# Reaching definitions involving pointers

Suppose I have a piece of code:

``````int x = 100;
int* p = &x;
*p = 20;
print(x);    //<= reaching defitition of x?
``````

It will output 20 upon execution.
The problem is which statement is the reaching definition of `print(x)`, the initial assignment or the pointer assignment?

Also in the following code:

``````void sub(int* p)
{
*p = 20;
}

int x = 100;
sub(&x);
print(x);    //<= reaching defitition of x?
``````

the same problem exists. Is it a special case of reaching definitions analysis, or require special algorithm to process it?

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What do you mean by "reaching the definition"? –  Saphrosit Jul 7 '12 at 13:52
It the reaching definition en.wikipedia.org/wiki/Reaching_definition –  Kii Jul 7 '12 at 13:58

## 2 Answers

You need to understand more how pointers work Imagine that you have 1 tv and 2 remote controls In the first example, variable x(remote control) has a value (100) and address (TV). Now comes a pointer *p that points to the same address as x (second remote control to the same TV). When you change the value (TV channel) of *p, you expect the value of x to be changed accordingly. So now both *p and x holds the value 20(same TV channel), and same address (2 remotes for the same TV)

I hope its a bit more clear now

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I'm not sure if I understood reaching definition correctly, but here goes:

In your first sample, `*p = 20` is your reaching definition because it assigns the value `20` to `x`.

In your second sample, again `*p = 20` in `sub()` is your reaching definition because it assigns the value `20` to `x`.

`p` contains the address of `x` and `*p =` modifies the value stored at address that `p` holds.

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