I need to replace many different sub-string in a string in the most efficient way. is there another way other then the brute force way of replacing each field using string.replace ?

10 Answers 10

up vote 86 down vote accepted

If the string you are operating on is very long, or you are operating on many strings, then it could be worthwhile using a java.util.regex.Matcher (this requires time up-front to compile, so it won't be efficient if your input is very small or your search pattern changes frequently).

Below is a full example, based on a list of tokens taken from a map. (Uses StringUtils from Apache Commons Lang).

Map<String,String> tokens = new HashMap<String,String>();
tokens.put("cat", "Garfield");
tokens.put("beverage", "coffee");

String template = "%cat% really needs some %beverage%.";

// Create pattern of the format "%(cat|beverage)%"
String patternString = "%(" + StringUtils.join(tokens.keySet(), "|") + ")%";
Pattern pattern = Pattern.compile(patternString);
Matcher matcher = pattern.matcher(template);

StringBuffer sb = new StringBuffer();
while(matcher.find()) {
    matcher.appendReplacement(sb, tokens.get(matcher.group(1)));
}
matcher.appendTail(sb);

System.out.println(sb.toString());

Once the regular expression is compiled, scanning the input string is generally very quick (although if your regular expression is complex or involves backtracking then you would still need to benchmark in order to confirm this!)

  • 1
    Yes, needs to be benchmarked for the number of iterations though. – techzen Aug 25 '09 at 9:00
  • 3
    I think you should escape special characters in each token before doing "%(" + StringUtils.join(tokens.keySet(), "|") + ")%"; – Willmore Mar 19 '15 at 8:59
  • Note that one can use StringBuilder for a bit more speed. StringBuilder isn't synchronized. edit whoops only works with java 9 though – Tinus Tate Apr 26 at 18:34

Algorithm

One of the most efficient ways to replace matching strings (without regular expressions) is to use the Aho-Corasick algorithm with a performant Trie (pronounced "try"), fast hashing algorithm, and efficient collections implementation.

Simple Code

Perhaps the simplest code to write leverages Apache's StringUtils.replaceEach as follows:

  private String testStringUtils(
    final String text, final Map<String, String> definitions ) {
    final String[] keys = keys( definitions );
    final String[] values = values( definitions );

    return StringUtils.replaceEach( text, keys, values );
  }

This slows down on large texts.

Fast Code

Bor's implementation of the Aho-Corasick algorithm introduces a bit more complexity that becomes an implementation detail by using a façade with the same method signature:

  private String testBorAhoCorasick(
    final String text, final Map<String, String> definitions ) {
    // Create a buffer sufficiently large that re-allocations are minimized.
    final StringBuilder sb = new StringBuilder( text.length() << 1 );

    final TrieBuilder builder = Trie.builder();
    builder.onlyWholeWords();
    builder.removeOverlaps();

    final String[] keys = keys( definitions );

    for( final String key : keys ) {
      builder.addKeyword( key );
    }

    final Trie trie = builder.build();
    final Collection<Emit> emits = trie.parseText( text );

    int prevIndex = 0;

    for( final Emit emit : emits ) {
      final int matchIndex = emit.getStart();

      sb.append( text.substring( prevIndex, matchIndex ) );
      sb.append( definitions.get( emit.getKeyword() ) );
      prevIndex = emit.getEnd() + 1;
    }

    // Add the remainder of the string (contains no more matches).
    sb.append( text.substring( prevIndex ) );

    return sb.toString();
  }

Benchmarks

For the benchmarks, the buffer was created using randomNumeric as follows:

  private final static int TEXT_SIZE = 1000;
  private final static int MATCHES_DIVISOR = 10;

  private final static StringBuilder SOURCE
    = new StringBuilder( randomNumeric( TEXT_SIZE ) );

Where MATCHES_DIVISOR dictates the number of variables to inject:

  private void injectVariables( final Map<String, String> definitions ) {
    for( int i = (SOURCE.length() / MATCHES_DIVISOR) + 1; i > 0; i-- ) {
      final int r = current().nextInt( 1, SOURCE.length() );
      SOURCE.insert( r, randomKey( definitions ) );
    }
  }

The benchmark code itself (JMH seemed overkill):

long duration = System.nanoTime();
final String result = testBorAhoCorasick( text, definitions );
duration = System.nanoTime() - duration;
System.out.println( elapsed( duration ) );

1,000,000 : 1,000

A simple micro-benchmark with 1,000,000 characters and 1,000 randomly-placed strings to replace.

  • testStringUtils: 25 seconds, 25533 millis
  • testBorAhoCorasick: 0 seconds, 68 millis

No contest.

10,000 : 1,000

Using 10,000 characters and 1,000 matching strings to replace:

  • testStringUtils: 1 seconds, 1402 millis
  • testBorAhoCorasick: 0 seconds, 37 millis

The divide closes.

1,000 : 10

Using 1,000 characters and 10 matching strings to replace:

  • testStringUtils: 0 seconds, 7 millis
  • testBorAhoCorasick: 0 seconds, 19 millis

For short strings, the overhead of setting up Aho-Corasick eclipses the brute-force approach by StringUtils.replaceEach.

A hybrid approach based on text length is possible, to get the best of both implementations.

Implementations

Consider comparing other implementations for text longer than 1 MB, including:

Papers

Papers and information relating to the algorithm:

  • 5
    Kudos for updating this question with new valuable information, that's very nice. I think a JMH benchmark is still appropriate, at least for reasonable values like 10,000 : 1,000 and 1,000 : 10 (the JIT can do magic optimizations sometimes). – Tunaki Nov 28 '16 at 18:22

If you are going to be changing a String many times, then it is usually more efficient to use a StringBuilder (but measure your performance to find out):

String str = "The rain in Spain falls mainly on the plain";
StringBuilder sb = new StringBuilder(str);
// do your replacing in sb - although you'll find this trickier than simply using String
String newStr = sb.toString();

Every time you do a replace on a String, a new String object is created, because Strings are immutable. StringBuilder is mutable, that is, it can be changed as much as you want.

StringBuilder will perform replace more efficiently, since its character array buffer can be specified to a required length.StringBuilder is designed for more than appending!

Of course the real question is whether this is an optimisation too far ? The JVM is very good at handling creation of multiple objects and the subsequent garbage collection, and like all optimisation questions, my first question is whether you've measured this and determined that it's a problem.

How about using the replaceAll() method?

  • 9
    The OP says "many different sub-strings" – Steve McLeod Aug 25 '09 at 8:01
  • 4
    Many different substrings can be handled in a regex (/substring1|substring2|.../). It all depends on what kind of replacement the OP is trying to do. – Avi Aug 25 '09 at 9:50
  • 3
    The OP is looking for something more efficient than str.replaceAll(search1, replace1).replaceAll(search2, replace2).replaceAll(search3, replace3).replaceAll(search4, replace4) – Kip Oct 5 '16 at 14:08

Rythm a java template engine now released with an new feature called String interpolation mode which allows you do something like:

String result = Rythm.render("@name is inviting you", "Diana");

The above case shows you can pass argument to template by position. Rythm also allows you to pass arguments by name:

Map<String, Object> args = new HashMap<String, Object>();
args.put("title", "Mr.");
args.put("name", "John");
String result = Rythm.render("Hello @title @name", args);

Note Rythm is VERY FAST, about 2 to 3 times faster than String.format and velocity, because it compiles the template into java byte code, the runtime performance is very close to concatentation with StringBuilder.

Links:

  • This is very very old capability available with numerous templating languages like velocity, JSP even. Also it doesn't answer the question which doesn't require the search strings to be in any pre-defined format. – Angsuman Chakraborty Aug 10 '16 at 10:31
  • Interesting, the accepted answer provides an example: "%cat% really needs some %beverage%."; , isn't that % separated token a pre-defined format? Your first point is even more funny, JDK provides a lots of "old capabilities", some of them starts from 90's, why people bother using them? Your comments and downvoting does not make any real sense – Gelin Luo Aug 11 '16 at 8:06
  • What is the point of introducing Rythm template engine when there are already many pre-existing template engines, and widely used like Velocity or Freemarker to boot? Also why introduce another product when core Java functionalities more than suffice. I really doubt your statement on performance because Pattern can also be compiled. Would love to see some real numbers. – Angsuman Chakraborty Aug 12 '16 at 5:32
  • Green, You are missing the point. The questioner wants to replace arbitrary strings whereas your solution will replace only strings in predefined format like @ preceded. Yes, the example uses % but only as an example, not as a limiting factor. So you answer does not answer the question and hence the negative point. – Angsuman Chakraborty Aug 12 '16 at 5:34

Check this:

String.format(str,STR[])

...

For example:

String.format( "Put your %s where your %s is", "money", "mouth" );

public String replace(String input, Map<String, String> pairs) {
  // Reverse lexic-order of keys is good enough for most cases,
  // as it puts longer words before their prefixes ("tool" before "too").
  // However, there are corner cases, which this algorithm doesn't handle
  // no matter what order of keys you choose, eg. it fails to match "edit"
  // before "bed" in "..bedit.." because "bed" appears first in the input,
  // but "edit" may be the desired longer match. Depends which you prefer.
  final Map<String, String> sorted = 
      new TreeMap<String, String>(Collections.reverseOrder());
  sorted.putAll(pairs);
  final String[] keys = sorted.keySet().toArray(new String[sorted.size()]);
  final String[] vals = sorted.values().toArray(new String[sorted.size()]);
  final int lo = 0, hi = input.length();
  final StringBuilder result = new StringBuilder();
  int s = lo;
  for (int i = s; i < hi; i++) {
    for (int p = 0; p < keys.length; p++) {
      if (input.regionMatches(i, keys[p], 0, keys[p].length())) {
        /* TODO: check for "edit", if this is "bed" in "..bedit.." case,
         * i.e. look ahead for all prioritized/longer keys starting within
         * the current match region; iff found, then ignore match ("bed")
         * and continue search (find "edit" later), else handle match. */
        // if (better-match-overlaps-right-ahead)
        //   continue;
        result.append(input, s, i).append(vals[p]);
        i += keys[p].length();
        s = i--;
      }
    }
  }
  if (s == lo) // no matches? no changes!
    return input;
  return result.append(input, s, hi).toString();
}

The below is based on Todd Owen's answer. That solution has the problem that if the replacements contain characters that have special meaning in regular expressions, you can get unexpected results. I also wanted to be able to optionally do a case-insensitive search. Here is what I came up with:

/**
 * Performs simultaneous search/replace of multiple strings. Case Sensitive!
 */
public String replaceMultiple(String target, Map<String, String> replacements) {
  return replaceMultiple(target, replacements, true);
}

/**
 * Performs simultaneous search/replace of multiple strings.
 * 
 * @param target        string to perform replacements on.
 * @param replacements  map where key represents value to search for, and value represents replacem
 * @param caseSensitive whether or not the search is case-sensitive.
 * @return replaced string
 */
public String replaceMultiple(String target, Map<String, String> replacements, boolean caseSensitive) {
  if(target == null || "".equals(target) || replacements == null || replacements.size() == 0)
    return target;

  //if we are doing case-insensitive replacements, we need to make the map case-insensitive--make a new map with all-lower-case keys
  if(!caseSensitive) {
    Map<String, String> altReplacements = new HashMap<String, String>(replacements.size());
    for(String key : replacements.keySet())
      altReplacements.put(key.toLowerCase(), replacements.get(key));

    replacements = altReplacements;
  }

  StringBuilder patternString = new StringBuilder();
  if(!caseSensitive)
    patternString.append("(?i)");

  patternString.append('(');
  boolean first = true;
  for(String key : replacements.keySet()) {
    if(first)
      first = false;
    else
      patternString.append('|');

    patternString.append(Pattern.quote(key));
  }
  patternString.append(')');

  Pattern pattern = Pattern.compile(patternString.toString());
  Matcher matcher = pattern.matcher(target);

  StringBuffer res = new StringBuffer();
  while(matcher.find()) {
    String match = matcher.group(1);
    if(!caseSensitive)
      match = match.toLowerCase();
    matcher.appendReplacement(res, replacements.get(match));
  }
  matcher.appendTail(res);

  return res.toString();
}

Here are my unit test cases:

@Test
public void replaceMultipleTest() {
  assertNull(ExtStringUtils.replaceMultiple(null, null));
  assertNull(ExtStringUtils.replaceMultiple(null, Collections.<String, String>emptyMap()));
  assertEquals("", ExtStringUtils.replaceMultiple("", null));
  assertEquals("", ExtStringUtils.replaceMultiple("", Collections.<String, String>emptyMap()));

  assertEquals("folks, we are not sane anymore. with me, i promise you, we will burn in flames", ExtStringUtils.replaceMultiple("folks, we are not winning anymore. with me, i promise you, we will win big league", makeMap("win big league", "burn in flames", "winning", "sane")));

  assertEquals("bcaacbbcaacb", ExtStringUtils.replaceMultiple("abccbaabccba", makeMap("a", "b", "b", "c", "c", "a")));
  assertEquals("bcaCBAbcCCBb", ExtStringUtils.replaceMultiple("abcCBAabCCBa", makeMap("a", "b", "b", "c", "c", "a")));
  assertEquals("bcaacbbcaacb", ExtStringUtils.replaceMultiple("abcCBAabCCBa", makeMap("a", "b", "b", "c", "c", "a"), false));

  assertEquals("c colon  backslash temp backslash  star  dot  star ", ExtStringUtils.replaceMultiple("c:\\temp\\*.*", makeMap(".", " dot ", ":", " colon ", "\\", " backslash ", "*", " star "), false));
}

private Map<String, String> makeMap(String ... vals) {
  Map<String, String> map = new HashMap<String, String>(vals.length / 2);
  for(int i = 1; i < vals.length; i+= 2)
    map.put(vals[i-1], vals[i]);
  return map;
}

This worked for me:

String result = input.replaceAll("string1|string2|string3","replacementString");

Example:

String input = "applemangobananaarefriuits";
String result = input.replaceAll("mango|are|ts","-");
System.out.println(result);

Output: apple-banana-friui-

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