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What are the design decisions behind Matcher's API?


Matcher has a behaviour that I didn't expect and for which I can't find a good reason. The API documentation says:

Once created, a matcher can be used to perform three different kinds of match operations: [...] Each of these methods returns a boolean indicating success or failure. More information about a successful match can be obtained by querying the state of the matcher.

What the API documentation further says is:

The explicit state of a matcher is initially undefined; attempting to query any part of it before a successful match will cause an IllegalStateException to be thrown.


String s = "foo=23,bar=42";
Pattern p = Pattern.compile("foo=(?<foo>[0-9]*),bar=(?<bar>[0-9]*)");
Matcher matcher = p.matcher(s);
System.out.println("foo")); // (1)

This code throws a

java.lang.IllegalStateException: No match found

at (1). To get around this, it is necessary to call matches() or other methods that bring the Matcher into a state that allows group(). The following works:

String s = "foo=23,bar=42";
Pattern p = Pattern.compile("foo=(?<foo>[0-9]*),bar=(?<bar>[0-9]*)");
Matcher matcher = p.matcher(s);
matcher.matches(); // (2)

Adding the call to matches() at (2) sets the Matcher into the proper state to call group().

Question, probably not constructive

Why is this API designed like this? Why not automatically match when the Matcher is build with Patter.matcher(String)?

share|improve this question
Interesting. Even weeks after question, answers, and bounty are settled, people thing this question is worth a downvote. –  user647772 Nov 6 '12 at 21:11
I find this to be bad API design - somewhat equivalent to requiring a sort of 'initialize()' after construction. There are legitimate situations that you can get into where you know a given Matcher already matches the given string. –  Ben Aug 6 '14 at 18:41

6 Answers 6

up vote 10 down vote accepted

Actually, you misunderstood the documentation. Take a 2nd look at the statement you quoted: -

attempting to query any part of it before a successful match will cause an IllegalStateException to be thrown.

A matcher may throw IllegalStateException on accessing if no match was found.

So, you need to use following test, to actually initiate the matching process: -

 - matcher.matches() //Or
 - matcher.find()

The below code: -

Matcher matcher = pattern.matcher();  

Just creates a matcher instance. This will not actually match a string. Even if there was a successful match. So, you need to check the following condition, to check for successful matches: -

if (matcher.matches()) {
    // Then use ``

And if the condition in the if returns false, that means nothing was matched. So, if you use without checking this condition, you will get IllegalStateException if the match was not found.

Suppose, if Matcher was designed the way you are saying, then you would have to do a null check to check whether a match was found or not, to call, like this: -

The way you think should have been done:-

// Suppose this returned the matched string
Matcher matcher = pattern.matcher(s);  

// Need to check whether there was actually a match
if (matcher != null) {  // Prints only the first match


But, what if, you want to print any further matches, since a pattern can be matched multiple times in a String, for that, there should be a way to tell the matcher to find the next match. But the null check would not be able to do that. For that you would have to move your matcher forward to match the next String. So, there are various methods defined in Matcher class to serve the purpose. The matcher.find() method matches the String till all the matches is found.

There are other methods also, that match the string in a different way, that depends on you how you want to match. So its ultimately on Matcher class to do the matching against the string. Pattern class just creates a pattern to match against. If the Pattern.matcher() were to match the pattern, then there has to be some way to define various ways to match, as matching can be in different ways. So, there comes the need of Matcher class.

So, the way it actually is: -

Matcher matcher = pattern.matcher(s);

   // Finds all the matches until found by moving the `matcher` forward
while(matcher.find()) {

So, if there are 4 matches found in the string, your first way, would print only the first one, while the 2nd way will print all the matches, by moving the matcher forward to match the next pattern.

I Hope that makes it clear.

The documentation of Matcher class describes the use of the three methods it provides, which says: -

A matcher is created from a pattern by invoking the pattern's matcher method. Once created, a matcher can be used to perform three different kinds of match operations:

  • The matches method attempts to match the entire input sequence against the pattern.

  • The lookingAt method attempts to match the input sequence, starting at the beginning, against the pattern.

  • The find method scans the input sequence looking for the next subsequence that matches the pattern.

Unfortunately, I have not been able find any other official sources, saying explicitly Why and How of this issue.

share|improve this answer
Yes, that's what the documentation says. I know that. My (not constructive) question is: Why is this API designed like this? –  user647772 Oct 16 '12 at 9:34
@Tichodroma That's a question that's hard to give an objective answer to. There are always multiple ways to design something. Only the person who invented this can explain why he or she chose this solution. –  Jesper Oct 16 '12 at 9:36
@Tichodroma This is because, until you match a pattern with certain string. It will not contain any data that matched. Its simple: - You cannot access a string that has not been matched yet. –  Rohit Jain Oct 16 '12 at 9:37
@Tichodroma Basically, tries returns the match that was found in the current string. But you have to initiate the match operation. That is what matcher.matches() does. –  Rohit Jain Oct 16 '12 at 9:38
@Tichodroma. Did you understand? Or you are still confused. You cannot get a string that was not matched by a pattern. As simple as that. –  Rohit Jain Oct 16 '12 at 9:43

My answer is very similar to Rohit Jain's but includes some reasons why the 'extra' step is necessary.

java.util.regex implementation

The line:

Pattern p = Pattern.compile("foo=(?<foo>[0-9]*),bar=(?<bar>[0-9]*)");

causes a new Pattern object to be allocated, and it internally stores a structure representing the RE - information such as a choice of characters, groups, sequences, greedy vs. non-greedy, repeats and so on.

This pattern is stateless and immutable, so it can be reused, is multi-theadable and optimizes well.

The lines:

String s = "foo=23,bar=42";
Matcher matcher = p.matcher(s);

returns a new Matcher object for the Pattern and String - one that has not yet read the String. Matcher is really just a state machine's state, where the state machine is the Pattern.

The matching can be run by stepping the state machine through the matching process using the following API:

  • lookingAt(): Attempts to match the input sequence, starting at the beginning, against the pattern
  • find(): Scans the input sequence looking for the next subsequence that matches the pattern.

In both cases, the intermediate state can be read using the start(), end(), and group() methods.

Benefits of this approach

Why would anyone want to do step through the parsing?

  1. Get values from groups that have quantification greater than 1 (i.e. groups that repeat and end up matching more than once). For example in the trivial RE below that parses variable assignments:

    Pattern p = new Pattern("([a-z]=([0-9]+);)+");
    Matcher m = p.matcher("a=1;b=2;x=3;");
    System.out.println(; // Only matches value for x ('3') - not the other values

    See the section on "Group name" in "Groups and capturing" the JavaDoc on Pattern

  2. The developer can use the RE as a lexer and the developer can bind the lexed tokens to a parser. In practice, this would work for simple domain languages, but regular expressions are probably not the way to go for a full-blown computer language. EDIT This is partly related to the previous reason, but it can frequently be easier and more efficient to create the parse tree processing the text than lexing all the input first.
  3. (For the brave-hearted) you can debug REs and find out which subsequence is failing to match (or incorrectly matching).

However, on most occasions you do not need to step the state machine through the matching, so there is a convenience method (matches) which runs the pattern matching to completion.

share|improve this answer

My guess is the design decision was based on having queries that had clear, well defined semantics that didn't conflate existence with match properties.

Consider this: what would you expect Matcher queries to return if the matcher has not successfully matched something?

Let's first consider group(). If we haven't successfully matched something, Matcher shouldn't return the empty string, as it hasn't matched the empty string. We could return null at this point.

Ok, now let's consider start() and end(). Each return int. What int value would be valid in this case? Certainly no positive number. What negative number would be appropriate? -1?

Given all this, a user is still going to have to check return values for every query to verify if a match occurred or not. Alternatively, you could check to see if it matches successfully outright, and if successful, the query semantics all have well-defined meaning. If not, the user gets consistent behaviour no matter which angle is queried.

I'll grant that re-using IllegalStateException may not have resulted in the best description of the error condition. But if we were to rename/subclass IllegalStateException to NoSuccessfulMatchException, one should be able to appreciate how the current design enforces query consistency and encourages the user to use queries that have semantics that are known to be defined at the time of asking.

TL;DR: What is value of asking the specific cause of death of a living organism?

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If a matcher would automatically match the input string, that would be wasted effort in case you wish to find the pattern.

A matcher can be used to check if the pattern matches() the input string, and it can be used to find() the pattern in the input string (even repeatedly to find all matching substrings). Until you call one of these two methods, the matcher does not know what test you want to perform, so it cannot give you any matched groups. Even if you do call one of these methods, the call may fail - the pattern is not found - and in that case a call to group must fail as well.

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This is expected and documented.

The reason is that .matches() returns a boolean indicating if there was a match. If there was a match, then you can call .group(...) meaningfully. Otherwise, if there's no match, a call to .group(...) makes no sense. Therefore, you should not be allowed to call .group(...) before calling matches().

The correct way to use a matcher is something like the following:

Matcher m = p.matcher(s);
if (m.matches()) {
share|improve this answer

You need to check the return value of matcher.matches(). It will return true when a match was found, false otherwise.

if (matcher.matches()) {

If matcher.matches() does not find a match and you call, you'll still get an IllegalStateException. That's exactly what the documentation says:

The explicit state of a matcher is initially undefined; attempting to query any part of it before a successful match will cause an IllegalStateException to be thrown.

When matcher.match() returns false, no successful match has been found and it doesn't make a lot of sense to get information on the match by calling for example group().

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