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I know I can reserve virtual memory using VirtualAlloc.
e.g. I can claim 1GB of virtual memory and then call in the first MB of that to put my a growing array into.
When the array grows beyond 1MB I call in the 2nd MB and so on.
This way I don't need to move the array around in memory when it grows, it just stays in place and the Intel/AMD virtual memory manager takes care of my problems.

However does FastMM support this structure, so I don't have to do my own memory management?

Pseudo code:

type
  PBigarray = ^TBigarray;
  TBigArray = array[0..0] of SomeRecord;

....

begin
  VirtualMem:= FastMM.ReserveVirtualMemory(1GB);
  PBigArray:= FastMM.ClaimPhysicalMemory(VirtualMem, 1MB);
....

procedure GrowBigArray
begin
  FastMM.ClaimMorePhysicalMemory(PBigArray, 1MB {extra});
  //will generate OOM exception when claim exceeds 1GB

Does FastMM support this?

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3  
This has the hallmarks of being an XY problem. I'm guessing as to what your real problems are, but I suspect you are suffering from address space fragmentation because your code requires large contiguous blocks of memory. If so then the best solution is to allocate non-contiguous blocks and then piece them together behind the scenes so that these smaller blocks look like a contiguous block. –  David Heffernan Jun 17 '11 at 11:53
    
What you're asking is highly specialized behavior that's easily handled with VirtualAlloc; Why would a general-purpose memory manager do that? –  Cosmin Prund Jun 17 '11 at 11:56
    
@David, thanks for looking out for me. I don't have memory fragmentation yet, because I have not written the program yet :-). I know I have a program that's going to use all available memory, so I'm researching my options. This will not turn out into a long Q&A, simple yes/no will do, and I guess it's a no. –  Johan Jun 17 '11 at 12:07
    
@Johan Yeah, I think no is the answer. I can help you with the address space fragmentation issue when you do get round to writing the program. I trust you are well aware of IMAGE_LARGE_ADDRESS_AWARE. –  David Heffernan Jun 17 '11 at 12:11
    
@David, I didn't know it was called that, but I knew you can ask Windows to give you more virtual memory. –  Johan Jun 17 '11 at 12:49

1 Answer 1

up vote 3 down vote accepted

No, FastMM4 (as of the latest version I looked at) does not explicitly support this. It's really not a functionality you would expect in a general purpose memory manager as it's trivially simple to do with VirtualAlloc calls.

NexusMM4 (which is part of NexusDB) does something that gives you a similar result, but without wasting all the address space before it is needed in the background.

If you make an initial large allocation (directly via GetMem, or indirectly via a dynamic array or such) the memory is allocated in just the size needed, via VirtualAlloc.

But if that allocation is then resized to a larger size, NexusMM will use a different way to allocate memory which allows it to simply unmap the allocation from the address space an remap it again, at a larger size, when further reallocs takes place.

This prevents the 2 major problems that most general purpose memory managers have when reallocating:

  • during a normal realloc the existing and new allocation need to be present in the address space at the same time, temporarily doubling the address space and physical memory requirements
  • during a normal realloc, the whole contents of the existing allocation needs to be copied

So with NexusMM you would get all the advantages of what you showed in your pseudo code (with the exception that the first realloc will involve a copy, and that growing your array might change it's address) by simply using normal GetMem/ReallocMem/FreeMem calls.

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