Best solution:

```
inline double twodec(double n) { return floor(n * 100 + 0.5) / 100; }
oss << twodec(1.0) << ' ' << twodec(1.009);
```

Discussion

From http://www.cplusplus.com/reference/ios/fixed/ (italics mine)

When floatfield is set to fixed, float values are written using fixed-point notation, which means the value is represented with *exactly as many digits in the fraction part as specified by the precision field* and with no exponent part.

So, "fixed" isn't going to work.

That said, the only ways I can think of to do what you want are:

- round the number first to the desired precision (i.e.
`floor(n * 100 + 0.5) / 100`

) first, then use the default presentation (i.e. don't specify fixed or scientific or precision - if `fixed`

or `scientific`

are in effect, first clear them with `std::cout.unsetf(std::ios::floatfield)`

).
- dynamically setting the precision based on the maximum total number of numeric digits you want to see, before and after the point (which is what the precision specifies); to do that, you could work out how many digits the part before the decimal point takes (using log base 10 perhaps) and add 2
- streaming the result to a
`ostringstream`

, then removing trailing 0s and any '.' (pretty hideous).