@MarkI Currently the granularity of "don't stop here" is the tasks, e.g. each GO, but "don't stop here" is relative. If you have a BREAKPOINT inside of a routine spawned in a debug evaluation which is targeting a particular task (e.g. what it means when it means "STEP" or BACKTRACE), what's to stop that breakpoint from spawning another session that is targeting that debug evaluation?
For STEP to be generic, it has to be able to pull from its environment a "step where"...e.g. who is it exactly I'm asking to step. This would be built on a more foundational STEP that doesn't look to its environment for context, e.g. STEP* TASK or STEP* FRAME or whatever.
Then there is the idea of BREAKPOINT's implementation itself. You don't want to step into that, even if it's a small amount of stepping that only spawns the breakpoint's implementation in an unsteppable context. So BREAKPOINT itself must be a function class that implicitly executes its body in some new context that isn't stepped into the way other code surrounding it would be.
Pretty crazy stuff to get bent up over. I've been making tiny bits of conceptual progress but mostly making my head hurt.
The previous debugger was based on the idea that BREAKPOINT was a "special" native that would spawn a new CONSOLE. That console would return a value that indicated to the native breakpoint what it wanted to happen. As a native, the breakpoint had special access to poke things into the evaluator state to say things like "run just one instruction and then trigger another break"
This meant things like even a simple loop 2 [step] could not work, as STEP would THROW and terminate the loop... bubble up the "please step" instruction as CONSOLE's return result, which BREAKPOINT would slip over to the evaluator...which would then make the step and force an interrupt with a call that did what the breakpoint native did even though there was no such native in the source (e.g. spawn another console)
In my "try to be happy with just one advancement at a time" mindset, that could be seen as meaning "make loop 2 [step] work".
This raises several questions, such as whether the CONSOLE function from which the loop 2 [step]
being run stays running across the steps. It seems it should. This means what BREAKPOINT is waiting on before unwinding is not a return result from console, but another signal.
But what triggers that signal to unblock the breakpoint is something STEP does. It seems the shared connector between STEP and the thing BREAKPOINT is waiting on is the task/frame from which BREAKPOINT runs, e.g. the call frame that invoked breakpoint is pushed into a wait mode where it is waiting on some aspect of the task it is run from itself...disconnected from if or when BREAKPOINT's implementation ever completes.
This really gets at the question of if there is one console processing a complex stack of state transitions, or many consoles whose concerns are more narrow and they can trust that if they ask for an evaluation they will get an answer or an error (some errors being that the console is no longer relevant and should go away).
If BREAKPOINT keeps an implementation somewhat akin to its old method and starts a console, then one wonders what breakpoint print "Hi" breakpoint should do if someone in a spawned console from the first breakpoint says step 10. If you have a still living console thinking it's executing the 10 steps, what happens when the second breakpoint gets hit?
These kinds of questions lead me to believe that the "breakpoint is code that spawns a console" is a bad way of thinking of it...it was something that arose in the pre-stackless era because that was really the only way to do it.