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I have been doing a little research about Game Engine development, and I finaly begun trying to write a Memorymanager. I got the idea from the Game Engine Design Book from Eberly. In the constructor I allocate a memoryblock and add a header and footer to it which both have a size attribute and used. But now I get a Access Writing Voilation. I already heard something about pointers being const and only readable, but I have no idea how I can fix this.

Here's the MemoryManager.h file:

// MemoryManager.h - Header file //

#ifndef H_MemoryManager
#define H_MemoryManager

#include "IMemoryManager.h"

class HeaderBlock
{
public:
bool Used;
unsigned int Size;

HeaderBlock* Prev;
HeaderBlock* Next;
};

class FooterBlock
{
public:
bool Used;
unsigned int Size;
};

class MemoryManager : public IMemoryManager
{
private:
int m_MemoryBudget;
char* m_FullMemory;
HeaderBlock* m_FreeBlock;

int m_hsize;        // Size of the header
int m_fsize;        // Size of the footer
int m_hfsize;       // Size of the HeaderandFooter

public:
// Constructor and Destructor
MemoryManager(int Budget);
virtual ~MemoryManager();

// Functions
virtual char* Allocate(unsigned int RequestSize);
virtual char* Deallocate(char* pDeallocate);

HeaderBlock* SearchByPolicy(unsigned int RequestSize);
 };

#endif

Here's the Constructor implementation:

MemoryManager::MemoryManager(int Budget)
{
m_MemoryBudget = Budget;
m_FullMemory = (char*)malloc(m_MemoryBudget);

m_hsize = sizeof(HeaderBlock);
m_fsize = sizeof(FooterBlock);
m_hfsize = m_hsize + m_fsize;

HeaderBlock* header = (HeaderBlock*)m_FullMemory;
header->Used = false;
header->Size = m_MemoryBudget;

FooterBlock* footer = (FooterBlock*)(m_FullMemory + m_MemoryBudget - m_fsize);
footer->Used = false;
footer->Size = m_MemoryBudget;

header->Prev = header;
header->Next = header;

m_FreeBlock = (HeaderBlock*)m_FullMemory;
}

And here is the allocation method where I get the error at the error

usedHeader->Used = true;
usedFooter->Used = true;
freeHeader->Used = false; 
freeFooter->Used = false; // HERE I GET THE EXCEPTION

char* MemoryManager::Allocate(unsigned int RequestSize)
{

HeaderBlock* header = SearchByPolicy(RequestSize);


if(header == NULL)
{
    return NULL;
}

unsigned int Size = header->Size;
FooterBlock* footer = (FooterBlock*)((header + Size - m_fsize));

// 1.The size to be allocated fits EXACTLY in the Block pointed by header.
if(Size == RequestSize + m_hfsize)
{
    char* allocated = (char*)header + m_hsize;
    header->Used = true;
    footer->Used = true;

    if(header->Next == header)
    {
        // This is the only block on the free list
        m_FreeBlock = 0;
    }
    else
    {
        m_FreeBlock->Prev->Next = m_FreeBlock->Next;
        m_FreeBlock->Next->Prev = m_FreeBlock->Prev;
        m_FreeBlock = m_FreeBlock->Next;
    }
    return allocated;
}

// 2. The block has more storage than is needed for the allocation request.
if(Size >= RequestSize + 2*m_hfsize)
{
    char* allocated = (char*)(header + m_hsize);

    // Split the block in a "Used"-Block and a "Free"-Block
    HeaderBlock* usedHeader = header;
    FooterBlock* usedFooter = (FooterBlock*)(header + m_hsize + RequestSize);
    HeaderBlock* freeHeader = (HeaderBlock*)(usedFooter + m_fsize);
    FooterBlock* freeFooter = footer;

    usedHeader->Used = true;
    usedFooter->Used = true;
    freeHeader->Used = false;
    freeFooter->Used = false;

    unsigned int usedSize = RequestSize + m_hfsize;
    freeHeader->Size = header->Size - usedSize;
    usedHeader->Size = usedSize;

    freeHeader->Prev = header->Prev;
    freeHeader->Next = header->Next;

    m_FreeBlock = freeHeader;

    return allocated;
}

// 3. The block has more storage then the Request, but to less to divide into two     blocks.
char* allocated = (char*)header + m_hsize;
header->Used = true;
footer->Used = true;

//Detach from the free list;
if(header->Next == header)
{
    // This is the only block on the free list
    m_FreeBlock = 0;
}
else
{
    m_FreeBlock->Prev->Next = m_FreeBlock->Next;
    m_FreeBlock->Next->Prev = m_FreeBlock->Prev;
    m_FreeBlock = m_FreeBlock->Next;
}

return allocated;

}

I already checked if the SearchByPolicy function returns a valid pointer and it does return a valid pointer if it can find a bigger block of memory then the request.

I hope you can help me!

share|improve this question

1 Answer 1

up vote 3 down vote accepted

Your problem is one of pointer arithmetic:

FooterBlock* footer = (FooterBlock*)((header + Size - m_fsize));

means

FooterBlock* footer = (FooterBlock*)((uint_ptr)header + (sizeof(HeaderBlock) * Size) - (sizeof(HeaderBlock) * m_fsize));

you most likely wanted:

uint_ptr ofs = (uint_ptr)header;
FooterBlock* footer = (FooterBlock*)((ofs + Size - m_fsize));

you can find uint_ptr in stdint.h or UINT_PTR in windows.h


Update:

As per the question in the comment

IMemoryManager* memorymanager = new MemoryManager(1000000); 
Logger* logger = (Logger*)memorymanager->Allocate(sizeof(Logger)); 
logger->WriteToBuffer(log, "HOI");

this will fail because the constructor for Logger will not be called, there are a few ways to fix this:

  • call a construction method, not very nice though
  • use placement new:

(lists break code formatting unfortunately, so I have to insert this here...)

IMemoryManager* memorymanager = new MemoryManager(1000000); 
Logger* logger = new (memorymanager->Allocate(sizeof(Logger))) (); 
logger->WriteToBuffer(log, "HOI");
  • overload the ::new and ::delete operators at a global scope (very bad)
  • create a inheritable object to overload new and delete:

This requires that the memory manager be available at that point (or passed as a param):

class PoolObject
{
    void* operator new (std::size_t n)
    {
        return memorymanager->Allocate(n);
    }

    void operator delete (void* p)
    {
        memorymanager->Free(p);
    }
}

class Logger : PoolObject
{
}

Logger* logger = new Logger();
share|improve this answer
    
Thanks A LOT it worked like a charm~! Just one more problem: let's say I have a pointer to my memory manager and a logger: IMemoryManager* memorymanager = new MemoryManager(1000000); Logger* logger = (Logger*)memorymanager>Allocate(sizeof(Logger)); logger->WriteToBuffer(log, "HOI"); What's wrong with this then? Again thank you very much, if you could answer this last question I won't ask you anything again:P You get a vote up from me! –  Christian Veenman Feb 1 '12 at 12:33
    
@ChristianVeenman: you are allocating an object without initializing it (the constructor won't be called). see my update question. –  Necrolis Feb 1 '12 at 12:41
    
Okay thanks a lot! You really are great at explaining! Do you think it would be a good idea to create a constructor and use placement new in the constructor to initialize it in the allocated memory? I accepted your answer by the way! –  Christian Veenman Feb 1 '12 at 13:01
    
@ChristianVeenman: I'm not sure what you mean by that, the constructor for Logger won't be called without placement new, in which case it doesn't matter, as you can just do everything in the constructor –  Necrolis Feb 1 '12 at 13:49

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