I have a Visual Studio 2008 C++ application where I'm using a custom allocator for standard containers such that their memory comes from a Memory Mapped File rather than the heap. This allocator is used for 4 different use cases:
- 104-byte fixed size structure
std::vector< SomeType, MyAllocator< SomeType > > foo;
- 200-byte fixed size structure
- 304-byte fixed size structure
- n-byte strings
std::basic_string< char, std::char_traits< char >, MyAllocator< char > > strn;
I need to be able to allocate roughly 32MB total for each of these.
The allocator tracks memory usage using a
std::map of pointers to allocation size.
typedef std::map< void*, size_t > SuperBlock; Each SuperBlock represents 4MB of memory.
There is a
std::vector< SuperBlock > of these in case one SuperBlock isn't enough space.
The algorithm used for the allocator goes like this:
- For each SuperBlock: Is there space at the end of the SuperBlock? put the allocation there. (fast)
- If not, search within each SuperBlock for an empty space of sufficient size and put the allocation there. (slow)
- Still nothing? allocate another SuperBlock and put the allocation at the start of the new SuperBlock.
Unfortunately, step 2 can become VERY slow after a while. As copies of objects are made and temporary variables destroyed I get a lot of fragmentation. This causes a lot of deep searching within the memory structure. Fragmentation is in issue as I have a limited amount of memory to work with (see note below)
Can anybody suggest improvements to this algorithm that would speed up the process? Do I need two separate algorithms (1 for the fixed-size allocations and one for the string allocator)?
Note: For those that need a reason: I'm using this algorithm in Windows Mobile where there's a 32MB process slot limit to the Heap. So, the usual
std::allocator won't cut it. I need to put the allocations in the 1GB Large Memory Area to have enough space and that's what this does.