結果

問題 No.879 Range Mod 2 Query
ユーザー lumc_lumc_
提出日時 2019-09-07 01:01:24
言語 C++14
(gcc 12.3.0 + boost 1.83.0)
結果
WA  
実行時間 -
コード長 11,737 bytes
コンパイル時間 1,364 ms
コンパイル使用メモリ 124,912 KB
実行使用メモリ 12,532 KB
最終ジャッジ日時 2024-06-24 23:48:24
合計ジャッジ時間 4,414 ms
ジャッジサーバーID
(参考情報)
judge4 / judge3
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テストケース

テストケース表示
入力 結果 実行時間
実行使用メモリ
testcase_00 AC 2 ms
6,820 KB
testcase_01 WA -
testcase_02 WA -
testcase_03 WA -
testcase_04 WA -
testcase_05 WA -
testcase_06 WA -
testcase_07 WA -
testcase_08 WA -
testcase_09 WA -
testcase_10 WA -
testcase_11 WA -
testcase_12 WA -
testcase_13 WA -
testcase_14 WA -
testcase_15 WA -
testcase_16 WA -
testcase_17 WA -
testcase_18 WA -
testcase_19 WA -
testcase_20 WA -
testcase_21 WA -
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ソースコード

diff #

// includes {{{
#include<iostream>
#include<iomanip>
#include<algorithm>
#include<vector>
#include<stack>
#include<queue>
#include<map>
#include<set>
#include<tuple>
#include<cmath>
#include<random>
#include<cassert>
#include<bitset>
#include<cstdlib>
// #include<deque>
// #include<multiset>
// #include<cstring>
// #include<bits/stdc++.h>
// }}}
using namespace std;
using ll = long long;

// LazySegmentTree( size [, initial] )
// LazySegmentTree( <data> )
/// --- LazySegmentTree {{{ ///
#include <cassert>
#include <initializer_list>
#include <iostream>
#include <vector>
template < class M_act >
struct LazySegmentTree {
public:
  using Monoid = typename M_act::Monoid;
  using X = typename Monoid::T;
  using M = typename M_act::M;

private:
  size_t n;
  int h;
  vector< X > data;
  vector< M > lazy;
  vector< size_t > nodeLength;
  // call before use data[i]
  void eval(size_t i) {
    if(lazy[i] == M_act::identity()) return;
    data[i] = M_act::actInto(lazy[i], nodeLength[i], data[i]);
    if(i < n) {
      lazy[i * 2] = M_act::op(lazy[i], lazy[i * 2]);
      lazy[i * 2 + 1] = M_act::op(lazy[i], lazy[i * 2 + 1]);
    }
    lazy[i] = M_act::identity();
  }
  // call before use seg[i] = data[i + n]
  void evalDown(size_t i) {
    i += n;
    for(int j = h - 1; j >= 0; j--) eval(i >> j);
  }
  // call after touch seg[i] = data[i + n]
  void propUp(size_t i) {
    i += n;
    while(i >>= 1)
      eval(i * 2), eval(i * 2 + 1), data[i] = Monoid::op(data[i * 2], data[i * 2 + 1]);
  }

public:
  LazySegmentTree() : n(0) {}
  LazySegmentTree(size_t n, X initial = Monoid::identity()) : n(n) {
    if(n > 0) {
      h = 1;
      while(1u << h < n) h++;
      data.resize(2 * n, initial);
      lazy.resize(2 * n, M_act::identity());
      nodeLength.resize(2 * n, 1);
      for(size_t i = n - 1; i > 0; i--) // fill from deep
        data[i] = Monoid::op(data[i * 2], data[i * 2 + 1]),
          nodeLength[i] = nodeLength[i * 2] + nodeLength[i * 2 + 1];
    }
  }
  template < class InputIter, class = typename iterator_traits< InputIter >::value_type >
    LazySegmentTree(InputIter first, InputIter last)
    : LazySegmentTree(distance(first, last)) {
      if(n > 0) {
        copy(first, last, begin(data) + n);
        for(size_t i = n - 1; i > 0; i--) // fill from deep
          data[i] = Monoid::op(data[i * 2], data[i * 2 + 1]);
      }
    }
  LazySegmentTree(vector< X > v) : LazySegmentTree(v.begin(), v.end()) {}
  LazySegmentTree(initializer_list< X > v) : LazySegmentTree(v.begin(), v.end()) {}
  void act(int l, int r, const M &m) {
    if(l < 0) l = 0;
    if(l >= r) return;
    if(r > (int) n) r = n;
    evalDown(l);
    evalDown(r - 1);
    int tl = l, tr = r;
    for(l += n, r += n; l < r; l >>= 1, r >>= 1) {
      if(l & 1) eval(l), lazy[l] = m, eval(l), l++;
      if(r & 1) --r, eval(r), lazy[r] = m, eval(r);
    }
    propUp(tl);
    propUp(tr - 1);
  }
  void set(size_t i, const X &x) {
    assert(i < n);
    evalDown(i);
    data[i + n] = x;
    propUp(i);
  }
  X get(size_t i) {
    assert(i < n);
    evalDown(i);
    return data[i + n];
  }
  X fold(int l, int r) {
    if(l < 0) l = 0;
    if(l >= r) return Monoid::identity();
    if(r > (int) n) r = n;
    evalDown(l);
    evalDown(r - 1);
    X tmpL = Monoid::identity(), tmpR = Monoid::identity();
    for(l += n, r += n; l < r; l >>= 1, r >>= 1) {
      if(l & 1) eval(l), tmpL = Monoid::op(tmpL, data[l]), l++;
      if(r & 1) --r, eval(r), tmpR = Monoid::op(data[r], tmpR);
    }
    return Monoid::op(tmpL, tmpR);
  }
  int size() { return n; }
  inline void dum(int r = -1) {
#ifdef DEBUG
    if(r < 0) r = n;
    DEBUG_OUT << "{";
    for(int i = 0; i < min(r, (int) n); i++) DEBUG_OUT << (i ? ", " : "") << get(i);
    DEBUG_OUT << "}" << endl;
#endif
  }
};

/// }}}--- ///

/// --- Monoid examples {{{ ///
constexpr long long inf_monoid = 1e18 + 100;
#include <algorithm>
struct Nothing {
  using T = char;
  using Monoid = Nothing;
  using M = T;
  static constexpr T op(const T &, const T &) { return T(); }
  static constexpr T identity() { return T(); }
  template < class X >
    static constexpr X actInto(const M &, long long, const X &x) {
      return x;
    }
};

template < class U = long long >
struct RangeMin {
  using T = U;
  static T op(const T &a, const T &b) { return std::min< T >(a, b); }
  static constexpr T identity() { return T(inf_monoid); }
};

template < class U = long long >
struct RangeMax {
  using T = U;
  static T op(const T &a, const T &b) { return std::max< T >(a, b); }
  static constexpr T identity() { return T(-inf_monoid); }
};

template < class U = long long >
struct RangeSum {
  using T = U;
  static T op(const T &a, const T &b) { return a + b; }
  static constexpr T identity() { return T(0); }
};

template < class U >
struct RangeProd {
  using T = U;
  static T op(const T &a, const T &b) { return a * b; }
  static constexpr T identity() { return T(1); }
};

template < class U = long long >
struct RangeOr {
  using T = U;
  static T op(const T &a, const T &b) { return a | b; }
  static constexpr T identity() { return T(0); }
};

#include <bitset>

template < class U = long long >
struct RangeAnd {
  using T = U;
  static T op(const T &a, const T &b) { return a & b; }
  static constexpr T identity() { return T(-1); }
};

template < size_t N >
struct RangeAnd< std::bitset< N > > {
  using T = std::bitset< N >;
  static T op(const T &a, const T &b) { return a & b; }
  static constexpr T identity() { return std::bitset< N >().set(); }
};

/// }}}--- ///

/// --- M_act examples {{{ ///
template < class U = long long, class V = U >
struct RangeMinAdd {
  using X = U;
  using M = V;
  using Monoid = RangeMin< U >;
  static M op(const M &a, const M &b) { return a + b; }
  static constexpr M identity() { return 0; }
  static X actInto(const M &m, long long, const X &x) { return m + x; }
};

template < class U = long long, class V = U >
struct RangeMaxAdd {
  using X = U;
  using M = V;
  using Monoid = RangeMax< U >;
  static M op(const M &a, const M &b) { return a + b; }
  static constexpr M identity() { return 0; }
  static X actInto(const M &m, long long, const X &x) { return m + x; }
};

template < class U = long long, class V = U >
struct RangeMinSet {
  using M = U;
  using Monoid = RangeMin< U >;
  using X = typename Monoid::T;
  static M op(const M &a, const M &b) { return a == identity() ? b : a; }
  static constexpr M identity() { return M(-inf_monoid); }
  static X actInto(const M &m, long long, const X &x) { return m == identity() ? x : m; }
};

template < class U = long long, class V = U >
struct RangeMaxSet {
  using M = U;
  using Monoid = RangeMax< U >;
  using X = typename Monoid::T;
  static M op(const M &a, const M &b) { return a == identity() ? b : a; }
  static constexpr M identity() { return M(-inf_monoid); }
  static X actInto(const M &m, long long, const X &x) { return m == identity() ? x : m; }
};

template < class U = long long, class V = U >
struct RangeSumAdd {
  using X = U;
  using M = V;
  using Monoid = RangeSum< U >;
  static M op(const M &a, const M &b) { return a + b; }
  static constexpr M identity() { return 0; }
  static X actInto(const M &m, long long n, const X &x) { return m * n + x; }
};

template < class U = long long, class V = U >
struct RangeSumSet {
  using X = U;
  using M = V;
  using Monoid = RangeSum< U >;
  static M op(const M &a, const M &b) { return a == identity() ? a : b; }
  static constexpr M identity() { return M(-inf_monoid); }
  static X actInto(const M &m, long long n, const X &x) {
    return m == identity() ? x : m * n;
  }
};

template < class U, class V = U >
struct RangeProdMul {
  using X = U;
  using M = V;
  using Monoid = RangeProd< U >;
  static M mpow(M a, long long b) {
    X r(1);
    while(b) {
      if(b & 1) r = r * a;
      a = a * a;
      b >>= 1;
    }
    return r;
  }
  static M op(const M &a, const M &b) { return a * b; }
  static constexpr M identity() { return M(1); }
  static X actInto(const M &m, long long n, const X &x) { return x * mpow(m, n); }
};

template < class U, class V = U >
struct RangeProdSet {
  using X = U;
  using M = V;
  using Monoid = RangeProd< U >;
  static M op(const M &a, const M &b) { return a == identity() ? b : a; }
  static constexpr M identity() { return V::unused; }
  static X actInto(const M &m, long long n, const X &) {
    if(m == identity()) return;
    return RangeProdMul< U, V >::mpow(m, n);
  }
};

template < class U = long long, class V = U >
struct RangeOrSet {
  using X = U;
  using M = V;
  using Monoid = RangeOr< U >;
  static M op(const M &a, const M &b) { return a == identity() ? b : a; }
  static constexpr M identity() { return M(-inf_monoid); }
  static X actInto(const M &m, long long, const X &x) { return m == identity() ? x : m; }
};

template < class U = long long, class V = U >
struct RangeAndSet {
  using X = U;
  using M = V;
  using Monoid = RangeAnd< U >;
  static M op(const M &a, const M &b) { return a == identity() ? b : a; }
  static constexpr M identity() { return M(-inf_monoid); }
  static X actInto(const M &m, long long, const X &x) { return m == identity() ? x : m; }
};

template < class U = long long, class V = U >
struct RangeOr2 {
  using X = U;
  using M = V;
  using Monoid = RangeOr< U >;
  static M op(const M &a, const M &b) { return a | b; }
  static constexpr M identity() { return M(0); }
  static X actInto(const M &m, long long, const X &x) { return m | x; }
};

template < class U = long long, class V = U >
struct RangeAnd2 {
  using X = U;
  using M = V;
  using Monoid = RangeAnd< U >;
  static M op(const M &a, const M &b) { return a & b; }
  static constexpr M identity() { return M(-1); }
  static X actInto(const M &m, long long, const X &x) { return m & x; }
};

template < class U, size_t N >
struct RangeAnd2< U, std::bitset< N > > {
  using X = U;
  using M = std::bitset< N >;
  using Monoid = RangeAnd< U >;
  static M op(const M &a, const M &b) { return a & b; }
  static constexpr M identity() { return std::bitset< N >().set(); }
  static X actInto(const M &m, long long, const X &x) { return m & x; }
};
/// }}}--- ///



// my monoid, m-act {{{
struct MyMonoid {
  using T = tuple<ll, ll, ll>; // 和, 奇数の数, 区間長
  static T op(const T &a, const T &b) {
    ll sumA, oddA, lenA;
    ll sumB, oddB, lenB;
    tie(sumA, oddA, lenA) = a;
    tie(sumB, oddB, lenB) = b;
    return T(sumA + sumB, oddA + oddB, lenA + lenB);

  }
  static constexpr T identity() { return T(0, 0, 0); }
};
struct MyMAct {
  using Monoid = MyMonoid;
  using X = Monoid::T;
  using M = pair<ll, int>;
  static M op(M a, M b) {
    if(a.second) {
      if(b.first % 2 == 1) a.second = 3 - a.second;
      if(b.second and b.second == 2) a.second = 3 - a.second;
      return a;
    }
    b.first += a.first;
    return b;
  }
  static constexpr M identity() { return M(0, 0); }
  static X actInto(const M &m, long long, X x) {
    if(m.second) {
      get<0>(x) = get<1>(x);
      if(m.second == 2) get<0>(x) = get<1>(x) = get<2>(x) - get<0>(x);
    }
    get<0>(x) += m.first;
    if(m.first % 2 == 1) get<1>(x) = get<2>(x) - get<1>(x);
    return x;
  }
};
// }}}

using Seg = LazySegmentTree< MyMAct >;


int n, q;

int main() {
  std::ios::sync_with_stdio(false), std::cin.tie(0);
  cin >> n >> q;
  Seg seg(n);
  for(int i = 0; i < n; i++) {
    int a;
    cin >> a;
    seg.set(i, make_tuple(a, a % 2, 1));
  }
  for(int i = 0; i < q; i++) {
    int t, l, r;
    cin >> t >> l >> r;
    l--;
    if(t == 1) {
      seg.act(l, r, make_pair(0, 1));
    } else if( t == 2 ){ 
      int x;
      cin >> x;
      seg.act(l, r, make_pair(x, 0));
    } else {
      cout << get<0>(seg.fold(l, r)) << "\n";
    }
  }
  return 0;
}
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