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Mikhail
Mikhail
1:10 AM
On the subject of shooting yourself in the foot, any good way to ensure two different structs are located in contagious memory within a structure? So that you can return a pointer to both through an std::span?
kinda thinking putting up some pragma packs might fix the issue
 
Jerry Coffin
Jerry Coffin
@Mikhail Yeah, if you pack each structure, then pack the structure containing them, you should end up with contiguous memory. For contagious memory, see "mandela effect".
 
Mikhail
Mikhail
somehow I still don't trust it 
struct AClass
{
bool foo;
#pragma pack(push, 1)
SomethingA a;
SomethingB b;
#pragma pack(pop)
}
So in this case are SomethingA and SomethingB guaranteed to have no memory holes, or extra space between them?
 
 
1 hour later…
Joshua
Joshua
2:39 AM
Exemplary case of how to ask question right: stackoverflow.com/q/69732098/14768
 
 
4 hours later…
Mikhail
Mikhail
6:56 AM
ugg, getting sick of writting the same getter for the const ref and regular ref versions
 
 
2 hours later…
IneoSenigupta
IneoSenigupta
8:33 AM
Hello
 
Lapys
Lapys
World 👋🏾
 
 
1 hour later…
nwp
nwp
9:47 AM
@Mikhail I'm pretty sure that is UB no matter the memory layout. You can only do pointer arithmetic between objects of the same array and you don't have that.
 
 
7 hours later…
Mgetz
Mgetz
4:20 PM
@nwp I'm fairly sure you're correct mostly I think it's allowed if they are standard layout. But anything that's not 100% POD won't fit that bill.
 
Lapys
Lapys
@Mikhail How about 𝒂𝒏𝒐𝒕𝒉𝒆𝒓 struct? 🙃
 
Mgetz
Mgetz
The irony is Raymond has been talking about this lately devblogs.microsoft.com/oldnewthing/20211027-00/?p=105838
 
Mikhail
Mikhail
ended up doing something like

foo
{
std::array<BaseClass,2>
SomethingA getA();
SomethingB getB();
}
 
Lapys
Lapys
 
Mikhail
Mikhail
but now I need a macro to avoid gunking up my class with getters and setters
 
Lapys
Lapys
4:23 PM
(oof, delayed screenshot)
 
Mikhail
Mikhail
putting them in their class would basically be the same thing?
you still need to #pragma pack them
 
Lapys
Lapys
What do you mean?
 
Mikhail
Mikhail
so by #pragma pack, there can be a memory hole between a and b
 
Mgetz
Mgetz
Well the whole thing is 100% UB
 
Lapys
Lapys
@Mikhail How about pointers? Oh, wait...
std::tuples?
 
Mikhail
Mikhail
4:34 PM
foo
{
std::array<BaseClass,2> holder;
SomethingA& getA(){return (SomethingA&) holder[0];};
SomethingA& getA(){return (SomethingA&) holder[1];};

}
but its not too fun to write that kinda thing
also need 3 getters for const correctness
 
Mgetz
Mgetz
I mean you can const_cast if you really want to
 
Mikhail
Mikhail
so right now I'm trying to figure out a #define that will help avoid explicitly writing the 3 getters per each member (regular reference, const reference, the static implementation)
 
Lapys
Lapys
@Mgetz I'm guilty of doing that without knowing the possible downsides 😔
 
Mgetz
Mgetz
@Mikhail I'm still trying to figure out what you're doing and why this is so important as it's very much UB
 
Mikhail
Mikhail
yeah it wasn't well explained
Foo
{
std::array<BaseClass,2> holder;
std::span<BaseClass> get_items();//Interface requires a contiguous pointer of the base class
SomethingA& getA(){return (SomethingA&) holder[0];};// SomethingA has a bunch of template information but no members outside of the base class, aka sizeof(SomethingA) == sizeof(BaseClass)
SomethingB& getB(){return (SomethingB&) holder[1];};
}
basically my interface requires returning non-owning std::spans
 
Mgetz
Mgetz
4:38 PM
@Mikhail so see the link to raymond's blog above...
@Mikhail yeah this is extremely UB
you're slicing all over the place
 
Mikhail
Mikhail
nothing UB about returning non owning spans, unless they are possibly to the same memory location in the same context (aliasing rules)
 
Mgetz
Mgetz
when it's not actually a contiguous container? Yes that's UB
 
Lapys
Lapys
@Mikhail Again, how about std::tuples?
 
Mikhail
Mikhail
oh but in the code I shared they are contiguous in the sense they are both in an std::array
so not sure if its UB if they are separate members in a pragma (the original thing I shared)
 
Mgetz
Mgetz
well if you're addressing a base class as a derived when you've only allocated the base class that's UB
 
Lapys
Lapys
4:41 PM
 
Mikhail
Mikhail
but in this case the derived class has no new members or virtual functions (it just dumps in a bunch of template parameters). So I'm not sure if its UB
 
Lapys
Lapys
@Mikhail You have to use #pragma pack? 🤔
@Mikhail You can inherit the derived class.. struct MyType : contiguous<A, B>
 
Mgetz
Mgetz
it's still UB AFAIK
even if its standard layout
 
Mikhail
Mikhail
whats the UB part though?
 
Mgetz
Mgetz
@Mikhail well the most obvious is you're creating a lifetime for the base and then accessing it through derived which doesn't have a lifetime
 
Lapys
Lapys
4:54 PM
Object slicing?
Honestly my first idea was a malloc(sizeof A + sizeof B), but that's essentially kind of like a struct at the end of the day
 
Mikhail
Mikhail
I'm getting the reference to the derived by casting, so it has the lifetime restrictions of a reference
 
Mgetz
Mgetz
so at a minimum unless static_assert(std::is_standard_layout_v<SomethingA> && std::is_standard_layout_v<SomethingB>) passes you're in seriously ugly territory
 
Mikhail
Mikhail
I mean the two need to have the layouts (the layout of the base) but I don't see why they'd need to have standard layouts...
 
Mgetz
Mgetz
because you're aliasing
 
Lapys
Lapys
If SomethingA or SomethingB contains more data than BaseClass, wouldn't that be a problem?
 
Mikhail
Mikhail
4:58 PM
so
Struct Holder
{
F foo;
F& get_foo() {return foo};
}
does that trigger aliasing issues?
cause its possible to have an instance of the holder and reference to its member, which would point to the same address
 
Lapys
Lapys
Only if `get_foo()` `return`s a reference to a `struct` that contains more/ less data than `F`, I guess
or if the `return`ed `struct` isn't related to `F` 🤷🏾‍♂️
 
Mikhail
Mikhail
I just seems that the struct Holder thing I wrote shouldn't cause UB because having an object and reference to its member is a form of aliasing but also quiet common
although I guess you could

Holder a;
auto& ref1 = a.get_foo();
auto& ref2 = a.get_foo();
auto s = [ref1,ref2]{return ref1+ref2;}();
in that lambda the compiler doesn't know if ref1 and ref2 alias (or rather assumes they usually don't)
but UB due to aliasing doesn't happen when you make the reference, it happens when you start touching the data. And really the compiler assumes they data doesn't alias (so if it really aliases you're in trouble).
 
Mgetz
Mgetz
this might actually be a valid case for std::launder
 
Mikhail
Mikhail
5:19 PM
launder usually deep copies :-)
 
Lapys
Lapys
It does? 😯
 
Mikhail
Mikhail
I mean the compiler needs to issue different instruction if the memory locations alias, and there is no C++ way to communicate that the locations alias. C++ has 3 comments about aliasing 1) most cases assume no aliasing 2) char* may alias 3) [[restrict]] can be applied to certain kinds of objects to assume no aliasing
but to actually solve the alias you'd need to deep copy
 
Mikhail
Mikhail
6:16 PM
also we need static type checking in macros
#define MIXIN(foo : type) something(foo)
fudge, I've been doing too much python
 
Mgetz
Mgetz
6:37 PM
@Mikhail no it doesn't
it's basically just a magic pointer cast
if you looked at the definition you'd notice it's just a pointer thing
 
Mikhail
Mikhail
Yeah I think I'll need to look harder at std::launder
Then std::launder(p) returns a value of type T* that points to the object X. Otherwise, the behavior is undefined.
so maybe it doesn't solve anything :-)
 

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