結果
| 問題 | No.669 対決!!! 飲み比べ |
| ユーザー |
 taotao54321
|
| 提出日時 | 2019-05-07 06:00:59 |
| 言語 | C++17 (gcc 13.3.0 + boost 1.87.0) |
| 結果 |
AC
|
| 実行時間 | 21 ms / 2,000 ms |
| コード長 | 44,837 bytes |
| コンパイル時間 | 2,185 ms |
| コンパイル使用メモリ | 206,144 KB |
| 最終ジャッジ日時 | 2025-01-07 03:40:19 |
|
ジャッジサーバーID (参考情報) |
judge3 / judge3 |
(要ログイン)
| ファイルパターン | 結果 |
|---|---|
| sample | AC * 4 |
| other | AC * 25 |
ソースコード
/****/// header {{{#include <bits/stdc++.h>using namespace std;#define CPP_STR(x) CPP_STR_I(x)#define CPP_CAT(x,y) CPP_CAT_I(x,y)#define CPP_STR_I(args...) #args#define CPP_CAT_I(x,y) x ## yusing i8 = int8_t;using u8 = uint8_t;using i16 = int16_t;using u16 = uint16_t;using i32 = int32_t;using u32 = uint32_t;using i64 = int64_t;using u64 = uint64_t;#ifdef __SIZEOF_INT128__using i128 = __int128;using u128 = unsigned __int128;#endifusing f32 = float;using f64 = double;using f80 = __float80;using f128 = __float128;// }}}template<typename T> constexpr T PROCON_INF();template<> constexpr i64 PROCON_INF<i64>() { return 1'010'000'000'000'000'017LL; }template<> constexpr f64 PROCON_INF<f64>() { return 1e100; }constexpr i64 INF = PROCON_INF<i64>();constexpr f64 FINF = PROCON_INF<f64>();constexpr i64 MOD = 1'000'000'007LL;constexpr f64 EPS = 1e-12;constexpr f64 PI = 3.14159265358979323846;// util {{{#define FOR(i, start, end) for(i64 i = (start), CPP_CAT(i,xxxx_end)=(end); i < CPP_CAT(i,xxxx_end); ++i)#define REP(i, n) FOR(i, 0, n)#define ALL(f,c,...) (([&](decltype((c)) cccc) { return (f)(std::begin(cccc), std::end(cccc), ## __VA_ARGS__); })(c))#define SLICE(f,c,l,r,...) (([&](decltype((c)) cccc, decltype((l)) llll, decltype((r)) rrrr) {\auto iiii = llll <= rrrr ? std::begin(cccc)+llll : std::end(cccc);\auto jjjj = llll <= rrrr ? std::begin(cccc)+rrrr : std::end(cccc);\return (f)(iiii, jjjj, ## __VA_ARGS__);\})(c,l,r))#define GENERIC(f) ([](auto&&... args) -> decltype(auto) { return (f)(std::forward<decltype(args)>(args)...); })// ビット演算 {{{// 2の補数を仮定// 引数は [-INF,INF] のみ想定i64 BIT_I(i64 i) {return 1LL << i;}i64 BIT_I_1(i64 i) {return BIT_I(i) - 1;}i64 BIT_GET(i64 x, i64 i) {return x & BIT_I(i);}bool BIT_TEST(i64 x, i64 i) {return BIT_GET(x,i) != 0;}i64 BIT_SET(i64 x, i64 i) {return x | BIT_I(i);}i64 BIT_CLEAR(i64 x, i64 i) {return x & ~BIT_I(i);}i64 BIT_FLIP(i64 x, i64 i) {return x ^ BIT_I(i);}i64 BIT_ASSIGN(i64 x, i64 i, bool b) {return b ? BIT_SET(x,i) : BIT_CLEAR(x,i);}i64 BIT_COUNT_LEADING_ZEROS(i64 x) {if(x == 0) return 64;return __builtin_clzll(x);}i64 BIT_COUNT_LEADING_ONES(i64 x) {return BIT_COUNT_LEADING_ZEROS(~x);}i64 BIT_COUNT_TRAILING_ZEROS(i64 x) {if(x == 0) return 64;return __builtin_ctzll(x);}i64 BIT_COUNT_TRAILING_ONES(i64 x) {return BIT_COUNT_TRAILING_ZEROS(~x);}// 末尾へ続く0を識別するマスクを返す (ex. 0b10100 -> 0b00011)// x=0 なら -1 を返すi64 BIT_MASK_TRAILING_ZEROS(i64 x) {return ~x & (x-1);}// 末尾へ続く1を識別するマスクを返す (ex. 0b10011 -> 0b00011)// x=-1 なら -1 を返すi64 BIT_MASK_TRAILING_ONES(i64 x) {return x & ~(x+1);}i64 BIT_COUNT_ONES(i64 x) {return __builtin_popcountll(x);}i64 BIT_COUNT_ZEROS(i64 x) {return 64 - BIT_COUNT_ONES(x);}// 先頭から続く冗長な符号ビットを数える (ex. 1 -> 62, -1 -> 63)i64 BIT_COUNT_LEADING_REDUNDANT_SIGN_BITS(i64 x) {return __builtin_clrsbll(x);}// 1の個数が奇数なら1, 偶数なら0を返すi64 BIT_PARITY(i64 x) {return __builtin_parityll(x);}// 最右の0を分離する (ex. 0b11001 -> 0b00010)// x=-1 なら 0 を返すi64 BIT_EXTRACT_FIRST_ZERO(i64 x) {return ~x & (x+1);}// 最右の1を分離する (ex. 0b10110 -> 0b00010)// x=0 なら 0 を返すi64 BIT_EXTRACT_FIRST_ONE(i64 x) {return x & (-x);}// 最右の0を1にする (ex. 0b11001 -> 0b11011)i64 BIT_FLIP_FIRST_ZERO(i64 x) {return x | (x+1);}// 最右の1を0にする (ex. 0b10110 -> 0b10100)i64 BIT_FLIP_FIRST_ONE(i64 x) {return x & (x-1);}// 最右の1の位置(1-based)を得る// x=0 なら 0 を返すi64 BIT_FIND_FIRST_ONE(i64 x) {return __builtin_ffsll(x);}// 最右の0の位置(1-based)を得る// x=-1 なら 0 を返すi64 BIT_FIND_FIRST_ZERO(i64 x) {return BIT_FIND_FIRST_ONE(~x);}// 最右の0をそれより右に伝播する (ex. 0b11011 -> 0b11000)// x=-1 なら -1 を返すi64 BIT_PROPAGATE_FIRST_ZERO(i64 x) {if(x == -1) return -1;return x & (x+1);}// 最右の1をそれより右に伝播する (ex. 0b10100 -> 0b10111)// x=0 なら 0 を返すi64 BIT_PROPAGATE_FIRST_ONE(i64 x) {if(x == 0) return 0;return x | (x-1);}// 最右の0および末尾へ続く1を識別するマスクを返す (ex. 0b11011 -> 0b00111)// x=-1 なら 0 を返すi64 BIT_MASKTO_FIRST_ZERO(i64 x) {if(x == -1) return 0;return x ^ (x+1);}// 最右の1および末尾へ続く0を識別するマスクを返す (ex. 0b10100 -> 0b00111)// x=0 なら 0 を返すi64 BIT_MASKTO_FIRST_ONE(i64 x) {if(x == 0) return 0;return x ^ (x-1);}// 最右の連続した0を1にする (ex. 0b101001 -> 0b101111)// x=-1 なら -1 を返すi64 BIT_FLIP_FIRST_ZEROS(i64 x) {return ((x&(x+1))-1) | x;}// 最右の連続した1を0にする (ex. 0b10110 -> 0b10000)// x=0 なら 0 を返すi64 BIT_FLIP_FIRST_ONES(i64 x) {return ((x|(x-1))+1) & x;}// X ⊆ {0,1,...,n-1}, |X| = k なる部分集合 X を昇順に列挙する// comb(n,k) 個//// ex.// ```// i64 x = BIT_I_1(3);// do {// // ...// } while(BIT_NEXT_SET_SIZED(x, 10));// ```bool BIT_NEXT_SET_SIZED(i64& x, i64 n) {if(x == 0) return false;i64 t = BIT_PROPAGATE_FIRST_ONE(x) + 1;x = t | (BIT_MASK_TRAILING_ZEROS(t) >> (BIT_COUNT_TRAILING_ZEROS(x)+1));return x < BIT_I(n);}// 集合 Y の部分集合 X を昇順に列挙する// 2^|Y| 個//// ex.// ```// i64 y = 0b10101;// i64 x = 0;// do {// // ...// } while(BIT_NEXT_SUBSET(x, y));// ```bool BIT_NEXT_SUBSET(i64& x, i64 y) {if(x == y) return false;x = (x-y) & y;return true;}// 集合 Y の部分集合 X を降順に列挙する// 2^|Y| 個//// ex.// ```// i64 y = 0b10101;// i64 x = y;// do {// // ...// } while(BIT_PREV_SUBSET(x, y));// ```bool BIT_PREV_SUBSET(i64& x, i64 y) {if(x == 0) return false;x = (x-1) & y;return true;}// 集合 Y を包含する集合 X ⊆ {0,1,...,n-1} を昇順に列挙する// 2^(n-|Y|) 個//// ex.// ```// i64 y = 0b00010101;// i64 x = y;// do {// // ...// } while(BIT_NEXT_SUPERSET(x, 8, y));// ```bool BIT_NEXT_SUPERSET(i64& x, i64 n, i64 y) {x = (x+1) | y;return x < BIT_I(n);}// }}}// BoolArray {{{class BoolArray {public:using value_type = bool;using reference = value_type&;using const_reference = const value_type&;using iterator = value_type*;using const_iterator = const value_type*;using difference_type = ptrdiff_t;using size_type = size_t;using reverse_iterator = std::reverse_iterator<iterator>;using const_reverse_iterator = std::reverse_iterator<const_iterator>;BoolArray() : BoolArray(0) {}explicit BoolArray(size_t n) : BoolArray(n,false) {}BoolArray(size_t n, bool value) : size_(n), data_(new bool[n]) {ALL(fill, *this, value);}BoolArray(initializer_list<bool> init) : size_(init.size()), data_(new bool[size_]) {ALL(copy, init, begin());}template<typename InputIt>BoolArray(InputIt first, InputIt last) {deque<bool> tmp(first, last);size_ = tmp.size();data_ = new bool[size_];ALL(copy, tmp, begin());}BoolArray(const BoolArray& other) : size_(other.size_), data_(new bool[size_]) {ALL(copy, other, begin());}BoolArray(BoolArray&& other) noexcept : size_(other.size_), data_(other.data_) {other.data_ = nullptr;}BoolArray& operator=(const BoolArray& other) {if(this == &other) return *this;if(!data_ || size_ < other.size_) {delete[] data_;data_ = new bool[other.size_];}size_ = other.size_;ALL(copy, other, begin());return *this;}BoolArray& operator=(BoolArray&& other) noexcept {if(this == &other) return *this;size_ = other.size_;data_ = other.data_;other.data_ = nullptr;return *this;}BoolArray& operator=(initializer_list<bool> init) {if(!data_ || size_ < init.size()) {delete[] data_;data_ = new bool[init.size()];}size_ = init.size();ALL(copy, init, begin());return *this;}void swap(BoolArray& other) noexcept {std::swap(size_, other.size_);std::swap(data_, other.data_);}~BoolArray() {delete[] data_;data_ = nullptr;}bool empty() const noexcept { return size_ == 0; }size_type size() const noexcept { return size_; }size_type max_size() const noexcept { return 1'010'000'000; }iterator begin() noexcept { return data_; }const_iterator begin() const noexcept { return data_; }const_iterator cbegin() const noexcept { return data_; }iterator end() noexcept { return data_+size_; }const_iterator end() const noexcept { return data_+size_; }const_iterator cend() const noexcept { return data_+size_; }reverse_iterator rbegin() noexcept { return reverse_iterator(end()); }const_reverse_iterator rbegin() const noexcept { return const_reverse_iterator(end()); }const_reverse_iterator crbegin() const noexcept { return const_reverse_iterator(end()); }reverse_iterator rend() noexcept { return reverse_iterator(begin()); }const_reverse_iterator rend() const noexcept { return const_reverse_iterator(begin()); }const_reverse_iterator crend() const noexcept { return const_reverse_iterator(begin()); }reference operator[](size_type pos) { return data_[pos]; }const_reference operator[](size_type pos) const { return data_[pos]; }bool* data() noexcept { return data_; }const bool* data() const noexcept { return data_; }private:size_t size_;bool* data_;};void swap(BoolArray& lhs, BoolArray& rhs) noexcept { lhs.swap(rhs); }bool operator==(const BoolArray& lhs, const BoolArray& rhs) {return equal(begin(lhs), end(lhs), begin(rhs), end(rhs));}bool operator!=(const BoolArray& lhs, const BoolArray& rhs) { return !(lhs == rhs); }bool operator<(const BoolArray& lhs, const BoolArray& rhs) {return lexicographical_compare(begin(lhs), end(lhs), begin(rhs), end(rhs));}bool operator> (const BoolArray& lhs, const BoolArray& rhs) { return rhs < lhs; }bool operator<=(const BoolArray& lhs, const BoolArray& rhs) { return !(rhs < lhs); }bool operator>=(const BoolArray& lhs, const BoolArray& rhs) { return !(lhs < rhs); }// }}}// 多次元 vector {{{// 最内周が vector<bool> になるのを避けるための措置template<typename T>struct Array1Container {using type = vector<T>;};template<>struct Array1Container<bool> {using type = BoolArray;};// イテレート用template<typename T>struct is_arrayn_container {static constexpr bool value = false;};template<typename T>struct is_arrayn_container<vector<T>> {static constexpr bool value = true;};template<>struct is_arrayn_container<BoolArray> {static constexpr bool value = true;};template<typename T>auto arrayn_make(i64 n, T x) {using Cont = typename Array1Container<T>::type;return Cont(n, x);}template<typename T, typename... Args,enable_if_t<2 <= sizeof...(Args), nullptr_t> = nullptr>auto arrayn_make(i64 n, Args... args) {auto inner = arrayn_make<T>(args...);return vector<decltype(inner)>(n, inner);}template<typename T, typename F>enable_if_t<!is_arrayn_container<T>::value> arrayn_foreach(T& e, F f) {f(e);}template<typename T, typename F>enable_if_t<is_arrayn_container<T>::value> arrayn_foreach(T& ary, F f) {for(auto& e : ary)arrayn_foreach(e, f);}template<typename T, typename U>enable_if_t<is_arrayn_container<T>::value> arrayn_fill(T& ary, const U& x) {arrayn_foreach(ary, [&x](auto& e) { e = x; });}// }}}// 多次元生配列 {{{template<typename T, typename F>enable_if_t<rank<T>::value==0> CARRAY_FOREACH(T& e, F f) {f(e);}template<typename Array, typename F>enable_if_t<rank<Array>::value!=0> CARRAY_FOREACH(Array& ary, F f) {for(auto& e : ary)CARRAY_FOREACH(e, f);}template<typename Array, typename U>enable_if_t<rank<Array>::value!=0> CARRAY_FILL(Array& ary, const U& v) {CARRAY_FOREACH(ary, [&v](auto& e) { e = v; });}// }}}// メモ化ラッパー (8引数まで) {{{template<i64 N1, typename F>class Memoized1 {static_assert(N1 >= 1, "");public:explicit Memoized1(F&& f) : f_(forward<F>(f)) {}decltype(auto) operator()(i64 x1) const {using R = decltype(f_(*this,x1));static bool done[N1] {};static R memo[N1];if(!done[x1]) {memo[x1] = f_(*this,x1);done[x1] = true;}return memo[x1];}private:const F f_;};template<i64 N1, i64 N2, typename F>class Memoized2 {static_assert(N1 >= 1 && N2 >= 1, "");public:explicit Memoized2(F&& f) : f_(forward<F>(f)) {}decltype(auto) operator()(i64 x1, i64 x2) const {using R = decltype(f_(*this,x1,x2));static bool done[N1][N2] {};static R memo[N1][N2];if(!done[x1][x2]) {memo[x1][x2] = f_(*this,x1,x2);done[x1][x2] = true;}return memo[x1][x2];}private:const F f_;};template<i64 N1, i64 N2, i64 N3, typename F>class Memoized3 {static_assert(N1 >= 1 && N2 >= 1 && N3 >= 1, "");public:explicit Memoized3(F&& f) : f_(forward<F>(f)) {}decltype(auto) operator()(i64 x1, i64 x2, i64 x3) const {using R = decltype(f_(*this,x1,x2,x3));static bool done[N1][N2][N3] {};static R memo[N1][N2][N3];if(!done[x1][x2][x3]) {memo[x1][x2][x3] = f_(*this,x1,x2,x3);done[x1][x2][x3] = true;}return memo[x1][x2][x3];}private:const F f_;};template<i64 N1, i64 N2, i64 N3, i64 N4, typename F>class Memoized4 {static_assert(N1 >= 1 && N2 >= 1 && N3 >= 1 && N4 >= 1, "");public:explicit Memoized4(F&& f) : f_(forward<F>(f)) {}decltype(auto) operator()(i64 x1, i64 x2, i64 x3, i64 x4) const {using R = decltype(f_(*this,x1,x2,x3,x4));static bool done[N1][N2][N3][N4] {};static R memo[N1][N2][N3][N4];if(!done[x1][x2][x3][x4]) {memo[x1][x2][x3][x4] = f_(*this,x1,x2,x3,x4);done[x1][x2][x3][x4] = true;}return memo[x1][x2][x3][x4];}private:const F f_;};template<i64 N1, i64 N2, i64 N3, i64 N4, i64 N5, typename F>class Memoized5 {static_assert(N1 >= 1 && N2 >= 1 && N3 >= 1 && N4 >= 1 && N5 >= 1, "");public:explicit Memoized5(F&& f) : f_(forward<F>(f)) {}decltype(auto) operator()(i64 x1, i64 x2, i64 x3, i64 x4, i64 x5) const {using R = decltype(f_(*this,x1,x2,x3,x4,x5));static bool done[N1][N2][N3][N4][N5] {};static R memo[N1][N2][N3][N4][N5];if(!done[x1][x2][x3][x4][x5]) {memo[x1][x2][x3][x4][x5] = f_(*this,x1,x2,x3,x4,x5);done[x1][x2][x3][x4][x5] = true;}return memo[x1][x2][x3][x4][x5];}private:const F f_;};template<i64 N1, i64 N2, i64 N3, i64 N4, i64 N5, i64 N6, typename F>class Memoized6 {static_assert(N1 >= 1 && N2 >= 1 && N3 >= 1 && N4 >= 1 && N5 >= 1 && N6 >= 1, "");public:explicit Memoized6(F&& f) : f_(forward<F>(f)) {}decltype(auto) operator()(i64 x1, i64 x2, i64 x3, i64 x4, i64 x5, i64 x6) const {using R = decltype(f_(*this,x1,x2,x3,x4,x5,x6));static bool done[N1][N2][N3][N4][N5][N6] {};static R memo[N1][N2][N3][N4][N5][N6];if(!done[x1][x2][x3][x4][x5][x6]) {memo[x1][x2][x3][x4][x5][x6] = f_(*this,x1,x2,x3,x4,x5,x6);done[x1][x2][x3][x4][x5][x6] = true;}return memo[x1][x2][x3][x4][x5][x6];}private:const F f_;};template<i64 N1, i64 N2, i64 N3, i64 N4, i64 N5, i64 N6, i64 N7, typename F>class Memoized7 {static_assert(N1 >= 1 && N2 >= 1 && N3 >= 1 && N4 >= 1 && N5 >= 1 && N6 >= 1 && N7 >= 1, "");public:explicit Memoized7(F&& f) : f_(forward<F>(f)) {}decltype(auto) operator()(i64 x1, i64 x2, i64 x3, i64 x4, i64 x5, i64 x6, i64 x7) const {using R = decltype(f_(*this,x1,x2,x3,x4,x5,x6,x7));static bool done[N1][N2][N3][N4][N5][N6][N7] {};static R memo[N1][N2][N3][N4][N5][N6][N7];if(!done[x1][x2][x3][x4][x5][x6][x7]) {memo[x1][x2][x3][x4][x5][x6][x7] = f_(*this,x1,x2,x3,x4,x5,x6,x7);done[x1][x2][x3][x4][x5][x6][x7] = true;}return memo[x1][x2][x3][x4][x5][x6][x7];}private:const F f_;};template<i64 N1, i64 N2, i64 N3, i64 N4, i64 N5, i64 N6, i64 N7, i64 N8, typename F>class Memoized8 {static_assert(N1 >= 1 && N2 >= 1 && N3 >= 1 && N4 >= 1 && N5 >= 1 && N6 >= 1 && N7 >= 1 && N8 >= 1, "");public:explicit Memoized8(F&& f) : f_(forward<F>(f)) {}decltype(auto) operator()(i64 x1, i64 x2, i64 x3, i64 x4, i64 x5, i64 x6, i64 x7, i64 x8) const {using R = decltype(f_(*this,x1,x2,x3,x4,x5,x6,x7,x8));static bool done[N1][N2][N3][N4][N5][N6][N7][N8] {};static R memo[N1][N2][N3][N4][N5][N6][N7][N8];if(!done[x1][x2][x3][x4][x5][x6][x7][x8]) {memo[x1][x2][x3][x4][x5][x6][x7][x8] = f_(*this,x1,x2,x3,x4,x5,x6,x7,x8);done[x1][x2][x3][x4][x5][x6][x7][x8] = true;}return memo[x1][x2][x3][x4][x5][x6][x7][x8];}private:const F f_;};template<i64 N1, typename F>decltype(auto) MEMOIZE(F&& f) {return Memoized1<N1,F>(forward<F>(f));}template<i64 N1, i64 N2, typename F>decltype(auto) MEMOIZE(F&& f) {return Memoized2<N1,N2,F>(forward<F>(f));}template<i64 N1, i64 N2, i64 N3, typename F>decltype(auto) MEMOIZE(F&& f) {return Memoized3<N1,N2,N3,F>(forward<F>(f));}template<i64 N1, i64 N2, i64 N3, i64 N4, typename F>decltype(auto) MEMOIZE(F&& f) {return Memoized4<N1,N2,N3,N4,F>(forward<F>(f));}template<i64 N1, i64 N2, i64 N3, i64 N4, i64 N5, typename F>decltype(auto) MEMOIZE(F&& f) {return Memoized5<N1,N2,N3,N4,N5,F>(forward<F>(f));}template<i64 N1, i64 N2, i64 N3, i64 N4, i64 N5, i64 N6, typename F>decltype(auto) MEMOIZE(F&& f) {return Memoized6<N1,N2,N3,N4,N5,N6,F>(forward<F>(f));}template<i64 N1, i64 N2, i64 N3, i64 N4, i64 N5, i64 N6, i64 N7, typename F>decltype(auto) MEMOIZE(F&& f) {return Memoized7<N1,N2,N3,N4,N5,N6,N7,F>(forward<F>(f));}template<i64 N1, i64 N2, i64 N3, i64 N4, i64 N5, i64 N6, i64 N7, i64 N8, typename F>decltype(auto) MEMOIZE(F&& f) {return Memoized8<N1,N2,N3,N4,N5,N6,N7,N8,F>(forward<F>(f));}// }}}// lambda で再帰 {{{template<typename F>class FixPoint {public:explicit constexpr FixPoint(F&& f) : f_(forward<F>(f)) {}template<typename... Args>constexpr decltype(auto) operator()(Args&&... args) const {return f_(*this, forward<Args>(args)...);}private:const F f_;};template<typename F>decltype(auto) FIX(F&& f) {return FixPoint<F>(forward<F>(f));}// }}}// tuple {{{template<typename... TS,enable_if_t<0 < sizeof...(TS), nullptr_t> = nullptr>constexpr auto tuple_head(const tuple<TS...>& t) {return get<0>(t);}template<typename... TS, size_t i, size_t... is>constexpr auto tuple_tail_helper(const tuple<TS...>& t, index_sequence<i,is...>) {return make_tuple(get<is>(t)...);}template<typename... TS,enable_if_t<1 == sizeof...(TS), nullptr_t> = nullptr>constexpr auto tuple_tail(const tuple<TS...>&) {return make_tuple();}template<typename... TS,enable_if_t<1 < sizeof...(TS), nullptr_t> = nullptr>constexpr auto tuple_tail(const tuple<TS...>& t) {return tuple_tail_helper(t, make_index_sequence<sizeof...(TS)>());}// }}}// FST/SND {{{template<typename T1, typename T2>T1& FST(pair<T1,T2>& p) {return p.first;}template<typename T1, typename T2>const T1& FST(const pair<T1,T2>& p) {return p.first;}template<typename T1, typename T2>T2& SND(pair<T1,T2>& p) {return p.second;}template<typename T1, typename T2>const T2& SND(const pair<T1,T2>& p) {return p.second;}template<typename... TS, enable_if_t<1 <= sizeof...(TS), nullptr_t> = nullptr>auto& FST(tuple<TS...>& t) {return get<0>(t);}template<typename... TS, enable_if_t<1 <= sizeof...(TS), nullptr_t> = nullptr>const auto& FST(const tuple<TS...>& t) {return get<0>(t);}template<typename... TS, enable_if_t<2 <= sizeof...(TS), nullptr_t> = nullptr>auto& SND(tuple<TS...>& t) {return get<1>(t);}template<typename... TS, enable_if_t<2 <= sizeof...(TS), nullptr_t> = nullptr>const auto& SND(const tuple<TS...>& t) {return get<1>(t);}// }}}template<typename T1, typename T2, typename Comp=less<>,enable_if_t<is_integral<T1>::value &&is_integral<T2>::value &&is_signed<T1>::value != is_unsigned<T2>::value,nullptr_t> = nullptr>common_type_t<T1,T2> MAX(T1 x, T2 y, Comp comp={}) {return max<common_type_t<T1,T2>>(x, y, comp);}template<typename T1, typename T2, typename Comp=less<>,enable_if_t<is_floating_point<T1>::value &&is_floating_point<T2>::value,nullptr_t> = nullptr>common_type_t<T1,T2> MAX(T1 x, T2 y, Comp comp={}) {return max<common_type_t<T1,T2>>(x, y, comp);}template<typename T, typename Comp=less<>>const T& MAX(const T& x, const T& y, Comp comp={}) {return max(x, y, comp);}template<typename T, typename Comp=less<>>T MAX(initializer_list<T> ilist, Comp comp={}) {return max(ilist, comp);}template<typename T1, typename T2, typename Comp=less<>,enable_if_t<is_integral<T1>::value &&is_integral<T2>::value &&is_signed<T1>::value != is_unsigned<T2>::value,nullptr_t> = nullptr>common_type_t<T1,T2> MIN(T1 x, T2 y, Comp comp={}) {return min<common_type_t<T1,T2>>(x, y, comp);}template<typename T1, typename T2, typename Comp=less<>,enable_if_t<is_floating_point<T1>::value &&is_floating_point<T2>::value,nullptr_t> = nullptr>common_type_t<T1,T2> MIN(T1 x, T2 y, Comp comp={}) {return min<common_type_t<T1,T2>>(x, y, comp);}template<typename T, typename Comp=less<>>const T& MIN(const T& x, const T& y, Comp comp={}) {return min(x, y, comp);}template<typename T, typename Comp=less<>>T MIN(initializer_list<T> ilist, Comp comp={}) {return min(ilist, comp);}template<typename T>T ABS(T x) {static_assert(is_signed<T>::value, "ABS(): argument must be signed");return x < 0 ? -x : x;}template<typename C>i64 SIZE(const C& c) { return static_cast<i64>(c.size()); }template<typename T, size_t N>i64 SIZE(const T (&)[N]) { return static_cast<i64>(N); }bool is_odd (i64 x) { return x % 2 != 0; }bool is_even(i64 x) { return x % 2 == 0; }template<typename T> i64 cmp(T x, T y) { return (y<x) - (x<y); }template<typename T> i64 sgn(T x) { return cmp(x, T(0)); }// 事前条件: a >= 0, b >= 0i64 gcd_impl(i64 a, i64 b) {if(b == 0) return a;return gcd_impl(b, a%b);}// GCD(0,0) = 0i64 GCD(i64 a, i64 b) {return gcd_impl(ABS(a), ABS(b));}// LCM(0,x) は未定義i64 LCM(i64 a, i64 b) {assert(a != 0 && b != 0);a = ABS(a);b = ABS(b);return a / gcd_impl(a,b) * b;}// lo:OK, hi:NGtemplate<typename Pred>i64 bisect_integer(i64 lo, i64 hi, Pred pred) {assert(lo < hi);while(lo+1 < hi) {i64 mid = (lo+hi) / 2;if(pred(mid))lo = mid;elsehi = mid;}return lo;}template<typename Pred>f64 bisect_real(f64 lo, f64 hi, Pred pred, i64 iter=100) {assert(lo < hi);REP(_, iter) {f64 mid = (lo+hi) / 2;if(pred(mid))lo = mid;elsehi = mid;}return lo;}i64 ipow(i64 x, i64 e) {assert(e >= 0);i64 res = 1;REP(_, e) {res *= x;}return res;}i64 sqrt_floor(i64 x) {assert(x >= 0);i64 lo = 0;i64 hi = MIN(x/2+2, 3037000500LL);return bisect_integer(lo, hi, [x](i64 r) { return r*r <= x; });}i64 sqrt_ceil(i64 x) {i64 r = sqrt_floor(x);return r*r == x ? r : r+1;}// 0 <= log2_ceil(x) <= 63i64 log2_ceil(i64 x) {assert(x > 0);return 64 - BIT_COUNT_LEADING_ZEROS(x-1);}// 0 <= log2_floor(x) <= 62i64 log2_floor(i64 x) {assert(x > 0);return 63 - BIT_COUNT_LEADING_ZEROS(x);}// 0 <= log10_ceil(x) <= 19i64 log10_ceil(i64 x) {assert(x > 0);static constexpr i64 TABLE[19] {1LL,10LL,100LL,1000LL,10000LL,100000LL,1000000LL,10000000LL,100000000LL,1000000000LL,10000000000LL,100000000000LL,1000000000000LL,10000000000000LL,100000000000000LL,1000000000000000LL,10000000000000000LL,100000000000000000LL,1000000000000000000LL,};REP(i, SIZE(TABLE)) {if(x <= TABLE[i]) return i;}return SIZE(TABLE);}// 0 <= log10_floor(x) <= 18i64 log10_floor(i64 x) {assert(x > 0);static constexpr i64 TABLE[18] {9LL,99LL,999LL,9999LL,99999LL,999999LL,9999999LL,99999999LL,999999999LL,9999999999LL,99999999999LL,999999999999LL,9999999999999LL,99999999999999LL,999999999999999LL,9999999999999999LL,99999999999999999LL,999999999999999999LL,};REP(i, SIZE(TABLE)) {if(x <= TABLE[i]) return i;}return SIZE(TABLE);}// 2^n - 1 の形かどうかbool is_mersenne(i64 x) {assert(x >= 0);return (x&(x+1)) == 0;}bool is_pow2(i64 x) {assert(x > 0);return (x&(x-1)) == 0;}// x > 0i64 pow2_ceil(i64 x) {return BIT_I(log2_ceil(x));}// x > 0i64 pow2_floor(i64 x) {return BIT_I(log2_floor(x));}// Haskell の divMod と同じpair<i64,i64> divmod(i64 a, i64 b) {i64 q = a / b;i64 r = a % b;if((b>0 && r<0) || (b<0 && r>0)) {--q;r += b;}return {q,r};}i64 div_ceil(i64 a, i64 b) {i64 q = a / b;i64 r = a % b;if((b>0 && r>0) || (b<0 && r<0))++q;return q;}i64 div_floor(i64 a, i64 b) {return divmod(a,b).first;}i64 modulo(i64 a, i64 b) {return divmod(a,b).second;}bool feq(f64 x, f64 y, f64 eps=EPS) {return fabs(x-y) < eps;}template<typename T, typename U, typename Comp=less<>>bool chmax(T& xmax, const U& x, Comp comp={}) {if(comp(xmax, x)) {xmax = x;return true;}return false;}template<typename T, typename U, typename Comp=less<>>bool chmin(T& xmin, const U& x, Comp comp={}) {if(comp(x, xmin)) {xmin = x;return true;}return false;}template<typename Pred>i64 arg_find(i64 lo, i64 hi, Pred pred) {assert(lo < hi);FOR(x, lo, hi) {if(pred(x)) return x;}return INF;}template<typename F>i64 arg_max(i64 lo, i64 hi, F f) {assert(lo < hi);i64 res = lo;auto ymax = f(lo);FOR(x, lo+1, hi) {if(chmax(ymax, f(x)))res = x;}return res;}template<typename F>i64 arg_min(i64 lo, i64 hi, F f) {assert(lo < hi);i64 res = lo;auto ymin = f(lo);FOR(x, lo+1, hi) {if(chmin(ymin, f(x)))res = x;}return res;}template<typename Pred>i64 arg_find_r(i64 lo, i64 hi, Pred pred) {i64 x = arg_find(-hi+1, lo+1, [pred](i64 xx) { return pred(-xx); });return x == INF ? INF : -x;}template<typename F>i64 arg_max_r(i64 lo, i64 hi, F f) {return -arg_max(-hi+1, lo+1, [f](i64 x) { return f(-x); });}template<typename F>i64 arg_min_r(i64 lo, i64 hi, F f) {return -arg_min(-hi+1, lo+1, [f](i64 x) { return f(-x); });}template<typename ForwardIt, typename T, typename Comp=less<>>ForwardIt bsearch_find(ForwardIt first, ForwardIt last, const T& x, Comp comp={}) {auto it = lower_bound(first, last, x, comp);if(it == last || comp(x,*it)) return last;return it;}// x 未満の最後の要素template<typename BidiIt, typename T, typename Comp=less<>>BidiIt bsearch_lt(BidiIt first, BidiIt last, const T& x, Comp comp={}) {auto it = lower_bound(first, last, x, comp);if(it == first) return last;return prev(it);}// x 以下の最後の要素template<typename BidiIt, typename T, typename Comp=less<>>BidiIt bsearch_le(BidiIt first, BidiIt last, const T& x, Comp comp={}) {auto it = upper_bound(first, last, x, comp);if(it == first) return last;return prev(it);}// x より大きい最初の要素template<typename BidiIt, typename T, typename Comp=less<>>BidiIt bsearch_gt(BidiIt first, BidiIt last, const T& x, Comp comp={}) {return upper_bound(first, last, x, comp);}// x 以上の最初の要素template<typename BidiIt, typename T, typename Comp=less<>>BidiIt bsearch_ge(BidiIt first, BidiIt last, const T& x, Comp comp={}) {return lower_bound(first, last, x, comp);}template<typename InputIt, typename BinaryOp>auto FOLD(InputIt first, InputIt last,typename iterator_traits<InputIt>::value_type init,BinaryOp op){for(; first != last; ++first)init = op(move(init), *first);return init;}template<typename InputIt, typename BinaryOp>auto FOLD1(InputIt first, InputIt last, BinaryOp op) {auto init = *first++;return FOLD(first, last, init, op);}template<typename InputIt>auto SUM(InputIt first, InputIt last) {using T = typename iterator_traits<InputIt>::value_type;return accumulate(first, last, T());}template<typename ForwardIt, typename UnaryOperation>ForwardIt transform_self(ForwardIt first, ForwardIt last, UnaryOperation op) {return transform(first, last, first, op);}template<typename C>void UNIQ(C& c) {c.erase(ALL(unique,c), end(c));}template<typename BinaryFunc>auto FLIP(BinaryFunc f) {return [f](const auto& x, const auto& y) {return f(y,x);};}template<typename BinaryFunc, typename UnaryFunc>auto ON(BinaryFunc bf, UnaryFunc uf) {return [bf,uf](const auto& x, const auto& y) {return bf(uf(x), uf(y));};}template<typename F>auto LT_ON(F f) { return ON(less<>(), f); }template<typename F>auto GT_ON(F f) { return ON(greater<>(), f); }template<typename F>auto EQ_ON(F f) { return ON(equal_to<>(), f); }template<typename F>auto NE_ON(F f) { return ON(not_equal_to<>(), f); }template<typename Comp=less<>>auto EQUIV(Comp comp={}) {return [comp](const auto& lhs, const auto& rhs) {return !comp(lhs,rhs) && !comp(rhs,lhs);};}struct IDENTITY {using is_transparent = void;template<typename T>constexpr T&& operator()(T&& x) const noexcept {return forward<T>(x);}};template<typename T=void>struct OpMax {using result_type = T;using first_argument_type = T;using second_argument_type = T;T operator()(const T& x, const T& y) const {return MAX(x, y);}};template<>struct OpMax<void> {using is_transparent = void;template<typename T1, typename T2>auto operator()(T1&& x, T2&& y) const {return MAX(forward<T1>(x), forward<T2>(y));}};template<typename T=void>struct OpMin {using result_type = T;using first_argument_type = T;using second_argument_type = T;T operator()(const T& x, const T& y) const {return MIN(x, y);}};template<>struct OpMin<void> {using is_transparent = void;template<typename T1, typename T2>auto operator()(T1&& x, T2&& y) const {return MIN(forward<T1>(x), forward<T2>(y));}};template<typename T=void>struct OpGcd {using result_type = T;using first_argument_type = T;using second_argument_type = T;T operator()(const T& x, const T& y) const {return GCD(x, y);}};template<>struct OpGcd<void> {using is_transparent = void;template<typename T1, typename T2>auto operator()(T1&& x, T2&& y) const {return GCD(forward<T1>(x), forward<T2>(y));}};template<typename T=void>struct OpLcm {using result_type = T;using first_argument_type = T;using second_argument_type = T;T operator()(const T& x, const T& y) const {return LCM(x, y);}};template<>struct OpLcm<void> {using is_transparent = void;template<typename T1, typename T2>auto operator()(T1&& x, T2&& y) const {return LCM(forward<T1>(x), forward<T2>(y));}};template<typename ForwardIt>ForwardIt next_bounded(ForwardIt last, ForwardIt it, i64 n=1) {auto bound = distance(it, last);return next(it, MIN(n, bound));}template<typename ForwardIt>ForwardIt prev_bounded(ForwardIt first, ForwardIt it, i64 n=1) {auto bound = distance(first, it);return prev(it, MIN(n, bound));}template<typename ForwardIt>void advance_bounded(ForwardIt first, ForwardIt last, ForwardIt& it, i64 n) {if(n > 0) {auto bound = distance(it, last);advance(it, MIN(n, bound));}else if(n < 0) {auto bound = distance(it, first);advance(it, MAX(n, bound));}}char digit_chr(i64 n) {return static_cast<char>('0' + n);}i64 digit_ord(char c) {return c - '0';}char lower_chr(i64 n) {return static_cast<char>('a' + n);}i64 lower_ord(char c) {return c - 'a';}char upper_chr(i64 n) {return static_cast<char>('A' + n);}i64 upper_ord(char c) {return c - 'A';}// 出力は operator<< を直接使わず、このテンプレート経由で行う// 提出用出力とデバッグ用出力を分けるためtemplate<typename T, typename Enable=void>struct Formatter {static ostream& write_str(ostream& out, const T& x) { return out << x; }static ostream& write_repr(ostream& out, const T& x) { return out << x; }};template<typename T>ostream& WRITE_STR(ostream& out, const T& x) {return Formatter<T>::write_str(out, x);}template<typename T>ostream& WRITE_REPR(ostream& out, const T& x) {return Formatter<T>::write_repr(out, x);}template<typename InputIt>ostream& WRITE_JOIN_STR(ostream& out, InputIt first, InputIt last, const string& sep) {while(first != last) {WRITE_STR(out, *first++);if(first != last)out << sep;}return out;}template<typename InputIt>ostream& WRITE_JOIN_REPR(ostream& out, InputIt first, InputIt last, const string& sep) {while(first != last) {WRITE_REPR(out, *first++);if(first != last)out << sep;}return out;}template<typename InputIt>ostream& WRITE_RANGE_STR(ostream& out, InputIt first, InputIt last) {return WRITE_JOIN_STR(out, first, last, " ");}template<typename InputIt>ostream& WRITE_RANGE_REPR(ostream& out, InputIt first, InputIt last) {out << "[";WRITE_JOIN_REPR(out, first, last, ", ");out << "]";return out;}template<typename T>void FROM_STR(const string& s, T& x) {istringstream in(s);in >> x;}template<typename T>string TO_STR(const T& x) {ostringstream out;WRITE_STR(out, x);return out.str();}template<typename T>string TO_REPR(const T& x) {ostringstream out;WRITE_REPR(out, x);return out.str();}template<typename InputIt>string RANGE_TO_STR(InputIt first, InputIt last) {ostringstream out;WRITE_RANGE_STR(out, first, last);return out.str();}template<typename InputIt>string RANGE_TO_REPR(InputIt first, InputIt last) {ostringstream out;WRITE_RANGE_REPR(out, first, last);return out.str();}template<typename InputIt>string JOIN(InputIt first, InputIt last, const string& sep) {ostringstream out;WRITE_JOIN_STR(out, first, last, sep);return out.str();}template<>struct Formatter<i64> {static ostream& write_str(ostream& out, i64 x) {return out << x;}static ostream& write_repr(ostream& out, i64 x) {if(x == INF) return out << "INF";if(x == -INF) return out << "-INF";return out << x;}};template<>struct Formatter<f64> {static ostream& write_str(ostream& out, f64 x) {return out << x;}static ostream& write_repr(ostream& out, f64 x) {#pragma GCC diagnostic push#pragma GCC diagnostic ignored "-Wfloat-equal"if(x == FINF) return out << "FINF";if(x == -FINF) return out << "-FINF";#pragma GCC diagnostic popreturn out << x;}};template<typename Enum>struct Formatter<Enum, enable_if_t<is_enum<Enum>::value>> {static ostream& write_str(ostream& out, Enum x) {return WRITE_STR(out, static_cast<underlying_type_t<Enum>>(x));}static ostream& write_repr(ostream& out, Enum x) {return WRITE_REPR(out, static_cast<underlying_type_t<Enum>>(x));}};template<typename T>struct Formatter<vector<T>> {static ostream& write_str(ostream& out, const vector<T>& v) {return WRITE_RANGE_STR(out, begin(v), end(v));}static ostream& write_repr(ostream& out, const vector<T>& v) {out << "vector";return WRITE_RANGE_REPR(out, begin(v), end(v));}};template<>struct Formatter<BoolArray> {static ostream& write_str(ostream& out, const BoolArray& a) {return WRITE_RANGE_STR(out, begin(a), end(a));}static ostream& write_repr(ostream& out, const BoolArray& a) {out << "BoolArray";return WRITE_RANGE_REPR(out, begin(a), end(a));}};template<typename T1, typename T2>struct Formatter<pair<T1,T2>> {static ostream& write_str(ostream& out, const pair<T1,T2>& p) {WRITE_STR(out, p.first);out << ' ';WRITE_STR(out, p.second);return out;}static ostream& write_repr(ostream& out, const pair<T1,T2>& p) {out << "(";WRITE_REPR(out, p.first);out << ",";WRITE_REPR(out, p.second);out << ")";return out;}};template<typename... TS>struct Formatter<tuple<TS...>> {template<size_t I=0, enable_if_t<I == sizeof...(TS), nullptr_t> = nullptr>static ostream& write_str_impl(ostream& out, const tuple<TS...>&) {return out;}template<size_t I=0, enable_if_t<I < sizeof...(TS), nullptr_t> = nullptr>static ostream& write_str_impl(ostream& out, const tuple<TS...>& t) {if(I != 0) out << ' ';WRITE_STR(out, get<I>(t));return write_str_impl<I+1>(out, t);}template<size_t I=0, enable_if_t<I == sizeof...(TS), nullptr_t> = nullptr>static ostream& write_repr_impl(ostream& out, const tuple<TS...>&) {if(sizeof...(TS) == 0) out << "(";return out << ")";}template<size_t I=0, enable_if_t<I < sizeof...(TS), nullptr_t> = nullptr>static ostream& write_repr_impl(ostream& out, const tuple<TS...>& t) {if(I == 0)out << "(";elseout << ",";WRITE_REPR(out, get<I>(t));return write_repr_impl<I+1>(out, t);}static ostream& write_str(ostream& out, const tuple<TS...>& t) {return write_str_impl(out, t);}static ostream& write_repr(ostream& out, const tuple<TS...>& t) {return write_repr_impl(out, t);}};template<typename T>void RD(T& x) {cin >> x;#ifdef PROCON_LOCALassert(cin);#endif}template<typename T>void RD1(T& x) {RD(x);--x;}template<typename T>auto RD_ARRAY(i64 n) {auto res = arrayn_make<T>(n, T());arrayn_foreach(res, [](T& e) { RD(e); });return res;}template<typename T>auto RD1_ARRAY(i64 n) {auto res = arrayn_make<T>(n, T());arrayn_foreach(res, [](T& e) { RD1(e); });return res;}template<typename T>auto RD_ARRAY2(i64 h, i64 w) {auto res = arrayn_make<T>(h,w, T());arrayn_foreach(res, [](T& e) { RD(e); });return res;}template<typename T>auto RD1_ARRAY2(i64 h, i64 w) {auto res = arrayn_make<T>(h,w, T());arrayn_foreach(res, [](T& e) { RD1(e); });return res;}template<typename T1, typename T2>pair<T1,T2> RD_PAIR() {T1 x; RD(x);T2 y; RD(y);return { x, y };}template<typename T1, typename T2>pair<T1,T2> RD1_PAIR() {T1 x; RD1(x);T2 y; RD1(y);return { x, y };}template<typename... TS,enable_if_t<0 == sizeof...(TS), nullptr_t> = nullptr>auto RD_TUPLE() {return make_tuple();}template<typename T, typename... TS>auto RD_TUPLE() {T x; RD(x);return tuple_cat(make_tuple(x), RD_TUPLE<TS...>());}template<typename... TS,enable_if_t<0 == sizeof...(TS), nullptr_t> = nullptr>auto RD1_TUPLE() {return make_tuple();}template<typename T, typename... TS>auto RD1_TUPLE() {T x; RD1(x);return tuple_cat(make_tuple(x), RD_TUPLE<TS...>());}void PRINT() {}template<typename T, typename... TS>void PRINT(const T& x, const TS& ...args) {WRITE_STR(cout, x);if(sizeof...(args)) {cout << ' ';PRINT(args...);}}template<typename... TS>void PRINTLN(const TS& ...args) {PRINT(args...);cout << '\n';}[[noreturn]] void EXIT() {cout.flush();#ifdef PROCON_LOCALcerr.flush();exit(0);#else_Exit(0);#endif}template<typename... TS, enable_if_t<1 == sizeof...(TS), nullptr_t> = nullptr>void DBG_IMPL(i64 line, const char* expr, const tuple<TS...>& value) {#ifdef PROCON_LOCALcerr << "[L " << line << "]: ";cerr << expr << " = ";WRITE_REPR(cerr, get<0>(value));cerr << "\n";#endif}template<typename... TS, enable_if_t<2 <= sizeof...(TS), nullptr_t> = nullptr>void DBG_IMPL(i64 line, const char* expr, const tuple<TS...>& value) {#ifdef PROCON_LOCALcerr << "[L " << line << "]: ";cerr << "(" << expr << ") = ";WRITE_REPR(cerr, value);cerr << "\n";#endif}template<typename T, size_t N>void DBG_CARRAY_IMPL(i64 line, const char* expr, const T (&ary)[N]) {#ifdef PROCON_LOCALcerr << "[L " << line << "]: ";cerr << expr << " = ";WRITE_RANGE_REPR(cerr, begin(ary), end(ary));cerr << "\n";#endif}template<typename InputIt>void DBG_RANGE_IMPL(i64 line, const char* expr1, const char* expr2, InputIt first, InputIt last) {#ifdef PROCON_LOCALcerr << "[L " << line << "]: ";cerr << expr1 << "," << expr2 << " = ";WRITE_RANGE_REPR(cerr, first, last);cerr << "\n";#endif}#define DBG(args...) DBG_IMPL(__LINE__, CPP_STR_I(args), make_tuple(args))#define DBG_CARRAY(expr) DBG_CARRAY_IMPL(__LINE__, CPP_STR(expr), (expr))#define DBG_RANGE(first,last) DBG_RANGE_IMPL(__LINE__, CPP_STR(first), CPP_STR(last), (first), (last))#define PAIR make_pair#define TUPLE make_tuple// }}}// init {{{struct ProconInit {static constexpr int IOS_PREC = 15;static constexpr bool AUTOFLUSH = false;ProconInit() {cin.tie(nullptr);ios::sync_with_stdio(false);cout << fixed << setprecision(IOS_PREC);#ifdef PROCON_LOCALcerr << fixed << setprecision(IOS_PREC);#endifif(AUTOFLUSH)cout << unitbuf;}} PROCON_INIT;// }}}//--------------------------------------------------------------------void solve() {i64 N; RD(N);i64 K; RD(K);auto A = RD_ARRAY<i64>(N);i64 amax = *ALL(max_element, A);vector<i64> grundy(amax+1);REP(a, amax+1) {grundy[a] = modulo(a, K+1);}DBG(grundy);i64 sum = 0;REP(i, N) {sum ^= grundy[A[i]];}bool ans = sum != 0;PRINTLN(ans ? "YES" : "NO");// * 小さいケースで試した?// * 不可能なケースはチェックした?// * MOD はとった?// * メモ化忘れてない?// * 入出力の 0-based/1-based 確認した?// * 時間/メモリ制限は確認した?// * 違うやつ提出してない?// * 違うやつテストしてない?}signed main() {solve();EXIT();}