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My project (running on Delphi 6!) requires a list of memory allocations (TMemoryAllocation) which I store within an object that also holds the information about the size of the allocation (FSize) and if the allocation is in use or free (FUsed). I use this basically as a GarbageCollector and a way to keep my application of allocating/deallocating memory all the time (and there are plenty allocations/deallocations needed).

Whenever my project needs an allocation it looks up the list to find a free allocation that fits the required size. To achieve that I use a simple for loop:

for I := 0 to FAllocationList.Count - 1 do
  if MemoryAllocation.FUsed and (MemoryAllocation.FSize = Size) then

The longer my application runs this list grows to several thousand items and it slows down considerably as I run it up very frequently (several times per second).

I am trying to find a way to accelerate this solution. I thought about sorting the TList by size of allocation. If I do that I should use some intelligent way of accessing the list for the particular size I need at every call. Is there some easy way to do this?

Another way I was thinking about was to have two TLists. One for the Unused and one of the Used allocations. That would mean though that I would have to Extract TList.Items from one list and add to the other all the time. And I would still need to use a for-loop to go through the (now) smaller list. Would this be the right way?

Other suggestions are VERY welcome as well!

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Is there a reason why you are not using FastMM? From your description, it looks like FastMM does about the same. I think FastMM actually uses several lists of Allocations for different sizes: a list for small (<32 bytes or something), medium (32-1024 bytes or so), and big (> 1024 bytes). – Otherside Sep 23 '11 at 9:02
Have you considered using FastMM? – TOndrej Sep 23 '11 at 9:02
You need the GarbageCollector so is your application multithread? – GJ. Sep 23 '11 at 9:24
FastMM would be a big step up from BorlandMM. On the down side it struggles under severe thread contention but that may not be an issue. First step though is to try FastMM. – David Heffernan Sep 23 '11 at 9:36
Thanks for the tip about FastMM! I will try that out. @GJ: Yes, my application is multithreaded. It's not exactly a GarbageCollector, but only similar. I keep the memory allocations for reuse within my list. Only large memory allocation >1KiB are deallocated by the GC-function. – Fotis Mouratidis Sep 23 '11 at 10:07
up vote 5 down vote accepted

You have several possibilities:

  • Of course, use a proven Memory Manager as FastMM4 or some others dedicated to better scale for multi-threaded applications;
  • Reinvent the wheel.

If your application is very sensitive to memory allocation, perhaps some feedback about reinventing the wheel:

  • Leverage your blocks size e.g. per 16 bytes multiples, then maintain one list per block size - so you can quickly reach the good block "family", and won't have to store each individual block size in memory (if it's own in the 32 bytes list, it is a 32 bytes blocks);
  • If you need reallocation, try to guess the best increasing factor to reduce memory copy;
  • Sort your blocks per size, then use binary search, which will be much faster than a plain for i := 0 to Count-1 loop;
  • Maintain a block of deleted items in the list, in which to lookup when you need a new item (so you won't have to delete the item, just mark it as free - this will speed up a lot if the list is huge);
  • Instead of using a list (which will have some speed issues when deleting or inserting sorted items with a huge number of items) use a linked list, for both items and freed items.

It's definitively not so simple, so you may want to look at some existing code before, or just rely on existing libraries. I think you don't have to code this memory allocation in your application, unless FastMM4 is not fast enough for you, which I'll doubt very much, because this is a great piece of code!

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