34

I want to have a function that evaluates 2 bool vars (like a truth table).

For example:

Since

T | F : T

then

myfunc('t', 'f', ||);  /*defined as: bool myfunc(char lv, char rv, ????)*/

should return true;.

How can I pass the third parameter?

(I know is possible to pass it as a char* but then I will have to have another table to compare operator string and then do the operation which is something I would like to avoid)

Is it possible to pass an operator like ^ (XOR) or || (OR) or && (AND), etc to a function/method?

5 Answers 5

34

Declare:

template<class Func> bool myfunc(char lv, char rv, Func func);

Or if you need to link it separately:

bool myfunc(char lv, char rv, std::function<bool(bool,bool)> func);

Then you can call:

myfunc('t', 'f', std::logical_or<bool>());
3
  • 7
    Just thought it'd be helpful to include a link to more function objects like std::logical_or cplusplus.com/reference/std/functional Sep 2, 2011 at 15:09
  • @ybungalobill I tried to implement myfunc as return func(int(lv), rv(lv)). But calling it like myfunc('1', '3', std::plus<int>()); then returns just 1 instead of 4. Isn't that meant to be used like that?
    – Patrick
    Dec 12, 2019 at 8:52
  • 2
    @Patrick: myfunc returns bool, so it cannot return 4. Also '1' == 49 and '3' == 51, so the answer I would expect is 100 == 'd'. Dec 12, 2019 at 17:24
6

@ybungalobill posted a C++ correct answer and you should stick to it. If you want to pass the operators, functions will not work, but macros would do the work:

#define MYFUNC(lv, rv, op) ....

// Call it like this
MYFUNC('t', 'f', ||);

Be careful, macros are evil.

3

What you can do is define proxy operators that return specific types.

namespace detail {
    class or {
        bool operator()(bool a, bool b) {
            return a || b;
        }
    };
    class and {
        bool operator()(bool a, bool b) {
            return a && b;
        }
    };
    // etc
    class X {
        or operator||(X x) const { return or(); }
        and operator&&(X x) const { return and(); }
    };
};
const detail::X boolean;
template<typename T> bool myfunc(bool a, bool b, T t) {
     return t(a, b);
}
// and/or
bool myfunc(bool a, bool b, std::function<bool (bool, bool)> func) {
    return func(a, b);
}
// example
bool result = myfunc(a, b, boolean || boolean);

You can if desperate chain this effect using templates to pass complex logical expressions.

Also, the XOR operator is bitwise, not logical- although the difference is realistically nothing.

However, there's a reason that lambdas exist in C++0x and it's because this kind of thing flat out sucks in C++03.

4
  • 2
    Correct me if I'm wrong, but isn't overloading operator|| and operator&& evil? Dec 25, 2010 at 15:31
  • @Billy: No- why would it be? This is no different to the _1 and etc in boost::bind.
    – Puppy
    Dec 25, 2010 at 15:37
  • Sorry... didn't see that those were inside classes :P Thought you were breaking short circuit semantics for every expression containing && or ||! Dec 25, 2010 at 15:45
  • Overloading operator|| and operator&& is evil (because such overloads are no longer lazy and evaluate their params in undefined order) unless they are used for expression templates (where that does not matter) like in this case.
    – ltjax
    Dec 25, 2010 at 15:47
2

In modern C++ can pass any operator by using lambdas.
Update 1: the proposed solution introduces small improvement which is suggested by @HolyBlackCat

#include <iostream>

template<class T, class F> void reveal_or(T a, T b, F f)
{
    // using as function(a, b) instead of expression a || b is the same thing
    if ( f(a, b) ) 
        std::cout << a << " is || " << b << std::endl;
    else
        std::cout << a << " is not || " << b << std::endl;

}

template<class T> void reveal_or(T a, T b)
{
    // reuse the already defined ||
    reveal_or(a, b, [](T t1, T t2) {return t1 || t2; });
}

Don't bother how to pass parameter if || operator is defined

int main ()
{
    reveal_or('1', 'a');
    return 0;
}

Passing explicitly as parameter. We can pass anything, including including any exotic nonsense

int main ()
{
    //same as above:
    reveal_or('1', 'a', [](char t1, char t2) { return t1 || t2; });
    //opposite of above
    reveal_or('1', 'a', [](char t1, char t2) { return !( t1 || t2; ) });

    return 0;
}
1
  • 1
    Having std::function as a default argument saves typing, but gives you extra overhead compared to a plain lambda. I'd write two overloads, one with 3 params and no default args, and the other with two parameters, calling the first one. May 28, 2021 at 11:53
-2

It's hard to be realized. In C++, function parameter need an memroy address to find its object, but operator is decided in compile time. Operator won't be a object. So you can think about MACRO to finish your task.

4
  • This isn't true. STL functors are typically not function pointers. Dec 25, 2010 at 15:31
  • I think that STL functors is also an object, so it also has a memory address to send into function parameter.
    – erinus
    Dec 25, 2010 at 15:47
  • that’s irrelevant. You can overload operators and pass them to functions. It just so happens that this cannot be done (for no good reasons) with pre-defined operators of built-in types. So passing operators to functions definitely works – just not in this very particular case (unless you use the trick shown by DeadMG, then it even works for this case). Dec 25, 2010 at 18:21
  • Thanks for Konrad. I don't know this. And I wanna know that: overload operator -> create class's RTTI extra info for the operator, so for compiler, it's not a default operator(compiler make it with default binary code). overload parameter will compile to reference RTTI to know how operator handle its action. so it can pass the reference, and default operator can't pass. Is it right?(I'm not good at English. Sorry.)
    – erinus
    Dec 25, 2010 at 18:42

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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