Discussion on question by André Offringa: Reusing a float buffer for doubles without undefined behaviour

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18:38

Q: Reusing a float buffer for doubles without undefined behaviour

In one particular C++ function, I happen to have a pointer to a big buffer of floats that I want to temporarily use to store half the number of doubles. Is there a method to use this buffer as scratch space for storing the doubles, which is also allowed (i.e., not undefined behaviour) by the stan...

Bathsheba

How refreshing to get a great question from a new user! I'm thinking in terms of a placement new based solution, something on the lines of stackoverflow.com/questions/15254/… Note that in portable C++ though a double and float could be the same size.

Tyker

std::launder may be what you need

user4290866

@Tyker isn't this going to return a pointer to the same type?

Tyker

@Pi yes it will but i was thinking of doing something like std::launder(reinterpret_cast<Y*>(&s)) as they do in the example

Paul Sanders

Y' know all, what we really, really need is a legal way to do type- punning, the current situation is ridiculous. C'mon guys, how hard can it be? Who here has the right contacts?

geza

18:38

@PaulSanders: legal way is memcpy.

Tyker

@geza it is legal but it require a copy... and we hate copies

Paul Sanders

@geza Euuuw....

geza

You have two options: placement new+launder+reinterpret_cast, the other is memcpy'ing to/from buffer (you don't need an extra buffer for this, just copy one element to/from buffer).

user4290866

For two types of same size there is going to be bit_cast in C++20

user4290866

I doubt launder+reinterpret_cast is legal

geza

18:38

@Tyker: there won't be a copy. Compilers are smart enough to do the right thing.

Sombrero Chicken

@geza std::launder to perform type punning in this scenario is not legal.

Paul Sanders

@Tyker Can we trust that? It would be nice, if it's safe.

Tyker

@geza i rather not have to rely on it

@PaulSanders i am not sure it is safe in this case

geza

@Tyker: you can rely on it for at least 10 years. For simple types, compilers don't emit memcpy, they do the right thing. If they don't, then that's a compiler bug.

user4290866

@geza Should be undefined behavior to rely on reinterpret_cast with strict aliasing

geza

18:38

@Pi: what is UB?

Paul Sanders

@geza In the context of the OP's question, please post proof-of-context code. I'd like to understand this (because I don't ). (you don't need an extra buffer for this, just copy one element to/from buffer).

geza

@PaulSanders: which option? Sorry, currently I don't have the time to create a full answer, but I could try to explain it here

Paul Sanders

@geza edited my comment. Don't want it explained here.

@Bathsheba Note that in portable C++ though a double and float could be the same size That would be a bonus.

geza

@PaulSanders: you can memcpy to/from any bytes you want to/from buffer. So you can memcpy a double to buffer, and memcpy back a double to buffer, apply some calculation it, then memcpy it to the buffer. It is awkward, but works. Using placement new is a better solution. But I bet, the resulting compiled code will be almost the same for both of the options.

Paul Sanders

@geza Yeah, awkward. placement new sounds promising.

phön

18:38

Why would you want to memcpy in the first place? I understood the question of OP in the way that he just want to REUSE the storage, which got previously used by the floats? He does not want to examine the bytes as doubles or doing anything with the values in the storage. Or did i missunderstand the question?

Paul Sanders

@phön No, you didn't.

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Discussion on question by André Offri…

Imported from a comment discussion on stackoverflow.com/questi...

c++ strict-aliasing type-punning

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