Ignacio Vazquez-Abrams is correct, but lets see exactly how it works...

From `15.1.2.2 parseInt (string , radix)`

:

When the parseInt function is called,
the following steps are taken:

**Let inputString be ToString(string).**
- Let S be a newly created substring of inputString consisting of the first
character that is not a
StrWhiteSpaceChar and all characters
following that character. (In other
words, remove leading white space.)
- Let sign be 1.
- If S is not empty and the first character of S is a minus sign -, let
sign be −1.
- If S is not empty and the first character of S is a plus sign + or a
minus sign -, then remove the first
character from S.
- Let R = ToInt32(radix).
- Let stripPrefix be true.
- If R ≠ 0, then a. If R < 2 or R > 36, then return NaN. b. If R ≠ 16, let
stripPrefix be false.
- Else, R = 0 a. Let R = 10.
- If stripPrefix is true, then a. If the length of S is at least 2 and the
first two characters of S are either
“0x” or “0X”, then remove the first
two characters from S and let R = 16.
**If S contains any character that is not a radix-R digit, then let Z be the
substring of S consisting of all
characters before the first such
character; otherwise, let Z be S.**
- If Z is empty, return NaN.
- Let mathInt be the mathematical integer value that is represented by Z
in radix-R notation, using the letters
A-Z and a-z for digits with values 10
through 35. (However, if R is 10 and Z
contains more than 20 significant
digits, every significant digit after
the 20th may be replaced by a 0 digit,
at the option of the implementation;
and if R is not 2, 4, 8, 10, 16, or
32, then mathInt may be an
implementation-dependent approximation
to the mathematical integer value that
is represented by Z in radix-R
notation.)
- Let number be the Number value for mathInt.
- Return sign × number.

**NOTE parseInt may interpret only a
leading portion of string as an
integer value; it ignores any
characters that cannot be interpreted
as part of the notation of an integer,
and no indication is given that any
such characters were ignored.**

There are two important parts here. I bolded both of them. So first of all, we have to find out what the `toString`

representation of `null`

is. We need to look at `Table 13 — ToString Conversions`

in section 9.8.0 for that information:

Great, so now we know that doing `toString(null)`

internally yields a `'null'`

string. Great, but how exactly does it handle digits (characters) that aren't valid within the radix provided?

We look above to `15.1.2.2`

and we see the following remark:

If S contains any character that is
not a radix-R digit, then let Z be the
substring of S consisting of all
characters before the first such
character; otherwise, let Z be S.

That means that we handle all digits PRIOR to the specified radix and ignore everything else.

Basically, doing `parseInt(null, 23)`

is the same thing as `parseInt('null', 23)`

. The `u`

causes the two `l`

's to be ignored (even though they ARE part of the radix 23). Therefore, we only can only parse `n`

, making the entire statement synonymous to `parseInt('n', 23)`

. :)

Either way, great question!

`alert(parseInt(null, 34) === 23)`

produced`false`

– Stephen P Jun 23 '11 at 19:53`alert(parseInt(null,26)===23);`

also produces true ?!?! – Petar Ivanov Jun 23 '11 at 19:58`[24...30]:23`

,`31:714695`

,`32:785077`

,`33:859935`

,`34:939407`

,`35:1023631`

,`36:1112745`

,`[37...]:NaN`

– zzzzBov Jun 23 '11 at 20:00`undefined`

as the first parameter returns odd results for the 30's – zzzzBov Jun 23 '11 at 20:05