Submission #166751

# Submission time Handle Problem Language Result Execution time Memory
166751 2019-12-03T16:29:31 Z wleung_bvg Street Lamps (APIO19_street_lamps) C++14
40 / 100
5000 ms 427256 KB
#include <bits/stdc++.h>
#include <ext/pb_ds/assoc_container.hpp>
#include <ext/pb_ds/tree_policy.hpp>
#include <ext/pb_ds/priority_queue.hpp>
using namespace std;using namespace __gnu_pbds;
template<class C>constexpr int sz(const C&c){return int(c.size());}
using ll=long long;using ld=long double;using uint=unsigned int;using ull=unsigned long long;
using pii=std::pair<int,int>;using pll=std::pair<ll,ll>;using pill=std::pair<int,ll>;using plli=std::pair<ll,int>;using pdd=std::pair<double,double>;using pld=std::pair<ld,ld>;
#if __SIZEOF_INT128__
    using i128=__int128_t;using ui128=__uint128_t;using pi128=std::pair<i128,i128>;
#endif
constexpr const char nl='\n',sp=' ';constexpr const int INT_INF=0x3f3f3f3f;constexpr const ll LL_INF=0x3f3f3f3f3f3f3f3f;
constexpr const double D_INF=std::numeric_limits<double>::infinity();constexpr const ld LD_INF=std::numeric_limits<ld>::infinity();
template<class T>constexpr const T&_min(const T&x,const T&y){return x<y?x:y;}template<class T>constexpr const T&_max(const T&x,const T&y){return x<y?y:x;}
template<class T,class...Ts>constexpr const T&_min(const T&x,const Ts&...xs){return _min(x,_min(xs...));}
template<class T,class...Ts>constexpr const T&_max(const T&x,const Ts&...xs){return _max(x,_max(xs...));}
template<class T,class...Ts>void MIN(T&x,const Ts&...xs){x=_min(x,xs...);}template<class T,class...Ts>void MAX(T&x,const Ts&...xs){x=_max(x,xs...);}
template<class T,class...Args>std::unique_ptr<T>_make_unique(Args&&...args){return std::unique_ptr<T>(new T(std::forward<Args>(args)...));}
template<class T,class...Args>std::shared_ptr<T>_make_shared(Args&&...args){return std::shared_ptr<T>(new T(std::forward<Args>(args)...));}
#define min(...) _min(__VA_ARGS__)
#define max(...) _max(__VA_ARGS__)
#define make_unique _make_unique
#define make_shared _make_shared
std::seed_seq seq{
    (uint64_t)std::chrono::duration_cast<std::chrono::nanoseconds>(std::chrono::high_resolution_clock::now().time_since_epoch()).count(),
    (uint64_t)__builtin_ia32_rdtsc(),(uint64_t)(uintptr_t)make_unique<char>().get()
};
std::mt19937 rng(seq);std::mt19937_64 rng64(seq);const std::size_t RANDOM=std::uniform_int_distribution<std::size_t>(0,(std::numeric_limits<std::size_t>::max)())(rng64);
template<class T,class H=std::hash<T>>struct rand_hash{
    static uint64_t splitmix64(uint64_t x){x+=0x9e3779b97f4a7c15;x=(x^(x>>30))*0xbf58476d1ce4e5b9;x=(x^(x>>27))*0x94d049bb133111eb;return x^(x>>31);}
    std::size_t operator()(const T&x)const{return splitmix64(H{}(x)+RANDOM);}
};
template<class K,class H=rand_hash<K>,class...Ts>using hashset=__gnu_pbds::gp_hash_table<K,__gnu_pbds::null_type,H,Ts...>;
template<class K,class V,class H=rand_hash<K>,class...Ts>using hashmap=__gnu_pbds::gp_hash_table<K,V,H,Ts...>;
template<class K,class C=std::less<K>,class...Ts>using treeset=__gnu_pbds::tree<K,__gnu_pbds::null_type,C,__gnu_pbds::rb_tree_tag,__gnu_pbds::tree_order_statistics_node_update,Ts...>;
template<class K,class V,class C=std::less<K>,class...Ts>using treemap=__gnu_pbds::tree<K,V,C,__gnu_pbds::rb_tree_tag,__gnu_pbds::tree_order_statistics_node_update,Ts...>;
template<class K,class H=rand_hash<K>,class...Ts>using uset=std::unordered_set<K,H,Ts...>;
template<class K,class V,class H=rand_hash<K>,class...Ts>using umap=std::unordered_map<K,V,H,Ts...>;
template<class T>using minpq=std::priority_queue<T,std::vector<T>,std::greater<T>>;template<class T>using maxpq=std::priority_queue<T,std::vector<T>,std::less<T>>;
template<class T>using minpairingheap=__gnu_pbds::priority_queue<T,std::greater<T>,__gnu_pbds::pairing_heap_tag>;
template<class T>using maxpairingheap=__gnu_pbds::priority_queue<T,std::less<T>,__gnu_pbds::pairing_heap_tag>;
template<class T1,class T2,class H1=rand_hash<T1>,class H2=rand_hash<T2>>struct pair_hash{
    std::size_t operator()(const std::pair<T1,T2>&p)const{return 31*H1{}(p.first)+H2{}(p.second);}
};
template<class T>struct is_iterator{
    template<class U,typename std::enable_if<!std::is_convertible<U,const char*>::value,int>::type=0>constexpr static auto has_indirection(int)->decltype(*std::declval<U>(),bool()){return true;}
    template<class>constexpr static bool has_indirection(long){return false;}constexpr static bool value=has_indirection<T>(0);
};

#define INTERACTIVE_INPUT 0
constexpr const int _bufferSize=1<<16,_maxNumLength=128;
char _inputBuffer[_bufferSize+1],*_inputPtr=_inputBuffer,_outputBuffer[_bufferSize],_c,_last,_sign,*_tempInputBuf=nullptr,_numBuf[_maxNumLength],_tempOutputBuf[_maxNumLength],_fill=' ';
FILE*_input=stdin,*_output=stdout,*_error=stderr;const char*_delimiter=" ";int _cur,_outputPtr=0,_numPtr=0,_precision=9,_width=0,_tempOutputPtr=0,_cnt;ull _precisionBase=1000000000;
#ifdef _WIN32
    #define getchar_unlocked getchar
    #define fread_unlocked fread
    #define fwrite_unlocked fwrite
#endif
#if INTERACTIVE_INPUT
    char _getchar(){return _last=getchar_unlocked();}
    char _getcharskipr(){while(_getchar()=='\r');return _last;}
#else
    char _peekchar(){return*_inputPtr?*_inputPtr:(_inputBuffer[fread_unlocked(_inputPtr=_inputBuffer,1,_bufferSize,_input)]='\0',*_inputPtr);}
    char _peekcharskipr(){while(_peekchar()=='\r')_last=*_inputPtr++;return _peekchar();}
    char _getchar(){return _last=*_inputPtr?*_inputPtr++:(_inputBuffer[fread_unlocked(_inputPtr=_inputBuffer,1,_bufferSize,_input)]='\0',*_inputPtr++);}
    char _getcharskipr(){while(_getchar()=='\r');return _last;}
    bool hasNext(){return (_last&&_peekcharskipr())||!feof(_input);}bool hasNextToken(){while(hasNext()&&_peekchar()<=' ')_getchar();return hasNext();}
#endif
template<class I>void _readSigned(I&x){while((_c=_getchar())<=' ');_sign=_c=='-';if(_sign)_c=_getchar();if(_c>='0')for(x=_c-'0';(_c=_getchar())>='0';x=x*10+_c-'0');}
template<class UI>void _readUnsigned(UI&x){while((_c=_getchar())<=' ');for(x=_c-'0';(_c=_getchar())>='0';x=x*10+_c-'0');}
template<class F>void _readFloatingPoint(F&x){for(F _div=1.0;(_c=_getchar())>='0';x+=(_c-'0')/(_div*=10));}
void setLength(int x){if(_tempInputBuf)delete[](_tempInputBuf);_tempInputBuf=new char[x+1];}
template<class I>typename std::enable_if<std::is_integral<I>::value&&std::is_signed<I>::value>::type read(I&x){_readSigned(x);if(_sign)x=-x;}
template<class UI>typename std::enable_if<std::is_integral<UI>::value&&std::is_unsigned<UI>::value>::type read(UI&x){_readUnsignedSigned(x);}
#if __SIZEOF_INT128__
    void read(i128&x){_readSigned(x);if(_sign)x=-x;}void read(ui128&x){_readUnsigned(x);}
#endif
template<class F>typename std::enable_if<std::is_floating_point<F>::value>::type read(F&x){_readSigned(x);if(_c=='.')_readFloatingPoint(x);if(_sign)x=-x;}
void read(char&x){while((x=_getchar())<=' ');}void read(char*x){_cur=0;do{_c=_getchar();}while(_c<=' ');do{x[_cur++]=_c;}while((_c=_getchar())>' ');x[_cur]='\0';}
void readln(char*x){if(_last=='\r')_getcharskipr();for(_cur=0;(_c=_getcharskipr())!='\n'&&_c;x[_cur++]=_c);x[_cur]='\0';}
void read(std::string&x){if(!_tempInputBuf)assert(0);read(_tempInputBuf);x=std::string(_tempInputBuf,_cur);}
void readln(std::string &x){if(!_tempInputBuf)assert(0);readln(_tempInputBuf);x=std::string(_tempInputBuf,_cur);}
template<class T1,class T2>void read(std::pair<T1,T2>&x){read(x.first);read(x.second);}template<class T>void read(std::complex<T>&x){T _re,_im;read(_re);read(_im);x.real(_re);x.imag(_im);}
template<class T>typename std::enable_if<is_iterator<typename T::iterator>::value>::type read(T&x);template<class T,class...Ts>void read(T&x,Ts&&...xs);
template<class It>typename std::enable_if<is_iterator<It>::value>::type read(It st,It en){for(It _i=st;_i!=en;_i++)read(*_i);}
template<class It,class...Ts>typename std::enable_if<is_iterator<It>::value>::type read(It st,It en,Ts&&...xs){read(st,en);read(std::forward<Ts>(xs)...);}
template<class T>typename std::enable_if<is_iterator<typename T::iterator>::value>::type read(T&x){for(auto&&_i:x)read(_i);}
template<class T,class...Ts>void read(T&x,Ts&&...xs){read(x);read(std::forward<Ts>(xs)...);}
void setInput(FILE*file){*_inputPtr='\0';_input=file;}void setInput(const char*s){*_inputPtr='\0';_input=fopen(s,"r");}void setInput(const std::string&s){*_inputPtr='\0';_input=fopen(s.c_str(),"r");}
int _flushBuf(){fwrite_unlocked(_outputBuffer,1,_outputPtr,_output);return _outputPtr=0;}void flush(){_flushBuf();fflush(_output);}
int _putchar(char x){return _outputBuffer[_outputPtr==_bufferSize?_flushBuf():_outputPtr]=x,_outputPtr++;}
void _writeTempBuf(char x){_tempOutputBuf[_tempOutputPtr++]=x;}void _writeOutput(){for(int _i=0;_i<_tempOutputPtr;_putchar(_tempOutputBuf[_i++]));_tempOutputPtr=0;}
void _fillBuf(int x){for(int _i=0;_i<x;_i++)_putchar(_fill);}void _flushNumBuf(){for(;_numPtr;_writeTempBuf(_numBuf[--_numPtr]));}
void _flushTempBuf(){int _tempLen=_tempOutputPtr;_fillBuf(_width-_tempLen);_writeOutput();_fillBuf(-_width-_tempLen);}
void setPrecision(int x){_precision=x;_precisionBase=1;for(int _i=0;_i<x;_i++,_precisionBase*=10);}void setWidth(int x){_width=x;}void setFill(char x){_fill=x;}
void setDelimiter(const char*x){_delimiter=x;}void setDelimiter(const std::string&x){_delimiter=x.c_str();}
void writeDelimiter(){for(const char*_p=_delimiter;*_p;_putchar(*_p++));}
template<class T>void _writeNum(const T&x,int digits){_cnt=0;for(T _y=x;_y;_y/=10,_cnt++)_numBuf[_numPtr++]='0'+_y%10;for(;_cnt<digits;_cnt++)_numBuf[_numPtr++]='0';_flushNumBuf();}
template<class F>void _writeFloatingPoint(const F&x){ull _I=ull(x);ull _F=(x-_I)*_precisionBase+F(0.5);if(_F>=_precisionBase){_I++;_F=0;}_writeNum(_I,1);_writeTempBuf('.');_writeNum(_F,_precision);}
void write(const bool&x){if(x)_writeTempBuf('1');else _writeTempBuf('0');_flushTempBuf();}void write(const char&x){_writeTempBuf(x);_flushTempBuf();}
void write(const char*x){int _slen=strlen(x);_fillBuf(_width-_slen);for(const char*_p=x;*_p;_putchar(*_p++));_fillBuf(-_width-_slen);}
void write(const std::string&x){_fillBuf(_width-int(x.length()));for(int _i=0;_i<int(x.length());_putchar(x[_i++]));_fillBuf(-_width-int(x.length()));}
template<class I>typename std::enable_if<std::is_integral<I>::value&&std::is_signed<I>::value>::type write(const I&x){
    using UI=typename std::make_unsigned<I>::type;if(x<0){_writeTempBuf('-');_writeNum(UI(-x),1);}else{_writeNum(UI(x),1);}_flushTempBuf();
}
template<class UI>typename std::enable_if<std::is_integral<UI>::value&&std::is_unsigned<UI>::value>::type write(const UI&x){_writeNum(x,1);_flushTempBuf();}
template<class F>typename std::enable_if<std::is_floating_point<F>::value>::type write(const F&x){
    if(std::isnan(x)){write("NaN");}else if(std::isinf(x)){write("Inf");}else if(x<0){_writeTempBuf('-');_writeFloatingPoint(-x);}else{_writeFloatingPoint(x);}_flushTempBuf();
}
#if __SIZEOF_INT128__
    void write(const i128&x){if(x<0){_writeTempBuf('-');_writeNum(ui128(-x),1);}else{_writeNum(ui128(x),1);}_flushTempBuf();}void write(const ui128&x){_writeNum(x,1);_flushTempBuf();}
#endif
template<class T1,class T2>void write(const std::pair<T1,T2>&x){write(x.first);writeDelimiter();write(x.second);}
template<class T>void write(const std::complex<T>&x){write(x.real());writeDelimiter();write(x.imag());}
template<class T>typename std::enable_if<is_iterator<typename T::iterator>::value>::type write(const T&x);template<class T,class...Ts>void write(const T&x,Ts&&...xs);
template<class It>typename std::enable_if<is_iterator<It>::value>::type write(It st,It en){bool _first=1;for(It _i=st;_i!=en;_i++){if(_first)_first=0;else writeDelimiter();write(*_i);}}
template<class It,class...Ts>typename std::enable_if<is_iterator<It>::value>::type write(It st,It en,Ts&&...xs){write(st,en);writeDelimiter();write(std::forward<Ts>(xs)...);}
template<class T>typename std::enable_if<is_iterator<typename T::iterator>::value>::type write(const T&x){bool _first=1;for(auto&&_i:x){if(_first)_first=0;else writeDelimiter();write(_i);}}
template<class T,class...Ts>void write(const T&x,Ts&&...xs){write(x);writeDelimiter();write(std::forward<Ts>(xs)...);}
void writeln(){_putchar('\n');}template<class...Ts>void writeln(Ts&&...xs){write(std::forward<Ts>(xs)...);_putchar('\n');}
class IOManager{public:~IOManager(){flush();if(_tempInputBuf)delete[](_tempInputBuf);}};std::unique_ptr<IOManager>iomanager=make_unique<IOManager>();
void setOutput(FILE*file){flush();_output=file;}void setOutput(const char*s){flush();_output=fopen(s,"w");}void setOutput(const std::string&s){flush();_output=fopen(s.c_str(),"w");}
template<class...Ts>void debug(const Ts&...xs){FILE*_temp=_output;setOutput(_error);write(xs...);setOutput(_temp);}
template<class...Ts>void debugln(const Ts&...xs){FILE*_temp=_output;setOutput(_error);writeln(xs...);setOutput(_temp);}
void setError(FILE*file){flush();_error=file;}void setError(const char*s){flush();_error=fopen(s,"w");}void setError(const std::string&s){flush();_error=fopen(s.c_str(),"w");}

template <class T, const bool ONE_INDEXED, const int ...Args> struct FenwickTree {
    T val;
    void init() { val = 0; }
    void update(T v) { val += v; }
    T rsq() { return val; }
};

template <class T, const bool ONE_INDEXED, const int MAXN, const int ...Ns> struct FenwickTree <T, ONE_INDEXED, MAXN, Ns...> {
    FenwickTree<T, ONE_INDEXED, Ns...> BIT[MAXN];
    void init() { for (int i = 0; i < MAXN; i++) BIT[i].init(); }
    template <class ...Args> void update(int i, Args ...args) { for (i += !ONE_INDEXED; i < MAXN; i += i & -i) BIT[i].update(args...); }
    template <class ...Args> T rsq(int l, int r, Args ...args) {
        T ret = 0;
        for (r += !ONE_INDEXED; r > 0; r -= r & -r) ret += BIT[r].rsq(args...);
        for (l -= ONE_INDEXED; l > 0; l -= l & -l) ret -= BIT[l].rsq(args...);
        return ret;
    }
};

template <class Value, class CountType, class Comparator = less<Value>> struct SqrtBuffer {
    Comparator cmp; CountType tot; double SCALE_FACTOR; vector<pair<Value, CountType>> small, large;
    function<bool(const pair<Value, CountType>&, const pair<Value, CountType>&)> pairCmp =
        [&] (const pair<Value, CountType> &a, const pair<Value, CountType> &b) { return cmp(a.first, b.first); };
    SqrtBuffer(const double SCALE_FACTOR = 1) : tot(0), SCALE_FACTOR(SCALE_FACTOR) {}
    template <class PairIt> SqrtBuffer(const PairIt st, const PairIt en, const double SCALE_FACTOR = 1) :
            SCALE_FACTOR(SCALE_FACTOR), large(st, en) {
        assert(is_sorted(st, en, pairCmp)); resizeUnique(large); tot = 0; for (auto &&p : large) tot += p.second;
    }
    void resizeUnique(vector<pair<Value, CountType>> &v) {
        if (!v.empty()) {
            int j = 0;
            for (int i = 1; i < int(v.size()); i++) {
                if (cmp(v[i].first, v[j].first) || cmp(v[j].first, v[i].first)) {
                    v[++j] = v[i]; v[j].second += v[j - 1].second;
                } else v[j].second += v[i].second;
            }
            v.resize(j + 1);
        }
    }
    void rebuild() {
        if (int(small.size()) > SCALE_FACTOR * sqrt(small.size() + large.size())) {
            int largeSz = int(large.size()); sort(small.begin(), small.end(), pairCmp);
            for (int i = largeSz - 1; i >= 1; i--) large[i].second -= large[i - 1].second;
            for (auto &&p : small) large.push_back(p);
            small.clear(); inplace_merge(large.begin(), large.begin() + largeSz, large.end(), pairCmp); resizeUnique(large);
        }
    }
    void insert(const pair<Value, CountType> &p) { small.push_back(p); tot += p.second; }
    void emplace(const Value &v, const CountType &c) { small.emplace_back(v, c); tot += c; }
    CountType aboveInd(const Value &val) {
        rebuild(); int ind = upper_bound(large.begin(), large.end(), make_pair(val, CountType(0)), pairCmp) - large.begin();
        CountType ret = ind == 0 ? 0 : large[ind - 1].second;
        for (auto &&p : small) if (!cmp(val, p.first)) ret += p.second;
        return ret;
    }
    CountType ceilingInd(const Value &val) {
        rebuild(); int ind = lower_bound(large.begin(), large.end(), make_pair(val, CountType(0)), pairCmp) - large.begin();
        CountType ret = ind == 0 ? 0 : large[ind - 1].second;
        for (auto &&p : small) if (cmp(p.first, val)) ret += p.second;
        return ret;
    }
    CountType floorInd(const Value &val) { return aboveInd(val) - 1; }
    CountType belowInd(const Value &val) { return ceilingInd(val) - 1; }
    bool contains(const Value &val) {
        if (binary_search(large.begin(), large.end(), make_pair(val, CountType(0)), pairCmp)) return true;
        rebuild();
        if (binary_search(large.begin(), large.end(), make_pair(val, CountType(0)), pairCmp)) return true;
        for (auto &&p : small) if (!cmp(val, p.first) && !cmp(p.first, val)) return true;
        return false;
    }
    CountType count(const Value &val) { return aboveInd(val) - ceilingInd(val); }
    // number of values in the range [lo, hi]
    CountType count(const Value &lo, const Value &hi) { return aboveInd(hi) - ceilingInd(lo); }
    CountType count() const { return tot; } 
    void clear() { tot = 0; small.clear(); large.clear(); }
    vector<pair<Value, CountType>> valuesAndCount() const { // sorted
        vector<pair<Value, CountType>> ret;
        for (auto &&p : small) ret.push_back(p);
        int mid = int(ret.size());
        for (auto &&p : large) ret.push_back(p);
        inplace_merge(ret.begin(), ret.begin() + mid, ret.end(), pairCmp); resizeUnique(ret); return ret;
    }
};

template <class T, class IndexType, const int MAXN, const bool ONE_INDEXED, class Tree = SqrtBuffer<IndexType, T>> struct SemiSparseFenwickTree2DSqrt {
    Tree BIT[MAXN];
    void init(const double SCALE_FACTOR = 1) { for (int i = 0; i < MAXN; i++) BIT[i] = Tree(SCALE_FACTOR); }
    void clear() { for (int i = 0; i < MAXN; i++) BIT[i].clear(); }
    void update(int x, IndexType y, T v) { for (x += !ONE_INDEXED; x < MAXN; x += x & -x) BIT[x].emplace(y, v); }
    T rsq(int x, IndexType y) { T ret = 0; for (x += !ONE_INDEXED; x > 0; x -= x & -x) ret += BIT[x].aboveInd(y); return ret; }
    T rsq(int x, IndexType y1, IndexType y2) { T ret = 0; for (x += !ONE_INDEXED; x > 0; x -= x & -x) ret += BIT[x].count(y1, y2); return ret; }
    T rsq(int x1, IndexType y1, int x2, IndexType y2) { return rsq(x2, y1, y2) - rsq(x1 - 1, y1, y2); }
};

template <class T, class F> T getFirst(T lo, T hi, F f) {
    while (lo < hi) {
        T mid = lo + (hi - lo) / 2;
        if (f(mid)) hi = mid;
        else lo = mid + 1;
    }
    return lo;
}

template <class T, class F> T getLast(T lo, T hi, F f) {
    hi--;
    while (lo <= hi) {
        T mid = lo + (hi - lo) / 2;
        if (f(mid)) lo = mid + 1;
        else hi = mid - 1;
    }
    return hi;
}

const int MAXN = 3e5 + 5;

int N, Q;
bool cur[MAXN];
FenwickTree<ll, 1, MAXN> ft1;
SemiSparseFenwickTree2DSqrt<ll, int, MAXN, 1> ft2;

void update(int l1, int l2, int r1, int r2, ll v) {
    ft2.update(l1, r1, v);
    ft2.update(l1, r2 + 1, -v);
    ft2.update(l2 + 1, r1, -v);
    ft2.update(l2 + 1, r2 + 1, v);
}

int main() {
    // setInput("in.txt");
    // setOutput("out.txt");
    // setError("err.txt");
    setLength(MAXN);
    ft1.init();
    ft2.init(1);
    string S;
    read(N, Q, S);
    for (int i = 1; i <= N; i++) {
        cur[i] = S[i - 1] == '1';
        if (cur[i]) ft1.update(i, 1);
    }
    for (int qi = 1; qi <= Q; qi++) {
        read(S);
        if (S == "toggle") {
            int i;
            read(i);
            ll mul = cur[i] ? 1 : -1;
            if (!cur[i]) ft1.update(i, 1);
            int l1 = getFirst(1, i, [&] (int x) {
                return ft1.rsq(x, i) == i - x + 1;
            });
            int r2 = getLast(i, N + 1, [&] (int x) {
                return ft1.rsq(i, x) == x - i + 1;
            });
            if (cur[i]) ft1.update(i, -1);
            cur[i] = !cur[i];
            update(l1, i, i, r2, mul * qi);
        } else {
            int l, r;
            read(l, r);
            --r;
            ll ans = ft2.rsq(l, r);
            if (ft1.rsq(l, r) == r - l + 1) ans += qi;
            writeln(ans);
        }
    }
    return 0;
}
# Verdict Execution time Memory Grader output
1 Correct 38 ms 33272 KB Output is correct
2 Correct 38 ms 33272 KB Output is correct
3 Correct 38 ms 33272 KB Output is correct
4 Correct 38 ms 33272 KB Output is correct
5 Correct 38 ms 33276 KB Output is correct
6 Correct 38 ms 33272 KB Output is correct
7 Correct 38 ms 33276 KB Output is correct
# Verdict Execution time Memory Grader output
1 Correct 828 ms 152192 KB Output is correct
2 Correct 907 ms 139052 KB Output is correct
3 Correct 1546 ms 107512 KB Output is correct
4 Execution timed out 5065 ms 119116 KB Time limit exceeded
5 Halted 0 ms 0 KB -
# Verdict Execution time Memory Grader output
1 Correct 43 ms 34320 KB Output is correct
2 Correct 45 ms 34040 KB Output is correct
3 Correct 44 ms 33652 KB Output is correct
4 Correct 43 ms 33272 KB Output is correct
5 Correct 3974 ms 232304 KB Output is correct
6 Execution timed out 5085 ms 135376 KB Time limit exceeded
7 Halted 0 ms 0 KB -
# Verdict Execution time Memory Grader output
1 Correct 39 ms 33288 KB Output is correct
2 Correct 40 ms 33912 KB Output is correct
3 Correct 60 ms 34296 KB Output is correct
4 Correct 42 ms 34424 KB Output is correct
5 Correct 411 ms 45440 KB Output is correct
6 Correct 1322 ms 183244 KB Output is correct
7 Correct 2195 ms 316460 KB Output is correct
8 Correct 2767 ms 396300 KB Output is correct
9 Correct 1254 ms 359580 KB Output is correct
10 Correct 1570 ms 425892 KB Output is correct
11 Correct 1229 ms 360084 KB Output is correct
12 Correct 1566 ms 426636 KB Output is correct
13 Correct 1280 ms 358472 KB Output is correct
14 Correct 1613 ms 427256 KB Output is correct
15 Correct 365 ms 40868 KB Output is correct
16 Correct 370 ms 42232 KB Output is correct
# Verdict Execution time Memory Grader output
1 Correct 38 ms 33272 KB Output is correct
2 Correct 38 ms 33272 KB Output is correct
3 Correct 38 ms 33272 KB Output is correct
4 Correct 38 ms 33272 KB Output is correct
5 Correct 38 ms 33276 KB Output is correct
6 Correct 38 ms 33272 KB Output is correct
7 Correct 38 ms 33276 KB Output is correct
8 Correct 828 ms 152192 KB Output is correct
9 Correct 907 ms 139052 KB Output is correct
10 Correct 1546 ms 107512 KB Output is correct
11 Execution timed out 5065 ms 119116 KB Time limit exceeded
12 Halted 0 ms 0 KB -