Below is my code in C++. Here in the function "temp", 1st, the value of 'ch' is declared & then printed(at the first time 'ch' is not initialized so 'ch' has Undefined value).Then "if" condition is satisfied(Inside "if" no work is done). Then function gets over & returned to the next line of the function call(increments 'i'). Then the next iteration also goes in the same way as the previous call. The same cycle goes on until a key is pressed. When a key is pressed(for e.g. 'a' is pressed), "else" gets executed & the key pressed is taken by getch(). Then function gets over & returned to next line of function call(i++), then in all the coming next iteration, when a function is called, 'ch' is assigned with the previous key pressed('a') and it prints that character('a'). It goes on printing 'a' until another key is pressed. Why & how 'ch' is assigned with the previous function call's value. Is the value of variable of previous call is stored inside the stack & assign it to the next call's variable?

using namespace std;

int flag = 0,i = 1;

void temp()
    char ch;


int main()
   return 0;
  • If you look at the disassembly from the build where you're experiencing this, then you'll see that that's probably what's happening. In terms of C/C++, the behavior is undefined and assembly code where temp() simply crashes the program is also valid (as any other temp() code, since the behavior is undefined after all).
    – PSkocik
    Jun 23, 2020 at 10:59
  • 1
    In char ch; cout<<ch;, ch is uninitialized... Leading to UB.
    – Jarod42
    Jun 23, 2020 at 10:59
  • Please provide your entire input and actual output. Then explain what you think is wrong with the output. It is not clear to me what you are asking. Maybe the whole example is not very good chosen to ask for the thing you want. Try to minimize it and with that specify the issue. Jun 23, 2020 at 11:02
  • To answer your question title: Yes, it can. The variable needs to be qualified with static, but I'm afraid that isn't quite the thing you are asking for. Jun 23, 2020 at 11:07

3 Answers 3


In your code (and on Intel), after calling temp() and it returned, there is no code that modifies the location of ch on the stack. As a consequence it still has the previous value when you call it again.

Would you call for example printf() in main() after calling temp(), then this call would overwrite the location of ch.


To answer your specific question, you are just getting lucky.

C++ doesn't clear out memory unnecessarily. When you call temp() for a second or subsequent time, in this case it it allocates memory in exactly the same way as the previous time, and so you see the same value in ch.

However, any slight change to you programme structure or to your compiler settings could mean that the memory layout was not aligned and you wouldn't get this behaviour.

As suggested in the comments, changing the declaration to

static char ch;

would guarantee that the value was preserved between calls, at a potential very slight cost to memory and performance.


"Why and how ch is assigned with the previous function call's value?"

"Is the value of the variable ch of the previous call stored inside the stack and assigned to ch in the next call to temp()?"

In C++, function-local objects do not need to be destroyed after the function has returned, which seems to be in your case.

Nonetheless the behavior is undefined . What you trying to understand is based upon undefined results of your execution.

Since ch is not initialized, printing its value could output any value.

That it prints the character 'a' at all other function calls to temp() is a sign of undefined behavior.

You can find a well-defined solution for this by qualifying the variable ch with the static storage-class specifier which means the variable ch is stored in the BSS segement of your executable, F.e.:

static char ch;

Then ch keeps alive in the stack memory even between function calls with its value.

This furthermore also has the beneficial side effect, that ch is automatically 0 initialized. Thus, no undefined behavior anymore.

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