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Here is the challenge (of my own invention, though I wouldn't be surprised if it has previously appeared elsewhere on the web).

Write a function that takes a single argument that is a string representation of a simple mathematical expression and evaluates it as a floating point value. A "simple expression" may include any of the following: positive or negative decimal numbers, +, -, *, /, (, ). Expressions use (normal) infix notation. Operators should be evaluated in the order they appear, i.e. not as in BODMAS, though brackets should be correctly observed, of course. The function should return the correct result for any possible expression of this form. However, the function does not have to handle malformed expressions (i.e. ones with bad syntax).

Examples of expressions:

1 + 3 / -8                            = -0.5       (No BODMAS)
2*3*4*5+99                            = 219
4 * (9 - 4) / (2 * 6 - 2) + 8         = 10
1 + ((123 * 3 - 69) / 100)            = 4
2.45/8.5*9.27+(5*0.0023)              = 2.68...


I anticipate some form of "cheating"/craftiness here, so please let me forewarn against it! By cheating, I refer to the use of the eval or equivalent function in dynamic languages such as JavaScript or PHP, or equally compiling and executing code on the fly. (I think my specification of "no BODMAS" has pretty much guaranteed this however.) Apart from that, there are no restrictions. I anticipate a few Regex solutions here, but it would be nice to see more than just that.

Now, I'm mainly interested in a C#/.NET solution here, but any other language would be perfectly acceptable too (in particular, F# and Python for the functional/mixed approaches). I haven't yet decided whether I'm going to accept the shortest or most ingenious solution (at least for the language) as the answer, but I would welcome any form of solution in any language, except what I've just prohibited above!

My Solution

I've now posted my C# solution here (403 chars). Update: My new solution has beaten the old one significantly at 294 chars, with the help of a bit of lovely regex! I suspected that this will get easily beaten by some of the languages out there with lighter syntax (particularly the funcional/dynamic ones), and have been proved right, but I'd be curious if someone could beat this in C# still.


I've seen some very crafty solutions already. Thanks to everyone who has posted one. Although I haven't tested any of them yet, I'm going to trust people and assume they at least work with all of the given examples.

Just for the note, re-entrancy (i.e. thread-safety) is not a requirement for the function, though it is a bonus.


Please post all answers in the following format for the purpose of easy comparison:


Number of characters: ???

Fully obfuscated function:

(code here)

Clear/semi-obfuscated function:

(code here)

Any notes on the algorithm/clever shortcuts it takes.


locked by animuson Nov 16 '14 at 21:53

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closed as off topic by casperOne Aug 21 '12 at 20:16

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You probably meant your first example to equal .125 (move decimal place) and your second to have 99 on the left-hand side (one too many nines). – John Y May 29 '09 at 23:56
You ought to add an example where the lack of BODMAS is significant, e.g. "1 + 1 * 3 = 6" – Ben Blank May 30 '09 at 0:36
Ahh, I was wondering when the first vote to close would come. Note to all voters: there are plenty of open code golf questions in StackOverflow already. Consensus seems to be they're fine - mainly just a bit of fun. – Noldorin May 30 '09 at 0:40
I'm inclined to agree this is fine, especially as "wiki" – Marc Gravell May 30 '09 at 8:48

43 Answers 43

C# with Regex

Number of characters: 294

This is partially based off Jeff Moser's answer, but with a significantly simplified evaluation technique. There might even be further ways to reduce the char count, but I'm quite pleased now that there's a C# solution under 300 chars!

Fully obfuscated code:

float e(string x){while(x.Contains("("))x=Regex.Replace(x,@"\(([^\(]*?)\)",m=>e(m.Groups[1].Value).ToString());float r=0;foreach(Match m in Regex.Matches("+"+x,@"\D ?-?[\d.]+")){var o=m.Value[0];var v=float.Parse(m.Value.Substring(1));r=o=='+'?r+v:o=='-'?r-v:o=='*'?r*v:r/v;}return r;}

Clearer code:

float e(string x)
    while (x.Contains("("))
        x = Regex.Replace(x, @"\(([^\(]*?)\)", m => e(m.Groups[1].Value).ToString());
    float r = 0;
    foreach (Match m in Regex.Matches("+" + x, @"\D ?-?[\d.]+"))
        var o = m.Value[0];
        var v = float.Parse(m.Value.Substring(1));
        r = o == '+' ? r + v : o == '-' ? r - v : o == '*' ? r * v : r / v;
    return r;


Number of characters: 492

Mildly obfuscated function (short variable names, no spaces around operators):

def e(s):
    for c in s.replace(' ','')+'$':
    	if c in '.0123456789' or c in '+-' and b and not v:
    		if v:
    		while len(q)>=3:
    			if type(x)==type(z)==float:
    				if y=='+':q[-3:]=[x+z]
    				elif y=='-':q[-3:]=[x-z]
    				elif y=='*':q[-3:]=[x*z]
    				elif y=='/':q[-3:]=[x/z]
    			elif (x,z)==('(',')'):q[-3:]=[y]
    		if c=='$':break
    return q[0]

I think this is relatively easy to understand. It's a pretty straightforward, naive approach. It doesn't import anything, doesn't use regex, is fully self-contained (single function, no globals, no side-effects), and should handle signed literals (positive or negative). Using more sensible variable names and adhering to recommended Python formatting increases the character count to more like 850-900, a big chunk of that from using four spaces instead of a single tab for indentation.


Python 3K

(its 3K because / converts the result to a floating point number)

Number of characters: 808

Clear (I cannot write obfuscated code in Python XD):

def parse(line):
  ops = {"+": lambda x,y:x+y,
       "-": lambda x,y:x-y,
       "*": lambda x,y:x*y,
       "/": lambda x,y:x/y}
  def tpp(s, t):
    if len(s) > 0 and s[-1] in ops:
      f = ops[s.pop()]
      t = f(s.pop(), t)
    return t
  line = line + " "
  s = []
  t = 0
  m = None
  for c in line:
    if c in "0123456789":
      if not m:
        m = "i"
      if m == "i":
        t = t*10 + ord(c)-ord("0")
      elif m =="d":
        t = t + e*(ord(c)-ord("0"))
    elif c == ".":
      m = "d"
      e = 0.1
    elif m:
      t = tpp(s,t)
      m = None
      t = 0

    if c in ops or c == "(":
    elif c == ")":
      t = s.pop()
      t = 0
  t = s.pop()
  if int(t) == t:
    t = int(t)
  return t

I'm not using any kind of regular expression, even the number parsing is made by hand ;-)

Quite simple, scans the line, it can be in 3 different modes (m), None that means that there's no number being parsed, "i" that means that it is parsing the integer part and "d" that means that is parsing the decimal part.

It uses a stack to store the temporary computations, when it has finished parsing a number sees if it there was an operator in the stack, in that case evals and pushes. The opening parens are just pushed and the closing parens remove the opening paren and repush the current eval.

Fairly simple and straightfordward :-)



Number of characters: 302


def e(l)
  while l!=''
    t=o ? t.send(o, $1.to_f) : $1.to_f if $~
    o=$1 if $~
    t=o ? t.send(o, e(l)) : e(l) if $~
    return t if $~

Destroys original string, also assumes expression is well-formed (only valid characters, and matching brackets).

Not obfuscated:

def evaluate_expression(expression)
  result_so_far = 0.0
  last_operator = nil

  while (expression != '')
    # remove any leading whitespace
    expression.sub!(/^\s+/, '') 

    # extract and remove leading integer or decimal number
    expression.sub!(/^(-?\d+|-?\d+\.\d+)/, '')
    if $~
      # match was successful
      number = $1.to_f
      if last_operator.nil?
        # first number, just store it
        result_so_far = number
        # we have an operator, use it!
        # last_operator is a string matching '+', '-', '*' or '/'
        # just invoke the method of that name on our result_so_far
        # since these operators are just method calls in Ruby
        result_so_far = result_so_far.send(last_operator, number)

    # extract and remove leading operator +-*/
    expression.sub!(/^(\+|-|\*|\/)/, '')
    if $~
      # match was successful
      last_operator = $1

    # extract and remove leading open bracket
    l.sub!(/^\(/, '')
    if $~
      # match successful
      if last_operator.nil?
        # first element in the expression is an open bracket
        # so just evaluate its contents recursively
        result_so_far = evaluate_expression(expression)
        # combine the content of the bracketing with the
        # result so far using the last_operator
        result_so_far.send(last_operator, evaluate_expression(expression))

    # extract and remove leading close bracket
    l.sub!(/^\)/, '')
    if $~
      # match successful
      # this must be the end of a recursive call so
      # return the result so far without consuming the rest
      # of the expression
      return result_so_far

The recursive call is controlled by the modification of the expression string, which is a bit nasty, but it seems to work.



Number of characters: 461

Here is Marc Gravell's solution (essentially) converted from C# to F#. The char count is scarecly better, but I thought I'd post it anyway out of interest.

Obfuscated code:

let e x=
 let rec f(s:string)=
  let i=s.IndexOf(')')
  if i>0 then
   let j=s.LastIndexOf('(',i)
   let o=[|'+';'-';'*';'/'|]
   let i=s.LastIndexOfAny(o)
   let j=s.IndexOfAny(o,max(i-2)0,2)
   let k=if j<0 then i else j
   if k<0 then s else
    let o=s.[k]
    string((if o='+'then(+)else if o='-'then(-)else if o='*'then(*)else(/))(float(f(s.Substring(0,k))))(float(s.Substring(k+1))))
 float(f x)


Number of Characters: 376

Updated version, now with more ? operator abuse!

Fully obfuscated solution:

static double e(String t){t="("+t+")";for(String s:new String[]{"+","-","*","/","(",")"})t=t.replace(s," "+s+" ");return f(new Scanner(t));}static double f(Scanner s){;double a,v=s.hasNextDouble()?s.nextDouble():f(s);while(s.hasNext("[^)]")){char;a=s.hasNextDouble()?s.nextDouble():f(s);v=o=='+'?v+a:o=='-'?v-a:o=='*'?v*a:v/a;};return v;}

Clear/semi-obfuscated function:

static double evaluate(String text) {
	text = "(" + text + ")";
	for (String s : new String[] {"+", "-", "*", "/", "(", ")" }) {
		text = text.replace(s, " " + s + " ");
	return innerEval(new Scanner(text));

static double innerEval(Scanner s) {;
	double arg, val = s.hasNextDouble() ? s.nextDouble() : innerEval(s);
	while (s.hasNext("[^)]")) {
		char op =;
		arg = s.hasNextDouble() ? s.nextDouble() : innerEval(s);
		val =
			op == '+' ? val + arg :
			op == '-' ? val - arg :
			op == '*' ? val * arg :
			val / arg;
	return val;


Chars: 1670

 // not trying to be terse here
#define DIGIT(c)((c)>='0' && (c) <= '9')
#define WHITE(pc) while(*pc == ' ') pc++
#define LP '('
#define RP ')'

bool SeeNum(const char* &pc, float& fNum){
    if (!(DIGIT(*pc) || (*pc=='.'&& DIGIT(pc[1])))) return false;
    const char* pc0 = pc;
    while(DIGIT(*pc)) pc++;
    if (*pc == '.'){
        while(DIGIT(*pc)) pc++;
    char buf[200];
    int len = pc - pc0;
    strncpy(buf, pc0, len); buf[len] = 0;
    fNum = atof(buf);
    return true;

bool SeeChar(const char* &pc, char c){
    if (*pc != c) return false;
    return true;

void ParsExpr(const char* &pc, float &fNum);

void ParsPrim(const char* &pc, float &fNum){
    if (SeeNum(pc, fNum));
    else if (SeeChar(pc, LP)){
        ParsExpr(pc, fNum);
        if (!SeeChar(pc, RP)) exit(0);
    else exit(0); // you can abort better than this

void ParsUnary(const char* &pc, float &fNum){
    if (SeeChar(pc, '-')){
        ParsUnary(pc, fNum);
        fNum = -fNum;
    else {
        ParsPrim(pc, fNum);

void ParsExpr(const char* &pc, float &fNum){
    ParsUnary(pc, fNum);
    float f1 = 0;
        if (SeeChar(pc, '+')){
            ParsUnary(pc, f1);
            fNum += f1;
        else if (SeeChar(pc, '-')){
            ParsUnary(pc, f1);
            fNum -= f1;
        else if (SeeChar(pc, '*')){
            ParsUnary(pc, f1);
            fNum *= f1;
        else if (SeeChar(pc, '/')){
            ParsUnary(pc, f1);
            fNum /= f1;
        else break;

This is just LL1 (recursive descent). I like to do it this way (although I use doubles) because it's plenty fast, and easy to insert routines to handle precedence levels.



Number of characters: ~400

A bit ugly, but it works. :) I'm sure regexp would have made it even smaller.

DEFDBL E,f,i,z,q,a,v,o  
DEFSTR s,c,k,p


        IF MID$(s,i,1)="("THEN  
        END IF  
    LOOP UNTIL i=0  

    DIM p(PARSECOUNT(s,ANY k))  
    PARSE s,p(),ANY k  


    FOR i=1TO LEN(s)
        IF q THEN
            IF o=0 THEN o=q ELSE p(z)=c+p(z)
            IF TRIM$(p(z))<>"" THEN
            END IF
        END IF


C#, 264 characters

Strategy: the first 2 lines get rid of parentheses by induction. Then I split by \-?[\d.]+ to get numbers and operators. then using aggregate to reduce the string array to a double value.

Variable explanations

m is parenthesized expression with no nested parentheses.
d is a placeholder for that awkward TryParse syntax.
v is the accumulator for the final value
t is the current token.

float E(string s){var d=999f;while(d-->1)s=Regex.Replace(s,@"(([^(]?))",m=>E(m.Groups[1].Value)+"");return Regex.Split(s,@"(-?[\d.]+)").Aggregate(d,(v,t)=>(t=t.Trim()).Length==0?v:!float.TryParse(t,out d)?(s=t)==""?0:v:s=="/"?v/d:s=="-"?v-d:s==""?v*d:v+d);}

    float F(string s) {
        var d=999f;
        return Regex.Split(s, @"(\-?[\d\.]+)")
            .Aggregate(d, (v, t) => 
                (t=t.Trim()).Length == 0 ? v :
                !float.TryParse(t, out d) ? (s=t) == "" ? 0 : v :
                s == "/" ? v / d :
                s == "-" ? v - d :
                s == "*" ? v * d :
                           v + d);

EDIT: shamelessly stole parts from noldorin's answer, reused s as the operator variable.

EDIT: 999 nested parentheses should be enough for anyone.


OCaml using Camlp4 directly:

open Camlp4.PreCast

let expr = "expr"

  [   [ e1 = expr; "+"; e2 = expr -> e1 + e2
      | e1 = expr; "-"; e2 = expr -> e1 - e2 ]
  |   [ e1 = expr; "*"; e2 = expr -> e1 * e2
      | e1 = expr; "/"; e2 = expr -> e1 / e2 ]
  |   [ n = INT -> int_of_string n
      | "("; e = expr; ")" -> e ]   ];

let () = Gram.parse expr Loc.ghost (Stream.of_string "1-2+3*4")

OCaml using the Camlp4 stream parser extension:

open Genlex

let lex = make_lexer ["+"; "-"; "*"; "/"; "("; ")"]

let rec parse_atom = parser
  | [< 'Int n >] -> n
  | [< 'Kwd "("; e=parse_expr; 'Kwd ")" >] -> e
and parse_factor = parser
  | [< e1=parse_atom; stream >] ->
         | [< 'Kwd "*"; e2=parse_factor >] -> e1 * e2
         | [< 'Kwd "/"; e2=parse_factor >] -> e1 / e2
         | [< >] -> e1) stream
and parse_expr = parser
  | [< e1=parse_factor; stream >] ->
         | [< 'Kwd "+"; e2=parse_expr >] -> e1 + e2
         | [< 'Kwd "-"; e2=parse_expr >] -> e1 - e2
         | [< >] -> e1) stream

let () =
  Printf.printf "%d\n" (parse_expr(lex(Stream.of_string "1 + 2 * (3 + 4)")));;

I'm surprised nobody did it in Lex / Yacc or equivalent.

That would seem to yield the shortest source code that was also readable / maintainable.

Lex/Yacc is good for writing real parsers, but if your requirements are simple enough, you can do it better (smaller) without. – Chris Lutz Jun 1 '09 at 22:04


Number of characters: 170

Fully obfuscated function:

function a($a,$c='#\(([^()]*)\)#e',$d='a("$1","#^ *-?[\d.]+ *\S *-?[\d.]+ *#e","\$0")'){$e='preg_replace';while($a!=$b=$e($c,$d,$a))$a = $b;return$e('#^(.*)$#e',$d,$a);}

Clearer function:

function a($a, $c = '#\(([^()]*)\)#e', $d = 'a("$1", "#^ *-?[\d.]+ *\S *-?[\d.]+ *#e", "\$0")') {
	$e = 'preg_replace';
	while ($a != $b = $e($c, $d, $a)) {
		$a = $b;
	return $e('#^(.*)$#e', $d, $a);


assert(a('1 + 3 / -8') === '-0.5');
assert(a('2*3*4*5+99') === '219');
assert(a('4 * (9 - 4) / (2 * 6 - 2) + 8') === '10');
assert(a('1 + ((123 * 3 - 69) / 100)') === '4');
assert(a('2.45/8.5*9.27+(5*0.0023)') === '2.68344117647');
assert(a(' 2 * 3 * 4 * 5 + 99 ') === '219');
The e modifier to preg_replace violates the rule that evals are forbidden. – soulmerge Jul 7 '09 at 18:48


Number of characters: 93

Fully obfuscated function: (93 characters if you join these three lines into one)


Clear/semi-obfuscated function:

$_="(@ARGV)";            # Set the default var to "(" argument ")"
s/\s//g;                 # Strip all spaces from $_
$n=qr/(-?\d+(\.\d+)?)/;  # Compile a regex for "number"

# repeatedly replace the sequence "(" NUM ")" with NUM, or if there aren't
# any of those, replace "(" NUM OP NUM with the result
# of doing an eval on just the NUM OP NUM bit.

# print $_

I think this is pretty well explained in the "clear" version. The two main insights are that you can make the code uniform by surrounding the argument with parentheses at the start (special cases cost characters), and that it is sufficient, albeit massively inefficient, to only process stuff right next to an open parenthesis, replacing it with its result.

It's probably easiest to run this code as:

perl -le '$_="(@ARGV)";s/\s//g;$n=qr/(-?\d+(\.\d+)?)/;while(s.\($n\)|(?<=\()$n[-+*/]$n.eval$&.e){}print' '4 * (9 - 4) / (2 * 6 - 2) + 8'

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