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Please help me to figure out a very basic confusion as follows,

 struct node {
        struct node *next; // no compile error
 }

is ok, but the following gives an compile error(unknown type). I know it is wrong, but unable to figure out a clear reason.

 struct node {
        struct node next; // compile error, unknown type..why?
 } 
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  • 1
    How many bytes would a struct node be? Nov 12, 2013 at 3:03

5 Answers 5

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C allows you to have pointers to incomplete types.

struct node *next is a forward reference to struct node, but since you're only declaring a pointer to that type, the compiler doesn't mind. This is explicitly allowed, and it enables building structures that refer to each other.

You don't need a complete type to declare a pointer. Now a member struct node next; you'd get an error as it is a never-ending recursion.

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Syntactically, it's because a struct type is incomplete until the closing }. You can use an incomplete type to declare a pointer to it, but the the type itself.

Furthermore, it doesn't make sense to define a struct that has itself in it, the size of it is unknown.

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the struct is not fully defined at that point. If its a pointer, it does know how big a pointer to a struct is.

and if you think about what you are trying to do, a recursive data type, its gets a tad odd, it would be an infinite recursion.

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The main reason is that node is not a complete type until you finish defining node and close it with } and so the compiler does not have enough information but you are allowed to have a pointer to an incomplete type.

The more basic reason is if node contained a node it would require infinite space since the self reference would never end. A node contains a node contains a node ad infinitum.

If we look at the draft C99 standard section 6.2.5 Types says:

[...] incomplete types (types that describe objects but lack information needed to determine their sizes)

and also says (*emphasis mine*0:

A pointer type may be derived from a function type, an object type, or an incomplete type, called the referenced type.[...]

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It would take an infinite amount of memory to store this struct.

The struct has to be large enough to store all of it`s members. However one of it's members is a struct of the same type, so it needs to store enough memory for two sets of members. But wait, that inner struct contains another instance of the struct inside itself - so we have three sets of members. And that inner contains an inner struct, which itself, contains an inner struct, and so on to infinity.

It is then logically impossible for a struct to contain itself.

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