Whereas in Java there is such a thing called a garbage collector, in C you are responsible of the memory management.
Java is 'give it to me'.
String s = MyFunction(); // Give it to me.
In Java when you call a function that retrieve data from somewhere it just allocate it transparently and return it, the garbage collector will free it later.
C is 'put it there'.
In C you have to manage the memory. The common practice is to first make some place to put the data then try to retrieve it.
Also your code should be more something like this:
char s[80]; // Static memory allocation, we hope it is enough.
scanf("%79s", s); // Now we retrieve data. (Put it there).
Or something like this:
char* s = malloc(80 * sizeof(char)); // Dynamic memory allocation, we hope it is enough.
scanf("%79s", s); // Now we retrieve data. (Put it there).
// Do stuff with data
free(s); // Be responsible.
So, yes, you should use the C style of assigning/returning values (it make sense, after all you are doing C).
One more point, if you code it like Java here what you will have:
char* MyTest() {
char* a = "pipo";
return a; // Big fail, 'a' is local and will not exist anymore after return.
}
char* MyOtherTest() {
char a[]= "pipo";
char* b = malloc(80 * sizeof(char));
strncpy(b, a, sizeof(a));
return b; // My bet this one will never be freed.
}
That last example breaks a well know good practice rule, the caller should be responsible of allocating/freeing the memory.
The only exception I see is for value type, like simple type or struct.
// Nice and simple.
int MyAdd(int a, int b) { return a+b; }
// Why ? just Why ?
void MyAdd(int a, int b, int* r) { *r = a+b; }
c
code is trying to use uninitialized variable. trychar c
andscanf("%d", &c)
char *c
, and you can't usec
without init/alloc