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While declaring a structure in C, say:

typedef struct my_stuct {
 int x;
 float f;

If we want to create an instance of this struct and use it, we explicitly need to call malloc, get a pointer to the memory location for this struct before we can actually initialize/use any of the members of the structure:

STRT * my_struct_instance = (STRT *) (malloc(sizeof(STRT)));

However, if I declare a primitive data type (say "int a;") and then want to initialize it (or do any other operation to it), I do not need to explicitly assign mempory space for it by calling malloc before performing any operation on it:

// we do not need to do a malloc(sizeof(i)) blah blah here. Why?
i = 10;

Can you please explain what is the reason for this inconsistency? Thank you!

share|improve this question
STRT object; works fine, though the members will be uninitialized. – chris Jan 4 '13 at 18:47
STRT object = {3, 5}; there, initialised. – Daniel Fischer Jan 4 '13 at 18:49
@user721998, int i; does NOT initialize i and malloc does not initialize it either. – chris Jan 4 '13 at 18:51
@user721998 you don't. You can put structs on the stack just like ints. – Daniel Fischer Jan 4 '13 at 18:51
@Griwes, This would be the place: stackoverflow.com/questions/605845/… – chris Jan 4 '13 at 18:58

There is no inconsistency. Each of the two methods can be used both with primitives and with structs:

  STRT s1 = {1, 2};
  int i1 = 1;

  STRT *s2 = (STRT *)malloc(sizeof(STRT));
  int *i2 = (int *)malloc(sizeof(int));
share|improve this answer
Let's say I want to declare the stucture variable and initialize it in two seperate steps like this: STRT struct_var; struct_var->x = 10; struct_var->y = 10.0; This would not work, unless I do not explicitly assign 'struct_var' a memory location using malloc(). However, you can easily do that in primitive data types as: int i; i=10; – Darth.Vader Jan 4 '13 at 18:54
@user721998: Change -> to . and it will work. – NPE Jan 4 '13 at 18:55
@user721998, That's not initializing. That's assigning to the members. – chris Jan 4 '13 at 18:56
@chris: sorry I used the wrong terminology – Darth.Vader Jan 4 '13 at 18:57
@user721998: s->x is the same as (*s).x, i.e. it only works if s is a pointer. Here, it isn't. – NPE Jan 4 '13 at 18:59

you can do:

int i;


int *i = (int*) malloc(sizeof(int));

just like you can do

STRT my_struct_instance;


STRT * my_struct_instance = (STRT *) (malloc(sizeof(STRT)));
share|improve this answer

In your malloc example, you are using pointers. The inconsistency, as you call it, is because a pointer can be initialized in several ways. It is not always initialized by a new memory allocations, but it can also be initialized to point at an existing memory block. So, it is not possible for the language to assume that the variable should be allocated on the heap:

STRT* my_struct_instance; // here I assume (incorrectly) that it is automatically allocated on the heap
my_struct_instance->x = 0; // ERROR: uninitialized use of that variable

Don't know if that answers your question.

share|improve this answer

You can do it in both ways, there isn't any inconsistency.


int* a= malloc(sizeof(int));
STRT* b= malloc(sizeof(STRT));


int a=10;
STRT b= {1, 1.0};
share|improve this answer
*b= {1, 1.0}; are you sure? – Alter Mann Jan 4 '13 at 18:54
Not so sure now, thank you :-) – Ramy Al Zuhouri Jan 4 '13 at 19:12
you're welcome, maybe you meant compound literals *b = (STRT){1, 1.0}; valid in C99 – Alter Mann Jan 4 '13 at 19:20
STRT * my_struct_instance = (STRT *) (malloc(sizeof(STRT)));

uses dynamic storage;

int a;

uses automatic storage (I'm using C++ names right now, but it is probably called similarly in C). So, those are two completely different things. int a; is local, on (in most implementations) stack (although stack is not relevant implementation detail); SRTR * [...] is dynamic, on (in most implementations) heap (although, again, heap is not relevant implementation detail).

So, there is no inconsistency. Saying there is one is like saying that there is inconsistency between apples and oranges - but of course there is, since you are comparing apples and oranges. (The other parts of the question don't make sense, since they are based on assumption that apples and oranges are one and the same thing).

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