I'm having trouble with the following syntax in C:

float (*func(unsigned id))(float value) {

I understand that:

  • It is a definition of a function called func
  • func accepts one argument of type unsigned called id
  • func returns a pointer to a function that looks like: float f(float value)

But I don't understand why the return value of f (the returned function pointer) is separated from its argument list.

Also, is: func(unsigned id) an expression that evaluates to some pointer? Is this the reason why (*func(unsigned id)) works?

Can someone clarify this syntax step by step?

  • Not worth adding as an answer, but cdecl is a command line tool that will explain this for you. – abligh Nov 23 '14 at 12:48

The expression func(id) returns a pointer to a function that takes a float as argument and returns a float.

float(*f)(float v);  // pointer to a function 
float val;     

f = func(3);       // returns a pointer to a function 
val = (*f)(3.14);  // calls the function pointed to with argument 3.14

Of course, you could rewrite the last statement:

val = (*func(3))(3.14);  // take the ptr returned by func(3) and call the function pointed to. 

If you have a function like:

float fct1 (float v) { return 2.0f*v+3.1f; }  

you could write:

f = fct1;       // reassign the pointer to function f to the adress of fct1

Let's look at the syntax. The C11 standard (draft N1570) states in point 1: that "The expression that denotes the called function) shall have type pointer to function" and in point 3 that: "A postfix expression followed by parentheses () containing a possibly empty, comma-separated list of expressions is a function call."

This covers of course the usual cases:

 val = fct1 (3.14);   // fct1 is the function designator which adresses the function  
 val = (*f) (3.14);  // (*f) the dereferenced function pointer, so it addresses the function

But the following is also valid according to standard:

 val  = f(3.14);    //  This works as well, because f is a pointer to a function
 val = func(3)(3.14)  // works also because func(3) is a pointer to a function

However first expression is ambiguous for the human reader, who might think of f as a function designator, expecting it to be defined somewhere. And the second is unusual as well. Furthermore, earlier versions of C didn't recognize them. My K&R edition for 1978 required the form (*f)() to call a function pointer.

A last syntactic remark: If you would define f as float *f (float); it wouldn't be understood as a pointer to a function, but as a forward declaration of a plain function called f and returning a pointer to float. Why ? Because the C precedence rules give () a higer precedence than * meaning that the compiler would understand it as (float *)(f(float)). This is why an explicit parenthesis is required to show that (*f) is the function pointer.


Take this step-by-step with help from C gibberish ↔ English

float (*func(unsigned id))(float value) { ... }

First replace "func" with "f" as that nifty web-site has trouble with "func" and then remove parameter names.

float (*f(unsigned ))(float )
// declare f as function (unsigned) returning pointer to function (float) returning float

From this, f is function declaration that takes an unsigned id. That's the f(unsigned ) part.

It returns a variable x as if it was declared float (*x)(float ). The first half of this is, as OP observed, is separate from the 2nd half in the original declaration of the function.

Suggest experiment with that site remembering to not use "func"


int f2(unsigned ); 
// declare f2 as function (unsigned) returning int
int (*f3(unsigned ));
// declare f3 as function (unsigned) returning pointer to int
int (*f4)(unsigned );
// declare f4 as pointer to function (unsigned) returning int
int (*f5(unsigned ))(char);
// declare f5 as function (unsigned) returning pointer to function (char) returning int
  • Very nice! So your f3 is just the extended form of how we all know it - int *f3(unsigned)? – barak manos Sep 4 '14 at 22:42
  • @barak manos Yes - the same. Added f3 as it would help to explain OP's (*func(unsigned id)). – chux - Reinstate Monica Sep 4 '14 at 22:51
  • 1
    Got it. Never had to return a function-pointer. I guess that's why the syntax looked so unreadable. It seems pretty pointless to do that anyway. I can't really think of any scenario in which I would need to return a function-pointer... Thanks – barak manos Sep 4 '14 at 22:54
   float (*func(unsigned id))(float value);

Is the declaration of a function which takes an unsigned int as an argument and returns a pointer to a function.

The function to which the pointer points to (the function f) takes one float as argument and returns float. It's declaration is:

float f(float value);

The name of the func function:

float (*func(unsigned id))(float value);

The argument of the function func:

float (*func(unsigned id))(float value);

The return type of the function func:

  float (*func(unsigned id))(float value);
  ^^^^^^^^                  ^^^^^^^^^^^^^

If the function had no argument it would look like this:

float (*func())(float value);

You asked:Also, is: func(unsigned id) an expression that evaluates to some pointer?

No, it is the name func and the argument (unsigned id) of the function

Are you starting to see now what is func? It is a function which returns a pointer which points to another declared function.

I included the code in which you can explicitly see what is the return value of the func function compared with the referencing of the f function.

#include <stdio.h>

float f(float value);
float (*func(unsigned id))(float value);

int main()

    /* print the address of the f function
     * using the return value of function func
    printf("func return value: %p\n\n", func(2)); 

      /* print the address of the f function referencing
       * its address
     printf("referencing f address: %p\n", &f); 

    return 0;

float (*func(unsigned id))(float value)
    printf("Original function with argument id = %d called\n", id);
    return f;

float f(float value)
    printf("f function\n");
    return 0.1;

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