# Why does parseInt(1/0, 19) return 18?

I have an annoying problem in JavaScript.

``````> parseInt(1 / 0, 19)
> 18
``````

Why does the `parseInt` function return `18`?

• Interesting. But why is this an annoying problem for you? Do you have to handle Infinity in other ways? If so, an `if` might help. Jul 5, 2012 at 8:44
• What the hell were you even doing that required you to work with either base-19 numbers OR division by zero!? Jul 5, 2012 at 13:19
• When you get confused about JS, just go back to this quote and remember that the whole damn language was designed and implemented in less than 10 days (according to the person who did it). Jul 6, 2012 at 9:13
• From the FAQ: "You should only ask practical, answerable questions based on actual problems that you face." This isn't actually an "annoying problem" that you actually face, it's a unrealistic example that's been floating around the internet forever. Jul 9, 2012 at 23:25
• python does the same thing: int('I', 19) == 18 Jul 11, 2012 at 6:09

The result of `1/0` is `Infinity`.

`parseInt` treats its first argument as a string which means first of all `Infinity.toString()` is called, producing the string `"Infinity"`. So it works the same as if you asked it to convert `"Infinity"` in base 19 to decimal.

Here are the digits in base 19 along with their decimal values:

``````Base 19   Base 10 (decimal)
---------------------------
0            0
1            1
2            2
3            3
4            4
5            5
6            6
7            7
8            8
9            9
a            10
b            11
c            12
d            13
e            14
f            15
g            16
h            17
i            18
``````

What happens next is that `parseInt` scans the input `"Infinity"` to find which part of it can be parsed and stops after accepting the first `I` (because `n` is not a valid digit in base 19).

Therefore it behaves as if you called `parseInt("I", 19)`, which converts to decimal 18 by the table above.

• @mithunsatheesh Try `parseInt('Infini',24)`.
– Supr
Jul 5, 2012 at 8:45
• @mithunsatheesh: Because in base 24 `n` is also a valid digit, so it actually ends up doing `parseInt("Infini", 24)`.
– Jon
Jul 5, 2012 at 8:46
• Why someone wants to 'program' in a language which behaves like this is beyond me. Jul 6, 2012 at 8:24
• @FransBouma: JS is beautiful in its own way. And really, no part of what happens here is unreasonable in a dynamic language.
– Jon
Jul 6, 2012 at 8:27
• @Jon: this artifact isn't the result of dynamic language; it's a result of loose-typing. In strictly-typed dynamic language, the implicit conversion of Infinity (float) to "Infinity" (string) would not happen, to prevent this sort of silliness. Jul 8, 2012 at 12:34

Here's the sequence of events:

• `1/0` evaluates to `Infinity`
• `parseInt` reads `Infinity` and happily notes that `I` is 18 in base 19
• `parseInt` ignores the remainder of the string, since it can't be converted.

Note that you'd get a result for any base `>= 19`, but not for bases below that. For bases `>= 24`, you'll get a larger result, as `n` becomes a valid digit at that point.

• @Thilo BTW, what would be the reason, why it might stop at 19, if base's greater? Do you know, what's the greatest base JS can iterpret? Jul 10, 2012 at 7:37
• @Nordvind The largest base `parseInt` will accept is 36, since there are 26 letters in the English alphabet, and the convention is to use digits then letters as the set of valid digits in the given base. Jul 10, 2012 at 8:14
• On bullet point #2, may I suggest changing `Infinity` to `"Infinity"`...
– CJBS
May 4, 2017 at 20:55
• @CJBS Correct, but there’s a bullet point missing before that: `parseInt` expects a string as its first argument, so `Infinity` is coerced to `"Infinity"`; also that should be an ordered list, not an unordered one. But the accepted answer already explains everything… Apr 9, 2021 at 2:17

parseInt is intended to parse strings into numbers (the clue is in the name). In your situation, you don't want to do any parsing at all since 1/0 is already a number, so it's a strange choice of function. If you have a number (which you do) and want to convert it to a particular base, you should use toString with a radix instead.

``````var num = 1 / 0;
var numInBase19 = num.toString(19); // returns the string "Infinity"
``````

`parseInt(1/0,19)` is equivalent to `parseInt("Infinity",19)`

Within base 19 numbers `0-9` and `A-I` `(or a-i)` are a valid numbers. So, from the "Infinity" it takes `I` of base 19 and converts to base 10 which becomes 18 Then it tries to take the next character i.e. `n` which is not present in base 19 so discards next characters (as per javascript's behavior of converting string to number)

So, if you write `parseInt("Infinity",19)` OR `parseInt("I",19)` OR `parseInt("i",19)` the result will be same i.e `18`.

Now, if you write `parseInt("I0",19)` the result will be `342` as `I X 19 (the base)^1 + 0 X 19^0` = `18 X 19^1 + 0 X 19^0` = `18 X 19 + 0 X 1` = `342`

Similarly, `parseInt("I11",19)` will result in `6518`

i.e.

``````  18 X 19^2  +   1 X 19^1   +  1 X 19^0
= 18 X 19^2  +   1 X 19^1   +  1 X 19^0
= 18 X 361   +   1 X 19     +  1 X 1
= 6498  +  19  +  1
= 6518
``````