I am writing a program for an embedded hardware that only support 32-bit single-precision floating point arithmetic. The algorithm I am implementing, however, requires a 64-bit double-precision addition and comparison. I am trying to emulate "double" datatype using a tuple of two floats. So a `double d`

will be emulated as struct containing the tuple: `(float d.hi, float d.low)`

.

The comparison should be straightforward using a lexicographic ordering. The addition however is a bit tricky because I am not sure which base should I use. Should it be FLT_MAX? And how can I detect a carry.

How can this be done?

*Edit (Clarity):* I need the extra significant digits rather than the extra range.

rangeof`double`

, or just the extra significant digits? – dan04 Jul 21 '11 at 0:01`double`

precision. Specifically,`1.0E+20`

and`1.0E-03`

differ by more than epsilon (for`double`

this is typically`1.0E-16`

or so) so I'd expect that operations like`1.0E+20 + 1.0E-03`

would equate to`1.0E+20`

, even when using`double`

. Will that be an issue?? – Darren Engwirda Jul 21 '11 at 0:50