Find the last match with Java regex matcher

Java does not provide such a mechanism. The only thing I can suggest would be a binary search for the last index.

It would be something like this:

N = haystack.length();
if ( matcher.find(N/2) ) {
    recursively try right side
else
    recursively try left side

Edit

And here's code that does it since I found it to be an interesting problem:

import org.junit.Test;

import java.util.regex.Matcher;
import java.util.regex.Pattern;

import static org.junit.Assert.assertEquals;

public class RecursiveFind {
    @Test
    public void testFindLastIndexOf() {
        assertEquals(0, findLastIndexOf("abcdddddd", "abc"));
        assertEquals(1, findLastIndexOf("dabcdddddd", "abc"));
        assertEquals(4, findLastIndexOf("aaaaabc", "abc"));
        assertEquals(4, findLastIndexOf("aaaaabc", "a+b"));
        assertEquals(6, findLastIndexOf("aabcaaabc", "a+b"));
        assertEquals(2, findLastIndexOf("abcde", "c"));
        assertEquals(2, findLastIndexOf("abcdef", "c"));
        assertEquals(2, findLastIndexOf("abcd", "c"));
    }

    public static int findLastIndexOf(String haystack, String needle) {
        return findLastIndexOf(0, haystack.length(), Pattern.compile(needle).matcher(haystack));
    }

    private static int findLastIndexOf(int start, int end, Matcher m) {
        if ( start > end ) {
            return -1;
        }

        int pivot = ((end-start) / 2) + start;
        if ( m.find(pivot) ) {
            //recurse on right side
            return findLastIndexOfRecurse(end, m);
        } else if (m.find(start)) {
            //recurse on left side
            return findLastIndexOfRecurse(pivot, m);
        } else {
            //not found at all between start and end
            return -1;
        }
    }

    private static int findLastIndexOfRecurse(int end, Matcher m) {
        int foundIndex = m.start();
        int recurseIndex = findLastIndexOf(foundIndex + 1, end, m);
        if ( recurseIndex == -1 ) {
            return foundIndex;
        } else {
            return recurseIndex;
        }
    }

}

I haven't found a breaking test case yet.

To get the last match even this works and not sure why this was not mentioned earlier:

String in = "num 123 num 1 num 698 num 19238 num 2134";
Pattern p = Pattern.compile("num '([0-9]+) ");
Matcher m = p.matcher(in);
if (m.find()) {
  in= m.group(m.groupCount());
}

You could prepend .* to your regex, which will greedily consume all characters up to the last match:

import java.util.regex.*;

class Test {
  public static void main (String[] args) {
    String in = "num 123 num 1 num 698 num 19238 num 2134";
    Pattern p = Pattern.compile(".*num ([0-9]+)");
    Matcher m = p.matcher(in);
    if(m.find()) {
      System.out.println(m.group(1));
    }
  }
}

Prints:

2134

You could also reverse the string as well as change your regex to match the reverse instead:

import java.util.regex.*;

class Test {
  public static void main (String[] args) {
    String in = "num 123 num 1 num 698 num 19238 num 2134";
    Pattern p = Pattern.compile("([0-9]+) mun");
    Matcher m = p.matcher(new StringBuilder(in).reverse());
    if(m.find()) {
      System.out.println(new StringBuilder(m.group(1)).reverse());
    }
  }
}

But neither solution is better than just looping through all matches using while (m.find()), IMO.

Why not keep it simple?

in.replaceAll(".*[^\\d](\\d+).*", "$1")