Go spec: Conversions:

**Conversions between numeric types**

When converting a floating-point number to an integer, the fraction is discarded (truncation towards zero).

So basically when you convert a floating-point number to an integer, only the integer part is kept.

If you just want to avoid errors arising from representing with finite bits, just add `0.5`

to the number before converting it to `int`

. No external libraries or function calls (from standard library) required.

Since `float -> int`

conversion is *not rounding* but *keeping the integer part*, this will give you the desired result. Taking into consideration both the possible smaller and greater representation:

```
1002.9999 + 0.5 = 1003.4999; integer part: 1003
1003.0001 + 0.5 = 1003.5001; integer part: 1003
```

So simply just write:

```
var f float64 = 1.003
fmt.Println(int(f * 1000 + 0.5))
```

To wrap this into a function:

```
func toint(f float64) int {
return int(f + 0.5)
}
// Using it:
fmt.Println(toint(f * 1000))
```

Try them on the Go Playground.

**Note:**

Be careful when you apply this in case of negative numbers! For example if you have a value of `-1.003`

, then you probably want the result to be `-1003`

. But if you add `0.5`

to it:

```
-1002.9999 + 0.5 = -1002.4999; integer part: -1002
-1003.0001 + 0.5 = -1002.5001; integer part: -1002
```

So if you have negative numbers, you have to either:

- subtract
`0.5`

instead of adding it
- or add
`0.5`

but subtract `1`

from the result

Incorporating this into our helper function:

```
func toint(f float64) int {
if f < 0 {
return int(f - 0.5)
}
return int(f + 0.5)
}
```