# Given the address of a pointer, how do I get what it points to?

If I am given the address of a pointer, how do I get what the pointer points to?

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Do you know what it points to? Or do you have something like a `void*`? –  RedX Apr 18 '11 at 18:44

You might mean:

``````/**
* @param pointer_to_pointer_to_int: the address of a pointer to an integer.
**/
void function_that_takes_pointer_to_pointer(int **pointer_to_pointer_to_int) {
int the_int = **pointer_to_pointer_to_int;
printf("The pointer points to %d\n", the_int);
}
``````
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Assuming it is a valid pointer, you can dereference it using the unary `*` operator:

``````int *ptr = ...;
int x;
x = *ptr;
``````
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...unless it's a pointer of type `void *` or `uintptr_t` which cannot be directly dereferenced. –  Blagovest Buyukliev Apr 18 '11 at 21:52

The unary `*` operator.

``````int *ptr = malloc(sizeof(int));
*ptr = 45;
printf("address: %p, value: %d", ptr, *ptr);
``````
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The most common way to be given the address of a pointer is through a pointer to a pointer. If the value the pointer points to is an integer, the type of the address of the pointer is `int **`.

To get the pointer to the integer, you need to dereference the double pointer. Then you can dereference the integer pointer to get the integer value.

To dereference a pointer, use the `*` operator.

``````int **double_pointer = given;
int *int_pointer = *double_pointer;
int value = *int_pointer;
``````

You can also chain the dereferences to do that on one line.

``````int **double_pointer = given;
int value = **double_pointer;
``````
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The unary `*` operator returns or sets the value at a memory location.

For example:

``````int val = 42;
int* ptr = &val;
assert(val == *ptr);
``````

If you have the address of a pointer, you would write `**pointerpointer`.

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Going off of RedX's comment, If you have a situation like

``````void foo(void *ptr)
{
...
}
``````

where the value of `ptr` is a pointer to a pointer to `int`, for example, you could do something like

``````void foo(void *ptr)
{
int x = **((int **) ptr);
...
}
``````

Basically, you cast `ptr` to `int **`, then double-dereference it.

If you don't know what the target type is ahead of time (e.g., the function is meant to handle pointers to multiple types), then you're going to have to figure out a way to encode that type information in a second argument and pass it to the function.

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There are two possible answers to your question depending on whether the compiler has a clue about the data that's referred or not.

Declaring a pointer of type `int *`, `char *` or `mytype *` instructs the compiler that a later attempt to dereference it using the unary `*` operator must yield a result of `int`, `char` or `mytype` respectively.

In the other case you would normally store a pointer either in a `void *` (generic, untyped pointer) or in a `uintptr_t` (an unsigned int the same size of a pointer, but without pointer semantics). In such a case the compiler doesn't have a clue how to interpret the dereferencing operator, so you must explicitly cast such a pointer to another pointer type, and only then dereference it:

``````int x = 5;
void *p = &x; /* p now points to an int, but the compiler doesn't know it */
printf("%d\n", *((int *) p)); /* we know what we did and don't rely on the compiler */
printf("%d\n", *p); /* compile-time error, dereferencing has undefined semantics */
``````

Note that in compiled, unmanaged languages like C there is no runtime information about what kind of data a pointer is pointing to, unlike languages like Java where you can use the `instanceof` operator to check what a reference is really pointing to at runtime.

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