Submission #503732

#TimeUsernameProblemLanguageResultExecution timeMemory
503732lobo_prix새로운 문제 (COCI19_akvizna)C++17
20 / 130
1562 ms262152 KiB
#include <bits/stdc++.h> #define _EXT_CODECVT_SPECIALIZATIONS_H 1 #define _EXT_ENC_FILEBUF_H 1 #include <bits/extc++.h> using namespace std; #define int i64 #define FP_EPS 1e-11 #define COUT_FP 11 using f64=double; //long double(살짝느림),__float128(매우느림) #define CPP20 1 #define ARGAUTO 1 #define DBG_SETW 3 //#define CONCEPT #define pushb(...) push_back({__VA_ARGS__}) #define pushf(...) push_front({__VA_ARGS__}) #define push_(...) push({__VA_ARGS__}) #define popb pop_back #define popf pop_front #define fi first #define se second #define mkp make_pair #define mkt make_tuple #define cxp constexpr #define lb lower_bound #define ub upper_bound #define bs binary_search #define reduce accumulate #define itos to_string using i64=long long;using u64=unsigned long long; using pint=pair<int,int>;using tint=tuple<int,int,int>; template<class T>using Str=basic_string<T>; template<class T,class CMP=greater<>>using PQ=std::priority_queue<T,vector<T>,CMP>; #define head(x) (x.begin()) #define tail(x) prev(x.end()) //Handy Funcs template<class T>int sz(const T& x){return x.size();} int divc(int a,int b){if(b<0)a=-a,b=-b;return (a>0)?(a+b-1)/b:a/b;} int divf(int a,int b){if(b<0)a=-a,b=-b;return (a>0)?a/b:(a-b+1)/b;} cxp i64 lg2f(i64 x){return 63-__builtin_clzll(x);} cxp i64 lg2c(i64 x){return 64-__builtin_clzll(x-1);} template<class T>T sq(T x){return x*x;} void WARN(bool cond,const char* str){ #if DEBUG static set<const char*> z; if(cond&&!z.count(str))z.insert(str),cerr<<"[WARN] "<<str<<endl; #endif } template<class T>cxp T inf(){return numeric_limits<T>::max()/2;} #ifdef CONCEPT template<typename T> concept MemberInf=requires(T t){t.inf();}; template<MemberInf T>T inf(){return T().inf();} #endif template<class T, class P=vector<T>> struct Arr:public P{ Arr(){P::shrink_to_fit();} explicit Arr(signed n):P(n){} explicit Arr(signed n,T init):P(n,init){} Arr(initializer_list<T>il):P(il){} #if ARGAUTO Arr(auto its, auto ite):P(its,ite){} #endif inline T& operator[](signed i){ int n=sz(*this); if(i<0)i+=n,WARN(1,"Neg Index Found"); if(i>=n)i-=n,WARN(1,"Over Index Found"); return P::operator[](i); } const T& operator[](signed i)const{ int n=sz(*this); if(i<0)i+=n,WARN(1,"Neg Index Found"); if(i>=n)i-=n,WARN(1,"Over Index Found"); return P::operator[](i); } T& at(signed i){return *this[i];} const T& at(signed i)const{return *this[i];} }; #if ARGAUTO template<class... A> auto ARR(auto n,A&&... a) {if constexpr(!sizeof...(a)) return n; else return Arr(n,ARR(a...));} #endif #define ARG(...) __VA_ARGS__ #define func(RetT,fname,...) function<RetT(__VA_ARGS__)> fname=[&](__VA_ARGS__)->RetT #define lam(expr,...) [&](__VA_ARGS__){return expr;} #define lamp(expr,...) [](__VA_ARGS__){return expr;} template<class T,class U>bool assmin(T& a,U&& b){return a>b?a=b,true:false;} template<class T,class U>bool assmax(T& a,U&& b){return a<b?a=b,true:false;} template<class T>int argmin(const Arr<T>& a){return min_element(a.begin(),a.end())-a.begin();} template<class T>int argmax(const Arr<T>& a){return max_element(a.begin(),a.end())-a.begin();} // Arr<int> range(int n){Arr<int> r;while(n--)r.pushb(sz(r));return r;} std::iota써라 template<class T>Arr<pair<int,T>> enumer(const Arr<T>& a){//views::enumerate in c++23 Arr<pair<int,T>> r; for(auto&i:a)r.pushb(sz(r),i); return r; } Arr<int> permuinv(const Arr<int>& a){ Arr<int> r(sz(a)); for(auto [i,v]:enumer(a))r[v]=i; return r; } Arr<Arr<int>> occur(const Arr<int>& a){ Arr<Arr<int>> r(*max_element(a.begin(),a.end())); for(auto [i,v]:enumer(a))r[v].pushb(i); return r; } //Consts // const f64 pi=numbers::pi_v<f64>,eps=FP_EPS; const f64 pi=acos(-1),eps=FP_EPS; const int dir[4][2]={{1,0},{0,1},{-1,0},{0,-1}}; //Pre-runs #if !(DEBUG) auto __PR1=(ios::sync_with_stdio(0),cin.tie(0),cout.tie(0)); #endif auto& __PR2=(cout<<fixed<<setprecision(COUT_FP)); // #define FASTIO //INPUT, strstream으로 더 깔끔하게 가능할까? struct FastCIN{ static const int SZ=1<<24; unsigned cnt=0;char a[SZ+1],*p; FastCIN(){preload();} void tie(int x){} int preload(){return cnt=cin.read(p=a,SZ).gcount();} inline char pop(){if(!cnt)preload(); return cnt>0?cnt--,*p++:0;} inline char get(){if(!cnt)preload(); return cnt>0?*p:0;} void ignore_wsc(){while(get()==' '||get()=='\n')pop();} operator bool(){return get();} template<class T>FastCIN& operator>>(T& n){ignore_wsc();n=0;char neg=false;if(get()=='-')neg=true,pop();while('0'<=get()&&get()<='9')n=n*10+pop()-'0';if(neg)n*=-1;return *this;}//int,i64,Mod<mod> FastCIN& operator>>(char& c){ignore_wsc();c=pop();return *this;} FastCIN& operator>>(string& s){ignore_wsc();s.clear();while(get()!=' '&&get()!='\n'&&get())s.pushb(pop());return *this;} FastCIN& operator>>(f64& n){ignore_wsc();string s;while(('0'<=get()&&get()<='9')||get()=='.'||get()=='-')s.pushb(pop());n=stod(s);return *this;} template<class T> FastCIN& operator>>(Arr<T>& a){for(auto& i:a)*this>>i;return *this;} template<class T,class U> FastCIN& operator>>(pair<T,U>& a){*this>>a.fi>>a.se;return *this;} }fcin; #define cin fcin template<class... A> void _cinread(A&...a){((cin>>(a)),...);} #define READ(T,...) T __VA_ARGS__;_cinread(__VA_ARGS__); template<class T> ostream& operator<<(ostream& s,const Arr<T>& a){for(auto i:a)cout<<i<<' ';return s;} template<class T> ostream& operator<<(ostream& o,const pair<T,T>& x){return o<<x.fi<<' '<<x.se;} template<class... A> void PRINT(A...a){((cout<<a<<' '),...,(cout<<endl));} // //TODO: concept로 인터페이스 추상화(서로 교점 하나인 그래프면 관리가능하다 함)시키고,cht.L과 lichao.LL도 geom.Line으로 통합시키자. struct LL{ static LL id(){return {0,0.-inf<int>()};} f64 a,b; f64 f(f64 x){return a*x+b;} }; //max lichao임. min필요하면 add(-a,-b),-q(x) //TODO: 정수lichao추가. //지금당장은 f64=longdouble, eps=1e-0, ans=round(f(x))로 쓰면 되긴함. template<class T,int xlo=-inf<int>(),int xhi=inf<int>()> struct LiChao{ T v=T::id(); LiChao *l{},*r{}; void add(T x,f64 cs=xlo,f64 ce=xhi){ if(ce-cs<eps)return; f64 cm=(cs+ce)/2; if(!l)l=new LiChao; if(!r)r=new LiChao; LL flo=v,fhi=x;//x=cs기준 직선의 lo,hi if(fhi.f(cs)<flo.f(cs)) swap(flo,fhi); if(flo.f(ce)<=fhi.f(ce)) v=fhi; else if(flo.f(cm)<=fhi.f(cm)) v=fhi,r->add(flo,cm,ce); else v=flo,l->add(fhi,cs,cm); //NOTE: flo를 저장할땐 fhi를 넘기고, fhi를 저장할땐 flo를 넘기는건 나중에 쿼리할때 저장한거 외에 더 내려갈때 다른쪽꺼 체크되게 하기 위함인듯. 이부분이 제일 이해하기 tricky한 부분인거같다... } f64 q(f64 x,f64 cs=xlo,f64 ce=xhi){ f64 cm=(cs+ce)/2; f64 ret=v.f(x); if(x<cm and l)ret=max(ret,l->q(x,cs,cm)); if(x>=cm and r)ret=max(ret,r->q(x,cm,ce)); return ret; } }; //Don't use it at interactive #define endl '\n' void solve(){ int n,k; cin>>n>>k; auto dp=ARR(k+1,n+2,0.-inf<int>()); dp[-1][0]=0; for(int x=0;x<k;x++){ LiChao<LL> z; z.add({dp[x-1][0]+1,0.-0}); for(int y=1;y<=n;y++){ z.add({dp[x-1][y]+1,0.-y}); dp[x][y]=z.q(y)/y; } } cout<<dp[k-1][n]<<endl; } signed main(){ // int ti=0,t;cin>>t; // while(++ti<=t) // cout<<"Case #"<<ti<<": ", solve(); }

Compilation message (stderr)

akvizna.cpp:67:6: warning: use of 'auto' in parameter declaration only available with '-fconcepts-ts'
   67 |  Arr(auto its, auto ite):P(its,ite){}
      |      ^~~~
akvizna.cpp:67:16: warning: use of 'auto' in parameter declaration only available with '-fconcepts-ts'
   67 |  Arr(auto its, auto ite):P(its,ite){}
      |                ^~~~
akvizna.cpp:85:31: warning: use of 'auto' in parameter declaration only available with '-fconcepts-ts'
   85 | template<class... A> auto ARR(auto n,A&&... a)
      |                               ^~~~
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