#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define rep(i,n) for(int (i)=0;(i)<(int)(n);++(i)) #define rer(i,l,u) for(int (i)=(int)(l);(i)<=(int)(u);++(i)) #define reu(i,l,u) for(int (i)=(int)(l);(i)<(int)(u);++(i)) #if defined(_MSC_VER) || __cplusplus > 199711L #define aut(r,v) auto r = (v) #else #define aut(r,v) __typeof(v) r = (v) #endif #define each(it,o) for(aut(it, (o).begin()); it != (o).end(); ++ it) #define all(o) (o).begin(), (o).end() #define pb(x) push_back(x) #define mp(x,y) make_pair((x),(y)) #define mset(m,v) memset(m,v,sizeof(m)) #define INF 0x3f3f3f3f #define INFL 0x3f3f3f3f3f3f3f3fLL using namespace std; typedef vector vi; typedef pair pii; typedef vector > vpii; typedef long long ll; template inline void amin(T &x, U y) { if(y < x) x = y; } template inline void amax(T &x, U y) { if(x < y) x = y; } inline long long mulmodll(long long a, long long b, long long m) { long long quot = (long long)((long double)a * b / m + 0.5); long long res = a * b - m * quot; res = a * b - m * quot; if(res < 0) res += m; return res; } struct ModInt { static const ll Mod; long long x; ModInt(): x(0) { } ModInt(signed sig) { ll sigt = sig % Mod; if(sigt < 0) sigt += Mod; x = sigt; } ModInt(signed long long sig) { ll sigt = sig % Mod; if(sigt < 0) sigt += Mod; x = sigt; } ll get() const { return x; } ModInt &operator+=(ModInt that) { if((x += that.x) >= Mod) x -= Mod; return *this; } ModInt &operator-=(ModInt that) { if((x += Mod - that.x) >= Mod) x -= Mod; return *this; } ModInt &operator*=(ModInt that) { x = mulmodll(x, that.x, Mod); return *this; } ModInt operator+(ModInt that) const { return ModInt(*this) += that; } ModInt operator-(ModInt that) const { return ModInt(*this) -= that; } ModInt operator*(ModInt that) const { return ModInt(*this) *= that; } }; const ll ModInt::Mod = (ll)1e18+9; typedef ModInt mint; const int K = 5; struct Val { int team, val; ll size; Val(): team(0), val(0), size(0) { } Val(int t, int v, ll s): team(t), val(v), size(s) { } }; struct Sum { ll sums[K]; ll size; Sum() { rep(k, K) sums[k] = 0; size = 0; } Sum(const Val &val, int pos) { rep(k, K) sums[k] = 0; sums[val.team] = (ll)val.val * val.size; size = val.size; } Sum &operator+=(const Sum &that) { rep(k, K) sums[k] += that.sums[k]; size += that.size; return *this; } Sum operator+(const Sum &that) const { return Sum(*this) += that; } }; struct Add { bool a; Val x; Add(): a(false), x() { } explicit Add(Val c): a(true), x(c) { } Add &operator+=(const Add &that) { if(that.a) *this = that; return *this; } void addToVal(Val &val, int pos) const { if(a) { if(val.team == x.team) { val.val += x.val; }else { val.team = x.team; val.val = x.val; } } } void addToSum(Sum &sum, int left, int right) const { if(a) { rep(k, K) if(k != x.team) sum.sums[k] = 0; sum.sums[x.team] += (ll)sum.size * x.val; } } }; struct SegmentTree { vector leafs; vector nodes; vector add; vector leftpos, rightpos; int n, n2; void init(int n_, const Val &v = Val()) { init(vector(n_, v)); } void init(const vector &u) { n = 1; while(n < (int)u.size()) n *= 2; n2 = (n - 1) / 2 + 1; leafs = u; leafs.resize(n, Val()); nodes.resize(n); for(int i = n-1; i >= n2; -- i) nodes[i] = Sum(leafs[i*2-n], i*2-n) + Sum(leafs[i*2+1-n], i*2+1-n); for(int i = n2-1; i > 0; -- i) nodes[i] = nodes[i*2] + nodes[i*2+1]; add.assign(n, Add()); leftpos.resize(n); rightpos.resize(n); for(int i = n-1; i >= n2; -- i) { leftpos[i] = i*2-n; rightpos[i] = (i*2+1-n) + 1; } for(int i = n2-1; i > 0; -- i) { leftpos[i] = leftpos[i*2]; rightpos[i] = rightpos[i*2+1]; } } Val get(int i) { int indices[128]; int k = getIndices(indices, i, i+1); propagateRange(indices, k); return leafs[i]; } Sum getRangeCommutative(int i, int j) { int indices[128]; int k = getIndices(indices, i, j); propagateRange(indices, k); Sum res = Sum(); for(int l = i + n, r = j + n; l < r; l >>= 1, r >>= 1) { if(l & 1) res += sum(l ++); if(r & 1) res += sum(-- r); } return res; } Sum getRange(int i, int j) { int indices[128]; int k = getIndices(indices, i, j); propagateRange(indices, k); Sum res = Sum(); for(; i && i + (i&-i) <= j; i += i&-i) res += sum((n+i) / (i&-i)); for(k = 0; i < j; j -= j&-j) indices[k ++] = (n+j) / (j&-j) - 1; while(-- k >= 0) res += sum(indices[k]); return res; } void set(int i, const Val &x) { int indices[128]; int k = getIndices(indices, i, i+1); propagateRange(indices, k); leafs[i] = x; mergeRange(indices, k); } void addToRange(int i, int j, const Add &x) { if(i >= j) return; int indices[128]; int k = getIndices(indices, i, j); propagateRange(indices, k); int l = i + n, r = j + n; if(l & 1) { int p = (l ++) - n; x.addToVal(leafs[p], p); } if(r & 1) { int p = (-- r) - n; x.addToVal(leafs[p], p); } for(l >>= 1, r >>= 1; l < r; l >>= 1, r >>= 1) { if(l & 1) add[l ++] += x; if(r & 1) add[-- r] += x; } mergeRange(indices, k); } private: int getIndices(int indices[], int i, int j) const { int k = 0, l, r; if(i >= j) return 0; for(l = (n + i) >> 1, r = (n + j - 1) >> 1; l != r; l >>= 1, r >>= 1) { indices[k ++] = l; indices[k ++] = r; } for(; l; l >>= 1) indices[k ++] = l; return k; } void propagateRange(int indices[], int k) { for(int i = k - 1; i >= 0; -- i) propagate(indices[i]); } void mergeRange(int indices[], int k) { for(int i = 0; i < k; ++ i) merge(indices[i]); } inline void propagate(int i) { if(i >= n) return; add[i].addToSum(nodes[i], leftpos[i], rightpos[i]); if(i * 2 < n) { add[i * 2] += add[i]; add[i * 2 + 1] += add[i]; }else { add[i].addToVal(leafs[i * 2 - n], i * 2 - n); add[i].addToVal(leafs[i * 2 + 1 - n], i * 2 + 1 - n); } add[i] = Add(); } inline void merge(int i) { if(i >= n) return; nodes[i] = sum(i * 2) + sum(i * 2 + 1); } inline Sum sum(int i) { propagate(i); return i < n ? nodes[i] : Sum(leafs[i - n], i - n); } }; int main() { ll N; int Q; while(cin >> N >> Q) { typedef pair pll; vector > queries(Q); vector values; rep(ii, Q) { int x; ll l, r; scanf("%d%lld%lld", &x, &l, &r), ++ r; queries[ii] = mp(x, mp(l, r)); values.push_back(l); values.push_back(r); } sort(all(values)); values.erase(unique(all(values)), values.end()); int X = values.size(); SegmentTree segt; vector initval(X); rep(i, X-1) initval[i] = Val(0, 0, values[i+1] - values[i]); segt.init(initval); mint pts[K] = {}; rep(ii, Q) { int x = queries[ii].first; ll L = queries[ii].second.first; ll R = queries[ii].second.second; int l = lower_bound(all(values), L) - values.begin(); int r = lower_bound(all(values), R) - values.begin();; // x=rand()%6,l=rand()%N,r=rand()%N;if(l>r)swap(l,r);++r; if(x == 0) { Sum sum = segt.getRangeCommutative(l, r); int k = max_element(sum.sums, sum.sums + K) - sum.sums; if(count(sum.sums, sum.sums + K, sum.sums[k]) == 1) pts[k] += sum.sums[k]; }else if(x <= 5) { segt.addToRange(l, r, Add(Val(x-1, 1, 0))); }else return 0; } Sum sum = segt.getRangeCommutative(0, X); rep(k, K) pts[k] += sum.sums[k]; cout << pts[0].get() << " " << pts[1].get() << " " << pts[2].get() << " " << pts[3].get() << " " << pts[4].get() << endl; break; } return 0; }