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In my code I have to use several functions as lambdas, such as you should provide, for example, to qsort.
So when I was passing a function of type int, program was working fine. But when I added also another function of type double, the error message appeared:

1.c:44:29: error: invalid operands to binary < (have 'double *' and 'double')

from the line:

return (*getter)(a) < target

Where getter is the pointer to:

double get_sex(struct human* a) { // it's the second function I've passed
    return a->sex;

The only difference between two functions I've passed is that the first one is int and the second is double.

sometype somefunction (some parameters,
        int *comparator(struct human*, double, double *(struct human*)),
        double *getter(struct human*) ) {

I started to inspect it with sizeof and found, that somehow the code (*getter)(*a) returns 4 bytes instead of 8, so it must be a pointer instead of double. That's why I had that error message.
I went to Wikipedia for an example and found additional (). I've added them, and now it returns 8 bytes and works fine.

        double (*getter)(struct human*) ) {

So the question is: why should I add parentheses around getter but not around comparator? Is the reason that function returns double instead of int?!
It's something about syntax detail I never heard about.

(I use the compiler that I found on my Windows already installed – from the Perl interpreter Strawberry)

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You should post a small, complete example that shows the problem. The answer is likely to depend on a small detail. –  Michael Burr Nov 28 '12 at 21:19

3 Answers 3

up vote 2 down vote accepted

Your problem comes from that:

double *getter(struct human*)

is implicitly converted to:

double *(*getter)(struct human*)

This is why you get error because you cannot compare (double *) and double

You do not have some problems with int because your pointer (int *) is cast to int and comparison can be done. However, your compiler should warn you about implicit conversion from pointer to integer.

The problem here is that I have never seen that you can declare a function pointer parameter in such a way. I tried to write a piece of code and apparently it works. However, this might be some non-standard behavior of GCC. Correct way to define pointers to functions is with parentheses. I.e.

double (*getter)(struct human*)  /* 'getter' is a pointer to function taking
                                    struct human and returning double */
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In this expression:

int myfunc( double *getter(struct human*) );

...getter has function type (function type returning pointer to double). While in this:

int myfunc( double (*getter)(struct human*) );

...it has function pointer type (pointer to function type returning double).

Function types and function pointer types work essentially the same way because function types decay to function pointer types almost instantly in most cases. I believe this is what the standard says here: (C99,

A function designator is an expression that has function type. Except when it is the operand of the sizeof operator or the unary & operator, a function designator with type ‘‘function returning type’’ is converted to an expression that has type ‘‘pointer to function returning type’’.

So, your expression:

return (*getter)(a) < target;

...decays getter from a function type to a function pointer type (of type double * (*)(struct human*)), as per the standard, though you wanted double (*)(struct human*).

You should get a warning, as soon as you pass your function to somefunction, that they are of incompatible types, something like:

warning: passing argument 2 of ‘somefunction’ from incompatible pointer type

Also, see this answer for details, as well as this interesting one.

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You don't provide all of your code, so I'm just guessing that you're doing something like:

if (comparator(h, val, getter)) { ... }

where comparator includes:

return getter(h) < val;

or something like that.

The key here is that the result of getter is used by the operator <. The result of comparator, on the other hand, is converted to a boolean (well, not really: this is C. But it's the same idea.) And you can implicitly convert any pointer to a boolean (that is, an integer), without raising any warnings.

So what happens is:

  1. comparator returns an int, but

  2. The caller is expecting an int*. That's ok, though; pointers and integers are returned the same way.

  3. The caller now wants to use the int* as though it were an int, which is also OK.

So no error.

And furthermore, the zero-ness of the return value is preserved by the accidental cast and by the implicit conversion, so as a bonus, you get the right answer.

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