## 1. Defining the problem

Since it is not clear what to output when the whole string does not match pattern `K*`

, I will redefine the problem to make it clear what to output in such case.

Given any pattern K:

- Check that the string has the pattern
`K*`

.
- If the string has pattern
`K*`

, then split the string into non-overlapping tokens that matches `K`

.
- If the string only has prefix that matches pattern
`K*`

, then pick the prefix that is chosen by `K*+`

^{1}, and split the prefix into tokens that matches K.

^{1 I don't know if there is anyway to get the longest prefix that matches K. Of course, you can always remove the last character one by one and test against K* until it matches, but it is obviously inefficient.}

Unless specify otherwise, whatever I write below will follow my problem description above. Note that the 3rd bullet point of the problem is to resolve the ambiguity on which prefix string to take.

## 2. Repeated capturing group in .NET

The problem above can be solved if we have the solution to the problem:

Given a pattern `(K)*`

, which is a repeated capturing group, get the captured text for all the repetitions, instead of only the last repetition.

- In the case where the string has pattern
`K*`

, by matching against `^(K)*$`

, we can get all tokens that match pattern `K`

.
- In the case where the string only has prefix that matches
`K*`

, by matching against `^(K)*`

, we can get all tokens that match pattern `K`

.

This is the case in .NET regex, since it keeps all the captured text for a repeated capturing group.

However, since we are using Java, we don't have access to such feature.

## 3. Solution in Java

Checking that the string has the pattern `K*`

can always be done with `Matcher.matches()`

/`String.matches()`

, since the engine will do full-blown backtracking on the input string to somehow "unify" `K*`

with the input string. The hard thing is to split the input string into tokens that matches pattern `K`

.

### If `K*`

is equivalent to `K*+`

If the pattern K has the property:

For all strings^{2}, `K*`

is equivalent to `K*+`

, i.e. how the input string is split up into tokens that match pattern `K`

is the same.

^{2 You can define this condition for only the input strings you are operating on, but ensuring this pre-condition is not easy. When you define it for all strings, you only need to analyze your regex to check whether the condition holds or not.}

Then a one-pass solution that solves the problem can be constructed. You can repeatedly use `Matcher.find()`

on the pattern `\GK`

, and checks that the last match found is right at the end of the string. This is similar to your current solution, except that you do the boundary check with code.

The `+`

after the quantifier `*`

in `K*+`

makes the quantifier possessive. Possessive quantifier will prevent the engine from backtracking, which means each repetition is always the first possible match for the pattern K. We need this property so that the solution `\GK`

has equivalent meaning, since it will also return the first possible match for the pattern K.

### If `K*`

is NOT equivalent to `K*+`

Without the property above, we need 2 passes to solve the problem. First pass to call `Matcher.matches()`

/`String.matches()`

on the pattern `K*`

. On second pass:

If the string does not match pattern `K*`

, we will repeatedly use `Matcher.find()`

on the pattern `\GK`

until no more match can be found. This can be done due to how we define which prefix string to take when the input string does not match pattern `K*`

.

If the string matches pattern `K*`

, repeatedly use `Matcher.find()`

on the pattern `\GK(?=K*$)`

is one solution. This will result in redundant work matching the rest of the input string, though.

Note that this solution is universally applicable for any K. In other words, it also applies for the case where `K*`

is equivalent to `K*+`

(but we will use the better one-pass solution for that case instead).

`3`

and`<3`

are invalid since these are notcomplete patterns, which is part of the requirements. – Dukeling May 16 '13 at 12:00`K*`

in case that was a question). Edited question. – Dukeling May 16 '13 at 15:35