#include #include #include #include #include #include using namespace std; using ll = long long; using pii = pair; using vi = vector; templateusing vv = vector>; // #define rep(i,n) for(int i=0;i<(n);++i) #define all(f,c,...) (([&](decltype((c)) cccc) { return (f)(begin(cccc), end(cccc), ## __VA_ARGS__); })(c)) #define _overload3(_1,_2,_3,name,...) name #define _rep(i,n) for(int i=0;i<(n);++i) #define repi(i,a,b) for(int i=(a);i<(b);++i) #define rep(...) _overload3(__VA_ARGS__,repi,_rep,)(__VA_ARGS__) #define rrep(i,n) for(int i=(n);i>=0;--i) const int dx[4]={1,0,-1,0}, dy[4]={0,1,0,-1}; templatebool chmax(T &a,const T &b){if(abool chmin(T &a,const T &b){if(bostream& operator<<(ostream& os,const vector& vec){os<<"{";for(int i=0;iostream& operator<<(ostream& os,const pair& rhs){os<<"("< void debug(const First& first) {cerr< void debug(const First& first, const Rest&... rest) {cerr< template struct LazySegTree { private: int size; vector v; vector lazy; vector seg_size; using F = function; using G = function; using H = function; F f; G g; H h; T default_value; Lazy default_lazy; public: LazySegTree(int n, T default_value, Lazy default_lazy, F f, G g, H h) : default_value(default_value), default_lazy(default_lazy), f(f), g(g), h(h) { size = 1; while (size < n) size *= 2; v.resize(2 * size - 1, default_value); lazy.resize(4 * size - 1, default_lazy); seg_size.resize(2 * size - 1, 1); rep(i, size - 1) { int j = size - 2 - i; seg_size[j] = seg_size[2 * j + 1] + seg_size[2 * j + 2]; } } void update(int index, T val) { update(index, index+1, default_lazy); index = index + size - 1; v[index] = val; while (index > 0) { index = (index - 1) / 2; v[index] = f(v[2 * index + 1], v[2 * index + 2]); } } void eval(int index) { v[index] = h(v[index], lazy[index], seg_size[index]); lazy[2 * index + 1] = g(lazy[index], lazy[2 * index + 1]); lazy[2 * index + 2] = g(lazy[index], lazy[2 * index + 2]); lazy[index] = default_lazy; } T query(int l, int r) { return query(l, r, 0, size, 0); } T query(int l, int r, int cur_l, int cur_r, int index) { // [l, r)に対するクエリ eval(index); if (cur_r <= l || r <= cur_l) return default_value; if (l <= cur_l && cur_r <= r) return v[index]; // 左右を見ていく int mid = (cur_l + cur_r) / 2; return f( query(l, r, cur_l, mid, 2 * index + 1), query(l, r, mid, cur_r, 2 * index + 2)); } void update(int l, int r, Lazy x) { update(l, r, x, 0, size, 0); } void update(int l, int r, Lazy x, int cur_l, int cur_r, int index) { // [l, r)に対して操作する eval(index); if (cur_r <= l || r <= cur_l) return; if (l <= cur_l && cur_r <= r) { lazy[index] = x; eval(index); return; } // 左右を見ていく int mid = (cur_l + cur_r) / 2; update(l, r, x, cur_l, mid, 2 * index + 1); update(l, r, x, mid, cur_r, 2 * index + 2); v[index] = f(v[2 * index + 1], v[2 * index + 2]); } }; int main() { int N; cin >> N; int Q; cin >> Q; // 要素の管理 LazySegTree T(N, 0, 0, [](ll a, ll b) {return a + b;}, [](ll a, ll b) {return a + b;}, [](ll a, ll b, int size) {return a + b * size;}); // Fの管理 // A[i] == A[i+1] なら T2.query(i, i+1) == 0 // T2.query(l, r) == F(l, r+1) LazySegTree T2(N, 0, 0, [](ll a, ll b) {return a + b;}, [](ll a, ll b) {return a + b;}, [](ll a, ll b, int size) {return a + b * size;}); vi A(N); rep(i, N) { cin >> A[i]; T.update(i, A[i]); } rep(i, N-1) { if (A[i] != A[i+1]) T2.update(i, 1); } rep(i, Q) { int q; cin >> q; if (q == 1) { int l, r, x; cin >> l >> r >> x; --l; // これで[l, r)の区間とみなせるようになる // A_l から A_{r-1}まで変わった T.update(l, r, x); if (l > 0) T2.update(l-1, T.query(l-1, l) == T.query(l, l+1) ? 0 : 1); T2.update(r-1, T.query(r-1, r) == T.query(r, r+1) ? 0 : 1); } else { int l, r; cin >> l >> r; --l, --r; cout << T2.query(l, r) + 1 << endl; } } }