ice-nine

(which is crazy in c++, but people try)

which is useful for people trying to make abi-stable libraries, or something

its specific, yes, but an answer would help people understand how c++ works under the hood

well, thanks

(re: stackoverflow.com/questions/18543926/…)

i'm sad no one is interested, though

i think i figured out my question

last i checked you can barely call a destructor

well, as far as i know

they are not this far at all

haha, no

I might have to get a job at Microsoft one day just to find out what's going on

I'm not optimistic anyone on stack overflow can answer, but i'm genuinely curious

I just asked stackoverflow.com/questions/18543926/…

hey all, anyone know knitty gritty C++ ABIs details? specifically MSVC's?

that's funny, i didn't realize he was on stackoverflow

haha

err, i think i know that guy actually

other than x + -0.0 == x

i wonder what really is, though

anyway, i guess that settles it, it's not an identity at all

there are some values that round trip and some that don't, even in the range i gave

actually, it definitely isn't a particular range of values that round trips

i wouldn't put it past guido to use soft fixed point math just for some notion of "purity"

i'm not sure about python 3

i think python 2.7 still uses c doubles for float

anyway, it's apparently not an identity at least

10^29 actually

i wonder if it works for all doubles along that range, not just powers of 10

hmm, in python (1.0 / (1.0 / x)) == x works from 10^28 down to 10^-27, just trying powers of 10

it seems like someone ought to have gone through the trouble of compiling a list of these

apparently x + -0.0 == x always, but not x + 0.0

in any case, i wonder what identities you actually can count in fp

without getting into the details

eh, well, it came up in that context, sort of

it's not that 1.0 / x is perfectly represented, it's just that if you do it again you happen to round back to what you started

but it rounds back to the same value usually

are you sure? i know there's an error

but it seems to work on all the normals i tried

i'm guessing that fails on denormals at least

hey, i was wondering if you knew what floating point identities are actually valid...and specifically if 1.0 / (1.0 / x) == x or not?

oh wow, that worked

@Mysticial, are you around?

@EiyrioüvonKauyf i can't seem to find any that don't round trip

@EiyrioüvonKauyf there's a lot of values to try...almost 2^64 of them?

there are certain identities that actually hold true on floating point, so it's not obvious off the top of my head if this is one of them

like 1.0 / x twice

hey, does anyone here know if applying ieee floating point reciprocal twice is guaranteed to round trip back to the same value?

@Mysticial what architectures do you actually care about in practice, by the way?

no more, no less?