Initialization of Variables in C

In the absence of explicit initialization, external and static variables are guaranteed to be initialized to zero; automatic variables (including register variables) have indeterminate1 (i.e., garbage) initial values.

Scalar variables may be initialized when they are defined by following the name with an equals sign and an expression:

int x = 1;
char squota = '\\'';
long day = 1000L * 60L * 60L * 24L; /* milliseconds/day */

For external and static variables, the initializer must be a constant expression2; the initialization is done once, conceptually before the program begins execution.

For automatic and register variables, the initializer is not restricted to being a constant: it may be any expression involving previously defined values, even function calls.

For example, see the code snippet below

int binsearch(int x, int v[], int n)
{
   int low = 0;
   int high = n - 1;
   int mid;
   ...
}

instead of

int low, high, mid;

low = 0;
high = n - 1;

In effect, initialization of automatic variables are just shorthand for assignment statements. Which form to prefer is largely a matter of taste. We generally use explicit assignments, because initializers in declarations are harder to see and further away from the point of use. On the other hand, variables should only be declared when they’re about to be used whenever possible.

Initializing an array:

An array may be initialized by following its declaration with a list of initializers enclosed in braces and separated by commas.

For example, to initialize an array days with the number of days in each month:

int days_of_month[] = { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }

(Note that January is encoded as month zero in this structure.)

When the size of the array is omitted, the compiler will compute the length by counting the initializers, of which there are 12 in this case.

If there are fewer initializers for an array than the specified size, the others will be zero for all types of variables.

It is an error to have too many initializers. There is no standard way to specify repetition of an initializer — but GCC has an extension to do so.

In C89/C90 or earlier versions of C, there was no way to initialize an element in the middle of an array without supplying all the preceding values as well.

With C99 and above, designated initializers allow you to initialize arbitrary elements of an array, leaving any uninitialized values as zeros.