If you want to perform non-aliased operations on the underlying object associated with a shared pointer you could explicitly delegate to a worker routine that takes a non-aliased pointer parameter:
void worker (mytype *__restrict x, mytype *__restrict y)
// do something with x, y with a no-alias guarantee
std::shared_ptr<mytype> p(new mytype);
std::shared_ptr<mytype> q(new mytype);
// explicitly delegate the shared object
I'm not sure exactly what you have in mind, but this would allow the high-level memory management to be dealt with safely by the smart pointer, while doing the low level work possibly more efficiently with no-alias pointers.
As @BenVoigt pointed out,
restrict is only offically part of
c++ isn't supposed to know anything about it.
MSVC supports it anyway via
__restrict and as you've said
Hope this helps.