Esempio n. 1
0
    void load_(vector<uint32_t>& indexes)
    {
        uint32_t idx = indexes.front();
        indexes.erase(indexes.begin());

        NodeType* n = nodes[idx].pNode_ ;
        nodes[idx] =  _cache_node_(n);

        for (uint32_t i=0; i<n->getSize(); i++)
        {
            if (n->getDiskAddr(i)==(uint64_t)-1)
                continue;

            if (n->getDiskAddr(i)%2==0)
                continue;

            NodeType* t = new NodeType(f_);
            t->load(n->getDiskAddr(i));
            nodes[count_] = _cache_node_(t);

            indexes.push_back(count_);
            n->setMemAddr(i, count_);

            count_++;
            if (count_>=CACHE_SIZE)
            {
                indexes.clear();
                return;
            }

        }
    }
Esempio n. 2
0
    /*!
     *Load bucket of specific disk address into memory.
     **/
    nodePtr getNodeByMemAddr(uint32_t& memAddr, uint64_t diskAddr)
    {
        if (diskAddr%2==1)
            return nodePtr();

        if (memAddr>=count_ && memAddr!=(uint32_t)-1&&count_!=0)
            return nodePtr();

        if (memAddr!=(uint32_t)-1)
        {
            NodeType* t = nodes[memAddr].pNode_;
            if (t->getDiskAddr()==diskAddr)
            {
                return nodePtr(nodes[memAddr], memAddr);
            }
        }

        uint32_t i = findInCache(diskAddr);
        if (i != (uint32_t)-1)
        {
            memAddr = i;
            return nodePtr(nodes[i], memAddr);
        }

        if (count_<CACHE_SIZE)
        {
            NodeType* t = new NodeType(f_);
            t->load(diskAddr);
            nodes[count_] = _cache_node_(t);

            memAddr = count_;

            count_++;
            return nodePtr(nodes[memAddr], memAddr);
        }

        //cout<< "getNodeByMemAddr()\n";

        memAddr = findSwitchOut();
        //cout<<"\nswitch out-: "<<memAddr<<endl;
        kickOutNodes(memAddr);


        NodeType* t = new NodeType(f_);
        t->load(diskAddr);
        nodes[memAddr] = _cache_node_(t);
        return nodePtr(nodes[memAddr], memAddr);
    }