Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I am writing a tool varaible size memory pool as follows.

I don't have stack trace for this. By steping through I found that It is crashing in Rational::deleteMemPool();

I am not sure why it so? Any inputs are welcome.

Thanks!

// MemoryChunk is used to string together chunks of memory of varying sizes into a sequence of chunks.

class MemoryChunk {
public:
    MemoryChunk (MemoryChunk *nextChunk, size_t chunkSize);
    ~MemoryChunk() {delete mem; }

    inline void *alloc (size_t size);
    inline void free (void* someElement);

    // Pointer to next memory chunk on the list.
    MemoryChunk *nextMemChunk() {return next;}
    // How much space do we have left on this memory chunk?
    size_t spaceAvailable() { return chunkSize - bytesAlreadyAllocated; }

    // this is the default size of a single memory chunk.
    enum { DEFAULT_CHUNK_SIZE = 4096 };
private:

    // The MemoryChunk class is a cleaner version of NextOnFreeList. It separates the next pointer from
    // the actual memory used for the allocated object. It uses explicit next and mem pointers, with no 
    // need for casting.

    MemoryChunk *next;
    void *mem;

    // The size of a single memory chunk.
    size_t chunkSize;
    // This many bytes already allocated on the current memory chunk.
    size_t bytesAlreadyAllocated;
};

MemoryChunk::MemoryChunk(MemoryChunk *nextChunk, size_t reqSize) {
    chunkSize = (reqSize > DEFAULT_CHUNK_SIZE) ? reqSize : DEFAULT_CHUNK_SIZE;
    next = nextChunk;
    bytesAlreadyAllocated = 0;
    mem = new char [chunkSize];
}

void* MemoryChunk :: alloc (size_t requestSize) {
    void *addr = static_cast <void*> (static_cast <char*> (mem) + bytesAlreadyAllocated);
    bytesAlreadyAllocated += requestSize;
    return addr;
}

inline void MemoryChunk :: free (void *doomed) {}

class ByteMemoryPool {
public:
    ByteMemoryPool (size_t initSize = MemoryChunk::DEFAULT_CHUNK_SIZE);
    ~ByteMemoryPool ();

    // Allocate memory from private pool.
    inline void *alloc (size_t size);
    // Free memory previously allocated from the pool
    inline void free (void* someElement);
private:

    // A list of memory chunks. This is our private storage.
    MemoryChunk *listOfMemoryChunks;
    // Add one memory chunk to our private storage
    void expandStorage(size_t reqSize);
};

// Construct the ByteMemoryPool object. Build the private storage.
ByteMemoryPool :: ByteMemoryPool (size_t initSize) {
    expandStorage(initSize);
}

ByteMemoryPool :: ~ByteMemoryPool () {

    MemoryChunk *memChunk = listOfMemoryChunks;
    while (memChunk) {
        listOfMemoryChunks = memChunk->nextMemChunk();
        delete memChunk;
        memChunk = listOfMemoryChunks;
    }
}

void* ByteMemoryPool :: alloc (size_t requestSize) {
    size_t space = listOfMemoryChunks->spaceAvailable();
    if ( space < requestSize ) {
        expandStorage(requestSize);
    }   
    return listOfMemoryChunks->alloc(requestSize);
}

inline void ByteMemoryPool :: free (void *doomed) {
    listOfMemoryChunks->free(doomed);
}

void ByteMemoryPool :: expandStorage(size_t reqSize) {
    listOfMemoryChunks = new MemoryChunk(listOfMemoryChunks, reqSize);
}

class Rational {
public:
    Rational (int a = 0, int b = 1 ) : n(a), d(b) {}
    void *operator new(size_t size) {return memPool->alloc(size);}
    void operator delete(void *doomed,size_t size) {memPool->free(doomed);}

    static void newMemPool() { memPool = new ByteMemoryPool;}
    static void deleteMemPool() { delete memPool; }
private:
    int n; // Numerator
    int d; // Denominator
    static ByteMemoryPool *memPool;
};

ByteMemoryPool* Rational::memPool = 0;
int main(){

    Rational *array[1000];
    Rational::newMemPool();
    // Start timing here
    for (int j = 0; j < 1; j++) {
        for (int i = 0; i < 5; i++) {
            array[i] = new Rational(i);
        }

        for (int i = 0; i < 5; i++) {
            delete array[i];
        }
    }

    // Stop timing here
    Rational::deleteMemPool();
}
share|improve this question
1  
Did valgrind show you anything of interest? –  dasblinkenlight Apr 30 '12 at 10:12
2  
Testcase or didn't happen. –  Griwes Apr 30 '12 at 10:12
    
Have you tried the usual things like running it through valgrind, gettting a backtrace in a debugger, setting the warnings level of your compiler to a sane level to catch things like delete void* ? what was the outcome of all those things? –  PlasmaHH Apr 30 '12 at 10:13

1 Answer 1

up vote 2 down vote accepted

next and nextChunk don't seem to point anywhere. Also in destructor of MemoryChunk you need an array delete. That's a starter for 10, unless I read the code incorrectly.

share|improve this answer
    
sorry I didn't get what is meant by "There is a starter for 10"? Thanks for inputs. –  venkysmarty May 2 '12 at 8:06
    
clarified, hope it helped, did you get any further? –  ColWhi May 2 '12 at 12:49

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.