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I'm a beginner in C programming, but I was wondering what's the difference between using typedef when defining a structure versus not using typedef. It seems to me like there's really no difference, they accomplish the same.

struct myStruct{
    int one;
    int two;
};

vs.

typedef struct{
    int one;
    int two;
}myStruct;

marked as duplicate by Jonathan Leffler c Jun 5 '16 at 22:23

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12 Answers 12

up vote 820 down vote accepted

The common idiom is using both:

typedef struct X { 
    int x; 
} X;

They are different definitions. To make the discussion clearer I will split the sentence:

struct S { 
    int x; 
};

typedef struct S S;

In the first line you are defining the identifier S within the struct name space (not in the C++ sense). You can use it and define variables or function arguments of the newly defined type by defining the type of the argument as struct S:

void f( struct S argument ); // struct is required here

The second line adds a type alias S in the global name space and thus allows you to just write:

void f( S argument ); // struct keyword no longer needed

Note that since both identifier name spaces are different, defining S both in the structs and global spaces is not an error, as it is not redefining the same identifier, but rather creating a different identifier in a different place.

To make the difference clearer:

typedef struct S { 
    int x; 
} T;

void S() { } // correct

//void T() {} // error: symbol T already defined as an alias to 'struct S'

You can define a function with the same name of the struct as the identifiers are kept in different spaces, but you cannot define a function with the same name as a typedef as those identifiers collide.

In C++, it is slightly different as the rules to locate a symbol have changed subtly. C++ still keeps the two different identifier spaces, but unlike in C, when you only define the symbol within the class identifier space, you are not required to provide the struct/class keyword:

 // C++
struct S { 
    int x; 
}; // S defined as a class

void f( S a ); // correct: struct is optional

What changes are the search rules, not where the identifiers are defined. The compiler will search the global identifier table and after S has not been found it will search for S within the class identifiers.

The code presented before behaves in the same way:

typedef struct S { 
    int x; 
} T;

void S() {} // correct [*]

//void T() {} // error: symbol T already defined as an alias to 'struct S'

After the definition of the S function in the second line, the struct S cannot be resolved automatically by the compiler, and to create an object or define an argument of that type you must fall back to including the struct keyword:

// previous code here...
int main() {
    S(); 
    struct S s;
}
  • 19
    Great answer shows me also why I want to typedef, so it can't be overwritten as a function, thanks : ) – Alexander Varwijk Jul 20 '13 at 12:41
  • 7
    @AlexanderVarwijk: You want to typedef to avoid the need to qualify with struct or enum. If the naming conventions you use allow for a function and a type by the same name, the best you can do is review how you name the elements of your program. – David Rodríguez - dribeas Jul 20 '13 at 18:45
  • 4
    @panzi: I cannot think of any downside, on the contrary, it will probably make more sense for other users if the type and the typename have the same name. – David Rodríguez - dribeas Oct 22 '13 at 4:35
  • 8
    This answer explains how the compiler works, and using typedef is a good idea— however, it doesn't explain why the struct should be given a name when using the typedef-only form of declaration (2nd example in the question). This is also where I've been at a loss for ~15 years of off-and-on C/C++ programming, and the most important piece of information beyond what I've been taught: “just always use typedef; not using it is a pain in the ass”. – Slipp D. Thompson Sep 13 '15 at 18:50
  • 5
    @SlippD.Thompson The reason to give the struct a name in the tag namespace is so that it could possibly be forward-declared. typedef-only creates an alias to an anonymous struct, and this cannot be forward-declared. stackoverflow.com/a/612350/2757035 – underscore_d Apr 9 '16 at 16:14

struct and typedef are two very different things.

The struct keyword is used to define, or to refer to, a structure type. For example, this:

struct foo {
    int n;
};

creates a new type called struct foo. The name foo is a tag; it's meaningful only when it's immediately preceded by the struct keyword, because tags and other identifiers are in distinct name spaces. (This is similar to, but much more restricted than, the C++ concept of namespaces.)

A typedef, in spite of the name, does not define a new type; it merely creates a new name for an existing type. For example, given:

typedef int my_int;

my_int is a new name for int; my_int and int are exactly the same type. Similarly, given the struct definition above, you can write:

typedef struct foo foo;

The type already has a name, struct foo. The typedef declaration gives the same type a new name, foo.

The syntax allows you to combine a struct and typedef into a single declaration:

typedef struct bar {
    int n;
} bar;

This is a common idiom. Now you can refer to this structure type either as struct bar or just as bar.

Note that the typedef name doesn't become visible until the end of the declaration. If the structure contains a pointer to itself, you have use the struct version to refer to it:

typedef struct node {
    int data;
    struct node *next; /* can't use just "node *next" here */
} node;

Some programmers will use distinct identifiers for the struct tag and for the typedef name. In my opinion, there's no good reason for that; using the same name is perfectly legal and makes it clearer that they're the same type. If you must use different identifiers, at least use a consistent convention:

typedef struct node_s {
    /* ... */
} node;

(Personally, I prefer to omit the typedef and refer to the type as struct bar. The typedef save a little typing, but it hides the fact that it's a structure type. If you want the type to be opaque, this can be a good thing. If client code is going to be referring to the member n by name, then it's not opaque; it's visibly a structure, and in my opinion it makes sense to refer to it as a structure. But plenty of smart programmers disagree with me on this point. Be prepared to read and understand code written either way.)

(C++ has different rules. Given a declaration of struct blah, you can refer to the type as just blah, even without a typedef. Using a typedef might make your C code a little more C++-like -- if you think that's a good thing.)

  • 3
    This answer helped me better understand why both C89 libraries and the Linux kernel are more likely to use struct mystruct_t {} rather than typedef struct {} mystruct_t. – Josh Sanford Jul 25 '16 at 13:05

Another difference not pointed out is that giving the struct a name (i.e. struct myStruct) also enables you to provide forward declarations of the struct. So in some other file, you could write:

struct myStruct;
void doit(struct myStruct *ptr);

without having to have access to the definition. What I recommend is you combine your two examples:

typedef struct myStruct{
    int one;
    int two;
} myStruct;

This gives you the convenience of the more concise typedef name but still allows you to use the full struct name if you need.

  • 1
    There are ways to do forward declarations with typedef: typedef struct myStruct myStruct;; and then (later): struct myStruct { ... };. You can use it as either struct myStruct or just myStruct after that typedef (but the type is incomplete until that definition). – Tim Čas Feb 10 '15 at 14:20
  • It's also worth mentioning that C++, despite (conceptually) auto-typedef'ing tags and putting both struct SomeThing and Something in a single 'symbolspace', does make an explicit allowance for a manual typedef SomeThing to redefine to struct SomeThing... where you might otherwise assume this would generate an error about clashing names. Source: stackoverflow.com/a/22386307/2757035 I guess this was done for (slightly futile!) backwards compatibility reasons. – underscore_d Apr 9 '16 at 16:52
  • @underscore_d: At the time, people recognized the value in having code which could work equally well as C and C++, and wanted to avoid creating needless barriers to compatibility. Sadly, such thinking is no longer fashionable. – supercat Apr 15 '17 at 20:53

In C (not C++), you have to declare struct variables like:

struct myStruct myVariable;

In order to be able to use myStruct myVariable; instead, you can typedef the struct:

typedef struct myStruct someStruct;
someStruct myVariable;

You can combine struct definition and typedefs it in a single statement which declares an anonymous struct and typedefs it.

typedef struct { ... } myStruct;
  • 1
    The last block of code is not equivalent to the previous code. In the last line you are defining a type alias 'myStruct' into an unnamed struct. There are (very) subtle difference among the two versions. – David Rodríguez - dribeas Nov 4 '09 at 17:52
  • 4
    dribeas: I covered this subtle difference in the sentence "...a single statement which declares an anonymous struct and..." – Mehrdad Afshari Nov 4 '09 at 18:10
  • 1
    True, I seem to have skipped that part :) – David Rodríguez - dribeas Nov 5 '09 at 7:27
  • 3
    @anthony-arnold: Uhm... I think I already mentioned. In one case there is a type with a name and also an alias, in the other you only have an alias. Where does it matter? Seldomly, but if you have an annonymous type you cannot do struct T x; to declare a variable, or reuse the name for a different type of symbol: typedef struct {} f; void f(); struct f x; fails in the last two statements. Of course, having code like that is not recommended (a type and a function with the same name?) – David Rodríguez - dribeas Mar 21 '13 at 2:19
  • 2
    The accepted answer didn't do a good job contrasting "struct" and "typedef struct", this answer made it clear for me that the "typedef struct" technique is used so C can emulate C++ in order to omit "struct" when using the structure like a data type when passing it. – Ultimater Apr 7 '16 at 4:46

If you use struct without typedef, you'll always have to write

struct mystruct myvar;

It's illegal to write

mystruct myvar;

If you use the typedef you don't need the struct prefix anymore.

  • 2
    To the point answer. – Prateek Joshi Jun 3 '17 at 14:41
  • My answer is not up to date anymore. Current compilers treat "typedef struct" and "struct" the same. Both can be referenced without the "struct" prefix.. I.e. VC2013 behaves that way. – RED SOFT ADAIR Mar 29 at 13:23

In C, the type specifier keywords of structures, unions and enumerations are mandatory, ie you always have to prefix the type's name (its tag) with struct, union or enum when referring to the type.

You can get rid of the keywords by using a typedef, which is a form of information hiding as the actual type of an object will no longer be visible when declaring it.

It is therefore recommended (see eg the Linux kernel coding style guide, Chapter 5) to only do this when you actually want to hide this information and not just to save a few keystrokes.

An example of when you should use a typedef would be an opaque type which is only ever used with corresponding accessor functions/macros.

The difference comes in when you use the struct.

The first way you have to do:

struct myStruct aName;

The second way allows you to remove the keyword struct.

myStruct aName;

You can't use forward declaration with the typedef struct.

The struct itself is an anonymous type, so you don't have an actual name to forward declare.

typedef struct{
    int one;
    int two;
} myStruct;

A forward declaration like this won't work:

struct myStruct; //forward declaration fails

void blah(myStruct* pStruct);

//error C2371: 'myStruct' : redefinition; different basic types

The typedef, as it is with other constructs, is used to give a data type a new name. In this case it is mostly done in order to make the code cleaner:

struct myStruct blah;

vs.

myStruct blah;

The following code creates an anonymous struct with the alias myStruct:

typedef struct{
    int one;
    int two;
} myStruct;

You can't refer it without the alias because you don't specify an identifier for the structure.

I see some clarification is in order on this. C and C++ do not define types differently. C++ was originally nothing more than an additional set of includes on top of C.

The problem that virtually all C/C++ developers have today, is a) universities are no longer teaching the fundamentals, and b) people don't understand the difference between a definition and a declaration.

The only reason such declarations and definitions exist is so that the linker can calculate address offsets to the fields in the structure. This is why most people get away with code that is actually written incorrectly-- because the compiler is able to determine addressing. The problem arises when someone tries to do something advance, like a queue, or a linked list, or piggying-backing an O/S structure.

A declaration begins with 'struct', a definition begins with 'typedef'.

Further, a struct has a forward declaration label, and a defined label. Most people don't know this and use the forward declaration label as a define label.

Wrong:

struct myStruct
   {
   int field_1;
   ...
   };

They've just used the forward declaration to label the structure-- so now the compiler is aware of it-- but it isn't an actual defined type. The compiler can calculate the addressing-- but this isn't how it was intended to be used, for reasons I will show momentarily.

People who use this form of declaration, must always put 'struct' in practicly every reference to it-- because it isn't an offical new type.

Instead, any structure that does not reference itself, should be declared and defined this way only:

typedef struct
   {
   field_1;
   ...
   }myStruct;

Now it's an actual type, and when used you can use at as 'myStruct' without having to prepend it with the word 'struct'.

If you want a pointer variable to that structure, then include a secondary label:

typedef struct
   {
   field_1;
   ...
   }myStruct,*myStructP;

Now you have a pointer variable to that structure, custom to it.

FORWARD DECLARATION--

Now, here's the fancy stuff, how the forward declaration works. If you want to create a type that refers to itself, like a linked list or queue element, you have to use a forward declaration. The compiler doesn't consider the structure defined until it gets to the semicolon at the very end, so it's just declared before that point.

typedef struct myStructElement
   {
   myStructElement*  nextSE;
   field_1;
   ...
   }myStruct;

Now, the compiler knows that although it doesn't know what the whole type is yet, it can still reference it using the forward reference.

Please declare and typedef your structures correctly. There's actually a reason.

  • 4
    I don't believe C++ was ever "a set of includes on top of C". The first implementation, cfront was a preprocessor that translated C++ source code to C source code. And I disagree with your advice about using typedefs for structures, and particularly for pointers. Hiding a pointer type behind a typedef can be dangerous; it's better IMHO to make the fact that it's a pointer explicit by using *. In your final example, I'm curious about the rationale for using one name (myStruct) for the typedef and another (myStructElement) for the struct tag. – Keith Thompson May 7 '16 at 21:44
  • 2
    Much of this is a matter of stylistic preferences. I disagree rather strongly with most of your suggestions (which is not to say you're wrong). See my answer for a summary of my own preferences (which are shared by many, but certainly not all, C programmers). – Keith Thompson May 7 '16 at 21:45

With the latter example you omit the struct keyword when using the structure. So everywhere in your code, you can write :

myStruct a;

instead of

struct myStruct a;

This save some typing, and might be more readable, but this is a matter of taste

protected by Antti Haapala Jun 4 '16 at 5:56

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