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For example, these are valid math expressions:

a * b + c
-a * (b / 1.50)
(apple + (-0.5)) * (boy - 1)

And these are invalid math expressions:

--a *+ b @ 1.5.0  // two consecutive signs, two consecutive operators, invalid operator, invalid number
-a * b + 1)  // unmatched parentheses
a) * (b + c) / (d  // unmatched parentheses

I have no problem with matching float numbers, but have difficulty with parentheses matching. Any idea? If there is better solution than regular expression, I'll accept as well. But regex is preferred.



I want to make some comments on my choice of the “accepted answer”, hoping that people who have the same question and find this thread will not be misled.

There are several answers I consider “accepted”, but I have no idea which one is the best. So I chose the accepted answer (almost) randomly. I recommend reading Guillaume Malartre’s answer as well besides the accepted answer. All of them give practical solutions to my question. For a somewhat rigorous/theoretical answer, please read David Thornley’s comments under the accepted answer. As he mentioned, Perl’s extension to regular expression (originated from regular language) make it “irregular”. (I mentioned no language in my question, so most answerers assumed the Perl implementation of regular expression – probably the most popular implementation. So did I when I posted my question.)

Please correct me if I said something wrong above.

share|improve this question
You're asking for something impossible to do, and you didn't mention what language you were working in. –  jemfinch Apr 7 '10 at 19:32
hmm...what I actually want to know is that, is it possible to do this with regex? If not, what's the best algorithm to do this? I want to implement it based on a general algorithm instead of language feature. –  Ethan Apr 7 '10 at 19:38
Ethan, regular expressions can handle regular languages only. All strings of the form a^nb^nb^na^n is an example of a non-regular language. So, (1 + 2 * (3 + 4 * (5 + 6 * .... N-3 + N-2 * (N-1 + N-2))...) is a valid arithmetic expression, but would not constitute a regular language (with variable even N). –  Hamish Grubijan Apr 7 '10 at 19:54
@all answerer: I know writing a parser for this particular task may be a more elegant way. But implementing it with regular expression would be a good topic to discuss as well. –  Ethan Apr 7 '10 at 20:52
And now seems that the question has become: whether the implementation is "regular" or not? :) –  Ethan Apr 7 '10 at 20:53

9 Answers 9

up vote 2 down vote accepted

Matching parens with a regex is quite possible.

Here is a Perl script that will parse arbitrary deep matching parens. While it will throw out the non-matching parens outside, I did not design it specifically to validate parens. It will parse arbitrarily deep parens so long as they are balanced. This will get you started however.

The key is recursion both in the regex and the use of it. Play with it, and I am sure that you can get this to also flag non matching prens. I think if you capture what this regex throws away and count parens (ie test for odd parens in the non-match text), you have invalid, unbalanced parens.

$re = qr  /
     (                      # start capture buffer 1
        \(                  #   match an opening paren
        (                   # capture buffer 2
        (?:                 #   match one of:
            (?>             #     don't backtrack over the inside of this group
                [^()]+    #       one or more 
            )               #     end non backtracking group
        |                   #     ... or ...
            (?1)            #     recurse to opening 1 and try it again
        )*                  #   0 or more times.
        )                   # end of buffer 2
        \)                  #   match a closing paren
     )                      # end capture buffer one

sub strip {
    my ($str) = @_;
    while ($str=~/$re/g) {
        $match=$1; $striped=$2;
        print "$match\n";
        strip($striped) if $striped=~/\(/;
        return $striped;

while(<DATA>) {
    print "start pattern: $_";
    while (/$re/g) { 
        strip($1) ;

"(apple + (-0.5)) * (boy - 1)"
"a) * (b + c) / (d"
"-a * (b / 1.50)"


start pattern: "(apple + (-0.5)) * (boy - 1)"
(apple + (-0.5))
(boy - 1)
start pattern: "((((one)two)three)four)x(one(two(three(four))))"
start pattern: "a) * (b + c) / (d"
(b + c)
start pattern: "-a * (b / 1.50)"
(b / 1.50)
share|improve this answer
While this works, I won't +1 it because anyone using extended regex hacks to match nested parenthesis is asking for a headache. It's much better to do it another way. –  Chris Lutz Apr 7 '10 at 19:50
Perl's extensions to the regular expression language make them no longer regular expressions. –  Greg Hewgill Apr 7 '10 at 19:51
@chris: This is not a "hack" it is directly from the Perl perlre man page. The only mod I did is is change angle bracket to prens and added the outside capturing group. I wrote the recursive subroutine. Since when is recursion and using the documented features of Perl a "hack"? –  dawg Apr 7 '10 at 19:57
@drewk - "What about the Perl 5.10 regex extensions make them not regular?" The ability to do this. "Regular" expressions only parse "regular" languages, and the language that describes balanced parenthesis is more complicated than "regular" (it is context-free). Therefore, anything that can parse them is more complicated than a mere "regular" expression, which is why the Perl 6 documentation is using the term "regex" exclusively. –  Chris Lutz Apr 7 '10 at 20:29
This is a pretty cool example of recursion and backreferences. For others that would like to see a more detailed explanation, see rick.measham.id.au/paste/… –  maček Apr 7 '10 at 20:52

Ok here's my version of parenthesis finding in ActionScript3, using this approach give a lot of traction to analyse the part before the parenthesis, inside the parenthesis and after the parenthis, if some parenthesis remains at the end you can raise a warning or refuse to send to a final eval function.

package {
import flash.display.Sprite;
import mx.utils.StringUtil;
public class Stackoverflow_As3RegexpExample extends Sprite
    private var tokenChain:String = "2+(3-4*(4/6))-9(82+-21)"
    public function Stackoverflow_As3RegexpExample() {
        // remove the "\" that just escape the following "\" if you want to test outside of flash compiler.
        var getGroup:RegExp = new RegExp("((?:[^\\(\\)]+)?)   (?:\\()       (  (?:[^\\(\\)]+)? )    (?:\\))        ((?:[^\\(\\)]+)?)", "ix")   //removed g flag
        while (true) {
            tokenChain = replace(tokenChain,getGroup)
            if (tokenChain.search(getGroup) == -1) break; 
    private var cummulativeEvaluable:Array = new Array()
    protected function analyseGrammar(matchedSubstring:String, capturedMatch1:String, capturedMatch2:String,  capturedMatch3:String, index:int, str:String):String {
        trace("\nanalyseGrammar str:\t\t\t\t'"+str+"'")
        trace("analyseGrammar matchedSubstring:'"+matchedSubstring+"'")
        trace("analyseGrammar capturedMatchs:\t'"+capturedMatch1+"'  '("+capturedMatch2+")'   '"+capturedMatch3+"'")
        trace("analyseGrammar index:\t\t\t'"+index+"'") 
        var blank:String = buildBlank(matchedSubstring.length)
        // I could do soo much rigth here!
        return str.substr(0,index)+blank+str.substr(index+matchedSubstring.length,str.length-1)
    private function replace(str:String,regExp:RegExp):String {
        var result:Object = regExp.exec(str)
        if (result)
            return analyseGrammar.apply(null,objectToArray(result)) 
        return str
    private function objectToArray(value:Object):Array {
        var array:Array = new Array()
        var i:int = 0
        while (true) {
            if (value.hasOwnProperty(i.toString())) {
            } else {
        return array
    protected function buildBlank(length:uint):String {
        var blank:String = ""
        while (blank.length != length)
            blank = blank+" "
        return blank


It should trace this:

analyseGrammar str:             '2+(3-4*(4/6))-9(82+-21)'
analyseGrammar matchedSubstring:'3-4*(4/6)'
analyseGrammar capturedMatchs:  '3-4*'  '(4/6)'   ''
analyseGrammar index:           '3'

analyseGrammar str:             '2+(         )-9(82+-21)'
analyseGrammar matchedSubstring:'2+(         )-9'
analyseGrammar capturedMatchs:  '2+'  '(         )'   '-9'
analyseGrammar index:           '0'

analyseGrammar str:             '               (82+-21)'
analyseGrammar matchedSubstring:'               (82+-21)'
analyseGrammar capturedMatchs:  '               '  '(82+-21)'   ''
analyseGrammar index:           '0'
cummulativeEvaluable=3-4*(4/6),2+(         )-9,(82+-21)
share|improve this answer

This is tricky with one single regular expression, but quite easy using mixed regexp/procedural approach. The idea is to construct a regexp for the simple expression (without parenthesis) and then repeatedly replace ( simple-expression ) with some atomic string (e.g. identifier). If the final reduced expression matches the same `simple' pattern, the original expression is considered valid.

Illustration (in php).

function check_syntax($str) {

    // define the grammar
    $number = "\d+(\.\d+)?";
    $ident  = "[a-z]\w*";
    $atom   = "[+-]?($number|$ident)";
    $op     = "[+*/-]";
    $sexpr  = "$atom($op$atom)*"; // simple expression

    // step1. remove whitespace
    $str = preg_replace('~\s+~', '', $str);

    // step2. repeatedly replace parenthetic expressions with 'x'
    $par = "~\($sexpr\)~";
    while(preg_match($par, $str))
        $str = preg_replace($par, 'x', $str);

    // step3. no more parens, the string must be simple expression
    return preg_match("~^$sexpr$~", $str);

$tests = array(
    "a * b + c",
    "-a * (b / 1.50)",
    "(apple + (-0.5)) * (boy - 1)",
    "--a *+ b @ 1.5.0",
    "-a * b + 1)",
    "a) * (b + c) / (d",

foreach($tests as $t)
    echo $t, "=", check_syntax($t) ? "ok" : "nope", "\n";

The above only validates the syntax, but the same technique can be also used to construct a real parser.

share|improve this answer
+1 Good illustration. Minor quibble: I don't think you can remove whitespace so early, because it can turn an invalid expression into a valid one. For example: f o o + 1 becomes foo+1. –  FMc Apr 8 '10 at 0:47
@FM: good point. This was of course, a bit lazy, in the real world, whitespace should be added to the grammar, like expr = atom (ws* op ws* atom)* –  user187291 Apr 8 '10 at 0:59
Can you provide this code in java? –  Maxrunner Feb 18 '13 at 16:08

I believe you will be better off implementing a real parser to accomplish what you're after.

A parser for simple mathematical expressions is "Parsing 101", and there are several examples to be found online.

Some examples include:

Note that the grammar you will need for validating expressions is simpler than the examples above, since the examples also implement evaluation of the expression.

share|improve this answer
A LALR(1) grammar is way overkill for this. The question describes a context-free language, and one that can be recognized by a relatively small addition to regular experssions. –  David Thornley Apr 7 '10 at 21:01
That depends, IMO. A parser grammar might be easier to maintain and extend than a complex regex. –  codeape Apr 7 '10 at 21:52

Well, people telling its impossible are wrong. I dit it for calculation validation (present in the calculator) and it sure is a lot of work. If you have more interest in the solution presented in the video I could probably take more time to share a simple example of parenthesis group analysis with regexp.

share|improve this answer
I'd be very interested in knowing how you did that, considering that it's impossible. –  David Thornley Apr 7 '10 at 20:46
@Guillaume Malartre: why not put your simple example here to make the discussion more meaningful and informative, if it won't take you a lot of time? –  Ethan Apr 7 '10 at 20:55
"Well, people telling its impossible are wrong." Well, no they're not, if you understand the terms being discussed. –  Eric H. Apr 8 '10 at 12:22
@Eric H. did you change the terms being discussed? Did Ethan asked how he could analyse a math expression? A parser is good for trying to evaluate it reading it from left to right but if you want to group math expression into object you need a way to split those groups. RegExp are good to find group. They can most definitely answer to the question "Matching math expression with regular expression?" with "Yes you can, and you can even go further.". –  Guillaume Malartre Apr 8 '10 at 13:54
You cannot balance parens with a regular expression. It just cannot be done. You can do it with extenesions to regular expressions, but then they're not regular any more. –  Eric H. Apr 9 '10 at 12:41

Use a pushdown automaton for matching paranthesis http://en.wikipedia.org/wiki/Pushdown_automaton (or just a stack ;-) )

Details for the stack solution:

while (chr available)
    if chr == '(' then
      push '('
      if chr == ')' then
        if stack.elements == 0 then
          print('too many or misplaced )')
          pop //from stack
end while
if (stack.elements != 0)
  print('too many or misplaced(')

Even simple: just keep a counter instead of stack.

share|improve this answer

Regular expressions can only used to recognize regular languages. The language of mathematical expressions is not regular; you'll need to implement an actual parser (e.g. LR) in order to do this.

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"regular expressions are for regular languages" is a tautology and makes no sense. –  user187291 Apr 7 '10 at 22:46
@stereofrog: It isn't quite a tautology. You may feel it's too simple, but all kinds of programmers aren't even aware of formal languages, don't know what a context-free language is, what a regular language is, and why regular expressions might not be the right choice for a particular problem. –  Rob Lachlan Apr 8 '10 at 1:20

For parenthesis matching, and implementing other expression validation rules, it is probably easiest to write your own little parser. Regular expressions are no good in this kind of situation.

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I would actually try an eval in Perl or Python - seems like the fastest way to test. The expression is meant to be evaluated anyway, so why not: try { worked = true; evaluate() } catch (...) { worked = false; } –  Hamish Grubijan Apr 7 '10 at 19:56

You can't use regex to do things like balance parenthesis.

share|improve this answer
That is only correct if they can be nested arbitrarily deep. –  Klaus Byskov Pedersen Apr 7 '10 at 19:26
Yes you can. Please see the post below... –  dawg Apr 7 '10 at 19:31
No, you can't. If there are expressions with which you can ensure the balance of parentheses, they're not regular expressions. –  jemfinch Apr 7 '10 at 19:33
@drewk: "the post below" has no meaning here, since the order of answers is variable. Please identify it as "X's answer" or something like that. –  David Thornley Apr 7 '10 at 19:39
I think jemfinch was mentioning Victor Hurdugaci's post. I am reading the link given by Victor. I got confused getting two opposite kinds of answers. –  Ethan Apr 7 '10 at 19:52

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