The popular comic xkcd posed this equation for converting time complete into a date:

Backward in Time

I've been trying to do the same in JavaScript, although I keep getting -Infinity. Here's the code:

var p = 5; // Percent Complete 
var today = new Date(); 
today = today.getTime(); 
var t;
t = (today) - (Math.pow(Math.E, (20.3444 * Math.pow(p,3))) -
document.write(t + " years");

Time will return a huge number (milliseconds), and I know that the equation isn't meant to deal with milliseconds - so how would one do an advanced date equation with JavaScript?

  • rescale milliseconds to a different time unit. like femtoseconds – Tina CG Hoehr Sep 4 '12 at 11:19

You've made 3 mistakes:

  1. p should be a decimal between 0 and 1 to indicate the ratio of progress completed.
  2. The result is:
    T = (current date) - (a number in years)
    T = (current date - a number) in years
    You need to first calculate (e^…-e^3) and then subtract that many years from t
  3. You've forgotten a +3 which was in the original formula


Here's some working code as a JSFiddle, although Javascript runs out of dates at around 75% completed

  • Is there any way to continue to 100(or 99)? – Christopher Sep 4 '12 at 12:48
  • Well, obviously Dates break down because there wasn't really the concept of "October" back in 105000 BC. So, you might decide that past a certain point all you want is to calculate a year - which you can do with the calculations you've got – Gareth Sep 4 '12 at 21:58
  • I know it sounds like I'm some kind of groveling idiot who is just getting into JavaScript and asking all the wrong questions, but for some reason this problem just escaped me. Thank for the advice Gareth, I'll see what I can do with it all. – Christopher Sep 7 '12 at 5:11

The percentage

var p = 5; // Percent Complete 

should actually be fraction complete, so it becomes 0.05 for 5%. Then when going towards completion, p approaches 1 and the time approaches a finite limit.

With p = 5 for 5% complete, the subtracted time would approach (roughly)


when completion nears, which far exceeds the range of double, already exp(40) is millions of times the age of the universe and exp(1000) exceeds double range.

  • This in itself isn't the whole problem – Gareth Sep 4 '12 at 11:47

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.