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typedef int (*P)(char *(*)());

int (*P)(char *(*)());

Both seems to be doing the same thing to me,what's the typedef there for?

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The first declares a type called P that you can use in the declaration of other variables. The second declares a variable of that same type.

For illustrative purposes:

typedef int (*P)(char *(*)());

int main() {
    int (*Q)(char *(*)());
    P R;

In this example the variables Q and R have exactly the same type.

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You are on fire mate! 945 rep in 4 days! +1 – alex Nov 11 '10 at 2:15
Haha, thanks. Yeah... I should probably, you know, go outside for some fresh air soon. – cdhowie Nov 11 '10 at 2:18
That fresh air is overrated :D – alex Nov 11 '10 at 2:21
So are sunlight and exercise... two of my least favorite things! – cdhowie Nov 11 '10 at 2:22

The typedef defines P to be a function pointer type. The second version defines P to be a function pointer.

A type can be used to declare variables. After

typedef int (*P)(char *(*)());

you can use

P p;

which will be equivalent to

int (*p)(char *(*)());
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The simple answer would be you are creating a new datatype through typedef.

Let's take a simple example, in embedded system we use only unsigned numbers. Now 1 way is I write

unsigned int xyz;

So here I would have to type unsigned everywhere.. What if I forget to type unsigned somewhere, it's very difficult to figure out that if the code is released. So simple way would be

typedef unsigned int uint;

So now you can use uint as a datatype. So whenever parser encounter uint, it would read it as unsigned int.

So in your case you can use P as a datatype in code. So Like in the first example

P xyz ; 

would be parsed as

int (*xyz)(char *(*)());
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