Consider the following typedefs :

typedef int (*f1)(float);
typedef f1 (*f2)(double);
typedef f2 (*f3)(int);

f2 is a function that returns a function pointer. The same with f3, but the type of the function, the pointer to which f3 returns, is f2. How can I define f3 without the typedefs? I know typedefs are the cleaner and easier to understand way to define f3. However, my intention here is to understand C syntax better.

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    C or C++? Because C++ has some easier ways to express such things. – Puppy May 25 '12 at 17:27
  • 7
    cdecl is your friend – Robᵩ May 25 '12 at 17:43
  • cdecl.org only translates from c-syntax to English. It's not very useful for going the other way, since you have to word your declaration perfectly in the form that it expects, and that's not how English or any other natural language works. – Benjamin Lindley May 25 '12 at 17:48
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    Agreed. I use a specific strategy to help with that. I start with a simple declaration that I know is valid. explain then creates an English-language form for that declaration. I copy-paste and carefully extend that English-language form, add the verb declare, and, voila, I've got the answer I seek. – Robᵩ May 25 '12 at 18:20
  • You should be using std::function instead... the same reason you should use std::vector instead of new/delete. – Inverse May 28 '12 at 5:15

Start with your declaration for f1:

int (*f1)(float);

You want f2 to be a pointer to a function returning f1, so substitute f1 in the declaration above with the declaration for f2:

int (*      f1     )(float);
      |           |
      v           v
int (*(*f2)(double))(float);

The declaration reads as

        f2                   -- f2
       *f2                   -- is a pointer
      (*f2)(      )          -- to a function
      (*f2)(double)          --   taking a double parameter
     *(*f2)(double)          --   returning a pointer
    (*(*f2)(double))(     )  --   to a function
    (*(*f2)(double))(float)  --     taking a float parameter
int (*(*f2)(double))(float)  --     returning int

You repeat the process for f3:

int (*(*    f2    )(double))(float);
        |        |
        v        v
int (*(*(*f3)(int))(double))(float);

which reads as

          f3                           -- f3
         *f3                           -- is a pointer
        (*f3)(   )                     -- to a function
        (*f3)(int)                     --   taking an int parameter
       *(*f3)(int)                     --   returning a pointer
      (*(*f3)(int))(      )            --   to a function
      (*(*f3)(int))(double)            --     taking a double parameter
     *(*(*f3)(int))(double)            --     returning a pointer
    (*(*(*f3)(int))(double))(     )    --     to a function
    (*(*(*f3)(int))(double))(float)    --       taking a float parameter
int (*(*(*f3)(int))(double))(float);   --       returning int
  • 10
    +1, as this really answers the original question, which was about the correct syntax in C... – Macmade May 25 '12 at 18:30
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    This answer should be mass-printed and distributed in computer engineering schools, it's the simplest and best way to understand function pointers declaration syntax, thank you John Bode ! – Ki Jéy Jul 22 '16 at 13:37
  • Thanks, John! I was wondering where you have learned that? Is there some good book which explains it? – Tim Aug 11 '17 at 20:07
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    @Tim: It's mainly a matter of understanding declaration syntax, which unfortunately is not explained very well in most references. It just kind of "clicked" one day, and suddenly hairy declarations made sense. – John Bode Aug 12 '17 at 3:13

In C++, the miracle of templates can make this a tad easier.

#include <type_traits>

>::type wow;
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    The question was about C syntax, even if the post was tagged with C++, so it's not relevant IMHO... But nice answer by the way. : ) – Macmade May 25 '12 at 18:31
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    This is perhaps cleaner than not using any aids whatsoever (neither typedef or add_pointer), but the typedef approach is still cleaner (IMHO). – David Hammen May 25 '12 at 19:31
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    @Macmade: You tag C++, you get a C++ answer. – Puppy May 28 '12 at 20:17

The same as with the typedef, only you place your function definition in place of its name.

Here's how f2 would look like:

typedef int (*(*f2)(double))(float);

You can do f3 as an exercise, since I'm assuming this is homework ;)

  • The answer you give is readily available using a google search. However, the syntax for more than one level (function returning function pointer returning function pointer) is not very easy to find. And the homework reference was unwarranted. – keveman May 25 '12 at 17:38
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    It's exactly the same, replace f2 in my form with your f3 typedef. Not sure what you mean by Google search, it's basic C syntax.. – Blindy May 25 '12 at 17:38
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    search for "function returning function pointer" and you will find the answer you just posted. However, search for "function returning function pointer returning function pointer" and you wouldn't find the answer you are looking for. – keveman May 25 '12 at 17:40
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    @keveman: He gave you a very simple rule to follow that should allow you to construct any form you want. Why are you complaining that google also gives you part of the answer? – Benjamin Lindley May 25 '12 at 17:41
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    @keveman- That definition doesn't match your original description. Enter it into cdecl.org and you'll get a detailed description. I think your function arguments need to be in the order int->double->float. – bta May 25 '12 at 17:50

Just don't. It can be done, but it will be very confusing. Typedef's are there to ease writing and reading this short of code.

A function f that takes no arguments and returns a function pointer int (*)(float) would probably be something like (untested):

int (*f())(float);

Then for the rest you just need to keep adding parenthesis until it looks like lisp.

  • +1: Just don't. The lispish appearance of John Bode's answer is `nuff said. – David Hammen May 25 '12 at 19:32

Learn the the right-left rule:

The "right-left" rule is a completely regular rule for deciphering C declarations. It can also be useful in creating them.


Use std::function:

typedef std::function<int(float)> f1;
typedef std::function<f1(double)> f2;
typedef std::function<f2(int)>    f3;


typedef std::function<std::function<std::function<int(float)>(double)>(int)> f3;

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