The system programming language Rust uses the ownership paradigm to ensure at compile time with zero cost for the runtime when a resource has to be freed (see "Rust Book on Ownership").
In C++ we commonly use smart pointers to achieve the same goal of hiding the complexity of managing resource allocation. There are a couple of differences though:
- In Rust there is always only one owner, whereas C++ shared_ptr can easily leak ownership.
- In Rust we can borrow references we do not own, whereas C++ unique_ptr can not be shared in a safe way via weak_ptr and lock().
- Reference counting of shared_ptr is costly.
My question is: How can we emulate the ownership paradigm in C++ within the following constraints:
- Only one owner at any time
- Possibility to borrow a pointer and use it temporarily without fear of the resource going out of scope (observer_ptr is useless for this)
- As much compile-time checks as possible.
Edit: Given the comments so far, we can conclude:
- No compile-time support for this (I was hoping for some decltype/template magic unknown to me) in the compilers. Might be possible using static analysis elsewhere (taint?)
- No way to get this without reference counting.
- No standard implementation to distinguish shared_ptrs with owning or borrowing semantic
Could roll your own by creating wrapper types around shared_ptr and weak_ptr:
- owned_ptr: non-copyable, move-semantics, encapsulates shared_ptr, access to borrowed_ptr
- borrowed_ptr: copyable, encapsulates weak_ptr, lock method
- locked_ptr: non-copyable, move-semantics, encapsulates shared_ptr from locking weak_ptr