Vala's memory management of objects is based on reference counting, and it has RAII (in the sense that it's destructors are called deterministically). The typical use case is to create GUIs, where the overhead from refcounting is often negligible. You can use pointers and bypass the refcounting, for example for interoperability, or if you need the extra performance, but in most cases you can live without pointers. It also does something clever, you can mark references as
unowned and transfer ownership, and in many cases it is able to elide the reference counting (if an object does not escape a function, for example). Vala is closely connected to GObject/GTK, so it only makes sense to use if you want to work in that ecosystem.
Another interesting candidate would be Rust. While it also has pointers and garbage collection, both are optional. You can write programs completely with an equivalent of C++'s smart pointers, with guaranteed no leaks, and it supports RAII. It also has a concept of reference ownership, like Vala, but a bit more complex. Essentially, Rust gives you complete control over how you manage memory. You can work at the bare metal level, and could even write a kernel in it, or you can work at a high level with a GC, or anything in between, and most of the time it protects you from leaking memory or other pointer-related bugs. The downside is that it is pretty complex, and since it is still in development things might change.