Further to knabar's answer:

If your number is really a full 64 bits long you should be aware that javascript has only doubles, which top out at around 53 bits of precision. E.g.

```
var i = 0x89abcdef01234567; // a 64-bit constant
var h = ("000000000000000" + i.toString(16)).substr(-16); // "89abcdef01234800"
```

So you probably want to split this into two 32-bit numbers, and format them 8 digits at a time. Then the second caveat strikes: javascript performs bitwise ops on *signed* 32-bit integers, and this formatting code can't handle negative numbers.

```
var i = 0xffd2 << 16; // actually negative
var h = ("0000000" + i.toString(16)).substr(-8); // "0-2e0000"
```

Since it's fairly likely that numbers you want formatted in hexadecimal are the result of bitwise manipulations, the code can be tweaked to print in two's complement instead:

```
var i = 0xffd2 << 16; // actually negative
var h = ("0000000" + ((i|0)+4294967296).toString(16)).substr(-8); // "ffd20000"
```

This produces the hex representation of the bottom 32 bits of the integral part of arbitrary positive and negative numbers. This is probably what you want (it's approximately `printf("%08x")`

). Some more corner cases:

```
var i = 1.5; // non-integers are rounded
var h = ("0000000" + ((i|0)+4294967296).toString(16)).substr(-8); // "00000001"
var i = -1.5; // rounding is towards zero
var h = ("0000000" + ((i|0)+4294967296).toString(16)).substr(-8); // "ffffffff"
var i = NaN; // not actually a number
var h = ("0000000" + ((i|0)+4294967296).toString(16)).substr(-8); // "00000000"
```