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I've encountered the following code:

typedef int var[1]; // or var[3]

what does it actually do? I don't understand what does the subscript add, since now I can define "var" for int

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I think this defines that var test would declare an int array with the array size of 1 – xQuare Aug 24 '12 at 20:26
Please don't use typedef like this. – Rapptz Aug 24 '12 at 20:30
@Rapptz: That is actually quite common in metaprogramming to have types of known to differ sizes: typedef char yes; typedef char (&no)[2]; then create two overloads that return yes and no, and test which is selected with sizeof( f(...) ) == sizeof(yes) --this depends only on sizeof(yes)!=sizeof(no) – David Rodríguez - dribeas Aug 24 '12 at 20:51
Incidentally, var is a bad name for a type. The name implies that var is a variable rather than a type. – Keith Thompson Aug 24 '12 at 21:06
up vote 2 down vote accepted

var is a type definition for an int array of size one.

You can write

var x;

and x will be a variable of type int[1]

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so it's the same as typedef int[3] var; ? – lezebulon Aug 24 '12 at 20:28
@lezebulon no. typedef int[3] var; is illegal. – Luchian Grigore Aug 24 '12 at 20:29
Note that var x; cannot be written anywhere, it must be written in specific locations. You may want to clarify that, a beginner might get confused. – GManNickG Aug 24 '12 at 20:37
@LuchianGrigore: Right, as written you've specified that it can be written, but failed to specify where. A beginner might get confused. (Do you see how annoying this pedantry is?) – GManNickG Aug 24 '12 at 20:45
@GManNickG: var x; is a variable declaration. Of course it can only be written in certain places. I fail to see why that's worth mentioning in this answer. – Keith Thompson Aug 24 '12 at 21:06

typedef declarations use the same syntax as ordinary variable declarations. The difference is that instead of declaring "a variable named x of type y," you declare "a type named x that is a synonym for type y." The syntax is otherwise the same.

So, let's remove the typedef from your example and see what we get:

int var[1];

var is a variable whose type is int[1], or, an array of one int. If we add the typedef back:

typedef int var[1];

this makes var a synonym for the type int[1].

The same works for other kinds of ugly or complex types:

int (*fp)(int);         // fp is a function pointer variable
typedef int (*fp)(int); // fp is a function pointer type

You can avoid most of this confusion by using an identity template, declared as

template <typename T> struct identity { typedef T type; };

Using this template, the meaning of a complex type or variable declaration is much clearer. For example, we can declare our types like so:

typedef identity<int[1]     >::type var; // array type
typedef identity<int(*)(int)>::type fp;  // function pointer type

and because variable declarations use the same syntax as type declarations, we can declare variables that have a complex using identity as well:

identity<int[1]     >::type var; // array variable
identity<int(*)(int)>::type fp;  // function pointer variable
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