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Will this program delete all the contents of RAM? I dared not to run it on my PC. And there was no use of doing it on online compilers.

#include <iostream>
using namespace std;

int main() {

    int a = 10;

    int *p;
    p = &a;

    for(int i = 0;i>=0;i++){
        *(p+i) = 0;

    return 0;
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How many times do you think the loop will execute? –  avakar Aug 8 at 8:07
You're lucky that the loop will never run, because writing to memory you don't own leads to undefined behavior. –  Joachim Pileborg Aug 8 at 8:07
It's not that simple. There is much to read if you are interested: en.wikipedia.org/wiki/Virtual_address_space en.wikipedia.org/wiki/Virtual_memory –  gurka Aug 8 at 8:07
Run it on any modern computer you want. Memory allocated to different processes are protected from other processes. Depending on your background, you may find it useful to pick up a good operating systems book and read up process management and memory management. –  axiom Aug 8 at 8:07
I ran this and all of the contents of my RAM were indeed deleted. I was able to bring them back from Recycle Bin though. –  Alex M. Aug 8 at 8:23

2 Answers 2

up vote 2 down vote accepted

In general, a program can only touch memory inside its virtual address space, so no, this program will not "delete all of RAM" even if that were possible for some definition of "delete".

Here is what I would expect to happen.

  1. It eventually crashes with a segfault when it tries to write into read-only memory.
  2. If you have a 64-bit address space, the loop will terminate once the int wraps around to the negatives. The program should at that point crash because you have overwritten the return address for the function main.

Here is what I observed to actually happen on my system, when the program is compiled without optimizations.

  • The program loops indefinitely without crashing and without making progress, because it appears that p + 1 == &i under my system. Thus, the loop perpetuates indefinitely, because i gets reset to 0 after every iteration of the body of the loop, and increments to 1 at the end of the loop.
  • To observe this, I compiled with -g, and inside gdb, I interrupted the program with Control-C and printed p + i and &i and observed that they were the same.

Note that my observation may be specific to my system and is definitely specific to my compiler options.

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thanks for pointing it out, i've edited the question :) –  Prashant Yadav Aug 8 at 8:14
@PrashantYadav, See the latest update. –  merlin2011 Aug 8 at 8:29

On modern machines / OS's, each process has it's own virtual address space. One job of the OS is to map sections (pages) of this address space to real memory, and to swap out unused areas to disk. This is what allows multiple programs with memory demands far greater than the physical RAM to all run at once. It's also what causes "disk thrashing" if you don't have enough RAM, as the OS is constantly having to read and write pages of memory to the swap file.

This also protects the rest of the system from badly written programs. One process cannot affect memory used by another. Only the bad one will crash.

Additionally, areas of memory within the virtual address space can have access modifiers. For instance, Windows will use some of the memory to store the code that is being run. You don't want to be accidentally writing over this code, so it gets marked as readonly. This is why you will get an access violation if you attempt to write to address 0, even though address 0 is in your virtual address space.

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