I have a program that looks like this:
struct EventTypeA {
int someInt; // random between 0 and 9
};
struct EventTypeB {
int someOtherInt; // random between 0 and 100000
};
int EventAHandler(EventTypeA e) {
// Updates multiplier
static int multipler = e.someInt;
return multiplier;
}
double EventBHandler(EventTypeB e) {
/* This is a simple example for illustration, the actual intermediate
calculation takes up much more computational time than this */
int intermediateResult = (e.someOtherInt * multipler) % 10 + 1;
if (intermediateResult <= 3) { DoAction1(); }
if (intermediateResult >= 7) { DoAction2(); }
}
...
...
void SomeMethodWithinSomeClass() {
while (true) {
// Listen for events of type A and B
// if EventTypeA occurs, invoke EventAHandler
// if EventTypeB occurs, invoke EventBHandler
}
}
I would like to have EventAHandler
precompute a lookup table of the intermediateResult
for all possible EventTypeB.someOtherInt
's each time that an EventTypeA
arrives and I have a new multiplier
, so I can replace the calculation of intermediateResult
in EventBHandler
with a lookup.
The rationale for this is that my EventBHandler
is time-sensitive, while EventAHandler
is not: so when an EventTypeB
arrives later, EventBHandler
does not have to execute int intermediateResult = (e.someOtherInt * multipler) % 10 + 1;
(let's pretend this statement takes up a lot more clock cycles) and only has to lookup.
My problem is that it only performs well if EventTypeA
's occur frequently while EventTypeB
's rarely occur.
At instances when several successive EventTypeB
's occur, faster than I can pre-compute the lookup table, I want to kill the precomputation prematurely and switch back to the original approach. Is there a clean way to do this?