Esempio n. 1
0
        //todo: check for the correctness
        // In my opinion, this is correct
        public BitSet getBitSetObject()
        {
            BitSet bs = new BitSet();
            for (int i = 0; i < 32; i++)
            {
                int mask = 1 << i;
                if (mask <= bitset)
                {
                    if ((bitset & mask) != 0)
                    {
                        bs.Add(true);
                    }
                    else
                    {
                        bs.Add(false);
                    }
                }
                else
                {

                    break;
                }

            }
            return bs;
        }
Esempio n. 2
0
        public NBA(APSet apset)
        {
            //_state_count = 0;
            _apset = apset;
            _start_state = null;

            //ly: added to the source
            _index = new List<NBA_State>();
            _final_states = new BitSet();
        }
Esempio n. 3
0
 /**
 * Constructor
 * @param id the name of the node
 */
 public SafraTreeNode(int id)
 {
     this._id = id;
     //_final_flag(false),
     // _parent(0),
     //_olderBrother(0),
     //_youngerBrother(0),
     //_oldestChild(0),
     //_youngestChild(0),
     //_childCount(0)
     _labeling = new BitSet();
 }
Esempio n. 4
0
        /** Get the signature for this state */
        public RabinSignature getSignature()
        {
            BitSet Larray = _acceptance.getAcceptance_L_forState(_state_index);
            BitSet Uarray = _acceptance.getAcceptance_U_forState(_state_index);

            BitSet llist = new BitSet(Larray);
            BitSet ulist = new BitSet(Uarray);

            //foreach (bool bit in Larray.bitset)
            //{
            //    llist.Add(bit);
            //}

            //foreach (bool bit in Uarray.bitset)
            //{
            //    ulist.Add(bit);
            //}

            return new RabinSignature(llist, ulist, _acceptance.size());
        }
Esempio n. 5
0
        /** Node visitor */
        public void visit(SafraTree tree, SafraTreeNode node)
        {
            if (node.getChildCount() <= 1)
            {
                return;
            }

            BitSet already_seen = new BitSet();
            bool first = true;
            //for (SafraTreeNode::child_iterator it=node->children_begin();it!=node->children_end();++it)
            SafraTreeNode it = node.children_begin();
            while (it != node.children_end())
            {
                SafraTreeNode cur_child = it;
                if (first)
                {
                    already_seen = new BitSet(cur_child.getLabeling());////////////get the NBA states in child
                    first = false;
                    it = it.increment();////////note added
                }
                else
                {
                    BitSet current = new BitSet(cur_child.getLabeling());

                    BitSet intersection = new BitSet(already_seen); // make copy
                    if (intersection.intersects(current))
                    {
                        // There are some labels, which occur in older brothers,
                        // remove them from current node and its children
                        STVisitor_subtract_labeling stv_sub = new STVisitor_subtract_labeling(intersection);
                        tree.walkSubTreePostOrder(stv_sub, cur_child);
                    }

                    already_seen.Union(current);
                    it = it.increment();
                }
            }
        }
Esempio n. 6
0
 /** Calculate the BitSet for a state from the acceptance pairs, store
    *  result in result.
    *  @param state_index the state
    *  @param acc the BitSetVector (either _L or _U)
    *  @param result the Bitset where the results are stored, has to be clear
    *                at the beginning!
    */
 private void getBitSetForState(int state_index, List<BitSet> acc, BitSet result)
 {
     for (int i = 0; i < acc.Count; i++)
       {
       if (acc[i] != null)
       {
           if (acc[i].get(state_index))
           {
               //result[i] = true;
               result.set(i);
           }
       }
       }
 }
Esempio n. 7
0
        // ---- Rabin/Streett acceptance specific
        /**
           * Creates a new acceptance pair.
           * @return the index of the new acceptance pair.
           */
        public int newAcceptancePair()
        {
            BitSet l = new BitSet();
              BitSet u = new BitSet();

              _acceptance_L.Add(l);
              _acceptance_U.Add(u);

              _acceptance_count++;
              return _acceptance_L.Count - 1;
        }
Esempio n. 8
0
        /**
           * Get the U part of the acceptance signature for a state (changes to the
           * BitSet do not affect the automaton).
           */
        public BitSet getAcceptance_U_forState(int state_index)
        {
            BitSet result = new BitSet(_acceptance_U.Count, false);
              getBitSetForState(state_index, _acceptance_U, result);

              return result;
        }
Esempio n. 9
0
 /**
  * Constructor
  * @param nba_states_with_all_succ_final A BitSet with the indizes of the
  *                                       NBA states that only have accepting (final)
  *                                       successors.
  * @param tree_template                  SafraTreeTemplate to keep track of removed nodes
  */
 public STVisitor_check_for_succ_final(BitSet nba_states_with_all_succ_final, SafraTreeTemplate tree_template)
 {
     _success = false;
     _nba_states_with_all_succ_final = nba_states_with_all_succ_final;
     _tree_template = tree_template;
 }
Esempio n. 10
0
        /** */
        public void visit(SafraTree tree, SafraTreeNode node)
        {
            if (_final_states.intersects(node.getLabeling()))//////////if this node has the state in accepting states of NBA
            {
                BitSet q_and_f = new BitSet(_final_states);
                q_and_f.Intersect(node.getLabeling());////////////////get the intersect of the label and the accepting states

                SafraTreeNode new_child = tree.newNode();
                node.addAsYoungestChild(new_child);

                _tree_template.setRenameable(new_child.getID());

                new_child.getLabeling().Assign(q_and_f);
            }
        }
Esempio n. 11
0
        /** Calculate the stutter closure for the NBA, for all symbols.
           * @param nba the NBA
           */
        public static NBA stutter_closure(NBA nba)
        {
            APSet apset = nba.getAPSet_cp();

            NBA nba_result_ptr = new NBA(apset);
            NBA result = nba_result_ptr;

            int element_count = apset.powersetSize();

            Debug.Assert(nba.getStartState() != null);
            int start_state = nba.getStartState().getName();

            for (int i = 0; i < nba.size(); i++)
            {
                int st = result.nba_i_newState();
                Debug.Assert(st == i);

                if (st == start_state)
                {
                    result.setStartState(result[st]);
                }

                if (nba[st].isFinal())
                {
                    result[st].setFinal(true);
                }
            }

            for (int i = 0; i < nba.size(); i++)
            {
                for (int j = 0; j < element_count; j++)
                {
                    int st = result.nba_i_newState();
                    Debug.Assert(st == nba.size() + (i*element_count) + j);
                    result[st].addEdge(new APElement(j), result[i]);
                    result[st].addEdge(new APElement(j), result[st]);
                }
            }

            List<List<BitSet>> reachable = new List<List<BitSet>>();
            //reachable.resize(element_count);
            Ultility.resize(reachable, element_count);

            for (int j = 0; j < element_count; j++)
            {
                //NBAEdgeSuccessors edge_successor = new NBAEdgeSuccessors(new APElement(j));
                SCCs scc = new SCCs();
                GraphAlgorithms.calculateSCCs(nba, scc, true, new APElement(j)); //,edge_successor

                reachable[j] = scc.getReachabilityForAllStates();

            #if VERBOSE
              std::cerr << "SCCs for " << APElement(j).toString(*apset) << std::endl;
              std::cerr << scc << std::endl;

              std::cerr << " Reachability: "<< std::endl;
              std::vector<BitSet>& reach=*reachable[j];
              for (unsigned int t=0; t < reach.size(); t++) {
              	std::cerr << t << " -> " << reach[t] << std::endl;
              }

              std::cerr << "  ---\n";
            #endif
            }

            for (int i = 0; i < nba.size(); i++)
            {
                NBA_State from = result[i];

                for (int j = 0; j < element_count; j++)
                {
                    BitSet result_to = new BitSet();

                    BitSet to = nba[i].getEdge(new APElement(j));
                    //for (BitSetIterator it=BitSetIterator(*to);it!=BitSetIterator::end(*to);++it)
                    for (int it = BitSetIterator.start(to); it != BitSetIterator.end(to); it = BitSetIterator.increment(to, it))
                    {
                        int to_state = it;

                        // We can go directly to the original state
                        result_to.set(to_state);
                        // We can also go to the corresponding stutter state instead
                        int stutter_state = nba.size() + (to_state*element_count) + j;
                        result_to.set(stutter_state);

                        // ... and then we can go directly to all the states that are j-reachable from to
                        result_to.Union(reachable[j][to_state]);
                    }

                    from.getEdge(new APElement(j)).Assign(result_to);
                }
            }

            //for (int i=0; i<reachable.size(); ++i) {
            //  delete reachable[i];
            //  }

            return nba_result_ptr;
        }
Esempio n. 12
0
 /** Constructor
  * @param other another RabinSignature
  */
 public RabinSignature(RabinSignature other)
 {
     //_L(other._L), _U(other._U), _size(other._size)
     this._L = new BitSet(other._L);
     this._U = new BitSet(other._U);
     this._size = other._size;
 }
Esempio n. 13
0
        /** Constructor for getting the acceptance signature for a Tree.
         * @param tree the Tree, get acceptance signature from
         *    tree.generateAcceptance(*this).
         */
        //template <typename Tree>
        public RabinSignature(StateInterface tree)
        {
            //added by ly
            this._L = new BitSet();
            this._U = new BitSet();

              tree.generateAcceptance(this);
            _size = 0;
        }
Esempio n. 14
0
                /**
                 * Constructor
                 * nba_reachability A vector of BitSets (state index -> BitSet) of states
                 *                  in the NBA that are reachable from a state.
                 * N                the maximum number of nodes in the Safra tree
                 */
                public STVisitor_reorder_children(List<BitSet> nba_reachability, int N)
                {
                    _nba_reachability = nba_reachability;
                    _n = N;
                    _node_order = new int[N];
                    _node_reachability = new BitSet[N];

                    //added by ly
                    for (int i = 0; i < N; i++)
                    {
                        _node_reachability[i] = new BitSet();
                    }
                }
Esempio n. 15
0
 private static LEG CMP(BitSet a, BitSet b)
 {
     if (a < b)
     {
         return LEG.LESS;
     }
     else
     {
         if (a == b)
         {
             return LEG.EQUAL;
         }
         else
         {
             return LEG.GREATER;
         }
     }
 }
Esempio n. 16
0
            /** Node visitor */
            public void visit(SafraTree tree, SafraTreeNode node)
            {
                if (node.getChildCount() == 0) { return; }

                BitSet labeling_union = new BitSet();
                //for (SafraTreeNode::child_iterator it=node->children_begin();it!=node->children_end();++it)
                SafraTreeNode it = node.children_begin();
                while (it != node.children_end())
                {
                    labeling_union.Union(it.getLabeling());
                    it = it.increment();
                }

                if (labeling_union == node.getLabeling())
                {
                    // The union of the labelings of the children is exactly the
                    // same as the labeling of the parent ->
                    //  remove children
                    STVisitor_remove_subtree stv_remove = new STVisitor_remove_subtree(_tree_template);
                    tree.walkChildrenPostOrder(stv_remove, node);

                    node.setFinalFlag(true);///////////should be "+ i", means in Li
                }
            }
Esempio n. 17
0
 public STVisitor_subtract_labeling(BitSet bitset)
 {
     _bitset = bitset;
 }
Esempio n. 18
0
        /** Node visitor */
        public void visit(SafraTree tree, SafraTreeNode node)
        {
            BitSet new_labeling = new BitSet();

            BitSet old_labeling = node.getLabeling();
            for (int i = old_labeling.nextSetBit(0); i != -1; i = old_labeling.nextSetBit(i + 1))
            {
                new_labeling.Union(_nba[i].getEdge(_elem));//////////////generate new label.
            }

            node.getLabeling().Assign(new_labeling);
        }
Esempio n. 19
0
        /**
          * Move the bits set in acc to the places specified by mapping.
          */
        private void move_acceptance_bits(BitSet acc, List<int> mapping)
        {
            int i = 0;
              while (i != -1)
              {
              int j = mapping[i];
              // :: j is always <= i
              if (j > i)
              {
                  throw new Exception("Wrong mapping in move_acceptance_bits");
              }

              if (i == j)
              {
                  // do nothing
              }
              else
              {
                  // move bit from i->j
                  //acc[j] = true;
                  //acc[i] = false;
                  acc.set(j);
                  acc.clear(i);
              }
              //i=acc.nextSetBit(i+1);
              //i++;
              i = acc.nextSetBit(i + 1);
              }
        }
Esempio n. 20
0
        /** Set the number of acceptance pairs */
        public void setSize(int size)
        {
            _size=size;

            //added by ly
            this._L = new BitSet(size, false);
            this._U = new BitSet(size, false);
        }
Esempio n. 21
0
        /** Constructor
         * @param size the number of acceptance pairs
         */
        public RabinSignature(int size)
        {
            _size = size;

            //added by ly
            this._L = new BitSet(size, false);
            this._U = new BitSet(size, false);
        }
Esempio n. 22
0
 /**
  * Constructor.
  * @param final_states the states that are accepting (final) in the NBA
  * @param tree_template the tree template to keep track of new nodes
  */
 public STVisitor_check_finalset(BitSet final_states, SafraTreeTemplate tree_template)
 {
     _final_states = final_states;
     _tree_template = tree_template;
 }
Esempio n. 23
0
 /** Constructor
  * @param L the L part of the acceptance signature.
  * @param U the U part of the acceptance signature.
  * @param size the number of acceptance pairs
  */
 public RabinSignature(BitSet L, BitSet U, int size)
 {
     // : _L(L), _U(U), _size(size)
     this._L = new BitSet(L);
     this._U = new BitSet(U);
     this._size = size;
 }
Esempio n. 24
0
        public static NBA product_automaton(NBA nba_1, NBA nba_2)
        {
            Debug.Assert(nba_1.getAPSet() == nba_2.getAPSet());
            NBA product_nba = new NBA(nba_1.getAPSet_cp());

            APSet apset = nba_1.getAPSet();
            Debug.Assert(apset == nba_2.getAPSet());

            for (int s_1 = 0; s_1 < nba_1.size(); s_1++)
            {
                for (int s_2 = 0; s_2 < nba_2.size(); s_2++)
                {
                    for (int copy = 0; copy < 2; copy++)
                    {
                        int s_r = product_nba.nba_i_newState();
                        Debug.Assert(s_r == (s_1 * nba_2.size() + s_2) * 2 + copy);

                        int to_copy = copy;

                        if (copy == 0 && nba_1[s_1].isFinal())
                        {
                            to_copy = 1;
                        }
                        if (copy == 1 && nba_2[s_2].isFinal())
                        {
                            product_nba[s_r].setFinal(true);
                            to_copy = 0;
                        }

                        //for (typename APSet::element_iterator it=apset.all_elements_begin();it!=apset.all_elements_end();++it)
                        for (int it = apset.all_elements_begin(); it != apset.all_elements_end(); it++)
                        {
                            APElement label = new APElement(it);
                            BitSet to_s1 = nba_1[s_1].getEdge(label);
                            BitSet to_s2 = nba_2[s_2].getEdge(label);
                            BitSet to_set = new BitSet();
                            //for (BitSetIterator it_e_1 = BitSetIterator(*to_s1); it_e_1 != BitSetIterator::end(*to_s1); ++it_e_1)
                            //for (int it_e_1 = 0; it_e_1 != to_s1.bitset.Count; ++it_e_1)
                            for (int it_e_1 = BitSetIterator.start(to_s1); it_e_1 != BitSetIterator.end(to_s1); it_e_1 = BitSetIterator.increment(to_s1, it_e_1))
                            {
                                //for (BitSetIterator it_e_2 = BitSetIterator(*to_s2); it_e_2 != BitSetIterator::end(*to_s2); ++it_e_2)
                                //for (int it_e_2 = 0; it_e_2 != to_s2.bitset.Count; ++it_e_2)
                                for (int it_e_2 = BitSetIterator.start(to_s2); it_e_2 != BitSetIterator.end(to_s2); it_e_2 = BitSetIterator.increment(to_s2, it_e_2))
                                {
                                    int to = it_e_1 * nba_2.size() + it_e_2 * 2 + to_copy;
                                    to_set.set(to);
                                }
                            }

                            product_nba[s_r].getEdge(label).Assign(to_set);
                        }
                    }
                }
            }

            int start_1 = nba_1.getStartState().getName();
            int start_2 = nba_2.getStartState().getName();
            product_nba.setStartState(product_nba[start_1 * nba_2.size() + start_2]);

            return product_nba;
        }
Esempio n. 25
0
        /** Visit a state (perform DFS) */
        public void visit(int v)
        {
            SCC_DFS_Data sdd = new SCC_DFS_Data();
            sdd.dfs_nr = current_dfs_nr++;
            sdd.root_index = v;
            sdd.inComponent = false;

            _stack.Push(v);

            //todo: be careful of the following swap
            //_dfs_data[v].reset(sdd);
            //Ultility.swap(_dfs_data[v], sdd);
            _dfs_data[v] = sdd;

            //for (typename SuccessorAccess::successor_iterator  succ_it=_successor_access.begin(_graph, v);succ_it!=_successor_access.end(_graph, v); ++succ_it)
            if(_labelMark == null)
            {
                for (KeyValuePair<APElement, BitSet> it_set = _graph[v].edges_begin(); !_graph[v].edges_end(); it_set = _graph[v].increment())
                {
                    for (int succ_it = BitSetIterator.start(it_set.Value); succ_it != BitSetIterator.end(it_set.Value); succ_it = BitSetIterator.increment(it_set.Value, succ_it))
                    {
                        int w = succ_it;

                        if (_dfs_data[w] == null) //.get()
                        {
                            // not yet visited
                            visit(w);
                        }

                        SCC_DFS_Data sdd_w = _dfs_data[w]; //.get();
                        if (sdd_w.inComponent == false)
                        {
                            int dfs_nr_root_v = _dfs_data[sdd.root_index].dfs_nr;
                            int dfs_nr_root_w = _dfs_data[sdd_w.root_index].dfs_nr;

                            if (dfs_nr_root_v > dfs_nr_root_w)
                            {
                                sdd.root_index = sdd_w.root_index;
                            }
                        }
                    }
                }
            }
            else
            {
                BitSet it_set = _graph[v].getEdge(_labelMark);
                for (int succ_it = BitSetIterator.start(it_set); succ_it != BitSetIterator.end(it_set); succ_it = BitSetIterator.increment(it_set, succ_it))
                {
                    int w = succ_it;

                    if (_dfs_data[w] == null) //.get()
                    {
                        // not yet visited
                        visit(w);
                    }

                    SCC_DFS_Data sdd_w = _dfs_data[w]; //.get();
                    if (sdd_w.inComponent == false)
                    {
                        int dfs_nr_root_v = _dfs_data[sdd.root_index].dfs_nr;
                        int dfs_nr_root_w = _dfs_data[sdd_w.root_index].dfs_nr;

                        if (dfs_nr_root_v > dfs_nr_root_w)
                        {
                            sdd.root_index = sdd_w.root_index;
                        }
                    }
                }
            }

            if (sdd.root_index == v)
            {
                BitSet set = new BitSet();

                int w;
                do
                {
                    //w=_stack.Peek(); //.top();
                    w = _stack.Pop();

                    set.set(w);
                    _result.setState2SCC(w, scc_nr);

                    SCC_DFS_Data sdd_w = _dfs_data[w];//.get();
                    sdd_w.inComponent = true;
                } while (w != v);

                scc_nr = _result.addSCC(set) + 1;
            }
        }
Esempio n. 26
0
 /** Add a new SCC */
 public int addSCC(BitSet scc)
 {
     _sccs.Add(scc);
     return _sccs.Count - 1;
 }
Esempio n. 27
0
        /** Calculate the stutter closure for the NBA, for a certain symbol.
           * @param nba the NBA
           * @param label the symbol for which to perform the stutter closure
           */
        public static NBA stutter_closure(NBA nba, APElement label)
        {
            APSet apset = nba.getAPSet_cp();

            NBA nba_result_ptr = new NBA(apset);
            NBA result = nba_result_ptr;

            int element_count = apset.powersetSize();

            Debug.Assert(nba.getStartState() != null);
            int start_state = nba.getStartState().getName();

            for (int i = 0; i < nba.size(); i++)
            {
                int st = result.nba_i_newState();
                Debug.Assert(st == i);

                if (st == start_state)
                {
                    result.setStartState(result[st]);
                }

                if (nba[st].isFinal())
                {
                    result[st].setFinal(true);
                }
            }

            for (int i = 0; i < nba.size(); i++)
            {
                int st = result.nba_i_newState();
                Debug.Assert(st == nba.size() + i);
                result[st].addEdge(label, result[i]);
                result[st].addEdge(label, result[st]);
            }

            //List<BitSet> reachable = null;

            //NBAEdgeSuccessors edge_successor = new NBAEdgeSuccessors(label);
            SCCs scc = new SCCs();
            GraphAlgorithms.calculateSCCs(nba, scc, true, label); //,edge_successor

            List<BitSet> reachable = scc.getReachabilityForAllStates();

            //    std::cerr << "SCCs for " << label.toString(*apset) << std::endl;
            //    std::cerr << scc << std::endl;

            //    std::cerr << " Reachability: "<< std::endl;
            //    for (unsigned int t=0; t < reachable->size(); t++) {
            //      std::cerr << t << " -> " << (*reachable)[t] << std::endl;
            //    }

            //    std::cerr << "  ---\n";

            for (int i = 0; i < nba.size(); i++)
            {
                NBA_State from = result[i];

                for (int j = 0; j < element_count; j++)
                {
                    BitSet result_to = new BitSet();

                    BitSet to = nba[i].getEdge(new APElement(j));
                    if (j != label.bitset)
                    {
                        result_to = to;
                    }
                    else
                    {
                        //for (BitSetIterator it=BitSetIterator(*to);it!=BitSetIterator::end(*to);++it)
                        for (int it = BitSetIterator.start(to); it != BitSetIterator.end(to); it = BitSetIterator.increment(to, it))
                        {
                            int to_state = it;

                            // We can go directly to the original state
                            result_to.set(to_state);
                            // We can also go to the corresponding stutter state instead
                            int stutter_state = nba.size() + to_state;
                            result_to.set(stutter_state);

                            // ... and then we can go directly to all the states that are j-reachable from to
                            result_to.Union(reachable[to_state]);
                        }
                    }

                    from.getEdge(new APElement(j)).Assign(result_to);
                }
            }

            //delete reachable;

            return nba_result_ptr;
        }
Esempio n. 28
0
        public List<BitSet> getReachabilityForAllStates()
        {
            //std::vector<BitSet>* v=new std::vector<BitSet>;
            //v->resize(_state_to_scc.size());

            List<BitSet> v = new List<BitSet>();
            Ultility.resizeExact(v, _state_to_scc.Count);

            for (int i = 0; i < _state_to_scc.Count; ++i)
            {
                int scc = state2scc(i);
                BitSet reachable_sccs = _reachability[scc];

                BitSet reachable_states = new BitSet();

                //for (BitSetIterator it(reachable_sccs); it != BitSetIterator::end(reachable_sccs); ++it)
                for (int it = BitSetIterator.start(reachable_sccs); it != BitSetIterator.end(reachable_sccs); it = BitSetIterator.increment(reachable_sccs, it))
                {
                    // union with all states from the reachable scc
                    reachable_states.Union(_sccs[it]);
                }

                v[i] = reachable_states;

                //std::cerr << "from "<<i<<": "<<reachable_states<<std::endl;
            }

            return v;
        }
Esempio n. 29
0
        /** Type of an acceptance signature */
        // public KeyValuePair<BitSet, BitSet> acceptance_signature_t;

        /** 
         * Constructor, fills the container with the acceptance signatures of the states.
         * @param dra the DRA
         */
        public AcceptanceSignatureContainer(DRA dra)
        {

            //_acceptancesig_vector.resize(dra.size());
            _acceptancesig_vector = new List<KeyValuePair<BitSet, BitSet>>();
            //Ultility.resize(_acceptancesig_vector, dra.size());

            _bitsets = new List<BitSet>();

            for (int i = 0; i < dra.size(); i++)
            {
                BitSet b = dra.acceptance().getAcceptance_L_forState(i);
                BitSet bp = new BitSet(b);
                _bitsets.Add(bp); //push_back
                // _acceptancesig_vector[i].Key = bp;

                b = dra.acceptance().getAcceptance_U_forState(i);
                BitSet bp1 = new BitSet(b);
                _bitsets.Add(bp1); //
                //_acceptancesig_vector[i].Value = bp1;

                _acceptancesig_vector.Add(new KeyValuePair<BitSet, BitSet>(bp, bp1));
            }
        }
Esempio n. 30
0
 /** Perform set operation Union */
 public void Union(BitSet other)
 {
     this.Or(other);
 }