So I don't know why but I learned that when you call a function and pass an argument to it, it deals with it on the stack(processor?).
Can someone please explain it?
then how does it change values of variables, blocks of memory and so on?
Lets start with this suppose you have a function
So whenever a function call is made OS needs some memory space to allocate the local variables of the function
Now the question arises what all things are stored on stack when a function call is made. The first thing pushed on the stack are the arguments passed to the function in reverse order(if more then one).
2. Then the return address of the function which called this function (because once this function
Once the called function completes executing the code it returns back to the return address previously stored on the stack and thus we say function call completes or returns. In this case the function has a return value which it passes back to the callee function. The space is then free to use and can be overwritten in the subsequent function calls.
(Now if you connect the dotes you can realize why local variables(automatic variables) in a function have scope limited to the life of the function call (you asked a SO question related to scope which was closed) because once a call returns the memory space allocated for these locale variable is gone(it is still there but you cant access them once a function returns) so life of these automatic variable
Side Note:: I have read many questions that you have posted in SO. I guess you are trying to learn C and basic working of the underlying hardware and OS in general and the confusion in between them is killing you. I would suggest you some pointers apart from the answer to this question to read and understand which will give you lots of insight into the questions you are facing.
and if you want to dive into stack space for a function call try this link http://www.binarypirates.in/2011/02/17/understanding-function-stack-in-c/
Hope this helps
Stack is used in most cases to pass arguments to function. The reason for using it is that you are not bound to fixed memory places (for arguments) to have your function functional. If you had function that could take arguments from fixed memory you would probably only be able to run it if the memory was free and you would be able to run just one instance of it. Stack gives you the possibility to store your arguments to current context of your program at any time. On x86 processors there is register that points to end of the stack and other register that points to the begining. Those are actualy just addresses to main memory where you want your stack to reside.
There is PUSH instruction that moves the stack-end register to the next place and stores specified data (could be value from other register or at some address or direct value) to address pointed by stack-end resgister. The other instruction is POP and it works the same just the other way around. This way, if you stick to the plan and keep track of what you pushed to stack, you can have your functions work from any context.
There are some other less used options to pass arguments like via registers, which are used for example by bios interrupts. If you want to know more about this I suggest you read something on "Calling conventions".
There is no guarantee that parameters are passed on the stack, it's architecture and compiler dependent.
As to how values and memory get changed -- when you call a function that must make changes that are seen by the caller, it's normal that what you provide is not the actual value, but rather the address of (pointer to) that value. As long as the function knows the proper memory location it can make these changes.