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I have such function

applyDiff(List orders, List ordersToAdd, int[] ordersToRemove) {

This function should add orders from orderToAdd to orders and remove some orders from orders, indexes of orders to be removed are passed in ordersToRemove array.

The problem is: every time order from ordersToAdd is inserted into orders somewhere at position pos, all indexes from orderToRemove that a greather than pos must be increased at 1.

So should I dinamically modify ordersToRemove array?

What is general "algorithm" or modifing a collection when I should at the same time add-remove elements and I have indexes of elements to be removed?

Note I can not break this task at two (orders adding, orders removing) because the order is very important and function inside it decides in what order orders should be added and removed.

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You can remove first object then add objects in collection. –  Romil Kumar Jain Apr 30 '12 at 7:33
@Romil: according to his last requiremenet, it cannot be done. –  amit Apr 30 '12 at 7:34
right. also I forgot to say that at any point modifications can be stopped and I need copy of orders indicating most recent state. So it's also not possible to calculate "final" orders and then just do work. I.e. at any point of modifications i need current state. –  javapowered Apr 30 '12 at 7:41
What is the order of addition and deletion? Are you working on both lists simultaneously? –  dirkgently Apr 30 '12 at 7:48
@javapowered: If the order of addition/deletion is unknown, how do you start off iterating over either collection? Your question needs some more clarification. Can you show us some psuedo-code as to how you expect things to work (forget the index updation logic for the moment). –  dirkgently Apr 30 '12 at 7:59

1 Answer 1

up vote 0 down vote accepted

You have not specified explicitly how do you determine at which positions exactly you insert, neither what is the semantics of int[] ordersToRemove (though for the latter I assume it is indices of objects to remove considering your notes). However I can still suggest an "algorithm" and you will apply it accordingly:

Introduce one more variable in you method indexIncrease. Initialize it to 0. Every time you add to ordersToAdd increase this variable. Every time you consider a value from int[] ordersToRemove do not just consider this value, but rather consider ordersToRemove[i] + indexIncrease. Thus you will get your updated value from ordersToRemove without the need of iterating of over the whole array and increasing the values after each addition.

Note that applying this "alogrithm" you ensure that the list orders is always in its current state, but the ordersToRemove will not be updated at all. hopefully this will work for you.

EDIT As per the comments and the completely changed problem description:

  • You can spare the looping through all the elements of ordersToRemove if you use binary index tree. With it every modification becomes O(log n) in complexity, where n is the total number of orders that will exist.
  • considering the input limitations you give the index tree is a lot worse than the brute force solution you already have: the number of elements to iterate every time is neglectably small, the performance drawback is neglectable and the index tree is too much of spurious complexity.

As seen overall: I advise you to stick with the current solution.

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i need orders in current state at any step. I only modify orders. I don't care what happens with ordersToAdd or ordersToRemove, in particular I can modify them if needed. I don't understand how just introducing one extra int variable I can solve entire problem.. Orders are inserted into orders at some positions. Sometimes at the beggining sometimes in the middle. So some indexes from ordersToRemove should be increased, but some should not. –  javapowered Apr 30 '12 at 8:04
@javapowered: nope I don't agree with that. What is the order in which you execute the operations. In your problem description you call just one method. The only possibility I can think of is that you start inserting from lowest indices and increase them gradually. Can you be a bit more explicit on the order of operation execution. Please also add input limit constraints. –  Boris Strandjev Apr 30 '12 at 8:10
order of operations execution depends on order price, order volume, currently available limits so we can assume that there are not particular order. there are not to much orders or orderUpdate (add or delete). not more than 10. –  javapowered Apr 30 '12 at 8:15
well probably my entire question is incorrect. question should be more precise –  javapowered Apr 30 '12 at 8:22
I marking you answer as correct for now so people can stop tring to answer my question. It seems it a little bit complicated and not clear enough. I should try to implement something I guess and then ask more certain questions. –  javapowered Apr 30 '12 at 8:26

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