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I simulate an LRU web cache. The concept is simple:

I have a set of N Request objects available for caching and I generate a stream of L > N random independent and identically distributed requests for that objects (again objects of type Request) that arrive to the cache in a serial fashion (i.e. one by another). I have an int field ID to the Requests class which is used as a numeric ID to distinguish the different requested objects.

I have implemented the cache as an ArrayList(M) where M << N.

I insert objects from the end of the cache (i.e. using cache.add(object)) in order to avoid the processing overhead of inserting them from the start (i.e. using cache.add(0, object)) and I drop objects from the start of the cache (i.e. using cache.remove(0)). Thus, the cache list is sorted with the "most valuable" objects towards the end and the "least valuable" objects towards the start, with the "least valuable" of all being the object at index 0 (this is the cached object which will be replaced in case of a cache miss when the cache has being filled with objects).

Naturally, I have the following operations:

  • A boolean method lookup which returns true in case of cache hit and returns false in case of cache miss.

  • A method insertion of inserting an object from the end of the cache.

  • A method replace where I drop from the cache the item at index 0 (LRU item) and insert at the end of the cache the new requested item.

  • A method reorder where in case of a cache hit, if the requested item is not located at the end of the cache list, it will be moved there.

I use a boolean flag "inCache" in order to avoid the for loop required in the lookup operation.

The problem is with the reorder operation, since I have to remove from the cache the requested object (which everytime is a random object located in a random index) - and this is a costly operation - and then insert it at the end of the cache (which is ok).

I used a trick to improve performance but I have abandoned this idea since the performance gain was very small. The trick was the following:

I used an int field counter to the Request class which I initialized to counter = 0. Every time an object is inserted into the cache (except for the very first object), this counter is increased by 1. Therefore, at any given point in time, I can find the index of a random object in the cache simply by subtracting the counter value of the object located at index 0 from the counter value of that object (do a diagram with paper and pencil and you will see that this works!).

This looks great, but still there is a problem: when I have cache reorder due to a cache hit for an item that it is not placed at the end of the cache (i.e. at cache.size()-1), then I have to set the counter value of that object equal to the counter value of the object placed at the end of the cache, remove that object at the end of the cache, move there the requested object, loop from the index where that object was up to cache.size()-2 (i.e. the next left index from the end of the cache list, where now this object is located), and reduce all these counters by one. Due to this loop for updating the counters, the code is again slow (I have to note that we are talking for a cache size 100,000 or more and a number of items 1,000,000 or more). Therefore, I abandoned that idea.

I have read somewhere that using an iterator might give some performance gain when you have to do list.remove(object). But:

  • I am learning Java and in general programming for only 3 months now. I have never used an iterator and I am a little-bit confused about that.

  • I thought that the iterator is used with LinkedLists only and that the reason that might give some performance boost is that it stores the pointer for that item (but if this is the case, I don't know how it could help me in my case).

So, do you have any suggestions? Would that iterator solution be useful? If yes, how can I use it? If not, could I improve somehow the previous idea that I have abandoned? If not, do you have any other suggestion?

I am sorry for the big post. At least I hope that I have clearly stated the issue and the steps I followed to resolve it (without much sucess!).

share|improve this question
Reimeus Sorry if it is inconvenient or annoying. I thought, since the post is long, that it might help to scan it quickly by highlighting the important parts. If you scan quickly the post and read only the highlighted text, you will still be able to understand pretty-much 100%. –  PeterHiggs Feb 25 '14 at 14:40
Standard LinkedHashMap can be made to work like a LRU Cache. Take a look at this post stackoverflow.com/questions/221525/… –  Bimalesh Jha Feb 25 '14 at 14:51

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