It's important to note that I'm not looking for a rounding function. I am looking for a function that returns the number of decimal places in an arbitrary number's simplified decimal representation. That is, we have the following:

```
decimalPlaces(5555.0); //=> 0
decimalPlaces(5555); //=> 0
decimalPlaces(555.5); //=> 1
decimalPlaces(555.50); //=> 1
decimalPlaces(0.0000005); //=> 7
decimalPlaces(5e-7); //=> 7
decimalPlaces(0.00000055); //=> 8
decimalPlaces(5.5e-7); //=> 8
```

My first instinct was to use the string representations: split on `'.'`

, then on `'e-'`

, and do the math, like so (the example is verbose):

```
function decimalPlaces(number) {
var parts = number.toString().split('.', 2),
integerPart = parts[0],
decimalPart = parts[1],
exponentPart;
if (integerPart.charAt(0) === '-') {
integerPart = integerPart.substring(1);
}
if (decimalPart !== undefined) {
parts = decimalPart.split('e-', 2);
decimalPart = parts[0];
}
else {
parts = integerPart.split('e-', 2);
integerPart = parts[0];
}
exponentPart = parts[1];
if (exponentPart !== undefined) {
return integerPart.length +
(decimalPart !== undefined ? decimalPart.length : 0) - 1 +
parseInt(exponentPart);
}
else {
return decimalPart !== undefined ? decimalPart.length : 0;
}
}
```

For my examples above, this function works. However, I'm not satisfied until I've tested every possible value, so I busted out `Number.MIN_VALUE`

.

```
Number.MIN_VALUE; //=> 5e-324
decimalPlaces(Number.MIN_VALUE); //=> 324
Number.MIN_VALUE * 100; //=> 4.94e-322
decimalPlaces(Number.MIN_VALUE * 100); //=> 324
```

This looked reasonable at first, but then on a double take I realized that `5e-324 * 10`

should be `5e-323`

! And then it hit me: I'm dealing with the effects of quantization of very small numbers. Not only are numbers being quantized before storage; additionally, some numbers stored in binary have unreasonably long decimal representations, so their decimal representations are being truncated. This is unfortunate for me, because it means that I can't get at their true decimal precision using their string representations.

So I come to you, StackOverflow community. Does anyone among you know a reliable way to get at a number's true post-decimal-point precision?

The purpose of this function, should anyone ask, is for use in another function that converts a float into a simplified fraction (that is, it returns the relatively coprime integer numerator and nonzero natural denominator). The only missing piece in this outer function is a reliable way to determine the number of decimal places in the float so I can multiply it by the appropriate power of 10. Hopefully I'm overthinking it.

"the number of decimal places in an arbitraryinteger'ssimplified decimal representation."- that would be zero. – nnnnnn Mar 2 '12 at 20:19