Call Stack size in recursive functions: Maximum call stack size is lower than expected

I'm hunting down a problem in a recursive algorithm I wrote.

This algorithm would throw a `RangeError: Maximum call stack size exceeded` (in Chrome) Error on some inputs. But the call stack I tracked down was only about 6k-9k in size.

This test (from this SO answer) indicates a maximum call stack size of about 42k in Chrome.

After running some tests, I found, that having arguments on the recursive functions seems to lower the available call stack size:

With arguments: call stack size exceeded on ~31k (Chrome, ~15k on Edge)

``````var recursionA = function(a, b) {
count++;
if (count < 100000) {
recursionA(a, b);
}
}
``````

Without arguments: call stack size exceeded on ~42k (Chrome, ~16.5k on Edge)

``````var recursionB = function() {
count++;
if (count < 100000) {
recursionB();
}
}
``````

See fiddle here

1. Can anyone explain, why the available call stack size is significantly lower, when the function is called with arguments.
2. Since my recursive function would require 2 arguments: How can I utilize the max call stack size of the browser?
3. Are there other factors that can potentially reduce the available call stack size?
• `a` and `b` should take part of the stack IMO. Every time you call the function with those arguments, they are copied by value which forms part of the stack too. – MinusFour Jan 2 '16 at 20:51
• but wouldn't they get removed from the stack immediately after? – jHilscher Jan 2 '16 at 20:55
• Only after recursion ends which never happens because there's not enough space. – MinusFour Jan 2 '16 at 21:01

2 Answers

1. The size of the stack is some number of bytes, not some number of function calls. Every parameter you add to a function call consumes some memory, so less stack available;
2. See 1 above
3. The variables in the function called

I would just make another recursive function to call that recursive function and split up the duration so you dont max out the stack. Here is an example of a "callStackOptimizer" that I just wrote for a wayy over complicated and expensive fizzbuzz game written in a more functional immutable style to show you what I mean.

``````"use strict";

const isDivisibleBy = divisor => number => number % divisor === 0;

const isDivisibleBy3 = isDivisibleBy(3);
const isDivisibleBy5 = isDivisibleBy(5);
const isDivisibleBy3And5 = number => isDivisibleBy5(number) && isDivisibleBy3(number);

const rules = (bool1, bool2, bool3) => (value1, value2, value3) => number => {
switch (true){
case bool1(number):
return value1;
break;
case bool2(number):
return value2;
break;
case bool3(number):
return value3;
break;
default:
return number;
}
};

const gameConditions = rules(
isDivisibleBy3And5,
isDivisibleBy3,
isDivisibleBy5
);

const fizzBuzzResults = gameConditions(
"FizzBuzz",
"Fizz",
"Buzz"
);

const game = duration => value => (action, array = []) => {
if (duration > 0){
const nextValue = action(value);
return game(duration - 1)(value + 1)(action, array.concat(nextValue))
}
else {
return array
}
};

const callStackOptimizer = (duration, times = Math.ceil(duration/10000), result = []) => rules =>{
if (times > 0){
const value = duration/times;
const round = game(value)(value * times - value + 1)(rules);
return callStackOptimizer(duration - value , times - 1, result.concat(round))(rules)
}
else {
return result;
}
};

const playFizzBuzz = duration => callStackOptimizer(duration)(fizzBuzzResults);

console.log(playFizzBuzz(100000));
``````