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I wrote a compiler cache for MSVC (much like ccache for gcc). One of the things I have to do is to remove the oldest object files in my cache directory to trim the cache to a user-defined size.

Right now, I basically have a list of tuples, each of which is the last access time and the file size:

# First tuple element is the access time, second tuple element is file size
items = [ (1, 42341),
          (3, 22),
          (0, 3234),
          (2, 42342),
          (4, 123) ]

Now I'd like to do a partial sort on this list so that the first N elements are sorted (where N is the number of elements so that the sum of their sizes exceeds 45000). The result should be basically this:

# Partially sorted list; only first two elements are sorted because the sum of
# their second field is larger than 45000.
items = [ (0, 3234),
          (1, 42341),
          (3, 22),
          (2, 42342),
          (4, 123) ]

I don't really care about the order of the unsorted entries, I just need the N oldest items in the list whose cumulative size exceeds a certain value.

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Is it a problem if it's all sorted? Or are you just out to keep things fast? –  Ishpeck Dec 29 '10 at 16:52
@Ishpeck: I'm just trying to keep things fast. It's currently fast enough, but the list might become much much larger than what I have here; I'm researching potential for optimization in case the future calls for it. –  Frerich Raabe Jan 1 '11 at 21:37

3 Answers 3

up vote 12 down vote accepted

You could use the heapq module. Call heapify() on the list, followed by heappop() until your condition is met. heapify() is linear and heappop() logarithmic, so it's likely as fast as you can get.

size = 0
while items and size < 45000:
  item = heapq.heappop(items)
  size += item[1]
  print item


(0, 3234)
(1, 42341)
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I don't know of anything canned, but you could do this with a variant of any sort which incrementally builds the sorted list from one end to the other, but which simply stops when enough elements have been sorted. Quicksort would be the obvious choice. Selection sort would do, but it's a terrible sort. Heapsort, as Marco suggests, would also do it, taking the heapify of the whole array as a sunk cost. Mergesort couldn't be used this way.

To look at quicksort specifically, you would simply need to track a high water mark of how far into the array has been sorted so far, and the total file size of those elements. At the end of each sub-sort, you update those numbers by adding in the newly-sorted elements. Abandon the sort when it passes the target.

You might also find performance was improved by changing the partition-selection step. You might prefer lopsided partitioning elements if you only expect to sort a small fraction of the array.

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It's pretty hard to do this without sorting the whole list. You would have to go through the whole list to find the lowest numbers to add. If you add them one by one, you will have to go through the whole list to find the next lowest number. That is not going to be fast.

The fastest way to do this is to always keep the list sorted. A sorted list would be a handy class, I don't know of any built in sorted list, but I know there are sorted list classes available as third-party libraries, for example in blist.

You can also, as others have noted, use heapq to keep the list in heap form at all times (which isn't sorted per se, but it has the same effect), but then remember to use the heapq functions to add and remove items.

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