There is no standard mapping between volts and "digits". With pro gear, several standards have been proposed. I have most often calibrated at 0 dBu = -10 dBFS, but a lot of (by no means all!) modern pro analog gear is pretty linear well above +10 dBu, so I'm not sure that calibration makes sense.
The mapping is defined by each individual A/D converter chip and effected by associated electronic circuitry which may add or subtract signal gain. In principle, a given A/D converter will convert its complete input analog range (whatever that is) to it's complete output range (whatever that is). If I remember correctly (which I may not) several popular 16-bit analog devices A/D converters range +/- 2.2 V, while others can operate in different ranges depending on what is supplied. In the 2.2 V case, that would mean that 0V in is close to digital 0, +2.2 V is close to digital 32767 and -2.2 V is close to digital 32768. I say "close to" both because of the obvious asymmetry on the digital side, and the not-so-obvious effects of temperature, noise, frequency and so on.
Once the signal is converted from Volts to "digits" by hardware, it may be further converted to floating point representation by software. There is no standard way this is done either. See: http://blog.bjornroche.com/2009/12/int-float-int-its-jungle-out-there.html At least the various methods get it close.