Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

Is it possible to make a custom operator so you can do things like this?

if ("Hello, world!" contains "Hello") ...

Note: this is a separate question from "Is it a good idea to..." ;)

share|improve this question
Stack Overflow is designed for a question-answer format. To avoid this being closed as "not a real question", I recommend you reformat this so that there is a question in the question part and an answer in the answer part. –  Greg Hewgill Oct 4 '09 at 2:07
Sorry, fixed it –  Cogwheel Oct 4 '09 at 2:12
Thanks, good job :-) –  Shog9 Oct 4 '09 at 2:13

5 Answers 5

up vote 18 down vote accepted

Yes! (well, sort of)

There are a couple publicly available tools to help you out. Both use preprocessor code generation to create templates which implement the custom operators. These operators consist of one or more built-in operators in conjunction with an identifier.

Since these aren't actually custom operators, but merely tricks of operator overloading, there are a few caveats:

  • Macros are evil. If you make a mistake, the compiler will be all but entirely useless for tracking down the problem.
  • Even if you get the macro right, if there is an error in your usage of the operator or in the definition of your operation, the compiler will be only slightly more helpful.
  • You must use a valid identifier as part of the operator. If you want a more symbol-like operator, you can use _, o or similarly simple alphanumerics.


While I was working on my own library for this purpose (see below) I came across this project. Here is an example of creating an avg operator:

#define avg BinaryOperatorDefinition(_op_avg, /)
DeclareOperatorLeftType(_op_avg, /, double);
inline double _op_avg(double l, double r)
   return (l + r) / 2;
BindBinaryOperator(double, _op_avg, /, double, double)


What started as an exercise in pure frivolity became my own take on this problem. Here's a similar example:

template<typename T> class AvgOp { 
   T operator()(const T& left, const T& right) 
      return (left + right) / 2; 
#define avg <_avg_>

Key Differences

  • CustomOperators supports postfix unary operators
  • IdOp templates use references rather than pointers to eliminate use of the free store, and to allow full compile-time evaluation of the operation
  • IdOp allows you to easily specify several operations for the same root identifier
share|improve this answer
One caveat: Since the pre-process stage happens before compilation, any error messages related to these custom operators have the potential to be VERY difficult to relate back to the code you wrote because the compile errors will be on whatever your code gets turned into. Not saying you shouldn't do it (if appropriate to your problem), but try to use sparingly - it's going to make your life difficult. –  Michael Kohne Oct 4 '09 at 2:16
Sounds cool. Sounds clever. Something in the back of my head is telling me "You're doing it wrong" and "Custom operators were deliberately left out of the language spec." –  Bob Kaufman Oct 4 '09 at 2:18
@Michael Kohne: Absolutely agree. I had some maddening debugging experiences over the last couple days. –  Cogwheel Oct 4 '09 at 2:18
@Bob Kaufman: yeah, it's probably better as a novelty more than anything, but if it helps make something clearer in your code it might be a Good Thing TM. –  Cogwheel Oct 4 '09 at 2:20
I'm guessing the ability to define new operators were left out of the language spec because it makes writing a C++ parser so much harder (and it's already pretty damn hard to begin with). You have to deal with operator precedence, associativity, etc. –  Adam Rosenfield Oct 4 '09 at 2:55

To be a bit more accurate, C++ itself only supports creating new overloads of existing operations, NOT creating new operators. There are languages (e.g., ML and most of its descendants) that do allow you to create entirely new operators, but C++ is not one of them.

From the looks of things, (at least) the CustomOperators library mentioned in the other answer doesn't support entirely custom operators either. At least if I'm reading things correctly, it's (internally) translating your custom operator into an overload of an existing operator. That makes things easier, at the expense of some flexibility -- for example, when you create a new operator in ML, you can give it precedence different from that of any built-in operator.

share|improve this answer
I've added a clarification/caveat to my original answer. Thanks :) –  Cogwheel Oct 4 '09 at 3:33

Your suggestion would be nothing more than syntactic sugar for:

if( contains( "Hello, world!", "Hello" ) ...

and in fact there are already a functions to do that in both cstring and std::string. Which is perhaps a bit like answering "is it a good idea?" but not quite; rather asking "why would you need/want to?"

share|improve this answer
Well, that was just an arbitrary example I made up when I was told to split my post into a question/answer. ;) That being said, syntactic sugar is exactly the point. I love C++ because of the myriad ways you can express a solution to a problem (procedural, functional, oo, etc.). These tools give you the ability to go a step further towards representing a concept as naturally as possible. And of course there are less sober uses as well (as evidenced in IdOp examples). :P –  Cogwheel Oct 4 '09 at 8:09
And actually, the avg example (which I copied from the CustomOperators page) is probably a place I wouldn't use something like this. When you think about averages you think "the average of...". This makes avg(x, y) more appropriate than "x avg y". The "contains" language (which I also found on the CustomOperators page) does a better job illustrating this particular construct. –  Cogwheel Oct 4 '09 at 8:16

There's a method thoroughly explored in 'Syntactic Aspartame' by Sander Stoks that would allow you to use the following format:

if ("Hello, world!" <contains> "Hello") ...

In essence, you need a proxy object with the operators '<' and '>' overloaded. The proxy does all of the work; 'contains' can just be a singleton with no behavior or data of its own.

// Not my code!
const struct contains_ {} contains;

template <typename T>
struct ContainsProxy
    ContainsProxy(const T& t): t_(t) {}
    const T& t_;

template <typename T>
ContainsProxy<T> operator<(const T& lhs, const contains_& rhs)
    return ContainsProxy<T>(lhs);

bool operator>(const ContainsProxy<Rect>& lhs, const Rect& rhs)
    return lhs.t_.left   <= rhs.left && 
           lhs.t_.top    <= rhs.top && 
       lhs.t_.right  >= rhs.right && 
       lhs.t_.bottom >= rhs.bottom;
share|improve this answer
This article does a good job showing how the two libraries in my answer work. –  Cogwheel May 10 at 16:40

Technically, no. That is to say, you can't extend the set of operator+, operator-, etcetera. But what you're proposing in your example is something else. You are wondering if there is a definition of "contains" such that string-literal "contains" string-literal is an expression, with non-trivial logic (#define contains "" being the trivial case).

There are not many expressions that can have the form string-literal X string-literal. This is because string literals themselves are expressions. So, you're looking for a language rule of the form expr X expr. There are quite a few of those, but they're all rules for operators, and those don't work on strings. Despite the obvious implementation, "Hello, " + "world" is not a valid expression. So, what else can X be in string-literal X string-literal ? It can't be a expression itself. It can't be a typename, a typedef name or a template name. It can't be a function name. It can really only be a macro, which are the only remaining named entities. For that, see the "Yes (well, sort of)" answer.

share|improve this answer
I don't know what "extend" means in this context, but you definitely can define + and - operators in C++. –  Andy Jun 6 '13 at 10:12
@Andy: Obviously. You can also add overloads for operator*. What you cannot do is add operator@. The C++ standard fully specifies which operators exist, and only those can be overloaded with new types of arguments. –  MSalters Jun 6 '13 at 11:38
oh now I got what you meant previously. Yes, you cannot define your own custom operators. –  Andy Jun 6 '13 at 12:24

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.