Here's a mathematical answer (also works for negative numbers):

```
function numDigits(x) {
return Math.max(Math.floor(Math.log10(Math.abs(x))), 0) + 1;
}
```

And an optimized version of the above (more efficient bitwise operations): *

```
function numDigits(x) {
return (Math.log10((x ^ (x >> 31)) - (x >> 31)) | 0) + 1;
}
```

Essentially, we start by getting the absolute value of the input to allow negatives values to work correctly. Then we run the through the log10 operation to give us what power of 10 the input is (if you were working in another base, you would use the logarithm for that base), which is the number of digits. Then we floor the output to only grab the integer part of that. Finally, we use the max function to fix decimal values (any fractional value between 0 and 1 just returns 1, instead of a negative number), and add 1 to the final output to get the count.

The above assumes (based on your example input) that you wish to count the number of digits in integers (so 12345 = 5, and thus 12345.678 = 5 as well). If you would like to count the total number of digits in the value (so 12345.678 = 8), then add this before the 'return' in either function above:

```
x = Number(String(x).replace(/[^0-9]/g, ''));
```

* Please note that bitwise operations in JavaScript only work with 32-bit values (so a max of 2,147,483,647). So don't go using the bitwise version if you expect numbers larger than that, or it simply won't work.

`(number+'').length`

will convert the content automatically to string, then you can use`.length`

.