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When compiling the below, the program seem to crash. However, there is no error in the compiling process.

int *x;     
*x = 3;
printf("%d", *x);

From what I know, this program declares the pointer *x to an integer value, and subsequently assigns the value of 3 to the deferenced pointer *x.

So why does the program crashes? If I do this instead, the program can work normally.

int *x, y; 
y = 3;
x = &y;    
printf("%d", *x);

So, what seems to be the problem with the skipping of the y variable, and instead, assigning the pointer *x directly to an integer value?

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"this program initializes the pointer *x " - no. *x is not a pointer. x is a pointer, *x is the result of dereferencing that pointer. – M.M Jun 9 '14 at 3:27
up vote 3 down vote accepted

From what I know, this program initializes the pointer *x to an integer value, and subsequently assigns the value of 3 to the deferenced pointer *x.

That is incorrect. int *x; declares an int pointer, but it does not initialize it to anything. What x points to at this time is unknown, and depends on the current state of memory. Before you can dereference a pointer, you need to set it to point to something (eg, x = &y;).

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Thanks! Does it mean that I have assigned the integer 3 to an unallocated memory address? – tys Jun 9 '14 at 3:31
Well, it means you've tried to assign it to an unallocated address. You should get a segmentation fault before that happens. – Sam Dufel Jun 9 '14 at 3:37
I found that by adding two lines of code int z; x = &z, the program would work, even though z is not used at all. Is this what is meant by allocating a memory address to the pointer *x (or initializing the pointer)? – tys Jun 9 '14 at 3:41
@tys: yes, z is used. It is an integer and therefore has a storage location ... and you take the address of this storage location and place it in x. int *x just produce a storage location for the pointer (but not for what it is pointing to ... that you have to do yourself ... e.g. as you are here with x= &z.) – dave Jun 9 '14 at 6:11
Thanks a lot for the knowledge, I am beginning to understand pointers and addresses slightly better now (it was a bit confusing for me as I just started). Really appreciate all these help. – tys Jun 9 '14 at 10:38

Problem is that in the first case pointer 'x' doesn't point to a valid memory location. And you're trying to change the value of un-allocated memory which your program doesn't own.
Pointers must always be initialized properly before they are used.

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In the first example x is uninitialized and therefore doesn't point to valid memory.

You could change your code to

int *x = malloc(sizeof(int));     
*x = 3;
printf("%d", *x);

and it would work.

In your second example

int *x, y; 

You are declaring x as a pointer and y as a normal int variable, not another pointer. If you wanted 2 pointers the syntax would be.

int *x, *y;

This can be confusing and is part of the reason some C programmers never declare multiple variables on one line.

x = &y;  

Here you are assigning the address of y to x and therefore causing x to point to valid memory and a subsequent assignment through dereferencing the pointer will work.

You would find that if you printed the value of y then it would also be 3 as you changed it through x.

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