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I try to pass std::log as a functional argument, but it seems that there are overloaded implementations of std::log and the compiler failed to resolve it. Codes:

#include <cmath>
#include <iostream>
#include <vector>
#include <string>
#include <functional>

template <typename FOper>
double Eval(FOper fOper, double X)
    return fOper(X);

int main(int argc, char* argv[])
    std::function<double(double)> fPlus1 = std::bind(std::plus<double>(), 1.0, std::placeholders::_1);
    std::cout<<Eval(fPlus1, 10.0)<<std::endl;
    //  how to write this fLog ?
    //std::function<double(double)> fLog = std::log;
    //std::function<double(double)> fLog = std::log<double>;
    std::cout<<Eval(fLog, 10.0)<<std::endl;
    return 0;

The complier prompts an error message if I uncomment either line of the definition of fLog:

error: conversion from '<unresolved overloaded function type>' to non-scalar type 'std::function<double(doubl
e)>' requested
share|improve this question
FYI: Names like _This and __this are reserved for the implementation. – Xeo Feb 13 '12 at 9:08
You have to wrap std::log. The fact that it is an overloaded function (and not a template) prevents you to use std::log<double> as a functor. Something like [](double x) -> { return std::log(x); } is enough. – Alexandre C. Feb 13 '12 at 9:12
To @Xeo: I have changed the naming style. – Yun Huang Feb 13 '12 at 9:13
up vote 3 down vote accepted

Like Xeo explained, it is possible to get it to work even when the function is overloaded using an explicit cast. However, since you're using std::function already (which is a C++11 feature), you might as well just use a lambda expression as initializer:

function<double(double)> fLog = [](double x){return std::log(x);};

This is preferable in C++11 because it avoids overloading issues. Also, it is more efficient than wrapping a function pointer because it saves one level of indirection and therefore allows the lambda's body to be inlined into the internal wrapper object's function call operator.

It should probably be stressed that the use of std::function in your example is unnecessary since Eval is already a function template and the type parameter FOper can exactly match the type of the function object without the need to wrap it inside std::function. So, if you don't need the type erasure you get by using std::function, you could just as well write

template <typename FOper>
double Eval(FOper fOper, double X)
    return fOper(X);

int main()
    auto flog = [](double x){return std::log(x);};
    std::cout << Eval(flog, 10.0) << std::endl;
share|improve this answer
Good style! But the compiler can usually perform constant value optimization on a function pointer passed into an algorithm, and simple implementations of std::function will always use an indirect call because the complexity of that class may require a virtual dispatch before it even decides a lambda or function pointer needs to be followed. – Potatoswatter Feb 13 '12 at 13:48
@Potatoswatter: Sure, std::function has some levels of indirection (two I think) which cannot be circumvented. From what I can tell, using a function pointer would add another level whereas the lambda's function call operator could be inlined in the last level (the std::function's internal wrapper). But I don't know what the actual runtime difference is. I guess the lambda version is better -- at least in case std::log is a compiler intrinsic. – sellibitze Feb 13 '12 at 14:17
Couldn't you just use auto fLog to avoid the indirection levels of std::function? – Kleist Feb 13 '12 at 14:53
@Kleist: Yes, and since the OP is using templates anyways, he may aswell just pass that or the function pointer directly, but maybe the code in the question is just an example and the OP actually needs to store the function, in which case std::function makes sense. – Xeo Feb 13 '12 at 22:22
@Kleist: Sure. But I assumed that there is a reason for using std::function in the first place. But you're right. In the context of the Eval function template it should be mentioned that std::function is unnecessary in this case. I'll add this bit to the answer ... – sellibitze Feb 14 '12 at 10:30

The easiest way would be to simply cast it:

typedef double (*log_d)(double);
std::function<double(double)> fLog = static_cast<log_d>(std::log);

With the cast, you hand the compiler a context in which the overloaded function is used, and as such will get the correct function pointer out of it.

share|improve this answer

You do this:

typedef double (*logtype)(double);
std::function<double(double)> fLog = (logtype) std::log;

The cast will help compiler to select the correct overload.

You can also write this:

double (*fLog )(double) =  std::log; //i.e don't use std::function

std::cout<<Eval(fLog, 10.0)<<std::endl;
share|improve this answer

The issue is that something like this on its own has no meaning:

std::bind( std::log, _1 ); // cannot resolve. bind what function? What will _1 be passed as?

log is not a template so you can't call std::log<double> in there.

You can make your own template though, that will resort to log:

template< typename T >
T logT( T t )
   return std::log( t );

and now you can use logT in your code.

std::bind( logT<double>, _ 1 ) // should work.

You could of course make fLog a function pointer to logT if you want. With C++11 you can use auto etc. to not have to type out its type by hand.

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