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I should probably be sleeping. Instead, I'm coding. Specifically, I've written The World's Worse Memory Allocator(TM). It's got an array of bytes (chars) to use for memory for stuff; it's got a list of used memory blocks; it's got an index to allocate memory from. It even allocates memory. Deallocates, not so much.
That shouldn't be a problem, though, as to the best of my knowledge, nothing is new'd outside of the array and list classes and the destructor for those is called the proper number of times.

Edit: The problem is, the program enters what appears to be an infinite loop somewhere in the c++ back-end code itself, shortly after the MemoryManager's destructor is called. In fact, if the MemoryManager is put inside the Try-Catch block, the program never makes it outside the Try-Catch block. I need to know why and how to fix it, please, thanks.

This is the main loop which is doing terribly important allocations:

int _tmain(int argc, _TCHAR* argv[])  
{  
    MemoryManager memoryManager = MemoryManager(1024);  

    try  
    {  

        int * n;  
        for (int t = 0; t < 32; ++t)  
        {  
            n = (int*)memoryManager.Allocate(4);  
        }  
    } catch (char* str) { std::cout << str; }  

    return 0;  
}  

And the MemoryManager, in all it's newbie glory:

// A memory manager

#pragma once

#include "stdafx.h"

#include "Array.h"
#include "SmartPointer.h"


class MemBlock
{
public:
    unsigned int Start;
    unsigned int End;

    MemBlock() { Start = 0; End = 0; }

    MemBlock(unsigned int start, unsigned int end)
    {
        Start = start; End = end;
    }
    ~MemBlock() { }
};


class MemoryManager
{
private:
    Array<char> memory;
    List<MemBlock> memBlocks;
    int index;

public:
    MemoryManager(unsigned int size)
    {
        memory = Array<char>(size);
        memBlocks = List<MemBlock>(size / 24);
        index = 0;
    }
    ~MemoryManager() { }


    void* Allocate(unsigned int size)
    {
        memBlocks.Add(&MemBlock(index, index + size));
        void* r = (void*)(memory.insecureAccess + index);
        index += size;
        return r;
    }
};

Thanks.

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5  
Uh, you seem to have forgotten to ask the question. –  atzz Feb 17 '11 at 12:04
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2 Answers

You don't seem to have asked a question here, but I'm going to point out a horrible flaw in your approach anyway :)

If you are planning to write a Deallocate(void*) method then you are going to struggle. You can match the void* pointer against your memBlocks list to determine which MemBlock it is, but you will only be able to reduce index if that MemBlock happens to be the last one returned by Allocate otherwise it is just a free hole in your array.

For a basic solution to this you would need a list of the free blocks and you would take allocated blocks from that list, and add them back to the list when they were deallocated.

This approach is called a free list: http://en.wikipedia.org/wiki/Free_list

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...Whoops. I'll add the question in. And thanks - The pattern I was planning on using is deallocating in the opposite order of allocation (for which, my unposted, unfinished MemoryPointer class would probably be useful, but I hadn't got that far). Anyway, I've now got that link open in another tab. –  Narf the Mouse Feb 17 '11 at 19:53
    
Well, implied question in posting the problem. –  Narf the Mouse Feb 17 '11 at 20:07
    
@Narf the Mouse: Cool, well if you plan to always deallocate in the opposite order to allocation then you are basically creating a Stack, so you might want to look at that type/pattern for ideas. –  GrahamS Feb 18 '11 at 10:44
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Solved - Error in ignorance; it was an indirect error. I was using "delete theArray;" in the Array destructor (Array also being the base class of List) when I should have been using "delete [] theArray". The pause is now gone and the problem seems solved. Thanks for your time.

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