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TDictionary<TKey,TValue> uses an internal array that is doubled if it is full:

newCap := Length(FItems) * 2;
if newCap = 0 then
  newCap := 4;

This performs well with medium number of items, but if one gets to the upper limit it is very unfortunate, because it might throw an EOutOfMemory exception even if there is almost half of the memory still available.

Is there any way to influence this behaviour? How do other collection classes deal with this scenario?

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I think the basic assumption is that you don't consume half of your entire available resources in a single TDictionary instance. It's not designed for such usage. –  David Heffernan Dec 2 '11 at 11:57
So that would be a "no, it is not possible"? –  jpfollenius Dec 2 '11 at 12:16
Once you get to having consumed half of the memory, how do you do any reallocation. Suppose you want to add another 10%. You've got to allocate a new block, 10% bigger than the existing. Then copy from old to new. Then deallocate old. That's not going to work out. It sounds odd to me that a single container could consume more than half of your resources. –  David Heffernan Dec 2 '11 at 12:19
@Marco The true limit here will be contiguous virtual address space. –  David Heffernan Dec 2 '11 at 12:39
Have you considered moving the data out of memory and into a file based database? This is with the assumption that they have more disk space than RAM. –  Marcus Adams Dec 2 '11 at 17:40

1 Answer 1

up vote 8 down vote accepted

You need to understand how a Dictionary works. A dictionary contains a list of "hash buckets" where the items you insert are placed. That's a finite number, so once you fill it up you need to allocate more buckets, there's no way around it. Since the assignment of objects-to-buckets is based on the result of a hash function, you can't simply add buckets to the end of the array and put stuff in there, you need to re-allocate the whole list of blocks, re-hash everything and put it in the (new) corresponding buckets.

Given this behavior, the only way to make the dictionary not re-allocate once full is to make sure it never gets full. If you know the number of items you'll insert in the dictionary pass it as a parameter to the constructor and you'll be done, no more dictionary reallocations.

If you can't do that (you don't know the number of items you'll have in the dictionary) you'll need to reconsider what made you select the TDictionary in the first place and select a data structure that offers better compromise for your particular algorithm. For example you could use binary search trees, as they do the balancing by rotating information in existing nodes, no need for re-allocations ever.

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+1 Thanks! What I thought of was some way to change the growth factor, so that I can calculate it in a way that lets me use the available memory. I'll look into binary search tree! –  jpfollenius Dec 2 '11 at 12:59
Changing the growth factor will not buy you much, if you're already getting to the point where you can no-longer re-allocate. You'll just get there slower, because you'll do more re-allocations along the way. And thanks to address space fragmentation you might get there slower AND with fewer items added. –  Cosmin Prund Dec 2 '11 at 13:01

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