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How do I avoid implicit casting on non-constructing functions?
I have a function that takes an integer as a parameter,
but that function will also take characters, bools, and longs.
I believe it does this by implicitly casting them.
How can I avoid this so that the function only accepts parameters of a matching type, and will refuse to compile otherwise?
There is a keyword "explicit" but it does not work on non-constructing functions. :\
what do I do?

The following program compiles, although I'd like it not to:

#include <cstdlib>

//the function signature requires an int
void function(int i);

int main(){

    int i{5};
    function(i); //<- this is acceptable

    char c{'a'};
    function(c); //<- I would NOT like this to compile

    return EXIT_SUCCESS;

void function(int i){return;}

*please be sure to point out any misuse of terminology and assumptions

share|improve this question
by the way, the ability to pass a char, long, bool, or basically any other integer type where an int is expected is because of integer promotion and conversion rules that are built into the language. This is a different mechanism than the implicit conversions done with non-explicit constructors. –  Geoff Reedy Oct 13 '12 at 22:40
+1 for question with no really good general solutions yet! –  Cheers and hth. - Alf Oct 13 '12 at 23:41

5 Answers 5

up vote 6 down vote accepted

You can't directly, because a char automatically gets promoted to int.

You can resort to a trick though: create a function that takes a char as parameter and don't implement it. It will compile, but you'll get a linker error:

void function(int i) 
void function(char i);

Calling the function with a char parameter will break the build.

See http://ideone.com/2SRdM

Terminology: non-construcing functions? Do you mean a function that is not a constructor?

share|improve this answer
non-constructing functions? Do you mean a function that is not a constructor? I do –  Trevor Hickey Oct 13 '12 at 22:35
Since the OP uses C++11, we can =delete it and get a compilation error, not a linker error. –  ybungalobill Oct 13 '12 at 22:39
@ybungalobill c++11 solutions are good. I thought I could only delete functions that are operators inside classes though –  Trevor Hickey Oct 13 '12 at 22:44
@LuchianGrigore yes, because of the initializer list syntax for i and c –  Geoff Reedy Oct 13 '12 at 22:44
@ybungalobill you should add that as the answer, it's much better. –  Luchian Grigore Oct 13 '12 at 22:48

Define template function which matches all other types:

void function(int); // this will be selected for int only

template <class T>
void function(T) = delete; // C++11 

This is because non template functions with direct matching are always considered first. Then template function with direct match are considered - so never function<int> will be used. But for anything else, like char, function<char> will be used - and this gives your compilation errrors:

void function(int) {}

template <class T>
void function(T) = delete; // C++11 

int main() {
   function(char(1)); // line 12


prog.cpp: In function 'int main()':
prog.cpp:4:6: error: deleted function 'void function(T) [with T = char]'
prog.cpp:12:20: error: used here

This is C++03 way:

// because this ugly code will give you compilation error for all other types
template <class TEST> class A;
template <> class A<int> {};

template <class T>
void function(T)
   return A<T>();
share|improve this answer
for me the assertions fails even when function is called only with int parameters –  Geoff Reedy Oct 13 '12 at 22:32
@GeoffReedy me too –  Trevor Hickey Oct 13 '12 at 22:35
@GeoffReedy - static_assert always happens - no matter if instatianted or not. I updated my answer - now it works –  PiotrNycz Oct 13 '12 at 22:44
@Xploit - simpler version which works: ideone.com/4JcnB –  PiotrNycz Oct 13 '12 at 22:50

Here's a general solution that causes an error at compile time if function is called with anything but an int

template <typename T>
struct is_int { static const bool value = false; };

template <>
struct is_int<int> { static const bool value = true; };

template <typename T>
void function(T i) {
  static_assert(is_int<T>::value, "argument is not int");

int main() {
  int i = 5;
  char c = 'a';


  return 0;

It works by allowing any type for the argument to function but using is_int as a type-level predicate. The generic implementation of is_int has a false value but the explicit specialization for the int type has value true so that the static assert guarantees that the argument has exactly type int otherwise there is a compile error.

share|improve this answer
this is a good solution, but if I do this for a lot of functions, won't I have a lot of structs sitting around in my executable? –  Trevor Hickey Oct 13 '12 at 23:02
No, you shouldn't. No instances of the struct are ever created, it is only used to resolve the constant value. –  Geoff Reedy Oct 14 '12 at 17:04

Maybe you can use a struct to make the second function private:

#include <cstdlib>

struct NoCast {
    static void function(int i);
    static void function(char c);

int main(){

    int i(5);
    NoCast::function(i); //<- this is acceptable

    char c('a');
    NoCast::function(c); //<- Error

    return EXIT_SUCCESS;

void NoCast::function(int i){return;}

This won't compile:

prog.cpp: In function ‘int main()’:
prog.cpp:7: error: ‘static void NoCast::function(char)’ is private
prog.cpp:16: error: within this context
share|improve this answer
a fair answer, but I'd perfer to avoid scoping –  Trevor Hickey Oct 13 '12 at 22:58

Well, I was going to answer this with the code below, but even though it works with Visual C++, in the sense of producing the desired compilation error, MinGW g++ 4.7.1 accepts it, and invokes the rvalue reference constructor!

I think it must be a compiler bug, but I could be wrong, so – anyone?

Anyway, here's the code, which may turn out to be a standard-compliant solution (or, it may turn out that that's a thinko on my part!):

#include <iostream>
#include <utility>      // std::is_same, std::enable_if
using namespace std;

template< class Type >
struct Boxed
    Type value;

    template< class Arg >
        Arg const& v,
        typename enable_if< is_same< Type, Arg >::value, Arg >::type* = 0
        : value( v )
        wcout << "Generic!" << endl;

    Boxed( Type&& v ): value( move( v ) )
        wcout << "Rvalue!" << endl;

void function( Boxed< int > v ) {}

int main()
    int i = 5;
    function( i );  //<- this is acceptable

    char c = 'a';
    function( c );  //<- I would NOT like this to compile
share|improve this answer
Oh man - look at my 2 line solution: template <class T> void function(T) = delete;.... –  PiotrNycz Oct 13 '12 at 23:27
@PiotrNycz: yes, I saw that - after I wrote the above code. I think it's nifty, nice, but also quite limited, since you cannot have a templated overload. The above would be a more general, reusable solution, if it should turn out to be standard compliant. –  Cheers and hth. - Alf Oct 13 '12 at 23:33

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