結果
問題 | No.879 Range Mod 2 Query |
ユーザー | ningenMe |
提出日時 | 2020-09-27 14:43:50 |
言語 | C++17 (gcc 12.3.0 + boost 1.83.0) |
結果 |
WA
|
実行時間 | - |
コード長 | 8,039 bytes |
コンパイル時間 | 2,394 ms |
コンパイル使用メモリ | 214,480 KB |
実行使用メモリ | 22,072 KB |
最終ジャッジ日時 | 2024-06-30 12:02:03 |
合計ジャッジ時間 | 6,961 ms |
ジャッジサーバーID (参考情報) |
judge1 / 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
6,812 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 | AC | 260 ms
21,864 KB |
testcase_20 | AC | 257 ms
22,072 KB |
testcase_21 | AC | 280 ms
21,856 KB |
ソースコード
#include <bits/stdc++.h> using namespace std; using ll = long long; /* * @title LazySegmentTree - 非再帰抽象化遅延評価セグメント木 * @docs md/segment/LazySegmentTree.md */ template<class Operator> class LazySegmentTree { using TypeNode = typename Operator::TypeNode; using TypeLazy = typename Operator::TypeLazy; size_t num; size_t length; size_t height; vector<TypeNode> node; vector<TypeLazy> lazy; vector<pair<size_t,size_t>> range; void propagate(int k) { if(lazy[k] == Operator::unit_lazy) return; node[k] = Operator::func_merge(node[k],lazy[k],range[k].first,range[k].second); if(k < length) lazy[2*k+0] = Operator::func_lazy(lazy[2*k+0],lazy[k]); if(k < length) lazy[2*k+1] = Operator::func_lazy(lazy[2*k+1],lazy[k]); lazy[k] = Operator::unit_lazy; } public: //unitで初期化 LazySegmentTree(const size_t num) : num(num) { for (length = 1,height = 0; length <= num; length *= 2, height++); node.resize(2 * length, Operator::unit_node); lazy.resize(2 * length, Operator::unit_lazy); for (int i = 0; i < num; ++i) node[i + length] = Operator::unit_node; for (int i = length - 1; i >= 0; --i) node[i] = Operator::func_node(node[(i<<1)+0],node[(i<<1)+1]); range.resize(2 * length); for (int i = 0; i < length; ++i) range[i+length] = make_pair(i,i+1); for (int i = length - 1; i >= 0; --i) range[i] = make_pair(range[(i<<1)+0].first,range[(i<<1)+1].second); } // //同じinitで初期化 LazySegmentTree(const size_t num, const TypeNode init) : num(num) { for (length = 1,height = 0; length <= num; length *= 2, height++); node.resize(2 * length, Operator::unit_node); lazy.resize(2 * length, Operator::unit_lazy); for (int i = 0; i < num; ++i) node[i + length] = init; for (int i = length - 1; i >= 0; --i) node[i] = Operator::func_node(node[(i<<1)+0],node[(i<<1)+1]); range.resize(2 * length); for (int i = 0; i < length; ++i) range[i+length] = make_pair(i,i+1); for (int i = length - 1; i >= 0; --i) range[i] = make_pair(range[(i<<1)+0].first,range[(i<<1)+1].second); } //vectorで初期化 LazySegmentTree(const vector<TypeNode>& vec) : num(vec.size()) { for (length = 1,height = 0; length <= vec.size(); length *= 2, height++); node.resize(2 * length, Operator::unit_node); lazy.resize(2 * length, Operator::unit_lazy); for (int i = 0; i < vec.size(); ++i) node[i + length] = vec[i]; for (int i = length - 1; i >= 0; --i) node[i] = Operator::func_node(node[(i<<1)+0],node[(i<<1)+1]); range.resize(2 * length); for (int i = 0; i < length; ++i) range[i+length] = make_pair(i,i+1); for (int i = length - 1; i >= 0; --i) range[i] = make_pair(range[(i<<1)+0].first,range[(i<<1)+1].second); } //update [a,b) void update(int a, int b, TypeLazy x) { int l = a + length, r = b + length - 1; for (int i = height; 0 < i; --i) propagate(l >> i), propagate(r >> i); for(r++; l < r; l >>=1, r >>=1) { if(l&1) lazy[l] = Operator::func_lazy(lazy[l],x), propagate(l),l++; if(r&1) --r,lazy[r] = Operator::func_lazy(lazy[r],x), propagate(r); } l = a + length, r = b + length - 1; while ((l>>=1),(r>>=1),l) { if(lazy[l] == Operator::unit_lazy) node[l] = Operator::func_node(Operator::func_merge(node[(l<<1)+0],lazy[(l<<1)+0],range[(l<<1)+0].first,range[(l<<1)+0].second),Operator::func_merge(node[(l<<1)+1],lazy[(l<<1)+1],range[(l<<1)+1].first,range[(l<<1)+1].second)); if(lazy[r] == Operator::unit_lazy) node[r] = Operator::func_node(Operator::func_merge(node[(r<<1)+0],lazy[(r<<1)+0],range[(r<<1)+0].first,range[(r<<1)+0].second),Operator::func_merge(node[(r<<1)+1],lazy[(r<<1)+1],range[(r<<1)+1].first,range[(r<<1)+1].second)); } } //get [a,b) TypeNode get(int a, int b) { int l = a + length, r = b + length - 1; for (int i = height; 0 < i; --i) propagate(l >> i), propagate(r >> i); TypeNode vl = Operator::unit_node, vr = Operator::unit_node; for(r++; l < r; l >>=1, r >>=1) { if(l&1) vl = Operator::func_node(vl,Operator::func_merge(node[l],lazy[l],range[l].first,range[l].second)),l++; if(r&1) r--,vr = Operator::func_node(Operator::func_merge(node[r],lazy[r],range[r].first,range[r].second),vr); } return Operator::func_node(vl,vr); } //return [0,length] int prefix_binary_search(TypeNode var) { int l = length, r = 2*length - 1; for (int i = height; 0 < i; --i) propagate(l >> i), propagate(r >> i); if(!Operator::func_check(node[1],var)) return num; TypeNode ret = Operator::unit_node; size_t idx = 2; for(; idx < 2*length; idx<<=1){ if(!Operator::func_check(Operator::func_node(ret,Operator::func_merge(node[idx],lazy[idx],range[idx].first,range[idx].second)),var)) { ret = Operator::func_node(ret,Operator::func_merge(node[idx],lazy[idx],range[idx].first,range[idx].second)); idx++; } } return min((idx>>1) - length,num); } //range[l,r) return [l,r] int binary_search(size_t l, size_t r, TypeNode var) { if (l < 0 || length <= l || r < 0 || length < r) return -1; for (int i = height; 0 < i; --i) propagate((l+length) >> i), propagate((r+length-1) >> i); TypeNode ret = Operator::unit_node; size_t off = l; for(size_t idx = l+length; idx < 2*length && off < r; ){ if(range[idx].second<=r && !Operator::func_check(Operator::func_node(ret,Operator::func_merge(node[idx],lazy[idx],range[idx].first,range[idx].second)),var)) { ret = Operator::func_node(ret,Operator::func_merge(node[idx],lazy[idx],range[idx].first,range[idx].second)); off = range[idx++].second; if(!(idx&1)) idx >>= 1; } else{ idx <<=1; } } return off; } void print(){ // cout << "node" << endl; // for(int i = 1,j = 1; i < 2*length; ++i) { // cout << node[i][0] << ":" << node[i][1] << ":" << node[i][2] << ", "; // if(i==((1<<j)-1) && ++j) cout << endl; // } // cout << "lazy" << endl; // for(int i = 1,j = 1; i < 2*length; ++i) { // cout << lazy[i][0] << ":" << lazy[i][1] << ":" << lazy[i][2] << ", "; // if(i==((1<<j)-1) && ++j) cout << endl; // } // cout << "vector" << endl; cout << "{ " << get(0,1)[0] << ":" << get(0,1)[1] << ":" << get(0,1)[2]; for(int i = 1; i < length; ++i) cout << ", " << get(i,i+1)[0] << ":" << get(i,i+1)[1] << ":" << get(i,i+1)[2]; cout << " }" << endl; } }; //node:総和 lazy:加算 template<class T, class U> struct NodeSumRangeMod2 { using TypeNode = T; using TypeLazy = U; inline static constexpr TypeNode unit_node = {0,0,0}; //(reverse,mod2,sum) inline static constexpr TypeLazy unit_lazy = {0,0,0}; inline static constexpr TypeNode func_node(TypeNode l,TypeNode r){ return {l[0]+r[0],l[1]+r[1],l[2]+r[2]}; } inline static constexpr TypeLazy func_lazy(TypeLazy pre_lazy,TypeLazy cur_lazy){ pre_lazy[0]^=cur_lazy[0]; if(cur_lazy[1]==1) pre_lazy[1]=1,pre_lazy[2]=0; pre_lazy[2]+=cur_lazy[2]; return pre_lazy; } inline static constexpr TypeNode func_merge(TypeNode node,TypeLazy lazy,int l, int r){ if(lazy[1]==1) node[0]=node[2]; if(lazy[0]==1) swap(node[1],node[2]); node[0]+=lazy[2]*(r-l); return node; } inline static constexpr bool func_check(TypeNode nodeVal,TypeNode var){return var <= nodeVal;} // LazySegmentTree<NodeSumRangeUpdate<ll,ll>> Seg(N,0); }; using t=array<ll,3>; int main() { cin.tie(0);ios::sync_with_stdio(false); int N,Q; cin >> N >> Q; vector<t> s(N); for(int i=0;i<N;++i) { ll a; cin >> a; s[i]={a,!(a&1),a&1}; } LazySegmentTree<NodeSumRangeMod2<t,t>> seg(s); while(Q--) { int q,l,r; cin >> q >> l >> r; l--; if(q==1) { t lazy={0,1,0}; seg.update(l,r,lazy); } if(q==2) { ll x; cin >> x; t lazy={x&1,0,x}; seg.update(l,r,lazy); } if(q==3) { cout << seg.get(l,r)[0] << endl; } // seg.print(); } return 0; }