Let's say I have some 32-bit and 64-bit floating point values:

```
>>> import numpy as np
>>> v32 = np.array([5, 0.1, 2.4, 4.555555555555555, 12345678.92345678635],
dtype=np.float32)
>>> v64 = np.array([5, 0.1, 2.4, 4.555555555555555, 12345678.92345678635],
dtype=np.float64)
```

I want to serialize these values to text without losing precision (or at least really close to not losing precision). I think the canonical way of doing this is with `repr`

:

```
>>> map(repr, v32)
['5.0', '0.1', '2.4000001', '4.5555553', '12345679.0']
>>> map(repr, v64)
['5.0', '0.10000000000000001', '2.3999999999999999', '4.5555555555555554',
'12345678.923456786']
```

But I want to make the representation as compact as possible to minimize file size, so it would be nice if values like 2.4 got serialized without the extra decimals. Yes, I know that's their actual floating point representation, but `%g`

seems to be able to take care of this:

```
>>> ('%.7g ' * len(v32)) % tuple(v32)
'5 0.1 2.4 4.555555 1.234568e+07 '
>>> ('%.16g ' * len(v32)) % tuple(v64)
'5 0.1 2.4 4.555555555555555 12345678.92345679 '
```

My question is: is it safe to use `%g`

in this way? Are `.7`

and `.16`

the correct values so that precision won't be lost?