As others have stated, functions are declared this way so that, within the scope of the function, that variable will not be changeable and in doing so, your compiler should warn you.
As to why you might want to do this, consider what passing a pointer allows you to do - namely, you can dereference the pointer you have passed and edit the values of the data to which it points. Using const is a good way to prevent yourself accidentally editing the value of something the caller thinks is unchanged.
By example, consider this:
void add(int* result, const int* x, int* y)
*result = *x + *y;
(*y)++; /* <-- the caller won't expect this! */
int main(int argc, char** argv)
int a = 7;
int b = 10;
int c = 0;
add(&c, &a, &b);
printf("%d + %d = %d\n", a, b, c);
This spits out
7+11=17. Now this is a trivial, non-serious case but all sorts of things might happen were we to be relying on anything important...
If you stick const against the y variable, you should get:
constexample.c: In function ‘add’:
constexample.c:7:5: error: increment of
read-only location ‘*y’
Edit, for further clarification:
One good reason to declare a
const type for a non-pointer variable is for a variable that represents the size of something, or any variable that holds the maximum value of an array. Consider:
int editstring(char* result, ..., const char* source, const size_t source_len);
Now, you say to yourself, but I'd never edit
source_len. Well, let's say in your algorithm you do for whatever reason. If your change increases the value of source_len, you run the risk of accessing memory beyond what you've allocated.. Setting
const there will generate a compiler error if you try to modify that value.
I should point out, in double underlines, that const is only a way of saying to the compiler "I promise not to edit this". It does not guarantee that the memory is read-only, but it's a way of marking your intention such that you trap errors. If you don't need to modify it, declare it const.
And since you asked, the assembly generated by the two versions is identical.