* @param preserveAllTokens if {@code true}, adjacent separators are
* treated as empty token separators; if {@code false}, adjacent
* separators are treated as one separator.
* @return an array of parsed Strings, {@code null} if null String input
* @since 2.4
*/
private static String[] splitByWholeSeparatorWorker(
final String str, final String separator, final int max, final boolean preserveAllTokens) {
if (str == null) {
return null;
}
final int len = str.length();
if (len == 0) {
return ArrayUtils.EMPTY_STRING_ARRAY;
}
if (separator == null || EMPTY.equals(separator)) {
// Split on whitespace.
return splitWorker(str, null, max, preserveAllTokens);
}
final int separatorLength = separator.length();
final ArrayList substrings = new ArrayList();
int numberOfSubstrings = 0;
int beg = 0;
int end = 0;
while (end < len) {
end = str.indexOf(separator, beg);
if (end > -1) {
if (end > beg) {
numberOfSubstrings += 1;
if (numberOfSubstrings == max) {
end = len;
substrings.add(str.substring(beg));
} else {
// The following is OK, because String.substring( beg, end ) excludes
// the character at the position 'end'.
substrings.add(str.substring(beg, end));
// Set the starting point for the next search.
// The following is equivalent to beg = end + (separatorLength - 1) + 1,
// which is the right calculation:
beg = end + separatorLength;
}
} else {
// We found a consecutive occurrence of the separator, so skip it.
if (preserveAllTokens) {
numberOfSubstrings += 1;
if (numberOfSubstrings == max) {
end = len;
substrings.add(str.substring(beg));
} else {
substrings.add(EMPTY);
}
}
beg = end + separatorLength;
}
} else {
// String.substring( beg ) goes from 'beg' to the end of the String.
substrings.add(str.substring(beg));
end = len;
}
}
return substrings.toArray(new String[substrings.size()]);
}
// -----------------------------------------------------------------------
/**
* Splits the provided text into an array, using whitespace as the
* separator, preserving all tokens, including empty tokens created by
* adjacent separators. This is an alternative to using StringTokenizer.
* Whitespace is defined by {@link Character#isWhitespace(char)}.
*
* The separator is not included in the returned String array.
* Adjacent separators are treated as separators for empty tokens.
* For more control over the split use the StrTokenizer class.
*
* A {@code null} input String returns {@code null}.
*
*
* StringUtils.splitPreserveAllTokens(null) = null
* StringUtils.splitPreserveAllTokens("") = []
* StringUtils.splitPreserveAllTokens("abc def") = ["abc", "def"]
* StringUtils.splitPreserveAllTokens("abc def") = ["abc", "", "def"]
* StringUtils.splitPreserveAllTokens(" abc ") = ["", "abc", ""]
*
*
* @param str the String to parse, may be {@code null}
* @return an array of parsed Strings, {@code null} if null String input
* @since 2.1
*/
public static String[] splitPreserveAllTokens(final String str) {
return splitWorker(str, null, -1, true);
}
/**
* Splits the provided text into an array, separator specified,
* preserving all tokens, including empty tokens created by adjacent
* separators. This is an alternative to using StringTokenizer.
*
* The separator is not included in the returned String array.
* Adjacent separators are treated as separators for empty tokens.
* For more control over the split use the StrTokenizer class.
*
* A {@code null} input String returns {@code null}.
*
*
* StringUtils.splitPreserveAllTokens(null, *) = null
* StringUtils.splitPreserveAllTokens("", *) = []
* StringUtils.splitPreserveAllTokens("a.b.c", '.') = ["a", "b", "c"]
* StringUtils.splitPreserveAllTokens("a..b.c", '.') = ["a", "", "b", "c"]
* StringUtils.splitPreserveAllTokens("a:b:c", '.') = ["a:b:c"]
* StringUtils.splitPreserveAllTokens("a\tb\nc", null) = ["a", "b", "c"]
* StringUtils.splitPreserveAllTokens("a b c", ' ') = ["a", "b", "c"]
* StringUtils.splitPreserveAllTokens("a b c ", ' ') = ["a", "b", "c", ""]
* StringUtils.splitPreserveAllTokens("a b c ", ' ') = ["a", "b", "c", "", ""]
* StringUtils.splitPreserveAllTokens(" a b c", ' ') = ["", a", "b", "c"]
* StringUtils.splitPreserveAllTokens(" a b c", ' ') = ["", "", a", "b", "c"]
* StringUtils.splitPreserveAllTokens(" a b c ", ' ') = ["", a", "b", "c", ""]
*
*
* @param str the String to parse, may be {@code null}
* @param separatorChar the character used as the delimiter,
* {@code null} splits on whitespace
* @return an array of parsed Strings, {@code null} if null String input
* @since 2.1
*/
public static String[] splitPreserveAllTokens(final String str, final char separatorChar) {
return splitWorker(str, separatorChar, true);
}
/**
* Performs the logic for the {@code split} and
* {@code splitPreserveAllTokens} methods that do not return a
* maximum array length.
*
* @param str the String to parse, may be {@code null}
* @param separatorChar the separate character
* @param preserveAllTokens if {@code true}, adjacent separators are
* treated as empty token separators; if {@code false}, adjacent
* separators are treated as one separator.
* @return an array of parsed Strings, {@code null} if null String input
*/
private static String[] splitWorker(final String str, final char separatorChar, final boolean preserveAllTokens) {
// Performance tuned for 2.0 (JDK1.4)
if (str == null) {
return null;
}
final int len = str.length();
if (len == 0) {
return ArrayUtils.EMPTY_STRING_ARRAY;
}
final List list = new ArrayList();
int i = 0, start = 0;
boolean match = false;
boolean lastMatch = false;
while (i < len) {
if (str.charAt(i) == separatorChar) {
if (match || preserveAllTokens) {
list.add(str.substring(start, i));
match = false;
lastMatch = true;
}
start = ++i;
continue;
}
lastMatch = false;
match = true;
i++;
}
if (match || preserveAllTokens && lastMatch) {
list.add(str.substring(start, i));
}
return list.toArray(new String[list.size()]);
}
/**
* Splits the provided text into an array, separators specified,
* preserving all tokens, including empty tokens created by adjacent
* separators. This is an alternative to using StringTokenizer.
*
* The separator is not included in the returned String array.
* Adjacent separators are treated as separators for empty tokens.
* For more control over the split use the StrTokenizer class.
*
* A {@code null} input String returns {@code null}.
* A {@code null} separatorChars splits on whitespace.
*
*
* StringUtils.splitPreserveAllTokens(null, *) = null
* StringUtils.splitPreserveAllTokens("", *) = []
* StringUtils.splitPreserveAllTokens("abc def", null) = ["abc", "def"]
* StringUtils.splitPreserveAllTokens("abc def", " ") = ["abc", "def"]
* StringUtils.splitPreserveAllTokens("abc def", " ") = ["abc", "", def"]
* StringUtils.splitPreserveAllTokens("ab:cd:ef", ":") = ["ab", "cd", "ef"]
* StringUtils.splitPreserveAllTokens("ab:cd:ef:", ":") = ["ab", "cd", "ef", ""]
* StringUtils.splitPreserveAllTokens("ab:cd:ef::", ":") = ["ab", "cd", "ef", "", ""]
* StringUtils.splitPreserveAllTokens("ab::cd:ef", ":") = ["ab", "", cd", "ef"]
* StringUtils.splitPreserveAllTokens(":cd:ef", ":") = ["", cd", "ef"]
* StringUtils.splitPreserveAllTokens("::cd:ef", ":") = ["", "", cd", "ef"]
* StringUtils.splitPreserveAllTokens(":cd:ef:", ":") = ["", cd", "ef", ""]
*
*
* @param str the String to parse, may be {@code null}
* @param separatorChars the characters used as the delimiters,
* {@code null} splits on whitespace
* @return an array of parsed Strings, {@code null} if null String input
* @since 2.1
*/
public static String[] splitPreserveAllTokens(final String str, final String separatorChars) {
return splitWorker(str, separatorChars, -1, true);
}
/**
* Splits the provided text into an array with a maximum length,
* separators specified, preserving all tokens, including empty tokens
* created by adjacent separators.
*
* The separator is not included in the returned String array.
* Adjacent separators are treated as separators for empty tokens.
* Adjacent separators are treated as one separator.
*
* A {@code null} input String returns {@code null}.
* A {@code null} separatorChars splits on whitespace.
*
* If more than {@code max} delimited substrings are found, the last
* returned string includes all characters after the first {@code max - 1}
* returned strings (including separator characters).
*
*
* StringUtils.splitPreserveAllTokens(null, *, *) = null
* StringUtils.splitPreserveAllTokens("", *, *) = []
* StringUtils.splitPreserveAllTokens("ab de fg", null, 0) = ["ab", "cd", "ef"]
* StringUtils.splitPreserveAllTokens("ab de fg", null, 0) = ["ab", "cd", "ef"]
* StringUtils.splitPreserveAllTokens("ab:cd:ef", ":", 0) = ["ab", "cd", "ef"]
* StringUtils.splitPreserveAllTokens("ab:cd:ef", ":", 2) = ["ab", "cd:ef"]
* StringUtils.splitPreserveAllTokens("ab de fg", null, 2) = ["ab", " de fg"]
* StringUtils.splitPreserveAllTokens("ab de fg", null, 3) = ["ab", "", " de fg"]
* StringUtils.splitPreserveAllTokens("ab de fg", null, 4) = ["ab", "", "", "de fg"]
*
*
* @param str the String to parse, may be {@code null}
* @param separatorChars the characters used as the delimiters,
* {@code 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, {@code null} if null String input
* @since 2.1
*/
public static String[] splitPreserveAllTokens(final String str, final String separatorChars, final int max) {
return splitWorker(str, separatorChars, max, true);
}
/**
* Performs the logic for the {@code split} and
* {@code splitPreserveAllTokens} methods that return a maximum array
* length.
*
* @param str the String to parse, may be {@code null}
* @param separatorChars the separate character
* @param max the maximum number of elements to include in the
* array. A zero or negative value implies no limit.
* @param preserveAllTokens if {@code true}, adjacent separators are
* treated as empty token separators; if {@code false}, adjacent
* separators are treated as one separator.
* @return an array of parsed Strings, {@code null} if null String input
*/
private static String[] splitWorker(final String str, final String separatorChars, final int max, final boolean preserveAllTokens) {
// Performance tuned for 2.0 (JDK1.4)
// Direct code is quicker than StringTokenizer.
// Also, StringTokenizer uses isSpace() not isWhitespace()
if (str == null) {
return null;
}
final int len = str.length();
if (len == 0) {
return ArrayUtils.EMPTY_STRING_ARRAY;
}
final List list = new ArrayList();
int sizePlus1 = 1;
int i = 0, start = 0;
boolean match = false;
boolean lastMatch = false;
if (separatorChars == null) {
// Null separator means use whitespace
while (i < len) {
if (Character.isWhitespace(str.charAt(i))) {
if (match || preserveAllTokens) {
lastMatch = true;
if (sizePlus1++ == max) {
i = len;
lastMatch = false;
}
list.add(str.substring(start, i));
match = false;
}
start = ++i;
continue;
}
lastMatch = false;
match = true;
i++;
}
} else if (separatorChars.length() == 1) {
// Optimise 1 character case
final char sep = separatorChars.charAt(0);
while (i < len) {
if (str.charAt(i) == sep) {
if (match || preserveAllTokens) {
lastMatch = true;
if (sizePlus1++ == max) {
i = len;
lastMatch = false;
}
list.add(str.substring(start, i));
match = false;
}
start = ++i;
continue;
}
lastMatch = false;
match = true;
i++;
}
} else {
// standard case
while (i < len) {
if (separatorChars.indexOf(str.charAt(i)) >= 0) {
if (match || preserveAllTokens) {
lastMatch = true;
if (sizePlus1++ == max) {
i = len;
lastMatch = false;
}
list.add(str.substring(start, i));
match = false;
}
start = ++i;
continue;
}
lastMatch = false;
match = true;
i++;
}
}
if (match || preserveAllTokens && lastMatch) {
list.add(str.substring(start, i));
}
return list.toArray(new String[list.size()]);
}
/**
* Splits a String by Character type as returned by
* {@code java.lang.Character.getType(char)}. Groups of contiguous
* characters of the same type are returned as complete tokens.
*
* StringUtils.splitByCharacterType(null) = null
* StringUtils.splitByCharacterType("") = []
* StringUtils.splitByCharacterType("ab de fg") = ["ab", " ", "de", " ", "fg"]
* StringUtils.splitByCharacterType("ab de fg") = ["ab", " ", "de", " ", "fg"]
* StringUtils.splitByCharacterType("ab:cd:ef") = ["ab", ":", "cd", ":", "ef"]
* StringUtils.splitByCharacterType("number5") = ["number", "5"]
* StringUtils.splitByCharacterType("fooBar") = ["foo", "B", "ar"]
* StringUtils.splitByCharacterType("foo200Bar") = ["foo", "200", "B", "ar"]
* StringUtils.splitByCharacterType("ASFRules") = ["ASFR", "ules"]
*
* @param str the String to split, may be {@code null}
* @return an array of parsed Strings, {@code null} if null String input
* @since 2.4
*/
public static String[] splitByCharacterType(final String str) {
return splitByCharacterType(str, false);
}
/**
* Splits a String by Character type as returned by
* {@code java.lang.Character.getType(char)}. Groups of contiguous
* characters of the same type are returned as complete tokens, with the
* following exception: the character of type
* {@code Character.UPPERCASE_LETTER}, if any, immediately
* preceding a token of type {@code Character.LOWERCASE_LETTER}
* will belong to the following token rather than to the preceding, if any,
* {@code Character.UPPERCASE_LETTER} token.
*
* StringUtils.splitByCharacterTypeCamelCase(null) = null
* StringUtils.splitByCharacterTypeCamelCase("") = []
* StringUtils.splitByCharacterTypeCamelCase("ab de fg") = ["ab", " ", "de", " ", "fg"]
* StringUtils.splitByCharacterTypeCamelCase("ab de fg") = ["ab", " ", "de", " ", "fg"]
* StringUtils.splitByCharacterTypeCamelCase("ab:cd:ef") = ["ab", ":", "cd", ":", "ef"]
* StringUtils.splitByCharacterTypeCamelCase("number5") = ["number", "5"]
* StringUtils.splitByCharacterTypeCamelCase("fooBar") = ["foo", "Bar"]
* StringUtils.splitByCharacterTypeCamelCase("foo200Bar") = ["foo", "200", "Bar"]
* StringUtils.splitByCharacterTypeCamelCase("ASFRules") = ["ASF", "Rules"]
*
* @param str the String to split, may be {@code null}
* @return an array of parsed Strings, {@code null} if null String input
* @since 2.4
*/
public static String[] splitByCharacterTypeCamelCase(final String str) {
return splitByCharacterType(str, true);
}
/**
* Splits a String by Character type as returned by
* {@code java.lang.Character.getType(char)}. Groups of contiguous
* characters of the same type are returned as complete tokens, with the
* following exception: if {@code camelCase} is {@code true},
* the character of type {@code Character.UPPERCASE_LETTER}, if any,
* immediately preceding a token of type {@code Character.LOWERCASE_LETTER}
* will belong to the following token rather than to the preceding, if any,
* {@code Character.UPPERCASE_LETTER} token.
* @param str the String to split, may be {@code null}
* @param camelCase whether to use so-called "camel-case" for letter types
* @return an array of parsed Strings, {@code null} if null String input
* @since 2.4
*/
private static String[] splitByCharacterType(final String str, final boolean camelCase) {
if (str == null) {
return null;
}
if (str.isEmpty()) {
return ArrayUtils.EMPTY_STRING_ARRAY;
}
final char[] c = str.toCharArray();
final List list = new ArrayList();
int tokenStart = 0;
int currentType = Character.getType(c[tokenStart]);
for (int pos = tokenStart + 1; pos < c.length; pos++) {
final int type = Character.getType(c[pos]);
if (type == currentType) {
continue;
}
if (camelCase && type == Character.LOWERCASE_LETTER && currentType == Character.UPPERCASE_LETTER) {
final int newTokenStart = pos - 1;
if (newTokenStart != tokenStart) {
list.add(new String(c, tokenStart, newTokenStart - tokenStart));
tokenStart = newTokenStart;
}
} else {
list.add(new String(c, tokenStart, pos - tokenStart));
tokenStart = pos;
}
currentType = type;
}
list.add(new String(c, tokenStart, c.length - tokenStart));
return list.toArray(new String[list.size()]);
}
// Joining
//-----------------------------------------------------------------------
/**
* Joins the elements of the provided array into a single String
* containing the provided list of elements.
*
* No separator is added to the joined String.
* Null objects or empty strings within the array are represented by
* empty strings.
*
*
* StringUtils.join(null) = null
* StringUtils.join([]) = ""
* StringUtils.join([null]) = ""
* StringUtils.join(["a", "b", "c"]) = "abc"
* StringUtils.join([null, "", "a"]) = "a"
*
*
* @param the specific type of values to join together
* @param elements the values to join together, may be null
* @return the joined String, {@code null} if null array input
* @since 2.0
* @since 3.0 Changed signature to use varargs
*/
public static String join(final T... elements) {
return join(elements, null);
}
/**
* 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.
* Null objects or empty strings within the array are represented by
* empty strings.
*
*
* 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"
*
*
* @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} if null array input
* @since 2.0
*/
public static String join(final Object[] array, final char separator) {
if (array == null) {
return null;
}
return join(array, separator, 0, array.length);
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final long[] array, final char separator) {
if (array == null) {
return null;
}
return join(array, separator, 0, array.length);
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final int[] array, final char separator) {
if (array == null) {
return null;
}
return join(array, separator, 0, array.length);
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final short[] array, final char separator) {
if (array == null) {
return null;
}
return join(array, separator, 0, array.length);
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final byte[] array, final char separator) {
if (array == null) {
return null;
}
return join(array, separator, 0, array.length);
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final char[] array, final char separator) {
if (array == null) {
return null;
}
return join(array, separator, 0, array.length);
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final float[] array, final char separator) {
if (array == null) {
return null;
}
return join(array, separator, 0, array.length);
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final double[] array, final char separator) {
if (array == null) {
return null;
}
return join(array, separator, 0, array.length);
}
/**
* 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.
* Null objects or empty strings within the array are represented by
* empty strings.
*
*
* 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"
*
*
* @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} if null array input
* @since 2.0
*/
public static String join(final Object[] array, final char separator, final int startIndex, final int endIndex) {
if (array == null) {
return null;
}
final int noOfItems = endIndex - startIndex;
if (noOfItems <= 0) {
return EMPTY;
}
final StringBuilder buf = new StringBuilder(noOfItems * 16);
for (int i = startIndex; i < endIndex; i++) {
if (i > startIndex) {
buf.append(separator);
}
if (array[i] != null) {
buf.append(array[i]);
}
}
return buf.toString();
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final long[] array, final char separator, final int startIndex, final int endIndex) {
if (array == null) {
return null;
}
final int noOfItems = endIndex - startIndex;
if (noOfItems <= 0) {
return EMPTY;
}
final StringBuilder buf = new StringBuilder(noOfItems * 16);
for (int i = startIndex; i < endIndex; i++) {
if (i > startIndex) {
buf.append(separator);
}
buf.append(array[i]);
}
return buf.toString();
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final int[] array, final char separator, final int startIndex, final int endIndex) {
if (array == null) {
return null;
}
final int noOfItems = endIndex - startIndex;
if (noOfItems <= 0) {
return EMPTY;
}
final StringBuilder buf = new StringBuilder(noOfItems * 16);
for (int i = startIndex; i < endIndex; i++) {
if (i > startIndex) {
buf.append(separator);
}
buf.append(array[i]);
}
return buf.toString();
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final byte[] array, final char separator, final int startIndex, final int endIndex) {
if (array == null) {
return null;
}
final int noOfItems = endIndex - startIndex;
if (noOfItems <= 0) {
return EMPTY;
}
final StringBuilder buf = new StringBuilder(noOfItems * 16);
for (int i = startIndex; i < endIndex; i++) {
if (i > startIndex) {
buf.append(separator);
}
buf.append(array[i]);
}
return buf.toString();
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final short[] array, final char separator, final int startIndex, final int endIndex) {
if (array == null) {
return null;
}
final int noOfItems = endIndex - startIndex;
if (noOfItems <= 0) {
return EMPTY;
}
final StringBuilder buf = new StringBuilder(noOfItems * 16);
for (int i = startIndex; i < endIndex; i++) {
if (i > startIndex) {
buf.append(separator);
}
buf.append(array[i]);
}
return buf.toString();
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final char[] array, final char separator, final int startIndex, final int endIndex) {
if (array == null) {
return null;
}
final int noOfItems = endIndex - startIndex;
if (noOfItems <= 0) {
return EMPTY;
}
final StringBuilder buf = new StringBuilder(noOfItems * 16);
for (int i = startIndex; i < endIndex; i++) {
if (i > startIndex) {
buf.append(separator);
}
buf.append(array[i]);
}
return buf.toString();
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final double[] array, final char separator, final int startIndex, final int endIndex) {
if (array == null) {
return null;
}
final int noOfItems = endIndex - startIndex;
if (noOfItems <= 0) {
return EMPTY;
}
final StringBuilder buf = new StringBuilder(noOfItems * 16);
for (int i = startIndex; i < endIndex; i++) {
if (i > startIndex) {
buf.append(separator);
}
buf.append(array[i]);
}
return buf.toString();
}
/**
*
* 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. Null objects or empty strings within the array are represented
* by empty strings.
*
*
*
* StringUtils.join(null, *) = null
* StringUtils.join([], *) = ""
* StringUtils.join([null], *) = ""
* StringUtils.join([1, 2, 3], ';') = "1;2;3"
* StringUtils.join([1, 2, 3], null) = "123"
*
*
* @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} if null array input
* @since 3.2
*/
public static String join(final float[] array, final char separator, final int startIndex, final int endIndex) {
if (array == null) {
return null;
}
final int noOfItems = endIndex - startIndex;
if (noOfItems <= 0) {
return EMPTY;
}
final StringBuilder buf = new StringBuilder(noOfItems * 16);
for (int i = startIndex; i < endIndex; i++) {
if (i > startIndex) {
buf.append(separator);
}
buf.append(array[i]);
}
return buf.toString();
}
/**
* 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 {@code null} separator is the same as an empty String ("").
* Null objects or empty strings within the array are represented by
* empty strings.
*
*
* 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"
*
*
* @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} if null array input
*/
public static String join(final Object[] array, final String separator) {
if (array == null) {
return null;
}
return join(array, separator, 0, array.length);
}
/**
* 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 {@code null} separator is the same as an empty String ("").
* Null objects or empty strings within the array are represented by
* empty strings.
*
*
* StringUtils.join(null, *, *, *) = null
* StringUtils.join([], *, *, *) = ""
* StringUtils.join([null], *, *, *) = ""
* StringUtils.join(["a", "b", "c"], "--", 0, 3) = "a--b--c"
* StringUtils.join(["a", "b", "c"], "--", 1, 3) = "b--c"
* StringUtils.join(["a", "b", "c"], "--", 2, 3) = "c"
* StringUtils.join(["a", "b", "c"], "--", 2, 2) = ""
* StringUtils.join(["a", "b", "c"], null, 0, 3) = "abc"
* StringUtils.join(["a", "b", "c"], "", 0, 3) = "abc"
* StringUtils.join([null, "", "a"], ',', 0, 3) = ",,a"
*
*
* @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.
* @param endIndex the index to stop joining from (exclusive).
* @return the joined String, {@code null} if null array input; or the empty string
* if {@code endIndex - startIndex <= 0}. The number of joined entries is given by
* {@code endIndex - startIndex}
* @throws ArrayIndexOutOfBoundsException ife
* {@code startIndex < 0} or
* {@code startIndex >= array.length()} or
* {@code endIndex < 0} or
* {@code endIndex > array.length()}
*/
public static String join(final Object[] array, String separator, final int startIndex, final 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)
final int noOfItems = endIndex - startIndex;
if (noOfItems <= 0) {
return EMPTY;
}
final StringBuilder buf = new StringBuilder(noOfItems * 16);
for (int i = startIndex; i < endIndex; i++) {
if (i > startIndex) {
buf.append(separator);
}
if (array[i] != null) {
buf.append(array[i]);
}
}
return buf.toString();
}
/**
* Joins the elements of the provided {@code Iterator} into
* a single String containing the provided elements.
*
* No delimiter is added before or after the list. Null objects or empty
* strings within the iteration are represented by empty strings.
*
* See the examples here: {@link #join(Object[],char)}.
*
* @param iterator the {@code Iterator} of values to join together, may be null
* @param separator the separator character to use
* @return the joined String, {@code null} if null iterator input
* @since 2.0
*/
public static String join(final Iterator> iterator, final char separator) {
// handle null, zero and one elements before building a buffer
if (iterator == null) {
return null;
}
if (!iterator.hasNext()) {
return EMPTY;
}
final Object first = iterator.next();
if (!iterator.hasNext()) {
@SuppressWarnings( "deprecation" ) // ObjectUtils.toString(Object) has been deprecated in 3.2
final
String result = ObjectUtils.toString(first);
return result;
}
// two or more elements
final StringBuilder buf = new StringBuilder(256); // Java default is 16, probably too small
if (first != null) {
buf.append(first);
}
while (iterator.hasNext()) {
buf.append(separator);
final Object obj = iterator.next();
if (obj != null) {
buf.append(obj);
}
}
return buf.toString();
}
/**
* Joins the elements of the provided {@code Iterator} into
* a single String containing the provided elements.
*
* No delimiter is added before or after the list.
* A {@code null} separator is the same as an empty String ("").
*
* See the examples here: {@link #join(Object[],String)}.
*
* @param iterator the {@code Iterator} of values to join together, may be null
* @param separator the separator character to use, null treated as ""
* @return the joined String, {@code null} if null iterator input
*/
public static String join(final Iterator> iterator, final String separator) {
// handle null, zero and one elements before building a buffer
if (iterator == null) {
return null;
}
if (!iterator.hasNext()) {
return EMPTY;
}
final Object first = iterator.next();
if (!iterator.hasNext()) {
@SuppressWarnings( "deprecation" ) // ObjectUtils.toString(Object) has been deprecated in 3.2
final String result = ObjectUtils.toString(first);
return result;
}
// two or more elements
final StringBuilder buf = new StringBuilder(256); // Java default is 16, probably too small
if (first != null) {
buf.append(first);
}
while (iterator.hasNext()) {
if (separator != null) {
buf.append(separator);
}
final Object obj = iterator.next();
if (obj != null) {
buf.append(obj);
}
}
return buf.toString();
}
/**
* Joins the elements of the provided {@code Iterable} into
* a single String containing the provided elements.
*
* No delimiter is added before or after the list. Null objects or empty
* strings within the iteration are represented by empty strings.
*
* See the examples here: {@link #join(Object[],char)}.
*
* @param iterable the {@code Iterable} providing the values to join together, may be null
* @param separator the separator character to use
* @return the joined String, {@code null} if null iterator input
* @since 2.3
*/
public static String join(final Iterable> iterable, final char separator) {
if (iterable == null) {
return null;
}
return join(iterable.iterator(), separator);
}
/**
* Joins the elements of the provided {@code Iterable} into
* a single String containing the provided elements.
*
* No delimiter is added before or after the list.
* A {@code null} separator is the same as an empty String ("").
*
* See the examples here: {@link #join(Object[],String)}.
*
* @param iterable the {@code Iterable} providing the values to join together, may be null
* @param separator the separator character to use, null treated as ""
* @return the joined String, {@code null} if null iterator input
* @since 2.3
*/
public static String join(final Iterable> iterable, final String separator) {
if (iterable == null) {
return null;
}
return join(iterable.iterator(), separator);
}
/**
* Joins the elements of the provided varargs into a
* single String containing the provided elements.
*
* No delimiter is added before or after the list.
* {@code null} elements and separator are treated as empty Strings ("").
*
*
* StringUtils.joinWith(",", {"a", "b"}) = "a,b"
* StringUtils.joinWith(",", {"a", "b",""}) = "a,b,"
* StringUtils.joinWith(",", {"a", null, "b"}) = "a,,b"
* StringUtils.joinWith(null, {"a", "b"}) = "ab"
*
*
* @param separator the separator character to use, null treated as ""
* @param objects the varargs providing the values to join together. {@code null} elements are treated as ""
* @return the joined String.
* @throws java.lang.IllegalArgumentException if a null varargs is provided
* @since 3.5
*/
public static String joinWith(final String separator, final Object... objects) {
if (objects == null) {
throw new IllegalArgumentException("Object varargs must not be null");
}
final String sanitizedSeparator = defaultString(separator, StringUtils.EMPTY);
final StringBuilder result = new StringBuilder();
final Iterator