I have always been a bit stumped when I read other peoples' code which had typedefs for pointers to functions with arguments. I recall that it took me a while to get around to such a definition while trying to understand a numerical algorithm written in C a while ago. So, could you share your tips and thoughts on how to write good typedefs for pointers to functions (Do's and Do not's), as to why are they useful and how to understand others' work? Thanks!
Perfectly obscurely obvious - it's a function that takes two arguments, an integer and a pointer to a function that takes an integer as an argument and returns nothing, and it (
If you write:
then you can instead declare
This means the same thing, but is usually regarded as somewhat easier to read. It is clearer that the function takes an
It takes a bit of getting used to, though. The one thing you can't do, though is write a signal handler function using the
I'm still of the old-school that prefers to invoke a function pointer as:
Modern syntax uses just:
I can see why that works - I just prefer to know that I need to look for where the variable is initialized rather than for a function called
Let's try again. The first of these is lifted straight from the C standard - I retyped it, and checked that I had the parentheses right (not until I corrected it - it is a tough cookie to remember).
First of all, remember that
The 'returns nothing' part is spelled
After creating the signal handler type, I can use it to declare variables and so on. For example:
Please note How to avoid using
So, what have we done here - apart from omit 4 standard headers that would be needed to make the code compile cleanly?
The first two functions are functions that take a single integer and return nothing. One of them actually doesn't return at all thanks to the
Then I create an array of structures, where each element identifies a signal number and the handler to be installed for that signal. I've chosen to worry about 3 signals; I'd often worry about
The program then does its stuff and exits normally.
Note that the name of a function can be regarded as a pointer to a function of the appropriate type. When you do not apply the function-call parentheses - as in the initializers, for example - the function name becomes a function pointer. This is also why it is reasonable to invoke functions via the
So, thus far, I've shown that a
Now we get back to the question - how do the two declarations for
Let's review the second declaration:
If we changed the function name and the type like this:
you would have no problem interpreting this as a function that takes an
Now, instead of being a
The mechanics by which that can also be treated as:
are tricky to explain - so I'll probably screw it up. This time I've given the parameters names - though the names aren't critical.
In general, in C, the declaration mechanism is such that if you write:
then when you write
In the standard,
means that when you see a variable of type
the result has
So, if we declared:
it means that:
represents a void value. And therefore:
is equivalent. Now,
If that still confuses you, I'm not sure how to help - it is still at some levels mysterious to me, but I've grown used to how it works and can therefore tell you that if you stick with it for another 25 years or so, it will become second nature to you (and maybe even a bit quicker if you are clever).
A function pointer is like any other pointer, but it points to the address of a function instead of the address of data (on heap or stack). Like any pointer, it needs to be typed correctly. Functions are defined by their return value and the types of parameters they accept. So in order to fully describe a function, you must include its return value and the type of each parameter is accepts. When you typedef such a definition, you give it a 'friendly name' which makes it easier to create and reference pointers using that definition.
So for example assume you have a function:
then the following typedef:
can be used to point to this
So you can create a pointer which points to the doMultiplication function as follows:
and you can invoke the function using this pointer as follows:
This makes good reading: http://www.newty.de/fpt/index.html
As far as tips for making complicated declarations easier to parse for future maintenance (by yourself or others), I recommend making
And is (in fact) exactly how I generated that crazy mess above.
A very easy way to understand typedef of function pointer:
Output of this is :
Note that, same math_func definer has been used for the declaring both the function.
Same approach of typedef may be used for extern struct.(using sturuct in other file.)
This is the simplest example of function pointers and function pointer arrays that I wrote as an exercise.