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Setting void * pointer equal to an integer

My previous question is closed, maybe I did not specify it clearly, may I ask it again?

I have a pointer:

void * p;
p = malloc(sizeof(int));

then there is a int:

int age = 20;
p = (void*)age;

my question is how the p = (void*)age;works? if p is a pointer, what does (void*)works in front of age? and why the value p is 20?

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marked as duplicate by razlebe, sth, eckes, legoscia, dsolimano Aug 20 '12 at 18:58

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Context: stackoverflow.com/questions/12038368/… –  cnicutar Aug 20 '12 at 13:35

4 Answers 4

You are creating an automatic variable called age and you are also creating a variable called p which is a void * pointer. This means it is a pointer to something, but you do not know what. You are then assigning the value of age to the pointer p. In order to satisfy the type system you have to cast it to void * by using the (void *) syntax in order to say to the compiler "I know what I am doing.".

As for the reason why you are storing an integer in a void * pointer... there is no good reason I can think of. Perhaps you meant p = &age, which means p points to the variable on the stack.

To answer ratzip's comment:

`(void *)age`

Means "a void * pointer with the value of age".

If I wrote void *p = malloc(1) then it would allocate some memory and the numerical value of p would be the address in memory, for example 12345. If I went to that value in memory I would find the memory I allocated. If I write (void *)age then I am casting (i.e. taking the value in one type and storing in a different type) and assigning it to p. So the value of p is 20, p points to "memory at address 20". Which is meaningless unless you know that there is some memory there that you want to use. I can say with 99.999% certainty that this is not the case. int and pointer are both numbers, but they are used for very different purposes. One represents a number to the user, one represents a memory address to the computer.

(Of course with virtualised memory the above is not strictly true)

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p is a pointer, void * p means p is a pointer to unknown stuff. but what about (void *)age means? did (void *)means cast age to a pointer?because we are using void * to declair a pointer,right? –  user707549 Aug 20 '12 at 13:47
I added to my answer in response to your comment. –  Joe Aug 20 '12 at 13:59

The cast makes the compiler assume you know what you're doing, and emit code that converts the integer value in age into an address. This isn't typically very hard, since addresses are just integer values anyway.

Of course, using the value 20 as an address is very rarely sensible, so this code will likely cause a crash if the pointer is ever dereferenced.

The text (void *) is a type name enclosed in parenthesis, this is called a "cast" in C, it serves to convert the type of the expression following it into the named type. Typically, seeing casts that involve void * should serve as a warning sign, since they are rarely needed in correct code.

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The (void*) is a type cast and is casting the integer value of 20 to a (void*) value of 20.

Basically, you are setting your current (void*) value returned from malloc() to 0x00000014.

If you are trying to set p to the address of the age integer, you need to do this:

p = &age;

If you want to fill in the memory pointed to by p (that you allocated with malloc) with a value of 20, then you need to do this:

*p = age;
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When you cast and integer to a pointer and then put it in p you explicitly specify the address to which pis pointing to be 20.

Usually, you don't know the explicit addresses of the data you work with and hence initialize your pointers in a program with some not-explicit addresses using & operator or some memory management facilities like malloc.

However, this use case is very common in embedded systems world. Usually, hardware has a set of registers that are mapped to address space and the constructs like the one below are very common. All these addresses are specified in the HW documentation.

#define SOME_DEVICE_REG_ADDRESS 0x10050000
uint32_t *p = (uint32_t *)SOME_DEVICE_REG_ADDRESS
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