# After assign a pointer to a pointer, why the lvalue become zero

I am writing a function that display the pointer values passed by the caller. Because i dont want to mess up the original **arr1,so i assigned a **P to it, then i print it and count it. But then the left hand side,which is arr1 become zero.

Code:

``````  void merge(int **arr1, int **arr2, int **arr3)
{
int **p1= arr1;
int **p2= arr2;
int **p3= arr3;

int count;

printf("%d\n", **arr1);  //this shows the correct value of first element of arr1

while(**p1)
{
printf("%d\n", **p1);
(*p1)++;
count++;
}

while(**p2)
{
printf("%d\n", **p2);
(*p2)++;
count++;
}

printf("%d\n", **arr1);  // this become zero, why??i didn't touch it in my code didn't i?
}
``````
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As you've stated, `**p1` and `**arr1` is the same `int` value that's being pointed to.

Now you have the loop `while(**p1)`, so in order to exit the loop and get down to the `printf` statement, `**p1` must equal 0.

Inside this loop, `p1` is never being modified, `*p1` is, which is the same as `*arr1`, therefore once the loop has exited, `p1` and `arr1` still point to the same position, and `**p1` will equal 0. Therefore `**arr1` must equal the same value as `**p1`, which is 0.

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THanks! So is there anyway to treat it as like, p1 point to arr1 and modifying p1 will not affect arr1? –  qwr qwr Apr 7 '12 at 21:58
@qwrqwr: Changing the value of `p1` won't affect `arr1`, however you're never doing that in your code above. ie. `p1++`, `p1 = NULL`, modifying `p1` and not modifying a value you get from dereferencing `p1` won't affect `arr1`. Also, if these arrays being passed to the function are of type `int[]` and not `int[][]`, then you only need a single pointer, not a double one. –  AusCBloke Apr 7 '12 at 22:00
The problem is that my function is taking a pointer that point to a pointer, that why i need a ** –  qwr qwr Apr 7 '12 at 22:05

Because `arr1` and `p1` point to the same thing. So if you modify `*p1`, then you'll also modify `*arr1`, because they are the same object.

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you are right, but i didn't modify **p1 didn't I? –  qwr qwr Apr 7 '12 at 21:48
@qwrqwr: You modified `*p1`, so it now points somewhere else. So `**p1` will now be a different object. The best thing to do is to draw this out on paper. –  Oli Charlesworth Apr 7 '12 at 21:49
If i do (*p)++ i just move on the pointer to next value of **p1 isn't it? And the address of **arr1 is not changing during this modification. so when i print **arr1, it is still on the first element of arr1 –  qwr qwr Apr 7 '12 at 21:51
@qwrqwr: `(*p1)++` is the same as `(*arr1)++` in your case. –  Oli Charlesworth Apr 7 '12 at 21:52
So that mean my concept of ** is wrong. Because when we do : str[10]; int *p1 = str; then if i do p1++, i am not affecting the str –  qwr qwr Apr 7 '12 at 21:56