Beispiel #1
0
int fun(){
    ut i, t;
    Node one = {0}, next;
    tab.clear();
    for(i=0;i<SIZ;i++){
        cin>>t;
        if(t){
            one.m |= (1<<i);
            one.s++;
        } 
    }
    priority_queue<Node, vector<Node>, Node::cmp> q;
    q.push(one);
    while(!q.empty()){
        one=q.top(); q.pop();
        if(one.m == 0)
            break;
        for(i=0;i<SIZ;i++){
            next = one;
            next.o |= (1<<i);
            set(next,i);
            if(tab.find(next.m) == tab.end()){
                q.push(next);
                tab.insert(next.m);
            }
        }
    }
    output(one.o);
    return 0;
}
void explore(Lit l, vector<Lit>& stack) {
  if (find(stack.begin(), stack.end(), l) != stack.end()) {
    // Found cycle
    // cerr << "Found cycle from " << l << endl;
    for (vector<Lit>::const_iterator i = find(stack.begin(), stack.end(), l);
         ++i != stack.end(); ) {
      addEquivalence(l, *i);
      addEquivalence(invert(l), invert(*i));
      // cerr << ".. containing " << *i << endl;
    }
    // cerr << "End of cycle" << endl;
  } else if (find(stack.begin(), stack.end(), invert(l)) != stack.end()) {
    // We have not(l) -> l, so l is true
    addEquivalence(normalize(l), TRUE);
    addEquivalence(normalize(invert(l)), FALSE);
    // cerr << "Found known true literal " << l << endl;
  } else if (done.find(l) != done.end()) {
    // Nothing
  } else if (implications.find(l) == implications.end()) {
    // cerr << "Found pure literal " << l << endl;
  } else {
    done.insert(l);
    stack.push_back(l);
    for (size_t i = 0; i < implications[l].size(); ++i) {
      explore(implications[l][i], stack);
    }
    stack.pop_back();
  }
}
Beispiel #3
0
// Alínea D
int Aposta::calculaCertos(const hash_set<int> &sorteio) const{
	hash_set<int>::iterator it;
	int c =0;
	for (it=numeros.begin(); it!=numeros.end(); it++)
		if (sorteio.find(*it)!=sorteio.end()) c++;
	return c;
}
Beispiel #4
0
int GetCount(int a, int b) {
    int qres = a + b + 1, n = 1;
    while (primes.find(qres) != primes.end()) {
        n += 1;
        qres = n*n + n*a + b;
    }
    return n;
}
void GetTmWorld(const char* pcBuffer, char* pcLeft, char* pcRight)
{
	while(*pcBuffer != '\0')
	{
		if(tm_sep.find(*pcBuffer) == tm_sep.end() || ((*pcBuffer) == ' '))
		{
			*pcLeft = *pcBuffer;
			++pcLeft;
			++pcBuffer;
		}
		else
		{
			break;
		}
	}
	*pcLeft = '\0';

	while(tm_sep.find(*pcBuffer) != tm_sep.end())
	{
		++pcBuffer;
	}

	while(*pcBuffer != '\0')
	{
		if(tm_sep.find(*pcBuffer) == tm_sep.end() || ((*pcBuffer) == ' ') || ((*pcBuffer) == '*'))
		{
			*pcRight = *pcBuffer;
			++pcRight;
			++pcBuffer;
		}
		else
		{
			break;
		}
	}
	*pcRight = '\0';
}
Beispiel #6
0
int gen_trim_entropy(hash_set<string>& cad_words_set, WordInfoMap* wordinfo_map)
{
    for (WordInfoMap::iterator it = wordinfo_map->begin(); it != wordinfo_map->end(); ++it) {
        string& word = const_cast<string&>(it->first);
        uint32_t freq = it->second.freq;
        if (word.length() >= 3 * 2) {//三个汉字,abc,插入词bc's left trim a,插入词ab's right trim c
            string left_trim(word.begin(), word.begin() + 2);
            string right_part(word.begin() + 2, word.end());
            if (cad_words_set.find(right_part) != cad_words_set.end()) {
                WordInfoMap::iterator it_r = wordinfo_map->find(right_part);
                if (it_r == wordinfo_map->end()) {
                    fprintf(stderr, "WARNING, word[%s] in cad word, not in word_info", right_part.c_str());
                    continue;
                }
                it_r->second.left_trim[left_trim] += freq;
#ifdef DEBUG
                fprintf(stderr, "DEBUG, word[%s],left_trim[%s]\n", word.c_str(), left_trim.c_str());
#endif
            }
            string right_trim(word.end() - 2, word.end());
            string left_part(word.begin(), word.end() - 2);
            if (cad_words_set.find(left_part) != cad_words_set.end()) {
                WordInfoMap::iterator it_l = wordinfo_map->find(left_part);
                if (it_l == wordinfo_map->end()) {
                    fprintf(stderr, "WARNING, word[%s] in cad_word, not in word_info", left_part.c_str());
                    continue;
                }
                it_l->second.right_trim[right_trim] += freq;
#ifdef DEBUG
                fprintf(stderr, "DEBUG, word[%s],right_trim[%s]\n", word.c_str(), right_trim.c_str());
#endif
            }
        }
    }
    return 0;
}
void solve()
{
    int op,x;
    for( f>>N; N; --N )
    {
        f>>op>>x;
        switch( op )
        {
        case 1 :
            H.insert(x);
            break;
        case 2 :
            H.erase(x);
            break;
        case 3 :
            g<< ( H.find(x)!=H.end() ) <<"\n";
        }
    }
}
bool containsArrayOps(const ASTNode& n, hash_set<int> & visited)
{
        if (n.GetIndexWidth() > 0)
            return true;

        if (n.Degree() ==0)
            return false;

        if (visited.find(n.GetNodeNum()) != visited.end())
            return false;

        visited.insert(n.GetNodeNum());

	for (int i =0; i < n.Degree();i++)
		if (containsArrayOps(n[i],visited))
			return true;

	return false;
}
Beispiel #9
0
// counts the number of reads. Shortcut when we get to the limit.
void numberOfReadsLessThan(const ASTNode& n, hash_set<int>& visited, int& soFar,
                           const int limit)
{
  if (n.isAtom())
    return;

  if (visited.find(n.GetNodeNum()) != visited.end())
    return;

  if (n.GetKind() == READ)
    soFar++;

  if (soFar > limit)
    return;

  visited.insert(n.GetNodeNum());

  for (size_t i = 0; i < n.Degree(); i++)
    numberOfReadsLessThan(n[i], visited, soFar, limit);
}
Beispiel #10
0
 void support(const ast &t, std::set<std::string> &res, hash_set<ast> &memo){
     if(memo.find(t) != memo.end()) return;
     memo.insert(t);
 
     int nargs = num_args(t);
     for(int i = 0; i < nargs; i++)
         support(arg(t,i),res,memo);
 
     switch(op(t)){
     case Uninterpreted:
         if(nargs == 0 || !is_tree) {
             std::string name = string_of_symbol(sym(t));
             res.insert(name);
         }
         break;
     case Forall:
     case Exists:
         support(get_quantifier_body(t),res,memo);
         break;
     default:;
     }
 }
Beispiel #11
0
/*!	\brief Returns lists of applications to be asked to quit on shutdown.

	\param userApps List of RosterAppInfos identifying the user applications.
		   Those will be ask to quit first.
	\param systemApps List of RosterAppInfos identifying the system applications
		   (like Tracker and Deskbar), which will be asked to quit after the
		   user applications are gone.
	\param vitalSystemApps A set of team_ids identifying teams that must not
		   be terminated (app server and registrar).
	\return \c B_OK, if everything went fine, another error code otherwise.
*/
status_t
TRoster::GetShutdownApps(AppInfoList& userApps, AppInfoList& systemApps,
	AppInfoList& backgroundApps, hash_set<team_id>& vitalSystemApps)
{
	BAutolock _(fLock);

	status_t error = B_OK;

	// get the vital system apps:
	// * ourself
	// * kernel team
	// * app server
	// * debug server

	// ourself
	vitalSystemApps.insert(be_app->Team());

	// kernel team
	team_info teamInfo;
	if (get_team_info(B_SYSTEM_TEAM, &teamInfo) == B_OK)
		vitalSystemApps.insert(teamInfo.team);

	// app server
	RosterAppInfo* info
		= fRegisteredApps.InfoFor("application/x-vnd.haiku-app_server");
	if (info != NULL)
		vitalSystemApps.insert(info->team);

	// debug server
	info = fRegisteredApps.InfoFor("application/x-vnd.haiku-debug_server");
	if (info != NULL)
		vitalSystemApps.insert(info->team);

	// populate the other groups
	for (AppInfoList::Iterator it(fRegisteredApps.It());
			RosterAppInfo* info = *it; ++it) {
		if (vitalSystemApps.find(info->team) == vitalSystemApps.end()) {
			RosterAppInfo* clonedInfo = info->Clone();
			if (clonedInfo) {
				if (_IsSystemApp(info)) {
					if (!systemApps.AddInfo(clonedInfo))
						error = B_NO_MEMORY;
				} else if (info->flags & B_BACKGROUND_APP) {
					if (!backgroundApps.AddInfo(clonedInfo))
						error = B_NO_MEMORY;
				} else {
					if (!userApps.AddInfo(clonedInfo))
						error = B_NO_MEMORY;
				}

				if (error != B_OK)
					delete clonedInfo;
			} else
				error = B_NO_MEMORY;
		}

		if (error != B_OK)
			break;
	}

	// Special case, we add the input server to vital apps here so it is
	// not excluded in the lists above
	info = fRegisteredApps.InfoFor("application/x-vnd.Be-input_server");
	if (info != NULL)
		vitalSystemApps.insert(info->team);

	// clean up on error
	if (error != B_OK) {
		userApps.MakeEmpty(true);
		systemApps.MakeEmpty(true);
	}

	return error;
}
Beispiel #12
0
void Query::mapNodesHelp(vector<Neighborhood>& nbs, HashGraph* Gdb, OrthologInfoList* pOrthinfolist_db, vector<int>& Vq, vector<int>& Vdb, GraphMatch* gm, Queue& Q, hash_set<int>& nodesInQ, vector<bool>& mark, vector<bool>& dbmark)
{
	vector<Neighborhood> dbnbh;
	bool* qvisit=new bool[Vq.size()];
	bool* dbvisit=new bool[Vdb.size()];
	for(unsigned int j=0; j<Vdb.size(); j++)
	{
		dbvisit[j]=false;
		Neighborhood nbh;
		nbh.degree=Gdb->degree(Vdb[j]);
		
		getNeighborhood(Gdb, (*pOrthinfolist_db), Vdb[j], nbh);
		dbnbh.push_back(nbh);
	}
	vector<MappingIndex> mcand;
	for(unsigned int i=0; i<Vq.size(); i++)
	{
		qvisit[i]=false;
		Neighborhood& nbh=nbs[Vq[i]];
		for(unsigned int j=0; j<Vdb.size(); j++)
		{
			MappingIndex m;
			m.indexv=i;
			m.indexw=j;
			if( getScore(nbh, dbnbh[j], m.score) )
				mcand.push_back(m);
		}
	}
	
	std::sort(mcand.begin(), mcand.end(), orderMappingIndexByScore);
	
	for(unsigned int i=0; i<mcand.size(); i++)
	{
		int vi=mcand[i].indexv;
		int wi=mcand[i].indexw;
		float score=mcand[i].score;
		if(!qvisit[vi] && !dbvisit[wi])
		{
			NodeMapping nm;
			nm.source=Vq[vi];
			nm.target=Vdb[wi];
				
			if(nodesInQ.find(Vq[vi])==nodesInQ.end())//Vq[vi] has no mapping in Q) 
			{
				qvisit[vi]=true;
				dbvisit[wi]=true;
				Q.insert(nm);
				nodesInQ.insert(nm.source);
				dbmark[nm.target]=true;
			}else
			{
				//find the mapping in Q
				Queue::iterator p;
				for(p=Q.begin(); p!=Q.end(); p++)
					if(p->source==Vq[vi])
						break;
				if( score < p->score )
				{
					qvisit[vi]=true;
					dbvisit[wi]=true;
					dbmark[p->target]=false;
					Q.erase(p);//edge tm= remove the mapping of m.source from Q 
					Q.insert(nm);
					//nodesInQ.insert(nm.source);
					dbmark[nm.target]=true;
				}else
				{
					qvisit[vi]=true;
				}
			}			
		}
	}
	
	delete [] dbvisit;
	delete [] qvisit;
}
bool contains(hash_set<long>&myset, long target)
{
	hash_set<long>::iterator iter = myset.find(target);
	if(iter!=myset.end()) return true;
	else		      return false;
}