I'm learning how to dynamically load DLL's but what I don't understand is this line

typedef void (*FunctionFunc)();

I have a few questions. If someone is able to answer them I would be grateful.

  1. Why is typedef used?
  2. The syntax looks odd; after void should there not be a function name or something? It looks like an anonymous function.
  3. Is a function pointer created to store the memory address of a function?

So I'm confused at the moment; can you clarify things for me?

  • 7
    Take a look at the link (last section) learncpp.com/cpp-tutorial/78-function-pointers May 3, 2013 at 3:28
  • 25
    Should be noted that since c++11 using FunctionFunc = void (*)(); can be used instead. It is a bit more clear that you are just declaring a name for a type (pointer to function)
    – user362515
    Jan 8, 2016 at 11:55
  • 1
    just to add to @user362515, a bit clearer form to me is: using FunctionFunc = void(void);
    – topspin
    May 28, 2016 at 21:15
  • 5
    @topspin IIRC these two are not the same. One is a function pointer type, the other is function type. There is implicit conversion, that's why it works, IANA(C++)L so, one can step in and correct me. In any case, if the intend is to define a pointer type I think the syntax with the * is a bit more explicit.
    – user362515
    May 31, 2016 at 18:11
  • 1
    Here is a related question I asked a long time ago about why both myFuncPtr() and (*myFuncPtr)() are both valid function calls. Feb 5, 2022 at 2:01

6 Answers 6


typedef is a language construct that associates a name to a type.
You use it the same way you would use the original type, for instance

typedef int myinteger;
typedef char *mystring;
typedef void (*myfunc)();

using them like

myinteger i;   // is equivalent to    int i;
mystring s;    // is the same as      char *s;
myfunc f;      // compile equally as  void (*f)();

As you can see, you could just replace the typedefed name with its definition given above.

The difficulty lies in the pointer to functions syntax and readability in C and C++, and the typedef can improve the readability of such declarations. However, the syntax is appropriate, since functions - unlike other simpler types - may have a return value and parameters, thus the sometimes lengthy and complex declaration of a pointer to function.

The readability may start to be really tricky with pointers to functions arrays, and some other even more indirect flavors.

To answer your three questions

  • Why is typedef used? To ease the reading of the code - especially for pointers to functions, or structure names.

  • The syntax looks odd (in the pointer to function declaration) That syntax is not obvious to read, at least when beginning. Using a typedef declaration instead eases the reading

  • Is a function pointer created to store the memory address of a function? Yes, a function pointer stores the address of a function. This has nothing to do with the typedef construct which only ease the writing/reading of a program ; the compiler just expands the typedef definition before compiling the actual code.


typedef int (*t_somefunc)(int,int);

int product(int u, int v) {
  return u*v;

t_somefunc afunc = &product;
int x2 = (*afunc)(123, 456); // call product() to calculate 123*456
  • 7
    in the last example, wouldn't just 'square' refer to the same thing i.e pointer to the function instead of using &square.
    – pranavk
    Mar 5, 2013 at 13:32
  • 3
    Question, in your first typedef example you have of the form typedef type alias but with function pointers there only seems to be 2 arguments, typedef type. Is alias defaulted to the name specified in type argument?
    – dchhetri
    May 3, 2013 at 3:56
  • 3
    @pranavk: Yes, square and &square (and, indeed, *square and **square) all refer to the same function pointer. May 3, 2013 at 3:58
  • 9
    @user814628: It is not clear quite what you're asking. With typedef int newname, you are making newname into an alias for int. With typedef int (*func)(int), you are making func into an alias for int (*)(int) — a pointer to function taking an int argument and returning an int value. May 3, 2013 at 4:01
  • 15
    I guess I'm just confused about the ordering. With typedef int (*func)(int), I understand that func is an alias, just a little confused because the alias is tangled with the type. Going by typedef int INT as an example I would be more of ease if typedef function pointer was of form typedef int(*function)(int) FUNC_1. That way I can see the type and alias in two separate token instead of being meshed into one.
    – dchhetri
    May 3, 2013 at 5:07
  1. typedef is used to alias types; in this case you're aliasing FunctionFunc to void(*)().

  2. Indeed the syntax does look odd, have a look at this:

    typedef   void      (*FunctionFunc)  ( );
    //         ^                ^         ^
    //     return type      type name  arguments
  3. No, this simply tells the compiler that the FunctionFunc type will be a function pointer, it doesn't define one, like this:

    FunctionFunc x;
    void doSomething() { printf("Hello there\n"); }
    x = &doSomething;
    x(); //prints "Hello there"
  • 29
    typedef does not declare a new type. you can have many typedef-defined names of the same type, and they are not distinct (e.g. wrt. overloading of functions). there are some circumstances in which, with respect to how you can use the name, a typedef-defined name is not exactly equivalent to what it's defined as, but multiple typedef-defined names for the same, are equivalent. Nov 28, 2010 at 5:00

Without the typedef word, in C++ the declaration would declare a variable FunctionFunc of type pointer to function of no arguments, returning void.

With the typedef it instead defines FunctionFunc as a name for that type.


If you can use C++11 you may want to use std::function and using keyword.

using FunctionFunc = std::function<void(int arg1, std::string arg2)>;
  • 2
    without C++11 using keyword would be like typedef std::function<void(int, std::string)> FunctionFunc;, just in case someone wants another wrapper around functions without C++11
    – Top-Master
    Mar 11, 2019 at 4:25
  • 2
    std::function is fundamentally something different than a function pointer and has way worse performance in exchange for other features
    – Post Self
    Jan 16, 2023 at 23:19
  • Please note this disadvantage of std::function : if after that, you need to compare a FunctionFunc myFunc with the name of a normal function (or with another std::function), it will be really hard.. this is not the case if you use the classic function pointer : using FunctionFunc = void(*)(int, std::string); Jul 6, 2023 at 13:24
#include <stdio.h>
#include <math.h>

To define a new type name with typedef, follow these steps:
1. Write the statement as if a variable of the desired type were being declared.
2. Where the name of the declared variable would normally appear, substitute the new type name.
3. In front of everything, place the keyword typedef.

// typedef a primitive data type
typedef double distance;

// typedef struct 
typedef struct{
    int x;
    int y;
} point;

//typedef an array 
typedef point points[100]; 

points ps = {0}; // ps is an array of 100 point 

// typedef a function
typedef distance (*distanceFun_p)(point,point) ; // TYPE_DEF distanceFun_p TO BE int (*distanceFun_p)(point,point)

// prototype a function     
distance findDistance(point, point);

int main(int argc, char const *argv[])
    // delcare a function pointer 
    distanceFun_p func_p;

    // initialize the function pointer with a function address
    func_p = findDistance;

    // initialize two point variables 
    point p1 = {0,0} , p2 = {1,1};

    // call the function through the pointer
    distance d = func_p(p1,p2);

    printf("the distance is %f\n", d );

    return 0;

distance findDistance(point p1, point p2)
distance xdiff =  p1.x - p2.x;
distance ydiff =  p1.y - p2.y;

return sqrt( (xdiff * xdiff) + (ydiff * ydiff) );
  • 1
    Under what circumstances is the '&' needed? For example, do 'func_p = &findDistance' and 'func_p = findDistance' work equally well?
    – Donna
    Oct 30, 2017 at 14:06
  • 1
    A function name is a pointer, so you do not need to use '&' with it. In other words, '&' is optional when function pointers are considered. However, for primitive data type you need to use the '&' to get its address.
    – Amjad
    Oct 30, 2017 at 16:41
  • 1
    It has just always struck as odd that the '&' can ever be optional. If a typedef is used to create a pointer to a primitive (i.e. typedef (*double) p, is the '&' optional?
    – Donna
    Oct 31, 2017 at 17:39
  • I think you wanted to type typedef double* p to define a pointer to a double. If you want to populate the p pointer from a primitive variable, you will need to use the '&'. A side note, we you *<pointer name> to dereference a pointer. The * is used in the function pointer to dereference the pointer (function name) and go to the block of memory where the function instructions are located.
    – Amjad
    Oct 31, 2017 at 20:16

For general case of syntax you can look at annex A of the ANSI C standard.

In the Backus-Naur form from there, you can see that typedef has the type storage-class-specifier.

In the type declaration-specifiers you can see that you can mix many specifier types, the order of which does not matter.

For example, it is correct to say,

long typedef long a;

to define the type a as an alias for long long. So , to understand the typedef on the exhaustive use you need to consult some backus-naur form that defines the syntax (there are many correct grammars for ANSI C, not only that of ISO).

When you use typedef to define an alias for a function type you need to put the alias in the same place where you put the identifier of the function. In your case you define the type FunctionFunc as an alias for a pointer to function whose type checking is disabled at call and returning nothing.

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