As has been stated countless times, 0.1 cannot be represented exactly in IEEE 754 floating point. You can read all about why in What Every Computer Scientist Should Know About Floating-Point Arithmetic or The Floating Point Guide

You can trucate or round the value:

```
>>> round(1.1+.1,2)
1.2
>>> "%.*f" % (1, 1.1+.1 )
'1.2'
>>> s=str(1.1+.1)
>>> s[0:s.find('.')+2]
'1.2'
```

If you want *exact* representation of those values, consider using the Decimal module:

```
>>> import decimal
>>> decimal.Decimal('1.1')+decimal.Decimal('.1')
Decimal('1.2')
```

Note that you need to start with the string representation of your float, `'0.1'`

since `0.1`

is not exactly representable in binary in IEEE floating point:

```
>>> decimal.Decimal(.1)
Decimal('0.1000000000000000055511151231257827021181583404541015625')
```

To then get a string representation back after you calculate, you can use `str`

:

```
>>> str(sum(map(decimal.Decimal,['.1','.1','.5','.5'])))
'1.2'
```

Another alternative is to use a rational number library such as Fractions:

```
>>> from fractions import Fraction as Fr
>>> Fr(11,10)+Fr(1,10)
Fraction(6, 5)
```

With that result, you will still need to round, truncate, or use an arbitrary precision arithmetic package to get an exact number (depending on the inputs...)