I don't think there is one on current systems. The candidate is double with a size of 8 and an alignment of 4 on 32 bit systems, but it turns out that 8 byte aligned doubles are a tiny bit faster to read, so they made them 8 byte aligned. If you look through enough compilers and platforms you'll probably find one where it uses 4 byte alignment for doubles.
ok so in my case if alignof(my_type) equals 8 I am in the case where it is aligned to the most aligned type in my struct (which is double). But how can I come across to the case where the struct is aligned to max_align_t?
yes but I was talking some time ago about alignment with @Mgetz and told me about serializing data
and I believe in that case you need to know about alignment
Serialization means you turn your data into bytes. Bytes have an alignment of 1. When doing the stupid thing and just casting the byte array to whatever data type you want, alignment is one of the reasons why it doesn't work.
It's only when you do weird things, like wanting an array of bytes to be aligned like a double that you can do shady casts with 1 less bug that you need to care about alignment.
@CătălinaSîrbu you're over worrying? 98% of the time it doesn't matter. In the 2% it does you should use a library that takes care of it for you. In the 0.1% beyond that... you're writing scientific or computational code.
yes because you usually don't find all the information you need online. Like ok, i find something but usually how to use is related to where to use. Sometimes you find how to use, sometimes you fine where to use , but almost never both :))
this is for efficiency reasons over the wire. But if you need something to be faster to parse between systems that you know the alignment of you might use specially crafted messages that are going to line up for that
correct
e.g. a PowerPC or ARM system should be able to parse a protobuf message a x86 machine crafted
so it doesn't actually participate in ADL... it just bypasses it and takes hold. You get around that by doing a free function in the same namespace as the user (not the template)
Question regarding MFC: in the documentation of PostMessage, it says "If you send a message in the range below WM_USER to the asynchronous message functions [...], its message parameters cannot include pointers. Otherwise, the operation will fail. The functions will return before the receiving thread has had a chance to process the message and the sender will free the memory before it is used."
Do they actually mean "[...] its message parameters cannot include pointers to objects allocated and freed in the scope of the caller. [...]"?
I currently have some code that pass around a WM_SETICON message with a HICON stored in a long-lived object with SendMessage, and I'd rather use PostMessage instead.
You can't pass the address of the string in PostMessage, since the string is probably thread-local on the stack. By the time the other thread picks it up, it could have been destroyed.
Instead, you should create a new string or exception object via new and pass its address to the other thread (...
So a more appropriate pattern here would be to "find the MainFrameWnd, cast it to the expected type, store the string there, then post a message to the frame, telling it do something with the string that has just been stored"?
@Vaillancourt depends on if you had other things queued up, generally I allocate whatever I'm going to pass via std::make_unique and then have the smart pointer .release it directly into the method
but honestly if you need to pass that kind of data it might be better to use a different method
@Mgetz Yes, okay, I'm converting it back right to a unique_ptr on the other side 👍
Although on the "calling side" it's not a unique_ptr for now.
Is there another common pattern to pass data to MFC windows? (I found myself in need to update that code on our app, and I'm not familiar with the suggested patterns.)
Hmm, right, ok, if it gets serious, I guess I'll have to do this. For now it appears that it is about only thing that is not used as just an event.
I'm trying to "decouple" the UI from the "3d simulation", so just calling the window directly is kind of the opposite of what I want to do, but I guess I could have a "single entry function" that would communicate with the window, and have the window function queue the messages, somehow.
I'll read more about this to reduce the chances of messing up.