Real in Postgres is a floating point datatype, stored on 4 bytes, that is 32 bits.
Can not be precisely represented in a 32bit IEEE754 floating point number. You can check the exact values in this calculator
You cold try and use double precision (64bits) to store it, according to the calculator, that seems to be an exact representation. NOT TRUE Patricia showed that it was just the calculator rounding the value, even though explicitly asking it not to... Double would mean a bit more precision, but still no exact value, as this number is not representable using finite number of binary digits. (Thanks, Patricia, a lesson learnt (again): don't believe what you see on the Intertubez)
Under normal circumstances, you should use a NUMERIC(precision, scale) format, that would store the number precisely to get back the correct value.
However, your value to store seems to have a scale larger than postgres allows (which seems to be 30) for exact decimal represenations. If you don't want to do calculations, just store them (which would not be a very common situation, I admit), you could try storing them as strings... (but this is ugly...)
This to_char problem seems to be a known bug...
My immediate reaction to that is that float8 values don't have 57 digits
of precision. If you are expecting that format string to do something
useful you should be applying it to a numeric column not a double
It's possible that we can kluge things to make this particular case work
like you are expecting, but there are always going to be similar-looking
cases that can't work because the precision just isn't there.
In a quick look at the code, the reason you just get "0." is that it's
rounding off after 15 digits to ensure it doesn't print garbage. Maybe
it could be a bit smarter for cases where the value is very much smaller
than 1, but it wouldn't be a simple change.
However, I find this not defendable. IMHO a double (IEEE754 64bit floating point to be exact) will always have ~15 significant decimal digits, if the value fits into the type...