# Why is it that parseInt(8,3) == NaN and parseInt(16,3) == 1?

I'm reading this but I'm confused by what is written in the parseInt with a radix argument chapter

Why is it that `parseInt(8, 3)``NaN` and `parseInt(16, 3)``1`?

AFAIK 8 and 16 are not base-3 numbers, so `parseInt(16, 3)` should return `NaN` too

• Yet another issue that would have been solved by static typing (or at least not implicitly converting integers to strings) :P Aug 26 '16 at 14:16
• @Navin This has nothing to do with static versus dynamic typing (as you note yourself). The problem here is weak as opposed to strong typing. Aug 26 '16 at 21:06
• When I saw the title of this question I thought to myself, "it's probably because loljavascript". Seeing the answers I judge my instinct to have been basically correct. Aug 27 '16 at 5:45

This is something people trip over all the time, even when they know about it. :-) You're seeing this for the same reason `parseInt("1abc")` returns 1: `parseInt` stops at the first invalid character and returns whatever it has at that point. If there are no valid characters to parse, it returns `NaN`.

`parseInt(8, 3)` means "parse `"8"` in base 3" (note that it converts the number `8` to a string; details in the spec). But in base 3, the single-digit numbers are just `0`, `1`, and `2`. It's like asking it to parse `"9"` in octal. Since there were no valid characters, you got `NaN`.

`parseInt(16, 3)` is asking it to parse `"16"` in base 3. Since it can parse the `1`, it does, and then it stops at the `6` because it can't parse it. So it returns `1`.

Since this question is getting a lot of attention and might rank highly in search results, here's a rundown of options for converting strings to numbers in JavaScript, with their various idiosyncracies and applications (lifted from another answer of mine here on SO):

• `parseInt(str[, radix])` - Converts as much of the beginning of the string as it can into a whole (integer) number, ignoring extra characters at the end. So `parseInt("10x")` is `10`; the `x` is ignored. Supports an optional radix (number base) argument, so `parseInt("15", 16)` is `21` (`15` in hex). If there's no radix, assumes decimal unless the string starts with `0x` (or `0X`), in which case it skips those and assumes hex. (Some browsers used to treat strings starting with `0` as octal; that behavior was never specified, and was specifically disallowed in the ES5 specification.) Returns `NaN` if no parseable digits are found.

• `parseFloat(str)` - Like `parseInt`, but does floating-point numbers and only supports decimal. Again extra characters on the string are ignored, so `parseFloat("10.5x")` is `10.5` (the `x` is ignored). As only decimal is supported, `parseFloat("0x15")` is `0` (because parsing ends at the `x`). Returns `NaN` if no parseable digits are found.

• Unary `+`, e.g. `+str` - (E.g., implicit conversion) Converts the entire string to a number using floating point and JavaScript's standard number notation (just digits and a decimal point = decimal; `0x` prefix = hex; `0o` prefix = octal [ES2015+]; some implementations extend it to treat a leading `0` as octal, but not in strict mode). `+"10x"` is `NaN` because the `x` is not ignored. `+"10"` is `10`, `+"10.5"` is `10.5`, `+"0x15"` is `21`, `+"0o10"` is `8` [ES2015+]. Has a gotcha: `+""` is `0`, not `NaN` as you might expect.

• `Number(str)` - Exactly like implicit conversion (e.g., like the unary `+` above), but slower on some implementations. (Not that it's likely to matter.)

• So `parseInt` first uses `toString` on the first argument? That would make sense. Aug 25 '16 at 13:51
• @evolutionxbox: Yup, it's the first step of the `parseInt` algorithm: ecma-international.org/ecma-262/7.0/… Aug 25 '16 at 13:52
• I suppose `123e-2` gives `1` since it turns into `1.23` first, and then parsing stops at the decimal point? Aug 25 '16 at 20:16
• "This is something people trip over all the time, even when they know about it" -> am I the only one that thinks this should be a bug? Doing the same in Java for example will give you a `NumberFormatException` each time. Aug 26 '16 at 14:14
• @SvenMarnach: That part of `parseInt` (coercing the first argument to string) makes sense. The purpose of `parseInt` is to parse a string to a whole number. So if you give it something that isn't a string, getting the string representation of it to start with makes sense. What it does after that is a whole 'nother story... Aug 27 '16 at 6:52

For the same reason that

``````>> parseInt('1foobar',3)
<- 1
``````

In the doc, `parseInt` takes a string. And

If string is not a string, then it is converted to a string

So `16`, `8`, or `'1foobar'` is first converted to string.

Then

If `parseInt` encounters a character that is not a numeral in the specified radix, it ignores it and all succeeding characters

Meaning it converts up to where it can. The `6`, `8`, and `foobar` are ignored, and only what is before is converted. If there is nothing, `NaN` is returned.

``````/***** Radix 3: Allowed numbers are [0,1,2] ********/
parseInt(4, 3); // NaN - We can't represent 4 using radix 3 [allowed - 0,1,2]

parseInt(3, 3); // NaN - We can't represent 3 using radix 3 [allowed - 0,1,2]

parseInt(2, 3); // 2   - yes we can !

parseInt(8, 3); // NaN - We can't represent 8 using radix 3 [allowed - 0,1,2]

parseInt(16, 3); // 1
//'16' => '1' (6 ignored because it not in [0,1,2])

/***** Radix 16: Allowed numbers/characters are [0-9,A-F] *****/
parseInt('FOX9', 16); // 15
//'FOX9' => 'F' => 15 (decimal value of 'F')
// all characters from 'O' to end will be ignored once it encounters the out of range'O'
// 'O' it is NOT in [0-9,A-F]
``````

Some more examples:

``````parseInt('45', 13); // 57
// both 4 and 5 are allowed in Radix is 13 [0-9,A-C]

parseInt('1011', 2); // 11 (decimal NOT binary)

parseInt(7,8); // 7
// '7' => 7 in radix 8 [0 - 7]

parseInt(786,8); // 7
// '78' => '7' => 7 (8 & next any numbers are ignored bcos 8 is NOT in [0-7])

parseInt(76,8); // 62
// Both 7 & 6 are allowed '76' base 8 decimal conversion is 62 base 10
``````