Is this actually an ABI requirement, or maybe it's just some pessimization in certain scenarios?
One example is System V Application Binary Interface AMD64 Architecture Processor Supplement. This ABI is for 64-bit x86-compatible CPUs (Linux x86_64 architecure). It is followed on Solari...
@einpoklum Well, even if it passed such objects through registers, it would still need to store them into the stack before making calls to other functions. May be noexcept functions could have a different ABI.
"An object with either a non-trivial copy constructor or a non-trivial destructor cannot be passed by value because such objects must have well defined addresses." Why? What does this mean? What is a "well defined address"? The current behavior is to put the object to stack, then pass the reference to it. Why don't just simply pass the object?
@geza: Contents of a register (where small objects usually get passed) have no address. So the easiest solution is to put the object onto the stack (so it has an address) and then pass that address instead (since the called function needs to be told where to find the object).
@hoffmale: "since the called function needs to be told where to find the object". This is unnecessary. We have calling conventions, the function knows where the objects are on the stack.
i assume that if the compiler is inlining the function being called it's free to keep the pointer in a register if it can determine there is no problem with exceptions (or can arrange to move the pointer to memory just in time to destruct it? that is, things that happen at that level of generated code are ok as long as the contracts are met?
@einpoklum See eel.is/c++draft/intro.object#8.4: an object with nonzero size shall occupy one or more bytes of storage... the address of that object is the address of the first byte it occupies... two objects with overlapping lifetimes that are not bit-fields may have the same address if one is nested within the other, or if at least one is a subobject of zero size and they are of different types; otherwise, they have distinct addresses and occupy disjoint bytes of storage.
@einpoklum When the copy constructor is trivial the compiler can store the registers into memory to produce an object when one is required as long as the application cannot tell the difference. An example.
@einpoklum Effective triviality depends on the availability of the copy constructor definition. The definition is not necessarily available in each translation unit. Hence, the compiler must rely on declaration alone to select the right argument passing method.
"When an address of an object with a trivial copy constructor kept in registers is needed the compiler can just store the object into memory and obtain the address" When the address is used locally, you might follow all ptr and not actually have the obj on the stack; but once it leaks, you must keep the obj at its address forever (that is until its destruction ends).
@einpoklum: In the ISO C++ standard, every object has an address. The register keyword used to let you declare that certain objects didn't need to have an address, and could be kept in registers. (Still actually works for C debug builds, like gcc -O0). But that doesn't change the calling convention when used on function args. Not to mention that the constructor gets called with a this pointer. The as-if rule is what allows optimizing away the addresses of some objects and keeping them in registers. So it's up to the optimizer and/or calling convention.
If we had a "trivial destructive move" concept, I think unique_ptr would qualify, and I think a trivial destructive move would be sufficient for what the exception framework needs.
Mainly as a means of clarifying that something can be treated as if its copy constructor and destructor are trivial, @MaximEgorushkin, even in contexts where the compiler can't accurately deduce whether or not they actually are.
