...to show in test that indeed the actual time is retrieved on each activation,
we can assign a λ -- which is rigged to increase the time on each access
It is not sufficient just to pass this "current time" as parameter
into the ActivityLang::dispatchChain(), since some Activities within
this chain will essentially be long-running (think rendering); thus
we need a real callback from within the chain. The obvious solution
is to make this part of the Execution Context, which is an abstraction
of the scheduler environment anyway
...turns out there is still a lot of leeway in the possible implementation,
and seemingly it is too early to decide which case to consider the default.
Thus I'll proceed with the drafted preliminary solution...
- on primary-chain, an inhibited Gate dispatches itself into future for re-check
- on Notification, activation happens if and only if this very notification opens the Gate
- provide a specifically wired requireDirectActivation() to allow enforcing a minimal start time
...assembled from parts already implemented
TODO
- need a way to access the »current scheduler time«
- need builder extension points to connect notifications
...this completes the basic setup
- Term builder mechanism working properly
- Memory allocator behaves sane
- the simple default wiring allows to invoke a Job
Solved by special treatment of a notification, which happens
to decrement the latch to zero: in this case, the chain is
dispatched, but also the Gate is locked permanently to block
any further activations scheduled or forwareded otherwise
TODO: while correct as implemented, the handling of the
notification seems questionable, since re-scheduling the chain immediately
may lead to multiple invocations of the chain, since it might have been "spinned"
and thus re-scheduled already, and we have no way to find out about that
...can not take a shortcut here, since the timing information
embedded into the POST-Activity must somehow be transported
to the Scheduler; key point to note is that the chain will
be performed in »management mode« (single threaded)
...continue to proceed test-driven
...scheduler internals turn out to be intricate and cohesive,
and thus the only hope is to adhere to strict testing discipline
- decision to favour small memory footprint
- rather use several Activity records to express invocation
- design Activity record as »POD with constructor«
- conceptually, Activity is polymorphic, but on implementation
level, this is "folded down" into union-based data storage,
layering accessor functions on top
