How does this operation on pointers work?

``````  int x = 4;
int* q = &x;                 // Is it always equivalent to int *q = &x;  ?
cout << "q = " << q << endl; // output: q = 0xbfdded70
int i = *q;                  // A
int j = *(int*)q;            // B, when is this necessary?
cout << "i = " << i << endl; // output: i = 4
cout << "j = " << j << endl; // output: j = 4
``````

My question is what does lines A and B do, and why the outputs are both 4?

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7 Answers

``````  int x = 4;
``````

x is 4

``````  int* q = &x;
``````

q is the memory location of x (which holds 4)

``````  cout << "q = " << q << endl; // output: q = 0xbfdded70
``````

There's your memory location.

``````  int i = *q; // A
``````

i is the value at memory location q

``````  int j = *(int*)q; // B
``````

j is the value at memory location q. q is being cast to an int pointer, but that's what it already is.

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Is `*(int*)q;` necessary in some circumstances? I can't think of one, but is wondering if there is such possibility. – qazwsx Dec 30 '11 at 16:45
`(int*)q` means "whatever q happens to be, I want to treat it like a pointer to an int". It's useful when you want to do tricks with the bit layout of data. Also, programs in the C language will often "hide" what a pointer is actually pointing to by casting it to (void*). – Drew Dormann Dec 30 '11 at 17:26
So in simplest terms, `(int*)q` would be necessary if `q` were not an `int *` already. – Drew Dormann Dec 30 '11 at 17:30

It is a basic usage of pointers, in A you dereference pointer (access the variable to which a pointer points)":

``````int i = *q; // A
``````

while B is doing exactly the same but it additionally casts pointer to the same type. You could write it like that:

``````int j = *q; // B
``````

there is no need for (int*)

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Line A de-reference pointer `q` typed as `int *`, i.e. a pointer points to an `int` value.

Line B cast `q` as `(int *)` before de-reference, so line B is the same as `int j = *q;`.

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Line A takes the value that `q` points to and assigns it to `i`. Line b casts `q` to the type `int*` (which is `q`'s type already, so that cast is entirely redundant/pointless), then takes the value that q points to and assigns it to `j`.

Both give you 4 because that's the value that `q` points to.

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A: Dereference - takes a pointer to a value (variable or object) and returns the value

B: Cast to `int*` and than dereference

The result is the same because the pointer is already to int. That's it.

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+1 for pointing out Fermilab's no-nonsense reference manual. – qazwsx Dec 30 '11 at 16:48

Lines A and B are equivelent as q is already an int* and therefor (int*)q equals q. int i = *q; yelds that i becomes the value of the integer pointed to by q. If you want to make i to be equal to the adress itself remove the asterisk.

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``````int i = *q; // A
``````

Dereferences a pointer to get the pointed value

``````int j = *(int*)q; // B
``````

type casts the pointer to an `int *` and then dereferences it.

Both are same because the pointer is already pointing to an int. So typecasting to `int *` in second case is not needed at all.

Further derefenecing yields the pointed integer variable value in both cases.

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