From: Ralf Jung Date: Thu, 23 Aug 2018 10:34:29 +0000 (+0200) Subject: clarify validity for prtially initialized local variables X-Git-Url: https://git.ralfj.de/web.git/commitdiff_plain/fb81971be519da911554a6e631d660d760445802?hp=bac54ceb67ec86cfffadc8caaf4ff3c99c4a854d clarify validity for prtially initialized local variables --- diff --git a/ralf/_posts/2018-08-22-two-kinds-of-invariants.md b/ralf/_posts/2018-08-22-two-kinds-of-invariants.md index 2e4ff31..c54a010 100644 --- a/ralf/_posts/2018-08-22-two-kinds-of-invariants.md +++ b/ralf/_posts/2018-08-22-two-kinds-of-invariants.md @@ -108,10 +108,11 @@ That is where safe code should be able to rely on safety, so that it can interac This is in strong contrast to validity, which must *always* hold. Layout optimizations and LLVM's attributes are in effect throughout unsafe code, so it is never okay to ever have invalid data. +(With the sole restriction of data which *the compiler statically knows is not initialized*: If you write `let b: bool;`, that data in `b` is kept inaccessible *even to unsafe code*, and it does not have to satisfy any invariant. This works because the compiler knows about `b` not being initialized.) > *Unsafe code must always uphold validity invariants.* -So we clearly cannot just pick the same invariant for both. +So we clearly cannot just pick the same invariant for both, or else it would be impossible to write `Vec`. We *might* want to just ignore user-defined invariants when it comes to validity, but I think that would be ill-advised. First of all, validity is part of the definition of undefined behavior.