# How many function calls will cause stack overflow

Hello android/Java developers,

When a function call a function and that function call another one and so on, how many calls (stack length) would get me into stack over flow? Is there a general rule of thumb?

The reason i am asking is because I am now which is more efficient(design wise) for my 5 players cards game

Solution 1:

``````for(int i=0;i<100;i++){
p1.play();
p2.play();
p3.play();
p4.play();
}
``````

Solution 2:

``````   p1.play();    //where p1.play() calls p2.play() and so on until p4 calls p1 again.
// this will go on for 100 times
``````

I prefer solution 2 so if there is a crash I can see all the function calls from p1 at i=0 till p4 at i=100

but with solution 1, the stack is much shorter but when there is a crash I will see on the beginning of the loops a the called function play() where crash happened

What do you suggest? I know it is kinda 2 questions in 1 but they are very related

Thank you all

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why you are not calling most nested function at the first time. –  K.K Sep 1 '12 at 19:01

In my experience, a stack overflow in Java is almost always due to a programming error. See typical sizes here.

Now, your second solution is, IMO, quite ugly... almost a programming error. Assuming N=100 is (sort of) the duration of your game, it sounds just wrong that the memory consumption (stack size) increases with it. I don't like that solution at all.

when there is a crash I will see on the beginning of the loops a the called function play() where crash happened

I don't see the real advantage. Why not put a `try catch` block so that in case of a crash you can print out the iteration number?

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Ok This is sort of answer I was looking for. I think I would just go with the first one –  Snake Sep 1 '12 at 19:38

There is no general rule of thumb for recursive or nested functions creating a stack overflow. Instead it is dependent on the memory available on the stack, which may vary depending on underlying hardware and operating system allocations.

It is difficult to determine which method of function calls is better for your situation without seeing more of the code. I would side with the former (first) option because it is a little more explicit towards what is happening, and it avoids linking together possible methods and object instances that may not necessarily be dependent on one another. If you are primarily concerned by error reports, you can try adding Logs into your code to allow for more verbose knowledge of what is going on, along with looking at the dump of the stack trace. Hopefully this link can help you as well: http://developer.android.com/tools/debugging/index.html

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Thank you for the more precise answer.If I dont any more better anwers, I will accept it :) –  Snake Sep 1 '12 at 19:08

I don't think you can say that a general number of x function calls will trigger an overflow of the stack memory. It depends on the functions, their arguments, their return types etc, all are kept on the stack memory, so different functions may take different amounts of (stack) memory.

At any rate, you should never rely on code that gets even remotely close to crashing the stack by trying to take into account how much of the stack is used. Your code should always be waaay clear of overflowing the stack.

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beleive it or not, i never thought about stack overflow in my life of programming as I never got close to it (always was a specific call to do an action). But as I am developing cards game, I noticed players hav to trigger each other an this question popped in mind. So you suggest i always have to try to keep the nested function call to minimal? 100 nested call in one stack is too much eh! –  Snake Sep 1 '12 at 19:06
Well, yes, though honestlly 100 nested calls is not THAT many. Maybe the Android device being limited has a JVM (or whatever they have) that allocates less stack memory as compared to say, a desktop PC. At any rate, the Android documentation specifies keeping the method calls to a minimum if performance is a big issue (which is sort of the case here). So yes, try making it so that less method & stack related stuff are placed into (stack) memory. –  Shivan Dragon Sep 1 '12 at 19:16

I think Shivan Dragon is right, there is no fix amount of calls, that will cause an overflow. However you can test it with a really simple recursive function:

``````public void stackTest(int iteration)
{
System.out.println("Iteration: "+iteration); // or Log
stackTest(iteration+1);
}
``````

And call it like:

``````stackTest(1);
``````

and then see how far it goes.

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Correct, but I want to be so close as every device is different. But worth the try –  Snake Sep 1 '12 at 19:09

Each method's frame in Java has: local variables table and operands stack. This stack size is constant and each method might have different size of it. Due to JVM specification the operand stack size is stored in methods attribute `Code` in `max_stack` field:

``````Code_attribute {
u2 attribute_name_index;
u4 attribute_length;
u2 max_stack;
u2 max_locals;
u4 code_length;
u1 code[code_length];
u2 exception_table_length;
{   u2 start_pc;
u2 end_pc;
u2 handler_pc;
u2 catch_type;
} exception_table[exception_table_length];
u2 attributes_count;
attribute_info attributes[attributes_count];
}
``````

This size is calculated during compilation and might be changed by JVM when you hit `StackOverflowException`. JVM specification:

The following exceptional conditions are associated with Java virtual machine stacks: If the computation in a thread requires a larger Java virtual machine stack than is permitted, the Java virtual machine throws a StackOverflowError. If Java virtual machine stacks can be dynamically expanded, and expansion is attempted but insufficient memory can be made available to effect the expansion, or if insufficient memory can be made available to create the initial Java virtual machine stack for a new thread, the Java virtual machine throws an OutOfMemoryError.

To sum up: it depends how much memory your JVM is permitted to obtain. On different workstations/smartphones you might have different values of available memory. This is why you shouldn't write code which is dependent on such things. If you think that `OutOfMemoryException` might occur try to solve your problem iterative instead of recursive.

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