I was reading this paper about the funarg problem, which is really the problem of maintaining the environments of lexical closures. It's an old paper and I'm not sure if the author's conclusions still hold, but he strongly implies that, in order to have lexical rather than dynamic scope, you have to abandon the traditional C-style stack, and instead have a tree structure of environments, allocated from the heap.
Does this make it impossible to have lexically scoped closures in any hard-real-time system? in real-time embedded systems, where latencies are measured in microseconds, heap allocation is typically forbidden because of the non-deterministic latency it introduces.
This has been an idle curiosity of mine, because I make my bread mostly as a firmware developer where C is the de facto language, and for a while now it seems I've been using my brain power to figure out how to force C to let me do things that come for free in more sophisticated languages. Consequently, I've begun to wonder whether you could implement a micro-lisp compiler specifically for hard-real-time embedded microcontroller-based systems.
As a side note: I've lately gained great insights into deep topics like how closures and objects are equivalent and so forth, and it gives me greater awe of guys like Stallman and Rich Hickey, and Paul Graham. Implementing Lisp from the ground up seems like a daunting task to me. It's hard to know where to start. (Maybe with PG's implementation of McCarthy's original eval function, IDK). Anyway, I digress.