#define MAXROW 20
#define MAXCOL 60
typedef State Grid[MAXROW+2] [MAXCOL+2]
typedef enum state {DEAD,ALIVE} State

How do I use typedef and typedef enum in C? What does this part of the code do?

  • 3
    Welcome to SO! The question is a bit too basic, and most likely has already been asked on SO. What material are you using to learn C? You should find a better material which answers that question, or else you will get bogged down too much by questions. Look for best C tutorials on Google and SO. – Ciro Santilli 郝海东冠状病六四事件法轮功 Dec 6 '13 at 14:51
  • 1
    Actually i know basic C but that grid statement is what i am not clearly getting – user39555 Dec 6 '13 at 14:55
typedef enum state {DEAD,ALIVE} State;
|     | |                     | |   |^ terminating semicolon, required! 
|     | |   type specifier    | |   |
|     | |                     | ^^^^^  declarator (simple name)
|     | |                     |    
|     | ^^^^^^^^^^^^^^^^^^^^^^^  
|     |
^^^^^^^-- storage class specifier (in this case typedef)

The typedef keyword is a pseudo-storage-class specifier. Syntactically, it is used in the same place where a storage class specifier like extern or static is used. It doesn't have anything to do with storage. It means that the declaration doesn't introduce the existence of named objects, but rather, it introduces names which are type aliases.

After the above declaration, the State identifier becomes an alias for the type enum state {DEAD,ALIVE}. The declaration also provides that type itself. However that isn't typedef doing it. Any declaration in which enum state {DEAD,ALIVE} appears as a type specifier introduces that type into the scope:

enum state {DEAD, ALIVE} stateVariable;

If enum state has previously been introduced the typedef has to be written like this:

typedef enum state State;

otherwise the enum is being redefined, which is an error.

Like other declarations (except function parameter declarations), the typedef declaration can have multiple declarators, separated by a comma. Moreover, they can be derived declarators, not only simple names:

typedef unsigned long ulong, *ulongptr;
|     | |           | |  1 | |   2   |
|     | |           | |    | ^^^^^^^^^--- "pointer to" declarator
|     | |           | ^^^^^^------------- simple declarator
|     | ^^^^^^^^^^^^^-------------------- specifier-qualifier list
^^^^^^^---------------------------------- storage class specifier

This typedef introduces two type names ulong and ulongptr, based on the unsigned long type given in the specifier-qualifier list. ulong is just a straight alias for that type. ulongptr is declared as a pointer to unsigned long, thanks to the * syntax, which in this role is a kind of type construction operator which deliberately mimics the unary * for pointer dereferencing used in expressions. In other words ulongptr is an alias for the "pointer to unsigned long" type.

Alias means that ulongptr is not a distinct type from unsigned long *. This is valid code, requiring no diagnostic:

unsigned long *p = 0;
ulongptr q = p;

The variables q and p have exactly the same type.

The aliasing of typedef isn't textual. For instance if user_id_t is a typedef name for the type int, we may not simply do this:

unsigned user_id_t uid;  // error! programmer hoped for "unsigned int uid". 

This is an invalid type specifier list, combining unsigned with a typedef name. The above can be done using the C preprocessor:

#define user_id_t int
unsigned user_id_t uid;

whereby user_id_t is macro-expanded to the token int prior to syntax analysis and translation. While this may seem like an advantage, it is a false one; avoid this in new programs.

Among the disadvantages that it doesn't work well for derived types:

 #define silly_macro int *

 silly_macro not, what, you, think;

This declaration doesn't declare what, you and think as being of type "pointer to int" because the macro-expansion is:

 int * not, what, you, think;

The type specifier is int, and the declarators are *not, what, you and think. So not has the expected pointer type, but the remaining identifiers do not.

And that's probably 99% of everything about typedef and type aliasing in C.

| improve this answer | |
  • Shouldnt it be ulongptr q = p for both p and q to have exactly same type? The way you wrote, you can have ulong *q = p and that would have exactly same type as unsigned long *p – Bhargav Aug 25 '16 at 5:33
  • @Bhargav You are right, that is a typo. ulongptr *q = p requires a diagnostic; it's a conversion between dis-similar pointer types without a cast. – Kaz Aug 25 '16 at 5:51
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    +2 for Godlike ASC art skillz. – kmiklas Feb 1 '19 at 16:20

typedef defines a new data type. So you can have:

typedef char* my_string;
typedef struct{
  int member1;
  int member2;
} my_struct;

So now you can declare variables with these new data types

my_string s;
my_struct x;

s = "welcome";
x.member1 = 10;

For enum, things are a bit different - consider the following examples:

enum Ranks {FIRST, SECOND};
int main()
   int data = 20;
   if (data == FIRST)
      //do something

using typedef enum creates an alias for a type:

typedef enum Ranks {FIRST, SECOND} Order;
int main()
   Order data = (Order)20;  // Must cast to defined type to prevent error

   if (data == FIRST)
      //do something
| improve this answer | |
  • 1
    in the second example,how does 20 and first or second get compared? – user39555 Dec 6 '13 at 15:10
  • 1
    enum is a integer type; first value in the enum is 0 (unless otherwise specified) second is the first value+1 (0+1 in this case) and so on. When you declare a variable of type enum_data_type, you can only assign it values which exist in the enum....the compiler does the verification. – Pandrei Dec 6 '13 at 15:13
  • so in the 2nd example,if(data==FIRST) is false,will it be true if i assign int data=0? – user39555 Dec 6 '13 at 15:30
  • 7
    typedef doesn't define a new data type; it defines an identifier for an existing data type. – Kaz Jan 7 '16 at 23:26
  • 2
    Using typedef with an enum does not affect the properties of the enum. Your second pair of examples: firstly it is a red herring, in the first one you could have written enum Ranks data = 20; instead of int data = 20;. But in both cases, it is permitted to assign 20 to a variable of the enum type, it is not an error. – M.M Aug 25 '16 at 6:39

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