Typedef is very useful for portable names, tag names (typedef struct foo Foo;) and keeping complicated (function) declarations readable (typedef int (*cmpfunc)(const void *, const void *);).

But are there situations in C where a typedef is really truly needed? Where you cannot accomplish the same by simple writing out the derived type.

To clarify a bit: I mean for language users, not implementers. The whole of stdint.h is a good example of the second category.


Thanks for all your input. I think I can summarise it as:

  • The C99 library needs typedef to implement the various (u)intN_t types.
  • On C89 you really want to use typedefs yourself to create similar portable types.
  • You might need typedef when using the va_arg macro, but I doubt you will encounter these derivative types in practise.
  • How else would you define portable types, if not for typedef? – Michael Foukarakis Sep 30 '10 at 10:28
  • @Michael: I wouldn't have to, given that the implementation might already give me int32_t, etc. – schot Sep 30 '10 at 11:38

15 Answers 15


A typedef is, by definition, an alias. As such, you always could replace the alias with the actual type. It wouldn't be an alias otherwise.

That doesn't mean avoiding typedef would be a good idea.

  • No, I won't avoid typedef :) But apparently the evil macro va_arg might require a typedef. (See my own answer.) – schot Sep 30 '10 at 11:41
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    You can semantically replace a typedef-name with the actual type. But you can't always replace it textually. So, in the code that critically depends on textual substitution (macros like va_arg, for example), you have no other choice but to use a typedef-name. – AnT Sep 30 '10 at 19:50
  • Although this might not be 100% good I chose this over my own answer because mine seems a bit to theoretical in retrospect. – schot Sep 30 '10 at 20:13

Thanks all for your answers. I looked some more myself and found this in C99, J.2 Undefined behaviour:

The behavior is undefined in the following circumstances: [...]

  • The type parameter to the va_arg macro is not such that a pointer to an object of that type can be obtained simply by postfixing a * (

So when you want to pass/extract complicated derived types to va_arg such as int (*)[] you need to typedef this type to something for which this is possible (updated/corrected):

typedef int (*intarrptr)[4];
intarrptr x = va_arg(ap, intarrptr);

Since it is difficult to find and actual useful case for this one might conclude that it is not a strong argument for the necessity of typedef.

  • That code doesn't actually make sense (error: array initialized from non-constant array expression)... – Oliver Charlesworth Sep 30 '10 at 11:45
  • @Oli Charlesworth: Yes, I made a mistake in writing this tricky derived type. See the updated example. – schot Sep 30 '10 at 11:54
  • @schot: Still not valid. Do you mean typedef int (*intarrptr)[4];? – Oliver Charlesworth Sep 30 '10 at 11:57
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    I think this is the first actual example of where typedef would be necessary in user code (as opposed to internal to the compiler's headers, etc). Nice find :) – bdonlan Sep 30 '10 at 12:25
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    @Oli: In order to get a pointer-to-int (*)[4], it's not sufficient to tack on a * at the end - you have to insert it into the middle, as in int (**)[4]. However, the va_args macros can't alter the insides of a passed-in parameter, they can only tack on tokens in the end. That's why this restriction is in place. – bdonlan Sep 30 '10 at 13:01

From wikipedia:

typedef is a keyword in the C and C++ programming languages. The purpose of typedef is to assign alternative names to existing types, most often those whose standard declaration is cumbersome, potentially confusing, or likely to vary from one implementation to another.1

Based on that definition, no it's never required as you can always just write out the expanded form. However, there may be macro definitions which choose a typedef to use based on platform or something else. So always using the expanded form may not be very portable.

  • You cannot use the fully expanded form in the offsetof() macro. – Sjoerd Sep 30 '10 at 10:57
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    And if the name contains a comma, you need a typoedef to use it in macros. – tstenner Sep 30 '10 at 11:44
  • @tstenner: What's an example of a name containing a comma? – Oliver Charlesworth Sep 30 '10 at 11:53
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    @tstenner: Answer my own question: void(*)(int,int). Then yes, this seems to be the canonical counterexample! – Oliver Charlesworth Sep 30 '10 at 11:56
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    I'm still trying to decide if typoedef is brilliant or an accident. – Ken Sep 30 '10 at 19:28

it is definitely required, a good example is size_t which is typedef'd on various platforms.

  • You could use unsigned int or unsigned long in place of size_t, so it's not a great example. Something like int32_t would be a better one which might require a different typedef on different platforms. – JeremyP Sep 30 '10 at 10:05
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    It is required in the sense of "being able to write platform-independent code". But on a given platform, you could theoretically just substitute in the typedef type everywhere. – Oliver Charlesworth Sep 30 '10 at 10:06
  • As I see it, size_t can very well be a distinct type, different from all other unsigned integer types. intN_T are required to be typedefs, but see my added note to the question. – schot Sep 30 '10 at 10:11
  • The question is if typedef is required - the compiler could certainly implement size_t with a #define or primitive type instead, so this isn't evidence that typedef is required. – bdonlan Sep 30 '10 at 10:18
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    @schot: intN_t are required to be typedefs, but they need not be typedefs for one of the standard integer types (ie signed char, short, int, ...) as the C standard allows for implementation-defined extended integer types – Christoph Sep 30 '10 at 10:22

The keyword typedef is definitely needed in test suites that check a C compiler for ISO-C compliance.

In code that is not explicitly supposed to use typedef (like the test suite above) it is often very helpful but never essential because it only establishes an alias to another type. It does not create a type.

Finally, I would not count things like avoiding a compiler limit on preprocessed source file size through the abbreviation typedefs can offer.


Yes. Integer types that have to be a fixed size. e.g. int32_t (and you want your code to have a fighting chance of being portable).

  • If you want your code to be portable, don't write code which depends upon variable type length in bytes! – user82238 Sep 30 '10 at 12:24
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    @Blank Xavier: there are plenty of cross platform applications where you legitimately need integer types of a known size. Anything dealing with binary files or network protocols, for instance. – JeremyP Sep 30 '10 at 13:21

The offsetof() macro requires a structname and a membername, and thus cannot be used with inline struct definitions. Well, maybe on your implementation it can, but it isn't guaranteed by the C standard.

Update: As pointed out in the comments, this is possible:

struct blah { int a; int b; };
x = offsetof(struct blah, a); // legal

But inlining the struct definition is not:

x = offsetof(struct {int a; int b;}, a); // illegal

The former does not contain the keyword typedef, but inlining the struct definition is not possible either. Which version is indicated by "simple writing out the derived type" is unclear.

  • You can do struct blah { int a; int b; }; ... offsetof(struct blah, a);, surely? – Oliver Charlesworth Sep 30 '10 at 10:43
  • I interpreted the question as asking whether offsetof( struct { int a; int b; } , a) was possible. – Sjoerd Sep 30 '10 at 10:45


A typedef does not create a truely new type as say a class in C++, it merely creates a type alias - a single identifier for something else that already exists. In a typedef, you define no new behaviour, semantics, conversions or opeators.


No. I think I'm safe in saying that!

  • A combination of intuition, and the fact that I can't think of a counterexample. It's quite hard to prove a negative! Not worthy of a downvote, really... – Oliver Charlesworth Sep 30 '10 at 10:25

I know of no cases where typedef is explicitly needed in C.


doesn't 'extremely useful' mean requied?

not even hard for me to think about a project with struct for each struct member,pointer,arguement,and so on.


To me, typedef provides abstraction. It keeps my code clean and very easy to understand. You can live without typedef just like you can live without all high level languages and sticking with assembly or machine language.


Individual programmers are not required to create their own typedefs. There's no universal rule saying I can't write things like

int *(*(*x())[5])();

if I so desire (although my company's coding standards may frown on it).

They're all over the standard library, however (FILE, size_t, etc.), so you really can't avoid using typedef names.


We use typedef to at work keep code platform independent. Like for example, we do something like

typedef unsigned char SHORT;

this makes code more readable and easy to port.

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    Consider using the types from stdint.h (uint8_t, int32_t, int_fast8_t, etc.) instead of your own "platform independent" types. A type called SHORT has limited meaning to me, and I'd be surprised not only that it wasn't the same as a short int, but it's less than 16 bits and unsigned! – tomlogic Sep 30 '10 at 22:22

Without typedef, you have to use the keyword struct everytime if you use a struct in declarations. With typedef, you can omit this.

struct Person
  char * name;

struct Person p; /* need this here*/

typedef struct _Person
  char * name;
} Person;

Person p; /* with typedef I can omit struct keyword here */
  • -1 for using _Person - this results in undefined behavior (identifier begins with underscore followed by a capital letter). Also you're inconsistent about whether you use the underscore or not, so as written the code is broken. – R.. GitHub STOP HELPING ICE Sep 30 '10 at 11:53
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    Not even convenient - this is evil. Fully obscuring a type is good; PARTIALLY obscuring a type is VERY VERY BAD. – user82238 Sep 30 '10 at 12:25
  • @Blank: You argued this yesterday (stackoverflow.com/questions/3821112/good-practice-in-c/…), but I've yet to understand why typedef-ing a struct is different to typedef-ing any other type, and why it's "VERY VERY BAD"! – Oliver Charlesworth Sep 30 '10 at 13:46
  • Actaully, I need to update that slightly - if the typedefed entity is a struct, it has a unique type of its own, so you don't even get additional type checking (whereas a series of say ints as arguments, where each was given its own type, would produce additional type checking). – user82238 Sep 30 '10 at 13:57

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