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What does VOID mean?Does it mean 'nothing' or it means 'anything?

When searched in the dictionary,the answer is nothing.But some people say it means anything. i am confused does it means the same as null or it has a unique meaning. When I searched for it's meaning on google I got results for void pointers and many things more which I was not able to understand,at last I am a class12 girl.

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What context is this in? A return value? Also, there's no VOID in C++. It's most likely a typedef for void. –  chris Jul 28 '12 at 17:10
Why did you tag with google-chrome? –  Chris A. Jul 28 '12 at 22:40

4 Answers 4

up vote 8 down vote accepted

Let me give you some detailed explanation on void, variable declarations, functions and pointers since you mentioned you are grade 12. Allow me to start with variable declarations since it will be more adequate for my explanation.

First, what happens when you declare a variable? In other words, what happens when you say int x? As you know all variables reside in the memory. The memory is divided into blocks where each block is 8 bits width. Every block has a number and we usually use Hexadecimal numbers to interpret the memory. So for example the first position in the memory is 0000 0000 which can hold only 8 bits. The second block is 0000 0001 and it can also hold 8 bits of information... Until you reach the last block which is FFFF FFFF and it can hold 8 bits of information as well.

The important thing here is that the bits inside memory blocks are 0's and 1's. An example is 0110 1010. What I am trying to say that 0's and 1's are neither integers, nor characters, nor decimal values... They are nothing by nature, it is YOU who will decide how you will look to them. If you decide to see them as integers then the 0110 1010 will be seen as the number 106, while if you decide to see these bits as characters then the bits will be seen as the letter 'j'.

Going back to my question. What happens when you say int x? Here there are many things that take place: (1) you are telling the computer that you are willing to see the bits in the memory as integer values. (2) You are asking to reserve enough number of bits in the memory that can hold an int, and how much is that? Since the int is usually 32 bits (it could be more or less depending on the CPU, OS...) then you are asking to reserve 32 bits from the memory. And how many memory blocks is that? Since we already said that each memory block is 8 bits that you are asking to reserve 4 blocks of memory, and they will be consecutive (for example, you will reserve the addresses 00AA F000, 00AA F001, 00AA F002, 00AA F003). This means that different variable types will reserve different number of blocks in the memory depending on their size. So a char will reserve only 1 block since it is 8 bits, while a float will reserve 8 blocks since it is 64 bits and so on... This is NOT the case in pointers, so please pay attention.

Before I jump to pointers I would like to repeat the idea in a different way: type variable_name like int x means you are going to treat the contents of the memory as integers and you will reserve 4 blocks. Changing the type will change the treatment of the bits.

Now pointers. What happens when you say int *p? It is totally different than a normal variable. A pointer is something that will tell you the place of something (the memory address of something). Based on the above explanation, each memory address is something like this hexadecimal number: AA00 F001. So a memory address is 8 digit hexadecimal numbers which means it is a 32-bit number. So when you are creating a pointer you are saying that you want to treat the bits as a memory address (not an integer, not a character, not a decimal value...). Because of that, all pointer variables will reserve in the memory the same number of blocks which is 4 memory blocks (32 bits) since any memory address is 32 bits. So int *p and char *q will both reserve in the memory 4 blocks because both will hold inside them a memory address which is 32 bit wide.

Here starts the action. Theoretically speaking, if all types of pointers will reserve the same number of bits in the memory, why don't we use a char pointer to point to an int variable (like char *q; int x; q = &x;)? Theoretically you can do this pointer but there is a problem. As I said before an int will take 4 blocks in the memory, while a char will only take one block. This means if an int is sitting in the memory on the address AA00 FF00 and you want to put another one next to it, the new one will sit on the address AA00 FF04 because the first int already reserved 4 blocks (from FF00 to FF03) and the first empty one will be the FF04 in this case. Still with me?

So a pointer deceleration means 2 things: (1) reserve 32 bit in the memory to put a memory address in it, and (2) we will jump in the memory every time you say p++ a number of blocks that is equivalent to the type of the pointer and not related to the type of the thing you are pointing to. Here is an example: int x; char *p; p = &x; now p is pointing to the first block in x and p++ will not point to the second integer, it will point to the second block in x...

So what is void? void is something that means "nothing" or "no type". Having said that, lets inspect the void on variables and pointers:

Can you say void x just like you said int x? No you can not, because in variable declarations you are specifying how to treat some bits and how many do you need. When you say void x you are not specifying how to treat the bits nor are you saying how many do you need.

Can you say void *p just like you said int *p? Yes you can because you are saying that you want a pointer, and knowing it is a pointer we directly know that you want 32 bits in the memory and we also know that you want to treat them as a memory address, so no ambiguity here like the previous case. OK, what happens when we tell the void pointer to increment in p++? Here is the problem. When the pointer type was known, then jumping in the memory was known but here it is not known. What is the solution? You need cast the void pointer later on so you can know how many blocks can you jump in the memory every time you increment. Well, what benefit do we get if at the end we will cast to something? Why don't we create it directly in the type of that thing from the begging? Usually a void pointer is create where you will use it to point to different types every while, not only one type. If in a certain application you already know that you will always point to an int for example, there is no benefit of creating a void pointer, but if you know that you will need to point to different types, then here the void pointer becomes handy. Sure this is not a beginner level topic.

Ok, so void means nothing, what has it to do with functions? As you know the type of the function is a definition for what the function returns. So and int function will return an int every time you call it. Here are some valid examples:

int Function1();
//somewhere in the middle of your program
int x, y;
x = Function1(); //valid
y = ( 100 - Function1() ) / 2; //valid
Function1(); //also valid but the return is lost since it wasn't stored or displayed

When you say that a function is of type void then you are saying that it doesn't return anything when you call it (which is valid in C++). Here is what you can do and what you can not do with it:

void Function2();
//somewhere in the middle of your program
int x, y;
x = Function2(); //NOT valid, Function2 will not return anything to be stored in x
y = 100 + Function2(); //Not valid, Function 2 will not return anything to be added to 100
Function2(); //valid, the function will be called, and will do some work, then you will continue execution after it terminates.

Do we benefit from a void function? Yes a lot, not every function returns something to us. Say you want are writing a program to a game that has score board. When new game starts you want to reset the board to 0. Assume you have a function named ResetBoard() to do this job, resetting has nothing valuable to return to you after you call it, so probably you will do the function as void ResetBoard(). If you needed to have some feedback from that function then you might start to think of a different type.

I hope this clarifies things for you. Again I wrote a detailed answer since you said you are grade 12. Good luck.

EDIT: Answer to your question in the comment below:

Before we understand the difference between a void function and no-void functions we need to answer a question. If a function is not void then whenever we call it it will return something, the question is: "Who will catch the return of a function?"

Simply the one who catches the return is the one who called. For example if we have a function int F1() and somewhere in the middle of your program you have x = F1(); then x is the one who will catch the return of the function F1(). This concept does not work on void functions because they don't return anything, in other words void F2() then somewhere y = F2(); will not work since F2 does not return anything and therefore we can't use it in the same way we used F1.

So the main rule is the one who calls is the one who catches the function return. In that case, what is the difference between void main() and int main()? Simply the difference is that the void one will not return anything to the caller while the int does. Well, who calls the main function? The Operating System (OS) calls it. What does the OS benefit from having a return from a main function? It benefits to know if a program terminated normally or had abnormal termination, so in abnormal termination the OS can show you the well known "Send/Don't Send" report message (talking about Microsoft Windows here). So a void main or an int main will have no effect on your program or its output, it will only affect how it terminates because the return of the function is the last thing that happens in the function, and the return of the main function is the last thing in all the program (when you exit the program).

I hope this clarifies your question.

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Wow, just wow. I hope someone appreciates the effort at least. –  jahhaj Jul 28 '12 at 20:59
Really thanks @jahhaj after all we all benefit form the stack community and we should give back in return :) –  antf Jul 28 '12 at 21:02
thank you very much @antf .Actually it helped me a lot.but i need some more help.i want to know what is the difference b/w int main() and void main().our teacher says that when v use void main no valve cn b passed frm the main to any function n wid int main it cn b done.but i created some programs n in place of int i wrote void main then also there was no change in the output.so cn u tell wen v write void main does it means dt main does not return a value or it means dt it cn return any value whose data type is nt defined. –  slvi Aug 11 '12 at 15:49
I will answer in an Edit to my answer above because the answer won't fit in a comment here. –  antf Aug 11 '12 at 15:57
Just edited my answer. Please remember to mark my answer as the correct answer if it solved your problems. –  antf Aug 11 '12 at 18:35

In C++, void can mean different things in different contexts. For example, a void pointer means a pointer that can point to any object

int x = 0;
void *p = &x; // ok -- void pointers can point to any object.

But when void is used as the return type of a function, it means that the function doesn't return anything.

void f()
  cerr << "Hello there\n";
  // No return, since the function has a void return type.
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A 'void' means 'of no type'. If a function returns 'void', then it returns no value of any type.

A pointer to void, however, means that it's a pointer of no specific type, such pointers typically have to be cast to the correct type.

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VOID does not mean anything. A pointer to a void type in C/C++ can be used to point to any type of pointers, some of which should have a type conversion, such as pointers to functions. VOID means no type or no parameter list.

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