結果
問題 | No.399 動的な領主 |
ユーザー | eQe |
提出日時 | 2023-05-22 02:39:09 |
言語 | C++17 (gcc 12.3.0 + boost 1.83.0) |
結果 |
AC
|
実行時間 | 408 ms / 2,000 ms |
コード長 | 19,109 bytes |
コンパイル時間 | 8,958 ms |
コンパイル使用メモリ | 346,584 KB |
実行使用メモリ | 15,104 KB |
最終ジャッジ日時 | 2024-06-01 13:59:25 |
合計ジャッジ時間 | 13,609 ms |
ジャッジサーバーID (参考情報) |
judge3 / judge4 |
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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 | AC | 2 ms
6,820 KB |
testcase_02 | AC | 2 ms
6,940 KB |
testcase_03 | AC | 2 ms
6,940 KB |
testcase_04 | AC | 4 ms
6,944 KB |
testcase_05 | AC | 27 ms
6,940 KB |
testcase_06 | AC | 408 ms
15,104 KB |
testcase_07 | AC | 406 ms
15,104 KB |
testcase_08 | AC | 394 ms
14,976 KB |
testcase_09 | AC | 392 ms
14,976 KB |
testcase_10 | AC | 5 ms
6,940 KB |
testcase_11 | AC | 19 ms
6,944 KB |
testcase_12 | AC | 242 ms
14,976 KB |
testcase_13 | AC | 232 ms
14,976 KB |
testcase_14 | AC | 70 ms
14,976 KB |
testcase_15 | AC | 178 ms
14,976 KB |
testcase_16 | AC | 208 ms
15,104 KB |
testcase_17 | AC | 392 ms
14,976 KB |
testcase_18 | AC | 387 ms
15,104 KB |
ソースコード
#pragma GCC target("avx2") #pragma GCC optimize("O3","unroll-loops") #include<atcoder/all> #include<bits/stdc++.h> #define bgn(a) begin(a) #define rbg(a) rbegin(a) #define al(a) bgn(a),end(a) #define fin(...) rr vo(pp(__VA_ARGS__)) #define ep(...) emplace(__VA_ARGS__) #define eb(...) emplace_back(__VA_ARGS__) #define ef(...) else if(__VA_ARGS__) #define el else #define wh(...) while(__VA_ARGS__) #define lb(...) lower_bound(__VA_ARGS__) #define ub(...) upper_bound(__VA_ARGS__) #define srt(...) sort(al(__VA_ARGS__)) #define rv(...) reverse(al(__VA_ARGS__)) #define rsr(a) srt(a),rv(a) #define uq(a) srt(a),a.erase(unique(al(a)),end(a)) #define ov4(a,b,c,d,e,...) e #define ov5(a,b,c,d,e,f,...) f #define fo1(b) for(ll ii=0;ii<(ll)(b);++ii) #define fo2(i,b) for(ll i=0;i<(ll)(b);++i) #define fo3(i,a,b) for(ll i=(ll)(a);i<(ll)(b);++i) #define fo4(i,a,b,c) for(ll i=(ll)(a);i<(ll)(b);i+=(ll)(c)) #define fo(...) ov4(__VA_ARGS__,fo4,fo3,fo2,fo1)(__VA_ARGS__) #define of2(i,a) for(ll i=(ll)(a)-1;i>=0;--i) #define of3(i,a,b) for(ll i=(ll)(a)-1;i>=(ll)(b);--i) #define of4(i,a,b,c) for(ll i=(ll)(a)-1;i>=(ll)(b);i-=(ll)(c)) #define of(...) ov4(__VA_ARGS__,of4,of3,of2)(__VA_ARGS__) #define fe2(a,v) for(au&&a:v) #define fe3(a,b,v) for(au&&[a,b]:v) #define fe4(a,b,c,v) for(au&&[a,b,c]:v) #define fe5(a,b,c,d,v) for(au&&[a,b,c,d]:v) #define fe(...) ov5(__VA_ARGS__,fe5,fe4,fe3,fe2)(__VA_ARGS__) #define LL(...) ll __VA_ARGS__;li(__VA_ARGS__) #define DD(...) dd __VA_ARGS__;li(__VA_ARGS__) #define CH(...) char __VA_ARGS__;li(__VA_ARGS__) #define ST(...) str __VA_ARGS__;li(__VA_ARGS__) #define UL2(n,a) u1 a(n);li(a) #define UL3(n,a,b) u1 a(n),b(n);li(a,b) #define UL4(n,a,b,c) u1 a(n),b(n),c(n);li(a,b,c) #define UL5(n,a,b,c,d) u1 a(n),b(n),c(n),d(n);li(a,b,c,d) #define UL(...) ov5(__VA_ARGS__,UL5,UL4,UL3,UL2)(__VA_ARGS__) #define UV3(n,a,b) u1 a(n),b(n);vi(a,b) #define UV4(n,a,b,c) u1 a(n),b(n),c(n);vi(a,b,c) #define UV5(n,a,b,c,d) u1 a(n),b(n),c(n),d(n);vi(a,b,c,d) #define UV(...) ov5(__VA_ARGS__,UV5,UV4,UV3)(__VA_ARGS__) #define U2(h,w,a) u2 a(h,w);li(a) #define I template #define J typename #define O operator #define rr return #define uu using #define au auto #define cs const namespace atcoder{}namespace my{void main();void solve();}int main(){my::main();} namespace my{uu namespace std;uu namespace atcoder; uu is=istream;uu os=ostream;uu vo=void;uu bo=bool;uu ll=int64_t;uu ul=uint64_t;uu dd=long double;uu i128=__int128_t;uu u8=uint8_t; uu ml=modint998244353; is&O>>(is&i,ml&x){ll t;i>>t;x=t;rr i;}os&O<<(os&o,cs ml&x){rr o<<x.val();} I<J T>uu v1=vector<T>; I<J T>struct v2:v1<v1<T>>{uu v1<v1<T>>::v1;v2(ll a,ll b,T x=T{}){this->resize(a,v1<T>(b,x));}}; I<J T>struct v3:v1<v2<T>>{uu v1<v2<T>>::v1;v3(ll a,ll b,ll c,T x=T{}){this->resize(a,v2<T>(b,c,x));}}; I<J T>struct v4:v1<v3<T>>{uu v1<v3<T>>::v1;v4(ll a,ll b,ll c,ll d,T x=T{}){this->resize(a,v3<T>(b,c,d,x));}}; I<J T>struct v5:v1<v4<T>>{uu v1<v4<T>>::v1;v5(ll a,ll b,ll c,ll d,ll e,T x=T{}){this->resize(a,v4<T>(b,c,d,e,x));}}; uu u1=v1<ll>;uu u2=v2<ll>;uu u3=v3<ll>;uu u4=v4<ll>;uu m1=v1<ml>;uu m2=v2<ml>;uu m3=v3<ml>;uu m4=v4<ml>;uu m5=v5<ml>; uu str=string;uu strs=v1<str>;str sp=" ",nc="",nl="\n";str Yes(bo y=1){rr y?"Yes":"No";}str No(){rr Yes(0);} I<J A,J B=A>struct cp{ A a;B b;cp():a(A{}),b(B{}){}cp(A a,B b):a(a),b(b){}cp(pair<A,B>p):a(p.first),b(p.second){} cp&O+=(cs cp&c){a+=c.a,b+=c.b;rr*this;}cp O+(cs cp&c)cs{rr cp{*this}+=c;} cp&O-=(cs cp&c){a-=c.a,b-=c.b;rr*this;}cp O-(cs cp&c)cs{rr cp{*this}-=c;}cp O-()cs{rr cp(-a,-b);} I<J T>cp&O+=(cs T&x){a+=x,b+=x;rr*this;}I<J T>cp O+(cs T&x)cs{rr cp{*this}+=x;} I<J T>cp&O-=(cs T&x){a-=x;b-=x;rr*this;}I<J T>cp O-(cs T&x)cs{rr cp{*this}-=x;} I<J T>cp&O*=(cs T&x){a*=x;b*=x;rr*this;}I<J T>cp O*(cs T&x)cs{rr cp{*this}*=x;} au abs()cs{rr std::abs(a)+std::abs(b);}au abs(cs cp&c)cs{rr(*this-c).abs();} bo O==(cs cp&c)cs{rr a==c.a&&b==c.b;}bo O!=(cs cp&c)cs{rr!(*this==c);} bo O<(cs cp&c)cs{rr a!=c.a?a<c.a:b<c.b;}bo O>=(cs cp&c)cs{rr!(*this<c);} bo O>(cs cp&c)cs{rr a!=c.a?a>c.a:b>c.b;}bo O<=(cs cp&c)cs{rr!(*this>c);} friend is&O>>(is&i,cp&c){rr i>>c.a>>c.b;}friend os&O<<(os&o,cs cp&c){rr o<<c.a<<sp<<c.b;} };uu cl=cp<ll>;uu cls=v1<cl>; I<J A,J B=A,J C=A>struct tr{ A a;B b;C c;tr():a(A{}),b(B{}),c(C{}){}tr(A a,B b,C c):a(a),b(b),c(c){} bo O==(cs tr&t)cs{rr a==t.a&&b==t.b&&c==t.c;} bo O<(cs tr&t)cs{rr a!=t.a?a<t.a:b!=t.b?b<t.b:c<t.c;}bo O>(cs tr&t)cs{rr a!=t.a?a>t.a:b!=t.b?b>t.b:c>t.c;} friend is&O>>(is&i,tr&t){rr i>>t.a>>t.b>>t.c;}friend os&O<<(os&o,cs tr&t){rr o<<t.a<<sp<<t.b<<sp<<t.c;} };uu tl=tr<ll>;uu tls=v1<tl>; I<J A,J B=A,J C=A,J D=A>struct qu{ A a;B b;C c;D d;qu():a(A{}),b(B{}),c(C{}),d(D{}){}qu(A a,B b,C c,D d):a(a),b(b),c(c),d(d){} bo O==(cs qu&q)cs{rr a==q.a&&b==q.b&&c==q.c&&d==q.d;} bo O<(cs qu&q)cs{rr a!=q.a?a<q.a:b!=q.b?b<q.b:c!=q.c?c<q.c:d<q.d;} bo O>(cs qu&q)cs{rr a!=q.a?a>q.a:b!=q.b?b>q.b:c!=q.c?c>q.c:d>q.d;} friend os&O<<(os&o,cs qu&q){rr o<<q.a<<sp<<q.b<<sp<<q.c<<sp<<q.d;} };uu ql=qu<ll>;uu qls=v1<ql>; I<J T>struct set:std::set<T>{set(){}set(cs v1<T>&a){fe(e,a)this->ep(e);}}; I<J T>struct uset:unordered_set<T>{uset(){}uset(cs v1<T>&a){fe(e,a)this->ep(e);}}; I<J T>struct mset:multiset<T>{mset(){}mset(cs v1<T>&a){fe(e,a)this->ep(e);}bo erase(cs T&x){bo c=this->count(x);if(c)multiset<T>::erase(this->find(x));rr c;}}; uu mp=map<ll,ll>;I<J T,J U>uu umap=unordered_map<T,U>;uu ump=umap<ll,ll>;uu sl=set<ll>;uu usl=uset<ll>;uu msl=mset<ll>; I<J T>uu qmax=priority_queue<T>;I<J T>uu qmin=priority_queue<T,v1<T>,greater<T>>;uu dl=deque<ll>;I<J T>uu fn=function<T>; ll oo=3e18;dd ee=1e-12,pi=acosl(-1);u1 dx{-1,0,1,0,-1,1,1,-1},dy{0,-1,0,1,-1,-1,1,1}; bo odd(ll x){rr x&1;}bo eve(ll x){rr !odd(x);}ll pm1(ll x){rr 1-2*(x&1);}ll pw2(ll n){rr 1LL<<n;} ll rng1(ll l,ll r){rr pw2(r)-pw2(l);}ll rngbit(ll x,ll l,ll r){rr rng1(l,r)&x;}//[l,r) ll ppc(ll x,ll l=0,ll r=63){rr __builtin_popcountll(rngbit(x,l,r));} ll sqr(ll x){if(x<=1)rr x;ll r=sqrtl(x)-1;wh(r+1<=x/(r+1))++r;rr r;}I<J T>T sq(cs T&a){rr a*a;} ll cbr(ll x){if(x<=1)rr x;ll r=cbrtl(x)-1;wh(r+1<=x/(r+1)/(r+1))++r;rr r;}I<J T>T cb(cs T&a){rr a*a*a;} ll l2(i128 x){if(x<0)rr 0;x|=1;ll r=0;wh(x)x>>=1,++r;rr r;}ll l10(i128 x){if(x<0)rr 0;x|=1;ll r=0;wh(x)x/=10,++r;rr r;} ll msb(ll x){rr x?l2(x)-1:-1;}ll lsb(ll x){rr x?__builtin_ctzll(x):-1;} u1 io(ll n,ll x=0){u1 a(n);iota(al(a),x);rr a;} I<J T,J U,J V>au sum(T a,U d,V n){rr n*(a*2+(n-1)*d)/2;} I<J T>ll len(cs T&a){rr a.size();}I<J T>bo mu(cs T&a){rr !len(a);} I<J T>bo at(T S,ll i){rr S>>i&1;}I<J T>T at(cs v1<T>&v,ll i){ll n=len(v);rr v[(i%n+n)%n];} I<J T>ll sgn(cs T&a){rr(a>ee)-(a<-ee);}I<J T,J U>ll sgn(cs T&a,cs U&b){rr sgn(a-b);} I<J T,J U>T cei(T x,U y){assert(y);rr(y<0?cei(-x,-y):(x>0?(x+y-1)/y:x/y));} I<J T,J U>T flo(T x,U y){assert(y);rr(y<0?flo(-x,-y):(x>0?x/y:x/y-(x%y!=0)));} I<J T>T rect(cs v1<T>&s,ll l,ll r){assert(0<=l&&l<=r&&r<=len(s));T t{};if(r)t+=s[r-1];if(l)t-=s[l-1];rr t;} I<J T>au slice(cs v1<T>&a,ll l,ll r){rr v1<T>(bgn(a)+l,bgn(a)+r);} I<J T,J U=T>vo af(v1<T>&v,U e=U{}){v.ep(bgn(v),e);}I<J T>vo df(v1<T>&v){v.erase(bgn(v));} I<J T>decltype(au)bg(T&a){rr*bgn(a);}I<J T>decltype(au)rb(T&a){rr*rbg(a);} I<J T>T pop(v1<T>&v){T r=rb(v);v.pop_back();rr r;} I<J T>T pop(qmax<T>&q){T r=q.top();q.pop();rr r;}I<J T>T pop(qmin<T>&q){T r=q.top();q.pop();rr r;} I<J T>T pof(deque<T>&q){T r=bg(q);q.pop_front();rr r;}I<J T>T pob(deque<T>&q){T r=rb(q);q.pop_back();rr r;} I<J T>au&O^=(v1<T>&v,cs v1<T>u){copy(al(u),back_inserter(v));rr v;}I<J T>au O^(v1<T>v,cs v1<T>&u){rr v^=u;} I<J T>au&O+=(v1<T>&v,cs v1<T>&u){fo(i,len(v))v[i]+=u[i];rr v;}I<J T>au O+(v1<T>v,cs v1<T>&u){rr v+=u;} I<J T>au&O-=(v1<T>&v,cs v1<T>&u){fo(i,len(v))v[i]-=u[i];rr v;}I<J T>au O-(v1<T>v,cs v1<T>&u){rr v-=u;} I<J T>au&O++(v1<T>&v){fe(e,v)++e;rr v;}I<J T>au O++(v1<T>&v,int){au r=v;++v;rr r;} I<J T>au&O--(v1<T>&v){fe(e,v)--e;rr v;}I<J T>au O--(v1<T>&v,int){au r=v;--v;rr r;}I<J T>au O-(v1<T>v){fe(e,v)e*=-1;rr v;} I<J T,J U>au&O+=(v1<T>&v,cs U a){fe(e,v)e+=a;rr v;}I<J T,J U>au O+(v1<T>v,cs U&a){rr v+=a;} I<J T,J U>au&O-=(v1<T>&v,cs U a){fe(e,v)e-=a;rr v;}I<J T,J U>au O-(v1<T>v,cs U&a){rr v-=a;} I<J T,J U>au&O*=(v1<T>&v,cs U a){fe(e,v)e*=a;rr v;}I<J T,J U>au O*(v1<T>v,cs U&a){rr v*=a;} I<J T,J U>au&O/=(v1<T>&v,cs U a){fe(e,v)e/=a;rr v;}I<J T,J U>au O/(v1<T>v,cs U&a){rr v/=a;} I<J T,J U>bo amax(T&a,cs U&b){rr a<b?a=b,1:0;}I<J...T>au max(T...a){rr max(initializer_list<common_type_t<T...>>{a...});} I<J T,J U>bo amin(T&a,cs U&b){rr a>b?a=b,1:0;}I<J...T>au min(T...a){rr min(initializer_list<common_type_t<T...>>{a...});} I<J T>T max(cs v1<T>&a){rr*max_element(al(a));}I<J T>au max(cs v2<T>&a){rr max(*max_element(al(a)));} I<J T>T min(cs v1<T>&a){rr*min_element(al(a));}I<J T>au min(cs v2<T>&a){rr min(*min_element(al(a)));} I<J T>T sum(cs v1<T>&a){rr accumulate(al(a),T{});}I<J T>T sum(cs v2<T>&a){T r{};fe(e,a)r+=sum(e);rr r;} I<J T,J U>ll lbs(cs v1<T>&a,cs U&b){rr lb(al(a),b)-bgn(a);}I<J T,J U>ll ubs(cs v1<T>&a,cs U&b){rr ub(al(a),b)-bgn(a);} struct fio{fio(){cin.tie(0);ios::sync_with_stdio(0);cout<<fixed<<setprecision(12);}}fio; os&O<<(os&o,cs i128&x){if(x<0)rr o<<"-"<<-x;if(x<10)rr o<<(char)(x+'0');rr o<<x/10<<(char)(x%10+'0');} I<J T,J U>os&O<<(os&o,cs pair<T,U>&p){rr o<<p.first<<sp<<p.second;} I<J T>os&O<<(os&o,qmax<T>q){wh(len(q))o<<pop(q)<<sp;rr o;}I<J T,J U>os&O<<(os&o,cs map<T,U>&m){fe(p,m)o<<p<<nl;rr o;} I<J T>os&O<<(os&o,qmin<T>q){wh(len(q))o<<pop(q)<<sp;rr o;}I<J T,J U>os&O<<(os&o,cs umap<T,U>&m){fe(p,m)o<<p<<nl;rr o;} I<J T>os&O<<(os&o,cs v1<T>&v){fe(e,v)o<<e<<(&e==&rb(v)?nc:sp);rr o;}I<J T>is&O>>(is&i,v1<T>&v){fe(e,v)i>>e;rr i;} I<J T>os&O<<(os&o,cs v2<T>&v){fe(e,v)o<<e<<(&e==&rb(v)?nc:nl);rr o;} ll pp(){cout<<nl;rr 0;}I<J T,J...A>ll pp(cs T&a,cs A&...b){cout<<a;((cout<<sp<<b),...);rr pp();} I<J...T>ll li(T&...a){(cin>>...>>a);rr 0;} I<J...T>vo vi(ll i,T&...a){(cin>>...>>a[i]);}I<J T,J...A>vo vi(v1<T>&a,A&...b){fo(i,len(a))vi(i,a,b...);} struct edg{ll t,w;edg(){}edg(ll t,ll w=1):t(t),w(w){}};uu graph=v2<edg>; u2 tou(cs graph&g){ll n=len(g);u2 a(n);fo(u,n)fe(v,w,g[u])a[u].eb(v);rr a;} graph tog(cs u2&a){ll n=len(a);graph g(n);fo(u,n)fe(v,a[u])g[u].eb(v);rr g;} au mgi(u2&g,ll m){UV(m,a,b);--a,--b;fo(i,m)g[a[i]].eb(b[i]),g[b[i]].eb(a[i]);rr tuple(a,b);} au ygi(u2&g,ll m){UV(m,a,b);--a,--b;fo(i,m)g[a[i]].eb(b[i]);rr tuple(a,b);} au mgi(graph&g,ll m){UV(m,a,b,c);--a,--b;fo(i,m)g[a[i]].eb(b[i],c[i]),g[b[i]].eb(a[i],c[i]);rr tuple(a,b,c);} au ygi(graph&g,ll m){UV(m,a,b,c);--a,--b;fo(i,m)g[a[i]].eb(b[i],c[i]);rr tuple(a,b,c);} au ti(u2&g){rr mgi(g,len(g)-1);}au ti(graph&g){rr mgi(g,len(g)-1);} au de(cs u1&a,cs char&b='a'){str r{};fe(e,a)r+=e+b;rr r;} au de(cs u2&a,cs char&b='a'){ll n=len(a);strs r(n);fo(i,n)r[i]=de(a[i],b);rr r;} au de(cs u1&a,cs str&b){ll n=len(a);str r(n,'$');fo(i,n)fo(j,len(b))if(a[i]==j){r[i]=b[j];break;}rr r;} au de(cs u2&a,cs str&b){ll n=len(a);strs r(n);fo(i,n)r[i]=de(a[i],b);rr r;} u1 en(cs str&s,cs char&b='a'){u1 r;fe(c,s)r.eb(c-b);rr r;} u2 en(cs strs&s,cs char&b='a'){u2 r;fe(e,s)r.eb(en(e,b));rr r;} u1 en(cs str&s,cs str&b){ll n=len(s);u1 r(n,-1);fo(i,n)fo(j,len(b))if(s[i]==b[j]){r[i]=j;break;}rr r;} u2 en(cs strs&s,cs str&b){u2 r;fe(e,s)r.eb(en(e,b));rr r;} str ins(){str s;li(s);rr s;}strs ins2(ll n){strs s(n);li(s);rr s;}u1 abc(){rr en(ins());}u2 abcs(ll n){rr en(ins2(n));} I<J F>struct rec:F{rec(F&&f):F(std::forward<F>(f)){}I<J...T>decltype(au)O()(T&&...a)cs{rr F::O()(*this,std::forward<T>(a)...);}}; I<J T,J...A>au tzp(A&...a){v1<T>v;fe(e,{a...})v^=e;uq(v);rr v;} vo pz(cs u1&v,u1&h){fe(e,h)e=lbs(v,e);}I<J...T>vo pz(cs u1&v,u1&h,T&...t){pz(v,h);pz(v,t...);} I<J...T>u1 zp(T&...a){u1 v=tzp<ll>(a...);pz(v,a...);rr v;}u1 zp(u2&a){u1 v;fe(e,a)v^=e;uq(v);fe(e,a)fe(x,e)x=lbs(v,x);rr v;} I<J T>vo sv(cs u1&o,v1<T>&a){au c=a;fo(i,len(a))a[i]=c[o[i]];}I<J T,J...A>vo sv(cs u1&o,v1<T>&a,A&...b){sv(o,a);sv(o,b...);} I<J T>u1 vs(cs fn<bo(ll,ll)>&f,v1<T>&a){u1 o=io(len(a));sort(al(o),f);sv(o,a);rr o;} I<J T,J...A>u1 vs(cs fn<bo(ll,ll)>&f,v1<T>&a,A&...b){u1 o=io(len(a));sort(al(o),f);sv(o,a);sv(o,b...);rr o;} ll bsl(cs fn<bo(ll)>&j,ll o,ll n){wh(abs(o-n)>1)(j((o+n)/2)?o:n)=(o+n)/2;rr o;} dd bsd(cs fn<bo(dd)>&j,dd o,dd n){wh(abs(o-n)>ee)(j((o+n)/2)?o:n)=(o+n)/2;rr o;} I<J T>au zt(v1<T>a){fo(i,1,len(a))a[i]+=a[i-1];rr a;}I<J T>au zt(v2<T>a){fe(v,a)v=zt(v);fo(i,1,len(a))a[i]+=a[i-1];rr a;} I<J T>au mb(v1<T>a){of(i,len(a),1)a[i]-=a[i-1];rr a;}I<J T>au mb(v2<T>a){fe(v,a)v=mb(v);of(i,len(a),1)a[i]-=a[i-1];rr a;} au rle(cs u1&a){cls r;fe(e,a)len(r)&&e==rb(r).a?++rb(r).b,0:(r.eb(e,1),0);rr r;} au rce(cs u1&a){cls r;ump m;fe(e,a)++m[e];fe(k,v,m)r.eb(k,v);rr uq(r),r;} u1 divs(ll n){u1 r;fo(i,1,n/i+1)if(n%i==0)r.eb(i),r.eb(n/i);rr uq(r),r;} mp fact(ll n){ump m;fo(i,2,n/i+1)wh(n%i==0)++m[i],n/=i;if(n>1)++m[n];rr mp(al(m));} i128 inv(i128 a,i128 m){a=(a%m+m)%m;i128 b=m,u=1,v=0;wh(b)u-=a/b*v,swap(u,v),a-=a/b*b,swap(a,b);rr(u%m+m)%m;} i128 pow(i128 x,i128 n){assert(n>=0);i128 r=1;wh(n){if(n&1)r*=x;x*=x,n>>=1;}rr r;} i128 pow(i128 x,i128 n,i128 m){if(n<0)n=-n,x=inv(x,m);i128 r=1;wh(n){if(n&1)r*=x,r%=m;x*=x,x%=m,n>>=1;}rr r;} I<J S>struct link_cut_node{ ll ind;//頂点番号 ll size; S val,acc; bo rev; link_cut_node *par,*left,*righ; link_cut_node(ll i,S x){ ind=i; size=1; val=acc=x; rev=0; par=left=righ=nullptr; } }; I<J S,J F>struct link_cut_lazy_node{ ll ind;//頂点番号 ll size; S val,acc; F lz; bo rev; link_cut_lazy_node *par,*left,*righ; link_cut_lazy_node(ll i,S x,F f=F()){ ind=i; size=1; val=acc=x; lz=f; rev=0; par=left=righ=nullptr; } }; I<J S,S op(S,S),S e(),vo reverse_prod(S&),J link_cut_node>struct link_cut_tree{ uu node_ptr=link_cut_node*; v1<node_ptr>ptr; link_cut_tree(ll n=0):link_cut_tree(v1<S>(n)){} link_cut_tree(cs v1<S>&a){ ptr.resize(len(a)); fo(i,len(a))ptr[i]=create_node(i,a[i]); } decltype(au)O[](ll u){rr ptr[u];} virtual node_ptr create_node(ll i,cs S&x){ rr new link_cut_node(i,x); } inline vo set(ll u,cs S&x){set(ptr[u],x);} vo set(cs node_ptr&me,cs S&x){ access(me); me->val=x; update(me); } int state(cs node_ptr&me)cs{ if(!me->par)rr 0; ef(me->par->left==me)rr-1; ef(me->par->righ==me)rr 1; rr 0;//パス上の根の場合ここに来る. } vo rotate(cs node_ptr&me)cs{ node_ptr p=me->par,pp=p->par,c; if(state(me)<0)c=me->righ,me->righ=p,p->left=c; el c=me->left,me->left=p,p->righ=c; if(pp&&pp->left==p)pp->left=me; if(pp&&pp->righ==p)pp->righ=me; me->par=pp; p->par=me; if(c)c->par=p; } node_ptr splay(cs node_ptr&me){ push(me); wh(state(me)){ node_ptr p=me->par,pp=p->par; if(pp)push(pp); push(p); push(me); if(state(p)==0)rotate(me);//zig ef(state(me)==state(p))rotate(p),rotate(me);//zig-zig el rotate(me),rotate(me);//zig-zag if(pp)update(pp); update(p); update(me); } rr update(me); } vo toggle(cs node_ptr&me){ swap(me->left,me->righ); reverse_prod(me->acc); me->rev^=1; } virtual vo push(cs node_ptr&me){ if(me->rev){ if(me->left)toggle(me->left); if(me->righ)toggle(me->righ); me->rev=0; } } node_ptr update(cs node_ptr&me){ me->size=1; me->acc=me->val; if(me->left){ me->size+=me->left->size; me->acc=op(me->left->acc,me->acc); } if(me->righ){ me->size+=me->righ->size; me->acc=op(me->acc,me->righ->acc); } rr me; } inline ll access(ll u){rr access(ptr[u])->ind;} node_ptr access(cs node_ptr&me){ node_ptr pre=nullptr; for(node_ptr cu=me;cu;cu=cu->par){ splay(cu); cu->righ=pre; pre=update(cu); } splay(me); rr pre; } inline vo link(ll u,ll v){link(ptr[u],ptr[v]);} vo link(cs node_ptr&me,cs node_ptr&you){ evert(me); access(you); me->par=you; } inline vo cut(ll u,ll v){cut(ptr[u],ptr[v]);} vo cut(cs node_ptr&me,cs node_ptr&you){ evert(me); access(you); assert(you->left==me); me->par=you->left=nullptr; update(you); } inline u1 path(ll u){rr path(ptr[u]);} u1 path(cs node_ptr&me){//me→元の木の根のパス access(me); u1 res; rec([&](au&&dfs,node_ptr cu)->vo{ if(!cu)rr; dfs(cu->righ); res.eb(cu->ind); dfs(cu->left); })(me); rr res; } inline vo evert(ll u){rr evert(ptr[u]);} vo evert(cs node_ptr&me){//accessすることで根からmeのパスの反転だけで済む. access(me); toggle(me); push(me); } inline ll root(ll u){rr root(ptr[u])->ind;} node_ptr root(cs node_ptr&me){ access(me); node_ptr cu=me; wh(cu->left)cu=cu->left; rr splay(cu); } ll lca(ll u,ll v){rr lca(ptr[u],ptr[v])->ind;} node_ptr lca(cs node_ptr&me,cs node_ptr&you){ rr access(me),access(you); } bo same(ll u,ll v){rr same(ptr[u],ptr[v]);} bo same(cs node_ptr&me,cs node_ptr&you){ rr root(me)==root(you); } inline S prod(ll u,ll v){rr prod(ptr[u],ptr[v]);} S prod(cs node_ptr&me,cs node_ptr&you){//me→youまでのパスの集約値 evert(me); access(you); rr you->acc; } }; I<J S,S op(S,S),S e(),vo reverse_prod(S&),J F,S mapping(F,S),F composition(F,F),F(*id)(),J link_cut_lazy_node> struct link_cut_lazy_tree:link_cut_tree<S,op,e,reverse_prod,link_cut_lazy_node>{ uu base=link_cut_tree<S,op,e,reverse_prod,link_cut_lazy_node>; uu node_ptr=link_cut_lazy_node*; link_cut_lazy_tree(ll n=0):link_cut_lazy_tree(v1<S>(n)){} link_cut_lazy_tree(cs v1<S>&a){ base::ptr.resize(len(a)); fo(i,len(a))base::ptr[i]=create_node(i,a[i]); } node_ptr create_node(ll i,cs S&x)override{ rr new link_cut_lazy_node(i,x,id()); } vo push(cs node_ptr&me)override{ if(me->left){ me->left->val=mapping(me->lz,me->left->val); me->left->acc=mapping(me->lz,me->left->acc); me->left->lz=composition(me->lz,me->left->lz); } if(me->righ){ me->righ->val=mapping(me->lz,me->righ->val); me->righ->acc=mapping(me->lz,me->righ->acc); me->righ->lz=composition(me->lz,me->righ->lz); } if(me->rev){ if(me->left)base::toggle(me->left); if(me->righ)base::toggle(me->righ); me->rev=0; } me->lz=id(); } inline vo apply(ll u,F f){apply(base::ptr[u],f);} vo apply(cs node_ptr&me,F f){//根→meまでのパスに作用 base::access(me); me->val=mapping(f,me->val); me->acc=mapping(f,me->acc); me->lz=composition(f,me->lz); //base::splay(me); } }; uu S=cl; uu F=ll; S e(){rr{};} F id(){rr 0;} S op(S a,S b){rr a+b;} S mapping(F f,S x){rr S(x.a+f*x.b,x.b);} F composition(F f,F g){rr f+g;} vo reverse_prod(S&x){} vo main(){ll T=1;fo(T)solve();} vo solve(){ LL(N); link_cut_lazy_tree<S,op,e,reverse_prod,F,mapping,composition,id,link_cut_lazy_node<S,F>>lt(N); fo(i,N)lt.set(i,{0,1}); fo(N-1){ LL(u,v);u--,v--; lt.link(u,v); } ll su=0; LL(Q); fo(Q){ LL(s,t);s--,t--; lt.evert(s); lt.apply(t,1); su+=lt.prod(s,t).a; } pp(su); }}