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Say I have 2 strings,

String s1 = "AbBaCca";
String s2 = "bac";

I want to preform a check returning that s2 is contained within s1. I can do this with:

return s1.contains(s2);

I am pretty sure that contains() is case sensitive, however I can't determine this for sure from reading the documentation. If it is then I suppose my best method would be something like:

return s1.toLowerCase().contains(s2.toLowerCase());

All this aside, does anyone know of another (possibly better) way to accomplish this without caring about case-sensitivity?

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I think you've answered your own question. I don't think any of the solutions below are better than this. But they are definitely slower. –  gubble Oct 16 at 16:16

13 Answers 13

up vote 125 down vote accepted

Yes, contains is case sensitive. You can use java.util.regex.Pattern with the CASE_INSENSITIVE flag for case insensitive matching:

Pattern.compile(Pattern.quote(s2), Pattern.CASE_INSENSITIVE).matcher(s1).find();

EDIT: If s2 contains regex special characters (of which there are many) it's important to quote it first. I've corrected my answer since it is the first one people will see, but vote up Matt Quail's since he pointed this out.

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12  
As stated by the documentation for Pattern.CASE_INSENSITIVE, this works only for ASCII characters (i.e., "Ä" won't match "ä"). One needs to additionally specify the UNICODE_CASE flag to achive that. –  Philipp Wendler May 15 '12 at 14:49
23  
is this approach using Pattern more performant than s1.toLowerCase().contains(s2.toLowerCase()) ? –  user01 Aug 9 '12 at 10:24
    
The first try it doesnt work then I changed s2 <-> s1 , it works. –  Günay Gültekin Apr 8 '13 at 20:17
1  
@GünayGültekin That is odd. The code as given returns true and appears correct but if I switch s2 and s1, then it returns false. Could you have your definitions mixed up? –  Dave L. Apr 9 '13 at 17:01
    
Thanks @DaveL. you are correct. –  Günay Gültekin Apr 21 '13 at 10:57

One problem with the answer by Dave L. is when s2 contains regex markup such as \d etc.

You want to call Pattern.quote() on s2:

Pattern.compile(Pattern.quote(s2), Pattern.CASE_INSENSITIVE).matcher(s1).find();
share|improve this answer
    
Nice catch Matt. I'm curious to know what method is more efficient - the lowercase contains, or your pattern solution. Isn't using a pattern less efficient for a single comparison, but more efficient for multiple comparisons? –  Aaron Ferguson Sep 18 '08 at 16:55
22  
The .toLowerCase().contains() method will probably be faster in most cases. I would probably prefer that style for lower complexity, too. –  Matt Quail Sep 19 '08 at 0:09
    
@AaronFerguson Yes, indeed, toLowerCase().contains() is faster. I performed some speed analysis, see my answer for results: stackoverflow.com/a/25379180/1705598 –  icza Aug 19 at 9:16

You can use

org.apache.commons.lang3.StringUtils.containsIgnoreCase("AbBaCca", "bac");

apache commons lib is very useful for this sort of things. And this particular one may be better than regular expressions as regex is always expensive in terms of performance.

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Good Call! Going to use this because it's already done. –  Kevin Jul 25 '12 at 15:09
    
Does anybody know if this respects locale? –  Charles Wood Mar 11 at 18:33
    
@CharlesWood It delegates to String.regionMatches, which uses character-wise conversions, so no. Moreover, containsIgnoreCase("ß", "ss") returns -1, which is wrong in every locale (the German "sharp s" capitalizes to "ss". –  maaartinus Oct 3 at 14:16

Yes this is achievable, I just did it for a school assignment actually.

String s1 = "abBaCca";
String s2 = "bac";

String s1Lower = s1;

//s1Lower is exact same string, now convert it to lowercase, I left the s1 intact for print purposes if needed

s1Lower = s1Lower.toLowerCase();

if (s1Lower.contains(s2)) {

    //THIS statement will be TRUE
    String trueStatement = "TRUE!"
}

return trueStatement;

This code will return the String "TRUE!" as it found that your characters were contained.

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9  
A big drawback of using toLowerCase() is that the outcome depends on the current Locale. See: javapapers.com/core-java/… –  Adriaan Koster Apr 21 '11 at 13:41
1  
The question already contains this solution –  Narendra Pathai Aug 6 '13 at 8:30
    
The question actually contains a better solution as this one fails for non-lowercase s2. Not speaking about such details like that this one doesn't compile and if it did, it'd return a string. –  maaartinus Oct 3 at 14:19

A Faster Implementation: Utilizing String.regionMatches()

Using regexp can be relatively slow. It (being slow) doesn't matter if you just want to check in one case. But if you have an array or a collection of thousands or hundreds of thousands of strings, things can get pretty slow.

I show a solution which doesn't use regular expressions nor toLowerCase() (which is also slow because it creates another strings and just throws them away after the check).

The solution builds on the String.regionMatches() method which seems to be unknown. It checks if 2 String regions match, but what's important is that it also has an overload with a handy ignoreCase parameter.

public static boolean containsIgnoreCase(String src, String what) {
    final int length = what.length();
    if (length == 0)
        return true; // Empty string is contained

    final char firstLo = Character.toLowerCase(what.charAt(0));
    final char firstUp = Character.toUpperCase(what.charAt(0));

    for (int i = src.length() - length; i >= 0; i--) {
        // Quick check before calling the more expensive regionMatches() method:
        final char ch = src.charAt(i);
        if (ch != firstLo && ch != firstUp)
            continue;

        if (src.regionMatches(true, i, what, 0, length))
            return true;
    }

    return false;
}

Speed Analysis

I compare 5 methods.

  1. My containsIgnoreCase() method.
  2. By converting both strings to lower-case and call String.contains().
  3. By converting source string to lower-case and call String.contains() with the pre-cached, lower-cased substring. This solution is already not as flexible because in tests a predefiend substring.
  4. Using regular expression (the accepted answer Pattern.compile().matcher().find()...)
  5. Using regular expression but with pre-created and cached Pattern. This solution is already not as flexible because in tests a predefined substring.

Results (by calling the method 10 million times):

  1. My method: 670 ms
  2. 2x toLowerCase() and contains(): 2829 ms
  3. 1x toLowerCase() and contains() with cached substring: 2446 ms
  4. Regexp: 7180 ms
  5. Regexp with cached Pattern: 1845 ms

Results in a table:

                                            RELATIVE SPEED   1/RELATIVE SPEED
 METHOD                          EXEC TIME    TO SLOWEST      TO FASTEST (#1)
------------------------------------------------------------------------------
 1. Using regionMatches()          670 ms       10.7x            1.0x
 2. 2x lowercase+contains         2829 ms        2.5x            4.2x
 3. 1x lowercase+contains cache   2446 ms        2.9x            3.7x
 4. Regexp                        7180 ms        1.0x           10.7x
 5. Regexp+cached pattern         1845 ms        3.9x            2.8x

My method is 4x faster compared to lowercasing and using contains(), 10x faster compared to using regular expressions and also 3x faster even if the Pattern is pre-cached (and losing flexibility of checking for an arbitrary substring).


Analysis Test Code

If you're interested how the analysis was performed, here is the complete runnable application:

import java.util.regex.Pattern;

public class ContainsAnalysis {

    // Case 1 utilizing String.regionMatches()
    public static boolean containsIgnoreCase(String src, String what) {
        final int length = what.length();
        if (length == 0)
            return true; // Empty string is contained

        final char firstLo = Character.toLowerCase(what.charAt(0));
        final char firstUp = Character.toUpperCase(what.charAt(0));

        for (int i = src.length() - length; i >= 0; i--) {
            // Quick check before calling the more expensive regionMatches()
            // method:
            final char ch = src.charAt(i);
            if (ch != firstLo && ch != firstUp)
                continue;

            if (src.regionMatches(true, i, what, 0, length))
                return true;
        }

        return false;
    }

    // Case 2 with 2x toLowerCase() and contains()
    public static boolean containsConverting(String src, String what) {
        return src.toLowerCase().contains(what.toLowerCase());
    }

    // The cached substring for case 3
    private static final String S = "i am".toLowerCase();

    // Case 3 with pre-cached substring and 1x toLowerCase() and contains()
    public static boolean containsConverting(String src) {
        return src.toLowerCase().contains(S);
    }

    // Case 4 with regexp
    public static boolean containsIgnoreCaseRegexp(String src, String what) {
        return Pattern.compile(Pattern.quote(what), Pattern.CASE_INSENSITIVE)
                    .matcher(src).find();
    }

    // The cached pattern for case 5
    private static final Pattern P = Pattern.compile(
            Pattern.quote("i am"), Pattern.CASE_INSENSITIVE);

    // Case 5 with pre-cached Pattern
    public static boolean containsIgnoreCaseRegexp(String src) {
        return P.matcher(src).find();
    }

    // Main method: perfroms speed analysis on different contains methods
    // (case ignored)
    public static void main(String[] args) throws Exception {
        final String src = "Hi, I am Adam";
        final String what = "i am";

        long start, end;
        final int N = 10_000_000;

        start = System.nanoTime();
        for (int i = 0; i < N; i++)
            containsIgnoreCase(src, what);
        end = System.nanoTime();
        System.out.println("Case 1 took " + ((end - start) / 1000000) + "ms");

        start = System.nanoTime();
        for (int i = 0; i < N; i++)
            containsConverting(src, what);
        end = System.nanoTime();
        System.out.println("Case 2 took " + ((end - start) / 1000000) + "ms");

        start = System.nanoTime();
        for (int i = 0; i < N; i++)
            containsConverting(src);
        end = System.nanoTime();
        System.out.println("Case 3 took " + ((end - start) / 1000000) + "ms");

        start = System.nanoTime();
        for (int i = 0; i < N; i++)
            containsIgnoreCaseRegexp(src, what);
        end = System.nanoTime();
        System.out.println("Case 4 took " + ((end - start) / 1000000) + "ms");

        start = System.nanoTime();
        for (int i = 0; i < N; i++)
            containsIgnoreCaseRegexp(src);
        end = System.nanoTime();
        System.out.println("Case 5 took " + ((end - start) / 1000000) + "ms");
    }

}
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1  
+1 but note that it fails for ß (German sharp S; capitalizes to SS) and also for some other characters (see the source of String.regionMatches, which tries both conversions). –  maaartinus Oct 3 at 14:25
1  
Your always tests the same strings, which is not really a fair comparison. 'i am' is always in the middle, which might or might not make a difference for the different search methods. Better would be to generate random strings and also report on the speed when a substring is not present. –  Werner Van Belle Oct 12 at 14:11
    
That seems really close to Apache StringUtils method : grepcode.com/file/repo1.maven.org/maven2/org.apache.commons/… –  alain.janinm Nov 25 at 8:18
    
@alain.janinm I fail to see the similarities. The only thing that seems "close" with StringUtils.containsIgnoreCase() is that both my solution and the Apache one use a regionMatches() method (in a cycle), but even that is not the same as I call String.regionMatches() and Apache calls CharSequenceUtils.regionMatches(). –  icza Nov 25 at 8:32
    
@icza CharSequenceUtils.regionMatches just calls String.regionMatches actually. Anyway, my point was to give the info, that if someone is already using StringUtils lib he can just call it because it seems to be an efficient way like you prove it with you benchmark. If I was not using Apache lib, I would definitively use your method ;) –  alain.janinm Nov 25 at 11:19

A simpler way of doing this (without worrying about pattern matching) would be converting both Strings to lowercase:

String foobar = "fooBar";
String bar = "FOO";
if (foobar.toLowerCase().contains(bar.toLowerCase()) {
    System.out.println("It's a match!");
}
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2  
Character case is language dependent, which means it will work on your computer but will fail for the customer :). see @Adriaan Koster comment. –  kroiz Jul 22 '12 at 6:26
1  
@kroiz, that depends where the String came from. Comparing "foobar" and "FOO" will always match, however if you are comparing user-input information, or language-specific content, then you are right - a developer should be cautious. –  Phil Jul 23 '12 at 13:28

DrJava would be an extremely easy way to test this when the documentation fails you. Just type a couple of test cases into its Interactions window, and you should find out.

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Thanks, I'll have to check it out - I'd never heard of it before now. –  Aaron Ferguson Sep 17 '08 at 19:56

You can use regular exp. and its works.

boolean found = s1.matches("(?i).*" + s2+ ".*");
share|improve this answer

I'm not sure what your main question is here, but yes, .contains is case sensitive.

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I did a test finding a case insensitive match of a string. I have a Vector of 150,000 objects all with a String as one field, and wanted to find the subset which matched a string. I tried three methods:

a) Convert all to lower case

for (SongInformation song: songs) {
if (song.artist.toLowerCase().indexOf(pattern.toLowercase() > -1) {
        ...
    }
}

b) use the String matches() method

for (SongInformation song: songs) {
    if (song.artist.matches("(?i).*" + pattern + ".*")) {
    ...
    }
}

c) Use regex

Pattern p = Pattern.compile(pattern, Pattern.CASE_INSENSITIVE);
Matcher m = p.matcher("");
for (SongInformation song: songs) {
    m.reset(song.artist);
    if (m.find()) {
    ...
    }
}

Timing results are

No attempted match: 20 msecs

To lower match: 182 msecs

String matches: 278 msecs

Regex: 65 msecs

Regex looks to be the fastest for this use case

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String container = " Case SeNsitive ";
String sub = "sen";
if(rcontains(container,sub)){
System.out.println("no case");  
}

public static Boolean rcontains(String container, String sub ){
Boolean b= false ;
for (int a =0;a<container.length()-sub.length()+1;a++){
//System.out.println( sub +" to "+container.substring(a, a+sub.length()));
if( sub.equalsIgnoreCase(container.substring(a, a+sub.length()))){
    b=true;

}
}

return b;

basically it is a method that takes two strings. it is suppose to be a not case sensitive version of contains(). when using the contains method, you want to see if one string is contained in the other. this method takes the string that is "sub" and check if it is equal to sub strings of the container string, that are equal in length to the "sub" . if you look at the for loop you will see that it iterates in sub strings( that are the length of the "sub") over the container string. each iterations checks to see if the sub string of the container string is equalsignorecase to the sub

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Would you mind explaining this code? –  The Guy with The Elf Hat Feb 8 at 0:40
    
basically it is a method that takes two strings. it is suppose to be a not case sensitive version of contains(). when using the contains method, you want to see if one string is contained in the other. this method takes the string that is "sub" and check if it is equal to sub strings of the container string, that are equal in length to the "sub" . if you look at the for loop you will see that it iterates in sub strings( that are the length of the "sub") over the container string. each iterations checks to see if the sub string of the container string is equalsignorecase to the sub. –  seth Feb 11 at 18:10
    
@You should probably add that to your answer. –  The Guy with The Elf Hat Feb 11 at 19:33
    
This is the slowest method ever... and also fails for German. –  maaartinus Oct 3 at 14:28

Here's some Unicode-friendly ones you can make if you pull in ICU4j. I guess "ignore case" is questionable for the method names because although primary strength comparisons do ignore case, it's described as the specifics being locale-dependent. But it's hopefully locale-dependent in a way the user would expect.

public static boolean containsIgnoreCase(String haystack, String needle) {
    return indexOfIgnoreCase(haystack, needle) >= 0;
}

public static int indexOfIgnoreCase(String haystack, String needle) {
    StringSearch stringSearch = new StringSearch(needle, haystack);
    stringSearch.getCollator().setStrength(Collator.PRIMARY);
    return stringSearch.first();
}
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String x="abCd";
System.out.println(Pattern.compile("c",Pattern.CASE_INSENSITIVE).matcher(x).find());
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2  
This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post - you can always comment on your own posts, and once you have sufficient reputation you will be able to comment on any post. –  Martin Thurau Dec 3 '12 at 12:25

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