I have no idea how to solve this: http://acm.sgu.ru/problem.php?contest=0&problem=311
Please help me with this one
I know it can be solved using segment tree but I don't know how
I have no idea how to solve this: http://acm.sgu.ru/problem.php?contest=0&problem=311 Please help me with this one I know it can be solved using segment tree but I don't know how 





Loop per line:



I have to say that I am not sold on segment trees as the best solution to this problem. Whether they are the "best" data structure seems to depend on the ratio of ARRIVE to BUY requests, because each time you make a sale, there is going to be quite a lot of work to update your segment tree after the removal of a segment. What if you stored your inventory as a linkedlist and each node contained the number of items for sale at a particular perunit cost. This would make the cost of inserting and removing inventory much lower. To check whether you can make a sale you have to iterate through a while loop accumulating cost and quantity until you meet the goal or exceed the cost. The advantage here is that, if you make a sale, then the node you stop on is now the lowest cost of piece of inventory with which you want to start your next search. If you are working in a garbage collecting language you can just change the reference to the head of your list to the node you stopped on which would make for succinct code. On an arrival of new inventory with a unit cost insertion is at worst O(n) where n is the # of arrivals you have. I think in the real world this wouldn't be a bad system because a real business would expect a high number of sales (happy) to nonsales (unhappy). Where this approach would perform poorly is if there were many people that wanted to buy almost your whole inventory but were just a little short on money to accomplish it. 


I wrote this out of my head just now (15min). Only testet with 100k repeated queries from the example, and with that it takes 1s. please comment cause it might be bullshit:
EDIT: added comments 

