int *a; This defines a variable which is a pointer to an integer type. The pointer type variable a at the creation contains garbage value.- When you do
*a = 10; it ties to use the value stored in a , which is garbage, as an address and store the value 10 there. Because we do not know what a contains and it is not allocated so a points to some memory location which is unknown and accessing it will be illegal, and will get you a segmentation fault (or something similar).
- Same in the case of
printf ("%d", *a); . This also tries to access the value stored at some undefined memory location which you have not allocated.
.
this variable is this is the location
stored in some with the address
address on the 'garbage'. You do not
stack have permissions to
access this
+-------+---------+
| name | value |
+-------+---------+ +---------+
| a | garbage |---->| ????? |
+-------+---------+ +---------+
After you have defined the pointer type variable, you need to request for some memory location from the operating system and use that memory location value to store into a, and then use that memory location through a.
To do that you need to do the following:
int *a;
a = malloc (sizeof (int)); /* allocates a block of memory
* of size of one integer
*/
*a = 10;
printf ("%d", *a);
free (a); /* You need to free it after you have used the memory
* location back to the OS yourself.
*/
In this case it is like below:
After *a = 10; . The pointer variable is allocated in the stack. At this moment the a contains a garbage value. Then a points to an address with that garbage value.
this variable is this is the location
stored in some with the address
address on the 'garbage'. You do not
stack have permissions to
access this
+-------+---------+
| name | value |
+-------+---------+ +---------+
| a | garbage |---->| ????? |
+-------+---------+ +---------+
After a = (int *) malloc (sizeof (int)); . Let us assume that malloc returns you some address 0x1234abcd, to be used. At this moment a will contain 0x1234abcd then a points to a valid memory location which was allocated and reserved for you to be used. But note that the value inside 0x1234abcd can be anything, ie. garbage. You can use calloc to set the contents of the memory locations you allocate to 0.
this variable is this is the location
stored in some 0x1234abcd , allocated
address on the by malloc, and reserved
stack for your program. You have
access to this location.
+-------+------------+
| name | value |
+-------+------------+ +---------+
| a | 0x1234abcd |---->| garbage|
+-------+------------+ +---------+
After *a = 10; , by *a you access the memory location 0x1234abcd and store 10 into it.
this variable is this is the location
stored in some 0x1234abcd , allocated
address on the by malloc, and reserved
stack for your program. You have
access to this location.
+-------+------------+
| name | value |
+-------+------------+ +---------+
| a | 0x1234abcd |---->| 10 |
+-------+------------+ +---------+
After free (a) , the contents of a ie. the memory address 0x1234abcd will be freed, ie returned back to the operating system. Note that after freeing the 0x1234abcd the contents of a is still 0x1234abcd , but you can no more access it legally, because you just freed it. Accessing the contents pointed by the address stored in a will result in undefined behavior, most probably a segmentation fault or heap corruption, as it is freed and you do not have access rights.
this variable is this is the location
stored in some 0x1234abcd , allocated
address on the by malloc. You have freed it.
stack Now you CANNOT access it legally
+-------+------------+
| name | value |
+-------+------------+ +---------+
| a | 0x1234abcd | | 10 |
+-------+------------+ +---------+
the contents of a remains
the same.
EDIT1
Also note the difference between printf ("%d", a); and printf ("%d", *a); . When you refer to a , it simply prints the contents of a that is 0x1234abcd. And when you refer *a then it uses 0x1234abcd as an address , and then prints the contents of the address, which is 10 in this case.
this variable is this is the location
stored in some 0x1234abcd , allocated
address on the by malloc, and reserved
stack for your program. You have
access to this location.
+-------+------------+
| name | value |
+-------+------------+ +---------+
| a | 0x1234abcd |---->| 10 |
+-------+------------+ +---------+
^ ^
| |
| |
(contents of 'a') (contents of the )
| (location, pointed )
printf ("%d", a); ( by 'a' )
|
+----------------+
|
printf ("%d", *a);
EDIT2
Also note that malloc can fail to get you some valid memory location. You should always check if malloc returned you a valid memory location. If malloc cannot get you some memory location to be used then it will return you NULL so you should check if the returned value is NULL or not before use. So finally the code becomes:
int *a;
a = malloc (sizeof (int)); /* allocates a block of memory
* of size of one integer
*/
if (a == NULL)
{
printf ("\nCannot allocate memory. Terminating");
exit (1);
}
*a = 10;
printf ("%d", *a);
free (a); /* You need to free it after you have used the memory
* location back to the OS yourself.
*/
