# Regular expression for validating arithmetic expression

I have an arithmetic expression

``````string exp = "((2+3.1)/2)*4.456";
``````

I want to validate by using regular expression. The expression can only have integers, floating point numbers, operands and parenthesis.

How can i generate regular expression to validate please help or suggest any other way to validate that string.

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It'd be too complex. You'll have to take care of situations like `(*)` for example. –  Andrew Logvinov Feb 25 '12 at 10:45
I would advise you not to go there. It's like trying to parse XML with R.E. - it's doesn't work. –  AVIDeveloper Feb 25 '12 at 10:47
Impossible, R.E. cannot do that –  Dani Feb 25 '12 at 10:47
any other way to validate that expression?? –  Masood Feb 25 '12 at 10:50
You need some sort of arithmetic operations parser. –  Maciej Feb 25 '12 at 10:56

Using Perl/PCRE we could verify such simple arithmetic expressions with help of a pattern structured like:

``````expr = pnum ( op pnum )*
pnum = num | \( expr \)
``````

Where `num` and `op` defined as required. For example:

``````num = -?+\d++(?:\.\d++)?+
op = [-+*/]
``````

Which would give us the following working expression:

``````(?x)^ (?&expr) \$

(?(DEFINE)
(?<expr> (?&pnum) (?: (?&op) (?&pnum) )*+   )
(?<pnum> (?> (?&num) | \( (?&expr) \) )   )
(?<num>  -?+\d++(?:\.\d++)?+   )
(?<op>   [-+*/]   )
)
``````

But such expressions could not be used with .NET regex as it does not support (recursive) suppatern calls `(?&name)`. Instead .NET regex lib offers us its special feature: balancing groups.

With balancing groups we could rewrite the required recursive call used in `pnum`, and use a structure like this instead:

``````expr = pnum ( op pnum )* (?(p)(?!))
pnum = (?> (?<p> \( )* num (?<-p> \) )* )
``````

What we've done here is to allow any number of optional opening and closing paranthesis before and after every number, counting the total number of open parentheses `(?<p> \( )`, subtracting closing parentheses from that number `(?<-p> \) )` and at the end of the expression make sure that the number of open parentheses is 0 `(?(p)(?!))`.

(I believe this is equivalent to the original structure, altho I haven't made any formal proof.)

Resulting in the following .NET pattern:

``````(?x)
^
(?> (?<p> \( )* (?>-?\d+(?:\.\d+)?) (?<-p> \) )* )
(?>(?:
[-+*/]
(?> (?<p> \( )* (?>-?\d+(?:\.\d+)?) (?<-p> \) )* )
)*)
(?(p)(?!))
\$
``````
``````using System;
using System.Text.RegularExpressions;

namespace RegexTest
{
class Program
{
static void Main(string[] args)
{
var expressions = new string[] {
"((2+3.1)/2)*4.456",
"1",
"(2)",
"2+2",
"(1+(2+3))",
"-2*(2+-2)",
"1+(3/(2+7-(4+3)))",
"1-",
"2+2)",
"(2+2",
"(1+(2+3)",
};

var regex = new Regex(@"(?x)
^
(?> (?<p> \( )* (?>-?\d+(?:\.\d+)?) (?<-p> \) )* )
(?>(?:
[-+*/]
(?> (?<p> \( )* (?>-?\d+(?:\.\d+)?) (?<-p> \) )* )
)*)
(?(p)(?!))
\$
");

foreach (var expr in expressions)
{
Console.WriteLine("Expression: " + expr);
Console.WriteLine("    Result: " + (regex.IsMatch(expr) ? "Matched" : "Failed"));
}
}
}
}
``````

Output:

``````Expression: ((2+3.1)/2)*4.456
Result: Matched
Expression: 1
Result: Matched
Expression: (2)
Result: Matched
Expression: 2+2
Result: Matched
Expression: (1+(2+3))
Result: Matched
Expression: -2*(2+-2)
Result: Matched
Expression: 1+(3/(2+7-(4+3)))
Result: Matched
Expression: 1-
Result: Failed
Expression: 2+2)
Result: Failed
Expression: (2+2
Result: Failed
Expression: (1+(2+3)
Result: Failed
``````
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You could write a simple lexer in F# using fslex/fsyacc. Here is an example which is very close to your requirement: http://blogs.msdn.com/b/chrsmith/archive/2008/01/18/fslex-sample.aspx

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