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#include <iostream>

int main()
  int anything[] = {5};
  int *something = new int;
  *something = 5;

  std::cout << &anything  << "==" << &anything[0]  << "==" << anything  << std::endl;
  std::cout << &something << "!=" << &something[0] << "==" << something << std::endl;

Why is the memory address in &something different from &something[0] and something? Although it is a dynamic allocation, I don't understand why the memory address is different. I tried it with more than one value; it's the same thing. Here I used one value for both for simplicity.

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up vote 4 down vote accepted

&something is the memory address of the pointer itself (hey, it needs to store that value somewhere!), while &something[0] is the address of the actual memory that is storing your stuff.

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but anything is also a pointer, right ? for instance, if I change &anything to &(*anything) it remains equal, the memory address of the first pointer itself is equal to &anything[0] and anything. In dynamic allocation, something, why the pointer itself has a different memory address ? – Daniel Oct 4 '11 at 3:23
No; anything is an array, not a pointer. In many, but not all, contexts, a reference to array is equivalent to a pointer. One of the contexts where there is a difference is as the operand of (unary) &. – Jonathan Leffler Oct 4 '11 at 3:28

something is a pointer. &something is the address of that pointer. &something[0] is the address of the first element pointed to by the pointer, which is completely different from the address of the pointer. something is the value of the pointer, which is also the address of the element that is pointed to.

I'm sure this topic has been covered many times before, I hope I did it justice.

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