I do not have formal CS training, so bear with me.
I need to do a simulation, which can abstracted away to the following (omitting the details):
We have a list of real numbers representing the times of events. In each step, we
- remove the first event, and
- as a result of "processing" it, a few other events may get inserted into the list at a strictly later time
and repeat this many times.
What data structure / algorithm can I use to implement this as efficiently as possible? I need to increase the number of events/numbers in the list significantly. The priority is to make this as fast as possible for a long list.
Since I'm doing this in C++, what data structures are already available in the STL or boost that will make it simple to implement this?
The number of events in the list is variable, but it's guaranteed to be between
n is some simulation parameter. While the event times are increasing, the time-difference of the latest and earliest events is also guaranteed to be less than a constant
T. Finally, I suspect that the density of events in time, while not constant, also has an upper and lower bound (i.e. all the events will never be strongly clustered around a single point in time)
Efforts so far:
As the title of the question says, I was thinking of using a sorted list of numbers. If I use a linked list for constant time insertion, then I have trouble finding the position where to insert new events in a fast (sublinear) way.
Right now I am using an approximation where I divide time into buckets, and keep track of how many event are there in each bucket. Then process the buckets one-by-one as time "passes", always adding a new bucket at the end when removing one from the front, thus keeping the number of buckets constant. This is fast, but only an approximation.