# What uses do floating point NaN payloads have?

I know that IEEE 754 defines NaNs to have the following bitwise representation:

• The sign bit can be either `0` or `1`
• The exponent field contains all `1` bits
• Some bits of the mantissa are used to specify whether it's a quiet NaN or signalling NaN
• The mantissa cannot be all `0` bits because that bit pattern is reserved for representing infinity
• The remaining bits of the mantissa form a payload

The payload is propagated (as is the NaN as a whole) to the result of a floating point calculation when the input of the calculation is NaN, though I have no knowledge of the details of this propagation or whether the standard specifies how this is done. Who sets the original payload? What happens if I add two NaNs with different payloads?

But most importantly: I've never seen NaN payloads used before. What uses does this payload field have?

• I've heard of the payload being used to answer why a NaN was generated in the first place. (`0/0`, `oo-oo`, function evaluated at pole, etc.) I have also heard unconfirmed rumours that at least one program uses the (51-bit) sNaN payload as a (48-bit) pointer for a "fallback" of sorts to arbitrary-precision arithmetic. Nov 28, 2015 at 5:32
• the spec also defines when a nan is created, signaling nans vs quiet nans. The idea is so you dont have to check after every operation if there was an overflow or underflow or divide by zero or whatever you can look at the final result and see that the calculation had a problem at some point. Nov 28, 2015 at 13:32
• yeah, just checked, it lists several situations where the correct result is a NaN. (no not necessarily those that I listed in the above comment) Nov 28, 2015 at 13:37

It was thought to be a good idea when IEEE754 and NaN's were developed. I have actually seen it used to store the reason why a NaN was created.

Today, I wouldn't use it in portable code for several reasons. How sure are you that this payload will survive for example an assignment? If you assign x = y, how sure are you that x has the same NaN payload as y? And how sure are you that it will survive arithmetic? If a or b is an NaN, then a op b is supposed to be the one NaN, or one of the two NaNs if they are both NaN. Sure that this is the case? I wouldn't be willing to bet on it.

• It should also be noted that IEEE-754 (2008) does not mandate NaN payloads, it merely recommends them. Use of a single canonical NaN pattern (in both an SNaN and a QNaN flavor) would be standard compliant. See section 6.2 of the standard, in particular (emphasis mine): "To facilitate propagation of diagnostic information contained in NaNs, as much of that information as possible should be preserved in NaN results of operations." Nov 28, 2015 at 15:21
• As a concrete example, the default on the Apple M1 chip is not to propagate payloads (blog.r-project.org/2020/11/02/will-r-work-on-apple-silicon/…) Jul 8, 2023 at 1:15

https://softwareengineering.stackexchange.com/questions/185406/what-is-the-purpose-of-nan-boxing

Take a look at that link for an explanation of how js engines use nan boxing

• That's pretty fascinating! Could you kindly summarize the information from the link in your answer? Once you do I'll be ready to upvote it. Nov 28, 2015 at 15:58

The statistical environment R uses `NaN` payloads to distinguish one specific `NaN` as representing a statistical "missing value", which prints as `NA`. This allows 'missing' to propagate through numeric calculations -- although when combining a missing value with another `NaN` it is not predictable which one is propagated.