Interesting to see Fil‑C used with a large framework like Qt. The fact that it compiles with minimal changes says a lot about the compatibility layer and the InvisiCaps approach.
Depends in which sense you want it to "catch" the bugs. As this readme notes/quotes,
> All memory safety errors are caught as Fil-C panics.
If your problem is a memory-based bug causing a crash, I think this would just... catch the memory-based bug and crash. Like, it'd crash more reliably. On the other hand, if you want to find and debug the problem, that might be a good thing.
Sure, if the memory error is an immediately crashing one like a null per deref, but if is (for example) a memory corruption (e.g. an out of bounds write or a write-after-free) then this would be super helpful in exposing where those are happening at the source.
That’s what “catch” means here. As in, catch it in the act. Tools that make bugs crash more reliably and closer to the source of the problem are extremely valuable.
Most large C code bases aren’t really written in C. They’re written in an almost-C that includes certain extensions and undefined behavior. In this case, it uses inline assembly (an extension) and manipulating pointers as integers (undefined behavior).
Sure fooled me. I follow his Twitter account and there isn't much he hasn't got building with it at this point. UX comes later. Amazing it's the random work of one person
[1] https://qt-project.atlassian.net/browse/QTBUG-122658
> All memory safety errors are caught as Fil-C panics.
If your problem is a memory-based bug causing a crash, I think this would just... catch the memory-based bug and crash. Like, it'd crash more reliably. On the other hand, if you want to find and debug the problem, that might be a good thing.