You forgot the `:`

colon:

```
"{:10.4f}".format(float(value))
```

otherwise Python interprets the first digit as a positional parameter index.

Each parameter can be set with it's own placeholder:

```
"{value:{width}.{precision}f}".format(
value=float(value), width=width, precision=precision)
```

`width`

and `precision`

arguments are interpolated before the `value`

is formatted.

This is, however, not a good test for floating point inputs. The float value `12.234`

cannot be exactly represented; binary fractions can only approximate it:

```
>>> format(12.234, '.53f')
'12.23399999999999998578914528479799628257751464843750000'
```

so this value wouldn't 'fit' your 10.4 constraints, yet look when rounded like a perfectly valid input to give.

**Any** floating point value can be formatted to a fixed width, in any case:

```
>>> format(10**11 + 0.1, '10.4f')
'100000000000.1000'
```

No `ValueError`

will be raised; the `10`

in the width parameter means: *produce a string that is at least this many characters wide, pad with spaces if it is shorter*, and this width *includes* the decimal point and the decimals.

To validate floating point input, the best you can do is test that it can be converted to a float, and then test for mininum and maxmimum values:

```
try:
value = float(value)
except ValueError:
# cannot be converted to a valid float
return "Not a valid input"
else:
if 0 <= value < 10 ** 11:
return "Value out of range"
```