Today, I came across quite strange problem. I needed to calculate string length of a number, so I came up with this solution

```
// say the number is 1000
(int)(log(1000)/log(10)) + 1
```

This is based on mathematical formula

`log`

_{10}`x = log`

_{n}`x/log`

_{n}`10`

(explained here)

But I found out, that in C,

```
(int)(log(1000)/log(10)) + 1
```

is **NOT** equal to

```
(int) log10(1000) + 1
```

but it should be.

I even tried the same thing in Java with this code

```
(int) (Math.log(1000) / Math.log(10)) + 1
(int) Math.log10(1000) + 1
```

but it behave the same wrong way.

The story continues. After executing this code

```
for (int i = 10; i < 10000000; i *= 10) {
System.out.println(((int) (Math.log10(i)) + 1) +
" " + ((int) (Math.log(i) / Math.log(10)) + 1));
}
```

I get

```
2 2
3 3
4 3 // here second method produces wrong result for 1000
5 5
6 6
7 6 // here again
```

So the bug seems to occur on every multiple of 1000.

I showed this to my C teacher, and he said that it might be caused by some type conversion error during log division, but he didn't know why.

So my questions are

**Why isn't**`(int) (Math.log(1000) / Math.log(10)) + 1`

equal to`(int) Math.log10(1000) + 1`

, while it should be, according to the math.**Why is it wrong only for multiples of 1000?**

**edit:** It is not rounding error, because

```
Math.floor(Math.log10(i)) + 1
Math.floor(Math.log(i) / Math.log(10)) + 1
```

produce same, wrong output

```
2 2
3 3
4 3
5 5
6 6
7 6
```

**edit2:** I have to round down, because I want to know the **number of digits**.

```
log10(999) + 1 = 3.9995654882259823
log10(1000) + 1 = 4.0
```

If I just round, I get same result (4), which is wrong for 999, because it has 3 digits.

`floor`

over using`round`

? – pjp Sep 30 '09 at 11:10