//#pragma GCC target("sse,sse2,sse3,ssse3,sse4,popcnt,abm,mmx,avx,avx2,avx512f") #pragma GCC target("sse,sse2,sse3,ssse3,sse4,popcnt,abm,mmx,avx") #pragma GCC optimize("O3") #pragma GCC optimize("unroll-loops") #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef DEBUG #include "./CompetitiveProgrammingCpp/Utils/debug.hpp" #include "./CompetitiveProgrammingCpp/Utils/Timer.hpp" #include "./CompetitiveProgrammingCpp/Utils/sample.hpp" #else #define dump(...) templateconstexpr inline auto d_val(T a, T b) { return a; } #endif /* macro */ #define FOR(i, b, e) for(ll i = (ll)(b); i < (ll)(e); ++i) #define RFOR(i, b, e) for(ll i = (ll)((e)-1); i >= (ll)(b); --i) #define REP(i, n) FOR(i, 0, (n)) #define RREP(i, n) RFOR(i, 0, (n)) #define REPC(x,c) for(const auto& x:(c)) #define REPI2(it,b,e) for(auto it = (b); it != (e); ++it) #define REPI(it,c) REPI2(it, (c).begin(), (c).end()) #define RREPI(it,c) REPI2(it, (c).rbegin(), (c).rend()) #define REPI_ERACE2(it, b, e) for(auto it = (b); it != (e);) #define REPI_ERACE(it, c) REPI_ERACE2(it, (c).begin(), (c).end()) #define ALL(x) (x).begin(),(x).end() #define cauto const auto& /* macro func */ template inline auto sort(T& t) { std::sort(ALL(t)); } template inline auto rsort(T& t) { std::sort((t).rbegin(), (t).rend()); } template inline auto unique(T& t) { (t).erase(unique((t).begin(), (t).end()), (t).end()); } template inline auto chmax(T& t, const S& s) { if(s > t) { t = s; return true; } return false; } template inline auto chmin(T& t, const S& s) { if(s < t) { t = s; return true; } return false; } inline auto BR() { std::cout << "\n"; } /* type define */ using ll = long long; using VS = std::vector; using VL = std::vector; using VVL = std::vector; using VVVL = std::vector; using VVVVL = std::vector; using VVVVVL = std::vector; using VD = std::vector; template using V = std::vector; template using P = std::pair; using PAIR = P; /* using std */ using std::cout; constexpr char endl = '\n'; using std::cin; using std::pair; using std::string; using std::stack; using std::queue; using std::deque; using std::vector; using std::list; using std::map; using std::unordered_map; using std::multimap; using std::unordered_multimap; using std::set; using std::unordered_set; using std::unordered_multiset; using std::multiset; using std::bitset; using std::priority_queue; /* Initial processing */ struct Preprocessing { Preprocessing() { std::cin.tie(0); std::ios::sync_with_stdio(0); }; }_Preprocessing; /* Remove the source of the bug */ auto pow(signed, signed) { assert(false); } /* define hash */ namespace std { template <> class hash> { public: size_t operator()(const std::pair& x) const { return hash()(1000000000 * x.first + x.second); } }; } /* input */ template std::istream& operator >> (std::istream& is, vector& vec) { for(T& x : vec) is >> x; return is; } /* constant value */ constexpr ll MOD = 1000000007; // constexpr ll MOD = 998244353; //============================================================================================= template class isMonoid { template static auto check(U x) -> decltype(x.binaryOperation(x), std::true_type{}); static std::false_type check(...); public: static bool const value = decltype(check(std::declval()))::value; }; template::value, std::nullptr_t> = nullptr > class SegmentTree { private: const int m_size; vector m_node; using S = decltype(Monoid().m_val); int calcSize(int n) const { int size = 1; while(size < n) { size <<= 1; }return size; } template auto _update_op(int itr, Monoid&& val, const Lambda& op) { int i = itr + m_size - 1; m_node[i] = op(m_node[i], std::forward(val)); while(i) { i = (i - 1) >> 1; m_node[i] = m_node[(i << 1) | 1].binaryOperation(m_node[(i + 1) << 1]); } } auto _query(int _l, int _r) const { _l = std::max(_l, 0); _r = std::min(_r, m_size - 1); auto l = _l + m_size; int r = _r + m_size; std::deque ldq, rdq; while(l <= r) { if(l & 1) { ldq.emplace_back(m_node[l - 1]); ++l; } if(!(r & 1)) { rdq.emplace_front(m_node[r - 1]); --r; } l >>= 1, r >>= 1; } auto res = Monoid(); for(auto&& m : ldq) { res = res.binaryOperation(m); } for(auto&& m : rdq) { res = res.binaryOperation(m); } return res; } auto _construct(const std::vector& vec) { for(unsigned int i = 0; i < vec.size(); ++i) { m_node[i + m_size - 1] = Monoid(vec[i]); } for(int i = m_size - 2; i >= 0; --i) { m_node[i] = m_node[(i << 1) | 1].binaryOperation(m_node[(i + 1) << 1]); } } public: SegmentTree(int n) : m_size(calcSize(n)), m_node((m_size << 1) - 1) {} SegmentTree(int n, const std::vector& vec) :SegmentTree(n) { _construct(vec); } template auto update_op(int itr, Monoid&& val, const Lambda& op) { return _update_op(itr, std::forward(val), op); } auto update(int itr, Monoid&& val) { return update_op(itr, std::forward(val), [](const Monoid&, const Monoid& m2) {return m2; }); } auto add(int itr, Monoid&& val) { return update_op(itr, std::forward(val), [](const Monoid& m1, const Monoid& m2) {return Monoid(m1.m_val + m2.m_val); }); } auto query(int l, int r)const { return _query(l, r).m_val; } auto output()const { for(int i = 0; i < m_size; ++i) { std::cout << m_node[m_size + i - 1] << " "; } std::cout << std::endl; } }; template< class S, // 要素の型 S element, // 元 class T // lambdaはC++20じゃないと渡せなかった．．． // S T(S, S) // 2項演算子 > struct Monoid { S m_val; Monoid() :m_val(element) {} Monoid(S val) :m_val(val) {} Monoid binaryOperation(const Monoid& m2)const { return T()(m_val, m2.m_val); } friend std::ostream& operator<<(std::ostream& os, const Monoid& m) { return os << m.m_val; } }; struct Query { ll l, r, x, i; Query(ll l, ll r, ll x, ll i) :l(l), r(r), x(x), i(i) {} auto operator<(const Query& q) { return x < q.x; } }; signed main() { ll n, q; cin >> n >> q; VL a(n); cin >> a; V v; v.reserve(q); REP(i, q) { ll l, r, x; cin >> l >> r >> x; --l; --r; v.emplace_back(l, r, x, i); } sort(v); struct FS { auto operator()(ll a, ll b)const { return a + b; } }; using M = Monoid; auto segtree_s = SegmentTree(n); auto segtree_i = SegmentTree(n); set st; REP(i, n) { st.emplace(a[i], i); } dump(st); VL ans(q); for(const auto& q : v) { while(!st.empty() && st.begin()->first < q.x) { auto [x, i] = *st.begin(); st.erase(st.begin()); segtree_i.add(i, 1); segtree_s.add(i, x); } auto sum = segtree_s.query(q.l, q.r); auto c = segtree_i.query(q.l, q.r); auto val = sum + (q.r - q.l + 1 - c) * q.x; //cout << q.i << ": " << q.l << " " << q.r << " " << q.x << endl; //segtree_i.output(); segtree_s.output(); ans[q.i] = val; } REPC(x, ans) { cout << x << endl; } }