Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

Why can't we initialize a pointer variable with user defined input?

share|improve this question
Of course you can initialize a pointer to any value. Why couldn't you? Have you had problems doing this? – Cody Gray Jul 16 '11 at 13:34
How do you think a debugger do it? You can move the current position of PC, you can change registers, memory, etc. Sounds like all of those do or can represent pointers... – Alexis Wilke Sep 6 '13 at 7:03

4 Answers 4

up vote 2 down vote accepted

You can initialize a pointer at the global scope to any value which is either a constant expression, or resolvable by the linker. This is because the C compiler places constants direct into the initialization code. Referenced symbols are also placed into the initialization code, and the linker replaces those symbols by the real address values.

// global scope
int foo;
int* bar = &foo; // ok, since &foo is a known address
int* bar2 = &foo+1; /* ok, since &foo is a known
            address and the offset is constant. */
int* whatever = (int*) 0xabcd; /* Ok, since 0xabcd is
                a constant value, and can be used as
                an address, but it depends on your
                environment if this address makes any
                sense */
int *baz = bar; /* not OK, since the value of bar is
                   stored into the RAM at run time,
                   and the linker can't determine that
                   this value does point to &foo */

In a function you can initialize any non-static pointer variable to a value which is already there. This is because these initializations work like normal variable assignments.

Edit: The illegal int *baz = bar; part

Disclaimer: I describe the behavior of typical compiler+linker toolchains seen on windows, Linux and *BSD, in the embedded world the initalization can look very different.

All initializations of variables on the global level are put into an own data segment in the executable file, and are copied at the program start into the RAM. This means that the linker must create this sections by collecting all global variables, and resolving symbol references in this section. The linker can only resolve values which contain link-time constant values only, which are addresses and numeric constants. The int *baz = bar; statement does use an indirect value, bar. While bar can be resolved to &foo in this specific case, the compiler does not care, since the standard requires that this is an assignment ofbaz with the runtime memory content of bar. And since such runtime memory references are not available to the linker, since the linker can't run the program, the compiler reject to generate code for this statement.

Also changing the type of bar from int* bar to int* const bar does not help, because also a constant does have a memory region, and the C compiler must act as if it uses this memory region when the values is used somewhere. This means that even when it is clear which value bar does have, the compiler can't place the constant value into object code, since the standard requires that the runtime memory is used to determine the value of bar when it is used.

As a side note, in C++ it is permitted to do initializations which are based on runtime data.

share|improve this answer
why not int *baz = bar? bar is just a int *, and assigning an int * to another int * is ok; they will point both to foo. – ShinTakezou Jul 16 '11 at 14:05
@ShinTakezou, haven't you ever accidentally tried to initialize a global from the value of another global? It won't compile, even with non-pointers. The gcc error: f.c:11: error: initializer element is not constant. (+1, btw, excellent answer assuming the OP means "initialize in global scope".) – senderle Jul 16 '11 at 14:32
@ShinTakezou I updated my answer. I hope it helps, but this is one of the many parts of C where the statement you can only learn C if you already know C comes from. – Rudi Jul 16 '11 at 15:11
@senderle oh yes, of course, I know the issue, just missed the // global scope comment and was attracted by the not OK on the side of something that seemed otherwise OK. Though, it is a limit imposed by the standard (moreover in this specific case a "smart" compiler could be programmed to "notice" that bar value is just &foo, i.e. a known constant value, and so baz will be too); as said it is just avoided by the standards, not a technical limit that can't be bypassed, and in fact C++ allows it. – ShinTakezou Jul 16 '11 at 15:13
@Rudi I was interrupted while writing the comment, then finished it and posted, just to read later you have updated the answers specifying both the things I address in the comment ("constant propagation" and limit given by the standard) – ShinTakezou Jul 16 '11 at 15:15

You can initialize a pointer variable to anyvalue.

int *ptr = 0;

Initializes a pointer ptr to 0 (which practically means it is not pointing to anything valid)

int a = 10;
int *ptr = &a;

Initializes a pointer ptr to point to address of an integer variable a.

share|improve this answer
+1. Another hard question. – RocketR Jul 16 '11 at 13:35
@RocketR: No sweat :) Hard or simple are pretty much relative terms though. Something maybe incredible simple for all and yet hard for one and vice versa. – Alok Save Jul 16 '11 at 13:40

Let me guess, you are trying to do something like this:

char* usersInput;
scanf("%s", usersInput);     /* error */

That does not work, because the string has not been allocated. You could e.g. choose what might be the maximum input-length and do:

char* usersInput = malloc(10000);
scanf("%s", usersInput);     /* fine */
share|improve this answer

You can do it, e.g.

uint16_t *p = 0x00DFF01C;

can be meaningful, iff it is meaningful to access that address, e.g. that address is mapped to something (e.g. a particular device) in a particular hardware. Usually it is not meaningful, save if you are writing a lowlevel code, or code for embedded systems or such.

(Or doing metal-bashing on an Amiga "classical" hardware in C)

share|improve this answer
btw I've modified the address to be the Amiga INTENAR read only hardware register – ShinTakezou Jul 16 '11 at 13:51

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.